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ON Semiconductor Master Components Selector Guide Power Management, Amplifiers and Comparators, Analog Switches, Thyristors, Diodes, Rectifiers, Bipolar Transistors, FETs, Circuit Protection, Clock and Data Management, Interface, and Standard Logic Devices

SG388/D Rev. 9, May−2007

© SCILLC, 2007 Previous Edition © 2005 “All Rights Reserved”

ACE Loop, AnyLevel, BERS, Bullet−Proof, CHIPSCRETES, DUOWATT, E−FET, EASY SWITCHER, ECLinPS, ECLinPS Lite, ECLinPS MAX, ECLinPS Plus, EpiBase, Epicap, EZFET, FASTMOS, FLEXMOS, From−the−Socket−to−the−Pocket, FULLPAK, GEMFET, GigaComm, GreenPoint, HDPlus, HVTMOS, ICePAK, L2TMOS, MCCS, MDTL, MECL, MEGAHERTZ, MHTL, MicroIntegration, MicroLeadless, MiniGate, MiniMOS, MiniMOSORB, MOSORB, MRTL, MTTL, Multi−Pak, NOCAP, ON−Demand, PInPAK, PMODE, PowerBase, POWERSENSE, POWERTAP, PureEdge, Quake, SENSEFET, SLEEPMODE, SMALLBLOCK, SMARTDISCRETES, SMART HotPlug, SMARTswitch, Soft−Skip, SUPERBRIDGES, SuperLock, SURMETIC, SWITCHMODE, ThermalTrak, Thermopad, Thermowatt, TMOS, TMOS & Design Device, TMOS Stylized, mCool, Unibloc, UNIWATT, VPower, WAVEFET, Z−Switch and ZIP R TRIM are trademarks of Semiconductor Components Industries, LLC (SCILLC). HDTMOS is a registered trademark of Semiconductor Components Industries, LLC (SCILLC). All brand names and product names appearing in this document are registered trademarks or trademarks of their respective holders. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

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Industrial/Appliances/Motor Control . . . . . . . . . . . . . . . Automotive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Smart Drivers (High-Side, Low-SIde & H-Bridge) . . . . . . . . . . . . LIN Transceivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . CAN Transceivers . . . . . . . . . . . . . . . . . . . . . . . . . . . DC Brush Motor Control . . . . . . . . . . . . . . . . . . . . . . LS Quad Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Closed Loop Brushless Motor Adapter . . . . . . . . . . Alternator Voltage Regulator FET Drivers . . . . . . . TRIAC Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . Stepper Motor Driver . . . . . . . . . . . . . . . . . . . . . . . . . Brushless DC Motor Controllers . . . . . . . . . . . . . . . . Air Core Motor Drivers / Gauge Drivers . . . . . . . . . Networking / Computing . . . . . . . . . . . . . . . . . . . . . . . . . Wireless & Portable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . LED / Display Drivers . . . . . . . . . . . . . . . . . . . . . . . . . Relay Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . LED Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Integrated PNP/NPN Digital Transistor Array . . . . . . . Inrush Current Limiter . . . . . . . . . . . . . . . . . . . . . . . . . . . Smart HotPlug™ – Low Side . . . . . . . . . . . . . . . . . . Smart HotPlug™ – High Side . . . . . . . . . . . . . . . . . . Hybrid Diode IC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Floating, Regulated Charge Pump . . . . . . . . . . . . . . . . Overvoltage Protection IC with Integrated P-Channel MOSFET . . . . . . . . . . . . . . . . . . . . . . . . . . .

Power Management Family Tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Power Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Topologies Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Summary of Choosing a Topology . . . . . . . . . . . . . . 17 Power Factor Correction Control Modes . . . . . . . . 18 Power Factor Controllers . . . . . . . . . . . . . . . . . . . . . . . . 19 Variable Frequency / Critical Conduction Mode . . . 20 Fixed Frequency / Continuous Conduction Mode . 20 Fixed Frequency / Discontinuous Conduction Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Single Stage PFC . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Off-Line Switching Controllers . . . . . . . . . . . . . . . . . . . 22 Flyback / Forward Fixed Frequency . . . . . . . . . . . . 23 Flyback Variable Frequency . . . . . . . . . . . . . . . . . . . 25 Push-Pull / Half-Bridge Controllers . . . . . . . . . . . . 26 UC384X Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Secondary Side Post Regulation Controllers . . . . . 28 Synchronous Buck Post Regulator Controller – Forward Topologies . . . . . . . . . . . . . . . . . . . . . . . . 28 Off-Line Switching Regulators . . . . . . . . . . . . . . . . . . . 29 Off-Line Switching Regulators . . . . . . . . . . . . . . . . . 30 DC-DC Switching Non-Isolated . . . . . . . . . . . . . . . . . . 31 Buck Switching Regulator – (Internal Switch) . . . . 32 Boost Switching Regulator – (Internal Switch) . . . . 33 Multi-T opology (Step-Up, Step-Down, Inverting) Switching Regulator – (Internal Switch) . . . . . . . . . 34 Buck Switching Controllers (External Switch) . . . . 35 Dual Buck Switching Controllers (External Switch) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Boost Switching Controllers (External Switch) . . . . 35 DC-DC Switching Isolated . . . . . . . . . . . . . . . . . . . . . . . 36 Switching Controllers for Step-Down Isolated Topologies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 DC-DC Switching – CPU DC-DC Controllers . . . . . . 38 Voltage Reference / Feedback Controller . . . . . . . . . . 39 Series Voltage References . . . . . . . . . . . . . . . . . . . . 40 Shunt Voltage References . . . . . . . . . . . . . . . . . . . . 40 Linear Voltage Regulators . . . . . . . . . . . . . . . . . . . . . . . 41 General Purpose Linear Voltage Regulators . . . . 41 Multi-Market – Low Dropout (LDO) Voltage Regulators . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Automotive Linear Voltage Regulators . . . . . . . . . . . . . 51 Voltage Supervisory . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 LED / Display Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 Battery Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 MOSFET/IGBT Drivers . . . . . . . . . . . . . . . . . . . . . . . 63 Alternator Voltage Regulator Darlington Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 Dedicated Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 Smart Drivers (High-Side, Low-Side & H-Bridge) . . . . . . . . . . . . 66 LS Quad Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 LS Pre-Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Application Specific Standard Products . . . . . . . . . . . . . . 67

68 69 70 70 70 71 71 71 72 72 72 73 73 75 76 77 78 80 81 81 81 82 83 83 84

Amplifiers & Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87 Single Operational Amplifiers . . . . . . . . . . . . . . . . . . . . . 91 Dual Operational Amplifiers . . . . . . . . . . . . . . . . . . . . . . . 93 Quad Operational Amplifiers . . . . . . . . . . . . . . . . . . . . . . 95 Single Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 Dual Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 Quad Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 Audio Amplifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99 Transconductance Amplifiers . . . . . . . . . . . . . . . . . . . . . 99 Video Amplifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 Compandors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100

Analog Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101 Audio Analog Switches . . . . . . . . . . . . . . . . . . . . . . . . . 102 Data Analog Switches . . . . . . . . . . . . . . . . . . . . . . . . . . 102 General Purpose Analog Switches . . . . . . . . . . . . . . . 102

Thyristors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105 SCRs: Silicon Controlled Rectifiers . . . . . . . . . . . . . . . . 108 TRIACs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 Surge Suppressors and Triggers . . . . . . . . . . . . . . . . . . 114

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Diodes

FETs

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 117 Tuning and Switching Diodes Abrupt Junction Tuning Diodes . . . . . . . . . . . . . . . . . 118 Hyper-Abrupt Junction Tuning Diodes . . . . . . . . . . . 118 Schottky Diodes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 Pin Switching Diodes . . . . . . . . . . . . . . . . . . . . . . . . . . 121 General Purpose Signal & Switching Diodes . . . . . . 122 Zener Diodes – Regulation in Axial Leads . . . . . . . . . . 124 Zener Diodes – Regulation in Surface Mount . . . . . . . . 126

JFETS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 190 High-Frequency Amplifiers . . . . . . . . . . . . . . . . . . . . . 190 Switches and Choppers . . . . . . . . . . . . . . . . . . . . . . . 190 Low-Frequency/Low Noise . . . . . . . . . . . . . . . . . . . . 191 MOSFET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT-723 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT-723 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT-563 Complementary . . . . . . . . . . . . . . . . . . . . . 192 SOT-563 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT-563 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC-75 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC-75 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC-89 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC-89 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 WDFN6 Complementary . . . . . . . . . . . . . . . . . . . . . . . 192 WDFN6 FETKY® N-Channel . . . . . . . . . . . . . . . . . . 192 WDFN6 FETKY® P-Channel . . . . . . . . . . . . . . . . . . . 192 WDFN6 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 WDFN6 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 WDFN6 P-Channel Load Switch . . . . . . . . . . . . . . . . 193 SC-88 Complementary . . . . . . . . . . . . . . . . . . . . . . . . 193 SC-88 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 SC-88 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 SC-88 P-Channel Load Switch . . . . . . . . . . . . . . . . . 193 SC-70 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 SC-70 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 TSOP-6 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 194 TSOP-6 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 194 TSOP-6 P-Channel Load Switch . . . . . . . . . . . . . . . 194 TSSOP-8 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . 194 SOT-23 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 SOT-23 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 ChipFET™ Complementary . . . . . . . . . . . . . . . . . . . . 195 ChipFET™ FETKY® N-Channel . . . . . . . . . . . . . . . . 195 ChipFET™ FETKY® P-Channel . . . . . . . . . . . . . . . . 195 ChipFET™ N-Channel . . . . . . . . . . . . . . . . . . . . . . . . 195 ChipFET™ P-Channel . . . . . . . . . . . . . . . . . . . . . . . . 195 Micro8™ FETKY® P-Channel . . . . . . . . . . . . . . . . . . 195 Micro8™ P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 195 DFN 6 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 DFN 6 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 DFN 8 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 SOT-223 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . 196 SOT-223 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 196 SO-8 Complementary . . . . . . . . . . . . . . . . . . . . . . . . . 196 SO-8 FETKY® N-Channel . . . . . . . . . . . . . . . . . . . . 196 SO-8 FETKY® P-Channel . . . . . . . . . . . . . . . . . . . . 196 SO-8 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 SO-8 P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 197 SO-8FL N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 197 DPAK N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 197 DPAK P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 198 D2PAK N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199 D2PAK P-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199 TO-92 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 200 TO-220AB N-Channel . . . . . . . . . . . . . . . . . . . . . . . . 200 TO-220AB P-Channel . . . . . . . . . . . . . . . . . . . . . . . . 200 TO-247 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 200 TO-264 N-Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 200 Product Replacement Table . . . . . . . . . . . . . . . . . . . . 201 Protected MOSFETs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209

Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135 Application Specific Rectifiers . . . . . . . . . . . . . . . . . . . . . 138 Low VF Schottky . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138 Low Leakage Schottky . . . . . . . . . . . . . . . . . . . . . . . . 138 High Voltage Schottky . . . . . . . . . . . . . . . . . . . . . . . . . 138 MEGAHERTZ™ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 UltraSoft Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 Energy Rated Rectifiers . . . . . . . . . . . . . . . . . . . . . . . 139 Automotive Transient Suppressors . . . . . . . . . . . . . . 139 SCHOTTKY Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . 140 Surface Mount Schottky . . . . . . . . . . . . . . . . . . . . . . . 140 Axial Lead Schottky . . . . . . . . . . . . . . . . . . . . . . . . . . . 143 TO-220 Type Schottky . . . . . . . . . . . . . . . . . . . . . . . . 144 TO-218 Types and TO-247 Schottky . . . . . . . . . . . . 145 UltraSoft Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145 Ultrafast Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146 Surface Mount Ultrafast . . . . . . . . . . . . . . . . . . . . . . . . 146 Axial Lead Ultrafast . . . . . . . . . . . . . . . . . . . . . . . . . . . 147 TO-220 Type Ultrafast . . . . . . . . . . . . . . . . . . . . . . . . 148 TO-218 Types and TO-247 Ultrafast . . . . . . . . . . . . 148 Fast Recovery Rectifiers/General Purpose Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 149

Bipolar Transistors Bipolar Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156 Discrete Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . . 157 Surface Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157 Through-Hole . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 158 Darlington Transistors . . . . . . . . . . . . . . . . . . . . . . . . . 162 Surface Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162 Through-Hole . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162 Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164 Electronic Lamp Ballasts . . . . . . . . . . . . . . . . . . . . . . . 166 General-Purpose Transistors . . . . . . . . . . . . . . . . . . . 167 General-Purpose Multiple Transistors . . . . . . . . . . . 172 Low Noise and Good hFE Linearity . . . . . . . . . . . . . . 173 Darlington Transistors . . . . . . . . . . . . . . . . . . . . . . . . . 173 High Current Transistors . . . . . . . . . . . . . . . . . . . . . . . 174 High Voltage Transistors . . . . . . . . . . . . . . . . . . . . . . . 176 RF Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177 Switching Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . 177 Multiple Switching Transistors . . . . . . . . . . . . . . . . . . 178 Digital Transistors (Bias Resistor Transistors) . . . . . 179 Dual Digital Transistors (Bias Resistor Transistors). . . . . . . . . . . . . . . . . . 181 Combinational Digital Transistors (Bias Resistor Transistors). . . . . . . . . . . . . . . . . . 182 Complex Digital Transistors . . . . . . . . . . . . . . . . . . . . 183 Low Saturation Voltage Transistors . . . . . . . . . . . . . . 184 Load Switch Transistors . . . . . . . . . . . . . . . . . . . . . . . 185

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Shift Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 281 Multiplexers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 282 Serial/Parallel Converter and Parallel/Serial Converters . . . . . . . . . . . . . . . . . . . . . . . . 283 Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 284 Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 285 Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 286 Parity Checkers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 286 Drivers/Receivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 287 Drivers/Buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 290

Circuit Protection Circuit Protection Transient Voltage/ESD Protection . . . . . . . . . . . . . . . 217 TVS Arrays in Surface Mount . . . . . . . . . . . . . . . . 217 TVS Low Capacitance Surface Mount for USB 2.0 and 1.1 . . . . . . . . . . . . . . . . . . . . . . 221 TVS Low Capacitance Surface Mount for High Speed Data Lines . . . . . . . . . . . . . . . . 223 TVS (Transient Voltage Suppressors) . . . . . . . . . . . . . . 224 Axial Leaded . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 224 500 Watt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 224 600 Watt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225 1500 Watt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226 Surface Mount Packages . . . . . . . . . . . . . . . . . . . . . . 228 200 Watt (POWERMITE®) . . . . . . . . . . . . . . . . . . 228 200 Watt (SOD-123FL) . . . . . . . . . . . . . . . . . . . . . 229 400 Watt (SMA) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230 600 Watt (SMB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 232 1500 Watt (SMC) . . . . . . . . . . . . . . . . . . . . . . . . . . . 238 TVS/ESD Protection . . . . . . . . . . . . . . . . . . . . . . . . . . 240 One Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 240 Two Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 243 Four Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 246 Five Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 248 Low Capacitance TVS/ESD Protection . . . . . . . . . . . 249 One Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 249 Two Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 250 Four Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 251 Eight Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 255 EMI Filter Circuits Data Line Protection . . . . . . . . . . . . . . . . . . . . . . . . 256 Audio Line Protection . . . . . . . . . . . . . . . . . . . . . . . 261 USB DATA Line Protection . . . . . . . . . . . . . . . . . . 262

Interface Line Receivers – EIA Standard . . . . . . . . . . . . . . . . . . . Line Drivers – EIA Standard . . . . . . . . . . . . . . . . . . . . . Peripheral Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Modulator/Demodulators . . . . . . . . . . . . . . . . . . . . . . . . Timers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Smart Card and SIM Card Interface . . . . . . . . . . . . . . .

294 294 294 295 295 295

Standard Logic Devices MiniGates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300 VHC One-Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300 HC One-Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300 LCX One-Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 301 LCX Two- and Three-Gates . . . . . . . . . . . . . . . . . . . 301 VCX One Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302 NLU Multi-Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302 Low Voltage Standard Logic . . . . . . . . . . . . . . . . . . . . . . 303 VCX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303 VHC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303 LCX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 301 LVX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 305 5.0 V and Greater Standard Logic . . . . . . . . . . . . . . . 308 High Speed CMOS: HC . . . . . . . . . . . . . . . . . . . . . . . . 308 AC/ACT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 311 Metal Gate CMOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 314 Logic Special Functions . . . . . . . . . . . . . . . . . . . . . . . . . . 316 Translators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 317

Clock and Data Management Signal Translators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 268 Crosspoint Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 269 Clock Fan-out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 270 Clock Dividers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 272 Skew Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 273 Prescalers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 274 Clock Synthesizers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 274 Zero Delay Buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 275 EMI Suppression Clocks . . . . . . . . . . . . . . . . . . . . . . . . . 277 VCO (PLL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 277 Phase/Frequency Detectors . . . . . . . . . . . . . . . . . . . . . . 277 Flip-Flops . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 278 Latches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 280

Alphanumeric Parts Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 319

NOTE: The Tape & Reel Specification information has been moved to its own publication. Please see ON Semiconductor brochure, BRD8011/D, for information on Tape & Reel.

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Power Management

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ON Semiconductor Selector Guide − Power Management

Power Management Table of Contents

Page

Multi−Market − Low Dropout (LDO) Voltage Regulators . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Automotive Linear Voltage Regulators . . . . . . . . . . . . . 51 Voltage Supervisory . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 LED / Display Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 Battery Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 MOSFET/IGBT Drivers . . . . . . . . . . . . . . . . . . . . . . . 63 Alternator Voltage Regulator Darlington Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 Dedicated Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 Smart Drivers (High−Side, Low−Side & H−Bridge) . . . . . . . . . . . . 66 LS Quad Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 LS Pre−Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66

Page

FAMILY TREE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 POWER MANAGEMENT . . . . . . . . . . . . . . . . . . . . . 12 Topologies Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Summary of Choosing a Topology . . . . . . . . . . . . . . 17 Power Factor Correction Control Modes . . . . . . . . 18 Power Factor Controllers . . . . . . . . . . . . . . . . . . . . . . . . 19 Variable Frequency / Critical Conduction Mode . . . 20 Fixed Frequency / Continuous Conduction Mode . 20 Fixed Frequency / Discontinuous Conduction Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Single Stage PFC . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Off−Line Switching Controllers . . . . . . . . . . . . . . . . . . . 22 Flyback / Forward Fixed Frequency . . . . . . . . . . . . 23 Flyback Variable Frequency . . . . . . . . . . . . . . . . . . . 25 Push−Pull / Half−Bridge Controllers . . . . . . . . . . . . 26 UC384X Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Secondary Side Post Regulation Controllers . . . . . 28 Synchronous Buck Post Regulator Controller − Forward Topologies . . . . . . . . . . . . . . . . . . . . . . . . 28 Off−Line Switching Regulators . . . . . . . . . . . . . . . . . . . 29 Off−Line Switching Regulators . . . . . . . . . . . . . . . . . 30 DC−DC Switching Non−Isolated . . . . . . . . . . . . . . . . . . 31 Buck Switching Regulator − (Internal Switch) . . . . 32 Boost Switching Regulator − (Internal Switch) . . . . 33 Multi−Topology (Step−Up, Step−Down, Inverting) Switching Regulator − (Internal Switch) . . . . . . . . . 34 Buck Switching Controllers (External Switch) . . . . 35 Dual Buck Switching Controllers (External Switch) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Boost Switching Controllers (External Switch) . . . . 35 DC−DC Switching Isolated . . . . . . . . . . . . . . . . . . . . . . . 36 Switching Controllers for Step−Down Isolated Topologies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 DC−DC Switching − CPU DC−DC Controllers . . . . . . 38 Voltage Reference / Feedback Controller . . . . . . . . . . 39 Series Voltage References . . . . . . . . . . . . . . . . . . . . 40 Shunt Voltage References . . . . . . . . . . . . . . . . . . . . 40 Linear Voltage Regulators . . . . . . . . . . . . . . . . . . . . . . . 41 General Purpose Linear Voltage Regulators . . . . 41

APPLICATION SPECIFIC STANDARD PRODUCTS . . . . . . . . . . . . . . . . . . . . 67 Industrial/Appliances/Motor Control . . . . . . . . . . . . . . . 68 Automotive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 Smart Drivers (High−Side, Low−SIde & H−Bridge) . . . . . . . . . . . . 70 LIN Transceivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 CAN Transceivers . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 DC Brush Motor Control . . . . . . . . . . . . . . . . . . . . . . 71 LS Quad Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 Closed Loop Brushless Motor Adapter . . . . . . . . . . 71 Alternator Voltage Regulator FET Drivers . . . . . . . 72 TRIAC Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . 72 Stepper Motor Driver . . . . . . . . . . . . . . . . . . . . . . . . . 72 Brushless DC Motor Controllers . . . . . . . . . . . . . . . . 73 Air Core Motor Drivers / Gauge Drivers . . . . . . . . . 73 Networking / Computing . . . . . . . . . . . . . . . . . . . . . . . . . 75 Wireless & Portable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 LED / Display Drivers . . . . . . . . . . . . . . . . . . . . . . . . . 77 Relay Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78 LED Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80 Integrated PNP/NPN Digital Transistor Array . . . . . . . 81 Inrush Current Limiter . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 Smart HotPlug™ − Low Side . . . . . . . . . . . . . . . . . . 81 Smart HotPlug™ − High Side . . . . . . . . . . . . . . . . . . 82 Hybrid Diode IC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83 Floating, Regulated Charge Pump . . . . . . . . . . . . . . . . 83 Overvoltage Protection IC with Integrated P−Channel MOSFET . . . . . . . . . . . . . . . . . . . . . . . . . . . 84

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ON Semiconductor Selector Guide − Power Management

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11

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Overvoltage Charge Protection

Undervoltage Reset & Linear Voltage Regulator Hybrid Diodes

Charge Controllers

Battery Management

Hot Swap

Feedback Controllers

Voltage Reference

Voltage References

MOSFET/IGBT Drivers

Load/Relay Drivers

Dedicated Drivers

MOSFET/IGBT/Load Drivers

DC−DC Multi−Phase Controllers

DC−DC Switching Non−Isolated

Secondary Side Post Regulation Controllers

UC384X Type

Push−Pull/Half−Bridge Controller

Flyback Variable Frequency

Flyback/Forward Fixed Frequency

Off−Line Switching Controllers

Overvoltage & Undervoltage Supervisory

Undervoltage Reset

Overvoltage Protection

Voltage Supervisory/Monitoring ICs

Automotive Linear Voltage Regulators

Multi−Market Low Dropout Voltage Regulators

General Purpose Linear Voltage Regulators

Linear Voltage Regulators

LED/Display Drivers

Flyback Fixed Freq. Converters

Secondary Side Post Regulation Controllers

Push−Pull/Half−Bridge Controllers

Flyback/Forward Fixed Frequency

DC−DC Switching Isolated

Single Stage PFC

Fixed Frequency/ Discontinuous Conduction Mode

Fixed Frequency/Continuous Conduction Mode

Variable Frequency/Critical Conduction Mode

Power Factor Controllers

Off−Line Switching Regulators

Power Management

Charge Pumps

Multi−Topology

Step−Down (Buck)

Step−Up (Boost)

ON Semiconductor’s Analog Integrated Circuits

Wireless & Portable

Networking / Computing

Automotive

Industrial / Appliances / Motor Control

Application Specific Standard Products

ON Semiconductor Selector Guide − Power Management

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Overvoltage Charge Protection

Undervoltage Reset & Linear Voltage Regulator Hybrid Diodes

Charge Controllers

Battery Management

Hot Swap

Feedback Controllers

Voltage Reference

Voltage References

MOSFET/IGBT Drivers

Load/Relay Drivers

Dedicated Drivers

MOSFET/IGBT/Load Drivers

DC−DC Multi−Phase Controllers

DC−DC Switching Non−Isolated

Secondary Side Post Regulation Controllers

UC384X Type

Push−Pull/Half−Bridge Controller

Flyback Variable Frequency

Flyback/Forward Fixed Frequency

Overvoltage & Undervoltage Supervisory

Undervoltage Reset

Overvoltage Protection

Voltage Supervisory/Monitoring ICs

Application Specific Low Dropout Voltage Regulators

Low Dropout Linear Voltage Regulators

General Purpose Linear Voltage Regulators

Linear Voltage Regulators

LED/Display Drivers

Flyback Fixed Freq. Converters

Secondary Side Post Regulation Controllers

Push−Pull/Half−Bridge Controllers

Flyback/Forward Fixed Frequency

DC−DC Switching Isolated

Single Stage PFC

Fixed Frequency/ Discontinuous Conduction Mode

Fixed Frequency/Continuous Conduction Mode

Variable Frequency/Critical Conduction Mode

Power Factor Controllers

Off−Line Switching Controllers

Power Management Off−Line Switching Regulators

ON Semiconductor Selector Guide − Power Management

Charge Pumps

Multi−Topology

Step−Down (Buck)

Step−Up (Boost)

Flyback (0~200 W)

Increasing Higher Power

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Forward (150~400 W)

Half−Bridge (300~700 W)

TOPOLOGIES OVERVIEW

Push−Pull (300~1 kW)

2−Transistor Forward (200~500 W)

Full−Bridge (500~>1 kW)

ON Semiconductor Selector Guide − Power Management

Ts

T Toff + off Ts Ton ) Toff

VIN

+ −

Vout + * D Vin DȀ

C

R +

C

VOUT VIN

R

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Vout + DVin

Step down only MOSFET stress = VIN

Attributes:

Buck−Boost

VIN

Inverted output Step up or step down MOSFET stress = VIN − VOUT

Attributes:

+ −

NOTE: In all circuits, equations for VOUT apply to the continuous conduction case.

DȀ + 1 * D +

Ton T + on Ton ) Toff Ts

Toff

Duty Cycle + D +

Ton

L

Buck

VIN

n:1 L

C

R

Vout + D Vin nDȀ

Flyback

C

VOUT

Vout + 1 Vin DȀ

Boost

Step up only Used for power factor correction MOSFET stress = VOUT

Attributes:

+ −

L

Step up, step down, or inverting Up to 100 W power level MOSFET stress u VIN

Attributes:

+ −

VOUT

TOPOLOGIES OVERVIEW (continued)

ON Semiconductor Selector Guide − Power Management

R

VOUT

VIN

VIN

C + −

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C

R VOUT

Vout + D n Vin D max + 0.5

n

n 1 1

L

C

Vout + D n Vin

Push−Pull

Step up, step down, or inverting Useful for low input voltage applications Up to 1.0 kW power level More complex transformer Duty cycle t 50% MOSFET stress = 2.0 VIN

VIN

Lp

n:1

R VOUT

Attributes: Step up, step down, or inverting Up to 500 W power level Simple transformer construction Primary winding is also the reset winding, so duty cycle t 50% MOSFET stress = VIN

+ −

Step up, step down, or inverting Simple transformer construction Potentially more than 50% duty cycle Up to 500 W power level MOSFET stress > VIN

R VOUT

VIN

L

Attributes:

Vout + D n Vin

L

R VOUT

Two−Transistor Forward

Attributes:

+ −

− +

Active Clamp Forward n:1

C

Vout + D n Vin

L

Step up, step down, or inverting More complex transformer Reset winding is needed (m t n) Potentially more than 50% duty cycle Up to 200 W power level MOSFET stress u VIN

Attributes:

+ −

m

n:1

Forward

TOPOLOGIES OVERVIEW (continued)

ON Semiconductor Selector Guide − Power Management

n

1 1

Attributes: Step up, step down, or inverting Alternative to 2−transistor forward Up to 500 W power level Duty cycle t 50% MOSFET stress = VIN

+ −

Vout + D Vin 2n

C

R VOUT

VIN

Vout + D Vin DȀ

Attributes: Step up or step down MOSFET stress = VIN + VOUT

+ −

+

C

R VOUT

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VIN

VIN

n

1 1

Vout + D n Vin

C

R VOUT

Vout + * D Vin DȀ

Attributes: Inverted output Step up or step down MOSFET stress u VIN and VOUT

+ −

+

C4uk (By Slobodan C4uk)

C

R VOUT

Attributes: High power applications Step up, step down, or inverting Up to 2.0 kW power level Duty cycle t 50% Phase−shifted version possible for high density Current doubler version useful for very high output currents MOSFET stress = VIN

+ −

L

L

SEPIC (Single−Ended Primary Inductor Converter)

VIN

Full−Bridge

Half−Bridge

TOPOLOGIES OVERVIEW (continued)

ON Semiconductor Selector Guide − Power Management

Half−Bridge

Push−Pull Full−Bridge

High

Up or Down Up or Down

Up or Down

Up or Down Up or Down Up or Down

Flyback Forward 2−Transistor Forward

Medium

Step−down Step−up Inverting Inverting Up or Down

Buck Boost Buck−Boost Cuk Sepic

Low

Conversion

Topology

Power

SUMMARY OF CHOOSING A TOPOLOGY

Yes Yes

Yes

Yes Yes Yes

No No No No No

Multi−Output

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Yes Yes

Yes

Yes Yes Yes

No No No No No

Isolated

Small Small

Small

Large Small Small

Small Large Large Small Large

Output Ripple

2 VIN VIN

VIN

< 2 VIN < 2 VIN VIN

VIN VOUT VIN − VOUT > VIN, >VOUT > VIN, >VOUT

MOSFET Stress

Isolated

Non−Isolated

Isolation

ON Semiconductor Selector Guide − Power Management

CRM operation Power Range: 75 W − 400 W + No Recovery Effect + Fewer External Components − High Peak Current − Variable Frequency

DCM operation Power Range: 75 W − 400 W + Constant Frequency + No Recovery Effect + Best Stability − Highest Peak Current

Critical Conduction Mode (CRM) ” e.g. NCP1601

Discontinuous Conduction Mode (DCM) ” e.g. NCP1601

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CCM Operation Power Range 300 W − 1 kW+ + Constant Frequency + Lowest Peak Current − Turn−off Losses Because of Hard Switching − Inductor Value is Largest

Continuous Conduction Mode (CCM) ” e.g. NCP1653

POWER FACTOR CORRECTION CONTROL MODES

ON Semiconductor Selector Guide − Power Management

Switch ON Time Fixed Freq

Peak

Inductor Current Instantaneous Average

Switch ON Time Variable Freq

Peak

Inductor Current Instantaneous Average

Switch ON Time Constant Freq

Inductor Current Instantaneous Average

MC33232 MC33260 MC33262, MC34262 MC33368 NCP1601 NCP1606

Variable Frequency Critical Conduction Mode NCP1653 NCP1653A NCP1650 NCP1654*

NCP1601 NCP1603 NCP1605

Fixed Frequency Discontinuous Conduction Mode

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Fixed Frequency Continous Conduction Mode

Power Factor Controllers

Power Management

NCP1651 NCP1652*

*Coming Soon.

Single Stage Power Factor Controllers

ON Semiconductor Selector Guide − Power Management

NO

Boost and Follower Boost

Boost

Boost

Boost

Boost

Boost

Voltage Mode

Current Mode

Current Mode

Current Mode

Voltage Mode

Voltage Mode

MC33260

MC33262

MC34262

MC33368

NCP1601

NCP1606

N/A

N/A

YES

N/A

N/A

N/A

N/A

Min HV Startup Limit (V)

50

40

9 to 13.75 Typ. 9 to 10.5 Typ. 9.5 to 12 Typ.

N/A

400

400

250

50

Max Startup Consumption (mA)

8.5 to 13 Typ.

8 to 13 Typ.

8 to 13 Typ.

8.5 to 11 Typ.

10 to 16 Typ.

Under Voltage Lock−Out (V)

Boost and Follower Boost

Boost

Boost

Average Current Mode or Peak Current Mode

Average Current Mode

Average Current Mode

NCP1653A

NCP1650

NCP1654*

*Coming Soon.

Boost and Follower Boost

NCP1653

Topology

Average Current Mode or Peak Current Mode

Web Part

Control Mode

Adjustable 65 to 266

Adjustable 25 to 250

100

67

Switching Freq (kHZ)

9 to 13.75 9 to 10.5

10 to 10.5 Typ.

8.7 to 13.25 Typ.

8.7 to 13.25 Typ.

Under Voltage Lock− Out (V)

150

80

50

50

Max Startup Con− sumption (mA)

YES

NO

YES

YES

Over Power Limitation

FIXED FREQUENCY / CONTINUOUS CONDUCTION MODE

600

405

YES

NO

NO

NO

Boost

Voltage Mode

Topology

MC33232

Web Part

Control Mode

Freq Clamp Freq Max (kHz)

VARIABLE FREQUENCY / CRITICAL CONDUCTION MODE

ON Semiconductor Selector Guide − Power Management

YES

YES

NO

NO

Brown Out Protection

Program− mable

Fixed

Fixed

Fixed

Fixed

Fixed

NO

Latch

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Current Sensing

Negative Current Sensing

Programmable Negative Current Sensing

Programmable Negative Current Sensing

Current Limit Detection

Current Sensing

Negative Current Sensing

Current Sensing

Current Sensing

Current Sensing

Current Sensing

Current Sensing

Current Limit Detection

YES

Fixed

Fixed

Fixed

Latch

Fixed

Fixed

NO

NO

NO

Fixed

Fixed

Under Voltage Protection

YES

NO

Fixed

Fixed

Under (Output) Voltage Protection

NO

YES

NO

NO

NO

YES

NO

In− Rush Detection

YES

NO

YES

YES

In− Rush Detection

YES

N/A

YES

YES

YES

YES

NO

Enable Capability

YES

YES

YES

YES

Enable Capability

NO

YES

NO

NO

NO

NO

NO

Synchronization Capability

25

20

18

18

Max VCC (V)

20

18

16

30

30

16

16

Max VCC (V)

1500 / 1500

1500 / 1500

1000 / 1000

1000 / 1000

Drive Capability Source/ Sink (mA)

500 / 800

500 / 800

1000 / 1000

500 / 500

500 / 500

500 / 500

300 / 300

Drive Capability Source/ Sink (mA)

−40 to +125

−40 to +125

−40 to +125

−40 to +125

Temp (5C)

−40 to +125

−40 to +125

−25 to +125

0 to +85

−40 to +105

−40 to +105

−20 to +85

Temp (5C)

SO−8 PDIP−8

SO−16

SO−8, PDIP−8

SO−8, PDIP−8

Pack− ages

SO−8, PDIP−8

SO−8, PDIP−8

SO−16, PDIP−16

SO−8, PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

Packages

Boost

Voltage Mode

NCP1603

Boost

Average Current Mode

NCP1652*

*Coming Soon.

Boost

Average Current Mode

Topology

NCP1651

Web Part

Control Mode

SINGLE STAGE PFC

Boost

Voltage Mode

Topology

NCP1601

Web Part

Control Mode

Switching Freq (kHz)

30

N/A

100

Adjustable 25 to 250

100

58

Switching Freq (kHz)

Min HV Startup Limit (V)

Adj Skip Mode

N/A

Standby Mode Technique

80

40

N/A

Min HV Startup Limit (V)

40

9 to 13.75 Typ. 9 to 10.5 Typ. 9 to 13.75 Typ.

Startup Con− sumption (mA)

Under Voltage Lock−Out (V)

FIXED FREQUENCY / DISCONTINUOUS CONDUCTION MODE

100

5.5

21

http://onsemi.com

11 to 14 Typ.

9.8 to 10.8 Typ.

Under Voltage Lock−Out (V)

Fixed

Negative Current Sensing

Max Startup Con− sumption (mA)

Fixed

Latch

Negative Current Sensing

Current Limit Detection

Current Sensing

Current Sensing

Current Limit Detection

Fixed

Fixed

Under (Output) Voltage Protection

YES

YES

Under (Output) Voltage Protection

YES

YES

In−Rush Detection

YES

YES

Enable Capability

N/A

N/A

Main PWM Turn On Signal

20

18

Max VCC (V)

YES

YES

Enable Capability

300 / 700

1500 / 1500

Drive Capability Source/ Sink (mA)

18

18

Max VCC (V)

N/A

N/A

In− Rush Detection

500 / 800

500 / 800

Drive Capability Source/ Sink (mA)

−40 to +125

−40 to +125

Temp (5C)

−40 to +125

−40 to +125

Temp (5C)

Pack− ages

SO−16

SO−16

Pack− ages

SO−16

SO−8, PDIP−8

ON Semiconductor Selector Guide − Power Management

CS51021A CS51022A CS51221 CS5124 MC33023 MC33060A MC34023 MC34060A MC44604 MC44605 MC44608 NCP1603

NCP1200 NCP1201 NCP1203 NCP1212 NCP1216A NCP1216 NCP1217A NCP1217 NCP1230 NCP1271 NCP1280 NCP1282 NCP1562

Flyback Forward Fixed Frequency MC33067 MC33364 MC34067 NCP1205 NCP1207A NCP1215A NCP1308 NCP1377 NCP1378 NCP1337 NCP1381 NCP1351

Flyback Variable Frequency

Power Management

TL494 TL594 NCP1395A NCP1395B NCP1396

22

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MC33025 MC34025 NCV494 SG3535A

Push−Pull Half Bridge Controllers

Off−Line Switching Controllers

ON Semiconductor Selector Guide − Power Management

CS2841B UC2842B UC2843B UC2844B UC2845B UC3842B UC3843B

UC3844B UC3845B UC3842BV UC3843BV UC3844BV UC3845BV

UC384X Type

CS5101 NCP4330

Secondary Side Post Regulation Controllers

Adjustable

Adjustable

Adjustable

400

Adjustable

Adjustable

200

200

250

250

100, 40, 75

100, 40, 60

100, 60

100, 40, 60

Adj

133, 100, 65

133, 100, 65

Current Mode

Current Mode

Voltage Mode

Current Mode

Voltage or Current

Voltage or Current

Voltage Mode

Voltage Mode

Current Mode

Current Mode

Voltage Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

CS51021A

CS51022A

CS51221

CS5124

MC33023

MC34023

MC33060A

MC34060A

MC44604

MC44605

MC44608

NCP1200

NCP1201

NCP1203

NCP1212

NCP1216A

NCP1216

Web Part

Switching Freq (kHz)

Control Mode

$4

$4

N/A

N/A

0.82

$0.7

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Freq Jittering (%)

Adj Skip Mode

Adj Skip Mode

Adj Skip Mode

Adj Skip Mode

Adj Skip Mode

Adj Skip Mode

Secondary Reconfig.

NO

YES

NO

NO

NO

NO

NO

NO

NO

NO

Standby Mode Technique

30

30

NO

30

30

30

50

14.5

14.5

NO

NO

NO

NO

NO

NO

NO

NO

Min HV Startup Limit (V)

FLYBACK / FORWARD FIXED FREQUENCY

8

8

NO

NO

5.3

4

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

Dynamic Self Supply (mA)

NO

When DSS is used

NO

NO

NO

YES When DSS is used When DSS is used

NO

NO

When DSS is used

NO

YES

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

YES

YES

YES

YES

YES

YES

YES

YES

Short Circuit Protection

23

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NO

NO

10 to 25 Typ.

7.8 to 12.8 Typ.

10.5 to 12.5 Typ.

N/A

10 to 13.1 Typ.

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

Undervoltage Lock− Out (V)

Over Power Compensation

NO

NO

YES

NO

YES

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

Brown− Out Protection

Adj

Via the Latch / Demag

Adj

NO

Via the Latch / Demag Via the Latch / Demag

NO

NO

1.00

NO

Via the Latch / Demag NO

NO

NO

NO

NO

NO

Adj

Via the Latch / Demag

NO

Adj

Adj

Adj

Adj

NO

NO

NO

NO

Adj

Adj

Via the Latch / Demag

NO

Adj

Via the Latch / Demag

Latch

Soft− Start (ms)

16

16

28

16

16

16

16

18

18

42

42

30

30

20

15

20

20

Max VCC (V)

500

500

100 / 300

250

250 / 250

250 / 250

800 / 800

750

750

200

200

200

200

200

1,000

1,000

1,000

Drive Capability Source/ Sink (mA)

0 to +125

0 to +125

−25 to +125

−40 to +125

−25 to +125

−25 to +125

−25 to +85

−25 to +85

−25 to +85

0 to +70

−40 to +85

0 to +70

−40 to +105

−40 to +105

−40 to +85

−40 to +85

−40 to +85

Temp (5C)

SO−8, PDIP−7

SO−8, PDIP−7

SO−8, PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

PDIP−8

PDIP−16

PDIP−16

SO−14, PDIP−14

SO−14, PDIP−14

PDIP−16

SO−16 WB

SO−8

SO−16

TSSOP−16, SO−16

SO−16

Packages

Limited Duty Cycle to 50%

100 mA Max Sleep Current

Bidirectional Synchronization

Additional Features

ON Semiconductor Selector Guide − Power Management

133, 100, 65

133, 100, 65

133, 100, 65

Adjustable

65, 100

230

100

230

Current Mode

Current Mode

Current Mode

Voltage Mode

Current Mode

Voltage Mode

Voltage Mode

Voltage Mode

NCP1217A

NCP1217

NCP1230

NCP1280

NCP1271

NCP1282

NCP1603

NCP1562

Web Part

Switching Freq (kHz)

Control Mode

N/A

$6.4

N/A

$ 7.5

NO

$6.4

N/A

N/A

Freq Jittering (%)

NO

Adj Skip Mode

NO

30

NO

20

Adj Skip Mode with Transient Load Detection NO

25

20

30

30

NO

Adj Skip Mode

Adj Skip Mode

Adj Skip Mode

Standby Mode Technique

Min HV Startup Limit (V)

NO

NO

NO

NO

13.8

NO

NO

NO

Dynamic Self Supply (mA)

FLYBACK / FORWARD FIXED FREQUENCY (continued)

ON Semiconductor Selector Guide − Power Management

NO

YES

NO

YES

NO

YES

NO

NO

Short Circuit Protection

NO

NO

NO

NO

NO

NO

NO

NO

24

http://onsemi.com

7 to 10.3 Typ.

9 to 10.5 Typ.

8.5 to 11 Typ.

12.6 to 20 Typ.

YES

7.7 to 12.6 Typ.

7.6 to 12.8 Typ.

7.6 to 12.8 Typ.

Undervoltage Lock− Out (V)

Over Power Compensation

NO

NO

NO

NO

NO

NO

NO

NO

Brown− Out Protection

Adj

2.5

Adj

Via the Latch / Demag Line UVOV detectors

Adj

Via the Latch / Demag

Line UVOV detectors

2.50

Via the Latch / Demag

4

NO

Via the Latch / Demag

Via the Latch / Demag

1.00

Via the Latch / Demag

Latch

Soft− Start (ms)

20

18

20

20

16

18

16

16

Max VCC (V)

1000 / 2000

100 / 100

1000 / 2000

500 / 800

95 / 200

500 / 800

500

500

Drive Capability Source/ Sink (mA)

−40 to +125

−40 to +125

−40 to +125

−40 to +125

−40 to +125

−40 to +125

0 to +125

0 to +125

Temp (5C)

SO−16

SO−16

SO−16

SO−7

SO−16

SO−8, PDIP−7

SO−8, PDIP−7

SO−8, PDIP−7

Packages

HV Startup up to 100V

HV Startup up to 500V

Limited Duty−Cycle to 50%

Additional Features

Adj

Adj

NO

NO

NO

Fixed Ton

NO

NO

NO

67

45

Fixed Ton

Voltage Mode

Voltage Mode

Current Mode

Current Mode

Current Mode

Quasi Fixed Ton

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

MC34067

MC33364

NCP1205

NCP1207A

NCP1215A

NCP1308

NCP1377

NCP1378

NCP1337

NCP1381

NCP1351

Control Mode

MC33067

Web Part

Freq Clamp Max On Time (ms)

Variable Toff

8

35

8

3, 8

10

Variable Toff

8

NO

6.9

Adj

Adj

Freq Clamp Min Off Time (ms)

FLYBACK VARIABLE FREQUENCY

Adj Skip Mode NO

NO

55

Soft− Ripple Mode Adj Skip Mode

40

40

40

NO

40

40

40

NO

NO

Min HV Start− Up Limit (V)

Adj Skip Mode

Adj Skip Mode

Adj Skip Mode

Frequency Foldback

Adj Skip Mode

Frequency Foldback

Freq Clamp

NO

NO

Standby Mode Technique

NO

NO

9.5

NO

NO

7

NO

7

NO

NO

NO

NO

Dynamic Self Supply (mA)

YES

YES

YES

25

NO

YES

YES

NO

NO

NO

NO

NO

NO

NO

NO

NO

Over Power Compensation

http://onsemi.com

8.5 to 15 Typ.

10 to 15 Typ.

10 to 12 Typ.

NO

NO

7.6 to 12.8 Typ. 7.6 to 8.5 Typ.

YES

9.8 to 12 Typ.

NO

YES

9.8 to 10.4 Typ. 9 to 15 Typ.

YES

NO

YES

YES

Short Circuit Protection

7.2 to 15 Typ.

7.6 to 15 Typ.

9 to 16 Typ.

9 to 16 Typ.

Undervoltage Lock− Out (V)

NO

YES

YES

NO

NO

NO

NO

NO

NO

NO

NO

NO

Brown− Out Protection

NO

Via the Latch / Demag

Via the Latch / Demag

Via the Latch / Demag

Via the Latch / Demag

Fixed on the VCC

NO

Via the Latch / Demag

Adj

NO

NO

NO

Latch

NO

5

4

1

1

1

NO

1

NO

NO

Adj

Adj

Soft− Start (ms)

20

20

20

16

16

16

18

16

30

16

20

20

Max VCC (V)

300 / 150

500 / 800

500 / 500

500 / 500

500 / 500

500 / 500

30 / 30

500 / 500

300 / 300

220 / 600

200 / 200

200 / 200

Drive Capability Source/Sink (mA)

0 to +125

0 to +125

0 to +125

0 to +125

0 to +125

0 to +125

0 to +105

−40 to +125

−25 to +125

−25 to +125

0 to +70

−40 to +85

Temp (5C)

SO−8, PDIP−8

SO−14

SO−8, PDIP−7

SO−8, PDIP−7

SO−7, PDIP−7

SO−8

SO−8, TSOP−6

SO−8, PDIP−8

SO−16, PDIP−14, PDIP−8

SO−8, SO−16

SO−16, PDIP−16

SO−16, PDIP−16

Packages

ON Semiconductor Selector Guide − Power Management

Control Mode

Voltage & Current mode

Voltage & Current mode

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Web Part

MC33025

MC34025

NCV494

TL494

SG3525A

TL594

NCP1395A

NCP1395B

1000

1000

300

400

200

200

1000

1000

Switching Freq (kHz)

50

52 52

Adj Skip Mode Adj Skip Mode

49

48

48

45

45

Max Duty Cycle (%)

NO

NO

NO

NO

NO

NO

Standby Mode Technique

PUSH−PULL / HALF−BRIDGE CONTROLLERS

YES

9.2 & 4.2

9.3

9.3

5.2

7

6.43

YES

YES

NO

NO

NO

NO

NO

NO

Latch

2

2

5

5.1

5

5

5.1

5.1

Internal Ref Voltage (V)

26

http://onsemi.com

NO

NO

NO

NO

NO

NO

YES

9.2 & 4.2

6.43

Short Circuit Protection

Undervoltage Lock− Out (V)

ON Semiconductor Selector Guide − Power Management

YES

YES

NO

YES

NO

NO

NO

NO

Enable Capability

Adj

Adj

Adj

Adj

Adj

Ad

Adj

Adj

Soft− Start (ms)

20

20

42

40

40

40

30

30

Max VCC (V)

180/180

180/180

500 / 500

400 / 400

500 / 500

500 / 500

200 / 200

200 / 200

Drive Capability Source/ Sink (mA)

0 to +125

0 to +125

−40 to +85

SO−16, PDIP−16

SO−16, PDIP−16

SO−16, PDIP−16, TSSOP−16

SO−16, PDIP−16

SO−16, PDIP−16

−40 to +125 0 to +70 −40 to +85 0 to +70

SO−16

SO−16, PDIP−16

SO−16, PDIP−16

Packages

−40 to +125

0 to +70

−40 to +105

Temp (5C)

Industrial Applications

Consumer Applications

Auto qualified

Additional Features

Control Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Web Part

CS2841B

UC2842B

UC2843B

UC2844B

UC2845B

UC3842B

UC3843B

UC3844B

UC3845B

UC3842BV

UC3843BV

UC3844BV

UC3845BV

UC384X TYPE

52

52

52

52

52

52

52

52

52

52

52

52

52

Switching Freq (kHz)

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

Standby Mode Technique

50

50

96

96

50

50

96

96

48

48

96

96

50

Max Duty Cycle (%)

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

Short Circuit Protection

27

http://onsemi.com

7.6 to 8.5 Typ.

10 to 16 Typ.

7.6 to 8.5 Typ.

10 to 16 Typ.

7.6 to 8.5 Typ.

10 to 16 Typ.

7.6 to 8.5 Typ.

10 to 16 Typ.

7.6 to 8.5 Typ.

10 to 16 Typ.

7.6 to 8.5 Typ.

10 to 16 Typ.

7.4 to 8 Typ.

Undervoltage Lock−out (V)

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

Latch

5

5

5

5

5

5

5

5

5

5

5

5

5

Internal Ref Voltage (V)

YES

YES

YES

YES

NO

NO

NO

NO

NO

NO

NO

NO

NO

Soft− Start (ms)

25

25

30

30

25

25

30

30

30

30

30

30

40

Max VCC (V)

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

200 / 200

Drive Capability Source/Sink (mA)

−40 to +105

−40 to +105

−40 to +105

−40 to +105

0 to +70

0 to +70

0 to +70

0 to +70

−25 to +85

−25 to +85

−25 to +85

−25 to +85

−40 to +85

Temp (5C)

SO−14, SO−8

SO−14, SO−8

SO−14, SO−8

SO−14, SO−8

SO−14, SO−8, PDIP−8

SO−14, SO−8, PDIP−8

SO−14, SO−8, PDIP−8

SO−14, SO−8, PDIP−8

SO−14, SO−8, PDIP−8

SO−14, SO−8. PDIP−8

SO−14, SO−8, PDIP−8

SO−14, SO−8, PDIP−8

SO−14, PDIP−8

Packages

ON Semiconductor Selector Guide − Power Management

(Vgate max: 75 V)

ULVO: 7.0/8.0 V Max: 45 V

(VREF = 2.0 V)

Output Voltage

1.5 A

Output Driver

SYNC

Freq.

−40 to +85°C

Temp. (TA)

SO−8

−40 to +125°C

28

http://onsemi.com

Package

Temp. (TJ)

CS5101EN14

CS5101EDW16

SO−16L

DIP−14

Part No.

Package

SYNCHRONOUS BUCK POST REGULATOR CONTROLLER − FORWARD TOPOLOGIES

Converter Input Voltage

IC Operating Voltage

SECONDARY SIDE POST REGULATION CONTROLLERS

ON Semiconductor Selector Guide − Power Management

S

S

S S

NCP4330DR2

Part No.

Voltage mode Configured as either buck or boost with external NFET Externally programmable overcurrent protection 5.0 V 2% reference pin

Features

NCP1050 NCP1051 NCP1052 NCP1053 NCP1054 NCP1055 NCP1027 NCP1028

29

http://onsemi.com

MC33363 NCP1000 NCP1001 NCP1002 NCP1010 NCP1011 NCP1012 NCP1013 NCP1014

Off−Line Switching Regulators

Power Management

ON Semiconductor Selector Guide − Power Management

285

100

100

100

65, 100, 130

65, 100, 130

65, 100, 130

65, 100, 130

65, 100, 130

45.5, 103, 140

45.5, 103, 140

45.5, 103, 140

45.5, 103, 140

45.5, 103, 140

45.5, 103, 140

65,100

65,100

Voltage Mode

Voltage Mode

Voltage Mode

Voltage Mode

Current Mode

Current Mode

Current Mode

Current Mode

Current Mode

Gated Oscillator

Gated Oscillator

Gated Oscillator

Gated Oscillator

Gated Oscillator

Gated Oscillator

Current Mode

Current Mode

NCP1000

NCP1001

NCP1002

NCP1010

NCP1011

NCP1012

NCP1013

NCP1014

NCP1050

NCP1051

NCP1052

NCP1053

NCP1054

NCP1055

NCP1027

NCP1028

Control Mode

MC33363

Web Part

Switching Freq (kHz)

$6.0

$6.0

$5.0

$5.0

$5.0

$5.0

$5.0

$5.0

$3.3

$3.3

$3.3

$ 3.3

$ 3.3

N/A

N/A

N/A

N/A

Freq Jittering (%)

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

Skip Mode

NO

Standby Mode Technique

OFF−LINE SWITCHING REGULATORS

5.6

5.6

15

15

15

30

30

30

11

11

11

22

22

6

9

18

14

RDS(on) Typ (W)

700

700

700

700

700

700

700

700

700

700

700

700

700

700

700

700

700

Max Breakdown Voltage (V)

ON Semiconductor Selector Guide − Power Management

30

30

20

20

20

20

20

20

30

30

30

30

30

20

20

20

9

Min HV Startup Limit (V)

N/A

N/A

6.3

6.3

6.3

6.3

6.3

6.3

8

8

8

8.5

8.5

NO

NO

NO

NO

Dynamic Self Supply (mA)

30

http://onsemi.com

800

800

680

530

400

300

200

100

450

350

250

250, 450

100

1500

1000

500

400

Max Internal Current Set Point (mA)

7.2 to 8.5 Typ.

7.2 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

7.5 to 8.5 Typ.

NO

NO

NO

NO

When DSS is used When DSS is used When DSS is used When DSS is used

YES

YES

YES

YES

YES

YES

YES

YES

YES

NO

NO

NO

NO

NO

NO

NO

When DSS is used

YES

NO

NO

NO

NO

Over Power Compensation

NO

NO

NO

NO

9.5 to 15.2 Typ. 7.5 to 8.5 Typ.

Short Circuit Protection

Undervoltage Lock− out (V)

YES

YES

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

NO

Brown −Out Protection

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

NO

NO

NO

NO

Latch

0 to +125

0 to +125

−40 to +150

−40 to +150

−40 to +150

−40 to +150

−40 to +150

−40 to +150

0 to +125

0 to +125

0 to +125

0 to +125

0 to +125

−40 to +125

−40 to +125

−40 to +125

−25 to +150

Temp (5C)

PDIP−7

PDIP−7

PDIP−7, SOT−223

PDIP−7, SOT−223

PDIP−7, SOT−223

PDIP−7, SOT−223

PDIP−7, SOT−223

PDIP−7, SOT−223

PDIP−7, PDIP−7 SMT. SOT−223

PDIP−7, SOT−223

PDIP−7, PDIP−7 SMT, SOT−223

PDIP−7, PDIP−7 SMT. SOT−223

PDIP−7, SOT−223

PDIP−8

PDIP−8

PDIP−8

SO−16, PDIP−16

Packages

No OVP on VCC Pin

Com ments

*Coming Soon.

NCP1595A NCP1501 NCP1526 NCP1510 NCP1521 NCP1522 NCP1523 NCP1519* NCP1529*

Synchronous Rectification

CS51411 CS51412 CS51413 CS51414 NCV51411

CS51031

NCP1575 NCP5211 NCP1580 NCP5422 NCP1582/A* NCP5423 NCP1583* NCP5424 NCP1571 NCP5425

MAX828 NCP5603 MAX829 MAX1720 NCP1729

31

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CS51033 SG3525 NCP1550

Non−Synchronous Rectification

Buck Controller (Step−Down)

Synchronous Rectification

Charge Pumps

LM2574 LM2575 LM2576 NCP1500 NCP1530

Non−Synchronous Rectification

Buck Switcher (Step−Down)

NCP1403 NCP1406 NCP1400 NCP1402 CS5171 CS5172 CS5173 CS5174

NCP1410 NCP1423 NCP1421 NCP1422 NCP5030*

MC34063 MC33063 NCV33063 NCP3063 CS5171 CS5172 CS5173 CS5174

Boost Controller (Step−Up) NCP1450

MC34166 MC33166 MC34163 NCP3163 MC34167 MC33167

Multi−Topology

Non−Synchronous

Boost Switcher (Step−Up)

Synchronous

DC−DC Switching Non−Isolated

Power Management

ON Semiconductor Selector Guide − Power Management

5.5

4.5

4.5

4.5

4.75

4.75

4.75

4.0

7.5

7.5

7.0

7.0

2.7

2.7

2.7

2.5

2.7

2.7

2.7

2.7

2.7

2.7

CS51413

CS51414

NCV51411

LM2574

LM2575

LM2576

NCP1595A

MC34166

MC33166

MC33167

MC34167

NCP1500

NCP1501

NCP1526

NCP1510

NCP1530

NCP1521

NCP1522

NCP1523

NCP1519*

NCP1529*

*Coming Soon.

5.5

4.5

CS51412

5.5

5.5

5.5

5

5.2

5.5

5.2

5.4

40

40

40

40

5.5

40

40

40

40

40

40

40

40

4.5

CS51411

Max

Min

Device

VIN (V)

1.2, 1.5, 1.8, Adj(0.9−3.3 V)

1.2,1.5,1.8, Adj(0.9−3.3 V)

0.9 − 3.3 V

0.9 − 3.3 V

0.9 − 3.3 V

2.5, 2.7, 3.0, 3.3 V

1A

600 mA

600 mA

600 mA

600 mA

600 mA

500 mA

PWM: 400 mA LDO: 150 mA

PWM − 1.2V ; LDO − 2.8 V Other Options Available

1.05, 1.35, 1.57, 1.8 V

300 mA

300 mA

5.0 A

5.0 A

3.0 A

3.0 A

1.5 A

3.0 A

1.0 A

0.5 A

1.5 A

1.5 A

1.5 A

1.5 A

1.5 A

IOUT (A)

1.05, 1.35, 1.57, 1.8 V

1.0, 1.3, 1.5, 1.8 V

Down to 5.0 V

Down to 5.0 V

Down to 5.0 V

Down to 5.0 V

Down to 0.8 V

3.3,5,12,15, Adj(1.23 to 37 V)

3.3,5,12,15, Adj(1.23 to 37 V)

3.3,5,12,15, Adj(1.23 to 37 V)

Down to 1.276 V

Down to 1.276 V

Down to 1.276 V

Down to 1.276 V

Down to 1.276 V

VOUT Options (Adj Range)

1700

1700

3000

3000

1500

600 − 1200

450−1000

3000

450−1000

270 − 630

72

72

72

72

1200

52

52

52

260

520

520

260

260

FSW (kHz)

BUCK SWITCHING REGULATOR − (INTERNAL SWITCH)

ON Semiconductor Selector Guide − Power Management

Enable

Soft−Start

32

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Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Current

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Mode

−40 to +85 −40 to +85

Sync capability; Pin−Compatible with LT1375 and LT1376 External Bias; Pin−Compatible with LT1375 and LT1376

Auto PWM/ PFM mode. Synchronous Rectification

Auto PWM/ PFM mode. Synchronous Rectification

Auto PWM/ PFM mode. Synchronous Rectification

Auto PWM/ PFM mode. Synchronous Rectification

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +85

Automatic PWM/PFM mode. External Synchronization up to 1.2 MHz Auto PWM/ PFM mode. Synchronous Rectification

−40 to +85

Synchronous Rectification. Can be programmed to work in Low Iq (14 mA ) Pulsed mode at light loads. External Sync.

−40 to +85

Synchronous Rectification. Can be programmed to work in Linear LDO Regulator mode. External Sync.

−40 to +85

−40 to +85

PWM or Linear mode. Can be programmed to work in Linear LDO Regulator mode. External Sync.

Dual output: PWM + LDO. Synchronous Rectification

0 to +70

−40 to +85

−40 to +85

0 to +70

0 to +85

−40 to +125

−40 to +125

−40 to +125

Standby Mode < 36 mA

Large 5.0 A output capability

Internal thermal shutdown

Cycle−by−Cycle current limit

Internal compensation; Synchronous Rectification

No external compensation required

No external compensation required

No external compensation required

−40 to +125

−40 to +85

External Bias; Pin−Compatible with LT1375 and LT1376

Automotive version

−40 to +85

Temp Range (5C)

Sync capability;Pin−Compatible with LT1375 and LT1376

Comments

Thin SOT−23−5

Thin SOT−23−5

Micro−Bump−8

Thin SOT−23−5

Thin SOT−23−5, Thin DFN−6

Micro8™

Micro−Bump−9

Thin DFN−10

Micro8™

Micro8™

D2PAK / TO−220

D2PAK / TO−220

D2PAK / TO−220

D2PAK / TO−220

DFN−6

D2PAK / TO−220

D2PAK / TO−220

D2PAK / TO−220

SO−8 / DFN−8

SO−8 / DFN−8

SO−8 / DFN−8

SO−8 / DFN−8

SO−8 / DFN−8

Package

1.2

1.4

0.8

0.8

1.0

0.8

1.0

1.0

2.7

2.7

2.7

2.7

2.7

NCP1403

NCP1406

NCP1400

NCP1402

NCP1410

NCP1423

NCP1421

NCP1422

NCP5030*

CS5171

CS5172

CS5173

CS5174

*Coming Soon.

Min

Device

30

30

30

30

5.5

5.0

5.0

5.5

5.5

5.5

5.5

5.5

5.5

Max

VIN (V)

−2.5 to 40 V

1.276 to 40 V

−2.5 to 40 V

1.276 to 40 V

2.2−5.5 V

1.5−5.0 V

1.5−5.0 V

1.8−5.5 V

1.5−5.5 V

1.8−5.0 V

1.8−5.0 V

up to 25 V

up to 15 V

VOUT Options (Adj Range)

1.5 A

1.5 A

1.5 A

1.5 A

1.2 A

800 mA

600 mA

400 mA

250 mA

200 mA

100 mA

50 mA

50 mA

IOUT (A)

560

560

280

280

1000

1200

1200

600

600

180

180

1000

300

FSW (kHz)

BOOST SWITCHING REGULATOR − (INTERNAL SWITCH)

Enable

Soft−Start

33

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Current

Current

Current

Current

Current

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Mode

−40 to +85

Buck/ Boost Converter − can supply either regulated current or regulated output voltage

Negative feedback polarity

Easy External Synchronization

Flyback & SEPIC

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +85

LT1372/1373 Compatible

−40 to +85

−40 to +85

PFM mode. Synchronous Rectification, True−cutoff, Low−battery detect PFM Sync−rect, True−cutoff, Low−battery detect

−40 to +85

PFM mode. Synchronous Rectification, Low−battery detect

PFM mode. Synchronous Rectification, True−cutoff, Low−battery detect

−40 to +85

−40 to +85

−40 to +85

−40 to +85

Temp Range (5C)

PFM mode

PWM mode

PFM mode

PFM mode

Comments

SO−8

SO−8

SO−8

SO−8

DFN−12

DFN−10

Micro8™

Micro−10

Micro8™

Thin SOT−23−5

Thin SOT−23−5

Thin SOT−23−5

Thin SOT−23−5

Package

ON Semiconductor Selector Guide − Power Management

Min

3.0

3.0

3.0

3.0

3.0

2.7

2.7

2.7

2.7

7.5

7.5

2.5

2.5

2.5

2.5

7.0

7.0

Device

MC34063

MC33063

NCV33063

NCP3063

NCP3063B

CS5171

CS5172

CS5173

CS5174

MC34166

MC33166

MC34163

MC33163

NCP3163

NCP3163B

MC34167

MC33167

40

40

40

40

40

40

40

40

30

30

30

30

40

40

40

40

40

Max

VIN (V)

Down to 5.0 V

Down to 5.0 V

Down to 1.25 V

Down to 1.25 V

Down to 1.25 V

Down to 1.25 V

Down to 5.0 V

Down to 5.0 V

−2.5 to 40 V

1.276 to 40 V

−2.5 to 40 V

1.276 to 40 V

Down to 2.5 V

Down to 2.5 V

Down to 2.5 V

Down to 2.5 V

Down to 2.5 V

VOUT Options (Adj Range)

5.0

5.0

3.4

3.4

3.4

3.4

3.0

3.0

1.5

1.5

1.5

1.5

1.5

1.5

1.5

1.5

1.5

IOUT (A)

72

72

up to 300

up to 300

up to 100

up to 100

72

72

560

560

280

280

up to 250

up to 250

up to 100

up to 100

up to 100

FSW (kHz)

Voltage

Voltage

Hysteresis

Hysteresis

Hysteresis

Hysteresis

Voltage

Voltage

Current

Current

Current

Current

Hysteresis

Hysteresis

Hysteresis

Hysteresis

Hysteresis

Mode

Step− Up

34

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Enable

Step− Down

Step−Up/ Step− Down

Inv

−40 to +85 0 to +70 −40 to +85 0 to +70 −40 to +85

0 to +70

Negative feedback polarity Cycle−by−Cycle current limit Internal thermal shutdown Simple & Flexible regulator Minimal number of external components Higher FSW for optimized size and efficiency

Standby Mode < 36 mA

Large 5.0A output capability

−40 to +85

Easy External Synchronization

−40 to +85

0 to +70

−40 to +85

−40 to +85

Flyback and SEPIC

−40 to +85

−40 to +85

0 to +70

LT1372/1373 Compatible

−40 to +125

Automotive version

−40 to +85

Minimal number of external components

Higher FSW for optimized size and efficiency

0 to +70

Temp Range (°C)

Simple and flexible regulator

Comments

MULTI−TOPOLOGY (STEP−UP, STEP−DOWN, INVERTING) SWITCHING REGULATOR − (INTERNAL SWITCH)

ON Semiconductor Selector Guide − Power Management

D2PAK/TO−220

D2PAK/TO−220

SO−16WEP

SO−16WEP

SO−16W / PDIP

SO−16W / PDIP

D2PAK / TO−220

D2PAK / TO−220

SO−8

SO−8

SO−8

SO−8

PDIP/SO−8/DFN

PDIP/SO−8/DFN

SO−8

SO−8 / PDIP−8

SO−8 / PDIP−8

Package

4.5

4.5

4.5

3.3

8.0

4.5

4.5

4.5

2.0

2.0

2.5

NCP5211

NCP5211B

CS51031

CS51033

SG3525

NCP1580

NCP1582/A

NCP1583

NCP1571

NCP1575

NCP1550

5.5

12

12

15

15

15

35

5.0

16

14

14

Max 1.5% 1.5% 2% 2% 1% 1.5% 1.5% 1.5% 1.0% 1.0%

2.0%

Down to 1.0 V Down to 1.25 V Down to 1.25 V Down to 5.1 V Down to 0.8 V Down to 0.8 V Down to 0.8 V Down to 0.980 V Down to 0.980 V 1.8−3.3 V (factory prefixed)

VOUT Accuracy

Down to 1.0 V

VOUT Options (Adj Range)

600

200 − 500

200

300

350

350

100 − 400

200 − 700

200 − 700

150 − 750

150 − 750

FSW (kHz)

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Voltage

Hysteresis

Hysteresis

Voltage

Voltage

Mode

10.8

10.8

10.8

4.6

NCP5422

NCP5423

NCP5424

NCP5425

VIN (V)

13.2

13.2

13.2

13.2

Max 2.0% 1.0% 2.0% 1.0%

Down to 1.0 V Down to 1.0 V Down to 0.8 V

VOUT Accuracy

Down to 1.0 V

VOUT Options (Adj Range)

150 − 750

150 − 600

150 − 600

150 − 600

FSW (kHz)

Min

0.9

Device

NCP1450

VIN (V)

5.5

Max 1.8−5.0 V (Factory Prefixed)

VOUT Options (Adj Range) 2.5%

VOUT Accuracy

180

FSW (kHz)

BOOST SWITCHING CONTROLLERS (External Switch)

Min

Device

Enable

Enable

Enable

35

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Voltage

Mode

Voltage

Voltage

Voltage

Voltage

Mode

DUAL BUCK SWITCHING CONTROLLERS (EXTERNAL SWITCH)

Min

Device

VIN (V)

BUCK SWITCHING CONTROLLERS (EXTERNAL SWITCH)

Soft−Start

Soft−Start

Soft−Start

Synchronous

Synchronous

Synchronous

PFM mode

Comments

1.5 A peak drive capability

Hiccup & cycle−by−cycle overcurrent

1% Voltage reference

Hiccup mode overcurrent protection

Comments

Auto PWM/ PFM mode.

12 V bias supply

12 V bias supply

0.7 A gate drive; Short Circuit Protection

0.7 A gate drive; Short Circuit Protection

1.5 A gate drive; 90% duty cycle

Flexible configurations; ST Compatible

No compensation required ; PFET

No compensation required ; PFET

1.5 A drive capability

1.5 A drive capability

Comments

−40 to +85

Temp Range (5C)

0 to +125

0 to +70

0 to +70

0 to +70

Temp Range (5C)

−40 to +85

0 to +125

0 to +125

−40 to +85

−40 to +85

−40 to +85

0 to +70

−40 to +85

−40 to +85

−40 to +85

0 to +70

Temp Range (5C)

Thin SOT−23−5

Package

TSSOP−20

SO−16

SO−16

SO−16

Package

Thin SOT−23−5

SO−8

SO−8

SO−8

SO−8

SO−8

SO−16W

SO−8

SO−8

SO−14

SO−14

Package

ON Semiconductor Selector Guide − Power Management

NCP1200 NCP1201 NCP1203 NCP1212 NCP1216A NCP1216 NCP1217A NCP1217 NCP1230 NCP1271 NCP1280 NCP1282 NCP1562

Please see Flyback/Forward Fixed Frequency Controllers Table Page 23.

CS51021A CS51022A CS51221 CS5124 MC33023 MC34023 MC33060A MC34060A MC44604 MC44605 MC44608 NCP1603

Flyback/Forward Fixed Freq Controllers

DC−DC Switching Isolated

Power Management

TL494 TL594 NCP1395A NCP1395B NCP1396

36

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Please see Push−Pull/Half−Bridge Controller Table Page 26.

MC33025 MC34025 NCV494 SG3535A

Push−Pull Half−Bridge Controllers

ON Semiconductor Selector Guide − Power Management

Please see Secondary Side Post Regulation Controllers Table Page 28.

CS5101 NCP4330

Secondary Side Post Regulation Controllers

*Coming Soon.

NCP1030 NCP1031

Flyback Fixed Frequency Converters

Min

7.7

3.3

3.3

3.3

10

10

Device

CS5124

CS51221

CS51021

CS51022

NCP1030

NCP1031

200

200

72

72

72

75

Max

VIN (V)

2.5 up to VIN

2.5 up to VIN

Down to 5.0 V

2%

2%

1%

1%

2%

Down to 1.26 V

Down to 5.0 V

VOUT Accuracy

External

VOUT Options (Adj Range)

Current Mode Current Mode Voltage Mode Voltage Mode

200 − 1000 200 − 1000 up to 1000 up to 1000 √

Current Mode Voltage Mode

Enable

Mode

up to 1000

400

FSW (kHz) Synchronous

37

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Soft−Start

SWITCHING CONTROLLERS FOR STEP−DOWN ISOLATED TOPOLOGIES

PoE applications; Integrated Switch

PoE applications; Integrated Switch

Sleep mode; Bias for startup

Synch; Bias for startup

Programmable features; Bias for startup

Small PCB footprint; Bias for startup

Comments

−40 to +125

−40 to +125

−40 to +86

−40 to +85

−40 to +85

−40 to +105

Temp Range (°C)

SO−8

Micro8™

SO−16/TSSOP−16

SO−16/TSSOP−16

SO−16/TSSOP−16

SO−8

Package

ON Semiconductor Selector Guide − Power Management

2−Phase NCP5331 NCP5322A NCP5332A NCP5371

1−Phase

CS5157H CS5165A MC33470

ON Semiconductor Selector Guide − Power Management

38

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CS5301 NCP5389

3−Phase

CPU DC−DC Controllers

DC−DC Switching

Power Management

NCP5318 (VR10) NCP5388 (VR10/11) NCP5385 (VR10/11) NCP5387 (VR10/11)

2/3/4−Phase

NCP5382 (VR10/11)

6−Phase

MC1403/B LM285−2.5 LM385−2.5

2.5 V

NCP100

LM285−1.2 LM385−1.2

NCV1009 NCV431A/B TL431A/B

2.5 to 36 V

TLV431A/B

1.24 to 16 V

0.9 to 6 V

Adjustable Voltage

1.235 V

Fixed Voltage

Voltage Reference

39

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NCV1009 NCV431A/B TL431A/B

2.5 V Reference

TLV431A/B

1.24 V Reference

NCP100

0.9 V Reference

Either Voltage or Current

Voltage Reference/Feedback Controller

Power Management

MC33341

External Reference

NCP4300A

2.6 V Reference

Both Voltage and Current

Feedback Controllers

ON Semiconductor Selector Guide − Power Management

2.500

2.500

Part Number

MC1403

MC1403B

2.2 1.0 1.0 0.4 0.4

Adjustable 2.495 to 36 V

Adjustable 2.495 to 36 V

Adjustable 2.495 to 36 V

Adjustable 2.495 to 36 V

Adjustable 2.495 to 36 V

Adjustable 2.495 to 36 V

Adjustable 2.495 to 36 V

TL431I

TL431AC

TL431A

TL431BC

TL431BI

NCV431A

NCV431B

*TSOP−5 − Also known as Thin SOT23−5.

2.2

Adjustable 1.24 to 16 V

Adjustable 2.495 to 36 V

0.4

1.0

0.5

1.0

1.0

0.2

1.5

1.0

TL431C

LM385B−2.5

TLV431B

2.500

LM385B−1.2

3.0

1.5

Adjustable 1.24 to 16 V

1.235

LM385−2.5

TLV431A

2.500

LM285−2.5

2.0

1.0

2.500

2.500

LM385−1.2

Adjustable 0.9 to 6 V

1.235

LM285−1.2

NCP100

1.235

Part Number

Tolerance $ (%)

1.0

1.0

Tolerance $ (%)

NCV1009

Reference Voltage (V)

SHUNT VOLTAGE REFERENCES

Reference Voltage (V)

0.500

0.500

0.500

0.500

0.500

0.500

0.500

0.500

0.050

0.050

0.100

40

0.020

0.020

0.020

0.020

0.015

0.010

Minimum Operating Current (mA)

1.200

1.200

Typical Quiescent Current (mA)

http://onsemi.com

50

50

50

50

50

50

50

50

25

80

80

80

80

80

80

Typical Temperature Coefficient (ppm/°C)

10

10

Typical Temperature Coefficient (ppm/°C)

SO−8 √

SO−8 √

TO−92 √

PDIP Package

Package

Micro8

SERIES VOLTAGE REFERENCES

TSOP−5*

ON Semiconductor Selector Guide − Power Management

PDIP √

−40 to +125

−40 to +125

−40 to +85

0 to +70

−40 to +85

0 to +70

−40 to +85

0 to +70

−40 to +85

−40 to +85

−40 to +85

−40 to +125

0 to +70

0 to +70

0 to +70

0 to +70

0 to +70

−40 to +85

Operating Temperature Range (°C)

−40 to +85

0 to +70

Operating Temperature Range (°C)

SOT23−3

1.0 A MC79xx/A

1.0 A MC78xx/A

LM323/A

41

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MC79Mxx

MC78Mxx/A

MC33565

3.0 A

500 mA

MC79LxxA

MC78LxxA MC33160 MC34160 500 mA

100 mA

100 mA

200 mA

Negative VOUT

Positive VOUT

Fixed Output Voltage

LM350

3.0 A

LM317

1.5 A

LM317M

500 mA

LM317L

100 mA

LM337

1.5 A

Negative VOUT

Adjustable Voltage

Positive VOUT

General Purpose Linear Voltage Regulators

Linear Voltage Regulators

Power Management

ON Semiconductor Selector Guide − Power Management

MC79xx Series

MC79xxA Series

1.0 A

1.0 A

Positive √

Negative √

Adjustable √

3.3 V √

5.0 V √

5.2 V √

6.0 V √

8.0 V 9.0 V √

12 V √

18 V √

20 V √

24 V √

2.0

4.0

2.0

4.0

2.0

4.0

4.0

2.0

4.0

2.0

5.0

5.0

4.0

5.0

5.0

Tolerance (%) 2.0 V @ 1.0 A

2.0 V @ 1.0 A

2.0 V @ 500 mA

2.0 V @ 500 mA

2.1 V @ 500 mA

2.1 V @ 500 mA

1.1 V @ 500 mA

1.9 V @ 500 mA

1.9 V @ 500 mA

2.3 V @ 100 mA

2.0 V @ 100 mA

2.0 V @ 100 mA

1.9 V @ 100 mA

1.7 V @ 40 mA

1.7 V @ 40 mA

Drop Out Voltage (Typical)

42

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‘xx’ indicates nominal voltage 1. Available in select packages only; contact your local ON Semiconductor sales office for information. 2. Available for select voltage options only; contact your local ON Semiconductor sales office for information.

MC78xxA Series

1.0 A

MC78MxxA Series

500 mA

MC78xx Series

MC78Mxx Series

500 mA

1.0 A

MC33565

200 mA

LM317MxxA Series

MC34160

100 mA

500 mA

MC33160

100 mA

MC79Mxx Series

LM317Lxx Series

100 mA

LM317Mxx Series

MC79LxxA Series

100 mA

500 mA

MC78LxxA Series

100 mA

500 mA

Part Number

Output Current

15 V

−5.0 to −18 V Version = −35 V −24 V Version = −40 V

−5.0 to −18 V Version = −35 V −24 V Version = −40 V

5.0 to 18 V Version = 35 V 24 V Version = 40 V

5.0 to 18 V Version = 35 V 24 V Version = 40 V

VI − VO = 40 V

VI − VO = 40 V

−35 V

5.0 to 18 V Version = 35 V 20 to 24 V Version = 40 V

5.0 to 18 V Version = 35 V 20 to 24 V Version = 40 V

VI − VO = 7.0 V

40 V

40 V

VI − VO = 40 V

−5.0 V Version = −30 V −12 to −18 V Version = −35 V −24 V Version = −40 V

5.0 to 18 V Version = 30V 12 to 18 V Version = 35 V 24 V Version = 40 V

Maximum Input Voltage (Vdc)

SOP−8 √

SO−16 √

DPAK √

Package

DIP−16

Nominal Output Voltage

√ 4

√ 4

D2PAK

GENERAL PURPOSE LINEAR VOLTAGE REGULATORS

SOT−223

ON Semiconductor Selector Guide − Power Management

TO−92 √

TO−220 √

Micro8]

LM317

LM337

LM323

LM323A

LM350

1.5 A

1.5 A

3.0 A

3.0 A

3.0 A √

√ √

Positive Negative Adjustable 5.0 V √

4.0

2.0

4.0

4.0

4.0

Tolerance (%)

8.0 V 9.0 V

5.2V 6.0 V

2.7 V @ 3.0 A

2.0 V @ 3.0 A

2.0 V @ 3.0 A

2.2 V @ 1.5 A

2.25 V @ 1.5 A

Drop Out Voltage (Typical)

43

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‘xx’ indicates nominal voltage 3. Available in select packages only; contact your local ON Semiconductor sales office for information. 4. Available for select voltage options only; contact your local ON Semiconductor sales office for information.

Part Number

Output Current

12.0 V 15.0 V 18.0 V

Nominal Output Voltage

VI − VO = 35 V

20 V

20 V

VI − VO = 40 V

VI − VO = 40 V

Maximum Input Voltage (Vdc)

Package

DPAK D2PAK SOT−223

GENERAL PURPOSE LINEAR VOLTAGE REGULATORS (continued)

20.0 V 24.0 V

ON Semiconductor Selector Guide − Power Management

TO−92 TO−220

SOP−8

MC33761 NCP502 NCP512 MC78LCxx

NCP553 NCP562 NCP563

80 mA

NCP500 NCP511 NCP551 NCP561 NCP5426

NCP400 NCP582 NCP583 NCP623 MC78PC

150 mA

44

NCP5663 CS5253B−8 NCP631 NCP630

3.0 A

NCP5662

2.0 A

NCP3335 NCP5500 NCP5501

1.5 A

NCP1117 NCP5661

MC78FCxx NCP580

MC33269 MC34268

MC33275 MC33375 NCP2860 NCP585

1.0 A

NCP1086 NCP565

http://onsemi.com

NCP584

800 mA

300 mA

500 mA

LP2951C/AC

LP2950C/AC

LM2931/A

200 mA

Fixed Output Voltage

Multi−Market Low Dropout (LDO) Voltage Regulators

120 mA

L4949 NCP612 NCP662 NCP663

100 mA

Power Management

Linear Voltage Regulators

ON Semiconductor Selector Guide − Power Management

MC33269

800 mA

NCP3335A NCP3334

500 mA

NCP2860

45

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NCP5663 CS5253B−1 NCP630

3.0 A

NCP5662

2.0 A

NCP1086 NCP565

NCP600 300 mA

1.5 A

NCP1117 NCP5661

1.0 A

150 mA

LP2951C/AC LM2931C/AC

100 mA

Adjustable Voltage

MC33765

5 Outputs

NCP4523

3 Outputs

MC33567 MC33762 NCP4672 NCP5504

2 Outputs

Multiple Output

Multi−Market Low Dropout (LDO) Voltage Regulators (continued)

Linear Voltage Regulators

Power Management

ON Semiconductor Selector Guide − Power Management

NCP562

NCP553

NCP563

MC78LCxx Series

L4949

LM2931/A

LM2931C/AC

LP2950C/AC

LP2951C/AC

80 mA

80 mA

80 mA

80 mA

100 mA

100 mA

100 mA

100 mA

100 mA

1.8 V

2.2 V √

2.5 V √

√, √

2.7 V √

2.8 V √

√, √

2.9 V √

3.0 V √

√, √

3.5 V √

3.6 V √

4.0 V

3.8 V

3.2 V

2.85 V

2.6 V

5.0 V √

See Note

12 V

8.0 V 10 V

4.75 V

46

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5. Output voltages from 2.0 V to 6.0 V, in 0.1 V increments, are available on request.

NCP512

80 mA

NCP502

80 mA

MC33762

80 mA, 80 mA

MC33761

1.3 V

80 mA

Adjustable

Part Number

1.5 V

Output Current

3.3 V

Output Voltage

Tolerance (%)

− −

0.38 V @ 100 mA 0.38 V @ 100 mA 1.0/0.5

1.0/0.5

0.16 V @ 100 mA

− 5.0, 2.0

0.25 V @ 80 mA

0.16 V @ 100 mA

0.7 V @ 80 mA

5.0, 3.8

0.25 V @ 80 mA

5.0

0.25 V @ 80 mA

0.2 V @ 50 mA

0.8 V @ 80 mA

1.0

0.16 V @ 80 mA, 0.16 V @ 80 mA

2.5

0.16 V @ 80 mA

Min.

1.0 V @ 80 mA 3.0

2.0

2.0

2.0

2.0

2.0

1.5

Drop Out Voltage

30

30

40

40

28

12

6.0

12

6.0

6.0

12

12

12

Max.

Input Voltage

SC−70 SC−82AB SOT−23 √

SOT−89 SO−8 SO(W)

√ √

Package

√ √

DIP−8 Micro8

MULTI−MARKET LOW DROPOUT VOLTAGE REGULATORS

√ √

DPAK D2PAK SOT−223

ON Semiconductor Selector Guide − Power Management

TO−92 TO−220 √

√ √

QFN TSSOP16 PDIP

Power−O n Reset, Input Voltage Sense

Ultra Low Iq

Ultra Low Iq

Ultra Low Iq

Ultra Low Iq, ENABLE

w/ ENABLE

Low Iq, High PSRR, ENABLE

Dual, w/ ENABLE, Ultra Low Noise

w/ ENABLE, Ultra Low Noise

Additional Features

NCP612

NCP662

NCP663

MC78FCxx

NCP580

MC78PCxx

NCP623

NCP500

NCP511

NCP551

NCP561

NCP5426

NCP400

100 mA

100 mA

100 mA

120 mA

120 mA

150 mA

150 mA

150 mA

150 mA

150 mA

150 mA

150 mA

150 mA

1.3 V

1.5 V

1.8 V

1.85 V √

2.5 V √

2.6 V √

2.7 V √

2.8 V 2.85 V √

3.0 V √

3.1 V √

3.2 V √

3.3 V √

4.0 V √

5.0 V √

12 V

8.0 V 10 V

4.75 V

3.8 V

Adjustable

6

See Note 2.0

3.0

3.0

3.0

3.0

2.5

2.0

2.0

3.0

2.5

2.0

2.0

2.0

− − − 2.0 2.2 − − − − − − − 1.8

230 mV @ 100 mA 230 mV @ 100 mA 0.5 V @ 40 mA 180 mV @ 120 mA 0.2 V @ 100 mA 0.18 V @ 150 mA 0.165 V @ 150 mA 0.170 V @ 150 mA 40 mV @ 10 mA 0.15 V @ 150 mA 0.15 V @ 150 mA 160 mV @ 100 mA

47

Min.

200 mV @ 100 mA

Drop Out Voltage

http://onsemi.com

6. Output voltages from 2.0 V to 6.0 V, in 0.1 V increments, are available on request.

Part Number

Output Current

5.0

12

6.0

12

6.0

6.0

12

8.0

6.5

10

6.0

6.0

6.0

Max.

Input Voltage

SC−70 √

SC−82AB √

SOT−23 √

SOT−89 √

Flip−Chip

Package

DPAK

Output Voltage

Micro8

MULTI−MARKET LOW DROPOUT VOLTAGE REGULATORS (continued)

Tolerance (%)

QFN √

ENABLE, Reset

w/ ENABLE

Ultra Low Iq

w/ Shutdown, Ultra Low Iq

w/ Shutdown

w/ Shutdown

w/ ENABLE, Ultra Low Noise

w/ ENABLE

ENABLE

Ultra Low Iq

ENABLE, Ultra Low Iq

ENABLE

Additional Features

ON Semiconductor Selector Guide − Power Management

TSSOP16 PDIP

TO−220

SOT−223 TO−92

D2PAK

SO−8 SO(W) DIP−8

NCP582

NCP583

NCP600

NCP584

MC33275

MC33375

NCP2860

NCP585

NCP5501

NCP3335A

NCP3334

150 mA

150 mA

150 mA

200 mA

300 mA

300 mA

300 mA

300 mA

500 mA

500 mA

500 mA

Adjustable

0.9 V 1.2 V 1.5 V 1.8 V 2.5 V

√ √ √ √

√ √

√ √

2.6 V 2.7 V

√ √ √ √ √ √

√ √

√ √ √

√ √ √

2.8 V 2.85 V √

2.9 V 3.0 V 3.1 V 3.2 V √

√ √

√ √

√ √

3.3 V 3.8 V √

5.0 V 8.0 V √

10 V 12 V See Note

− −

1.4

0.26 V @ 300 mA 0.26 V @ 300 mA 0.150 V @ 300 mA 310 mV @ 300 mA

340 mV (max)

340 mV (max)

48

−0.3

−0.3

−7.0

1.4

200 mV @ 200 mA

300 mV

−0.3

1.7

250 mV @ 150 mA 100 mV

2.0

Min.

220 mV @ 150 mA

Drop Out Voltage

http://onsemi.com

0.9

0.9

2.9

3.0

2.0

2.0

2.0

3.0

2.0

3.0

3.0

Tolerance (%)

4.0 V 4.75 V

7. Output voltages from 2.0 V to 6.0 V, in 0.1 V increments, are available on request.

Part Number

Output Current

16

16

18

6.5

6.0

12

12

6.5

6.0

6.5

6.5

Max.

Input Voltage

SC−82AB √

SOT−23 √

SOT−23−5 √

SOT−563 √

SO−8 √

Package

DIP−8

Output Voltage

HSON−6

MULTI−MARKET LOW DROPOUT VOLTAGE REGULATORS (continued)

Micro8

ON Semiconductor Selector Guide − Power Management

DPAK √

SOT−223 √

QFN √

TSSOP16 PDIP

TO−220

TO−92

D2PAK

SO(W)

SOT−89

SC−70

ENABLE, High Accuracy

ENABLE, High Accuracy

Low Noise

ENABLE, Tri−Mode

Low Noise 60 mV, FAULT Indicator, ENABLE

w/ ENABLE

ENABLE, Tri−Mode

ENABLE, Fast Turn−ON

ENABLE, Ultra Low Quiescent Current

ENABLE

Additional Features

MC33269

MC34268

NCP1117

NCP5661

NCP630

NCP5500

NCP565

NCP1086

CS5253B−1

CS5253B−8

NCP5663

MC33765

800 mA

800 mA

1.0 A

1.0 A

3.0 A

500 mA

1.5 A

1.5 A

3.0 A

3.0 A

3.0 A

30 mA 40 mA 50 mA 150 mA 60 mA

Adjustable

1.2 V

1.5 V

1.8 V √

1.9 V √

2.0 V √

2.5 V √

2.8 V √

2.85 V √

3.3 V √

3.47 V √

5V √

8V

4.75 V

4.0 V

3.8 V

3.2 V

3.0 V

2.7 V

3.0 3.0 3.0 3.0 3.0

1.0

1.5

1.0

1.5

2.0

5.0

1.5

1.0

1.0

1.4

1.0

Tolerance (%)

See Note

10 V

49

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8. Output voltages from 2.0 V to 6.0 V, in 0.1 V increments, are available on request.

Part Number

Output Current

2.7

1.07 V @ 800 mA

2.0

0.4 V @ 3.0 A 1.0 V @ 3.0 A

3.0

110 mV 110 mV 110 mV 170 mV 110 mV

2.75

2.4

900 mV @ 1.5 A

0.4 V @ 3.0 A

2.6

20 mV @ 1.0 mA

1.05 V @ 1.5

1.0 V

2.0

1.1 V @ 800 mA

Min.

1.1 V @ 800 mA

Drop Out Voltage

5.3

9.0

6.0

6.0

7.0

9.0

16

12

18

20

15

20

Max.

Input Voltage

SO−8 SO(W) √

DPAK

Package

Micro8

Output Voltage

D2PAK

MULTI−MARKET LOW DROPOUT VOLTAGE REGULATORS (continued)

12 V

SOT−223 √

TO−220 √

QFN √

5 Outputs w/ENABLE

ENABLE, Ultra Fast Transient Response

w/ Control and Sense

w/ Control and Sense

Fast Response

Ultra Fast Transient Response

Enable, Reverse Battery Protection

ENABLE, Fast Turn−ON, High PSRR

ENABLE, Ultra Fast Transient

Safe Area Compensation

For SCSI−2 Active Termination

Additional Features

ON Semiconductor Selector Guide − Power Management

TSSOP16 PDIP

TO−92

DIP−8

SOT−89

SOT−23

SC−70

NCP4523

MC33567

NCP4672

NCP5662

NCP631

NCP5504

150 mA 80 mA 80 mA

Aux. Drive

30 mA 80 mA

2.0 A

3.0 A

250 mA 250 mA

Adjustable

1.2 V 1.5 V 1.515 V 1.8 V 1.818 V 2.0 V

2.3 V 2.35 V 2.5 V √

2.7 V 2.8 V 2.85 V √

3.0 V 3.2 V √

√ √

10 V 12 V See Note

0.4 V @ 300 mA

50

2.0

1.0 V @ 2.0 A

250 mV (max) @ 250 mA

9.0

3.35

Min.

18

9.0

18

18

12.5

7.0

Max.

Input Voltage

150 mV @ 30 mA

110 mV

350 mV 300 mV 220 mV

Drop Out Voltage

http://onsemi.com

2.0 2.0

1.0

1.0

4.0 4.0

5.0 5.0

4.0 4.0 4.0

Tolerance (%)

5V 8V

4.0 V 4.75 V

9. Output voltages from 2.0 V to 6.0 V, in 0.1 V increments, are available on request.

Part Number

Output Current

3.3 V 3.47 V 3.5 V 3.8 V

Output Voltage

SOT−89 SO−8 √

SSOP−8 SO(W) √

Package

DIP−8 Micro8

MULTI−MARKET LOW DROPOUT VOLTAGE REGULATORS (continued)

DPAK D2PAK SOT−223

ON Semiconductor Selector Guide − Power Management

QFN √

TSSOP16 PDIP

TO−92 TO−220

SC−70 SOT−23

Dual, Fast Dynamic Response, Low Iq

Soft−Start

ENABLE, Ultra Fast Transient Response

Dual, Reset, Delay

Dual, ENABLE

3 Outputs w/ENABLE

Additional Features

NCV2931 NCV2951

Adjustable Vout

MC33160

w/ Watchdog & Reset CS8151 Fixed Vout, Reset, Power Warning

CS8101

w/ Enable & Reset

NCV4949

w/ Reset

CS9201 NCV2951 CS9202 NCV78LxxA NCV2931

Fixed VOUT

Iout = 100 mA

NCV553

Iout = 80 mA

NCV8184

Iout = 70 mA

NCV4275

CS8182

51

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Iout = 1.0 A

Iout = 450 mA

Tracking, Adjustable Vout

Iout = 200 m A

CS8321 NCV551

Fixed Vout

NCV78xx

NCV317

Iout = 1.5 A

NCV1117

Iout = 800 mA

w/ Reset & Delay CS8122 CS8126 CS8129

Fixed Vout

Iout = 750 mA

NCV5500

NCV33269

Iout = 400 mA

NCV33275

w/Enable

NCV8141

w/ Watchdog, Reset, Delay, & Shutdown

Fixed Vout

Iout = 500 mA

NCV8503 NCV8504 NCV8505 NCV8506 NCV4276 NCV4276A NCV4274 NCV4274A

NCV8502 NCV4279 NCV4269

w/Reset, Delay, & Monitor

Fixed Vout

Iout = 300 mA

Enable, Reset, Delay, & Monitor

NCV8501 NCV4299

NCV8508 NCV8518

Iout = 250 mA

Adj/Fixed Vout

Iout = 150 mA

Automotive Linear Voltage Regulators

Linear Voltage Regulators

Power Management

CS8361 (250 mA, 100 mA) CS8363 (250 mA, 100 mA)

Tracking, Dual w/Enable & Reset

NCV8509

Dual w/Reset, Delay, & Sequencing

Tracking Dual w/Enable CS8183 (200 mA)

CS8156 (750 mA, 100 mA) CS8161 (400 mA, 200 mA) CS8371 (1 A, 250 mA)

Dual w/Enable

NCV5504

Dual

Multiple O/PS

ON Semiconductor Selector Guide − Power Management

** Not specified

150

150

NCV4299

NCV8501

150

150

NCV4279

NCV4269

150

NCV8664

150

150

NCV4264

2.6 V

NCV4264−2

150

100

NCV663

150

100

NCV662

CS8321

100

NCV612

NCV551

100

NCV78LxxA

100

100

NCV2951

NCV2951A

2.8 V √

100

NCV4949

2.7 V √

100

NCV2931

2.5 V √

100

NCV2931A

1.8 V √

100

CS9202

1.5 V √

100

CS9201

Adj

100

CS8151

100

CS8101

80

Tracking

Output Current (mA)

70

3.2 V

NCV553

3.3 V

NCV8184

5.0 V

Part Number

3.0 V

Output Voltage

3.1 V

Performances

8.0 V √

10 V √

12 V √

Tolerance (%)

400 @ 150

220 @ 100

250 @ 100

250 @ 100

315 @ 150

270 @ 100

275 @ 100

40 @ 150

300 @ 150

170 @ 100

170 @ 100

160 @ 100

1.7 @ 40

350 @ 100

350 @ 100

300 @ 100

160 @ 100

160 @ 100

400 @ 100

400 @ 100

400 @ 100

470 @ 80

350 @ 60

Typ Dropout (mV) @ Load Current (mA)

52

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±2

±2

±2

±2

±2

±2

±2

±3

±2

±4

±4

±3

±4

±1.5

±2.4

±2

±5

±3.8

±2

±2

±2

±2

±3

±5 mV

Max Sleepmode Current (μA) 30

1

1

1

1

**

**

1000

1000

50

20

Reverse Polarity (V) −15

−40

−40

−40

−42

−42

−42

0

−15

**

**

**

**

**

**

**

−50

−50

−15

−15

−15

−15

0

−15

Protections

Thermal Shutdown √

Current Limit √

Overvoltage Shutdown √

Peak Transients (V) 60

60

60

60

45

45

45

12

45

6

6

6

30

32

32

40

60

60

60

60

60

60

12

42

SOT−23 √

SC82−AB √

SC−70−5 or SC−88A or SOT−353 √

SOIC−8 (Std or Epad) √

SOIC−14 (Std or Fused)

Packages

SOIC−20 (Std or Fused)

AUTOMOTIVE LINEAR VOLTAGE REGULATORS

SOIC−16 (Std, Fused or Epad)

ON Semiconductor Selector Guide − Power Management

SOT−223 √

DPAK √

D2PAK √

DIP

TO−220

SOT−89

400

400

400

400

450

500

500

NCV4274

NCV4274A

NCV4276

NCV4276A

NCV4275

NCV8141

NCV5500

1000

1500

NCV1117

** Not specified

NCV317

800

1000

NCV78xx

NCV33269

750

400

NCV8506

CS8129

400

NCV8505

750

400

NCV8504

500

400

NCV8503

NCV5501

300

NCV33275

CS8126−1

250

NCV8518

1.5 V √

250

NCV8508

1.8 V √

200

CS8182

Tracking

150

NCV8512

2.5 V √

150

NCV8502

Adj

Output Current (mA)

Part Number

2.8 V

2.7 V

2.6 V

Output Voltage

3.0 V 3.1 V

Performances

3.3 V √

5.0 V √

10 V √

12 V √

Tolerance (%)

2250 @ 1.5 A

1007 @ 800

2000 @ 1 A

1100 @ 800

350 @ 500

350 @ 500

300 @ 500

300 @ 500

1250 @ 500

250 @ 300

250 @ 250

250 @ 250

250 @ 250

250 @ 250

400 @ 400

400 @ 400

400 @ 400

400 @ 400

260 @ 300

425 @ 150

450 @ 150

350 @ 200

400 @ 150

400 @ 150

Typ Dropout (mV) @ Load Current (mA)

53

http://onsemi.com

±4

±2

±5

±2

±3

±3

±5

±5

±4

±2

±2

±4

±2

±4

±2

±2

±2

±2

±2

±2

±3

±10 mV

±2

±2

Max Sleepmode Current (μA) −

50

50

10

10

1

1

1

55

Reverse Polarity (V) **

**

**

0

−50

−50

−7

−7

−0.5

−42

−42

−42

−42

−42

−15

−15

−15

−15

0

−0.3

−0.3

−15

−15

−15

Protections

Thermal Shutdown √

Current Limit √

Overvoltage Shutdown √

Peak Transients (V) 40

20

35

20

60

60

18

18

60

45

45

45

60

60

60

60

60

60

13

45

45

45

60

60

SOIC−8 (Std or Epad) √

SOIC−20 (Std or Fused)

SOIC−14 (Std or Fused)

3.2 V

Packages

SOIC−16 (Std, Fused or Epad)

AUTOMOTIVE LINEAR VOLTAGE REGULATORS

8.0 V

ON Semiconductor Selector Guide − Power Management

SOT−223 √

DPAK √

D2PAK √

TO−220 √

DIP

SC−70−5 or SC−88A or SOT−353

SOT−89

SC82−AB

SOT−23

200 200

CS8183

** Not specified

250 250

115 100

115 100

NCV5504

NCV8509

115 100

√ √

100 250

CS8363

Output Current (mA)

Adj

100 250

Tracking

CS8361

Part Number

1.8 V √

2.5 V √

2.6 V √

2.8 V

2.7 V

1.5 V

Output Voltage

3.0 V 3.1 V

Performances

3.3 V √

5.0 V √

Tolerance (%)

350 @ 200 350 @ 200

250 @ 250 250 @ 250

400 @ 100 **

400 @ 100 **

400 @ 100 **

** @ 100 400 @ 250

400 @ 100 400 @ 250

Typ Dropout (mV) @ Load Current (mA)

54

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±10 mV ±10 mV

±2 ±2

±2 ±2

±2 ±2

±2 ±2

±2 ±25 mV

±2 ±25 mV

Max Sleepmode Current (μA) 55

200

200

Reverse Polarity (V) −10

**

−0.3

−0.3

−0.3

−50

−50

Protections

Thermal Shutdown √

Current Limit √

Overvoltage Shutdown √

Peak Transients (V) 45

18

50

50

50

60

60

SOIC−14 (Std or Fused)

8.0 V

3.2 V

Packages

SOIC−20 (Std or Fused)

AUTOMOTIVE LINEAR VOLTAGE REGULATORS

SOIC−16 (Std, Fused or Epad)

10 V

ON Semiconductor Selector Guide − Power Management

DPAK √

D2PAK √

DIP

TO−220

SOT−223

SOIC−8 (Std or Epad)

SC−70−5 or SC−88A or SOT−353

SOT−89

SC82−AB

SOT−23

12 V

MC33161 MC34161 NCV33161*

3 Mode Selection

Overvoltage and Undervoltage Indications

MC3423

OVP by Turn On Paralleled SCR

NCP3712A

OVP by Turn Off Series Transistor

Programmable Threshold

NCP346SN1

4.45 V

NCP346SN2

5.5 V

NCP345

6.85 V

Fixed Threshold

Overvoltage Protection

55

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MAX708

MC33160 MC34160 NCP400

*Automotive

Supervisory with Voltage Regulator

with Reset Timeout Delay & Manual Reset

MAX809/MAX810 NCP803

with Reset Timeout Delay

NCP112 NCP302/NCP303/NCV302*/NCV303*

with Programmable Delay

MC33064/MC34064/NCV33064* MC33164/MC34164/NCV33164* NCP300/NCP301/NCV300*/NCV301* NCP304/NCP305

without Delay

Undervoltage Reset

Voltage Supervisory

Power Management

ON Semiconductor Selector Guide − Power Management

4.63, 4.38, 3.08, 2.93, 2.63 *

4.60

4.60

1.27

1.27

2.71 (VIN Increasing) 2.65 (VIN Decreasing)

2.71 (VIN Increasing) 2.65 (VIN Decreasing)

2.6

0.9, 1.8, 2.0, 2.7, 3.0, 4.5, 4.7

MAX810

MC33064

MC34064

MC33161

MC34161

MC33164

MC34164

MC3423

NCP300/1

0.8 to 10

4.5 to 40

1.0 to 10

1.0 to 10

2.0 to 40 (Pos Sensing) 4.0 to 40 (Neg Sensing)

2.0 to 40 (Pos Sensing) 4.0 to 40 (Neg Sensing)

1.0 to 6.5

1.0 to 6.5

1.0 to 5.5

1.0 to 5.5

Supply Voltage Range (V)

0.20 to 0.34**

6.0 mA

24

24

560

560

390

390

0.5

0.5

Typical Supply Current (mA)

*Voltages from 1.6 to 4.9 V by steps of 0.1 V are available upon request. **Depends on the voltage threshold of the part.

4.90, 4.63, 4.55, 4.38, 4.00, 3.08, 2.93, 2.63, 2.32, 1.60 *

MAX809

Description

Typical Threshold Voltage (Vth) (V)

VOLTAGE SUPERVISORY

ON Semiconductor Selector Guide − Power Management

45 to 235 Depends on Threshold Voltage

60

60

25

25

20

20

Threshold Hysteresis (Typ) (mV)

56

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1.2 to 1.4**

10 mA

40

40

900

900

500

500

2.0

2.0

Maximum Supply Current (mA)

−40 to +125

0 to +70

0 to +70

−40 to +125

0 to +70

−40 to +85

0 to +70

−40 to +85

−40 to +105

−40 to +105

Operating Temp. Range (°C)

Thin SOT23−5

SO−8, DIP−8

SO−8, Micro8, TO−92

SO−8, Micro8, TO−92

SO−8, DIP−8

SO−8, DIP−8

SO−8, Micro8, TO−92

SO−8, Micro8, TO−92

SOT23

SOT23

Package

Voltage Detector Series NCP300−CMOS, NCP301−Open Drain

Overvoltage Crowbar Sensing Circuit

Micropower Undervoltage Sensing Circuits

Micropower Undervoltage Sensing Circuits

Universal Voltage Monitor

Universal Voltage Monitor

Undervoltage Sensing Circuit

Undervoltage Sensing Circuit

3−Pin Microprocessor Reset Monitors

3−Pin Microprocessor Reset Monitors

Description

High to Low 45−97** msec Low to High 77−130** msec

0.5 msec

Ext. Capacitor Dependent

Ext. Capacitor Dependent

Ext. Capacitor Dependent

Ext. Capacitor Dependent

Ext. Capacitor Dependent

Ext. Capacitor Dependent

240 msec

240 msec

Time Delay (Typ)

0.9, 1.8, 2.0, 2.7, 3.0, 4.5, 4.7

6.85

4.45, 5.5

4.63, 4.38, 3.08, 2.93, 2.63, 2.32, 1.60

3.3, 5.0, 12

NCP304/5

NCP345

NCP346

NCP803

NCP112

4.5 to 16

1.0 to 5.5

3.0 to 25

3.0 to 25

0.8 to 10

0.8 to 10

Supply Voltage Range (V)

**Depends on the voltage threshold of the part.

0.9, 1.8, 2.0, 2.7, 3.0, 4.5, 4.7

NCP302/3

Description

Typical Threshold Voltage (Vth) (V)

VOLTAGE SUPERVISORY (continued)

3.0 mA

0.5

750

750

0.8 to 1.1**

0.20 to 0.34**

Typical Supply Current (mA)

50

100

45 to 235 Depends on Threshold Voltage

45 to 235 Depends on Threshold Voltage

Threshold Hysteresis (Typ) (mV)

57

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5.0 mA

2.0

1000

1000

3.0 to 3.9**

1.2 to 1.4**

Maximum Supply Current (mA)

0 to +85

−40 to +105

−40 to 85

−40 to +85

−40 to +125

−40 to +125

Operating Temp. Range (5C)

SO−14 PDIP−14

SOT−23

Thin SOT23−5

Thin SOT23−5

SC−82AB

Thin SOT23−5

Package

Triple Supervisor for Desktop Power Supply Monitoring

3 Pin Microprocessor, Reset Monitors

Overvoltage Protection IC

Overvoltage Protection IC

Voltage Detector Series NCP304−CMOS, NCP305−Open Drain

Voltage Detector Series with Programmable Delay NCP302−CMOS, NCP303−Open Drain

Description

Programmable ON/OFF, Power Good, Undervoltage Blocking

240 ms

1.8 msec Turn−On 0.5 msec Turn−Off

10 msec

High to Low 10−18** msec Low to High 6−21** msec

Ext. Capacitor Dependent

Time Delay (Typ)

ON Semiconductor Selector Guide − Power Management

NCP5603 NCP5604 NCP5608 NCP5602 NCP5612

58

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NCP1450A NCP1421/2 NCP1406 NCP5005/6/7 NCP5008 NCP5010 NCP5030 NCP5050*

Charge Pump

LED / Display Drivers

Power Management

Inductive

ON Semiconductor Selector Guide − Power Management

*Coming Soon.

NCP5612: 2 outputs (25 mA each); I2C, LLG 12 (2 x 2 mm)

Charge Pump

OLDED Driver Supply −

NCP1406: Up to 90% efficiency, PFM (up to 1 MHz), 25 V/0.5 W output, Thin SOT23−5 (3 x 3 mm)

59

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Inductive

NCP5608: Consistent 90% efficiency, 8 outputs (4 @ 25 mA each + 4 @ 100 mA each); 0.5% current matching, TQFN24 (4 x 4 mm)

Charge Pump

4 LED + Flash LED

NCP5050*: 23 V/4.5 W output, PWM, 1.7 MHz, DFN−10

Inductive

2−5 LEDs/Series

High Current LED, Up to 1 A

NCP1422: PFM Boost (up to 1.2 MHz), Sync−rect, Output up to 5 V, 800 mA cont. 94% eff., true−cutoff, 50 nA shutdown current, DFN10 (3 x 3 mm)

Inductive

Single or (Multiple in Parallel)

High Current LED, Up to 800 mA

NCP1421: PFM Boost (up to 1.2 MHz), Sync−rect, Output up to 5 V, 600 mA cont. 94% eff., true−cutoff, 50 nA shutdown current, Micro8 (3 x 4.9 mm)

NCP1406: Up to 90% efficiency, PFM (up to 1 MHz) 25 V/0.5 W output, Thin SOT23−5 (3 x 3 mm)

NCP5603: 200 mA cont./350 mA pulsed, voltage regulated output, 4.5 V or 5 V, 75% eff., DFN (3 x 3 mm)

NCP1400ASN50: Fixed frequency PWM micropower boost converter, Thin SOT23−5 (3 x 3 mm)

NCP5064A/B: Consistence 90% efficiency, 3 or 4 outputs (25 mA each); 0.5% current matching, TQFN16 (3 x 3 x 0.8 mm)

Inductive

Inductive

Charge Pump

Inductive

Charge Pump

Single or (Multiple in Parallel)

LED (10 mA − 25 mA), Flash LED (100 mA − 300 mA)

*Coming Soon.

NCP5602: 90% peak efficiency, 2 outputs (25 mA each); 2% current matching, I2C, LLGA 12 (2 x 2 mm)

Charge Pump

NCP1406: Up to 90% efficiency, PFM (up to 1 MHz), 25 V/0.5 W output, Thin SOT23−5 (3 x 3 mm)

NCP5010: 1 MHz PWM Boost, 22 V/0.5 W output integrated rectifier and true−cutoff, Micro−Bump−8 (1.7 x 1.7 mm)

Inductive

Inductive

NCP5005: Enhanced version of NCP5006. High EMI immunity.

Inductive

ON Solution NCP5006/5007: Up to 92% efficiency, PFM, Boost, 21 V / 1 W output, Thin SOT23−5

Inductive

Converter Topology

High Current LED, Up to 600 mA

2−6 LEDs/Series

Medium Current Up to 50 mA for 2 Cells and 100 mA for 3 Cells

Single Driver for Backlight & Flash

Flash (Torch)

Single or (Multiple in Parallel)

Medium Current / Multi−die LED, 100 mA − 350 mA

3 or 4 LEDs/Parallel

2−6 LEDs/Series

2 LEDs/Parallel

2 LEDs/Parallel

Single LED

Standard, 10 mA − 25 mA

Display Backlighting

4 − 5 LED/Series

3 − 5 LED/Series

2 − 5 LED/Series

Number of LED/ Connection

Low Current − Up to 50 mA for 1 Cell / 100 mA for 2 Cell

WLED Type

Application

LED/DISPLAY DRIVERS

Can Operate from 1 or 2 Alkaline or NI−based Cells

One Chip Lighting Solution

Integrated Switch for 2 Adjustable Output Current Levels

Synchronous Rectification

Synchronous Rectification

Simple, Low Cost

High−Current Single Output Charge Pump

Can Operate from 1 or 2 Alkaline or NI−based Cells

NCP5604A: Drives 4 LEDs NCP5604B: Drives 3 LEDs

Can Operate from 1 or 2 Alkaline or NI−based Cells

S−Wire Link Dimming Control

ICON Model I2C Dimming Control

Highly Integrated Driver

Simple

Simple

Key Features

ON Semiconductor Selector Guide − Power Management

NCP1800 NCP1835/B

Single Cell Li−ion

MC33341

Voltage & Current Regulation

MC33340 MC33342

NiCd / NiMH

Charge Controllers

ON Semiconductor Selector Guide − Power Management

60

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Battery Management

Power Management

NCP345 NCP346 NCP348 NUS2045 NUS3045

Overvoltage Charger Protection

Micro8™

SOT23−5

DFN−10

DFN−10

DFN−10 DFN−8 DFN−8 SO−8 DIP−8

Single−Cell Lithium Ion CCCV Battery Charger

Nickel Chemistry Battery Cradle Charger

Overvoltage Protection IC

Adjustable Overvoltage Protection IC

Positive overvoltage protection controller with internal low RON N−MOSFET and status flat.

Up to 1 A Single−Cell Lithium−ion/Polymer Integrated CCCV Battery Charger

Up to 300 mA Single−Cell Lithium−ion/Polymer Integrated CCCV Battery Charger

Overvoltage Protection IC with Integrated 20 V P−Channel Power MOSFET

Overvoltage Protection IC with Integrated 30 V P−Channel Power MOSFET

Power Supply Battery Charger Regulation Control Unit

NCP1800

MC33340/2

NCP345

NCP346

NCP348

NCP1835

NCP1835B

NUS2045

NUS3045

MC33341

SOT23−5

SO−8

Package

Description

Device

BATTERY MANAGEMENT

61

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S Operating Voltage Range of 2.3 V to 16 V

S Integrated NCP345 + 30 V P−Channel MOSFET

S Integrated NCP345 + 20 V P−Channel MOSFET

S No External MOSFET

S No External MOSFET

S No External MOSFET

S 30 V Capability, 4.4 V and 5.5 V Detect Threshold S 1 mS Overvoltage Disconnect Time

S 30 V Capability, 6.85 V Detect Threshold S 1 mS Overvoltage Disconnect Time

S Peak Voltage Detection

S Industry Leading Standby Current 0.5 mA S Adjustable Charge Current Limit

Key Features

ON Semiconductor Selector Guide − Power Management

MC33153

MC33152 MC34152

MC33151 MC34151

Inverting Output

Inverting Output

Single Driver

Dual Drivers

Non−Inverting Output

2 A Peak Drive Current

62

NUD3112 MDC3105

NCP5181 NCP5106A/B* NCP5304*

Dual Input

http://onsemi.com

NCP5111*

Single Input

High Side & Low Side

NCP5426

Vibrator Motor

MC1413

Load / Relay Drivers

Drivers

Power Management

MOSFET / IGBT Drivers

1.5 A Peak Drive Current

Low Side

CS3351 CS3341

Alternator Voltage Regulator Darlington Drivers

ON Semiconductor Selector Guide − Power Management

UAA2016

Triac Controllers (Zero Voltage Switch Drivers)

Dedicated Drivers

*Coming Soon.

1.5 A 1.5 A

Dual, Inverting

Dual, Non−Inverting Extended Operating Temperature

Dual, Non−Inverting

MC34151

MC33152

MC34152

14 (Note 2)

14 (Note 2)

17 (Note 2)

17 (Note 2)

17 (Note 1)

Description

Alternator Voltage Regulator Darlington Driver

Alternator Voltage Regulator Darlington Driver

Part Number

CS3341

CS3351

80 V

80 V

Peak Transient

15 (Note 2)

15 (Note 2)

17 (Note 2)

17 (Note 2)

17 (Note 1)

50 (Note 1)

50 (Note 1)

20 (Note 1)

50 (Note 1)

63

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8.0 V

27 V

Input Supply Voltage

ALTERNATOR VOLTAGE REGULATOR DARLINGTON DRIVERS

1. VCC = 15 V 2. VCC = 12 V

1.5 A

Dual, Inverting Extended Operating Temperature

MC33151

1.5 A

1.0 A Source, 2.0 A Sink

Single, Inverting Protection Circuits for IGBTs

MC33153

150 (Note 1)

220 mA Source, 680 mA Sink

Dual Inputs

NCP5304

150 (Note 1)

220 mA Source, 680 mA Sink

Dual Inputs

NCP5106A/B

40 (Note 1)

1.1 A Source, 2.4 A Sink

Dual Inputs

NCP5181

150 (Note 1)

Single Input

NCP5111

220 mA Source, 680 mA Sink

Configuration

25 mA

25 mA

Supply Current (Enabled)

55/40

55/40

80/120

80/120

80/120

100/100

100/100

100/100

750/100

Compensated Regulation Voltage

Part No.

Typical Input/Output Delay (ns)

20

20

20

20

Features

Lamp Output Pin

Typical Output Voltage Risetime (ns) (From 10% to 90% with 1 nF Load)

Sense Pin

Peak Output Current

Stator Powerup

Typical Propagation Delay Matching @ 255C (ns)

20

20

20

20

20

20

20

20

20

Maximum Supply Voltage (V)

Protection

600

600

600

600

Maximum Bridge Voltage (V)

Overtemperature

Typical Output Voltage Falltime (ns) (From 90% to 10% with 1 nF Load)

Overvoltage

MOSFET/IGBT DRIVERS

SOIC−14

SOIC−14

Package

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

PDIP−8 SOIC−8

Package

ON Semiconductor Selector Guide − Power Management

Short Circuit

Description

Zero Voltage Switch Power Controller

Part Number

UAA2016

1.5 mA

Supply Current

64

http://onsemi.com

−9.0 V

Input Supply Voltage

Zero Voltage Switch for Triacs √

Direct AC Line Operation √

Programmable Temp Reduction √

Features

Sensor Failsafe

DEDICATED DRIVERS

Adj Hysteresis

ON Semiconductor Selector Guide − Power Management

Sense Pin √

Proportional Temp Reg Over “15C √

Stator Powerup

SOIC−8, PDIP−8

Package

NCV7601

Quad

Low Side Driver

65

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Drivers

Power Management

NCV7702

H−Bridge Driver

ON Semiconductor Selector Guide − Power Management

Configurable Dual H−Bridge Driver

NCV7702B

Description

Hex Low−Side Pre−Driver

Part Number

NCV7513

6

Number of Channels

LS Quad Driver

NCV7601

LS PRE−DRIVER

Description

Part Number

LS QUAD DRIVER

Description

Number

Part

1.9 − 5.25

Output Current (mA)

7.0 V

40 V

Active Output Clamp

66

Serial Inputs

650 mV (max)

http://onsemi.com

3.3 V/5 V

Parallel Inputs

Saturation Voltage

Parallel Inputs

On−Chip Flyback Diode

Drivers: Sustaining

RDS(on) @ 255C

Compatibility

Input Supply Voltage

750 mA

Current

Open Load Detection

Undervoltage Lockout

Current Limit

Output Clamping Diodes

PowerOn Reset

Serial Interface

Features

Fault Reporting

Output

Current Limit √

Overvoltage

Power On Reset √

Short to Ground

Open Load

TTL/DTL/CMOS

Compatible Inputs

Protection

Over Temperature

SMART DRIVERS (HIGH−SIDE, LOW−SIDE & H−BRIDGE)

30 V

Shorted to Load

DIP−16

Package

Low Duty Cycle Over Current Mode

ON Semiconductor Selector Guide − Power Management

Peak Transient

Industrial / Appliance / Motor Control Networking / Computing

67

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Wireless & Portable

Application Specific Standard Product

Automotive

ON Semiconductor Selector Guide − Power Management

MC33039

Closed Loop Brushless Motor Adapter

MC33033 MC33035

Brushless DC Motor Controllers

Brushless DC Motor Control

MC33030

w/ Built−In H−Bridge Driver

DC Brush Motor Control

Motor Control

68

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TDA1085C

CS4121 CS4122 CS8190 CS4192

MC3479

NUD3124 MC1413

Air Core Motor Driver

AC Brush Triac Controller (Universal Motor)

MDC3105 NUD3112

Load / Relay Drivers

Industrial / Appliance / Motor Control

Application Specific Standard Products

Stepper Motor Driver

ON Semiconductor Selector Guide − Power Management

UAA2016

Triac Controllers (Zero Voltage Switch Drivers)

Industrial

CS3341 CS3351 CS3361

Alternator Voltage Regulator FET Driver

NCV7361A NCV7380 NCV7382

LIN CS4121 CS4122 CS8190 CS4192

Gauge Drivers NCV7356

CAN

69

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Automotive

Application Specific Standard Products

H−Bridge Driver NCV7702

LS Quad Driver NCV7601

Drivers

ON Semiconductor Selector Guide − Power Management

Configurable Dual H−Bridge Driver

NCV7702

5.25

NCV7361A

Description

Single Wire Can Transceiver

NCV7356

18 V

18 V

Part Number

CAN TRANSCEIVERS

7.0

NCV7382

18 V

5.0

Min 27 V

Max

On−Chip Flyback Diode

0.6 mA

0.8 mA

ICC

5.0 mA

Normal Mode

70

8.0 mA (max)

Undervoltage Lockout

Power On Reset 40 mA

120 mA

120 mA

BUS Short Ckt Current

Current Limit

Open Load Detection

30 mA

Normal Mode

Overvoltage

Protection

70 mA

High Speed Mode

Supply Current (Dominant)

35 mA

6.5 mA

Supply Current (Sleep Mode)

High Speed Mode

Supply Current (Recessive)

0.9 mA

1.0 mA

Is

Parallel Inputs

Supply Current (Dominant)

Active Output Clamp

http://onsemi.com

110 mA (max)

50 mA

14 mA

Operating Range

25 mA

10 mA

7.0

NCV7380

RDS(on) @ 25°C

ICC

Is

Min

Part Number

Max

Supply Current (Recessive)

750 mA

Current

Serial Interface

Features

Fault Reporting

Output

Operating Range

LIN TRANSCEIVERS

Description

Number

Part

30 V

30 mA

Supply Current (Sleep Mode)

LIN 1.3/2.0 & SAE J2602

LIN 1.3/2.0

LIN 1.3/2.0

LIN Compatibility

Over Temperature

SMART DRIVERS (HIGH−SIDE, LOW−SIDE & H−BRIDGE) Low Duty Cycle Over Current Mode

ON Semiconductor Selector Guide − Power Management

Peak Transient

LS Quad Driver

NCV7601

MC33039

Part Number

7.0 V

Designed Primarily for use w/MC33035 Brushless Motor

Description

CLOSED LOOP BRUSHLESS MOTOR ADAPTER

Description

Part Number

5.5 V

36 V

Down to 100 RPM

Constant Speed Operation

71

8.25 V

Internal Shunt Regulator

650 mV (max)

http://onsemi.com

5.0 mA

On−Chip Op Amp √

Window Comparator

Saturation Voltage

1.0 A

Power H−Switch

Supply Current

40 V

Drivers: Sustaining

Input Supply Voltage

Input Supply Voltage

DC Servo Motor Controller/Driver

MC33030

LS QUAD DRIVER

Description

Input Supply Voltage

Self Centering Reference Input √

60°/300° and 120°/240°

Protection

Features

TTL/DTL/CMOS

Compatible Inputs

Output Clamping Diodes

Drive & Brake Logic w/Direction Memory TTL Compatible Inputs w/Hysteresis

Part Number

Programmable Monostable

Features

Programmable Overcurrent Detector

DC BRUSH MOTOR CONTROL

SO−8, DIP−8

Package

DIP−16

Package

SO−14

Package

ON Semiconductor Selector Guide − Power Management

Temp Compensated Regulation Voltage

Sensor Electrical Phasing

Programmable Shutdown Delay Digital Edge Detectors

Overvoltage Inverter Output

Alternator Voltage Regulator Darlington Driver

Alternator Voltage Regulator Darlington Driver

Alternator Voltage Regulator FET Driver

CS3341

CS3351

CS3361

MC3479

Part Number

Drives a 2−Phase Stepper Motor in the Bipolar Mode

Description 7.2 to 16.5 V

Input Supply Voltage

Zero Voltage Switch Power Controller

UAA2016

STEPPER MOTOR DRIVER

Description

Part Number

TRIAC CONTROLLERS

Description

Part Number

ALTERNATOR VOLTAGE REGULATOR FET DRIVERS

−9.0 V

Input Supply Voltage

27 V

8.0 V

27 V

Input Supply Voltage

400 mV (min)

Input Hysteresis

1.5 mA

Supply Current

80 V

80 V

80 V

Peak Transient

72

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350 mA

Drive Capability

ON Semiconductor Selector Guide − Power Management

10 mA

25 mA

25 mA

Supply Current (Enabled)

Open− Collector

Output Driver

Zero Voltage Switch for Triacs

Features

Stator Powerup

Protection

Features

Features

Compensated Regulation Voltage Direct AC Line Operation TTL/CMOS Compatible Inputs

Lamp Output Pin

Programmable Temp Reduction

Back−EMF Suppression

Overtemperature Sense Pin

Sense Pin Sensor Failsafe

Overvoltage Proportional Temp Reg Over “15C √

Full/Half Step Operation

Adj Hysteresis Selectable High/Low Output Impedance

Short Circuit Stator Powerup √

Allows Revering Rotation of Motor

PDIP−16

Package

SO−8, PIP−8

Package

SO−14

SO−14

SO−14

Package

10 − 30

10 − 40

MC33033

MC33035

10 − 30

VC

Undervoltage Lockout √

Internal Thermal Shutdown √

√ √

Fwd/Rev Control

Major

1

1

1

1

Part Number

CS4121

CS4122

CS8190

CS4192

2

Minor

Gauges Driven

Freq.

PWM

Input

SPI

AIR CORE MOTOR DRIVERS/GAUGE DRIVERS

VCC

Device

Operating Voltage Range (V) Sensor Electrical Phasing Current

70 mA

33 mA

80 mA

33 mA

Output Enable

Return to Zero

73

6.25 V Reference Output √

UVLO

Features

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Differential

Differential

Differential

Differential

Method

Output

605/3005 and 1205/2405

Output Drivers Totem Pole (Bottom)

BRUSHLESS DC MOTOR CONTROLLERS

Open Collector (Top)

Current Sense Comparator Input(s) √

Regulator Output

Noninv. and Inv.

Noninv. Only

Error Amplifier √

FAULT Output √

Current Limit

− √

Over voltage

Separate Drive VC −

Over Temp.

Protection

16 V

60 V

18 V

60 V

Peak Transient

DIP−24, SO−24L

DIP−20, SO−20L

Package

ON Semiconductor Selector Guide − Power Management

Brake Input

NCV2931 NCV2951

Adjustable Vout

MC33160

w/ Watchdog & Reset CS8151 Fixed Vout, Reset, Power Warning

CS8101

w/ Shutdown & Reset

NCV4949

w/ Reset

CS9201 NCV2951 CS9202 NCV78LxxA NCV2931

Fixed Vout

Iout = 100 mA

NCV553

Iout = 80 mA

NCV8184

Iout = 70 mA

CS8182

Tracking Adjustable Vout

Iout = 200 m A

CS8321 NCV551

Fixed Vout

74

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NCV4275

Iout = 450 mA

Fixed Vout

NCV8503 NCV8504 NCV8505 NCV8506 NCV4276

NCV317

Iout = 1.5 A

NCV1117 NCV78xx

Iout = 1.0 A

NCV33269

Iout = 800 mA

CS8122 CS8126 CS8129

w/ Reset & Delay

Iout = 750 mA

NCV5500

NCV8141 w/Enable

w/ Watchdog, Reset, Delay, & Shutdown

Fixed Vout

Iout = 500 mA

Iout = 400 mA

NCV33275

w/Reset, Delay, & Monitor

NCV8502 NCV4279

Fixed Vout

Iout = 300 mA

NCV8508

Iout = 250 mA

NCV8501

Enable, Reset, Delay, & Monitor

Adj/Fixed Vout

Iout = 150 mA

Voltage Regulation

Automotive (continued)

Application Specific Standard Products

ON Semiconductor Selector Guide − Power Management

CS8361 (250 mA, 100 mA) CS8363 (250 mA, 100 mA)

Tracking, Dual w/Enable & Reset

NCV8509

Dual w/Reset, Delay, & Sequencing

Tracking Dual w/Enable CS8183 (200 mA)

CS8156 (750 mA, 100 mA) CS8161 (400 mA, 200 mA) CS8371 (1 A, 250 mA)

Dual w/Enable

NCV5504

Dual

Multiple O/PS

2−Phase

NCP5331 NCP5322A NCP5332A NCP5371*

1−Phase

CS5157H CS5165A MC33470

NCP1030 NCP1031

Bias Regulators for Telecom Equipment

CS51021A CS51022A NCP1562*

CS5301

3−Phase

DDR Controllers

6−Phase

75

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NCP5318 (VR10)

2/3/4−Phase

NCP5351 NCP5355 NCP3418B NCP3488

MOSFET Drivers

NCP5201 (DDR Memory) NCP5203 (DDR Memory) NCP5208 (VTT Termination) NCP5210 (DDR & MCH) NCP5220A (DDR & MCH)

DC−DC Converters for Microprocessors

CS5124 CS51221

DC−DC Converters for Telecom Equipment

Networking / Computing

Application Specific Standard Products

NCP5662 Iout = 3.0 A NCP5663

NCP3335 Iout = 1.5 A NCP565

MC34268 NCP1117

SCSI Applications

MC33567

Dual LDO Controller for Graphics Cards

Iout = 2.0 A

NCP5661

MC33565 Iout = 500 mA

Iout = 1.0 A

Iout = 200 mA

Smart LDOs for NIC and PCI Cards

Voltage Regulators

*Coming Soon.

NCP1595 NCP1582/3 NCP1586 NCP1588* NCP5215*

Memory & System Controllers

ON Semiconductor Selector Guide − Power Management

Charge Pump

MAX828 Please refer to Voltage MAX829 Supervisory Tree, Page 55. MAX1720 NCP1729 NCP5603

Voltage Supervisory

76

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NCP5603 NCP1450A NCP5604 NCP1421/2 NCP5608 NCP1406 NCP5602 NCP5005/6/7 NCP5612 NCP5008 NCP5010 NCP5039* NCP5050* Please refer to LED Driver Table, Page 59.

Charge Pump

LED/Display Driver

Inductive

Please refer to DC−DC Switching Tree, Page 38.

DC−DC Switching Controller

Wireless & Portable

Application Specific Standard Products

ON Semiconductor Selector Guide − Power Management

NCP365 NCP366 NCP368 NUS2045 NUS3045

Overvoltage Protection IC

*Coming Soon.

NCP1800 NCP18335/B Please refer to Battery Management Table, Page 61.

1−Cell Lithium

MC33340 MC33342

NiCd/NiMH

MC33341

V/I Regulation Controller

Charge Control

Battery Management

*BOLD denotes a new device.

OLDED Driver Supply

2−5 LEDs/Series

High Current LED, Up to 1 A

4 LED + Flash LED

Single or (Multiple in Parallel)

High Current LED, Up to 800 mA

LED (10 mA − 25 mA), Flash LED (100 mA − 300 mA)

Single or (Multiple in Parallel)

High Current LED, Up to 600 mA

2−6 LEDs/Series

Medium Current Up to 50 mA for 2 Cells and 100 mA for 3 Cells

Single Driver for Backlight & Flash

Flash (Torch)

Single or (Multiple in Parallel)

Medium Current / Multi−die LED, 100 mA − 350 mA

3 or 4 LEDs/Parallel

2−6 LEDs/Series

2 LEDs/Parallel

2 LEDs/Parallel

Single LED

Standard, 10 mA − 25 mA

Display Backlighting

4 − 5 LED/Series

3 − 5 LED/Series

2 − 5 LED/Series

Number of LED/ Connection

Low Current − Up to 50 mA for 1 Cell / 100 mA for 2 Cell

WLED Type

Application

LED/DISPLAY DRIVERS

NCP1406: Up to 90% efficiency, PFM (up to 1 MHz), 25 V/0.5 W output, Thin SOT23−5 (3 x 3 mm)

Inductive

77

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NCP5608: Consistent 90% efficiency, 8 outputs (4 @ 25 mA each + 4 @ 100 mA each); 0.5% current matching, TQFN24 (4 x 4 mm)

Charge Pump

NCP5050: 23 V/4.5 W output, PWM, 1.7 MHz, DFN−10

NCP1422: PFM Boost (up to 1.2 MHz), Sync−rect, Output up to 5 V, 800 mA cont. 94% eff., true−cutoff, 50 nA shutdown current, DFN10 (3 x 3 mm)

Inductive

Inductive

NCP1421: PFM Boost (up to 1.2 MHz), Sync−rect, Output up to 5 V, 600 mA cont. 94% eff., true−cutoff, 50 nA shutdown current, Micro8 (3 x 4.9 mm)

NCP1406: Up to 90% efficiency, PFM (up to 1 MHz) 25 V/0.5 W output, Thin SOT23−5 (3 x 3 mm)

Inductive

Inductive

NCP5603: 200 mA cont./350 mA pulsed, voltage regulated output, 4.5 V or 5 V, 75% eff., DFN (3 x 3 mm)

NCP1400ASN50: Fixed frequency PWM micropower boost converter, Thin SOT23−5 (3 x 3 mm)

Inductive

Charge Pump

NCP5064A/B: Consistence 90% efficiency, 3 or 4 outputs (25 mA each); 0.5% current matching, TQFN16 (3 x 3 x 0.8 mm)

NCP5612: 2 outputs (25 mA each); I2C, LLG 12 (2 x 2 mm)

Charge Pump

Charge Pump

NCP5602: 90% peak efficiency, 2 outputs (25 mA each); 2% current matching, I2C, LLGA 12 (2 x 2 mm)

Charge Pump

NCP1406: Up to 90% efficiency, PFM (up to 1 MHz), 25 V/0.5 W output, Thin SOT23−5 (3 x 3 mm)

NCP5010: 1 MHz PWM Boost, 22 V/0.5 W output integrated rectifier and true−cutoff, Micro−Bump−8 (1.7 x 1.7 mm)

Inductive

Inductive

NCP5005: Enhanced version of NCP5006. High EMI immunity.

Inductive

ON Solution NCP5006/5007: Up to 92% efficiency, PFM, Boost, 21 V / 1 W output, Thin SOT23−5

Inductive

Converter Topology

Can Operate from 1 or 2 Alkaline or NI−based Cells

One Chip Lighting Solution

Integrated Switch for 2 Adjustable Output Current Levels

Synchronous Rectification

Synchronous Rectification

Simple, Low Cost

High−Current Single Output Charge Pump

Can Operate from 1 or 2 Alkaline or NI−based Cells

NCP5604A: Drives 4 LEDs NCP5604B: Drives 3 LEDs

Can Operate from 1 or 2 Alkaline or NI−based Cells

S−Wire Link Dimming Control

ICON Model I2C Dimming Control

Highly Integrated Driver

Simple

Simple

Key Features

Now

Now

4Q06

Now

Now

Now

Now

Now

Now

Now

3Q06

Now

Now

Now

Now

Availability

ON Semiconductor Selector Guide − Power Management

ON Semiconductor Selector Guide − Power Management

Relay Drivers Device

VBR Max (V)

ID (mA)

Ez (mJ)

CASE 318 SOT−23

MDC3105L

6.0

6

5

4

1

2

3

CASE 318F SC−74

50

MDC3105DM

500

6.0

500

50

Drain (3)

Gate (1)

CASE 318 SOT−23

1.0 k 300 k

Source (2) NUD3105L

6.0

500

Drain (6)

6

5

4

Gate (2)

1

2

3

Drain (3)

1.0 k

CASE 318F SC−74

300 k

6.0

300 k

500

http://onsemi.com 78

Gate (5)

1.0 k

Source (1) NUD3105DM

50

Source (4) 50

ON Semiconductor Selector Guide − Power Management

Relay Drivers (continued) Device

VDS Max (V)

ID (mA)

Ez (mJ) Drain (3)

Gate (1)

CASE 318 SOT−23

1.0 k 300 k

Source (2) NUD3112L

14

500

Drain (6) 4

5

6

3

2

1

CASE 318F SC−74

Gate (2)

50

Drain (3)

1.0 k 300 k

300 k

Source (1) NUD3112DM

Gate (5)

1.0 k

14

Source (4)

500

50

Drain (3)

CASE 318 SOT−23

Gate (1)

10 k 100 K

Source (2) NUD3124L

28

150

Drain (6)

6

5

250

Drain (3)

4

1

2

3

CASE 318F SC−74

Gate (2)

10 k 100 K

100 K

Source (1) NUD3124DM

28

Source (4) 150

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Gate (5)

10 k

250

ON Semiconductor Selector Guide − Power Management

Relay Drivers (continued) Device

VDS Max (V)

ID (mA)

Ez (mJ) Drain (3)

CASE 318 SOT−23

Gate (1)

10 k 100 k

Source (2) NUD3160L

60

150

250

Drain (6)

6

5

Drain (3)

4

1

3

2

CASE 318F SC−74

Gate (2)

100 k

100 k

Source (1) NUD3160DM

Gate (5)

10 k

10 k

Source (4)

60

150

250

VMax (V)

IMax (mA)

P (Watts)

LED Drivers Device

Vin

N/C

8 1

Rext

CASE 751 SO−8

GND

1

8

2

7 Current Set Point

3 4

6 5

Iout Iout Iout Iout

Vbat 12 V

NUD4001DR2

30

500

1.13

NUD4011DR2

200

70

1.13

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ON Semiconductor Selector Guide − Power Management

Integrated PNP/NPN Digital Transistor Array Device

VCE (V)

hfe

VBR (V)

(6)

(5)

PD (mW) (4)

Q3 6

CASE 318F SC−74

1

Q1

Q2

(1) 0.25

NUS2401SN

(2)

60 & 350

(3) 50

350

Devices listed in bold italic are ON Semiconductor preferred devices.

Inrush Current Limiter SMART HotPlugt− Low Side • Integrated Power Device • Temperature Sensing Diode in Power MOSFET

• Adjustable Current Limit • Adjustable UVLO and OVLO

Vin (V) Package

Device

Min

Max

RDS(on) (mW)

ID Avg (A)

Typ

Max

Thermal Option

Thermal Limit

Thermal Limit Hysteresis

Typ 5C

Typ 5C

7 Input +

Voltage Regulator

8 1 7

Thermal Shutdown CASE 553AA S−PAK EX SUFFIX

6 UVLO/ ENABLE

4, 8 Drain

Undervoltage Lockout

5 OVLO

Overvoltage Shutdown

3 Current Limit

Current Limit

Input − 1, 2 SPAK

NIS5101E1T1

18

110

43

6.5

Latch Off

135

40

SPAK

NIS5101E2T1

18

110

43

6.5

Auto−Retry

135

40

SPAK

NIS5101E1T1G

18

110

43

6.5

Latch Off

135

40

SPAK

NIS5101E2T1G

18

110

43

6.5

Auto−Retry

135

40

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ON Semiconductor Selector Guide − Power Management

SMART HotPlugt − High Side Vin (V) Package

Device

Min

RDS(on) (mW)

ID Avg (A)

Typ

Max

Max VCC 13

Voltage Regulator

Ç ÇÇ ÇÇ Ç ÇÇ CASE 488AB 9×9 MM, 12 PIN PLLP

1 OVLO

Thermal Limit Hysteresis

Typ 5C

Typ 5C

Ccharge 5

Charge Pump Current Limit

Thermal Shutdown

2 UVLO

Thermal Option

Thermal Limit

10, 11, 12 Source

Undervoltage Lockout

6 Current Limit

Common Shutdown

Power Good

Enable/ Timer

Overvoltage Shutdown

7 Power Good/ Power Good 4 GND

3 Enable/Timer QFN 9×9

NIS5102QP1HG

9

18

10

10

Latch Off

135

40

QFN 9×9

NIS5102QP2HG

9

18

10

10

Auto−Retry

135

40

VCC

Charge Pump

Voltage Regulator

Current Limit 8 1

Current Limit

Overvoltage Clamp

CASE 751 SOIC−8 NB

Source

Thermal Latch Voltage Slew Rate

Enable/ Timer

Enable/Timer

GND

dv/dt

SO−8

NIS5112D1R2G

9.0

18

30

3.0

Latch Off

135

40

SO−8

NIS5112D2R2G

9.0

18

30

3.0

Auto−Retry

135

40

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ON Semiconductor Selector Guide − Power Management

Hybrid Diode IC Better Efficiency Rectification System, BERSt IC • Integrated Power Device • Low Forward Drop

Vin (V) Typ

Device

Configurations

• Gate Drive Available to Parallel Additional MOSFETs Fet Turn−On Time Imax = 3.0 A, Irev = 1.0 A, Vrev = 5.0 V Typ (nsec)

RDS(on) VGS = 5.0 V ID = 10 A (mW)

IFAV Avg (A) Max

Max

• Can be used in High Side and Low Side

MARKING DIAGRAM

Reg In

1

Cathode

Voltage Regulator

NIS6111 AWLYYWW

CASE 488AC PLLP32

Turnoff Propagation Delay Time VDS = Voffset to ID = 0 A Typ (nsec)

Bias 1

32

NIS6111= Specific Device Code A = Assembly Location WL = Wafer Lot YY = Year WW = Work Week NIS6111QP

0.8

24

Gate 30

Anode

3.7

45

35

Oscillator Frequency fosc Typ (MHz)

RDS(on) High Side FET (Typ) W

RDS(on) Low Side FET (Typ) W

Floating, Regulated Charge Pump Device

Idavg, Drive Current Max (A)

VCC (V)

VCC

0.50 V

MARKING DIAGRAM

Regulator 15 V

8 CASE 751 SOIC−8 NB

8 1

NIS6201 ALYWX

1 A L Y W

150 mV

= Assembly Location = Wafer Lot = Year = Work Week

−0.3 to 18

DRIVE

1.0 MHz Oscillator

SIGGND NIS6201

Overcharge

COMP

0.05

1.0

http://onsemi.com 83

VREG 20

PWRGND 20

ON Semiconductor Selector Guide − Power Management

Overvoltage Protection IC with Integrated P−Channel MOSFET Device

VCC (V)

VDSS (V) Max

ID (A), Steady State

Vin

RDS(on) (mW) Typ VGS = −4.5 V ID (Note 3)

Vth (V) Typ

Vload VCC

Package and Dimensions

8

CASE 506AL DFN8

8

CASE 517AH UDFN8

1 P−CH LOAD

OVP/ CIRCUIT

1

Vgate

8 CASE 506AN WDFN6

GND

1 (Package Drawings Not to Scale)

NUS2045MN

2.8 to 20

20

−1.0

71

6.85

DFN8 3.3×3.3×0.85 mm

NUS3045MN

2.8 to 30

30

−1.0

66

6.85

DFN8 3.3×3.3×0.85 mm

NUS3046MN

2.5 to 30

30

−1.0

66

5.5

DFN8 3.3×3.3×0.85 mm

NUS3055MN

2.8 to 30

30

−1.0

66

6.85

TLLGA 2.5×3.0x0.55 mm

NUS1204MN

12

12

−0.6

75

4.725

WDFN6 2.0×2.0x0.85 mm

3. ID = −1.0 A

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ON Semiconductor Selector Guide − Power Management

http://onsemi.com 85

ON Semiconductor Selector Guide − Power Management

http://onsemi.com 86

Amplifiers and Comparators

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ON Semiconductor Selector Guide − Amplifiers and Comparators

Amplifiers and Comparators Table of Contents Page

Single Operational Amplifiers . . . . . . . . . . . . . . . . . . . . . 91 Dual Operational Amplifiers . . . . . . . . . . . . . . . . . . . . . . . 93 Quad Operational Amplifiers . . . . . . . . . . . . . . . . . . . . . . 95 Single Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 Dual Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 Quad Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 Audio Amplifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99 Transconductance Amplifiers . . . . . . . . . . . . . . . . . . . . . 99 Video Amplifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 Compandors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100

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ON Semiconductor Selector Guide − Amplifiers and Comparators

http://onsemi.com 90

±3.0

±3.0

±3.0

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

1.8 or ±0.9

1.8 or ±0.9

1.0 or ±0.5

1.0 or ±0.5

Device Name

LM201A

LM201AV

LM301A

MC33071

MC33071A

MC33171

MC33201

MC33201V

MC33501

MC33503

7.0 or ±3.5

7.0 or ±3.5

12

12

44 or ±22

44

44

±18

±22

±22

VCC (max) (V)

[email protected] VS = 5

[email protected] VS = 5

2.2

2.2

1.8

4.5

4.5

1.0

1.0

1.0

GBW (typ) (MHz)

*TSOP−5 − Also known as Thin SOT23−5.

VCC (min) (V)

3.0

3.0

1.0

1.0

2.1

13*

13*

0.5

0.5

0.5

Slew Rate (typ) (V/us)

SINGLE OPERATIONAL AMPLIFIERS

5.0

5.0

6.0

6.0

5.0

3.0

5.0

7.5

2.0

2.0

VIO (max @ 25°C, Vs = 5.0 V) (mV)

0.04 pA

0.04 pA

80

80

20

100

100

70

30

30

IIB (typ) (nA)

−40 to +105

−40 to +105

−55 to +125

−40 to +105

−40 to +85

−40 to +85

−40 to +85

0 to 70

−40 to +105

−25 to +85

Temp Range (°C)

75

75

90

90

90

97

97

90

96

96

CMR (typ) (dB)

91

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1.2 @ Vs = 1 V

1.2 @ Vs = 1 V

0.9

0.9

0.18

1.6

1.6

1.8

1.8

1.8

ID (typ) (mA)

30

30

20

20

32

32

32

en (typical) ǒnVń ǸHzǓ @ f = 1.0 kHz

1

1

1

1

1

1

1

1

1

1

Number of Channels

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Split

Split

Split

Supply Type

TSOP−5*

TSOP−5*

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

Package

One Volt SMARTMOS, Rail−to−Rail

One Volt SMARTMOS™, Rail−to−Rail

Low Voltage, Rail−to−Rail, Extended Temp. Range

Low Voltage, Rail−to−Rail

Low Power, Single Supply, Two Voltage Ranges

High SR, Wide BW, Single Supply, *Av = −1.0

High SR, Wide BW, Single Supply, *Av = −1.0

General Purpose, Non Compensated

General Purpose, Precision Non Compensated

General Purpose, Precision Non Compensated

Description

ON Semiconductor Selector Guide − Amplifiers and Comparators

3.0 or ±1.5

0.9 or ±0.45

0.9 or ±0.45

1.8 or ±0.9

0.9 or ±0.45

±0.9 or 1.8

±3.0

±3.0

±0.9 or 1.8

±3.0

±3.0

±3.0

±3.0

MC34071A

NCS2001

NCS2002

NCS7101

NCV2002

NE5230

NE5534

NE5534A

SA5230

SA5534

SA5534A

SE5534

SE5534A

±20

±20

±20

±20

±7.5 or 15

±20

±20

±7.5 or 15

7.0 or ±3.5

10 or ±5.0

7.0 or ±3.5

7.0 or ±3.5

44

44

VCC (max) (V)

10

10

10

10

0.6

10

10

0.6

0.8

1.0

0.8

1.4

4.5

4.5

GBW (typ) (MHz)

*TSOP−5 − Also known as Thin SOT23−5.

3.0 or ±1.5

MC34071

Device Name

VCC (min) (V)

13

13

13

13

0.25

13

13

0.25

1.2

1.2

1.2

1.6

13*

13*

Slew Rate (typ) (V/us)

2.0*

2.0*

4.0*

4.0*

3.0

4.0*

4.0*

3.0

6.0

7.0

6.0

6.0

3.0

5.0

VIO (max @ 25°C, Vs = 5.0 V) (mV)

SINGLE OPERATIONAL AMPLIFIERS (continued)

400

400

500

500

40

500

500

40

10 pA

1.0 pA

10 pA

10 pA

100

100

IIB (typ) (nA)

−55 to 125

−55 to 125

−40 to 85

−40 to 85

−40 to 85

0 to 70

0 to 70

0 to 70

−40 to +125

−40 to +85

−40 to +105

−40 to +105

0 to 70

0 to 70

Temp Range (°C)

100

100

100

100

95

100

100

95

82

65 (min)

82

70

97

97

CMR (typ) (dB)

92

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4.0

4.0

4.0

4.0

0.6

4.0

4.0

0.6

.80

1.1

.80

.80

1.6

1.6

ID (typ) (mA)

ON Semiconductor Selector Guide − Amplifiers and Comparators

3.5

4.0

3.5

4.0

30

3.5

4.0

30

100

140

100

100

32

32

en (typical) ǒnVń ǸHzǓ @ f = 1.0 kHz

1

1

1

1

1

1

1

1

1

1

1

1

1

1

Number of Channels

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Supply Type

PDIP−8

PDIP−8

SO−8, PDIP−8

PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

SO−8, PDIP−8

TSOP−6*

TSOP−5*

TSOP−6*

TSOP−5*, SC70−5

DIP−8, SO−8

DIP−8, SO−8

Package

Description

Single Low Noise Op Amp

Single Low Noise Op Amp

Single Low Noise Op Amp

Single Low Noise Op Amp

Single Low Voltage Op Amp

Single Low Noise Op Amp

Single Low Noise Op Amp

Single Low Voltage Op Amp

One Volt, CMOS Rail−to−Rail with Enable

Low Voltage, Rail−to−Rail

One Volt, CMOS Rail−to−Rail with Enable

One Volt, CMOS Rail−to−Rail

High SR, Wide BW, Single Supply, *Av = −1.0

High SR, Wide BW, Single Supply, *Av = −1.0

3.0 or ±1.5

±2.5

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

±2.5

±5.0

3.0 or ±1.5

3.0 or ±1.5

±2.0

LM358

LM833

LM2904

LM2904V

MC33072

MC33072A

MC33077

MC33078

MC33172

MC33172V

MC33178

±18

44 or ±22

44 or ±22

±18

±18

44 or ±22

44 or ±22

26 or ±13

26 or ±13

36

32 or ±18

32 or ±18

VCC (max) (V)

5.0

1.8

1.8

16

37

4.5

4.5

1.0

1.0

15

1.0

1.0

GBW (typ) (MHz)

*ID typical for total device (all channels)

3.0 or ±1.5

LM258

Device Name

VCC (min) (V)

2.0

2.1

2.1

7.0

11

13*

13*

0.6

0.6

7.0

0.6

0.6

Slew Rate (typ) (V/us)

DUAL OPERATIONAL AMPLIFIERS

3.0

5.0

5.0

2.0

1 @ VS = ±15 V

3.0

5.0

7.0

7.0

5.0

7.0

5.0

VIO (max @ 25°C, Vs = 5.0 V) (mV)

100

20

20

300

280

100

100

45

45

300

45

45

IIB (typ) (nA)

0.85

0.36

0.36

4.1

3.5

3.2

3.2

0.7

0.7

4.0

0.7

0.7

ID* (typ) (mA)

110

90

90

100

107

97

97

70

70

100

70

85

CMR (typ) (dB)

93

http://onsemi.com

−40 to +85

−40 to +105

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +125

−40 to +105

−40 to +85

0 to 70

−25 to +85

Temp Range (°C)

7.5

32

32

4.5

4.4

32

32

4.5

en (typical) ǒnVń ǸHzǓ @ f = 1.0 kHz

2

2

2

2

2

2

2

2

2

2

2

2

Number of Channels

Split

Single, Split

Single, Split

Split

Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Supply Type

DIP−8, SO−8

SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8, Micro8

DIP−8, SO−8, Micro8

DIP−8, SO−8

DIP−8, SO−8, Micro8

DIP−8, SO−8, Micro8

Package

High Output Current, Low Power, Low Noise

Low Power, Single Supply, Two Voltage Ranges, Extended Temp. Range

Low Power, Single Supply, Two Voltage Ranges

Low Noise

Low Noise

High SR, Wide BW, Single Supply, *Av = −1.0

High SR, Wide BW, Single Supply, *Av = −1.0

Low Power

Low Power

Low Noise

Low Noise

Low Noise

Description

ON Semiconductor Selector Guide − Amplifiers and Comparators

1.8 or ±0.9

3.0 or ±1.5

1.0

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

−8.0

±3.0

±3.0

±3.0

5.0 or ±2.5

5.0 or ±2.5

MC33202V

MC33272A

MC33502

MC34072

MC34072A

MC34072V

NE592

NE5532/A

SA5532

SE5532/A

TCA0372

TCA0372B

40 or ±20

40 or ±20

±20

±20

±20

+8.0

44 or ±22

44 or ±22

44 or ±22

7.0

36 or ±18

12 or ±6

12 or ±6

VCC (max) (V)

1.4

1.4

10

10

10

90

4.5

4.5

4.5

5.0

24

2.2

2.2

GBW (typ) (MHz)

*ID typical for total device (all channels)

1.8 or ±0.9

MC33202

Device Name

VCC (min) (V)

1.4

1.4

9.0

9.0

9.0

13*

13*

13*

3.0

10

1.0

1.0

Slew Rate (typ) (V/us)

15 @ ±15 V

15 @ ±15 V

2.0 @ ±15 V

4.0 @ ±15 V

4.0 @ ±15 V

5.0

3.0

5.0

5.0

1 @ VS = ±15 V 2 @ VS = 5.0 V

8.0

8.0

VIO (max @ 25°C, Vs = 5.0 V) (mV)

DUAL OPERATIONAL AMPLIFIERS (continued)

100

100

200

200

200

9.0 mA

100

100

100

0.04 pA

300

80

80

IIB (typ) (nA)

5.0

5.0

8.0

8.0

8.0

18

3.2

3.2

3.2

3.3

4.30

1.8

1.8

ID* (typ) (mA)

90

90

100

100

100

86

97

97

97

75

100

90

90

CMR (typ) (dB)

94

http://onsemi.com

−40 to +125

−40 to +125

−55 to 125

−40 to 85

0 to 70

0−70

−40 to +125

0 to 70

0 to 70

−40 to +105

−40 to +85

−55 to +125

−40 to +105

Temp Range (°C)

ON Semiconductor Selector Guide − Amplifiers and Comparators

22

22

8.0

8.0

8.0

32

32

32

30

18

20

20

en (typical) ǒnVń ǸHzǓ @ f = 1.0 kHz

2

2

2

2

2

2

2

2

2

2

2

2

2

Number of Channels

Single, Split

Single, Split

Split

Split

Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Supply Type

DIP−8, SO−16W

SOP (12+2+2) DIP−8, DIP−16

DIP−8, SO−8

DIP−8

DIP−8, SO−8, SO−16W

SO−8, 14 PDIP−8, 14

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8

DIP−8, SO−8, Micro8™

Package

Power, High Current

Power, High Current

Low Noise

Low Noise

Low Noise

Video Amplifier

High SR, Wide BW, Single Supply, Extended Temp. Range, *Av = −1.0

High SR, Wide BW, Single Supply, *Av = −1.0

High SR, Wide BW, Single Supply, *Av = −1.0

One Volt SMARTMOS, Rail−to−Rail

Single Supply, High SR, Low Input Offset Voltage

Low Voltage, Rail−to−Rail, Extended Temp. Range

Low Voltage, Rail−to−Rail

Description

3.0 ±1.5

3.0 ±1.5

3.0 ±1.5

3.0 ±1.5

3.0 ±1.5

3.0 or ±1.5

3.0 or ±1.5

±5.0

3.0 or ±1.5

3.0 or ±1.5

±2.0

LM324

LM324A

LM2902

LM2902V

MC3303

MC33074

MC33074A

MC33079

MC33174

MC33174V

MC33179

±18

44 or ±22

44 or ±22

±18

44 or ±22

44 or ±22

36 ±18

26 ±13

26 ±13

32 ±16

32 ±16

32 ±16

VCC (max) (V)

5.0

1.8

1.8

16

4.5

4.5

1.0

1.0

1.0

1.0

1.0

1.0

GBW (typ) (MHz)

*ID typical for total device (all channels)

3.0 ±1.5

LM224

Device Name

VCC (min) (V)

2.0

2.1

2.1

7.0

13*

13*

0.6

0.6

0.6

0.6

0.6

0.6

Slew Rate (typ) (V/us)

QUAD OPERATIONAL AMPLIFIERS

3.0

5.0

5.0

2.5

3.0

5.0

8.0

7.0

7.0

3.0

7.0

5.0

VIO (max @ 25°C, Vs = 5.0 V) (mV)

100

20

20

300

100

100

200

90

90

45

90

90

IIB (typ) (nA)

1.7

0.72

0.72

8.4

6.4

6.4

2.8

0.7

ID* (typ) (mA)

110

90

90

100

97

97

90

70

70

70

70

85

CMR (typ) (dB)

95

http://onsemi.com

−40 to +85

−40 to +105

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +85

−40 to +125

−40 to +105

0 to 70

0 to 70

−25 to +85

Temp Range (°C)

7.5

32

32

4.5

32

32

en (typical) ǒnVń ǸHzǓ @ f = 1.0 kHz

4

4

4

4

4

4

4

4

4

4

4

4

Number of Channels

Split

Single, Split

Single, Split

Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Supply Type

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14, TSSOP−14

DIP−14, SO−14

DIP−14, SO−14, TSSOP−14

DIP−14, SO−14, TSSOP−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

Package

High Output Current, Low Power, Low Noise

Low Power, Single Supply, Two Voltage Ranges, Extended Temp. Range

Low Power, Single Supply, Two Voltage Ranges

Low Noise

High SR, Wide BW, Single Supply, *AV = −1.0

High SR, Wide BW, Single Supply, *AV = −1.0

Low Power

Low Power, Extended Temp. Range

Low Power

Low Power

Low Power

Low Power

Description

ON Semiconductor Selector Guide − Amplifiers and Comparators

1.8 or ±0.9

3.0 or ±1.5

3.0 ±1.5

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

MC33204V

MC33274A

MC3403

MC34074

MC34074A

MC34074V

NCV33274A

36 or ±18

44 or ±22

44 or ±22

44 or ±22

36 ±18

36 or ±18

12 or ±6.0

12 or ±6.0

VCC (max) (V)

24

4.5

4.5

4.5

1.0

24

2.2

2.2

GBW (typ) (MHz)

*ID typical for total device (all channels)

1.8 or ±0.9

MC33204

Device Name

VCC (min) (V)

10

13*

13*

13*

0.6

10

1.0

1.0

Slew Rate (typ) (V/us)

3.5 @ Vs = ±15 V 2.0 @ Vs = ±5.0 V

5.0

3.0

5.0

10

1.0 @ Vs = ±15 V 2.0 @ Vs = 5.0 V

10

10

VIO (max @ 25°C, Vs = 5.0 V) (mV)

QUAD OPERATIONAL AMPLIFIERS (continued)

300

100

100

100

200

300

80

80

IIB (typ) (nA)

8.6

6.4

6.4

6.4

2.8

8.6

3.6

3.6

ID* (typ) (mA)

100

97

97

97

90

100

90

90

CMR (typ) (dB)

96

http://onsemi.com

−40 to +125

−40 to +125

0 to 70

0 to 70

0 to 70

−40 to +85

−55 to +125

−40 to +105

Temp Range (°C)

ON Semiconductor Selector Guide − Amplifiers and Comparators

18

32

32

32

18

20

20

en (typical) ǒnVń ǸHzǓ @ f = 1.0 kHz

4

4

4

4

4

4

4

4

Number of Channels

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Single, Split

Supply Type

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14

DIP−14, SO−14, TSSOP−14

Package

Single Supply, High SR, Low Input Offset Voltage

High SR, Wide BW, Single Supply, *AV = −1.0

High SR, Wide BW, Single Supply, *AV = −1.0

High SR, Wide BW, Single Supply, *AV = −1.0

Low Power

Single Supply, High SR, Low Input Offset Voltage

Low Voltage, Rail−to−Rail, Extended Temp. Range

Low Voltage, Rail−to−Rail

Description

5.0 or ±2.5

5.0 or ±2.5

0.85 or ±0.425

0.85 or ±0.425

0.85 or ±0.425

0.85 or ±0.425

LM211

LM311

NCS2200

NCS2201

NCS2202

NCS2203

6.0 or ±3.0

6.0 or ±3.0

6.0 or ±3.0

6.0 or ±3.0

36 or ±15

36 or ±15

VCC (max)

2.0 or ±1.0

2.0 or ±1.0

2.0 or ±1.0

2.0 or ±1.0

LM293

LM393

LM2903

LM2903V

36 or ±18

36 or ±18

36 or ±18

36 or ±18

VCC (max)

7.0

7.0

5.0

5.0

VIO (max) (mV)

+8.0

+8.0

+8.0

+8.0

7.5

3.0

VIO (max) (mV)

*Iq typical for total device (all channels)

VCC (min)

Device Name

DUAL COMPARATORS

VCC (min)

Device Name

SINGLE COMPARATORS

50

50

50

50

IIO (max) (nA)

50

10

IIO (max) (nA)

25

25

25

25

IlB (typ) (nA)

1.0 pA

1.0 pA

1.0 pA

1.0 pA

45

45

IlB (typ) (nA)

0.4

0.4

0.4

0.4

Iq* (typ) (mA)

10

10

10

10

2.4

2.4

Iq (typ) (mA)

1500

1500

1300

1300

Response Time (ns)

700

700

700

700

200

200

Response Time (ns)

97

http://onsemi.com

−40 to +125

−40 to +105

0 to 70

−25 to +85

Temp Range (5C)

−40 to 105

−40 to 105

−40 to 105

−40 to 105

0 to 70

−25 to +85

Temp Range (5C)

Single Split

Single Split

Single Split

Single Split

Supply Type

Single Split

Single Split

Single Split

Single Split

Single Split

Single Split

Supply Type

2

2

2

2

Number of Channels

1

1

1

1

1

1

Number of Channels

SO−8 DIP−8

SO−8 DIP−8

SO−8 DIP−8

SO−8

Package

SOT23−6

SOT23−5

SOT23−6

SOT23−5 QFN 2×2.2

SO−8 DIP−8

SO−8

Package

Low Offset Voltage

Low Offset Voltage

Low Offset Voltage

Low Offset Voltage

Description

Low Voltage CMOS with Enable

Low Voltage CMOS

Low Voltage CMOS with Enable

Low Voltage CMOS

Highly Flexible Voltage

Highly Flexible Voltage

Description

ON Semiconductor Selector Guide − Amplifiers and Comparators

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

3.0 or ±1.5

LM339

LM2901

LM2901V

MC3302

30 or ±15

36 or ±18

36 or ±18

36 or ±18

36 or ±18

VCC (max)

*Iq typical for total device (all channels)

3.0 or ±1.5

LM239

Device Name

VCC (min)

QUAD COMPARATORS

20

7.0

7.0

5.0

5.0

VIO (max) (mV)

100

50

50

50

50

IIO (max) (nA)

25

25

25

25

25

IlB (typ) (nA)

0.8

0.8

0.8

0.8

0.8

Iq* (typ) (mA)

1300

1300

1300

1300

1300

Response Time (ns)

98

http://onsemi.com

−40 to +85

−40 to +125

−40 to +105

0 to 70

−25 to +85

Temp Range (°C)

ON Semiconductor Selector Guide − Amplifiers and Comparators

Single Split

Single Split

Single Split

Single Split

Single Split

Supply Type

4

4

4

4

4

Number of Channels

SO−14 DIP−14

SO−14 DIP−14

SO−14 DIP−14

SO−14 DIP−14

SO−14 DIP−14

Package

TTL and CMOS Compatible

TTL and CMOS Compatible

TTL and CMOS Compatible

TTL and CMOS Compatible

TTL and CMOS Compatible

Description

Filterless Integrated Gain. Selectable Gain of 6 dB or 12 dB on External Pin.

D

Channels

2

2

2

Device Name

AU5517

NE5517A

NE5517

44

44

44

VCC (typ) (V)

0

0

−40

TA (min) (°C)

TRANSCONDUCTANCE AMPLIFIERS

Mono Speaker − Handsfree Speaker Phone

Filterless, Gain Selection by Resistor

D

Stereo Speakers − Offer Stereo Sound Quality to Play Video/Music on Demand, MP3

Filterless, Gain Select by Resistor

D

Differential

AB

Mono Speaker − Handsfree Speaker Phone

Virtual Ground No Output Cap

AB

Single−End/ Differential

Differential

AB

AB

BTL

BTL

AB

AB

Topology/ Features

Class

Mono Speaker/Earpiece − Low Cost Integrated Solution

Stereo Headphones − MP3 Players, Bluetooth Headsets

Mono Speaker − Basic Telephone Operations and Polyphonic Ringtones

Audio Output/ Application

AUDIO AMPLIFIERS

70

70

125

TA (max) (°C)

2.65W

9600

9600

9600

0.4

0.4

0.4

VIO (typ) (mV)

90%

90%

90%

64%

64%

63%

64%

63%

63%

0.4

0.4

0.4

IIB (typ) (mA)

Efficiency

99

0.006%

0.003%

0.006%

0.02%

0.02%

THD + N

50

50

50

SR (typ) (V/ms)

0.05%

0.05%

0.05%

SE 0.003% BTL 0.01%

http://onsemi.com

−65 dB

−65 dB

−65 dB

−70 dB

−80 dB

−82 dB

−80 dB

−73 dB

−73 dB

PSRR @ 217 Hz

gM (typ) (mmho)

2W+ per Channel

2 W+

1 W to Speaker; 250 mW to Earpiece

150 mW/Ch

135 mW/Ch

1 W+

1 W+

1 W+

Output Power

2

2

2

BW (typ) (MHz)

9 ms

9 ms

9 ms

140 ms

140 ms

285 ms

140 ms

100 ms

285 ms

Turn−On Time (typ)

25

25

25

500 nA

600 nA

300 nA

20 nA

20 nA

10 nA

20 nA

10 nA

10 nA

0.5

0.5

0.5

NCP2821

2x NCP2820

NCP2820

NCP4896

NCP4894

NCP2809

NCP4894

NCP2892A

NCP2890

Device Solutions

SOIC−16, PDIP−16

PDIP−16

SOIC−16

Package

Microbump−9

Microbump−9

Microbump−9 DFN−8

Microbump−9

Microbump−9 DFN10

Micro10

Microbump−9 DFN−10

Micro8™ Microbump−9

Micro8™ Microbump−9

Package

THD (typ) (%)

Shutdown Current (typ)

en (typ) (pA/Hz)

2.5 mA

4.4 mA

2.2 mA

1.7 mA

1.9 mA

1.54 mA

1.9 mA

1.5 mA

1.5 mA

Iq (typ)

ON Semiconductor Selector Guide − Amplifiers and Comparators

1 1

NE592N14

NE592N8

6

2

2

2

2

NE570

SA571

SA572D

SA575D

3

6

6

Channels

Device Name

7

22

18

24

VCC (max) (V)

1

NE592D8

VCC (min) (V)

1

NE592D14

COMPANDORS

Channels

Device Name

VIDEO AMPLIFERS

4.2

6.3

4.3

4.3

ICC (max) (V)

40

90

40

90

gBW (typ) (MHz)

0.12

0.05

0.5

0.3

THD (typ) (%)

6

6

20

20

en (typ) (mV)

2.5

1.8

1.8

VREF (V)

18

18

18

18

ID (typ) (mA)

100

http://onsemi.com

8

8

8

8

VCC (max) (V)

ON Semiconductor Selector Guide − Amplifiers and Comparators

−40

−40

−40

0

TA (min) (°C)

85

85

85

70

TA (max) (°C)

0

0

0

0

TA (min) (°C)

SO−16 WB, PDIP−16

SO−16 WB

Package

PDIP−8

PDIP−14

SOIC−8

SOIC−14

Package

SOIC−20 WB, TSSOP−20, PDIP−20

SO−16 WB, TSSOP−16, PDIP−16

70

70

70

70

TA (max) (°C)

Analog Switches Table of Contents Page

Analog Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101 Audio Analog Switches . . . . . . . . . . . . . . . . . . . . . 102 Data Analog Switches . . . . . . . . . . . . . . . . . . . . . . 102 General Purpose Analog Switches . . . . . . . . . . . 102

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ON Semiconductor Selector Guide − Analog Switches

ANALOG SWITCHES Device

Description

Temperature Range (°C)

Operating Voltage (V)

AUDIO ANALOG SWITCHES NLAS3699

Dual DPDT Analog Switch

−55 to +125

1.65 to 3.6

NLAS3699B

Dual DPDT Analog Switch

−55 to +125

1.65 to 4.3

NLAS3799

Dual DPDT Ultra−Low Ron Analog Switch

−55 to +125

1.65 to 3.6

NLAS3799B

Dual DPDT Analog Switch

−55 to +125

1.65 to 4.3

NLAS4157

SPDT 1 W Analog Switch

−55 to +125

1.65 to 5.5

NLAS4684

Dual SPDT .5 W Analog Switch

−55 to +125

1.8 to 5.5

NLAS4783B

Triple SPDT 1 W Analog Switch

−55 to +125

1.65 to 4.3

NLAS5123

SPDT Low Ron Analog Switch

−55 to +125

1.65 to 5.5

NLAS5223

Dual SPDT Ultra−Low Ron Switch

−55 to +125

1.65 to 3.6

NLAS5223B

Dual SPDT Ultra−Low Ron Switch

−55 to +125

1.65 to 4.3

DATA ANALOG SWITCHES NLAS4717

Dual SPDT High Bandwidth USB 2.0 Compliant Analog Switch

−55 to +125

1.8 to 5.5

NLAS4717EP

Dual SPDT High Bandwidth USB 2.0 Compliant Analog Switch

−55 to +125

1.8 to 5.5

NLAS7222A

USB 2.0 High Speed Analog Switch

−55 to +125

3.0 to 3.6

GENERAL PURPOSE ANALOG SWITCHES M74VHC1GT66

Single Supply Analog Switch

−55 to +125

2 to 5.5

MC14016B

Quad Analog Switch/Quad Multiplexer

−40 to +85

3 to 18

MC14051B

Analog Multiplexer/Demultiplexer

−40 to +85

3 to 18

MC14052B

Analog Multiplexer/Demultiplexer

−40 to +85

3 to 18

MC14053B

Analog Multiplexer/Demultiplexer

−40 to +85

3 to 18

MC14066B

Quad Analog Switch/Quad Multiplexer

−40 to +85

3 to 18

MC14067B

Analog Multiplexer/Demultiplexer

−40 to +85

3 to 18

MC14551B

Quad 2−Channel Analog Multiplexer/Demultiplexer

−40 to +85

3 to 18

MC74HC4051

Analog Multiplexer/Demultiplexer

−55 to +125

2 to 6

MC74HC4052

Analog Multiplexer/Demultiplexer

−55 to +125

2 to 6

MC74HC4053

Analog Multiplexer/Demultiplexer

−55 to +125

2 to 6

MC74HC4066

Quad Analog Switch/Multiplexer/Demultiplexer

−40 to +85

2 to 12

MC74HC4316

Quad Analog Switch/Multiplexer/Demultiplexer

−55 to +125

2 to 6

MC74HC4851

Analog Multiplexers/Demultiplexers with Injection Current Effect Control

−55 to +125

2 to 6

MC74HC4852

Analog Multiplexers/Demultiplexers with Injection Current Effect Control

−55 to +125

2 to 6

MC74LVX4066

Quad Analog Switch/Multiplexer/Demultiplexer

−55 to +125

2 to 6

MC74LVX8051

Analog Multiplexer/Demultiplexer

−40 to +85

2 to 6

MC74LVX8053

Analog Multiplexer/Demultiplexer

−40 to +85

2 to 6

MC74LVXT4066

Quad Analog Switch/Multiplexer/Demultiplexer

−40 to +85

2 to 5.5

MC74LVXT8051

8 Channel Analog Switch

−40 to +85

2 to 5.5

MC74LVXT8053

Analog Multiplexer/Demultiplexer

−40 to +85

2 to 5.5

MC74VHC1G66

Single Supply Analog Switch

−55 to +125

2 to 5.5

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ON Semiconductor Selector Guide − Analog Switches

ANALOG SWITCHES Device

Description

Temperature Range (°C)

Operating Voltage (V)

GENERAL PURPOSE ANALOG SWITCHES MC74VHC1GT6

Single Supply Analog Switch

−55 to +125

2 to 5.5

MC74VHC4051

Analog Multiplexer/Demultiplexer

−55 to +125

2 to 6

MC74VHC4066

Quad Analog Switch/Multiplexer/Demultiplexer

−40 to +85

2 to 12

NLAS1053

2:1 Mux/Demux Analog Switches

−55 to +125

2 to 5.5

NLAS2066

Dual SPST Analog Switch, OVT Inputs

−55 to +125

1.65 to 5.5

NLAS3158

Dual SPDT Analog Switch

−55 to +125

1.65 to 5.5

NLAS323

Dual SPST Analog Switch, Single Supply

−55 to +125

2 to 5.5

NLAS324

Dual SPST Analog Switch, Single Supply

−55 to +125

2 to 5.5

NLAS325

Dual SPST Analog Switch, Single Supply

−55 to +125

2 to 5.5

NLAS3799

Dual DPDT Ultra−Low Ron Analog Switch

−55 to +125

1.65 to 3.6

NLAS4051

Analog Multiplexer/Demultiplexer

−55 to +125

2.5 to 5.5

NLAS4053

Triple 2:1 Analog Switch − Multiplexer

−55 to +125

2.5 to 5.5

NLAS44599

Dual DPDT Analog Switch

−55 to +125

2 to 5.5

NLAS4501

Single SPST Analog Switch

−55 to +125

2 to 5.5

NLAS4599

Single SPDT Analog Switch Single Supply

−55 to +125

2 to 5.5

NLAS9431

Dual DPDT Analog Switch

−55 to +125

2 to 5.5

NLASB3157

Single SPDT Analog Switch

−55 to +125

1.65 to 5.5

NLAST4051

Analog Multiplexer/Demultiplexer

−55 to +125

2.5 to 5.5

NLAST44599

Dual DPDT Analog Switch,TTL Level

−55 to +125

2 to 5.5

NLAST4501

Single SPST Analog Switch,TTL Level

−55 to +125

2 to 5.5

NLAST4599

Single SPDT Analog Switch Single Supply, TTL Level

−55 to +125

2 to 5.5

NLAST9431

Dual DPDT Analog Switch

−55 to +125

2 to 5.5

NLVHC1G66

Single Supply Analog Switch

−55 to +125

2 to 5.5

NLVHC1GT66

Single Supply Analog Switch

−55 to +125

2 to 5.5

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ON Semiconductor Selector Guide − Analog Switches

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Thyristors

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ON Semiconductor Selector Guide − Thyristors

Thyristors Table of Contents

In Brief… ON Semiconductor’s broad line of Thyristors includes… • A full line of Silicon Controlled Rectifiers (SCR’s) covering a forward current range of 0.8 A to 25 A and blocking voltages from 30 V to 800 V. Available in a choice of six different plastic packages in both through hole and surface mount, for space saving requirements. • An extensive line of Triacs (bidirectional devices) from 0.6 A to 16 A with blocking voltages from 200 V to 800 V. Like the SCR’s, the Triacs are available in a choice of six different plastic packages. • A new line of Thyristor Surge Suppressors in the surface mount SMB package covering surge currents of 50 A and 100 A, with break over voltages from 77 V to 400 V. • Trigger devices, including Sidacs and PUT’s (Programmable Unijunction Transistors). Trigger devices are available in both the axial lead and TO−92 packages.

Page

SCRs: Silicon Controlled Rectifiers . . . . . . . . . . . . . . . . 108 TRIACs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 Surge Suppressors and Triggers . . . . . . . . . . . . . . . . . . 114

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ON Semiconductor Selector Guide − Thyristors

SCRs SILICON CONTROLLED RECTIFIERS Style 4 K A

K

A

G A G G

A

TO−92 (Note 1) (TO−226AA) SOT−223 Case 029 Case 318E Style 10 Style 10

Blocking Voltage VDRM, VRRM (Volts)

0.8

30

2N5060

60

2N5061

100

2N5062

200

2N5064

100

MCR100−3

200

MCR100−4

400

MCR100−6

600

MCR100−8

200

4.0

K

A

TO−225AA (TO−126) Case 077 Style 2

A

K

D−PAK Case 369C Style 4 & 5 Case 369D Style 5

Surge Current ITSM (Amps) 60 Hz

Max IGT (mA)

Max VGT (Volts)

10

0.2

0.8

8.0

0.2

0.8

15

0.2

0.8

20

0.2

0.8

25

0.2

1.0

25

0.1

0.8

MCR08B

600 1.5

A

AK G

On−State RMS Current IT(RMS) (Amps)

G

Style 5

A

K G

A

MCR08M

400

MCR22−6

600

MCR22−8

200

C106B

400

C106D C106D1

600

C106M C106M1

400

MCR106−6

600

MCR106−8

100

MCR703A (Note 2)

400

MCR706A (Note 2)

600

MCR708A (Note 2) MCR708A1 (Note 2 & 4)

400

MCR716 (Note 3)

600

MCR718 (Note 3)

1. See TO−92 data sheets for complete device suffix packaging ordering options. RLRA, RLRE, RL, & RL1 suffixes: Radial Tape and Reel RLRM & ZL1 suffixes: Radial Tape and Ammo Pack 2. Denotes pkg style 5 3. Denotes pkg style 4 4. Denotes straight lead package Shaded devices denote sensitive gate SCR’s

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Lead Identification A = Anode K = Cathode G = Gate

ON Semiconductor Selector Guide − Thyristors SCRs (continued) A

A CASE 369C

CASE 369D

On−State RMS Current IT(RMS) (Amps)

Blocking Voltage VDRM, VRRM (Volts)

8.0

600

MCR8DCM

800

MCR8DCN

D−PAK Case 369C −001 = Case 369D Style 4

K A G

K A G

TO−220AB Case 221A−09 Style 3

400

MCR8SD

600

MCR8SM

800

MCR8SN

800

MCR8N

50

10

C122F1

600

MCR8DSM

800

MCR8DSN

100

MCR72−3

400

MCR72−6

600

MCR72−8

50

MCR218−2

200

MCR218−4

400

MCR218−6

400

MCR12LD

600

MCR12LM

800

MCR12LN

800 12

TO−220AB Case 221A−07 Style 3

MCR310−10

600

MCR12DSM

800

MCR12DSN

800

MCR12DSN−001

600

MCR12DCM

800

MCR12DCN

400

MCR12D

600

MCR12M

800

MCR12N

50

MCR68−2

UL logo indicates UL Recognized File #E69369

Surge Current ITSM (Amps) 60 Hz

Max IGT (mA)

Max VGT (Volts)

80

15

1.0

80

0.2

1.0

80

15

1.0

90

25

1.5

90

0.2

1.0

100

0.2

1.5

100

25

1.5

100

8.0

0.8

100

0.2

1.5

100

0.2

1.0

100

20

1.0

100

30

1.5

Lead Identification A = Anode K = Cathode G = Gate

Shaded devices denote sensitive gate SCR’s

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ON Semiconductor Selector Guide − Thyristors SCRs (continued) A

A

K A G

On−State RMS Current IT(RMS) (Amps)

Blocking Voltage VDRM, VRRM (Volts)

12

16

K A G

TO−220AB Case 221A−07 Style 3

Surge Current ITSM (Amps) 60 Hz

Max IGT (mA)

Max VGT (Volts)

50

2N6394

100

30

1.5

100

2N6395

400

2N6397

800

2N6399 160

20

1.0

160

30

1.5

300

30

1.0

300

30

1.5

TO−220AB Case 221A−09 Style 3

800

MCR16N

50

2N6400

100

2N6401

200

2N6402

400

2N6403

600

2N6404

800 25

2N6405

400

MCR25D

600

MCR25M

800

MCR25N

50

2N6504

100

2N6505

400

2N6507

600

2N6508

800

2N6509

50

MCR69−2

100

MCR69−3

UL logo indicates UL Recognized File #E69369

Lead Identification A = Anode K = Cathode G = Gate

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ON Semiconductor Selector Guide − Thyristors

TRIACs (Bidirectional Devices) MT2

MT1 G MT2

CASE 369C

MT1 MT2 G G

MT2 MT1

CASE 369D

Max IGT (mA) On−State RMS Current IT(RMS) (Amps)

Blocking Voltage VDRM, VRRM (Volts)

TO−92 (Note 5) (TO−226AA) Case 029 Style 12

0.6

200

MAC97A4

400

MAC97A6

0.8

Surge Current ITSM (Amps) 60 Hz

Q1

Q2

Q3

Q4

8.0

5.0

5.0

5.0

7.0

MAC997B6

3.0

3.0

3.0

5.0

MAC997A8

5.0

5.0

5.0

7.0

MAC997B8

3.0

3.0

3.0

5.0

10

10

10

10 10

600

MAC97A8

400

MAC997A6

600

SOT−223 Case 318E Style 11

200

MAC08B

600

MAC08M

TO−225AA (TO−126) Case 077 Style 5

D−PAK Case 369C −001 = Case 369D Style 6

2.5

200

T2322B

25

10

10

10

4.0

200

2N6071A

30

400 600

5.0

5.0

5.0

10

2N6071B

3.0

3.0

3.0

5.0

2N6073A

5.0

5.0

5.0

10

2N6073B

3.0

3.0

3.0

5.0

2N6075A

5.0

5.0

5.0

10

3.0

3.0

3.0

5.0

3.0

3.0

3.0

5.0

5.0

5.0

5.0

10

2N6075B MAC4DLM (Note 6)

40

MAC4DLM−1 (Note 7) MAC4DHM (Note 6) MAC4DHM−1 (Note 7) 5. See TO−92 data sheets for complete device suffix packaging ordering options. RLRA, RLRE, RL, & RL1 suffixes: Radial Tape and Reel RLRM & ZL1 suffixes: Radial Tape and Ammo Pack 6. Denotes SMT package 7. Denotes straight lead package Shaded devices denote sensitive gate Triacs

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Lead Identification MT1 = Main Terminal 1 MT2 = Main Terminal 2 G = Gate

ON Semiconductor Selector Guide − Thyristors

TRIACs (Bidirectional Devices) (continued) MT2

MT2 CASE 369C

MT1 MT2 CASE 369D

G

MT1 MT2

G

Max IGT (mA) On−State RMS Current IT(RMS) (Amps)

Blocking Voltage VDRM, VRRM (Volts)

4.0

600

D−PAK Case 369C −001 = Case 369D Style 6

TO−220AB Case 221A−09 Style 4

TO−220AB Case 221A−07 Style 4

MAC4DSM (Note 8)

Surge Current ITSM (Amps) 60 Hz

Q1

Q2

Q3

Q4

40

10

10

10

40

35

35

35

MAC4DSM−1 (Note 9) 800

MAC4DSN (Note 8) MAC4DSN−1 (Note 9)

600

MAC4DCM (Note 8) MAC4DCM−1 (Note 9)

800

MAC4DCN (Note 8) MAC4DCN−1 (Note 9)

6.0

400

8.0

400

MAC8SD

600

MAC8SM

800

MAC8SN

T2500D

400

MAC8D

600

MAC8M

800

MAC8N

400

MAC9D

600

MAC9M

800

MAC9N

200

MAC228A4

400

MAC228A6

600

MAC228A8

800

MAC228A10

600

2N6344

400

T2800D

60

25

60

25

60

70

5.0

5.0

5.0

80

35

35

35

50

50

50

5.0

5.0

5.0

10

50

75

50

75

25

60

25

60

100

8. Denotes SMT package 9. Denotes straight lead package Lead Identification MT1 = Main Terminal 1 MT2 = Main Terminal 2 G = Gate

UL logo indicates UL Recognized File #E69369 Shaded devices denote sensitive gate Triacs

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ON Semiconductor Selector Guide − Thyristors

TRIACs (Bidirectional Devices) (continued) MT2

MT2

MT1 MT2

G

MT1 MT2

G

Max IGT (mA) On−State RMS Current IT(RMS) (Amps)

Blocking Voltage VDRM, VRRM (Volts)

10 12

TO−220AB Case 221A−07 Style 4

Surge Current ITSM (Amps) 60 Hz

Q1

Q2

Q3

Q4

600

MAC210A8

100

50

50

50

75

800

MAC210A10 90

5.0

5.0

5.0

100

50

50

50

35

35

35

50

50

50

75

50

75

50

75

120

5.0

5.0

5.0

150

35

35

35

50

50

50

75

50

50

50

35

35

35

600

TO−220AB Case 221A−09 Style 4

MAC12SM

800

MAC12SN

400

MAC12HCD

600

MAC12HCM

800

MAC12HCN

400

MAC12D

600

MAC12M

800

MAC12N

600

MAC212A8

800

MAC212A10

600

2N6344A

600

2N6348A

800 15

2N6349A

400

MAC15SD

600

MAC15SM

800

MAC15SN

600

MAC15M

800

MAC15N

400

MAC15A6

600

MAC15A8

800 16

MAC15A10

400

MAC16D

600

MAC16M

800

MAC16N

600

MAC16CM

800

MAC16CN

UL logo indicates UL Recognized File #E69369

Lead Identification MT1 = Main Terminal 1 MT2 = Main Terminal 2 G = Gate

Shaded devices denote sensitive gate Triacs

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ON Semiconductor Selector Guide − Thyristors

Surge Suppressors and Triggers THYRISTOR SURGE SUPPRESSORS (Bidirectional Devices) (

MT1

)

MT2

SMB Case 403C

Maximum Breakover Voltage VBO (Volts)

Minimum Holding Current IH (mA)

58

NP0640SA

77

150

65

NP0720SA

88

75

NP0900SA

98

Surge Current IPPS1 10 x 1000 msec (Amps)

Maximum Off−State Voltage (Volts)

50

80

100

90

NP1100SA

130

120

NP1300SA

160

140

NP1500SA

180

170

NP1800SA

220

180

NP2100SA

240

190

NP2300SA

260

220

NP2600SA

300

275

NP3100SA

350

320

NP3500SA

400

58

NP0640SB

77

65

NP0720SB

88

75

NP0900SB

98

90

NP1100SB

130

120

NP1300SB

160

140

NP1500SB

180

170

NP1800SB

220

180

NP2100SB

240

190

NP2300SB

260

220

NP2600SB

300

275

NP3100SB

350

320

NP3500SB

400

58

NP0640SC

77

65

NP0720SC

88

75

NP0900SC

98

90

NP1100SC

130

120

NP1300SC

160

140

NP1500SC

180

170

NP1800SC

220

180

NP2100SC

240

190

NP2300SC

260

220

NP2600SC

300

275

NP3100SC

350

320

NP3500SC

400

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150

150

General Description These Thyristor Surge Protector Devices (TSPD) protect telecommunication circuits such as central office, access, and customer premises equipment from overvoltage conditions. These arebidirectional devices so they are able to have functionality of 2 devices in one package, saving valuable space on board layout. These devices will act as a crowbar when overvoltage occurs and will divert the energy away from circuit or device that is being protected. Use of the NP Series in equipment will help meet various regulatory requirements including: GR−1089−CORE, EC 61000−4−5, ITU K.20/21/45, IEC 60950, TIA−968−A, FCC Part 68, EN 60950,UL 1950.

ON Semiconductor Selector Guide − Thyristors High Voltage Bidirectional Triggers: Sidacs MT2

MT2

MT1

(

)

On−State RMS Current IT(RMS) (Amps)

DO−41 Case 059A

0.9

MT1

(

) Breakover Voltage Range VBO (Volts)

Surge Current ITSM (Amps) 60 Hz

MKP1V120

110−130

4.0

MKP1V130

120−140

MKP1V160

150−170

Surmetic 50 Case 267 Style 2

ÁÁÁÁÁ ÁÁÁÁÁÁÁ ÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁÁÁ ÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁÁÁ ÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁ Á ÁÁÁÁÁÁÁ ÁÁÁÁÁÁ ÁÁÁÁÁÁ Á ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁÁÁ ÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ General Description

High voltage trigger devices similar in operation to triacs. Upon reaching the breakover voltage in either direction, the devices switch to a low voltage on state.

220−250

MKP1V240

1.0

220−250

MKP3V120 MKP3V240

Surge Suppressors and Triggers (continued)

20

Lead Identification: Suppressor/Sidac MT1 = Main Terminal 1 MT2 = Main Terminal 2

THYRISTOR TRIGGERS: PROGRAMMABLE UNIJUNCTION TRANSISTORS (PUT’s)

A

G

Lead Identification: PUT A = Anode K = Cathode G = Gate

K

IP

IV

RG = 10KW (m Amps max.)

RG = 1MW (m Amps max.)

TO−92 (Note 10) (TO−226AA) Case 029 Style 16

5.0

2.0

2N6027

70

50

1.0

0.15

2N6028

25

25

RG = 10KW (m Amps min.)

RG = 1MW (m Amps max.)

ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ UL logo indicates UL Recognized File #E116110 10. See TO−92 data sheets for complete device suffix packaging ordering options. RLRA, RLRE, RL, & RL1 suffixes: Radial Tape and Reel RLRM & ZL1 suffixes: Radial Tape and Ammo Pack

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General Description

Similar to unijunction transistors, except that IP, IV, and intrinsic voltage are programmable (adjustable) by means of external voltage divider.

ON Semiconductor Selector Guide − Thyristors

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Diodes Table of Contents Page

Tuning and Switching Diodes Abrupt Junction Tuning Diodes . . . . . . . . . . . . . 118 Hyper−Abrupt Junction Tuning Diodes . . . . . . . 118 Schottky Diodes . . . . . . . . . . . . . . . . . . . . . . . . . . 119 Pin Switching Diodes . . . . . . . . . . . . . . . . . . . . . . 121 General Purpose Signal & Switching Diodes . . 122 Zener Diodes − Regulation in Axial Leads . . . . . . 124 Zener Diodes − Regulation in Surface Mount . . . . 126 Dual Zeners − Duals in Surface Mount . . . . . . . . . 133

http://onsemi.com 117

ON Semiconductor Selector Guide − Diodes

Tuning and Switching Diodes TUNING DIODES − ABRUPT JUNCTION CT @ VR = 4.0 V, 1.0 MHz VR Volts

pF Min

pF Nominal

pF Max

Cap Ratio Min

Q @ 4.0 V 50 MHz Typ

MV2105

30

13.5

15

16.5

2.5

400

MV2109

30

29.7

33

36.3

2.5

200

MMBV2105L

30

13.5

15

16.5

2.5

400

MMBV2109L

30

29.7

33

36.3

2.5

200

MMBV2101L

30

6.1

6.8

7.5

2.5

450

MMBV3102L

30

20

25

4.5

200

Device

Package

TO−226AC, TO−92 2−Lead Case 182−06

TO−236AB, SOT−23 Case 318−08

Devices listed in bold italic are ON Semiconductor preferred devices.

TUNING DIODES − HYPER−ABRUPT JUNCTION CT (f = 1.0 MHz)

Cap Ratio Volts

Q 3.0 V Min

Type

6.5

3.0/25

200

Single

2.5

2.8

100

Single

25

4.0

6.5

3.0/25

200

Single

3.0

5.0

6.5

3.0/25

200

Single

3.0

1.5

1.9

3.0/8.0

200

Single

6.1

2.0

1.8

2.6

2.0/8.0

300

Single

43

48

2.0

1.5

2.0

[email protected] 2.0V

Single

20

26

32

3.0

1.8

2.4

3/8

250

Dual Common Cathode

30

26

32

3

5.0

6.5

3.0/25

200

Single

VR Volts

pF Min

pF Max

Volts

Min

Max

MV209

30

26

32

3.0

5.0

MV104

32

37

42

3.0

MMBV105GL

30

1.5

2.8

MMBV109L

30

26

32

MMBV409L

20

26

32

MMBV809L

20

4.5

MMBV432L

14

MMBV609L

MMVL109

Device

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 118

Package

TO−226AC, TO−92 2−Lead Case 182−06

TO−236AB, SOT−23 Case 318−08

SOD−323 Case 477−02

ON Semiconductor Selector Guide − Diodes SCHOTTKY DIODES CT @ V VR

IR @ V

VF Volts

Volts

pF Max

Volts

Max

nA Max

Volts

Type

MBD701

70

1.0

20

1.0

200

35

Single

MBD301

30

1.5

15

0.6

200

25

Single

MMSD701

70

1.0

20

1.0

200

35

Single

BAT54

30

10

1.0

0.4

2000

25

Single

MMSD301

30

1.5

15

0.6

200

25

Single

MMDL770

70

1.0

20

1.0

200

35

Single

BAT54H

30

10

1.0

0.4

2000

25

Single

MMDL301

30

1.5

15

0.6

200

25

Single

RB751V40

30

2.5

1.0

0.37

500

30

Single

MMDL101

7.0

1.0

0

0.6

250

3.0

Single

NSR0320MW2

23

35

5.0

0.27

1000

15

Single

BAS70L

70

2.0

0

0.75

100

50

Single

BAS70−04L

70

2.0

0

0.75

100

50

Dual Series

MMBD701L

70

1.0

20

1.0

200

35

Single

BAS40L

40

5.0

1.0

0.5

1000

25

Single

BAS40−04L

40

5.0

1.0

0.5

1000

25

Dual Series

BAS40−06L

40

5.0

1.0

0.5

1000

25

Dual Common Anode

BAT54CL

30

10

1.0

0.4

2000

25

Dual Common Cathode

BAT54L

30

10

1.0

0.4

2000

25

Single

BAT54AL

30

10

1.0

0.4

2000

25

Dual Common Anode

BAT54SL

30

10

1.0

0.4

2000

25

Dual Series

MMBD301L

30

1.5

15

0.6

200

25

Single

MMBD452L

30

1.5

15

0.6

200

25

Dual Series

MMBD101L

7.0

1.0

0

0.6

250

3.0

Single

MMBD352L

7.0

1.0

0

0.6

250

3.0

Dual Series

MMBD353L

7.0

1.0

0

0.6

250

3.0

Dual Series

MMBD354L

7.0

1.0

0

0.6

250

3.0

Dual Common Cathode

MMBD355L

7.0

1.0

0

0.6

250

3.0

Dual Common Anode

MMBD770

70

1.0

20

1.0

200

35

Single

BAT54AW

30

10

1.0

0.4

2000

25

Dual Common Anode

BAT54CW

30

10

1.0

0.4

2000

25

Dual Common Cathode

BAT54W

30

10

1.0

0.4

2000

25

Single

BAT54SW

30

10

1.0

0.4

2000

25

Dual Series

MMBD330

30

1.5

15

0.6

200

25

Single

MMBD717L

20

2.5

1.0

0.37

1000

10

Dual Common Anode

MMBD352W

7.0

1.0

0

0.6

250

3.0

Dual Series

BAT54CT

30

10

1.0

0.4

2000

25

Dual Common Cathode

Device

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 119

Package

TO−226AC, TO−92 2−Lead Case 182−06

SOD−123 Case 425−04

SOD−323 Case 477−02

TO−236AB, SOT−23 Case 318−08

SC−70, SOT−323 Case 419−04

SOT−416, SC−75, SC−90 Case 463−01

ON Semiconductor Selector Guide − Diodes SCHOTTKY DIODES CT @ V VR

IR @ V

VF Volts

Volts

pF Max

Volts

Max

nA Max

Volts

Type

MBD770DW

70

1.0

0

0.5

200

35

Dual Isolated

MBD54DW

30

1.0

0

0.32

2000

25

Dual Isolated

MBD330DW

30

1.5

0

0.4

200

25

Dual Isolated

NSR15TW1T2

15

1.0

0

0.415

50

1.0

Triple

NSR0320XV6

23

35

5.0

0.27

1000

15

Single

NSR15ADXV6

15

1.0

0

0.415

50

1.0

Dual Isolated

BAT54CXV3

30

10

1.0

0.4

2000

25

Dual Common Cathode

Device

Package

SC−88, SOT−363 Case 419B−02

SOT−563 Case 463A−01

SC−89 Case 463C−03

RB751S40

40

2.5

1.0

0.37

500

30

Single

BAT54XV2

30

10

1.0

0.4

2000

25

Single

RB520S30

30

0.5

1000

10

Single

RB521S30

30

0.6

30000

10

Single

CT @ V VR Device

NSR30CM3

VF Max

SOD−523 Case 502−01

IR @ V TRR

Technology

Volts

pF Max

Volts

Volts

nA Max

Volts

nS

Schottky

30

10

1.0

0.8

2.0

25

5

Package

SOT−723 Case 631AA−01

CT @ V VR Volts

pF Max

NSR0130P2

30

NSR0140P2 NSR0230P2

Device

VF Max

IR @ V Type

Volts

Volts Max

mA Max

Volts

0.385

0.350

10

Single

40

2.5

1.0

0.350

0.500

30

Single

30

0.325

10

10

Single

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 120

Package

SOD−923 Case 514AA−01

ON Semiconductor Selector Guide − Diodes

Switching Diodes PIN SWITCHING DIODES VR

CT @ V

Resistance

IR

Volts Min

pF Max

Volts

W Max

mA Max

Type

MMBV3700L

200

1.0

20

1.0

0.1

Single

MMBV3401L

35

1.0

20

0.7

0.1

Single

MMVL3401

35

1.0

20

0.7

0.1

Single

Device

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 121

Package

TO−236AB, SOT−23 Case 318−08

SOD−323 Case 477−02

ON Semiconductor Selector Guide − Diodes

Switching Diodes GENERAL−PURPOSE SIGNAL AND SWITCHING DIODES VF

VR Min Volts 250

IR Max mA 0.1

Min Volts

Max Volts

1.0

CT Max pF 5.0

trr Max ns 50

Type Single

BAS21SL

250

0.1

1.0

MMBD914L

100

5.0

1.0

5.0

50

Dual Series

4.0

4.0

Single

BAS16L

75

1.0

MMBD6050L

70

0.1

0.85

1.0

2.0

6.0

Single

1.1

2.5

4.0

BAL99L

70

2.5

Single

1.0

1.5

6.0

BAS116L

75

Single

0.005

0.9

2.0

3000

MMBD7000L

Single

100

1.0

0.75

1.1

1.5

4.0

Dual Series

MMBD2836L

75

0.1

1.0

4.0

4.0

Dual Common Anode

MMBD2838L

75

0.1

1.0

4.0

4.0

Dual Common Cathode

BAV70L

70

5.0

1.0

1.5

6.0

Dual Common Cathode

BAV99L

70

2.5

1.0

1.5

4.0

Dual Series

BAW56L

70

2.5

1.0

2.0

6.0

Dual Common Anode

MMBD6100L

70

0.1

0.85

1.1

2.5

4.0

Dual Common Cathode

BAV74L

50

0.1

1.0

2.0

4.0

Dual Common Cathode

MMBD2835L

35

0.1

1.0

4.0

4.0

Dual Common Anode

MMBD2837L

35

0.1

1.0

4.0

4.0

Dual Common Cathode

BAV199L

70

0.005

0.9

2.0

3000

Dual Series

BAS20L

200

0.1

1.0

5.0

50

Single

BAS19L

120

0.1

1.0

5.0

50

Single

M1MA151K

40

0.1

1.2

2.0

3.0

Single

M1MA152K

80

0.1

1.2

2.0

3.0

Single

M1MA151WA

40

0.1

1.2

15

10

Dual Common Anode

M1MA151WK

40

0.1

1.2

2.0

3.0

Dual Common Cathode

M1MA152WA

80

0.1

1.2

15

10

Dual Common Anode

M1MA152WK

80

0.1

1.2

2.0

3.0

Dual Common Cathode

BAS16W

75

1.0

1.25

2.0

6.0

Single

M1MA141K

40

0.1

1.2

2.0

3.0

Single

M1MA174

100

5.0

1.0

4.0

4.0

Single

M1MA142WK

80

0.1

1.2

2.0

3.0

Dual Common Cathode

M1MA142WA

80

0.1

1.2

15

10

Dual Common Anode

BAW56W

70

2.5

1.0

2.0

6.0

Dual Common Anode

BAV70W

70

5.0

1.0

1.5

6.0

Dual Common Cathode

BAV99W

70

2.5

1.0

1.5

6.0

Dual Series

BAV99RW

70

2.5

1.0

1.5

6.0

Dual Series

M1MA141WA

40

0.1

1.2

15

10

Dual Common Anode

MMSD914

100

5.0

1.0

4.0

4.0

Single

MMSD103

250

100

1.0

5.0

50

Single

MMSD4148

100

5.0

1.0

4.0

4.0

Single

Device BAS21L

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 122

Package

TO−236AB, SOT−23 Case 318−08

SC−59 Case 318D−04

SC−70, SOT−323 Case 419−04

SOD−123 Case 425−04

ON Semiconductor Selector Guide − Diodes

Switching Diodes GENERAL−PURPOSE SIGNAL AND SWITCHING DIODES VF

VR Min Volts

IR Max mA

Min Volts

Max Volts

CT Max pF

trr Max ns

Type

BAS16H

75

1.0

1.0

2.0

6.0

Single

BAS20H

200

0.1

5.0

50

Single

BAS21H

250

0.1

1.0

5.0

50

Single

MMDL914

100

5.0

1.0

4.0

4.0

Single

MMDL6050

70

0.1

0.85

1.1

2.5

4.0

Single

BAS16T

75

1.0

1.0

2.0

6.0

Single

DA121T

80

1.0

2.0

6.0

Single

DAP222

80

0.1

1.2

3.5

4.0

Dual Common Anode

BAW56T

70

2.5

1.0

2.0

6.0

Dual Common Anode

DAN222

80

0.1

1.2

3.5

4.0

Dual Common Cathode

BAV70T

70

5.0

1.0

1.5

6.0

Dual Common Cathode

HN2D02FUTW1

85

0.1

1.2

2.0

3.0

Triple Isolated

BAS21DW5

250

0.1

1.0

5.0

50

Dual Isolated

1SS400

100

0.1

1.2

3.0

4.0

Single

BAS16XV2

75

1.0

1.0

2.0

6.0

Single

NSD914XV2

100

1.0

4.0

4.0

Single

NSDEMP11XV6

70

0.01

1.2

3.5

4.0

Two Dual Common Anode

Device

Package

SOD−323 Case 477−02

SOT−416, SC−75, SC−90 Case 463−01

SC−88 Case 419B−02

SC−88A Case 419A−02

SOD−523 Case 502−01

6 1

BAS16DXV6

75

0.001

1.25

2.0

6.0

Dual Isolated

DAN222M3

80

0.1

1.2

3.5

4.0

Dual Common Cathode

DAP222M3

80

0.1

1.2

3.5

4.0

Dual Common Anode

Devices listed in bold italic are ON Semiconductor preferred devices. 1. Devices in bold, samples starting Oct. 2002, production starting Dec. 2002. 2. Remainder of devices, 4 to 8 weeks after receipt of request based on note 1 timetable.

http://onsemi.com 123

SOT−563 Case 463A−01

SOT−723 Case 631AA−01

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Axial Leads Table 1. AXIAL LEADED − 3, 5 WATT Nominal Zener Breakdown Voltage

3 Watt

5 Watt

Cathode = Polarity Band

Cathode =Polarity Band

Plastic Surmetic 30 Case 59-10 (DO-41)

Plastic Surmetic 40 Case 17

Volts

1.8 2.0 2.2 2.4 2.5 2.7 2.8 3.0 3.3 3.6

1N5913B MZP4729A

1N5333B 1N5334B

3.9

1N5335B

4.3

1N5336B

4.7

1N5917B

5.1

1N5338B

5.6

1N5919B

6.0 6.2

1N5337B 1N5339B 1N5340B

MZP4735A

6.8

1N5920B

1N5341B

1N5921B

1N5342B

7.5

1N5343B

8.2

1N5923B

1N5344B

9.1

1N5924B

1N5346B

10

1N5925B

1N5347B

8.7

11

1N5348B

12

1N5927B

13

1N5350B

14

1N5351B

15

1N5929B

16

3EZ16D

17

MZP4746A

18

3EZ18D

1N5352B 1N5353B 1N5354B

1N5931B

19

1N5355B 1N5356B

20

1N5932B

22 24

1N5349B

1N5357B 1N5358B

MZP4749A

1N5934B

http://onsemi.com 124

1N5359B

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Axial Leads (continued) Table 1. AXIAL LEADED − 3, 5 WATT (continued) Nominal Zener Breakdown Voltage

3 Watt

5 Watt

Cathode = Polarity Band

Cathode =Polarity Band

Volts Plastic Surmetic 30 Case 59-10 (DO-41)

Plastic Surmetic 40 Case 17

25 27

1N5360B MZP4750A

1N5935B

28

1N5361B 1N5362B

30

1N5363B

33

1N5937B

1N5364B

36

1N5938B

1N5365B

39

1N5366B

43

1N5940B

1N5367B

47

1N5941B

1N5368B

51

1N5942B

1N5369B

56

1N5370B

60

1N5371B

62

1N5372B

68

1N5373B

75

1N5946B

82

1N5374B 1N5375B

87 91

1N5948B

100

1N5377B 1N5378B

110 120

1N5380B

130

1N5381B

140 150

1N5953B

160

1N5383B 1N5384B

170 180

1N5955B

190

1N5386B 1N5387

200

1N5956B

http://onsemi.com 125

1N5388B

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount Table 2. SURFACE MOUNT PACKAGES − 0.2 WATT Nominal Zener Breakdown Voltage

200 mW Standard Tolerance SOD−523

200 mW Tight Tolerance SOD−523

200 mW Standard Tolerance SOD−323

200 mW Tight Tolerance SOD−323

Case 502

Case 502

Case 477 Style 1

Case 477 Style 1

MM5Z2V4

MM5Z2V4S

MM3Z2V4

Volts

1.8 2.0 2.2 2.4 2.5 2.7 2.8 3.0 3.3 3.6 3.7

MM5Z2V7

MM3Z2V7

MM5Z3V0 MM5Z3V3 MM5Z3V6

MM3Z3V0 MM3Z3V3 MM3Z3V6

MM3Z3V3S

MM3Z3V9

MM3Z3V9S

MM3Z4V3 MM3Z4V7 MM3Z5V1 MM3Z5V6

MM3Z4V3S MM3Z4V7S MM3Z5V1S MM3Z5V6S

MM3Z6V2 MM3Z6V8 MM3Z7V5 MM3Z8V2

MM3Z6V2S MM3Z6V8S MM3Z7V5S MM3Z8V2S

MM3Z9V1 MM3Z10V MM3Z11V MM3Z12V

MM3Z9V1S MM3Z10VS

3.9 4.0 4.3 4.7 5.1 5.6

MM5Z4V7 MM5Z5V1 MM5Z5V6

6.0 6.2 6.8 7.5 8.2

MM5Z6V8 MM5Z7V5 MM5Z8V2

8.7 9.1 10 11 12 13 14 14.5 15 16 17

MM5Z9V1 MM5Z10V

MM5Z4V7S MM5Z5V1S MM5Z5V6S MM5Z6V2S MM5Z6V8S MM5Z8V2S MM5Z9V1S

MM5Z12V

MM3Z13V

MM5Z15V MM5Z16V

18 19 20 22 24 25 27 28 30 33

MM3Z12VS

MM3Z15V MM3Z16V

MM3Z15V5 MM3Z16VS

MM3Z18V

MM3Z18VS

MM3Z20V MM3Z22V MM3Z24V MM5Z27V

MM3Z27V

MM5Z30V MM5Z33V

MM3Z33V

Devices listed in bold, italic are ON Semiconductor preferred devices.

http://onsemi.com 126

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount Table 2. SURFACE MOUNT PACKAGES − 0.2 WATT (continued) Nominal Zener Breakdown Voltage

200 mW Standard Tolerance SOD−523

200 mW Tight Tolerance SOD−523

200 mW Standard Tolerance SOD−323

200 mW Tight Tolerance SOD−323

Case 502

Case 502

Case 477 Style 1

Case 477 Style 1

Volts

36

MM3Z36V

MM5Z36V

39

MM3Z39V

43 47

MM3Z43V MM5Z47V

51 Devices listed in bold, italic are ON Semiconductor preferred devices.

Zener Diodes − Regulation in Surface Mount Table 3. SURFACE MOUNT PACKAGES − 0.225 WATT Nominal Zener Breakdown Voltage

225 mW Standard Tolerance SOT−23

225 mW Tight Tolerance SOT−23

225 mW Energy Rated SOT−23

225 mW Standard Tolerance SOT−23

225 mW Energy Rated SOT−23

Case 318

Case 318

Case 318

Case 318

Case 318

Volts

1.8 2.0 2.2 2.4

BZX84C2V4L

MMBZ5221BL

2.5 2.7

MMBZ5222BL BZX84C2V7L

MMBZ5223BL

3.0

BZX84C3V0L

MMBZ5225BL

3.3

BZX84C3V3L

3.6

BZX84C3V6L

2.8 BZX84C3V3E

MMBZ5226BL MMBZ5227BL

MMBZ5227EL

3.7 3.9

BZX84C3V9L

BZX84C3V9E

MMBZ5228BL

4.0 4.3

BZX84C4V3L

MMBZ5229BL

4.7

BZX84C4V7L

BZX84C4V7E

MMBZ5230BL

5.1

BZX84C5V1L

BZX84B5V1L

BZX84C5V1E

MMBZ5231BL

MMBZ5231EL

5.6

BZX84C5V6L

BZX84B5V6L

BZX84C5V6E

MMBZ5232BL

MMBZ5232EL

6.0 6.2

MMBZ5233BL BZX84C6V2L

BZX84B6V2L

BZX84C6V2E

http://onsemi.com 127

MMBZ5234BL

MMBZ5234EL

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount (continued) Table 3. SURFACE MOUNT PACKAGES − 0.225 WATT (continued) Nominal Zener Breakdown Voltage

225 mW Standard Tolerance SOT−23

225 mW Tight Tolerance SOT−23

225 mW Energy Rated SOT−23

225 mW Standard Tolerance SOT−23

225 mW Energy Rated SOT−23

Case 318

Case 318

Case 318

Case 318

Case 318

6.8

BZX84C6V8L

BZX84B6V8L

MMBZ5235BL

7.5

BZX84C7V5L

BZX84B7V5L

MMBZ5236BL

8.2

BZX84C8V2L

BZX84B8V2L

Volts

BZX84C8V2E

8.7

MMBZ5237BL

MMBZ5237EL

MMBZ5238BL

9.1

BZX84C9V1L

10

BZX84C10L

BZX84C9V1E

BZX84B9V1L

MMBZ5239BL MMBZ5240BL

MMBZ5240EL

11

BZX84C11L

MMBZ5241BL

12

BZX84C12L

MMBZ5242BL

MMBZ5242EL

13

BZX84C13L

MMBZ5243BL

MMBZ5243EL

MMBZ5244BL

MMBZ5244EL

MMBZ5245BL

MMBZ5245EL

MMBZ5246BL

MMBZ5246EL

BZX84C13E

14 15

BZX84C15L

16

BZX84C16L

BZX84B16L

17 18

MMBZ5247BL BZX84C18L

BZX84B18L

BZX84C18E

19

MMBZ5248BL

20

BZX84C20L

MMBZ5250BL

22

BZX84C22L

MMBZ5251BL

24

BZX84C24L

MMBZ5252BL

25 27

MMBZ5248EL

MMBZ5249BL MMBZ5250EL MMBZ5252EL

MMBZ5253BL BZX84C27L

MMBZ5254BL

28

MMBZ5255BL

30

BZX84C30L

MMBZ5256BL

33

BZX84C33L

36

BZX84C36L

39

BZX84C39L

43

BZX84C43L

47

BZX84C47L

MMBZ5261BL

51

BZX84C51L

MMBZ5262BL

56

BZX84C56L

MMBZ5263BL

MMBZ5257BL BZ84C36E

MMBZ5259BL

60

MMBZ5264BL

62

BZX84C62L

68

BZX84C68L

75

BZX84C75L

MMBZ5257EL

MMBZ5258BL

MMBZ5265BL

82

MMBZ5268BL

87 91

MMBZ5270BL

Devices listed in bold, italic are ON Semiconductor preferred devices.

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MMBZ5261EL

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount (continued) Table 4. SURFACE MOUNT PACKAGES − 0.5 WATT Nominal Zener Breakdown Voltage

500 mW SOD−123

500 mW Energy Rated SOD−123

Case 425

Case 425

500 mW SOD−123

500 mW Energy Rated SOD−123

500 mW SOD−123

500 mW Energy Rated SOD−123

Case 425

Case 425

Case 425

Case 425

MMSZ5221B MMSZ5222B

MMSZ5221E

MMSZ5223B

MMSZ5223E

MMSZ5225B MMSZ5226B MMSZ5227B

MMSZ5226E

Volts

1.8 2.0 2.2 2.4 2.5

MMSZ4678 MMSZ4679 MMSZ4680 MMSZ4681

MMSZ2V4

2.7 2.8 3.0 3.3 3.6 3.7

MMSZ2V7 MMSZ3V0 MMSZ3V3 MMSZ3V6

MMSZ4683 MMSZ4684 MMSZ4685

3.9 4.0 4.3 4.7 5.1 5.6

MMSZ3V9

MMSZ4686

MMSZ4V3 MMSZ4V7 MMSZ5V1 MMSZ5V6

MMSZ4687 MMSZ4688 MMSZ4689 MMSZ4690

6.0 6.2 6.8 7.5 8.2

MMSZ6V2 MMSZ6V8 MMSZ7V5 MMSZ8V2

MMSZ4691 MMSZ4692 MMSZ4693 MMSZ4694

MMSZ5233B MMSZ5234B MMSZ5235B MMSZ5236B MMSZ5237B

MMSZ5235E

8.7 9.1 10 11 12

MMSZ9V1 MMSZ10 MMSZ11 MMSZ12

MMSZ4695 MMSZ4696 MMSZ4697 MMSZ4698 MMSZ4699

MMSZ5238B MMSZ5239B MMSZ5240B MMSZ5241B MMSZ5242B

MMSZ5240E

MMSZ4700 MMSZ4701 MMSZ4702 MMSZ4703 MMSZ4704

MMSZ5243B MMSZ5244B MMSZ5245B MMSZ5246B MMSZ5247B

MMSZ5244E MMSZ5245E MMSZ5246E

13 14 15 16 17

MMSZ13

18 19 20 22 24

MMSZ18

25 27 28 30 33

MMSZ15 MMSZ16

MMSZ20 MMSZ22 MMSZ24 MMSZ27 MMSZ30 MMSZ33

MMSZ2V7E

MMSZ8V2E

MMSZ15E

MMSZ18E

MMSZ4682

MMSZ4684E

MMSZ5228B

MMSZ4688E MMSZ4689E MMSZ4690E

MMSZ4701E MMSZ4702E MMSZ4704E

MMSZ5229B MMSZ5230B MMSZ5231B MMSZ5232B

MMSZ4705 MMSZ4706 MMSZ4707 MMSZ4708 MMSZ4709

MMSZ5248B MMSZ5249B MMSZ5250B MMSZ5251B MMSZ5252B

MMSZ4710 MMSZ4711

MMSZ5253B MMSZ5254B MMSZ5255B MMSZ5256B MMSZ5257B

MMSZ4713 MMSZ4714

http://onsemi.com 129

MMSZ5237E

MMSZ5242E

MMSZ5248E MMSZ5250E MMSZ5252E MMSZ5254E MMSZ5256E MMSZ5257E

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount (continued) Table 4. SURFACE MOUNT PACKAGES − 0.5 WATT (continued) Nominal Zener Breakdown Voltage

500 mW SOD−123

500 mW Energy Rated SOD−123

Case 425

Case 425

500 mW SOD−123

500 mW Energy Rated SOD−123

500 mW SOD−123

500 mW Energy Rated SOD−123

Case 425

Case 425

Case 425

Case 425

Volts

36 39 43 47 51

MMSZ36 MMSZ39 MMSZ43

56 60 62 68 75

MMSZ56

MMSZ4715 MMSZ4717

MMSZ51

MMSZ5258B MMSZ5259B MMSZ5260B MMSZ5261B MMSZ5262B MMSZ5263B MMSZ5264B MMSZ5265B MMSZ5266B MMSZ5267B

82 87 91 100 110

MMSZ5268B MMSZ5270B MMSZ5272B

Devices listed in bold, italic are ON Semiconductor preferred devices.

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MMSZ5259E MMSZ5260E

ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount (continued) Table 5. SURFACE MOUNT PACKAGES − 1.5, 3 WATT Nominal Zener Breakdown Voltage

1.5 Watt

1.5 Watt

3 Watt

3 Watt

SMA

SMA

POWERMITE[

SMB

Cathode Volts

Plastic Case 403B Cathode = Notch

Plastic Case 403B Cathode = Notch

Plastic Case 457

Anode

Plastic Case 403A

ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ 1.8 2.0 2.2 2.4 2.5 2.7 2.8 3.0 3.3 3.6

1SMA5913B 1SMA5914B

1SMB5913B 1SMB5914B

3.9 4.3 4.7 5.1 5.6

1SMA5915B 1SMA5916B 1SMA5917B 1SMA5918B 1SMA5919B

1SMB5915B 1SMB5916B 1SMB5917B 1SMB5918B 1SMB5919B

6.0 6.2 6.8 7.5 8.2

1SMA5920B 1SMA5921B 1SMA5922B 1SMA5923B

1PMT5920B 1PMT5921B 1PMT5922B

1SMB5920B 1SMB5921B 1SMB5922B 1SMB5923B

1SMA5924B 1SMA5925B

1PMT5924B

1SMA5927B

1PMT5927B

1SMB5924B 1SMB5925B 1SMB5926B 1SMB5927B

1PMT5929B

1SMB5928B 1SMB5929B

8.7 9.1 10 11 12 13 14 15 16 17

1SMA5928B

18 19 20 22 24

1SMA5931B

25 27 28 30 33

1SMA5929B 1SMA5930B

BZG03C15

1SMB5930B 1SMB5931B

1SMA5932B 1SMA5933B 1SMA5934B

1PMT5933B 1PMT5934B

1SMB5932B 1SMB5933B 1SMB5934B

1SMA5935B

1SMB5935B

1SMA5936B 1SMA5937B

1SMB5936B 1SMB5937B

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ON Semiconductor Selector Guide − Diodes

Zener Diodes − Regulation in Surface Mount (continued) Table 5. SURFACE MOUNT PACKAGES − 1.5, 3 WATT (continued) Nominal Zener Breakdown Voltage

1.5 Watt

1.5 Watt

3 Watt

3 Watt

SMA

SMA

POWERMITE[

SMB

Cathode Volts

Plastic Case 403B Cathode = Notch

Plastic Case 403B Cathode = Notch

Plastic Case 457

Anode

Plastic Case 403A

ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ Ñ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ 36 39 43 47 51

1SMA5938B 1SMA5939B 1SMA5940B 1SMA5941B 1SMA5942B

56 60 62 68 75

1SMA5943B

1SMB5943B

1SMA5945B

1SMB5944B 1SMB5945B 1SMB5946B

1PMT5941B

1SMB5938B 1SMB5939B 1SMB5940B 1SMB5941B 1SMB5942B

82 87 91 100 110

1SMB5947B

120 130 150 160 180 200

1SMB5951B 1SMB5952B 1SMB5953B 1SMB5954B 1SMB5955B 1SMB5956B

1SMB5948B 1SMB5949B

BZG03C150

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ON Semiconductor Selector Guide − Diodes

Dual Zeners − Duals in Surface Mount MMBZ15VDLT1 − Common Cathode Series Table 6. SOT−23 DUAL COMMON CATHODE ZENER; 40 WATTS PEAK POWER (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) BIDIRECTIONAL (Circuit tied to Pins 1 and 2) (VF = 0.9 V Max @ IF = 10 mA) Breakdown Voltage VBR (Note 1) (V)

Device Min

Nom

@ IT (mA)

Max

Reverse Voltage Working Peak VRWM (V)

CASE 318−08 TO−236AB LOW PROFILE SOT−23

Max Reverse Surge Current IPP (A)

Max Reverse Leakage Current IR (nA)

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Maximum Temperature Coefficient of VBR (mV/°C)

1 3 2

MMBZ15VDL

14.3

15

15.8

1.0

12.8

100

1.9

21.2

12

27

28.35

1.0

22

50

1.0

38

26

(VF = 1.1 V Max @ IF = 200 mA) 25.65

MMBZ27VCL

1. VBR measured at pulse test current IT at an ambient temperature of 25°C.

MMBZ5V6ALT1 − Common Anode Series Table 7. SOT−23 DUAL COMMON ANODE ZENER; 24 WATTS PEAK POWER (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) UNIDIRECTIONAL (Circuit tied to Pins 1 and 3 or Pins 2 and 3) (VF = 0.9 V Max @ IF = 10 mA) Max Reverse Leakage Current

Breakdown Voltage Device

VBR (Note 2) (V) Min

Nom

Max

@ IT (mA)

IR @ VR (mA) (V)

Max Zener Impedance (Note 3)

ZZT @ IZT (W) (mA)

ZZK @ IZK (W) (mA)

CASE 318−08 STYLE 12 LOW PROFILE SOT−23 PLASTIC

Max Max Reverse Reverse Voltage @ Surge IPP Current (Clamping IPP Voltage) (A) VC (V)

Max Temp Coefficient of VBR (mV/°C)

1 3 2

MMBZ5V6AL

5.32

5.6

5.88

20

5.0

3.0

11

1600

0.25

3.0

8.0

1.26

MMBZ6V2AL

5.89

6.2

6.51

1.0

0.5

3.0

2.76

8.7

2.80

MMBZ6V8AL

6.46

6.8

7.14

1.0

0.5

4.5

2.5

9.6

3.40

MMBZ9V1AL

8.65

9.1

9.56

1.0

0.3

6.0

1.7

14

7.50

2. VBR measured at pulse test current IT at an ambient temperature of 25°C. 3. ZZT and ZZK are measured by dividing the AC voltage drop across the device by the AC current supplied. The specified limits are IZ(AC) = 0.1 IZ(DC), with AC frequency = 1 kHz.

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ON Semiconductor Selector Guide − Diodes

Dual Zeners − Duals in Surface Mount (continued) MMBZ5V6ALT1 − Common Anode Series Table 8. SOT−23 DUAL COMMON ANODE ZENER; 40 WATTS PEAK POWER (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) UNIDIRECTIONAL (Circuit tied to Pins 1 and 3 or Pins 2 and 3) (VF = 0.9 V Max @ IF = 10 mA) Breakdown Voltage VBR (Note 4) (V)

Device

Min

Nom

@ IT (mA) Max

Reverse Voltage Working Peak VRWM (Volts)

Max Reverse Leakage Current IR (nA)

CASE 318−08 STYLE 12 LOW PROFILE SOT−23 PLASTIC

Max Reverse Surge Current IPP (A)

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Maximum Temperature Coefficient of VBR (mV/°C)

1 3 2

MMBZ12VAL

11.40

12

12.60

1.0

8.5

200

2.35

17

7.50

MMBZ15VAL

14.25

15

15.75

1.0

12.0

50

1.9

21

12.30

MMBZ18VAL

17.10

18

18.90

1.0

14.5

50

1.6

25

15.30

MMBZ20VAL

19.00

20

21.00

1.0

17.0

50

1.4

28

17.20

MMBZ27VAL

25.65

27

28.35

1.0

22.0

50

1.0

40

24.30

MMBZ33VAL

31.35

33

34.65

1.0

26.0

50

0.87

46

30.40

4. VBR measured at pulse test current IT at an ambient temperature of 25°C.

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Rectifiers

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ON Semiconductor Selector Guide − Rectifiers

Rectifiers Table of Contents

In Brief… Continuing investment in research and development for discrete products has created a rectifier manufacturing facility that matches the precision and versatility of the most advanced integrated circuits. As a result, ON Semiconductor’s silicon rectifiers span all high tech applications with quality levels capable of passing the most stringent environmental tests . . . including those for automotive under−hood applications.

Page

Application Specific Rectifiers . . . . . . . . . . . . . . . . . . . . . 138 Low VF Schottky . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138 Low Leakage Schottky . . . . . . . . . . . . . . . . . . . . . . . . . 138 High Voltage Schottky . . . . . . . . . . . . . . . . . . . . . . . . . 138 MEGAHERTZ™ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 UltraSoft Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 Energy Rated Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . 139 Automotive Transient Suppressors . . . . . . . . . . . . . . 139 SCHOTTKY Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140 Surface Mount Schottky . . . . . . . . . . . . . . . . . . . . . . . . 140 Axial Lead Schottky . . . . . . . . . . . . . . . . . . . . . . . . . . . 143 TO−220 Type Schottky . . . . . . . . . . . . . . . . . . . . . . . . 144 TO−218 Types and TO−247 Schottky . . . . . . . . . . . . 145 UltraSoft Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145 Ultrafast Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146 Surface Mount Ultrafast . . . . . . . . . . . . . . . . . . . . . . . . 146 Axial Lead Ultrafast . . . . . . . . . . . . . . . . . . . . . . . . . . . 147 TO−220 Type Ultrafast . . . . . . . . . . . . . . . . . . . . . . . . . 148 TO−218 Types and TO−247 Ultrafast . . . . . . . . . . . . 148 Fast Recovery Rectifiers/General Purpose Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 149

Product Highlights:

• Surface Mount Devices − A major thrust has been the

development and introduction of a broad range of power rectifiers, Schottky and Ultrafast, 1/2 A to 40 A, 10 to 600 V. • Application Specific Rectifiers − ♦ Schottky rectifiers having lower forward voltage drop (0.3 V to 0.6 V) for use in low voltage SMPS outputs and as “OR”ing diodes. ♦ MEGAHERTZ ™ series for high frequency power supplies and power factor correction. ♦ Ultrasoft rectifiers for high speed rectification. ♦ Energy rated rectifiers with guaranteed energy handling capability. ♦ Automotive transient suppressors. • Ultrafast rectifiers having reverse recovery times as low as 25 ns to complement the Schottky devices for higher voltage requirements in high frequency applications. • A wide variety of package options to match virtually any potential requirement. The rectifier selector section that follows has generally been arranged by package and technology. The individual tables have been sorted by voltage and current with the package types for the devices listed shown above each table. The Application Specific Rectifiers are also included in their respective tables.

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ON Semiconductor Selector Guide − Rectifiers Application Specific Rectifiers Table 1. Low VF Schottky Rectifiers IO (A)

VRRM (V)

Max VF @ Rated IO and TC = 25°C (V)

Max IR @ Rated VRRM and TC = 25°C (mA)

MBR0520L

0.5

20

0.385

0.25

SOD-123

MBR120LSF

1.0

20

0.45

0.4

SOD−123 Flat Lead

MBR120VLSF

1.0

20

0.34

0.6

SOD−123 Flat Lead

MBR130LSF

1.0

30

0.38

1.0

SOD−123 Flat Lead

MBRM110L

1.0

10

0.365

0.5

POWERMITER

MBRA210L

2.0

10

0.35

0.7

SMA

MBRS130L

1.0

30

0.395

1.0

SMB

MBRS230L

2.0

30

0.50

1.0

SMB

MBRS410L

4.0

10

0.33

5.0

SMC

MBRD835L

8.0

35

0.51

1.4

DPAK

MBRD1035CTL

10

35

0.56

2.0

DPAK

MBR2030CTL

20

30

0.58

5.0

TO-220AC

MBRB2535CTL

25

35

0.55

10

D2PAK

MBR2535CTL

25

35

0.55

5.0

TO-220AC

MBRB2515L

25

15

0.45

15

D2PAK

MBR2515L

25

15

0.45

15

TO-220AC

MBRB3030CTL

30

30

0.51

2.0

D2PAK

MBR4015LWT

40

15

0.50

5.0

TO-247

MBR10H100CTGK

10

100

0.85

0.0035

TO-220AB

MBR20H100CTGK

20

100

0.88

0.0045

TO-220AB

MBRF20H100CTGK

20

100

0.88

0.0045

FULL PACK

MBR30H100CTGK

30

100

0.93

0.0045

TO-220AB

MBR40H100WTGK

40

100

0.9

0.01

TO-247

MBR41H100CTGK

40

100

0.9

0.01

TO-220AB

MBRB41H100CT−1G K

40

100

0.9

0.01

I2PAK

MBR60H100CTGK

60

100

0.98

0.01

TO-220AB

MBRB30H30CT−1GK

30

30

0.55

0.8

I2PAK

MBR3045STK

30

45

0.76

0.2

TO-220AB

MBRB3045CT−1GK

30

45

0.76

0.2

I2PAK

MBRB30H60CT−1GK

30

60

0.78

0.3

I2PAK

MBRF30H60CTG*

30

60

0.78

0.3

FULL PACK

MBR60L45CT

60

45

0.73

1.2

TO−220AB

MBR60L45WT

60

45

0.73

1.2

TO−247

IO (A)

VRRM (V)

Max VF @ Rated IO and TC = 25°C (V)

Max IR @ Rated VRRM and TC = 25°C (mA)

MBR120ESF

1.0

20

0.53

0.01

SOD−123 FLAT LEAD

MBRM110E

1.0

10

0.53

0.001

POWERMITER

MBRM120E

1.0

20

0.53

0.01

POWERMITER

MBRA120E

1.0

20

0.53

0.01

SMA

MBRA210E

2.0

10

0.5

0.015

SMA

MBRS410E

4.0

10

0.5

0.15

SMC

IO (A)

VRRM (V)

Max VF @ Rated IO and TC = 25°C (V)

Max IR @ Rated VRRM and TC = 25°C (mA)

MBRS3200

3.0

200

0.84

1.0

SMB

MBRS3201

3.0

200

0.84

1.0

SMC

MBRS4201

4.0

200

0.86

1.0

SMC

MBRB20200CT

20

200

1.0

1.0

D2PAK

MBR20200CT

20

200

1.0

1.0

TO−220AB

Device

Package

Table 2. Low Leakage Schottky Rectifiers Device

Package

Table 3. High Voltage Schottky Rectifiers Device

K New Product All devices listed are ON Semiconductor preferred devices

http://onsemi.com 138

Package

ON Semiconductor Selector Guide − Rectifiers Application Specific Rectifiers (continued) Table 4. High Voltage Schottky Rectifiers (continued) IO (A)

VRRM (V)

Max VF @ Rated IO and TC = 25°C (V)

Max IR @ Rated VRRM and TC = 25°C (mA)

MBRF20200CT

20

200

1.0

1.0

FULL PAK

MBR40250

40

250

0.97

0.03

TO−220AC

MBR40250T

40

250

0.97

0.03

TO−220AB

MBRF40250T

40

250

0.97

0.03

FULL PAK

Device

Package

Table 5. MEGAHERTZ™ Rectifiers IO (A)

VRRM (V)

Max VF @ Rated IF and TC = 25°C (V)

Max IR @ Rated VRRM and TC = 25°C (mA)

trr (ns)

MURH840CT

8.0

400

2.2

0.01

28

TO−220AB

MURHB840CT

8.0

400

2.2

0.01

28

TO−220AB

MURHS160

1.0

600

2.4

0.02

35

SMB

MURHD560

5.0

600

2.7

0.01

30

DPAK

MURH860CT

8.0

600

2.8

0.01

35

TO−220AB

MURHB860CT

8.0

600

2.8

0.01

35

TO−220AB

MURHF860CT

8.0

600

2.8

0.01

35

TO−220AB

Device

Package

Table 6. UltraSoft Rectifiers (For High Speed Rectification) IO (A)

VRRM (V)

Max VF @ IF and TC = 25°C (V)

Max trr (ns)

TJMax (°C)

MSRD620CT

6.0

200

1.35 @ 6.0 A

55

175

DPAK

MSR860

8.0

600

1.7 @ 8.0 A

120

150

TO−220AC

MSR1560

15

600

1.8 @ 15 A

45

150

TO−220AC

Device

Package

Table 7. Energy Rated Rectifiers Max IR @ Rated VRRM and TC = 125°C (mA)

Avalanche Energy (mJ)

IO (A)

VRRM (V)

Max VF @ IF Rated and TC = 25°C (V)

MUR180E

1.0

800

1.75

10

10

DO−41

MUR1100E

1.0

1000

1.75

10

10

DO−41

MUR480E

4.0

800

1.85

25

20

DO−201AD

MUR4100E

4.0

1000

1.85

25

20

DO−201AD

MUR880E

8.0

800

1.8

25

20

TO−220AC

MUR8100E

8.0

1000

1.8

25

20

TO−220AC

Device

Package

Table 8. Automotive Transient Suppressors IO (A)

VRRM (V)

Max VF @ Rated IF and TC = 25°C (V)

IRSM (A)

TJMax (°C)

Package

MR2535L

6.0

20

1.1 @ 100 A

62 @ 10 mS

150

Axial Lead Button

MR2835SK

32

23

1.1 @ 100 A

62 @ 10 mS

175

Top Can

TRA2532

32

23

1.18 @ 100 A

80 @ 10 mS

175

Micro Button

Device

K New Product All devices listed are ON Semiconductor preferred devices

http://onsemi.com 139

ON Semiconductor Selector Guide − Rectifiers SCHOTTKY Rectifiers Table 9. Surface Mount Schottky Rectifiers VRRM (V)

IO(1) (A)

Max VF @ IF TC = 25°C (V)

IFSM (A)

Max IR(2)

TJ Max (°C)

TJ = 25°C (mA)

(mA) 5.0 @ 10 V 8.0 @ 20 V

Max IR(3)

IO Rating Condition

Device

0.300 @ 0.1 A 0.385 @ 0.5 A

5.5

125

.075 @ 10 V .250 @ 20 V

0.375 @ 0.1 A 0.430 @ 0.5 A

5.5

125

.020 @ 15 V .130 @ 30 V

− −

20

0.5

TL = 90°C

MBR0520L MBR0520L

30

0.5

TL = 100°C

MBR0530 MBR0530

40

0.5

TL = 110°C

MBR0540 MBR0540

0.51 @ 0.5 A

5.5

150

.010 @ 20 V .020 @ 40 V

30

1.0

TL = 65°C

MBR130 MBR130

0.51 @ 1.0 A

5.5

125

60 mA

20

1.0

TL = 140°C

MBR120ESF MBR120ESF

0.53 @ 1.0 A

40

150

.010

1.6 @ 100°C

20

1.0

TL = 115°C

MBR120LSF MBR120LSF

0.45 @ 1.0 A

50

125

0.4

25 @ 85°C

20

1.0

TL = 119°C

MBR120VLSF MBR120VLSF

0.340 @ 1.0 A

45

125

0.6

15 @ 85°C

30

1.0

TL = 117°C

MBR130LSF

0.38 @ 1.0 A

40

125

1.0

25 @ 100°C

0.55 @ 1.0 A

30

125

0.5

25 @ 85°C

0.001

0.5 @ 100°C

0.5

60 @ 100°C

0.010 @ 20 V

1.6 @ 20 V

0.4 @ 20 V

N/A

0.41

N/A

40

1.0

TL = 112°C

MBR140SF MBR140SF

10

1.0

TC = 100°C

MBRM110E MBRM110E

0.53 @ 1.0 A

50

150

10

1.0

TC = 115°C

MBRM110L MBRM110L

0.365 @ 1.0 A

50

125

20

1.0

TC = 130°C

MBRM120E MBRM120E

0.530 @ 1.0 A 0.455 @ 0.1 A

50

150

0.45 @ 1.0 A 0.34 @ 0.1 A

50

125

20

1.0

Ttab ≤ 100°C

MBRM120L MBRM120L

30

1.0

TC = 135°C

MBRM130L MBRM130L

0.38 @ 1.0 A

50

125

40

1.0

Ttab ≤ 100°C

MBRM140

0.36 @ 0.1 A 0.55 @ 1.0 A

50

125

20

1.0

TL = 125°C

MBRA120E

0.530 @ 1.0 A

40

150

0.010

1.6 @ 100°C

25

125

1.0 @ 30 V 0.4 @ 15 V

25 @ 30 V

0.5 @ 40 V

30

1.0

TC ≤ 105°C

MBRA130L

40

1.0

TC ≤ 100°C

MBRA140

0.55 @ 1.0 A 0.71 @ 2.0 A

30

125

0.5 @ 40 V 0.1 @ 20 V

10 @ 40 V

60

1.0

TL = 105°C

MBRA160

0.51 @ 1.0 A

60

125

0.2

10 @ 125°C

60

1.0

TL = 105°C

SS16

0.51 @ 1.0 A

40

150

0.2

10 @ 125°C

10

2.0

TL = 125°C

MBRA210E

0.50 @ 2.0 A

100

150

0.015

0.2 @ 100°C

10

2.0

TL = 110°C

MBRA210L

0.35 @ 2.0 A

160

125

0.70

60 @ 100°C

40

3.0

TC = 100°C

MBRA340

0.45 @ 3.0 A

100

150

0.3

15 @ 40 V

is total device current capability. VRRM unless noted VRRM, TJ = 100°C unless noted

All devices listed are ON Semiconductor preferred devices

http://onsemi.com 140

CASE 425-04 (SOD-123) Cathode = Band

CASE 498−01 (SOD-123FL)

CASE 457−04 (POWERMITER)

N/A

0.41 @ 1.0 A 0.47 @ 2.0 A

(1)I O (2)At (3)At

Package

CASE 403D-02 (SMA) Cathode = Notch or Polarity Band

ON Semiconductor Selector Guide − Rectifiers SCHOTTKY Rectifiers (continued) Table 10. Surface Mount Schottky Rectifiers (continued) VRRM (V)

IO(1) (A)

20

1.0

TL = 115°C

MBRS120

30

1.0

TL = 120°C

MBRS130L

30

1.0

TL = 115°C

40

1.0

40

IO Rating Condition

Device

Max VF @ IF TC = 25°C (V)

Max IR(2)

IFSM (A)

TJ Max (°C)

TJ = 25°C

Max IR(3)

(mA)

(mA)

0.6 @ 1.0 A

40

125

1.0

10

0.395 @ 1.0 A

40

125

1.0

10

MBRS130

0.6 @ 1.0 A

40

125

1.0

10

TL = 115°C

MBRS140

0.6 @ 1.0 A

40

125

1.0

10

1.0

TC = 110°C

MBRS140L

0.5 @ 1.0 A

40

125

0.4

10

90

1.0

TL = 120°C

MBRS190

0.75 @ 1.0 A

50

175

0.5

5.0

100

1.0

TL = 120°C

MBRS1100

0.75 @ 1.0 A

50

0.5

5.0

40

1.5

TC = 100°C

MBRS1540

0.54 @ 1.5 A

40

125

0.8

5.7

30

2.0

TC = 110°C

MBRS230L

0.5 @ 2.0 A

40

125

1.0

75 @ 125°C

25

125

2.0 @ 40 V 0.5 @ 20 V

60 @ 40 V 40 @ 20 V 20 @ 40 V 6.0 @ 20 V

40

2.0

TC ≤ 95°C

MBRS240L

0.43 @ 2.0 A 0.53 @ 4.0 A

40

2.0

TC = 103°C

MBRS2040L

0.43 @ 2.0 A 0.50 @ 4.0 A

70

125

0.80 @ 40 V 0.10 @ 20 V

60

2.0

TL = 95°C

MBRS260

0.63 @ 2.0 A

60

125

0.2

10 @ 125°C

20

2.0

TC = 100°C

SS22

0.5 @ 2.0 A

75

150

0.4

5.7 @ 100°C

40

2.0

TC = 100°C

SS24

0.5 @ 2.0 A

75

150

0.4

5.7 @ 100°C

60

2.0

TL = 95°C

SS26

0.63 @ 2.0 A

40

150

0.2

10 @ 125°C

200

3.0

TL = 120°C

MBRS3200

0.84 @ 3.0 A

100

150

1.0

5.0 @ 200 V

20

3.0

TL = 110°C

MBRS320

0.50 @ 3.0 A

80

125

2.0

20

30

3.0

TL = 110°C

MBRS330

0.50 @ 3.0 A

80

125

2.0

20

40

3.0

TL = 110°C

MBRS340

0.5 @ 3.0 A

80

125

2.0

20

60

3.0

TL = 137°C

MBRS360T3

0.74 @ 3.0 A

125

175

0.15

10

100

3.0

TL = 100°C

MBRS3100

0.79 @ 3.0 A

130

175

0.05

5.0 @ 125°C

200

3.0

TC = 70°C

MBRS3201

0.840 @ 3.0 A

100

150

1.0

5.0 @ 150°C

10

4.0

TL = 130°C

MBRS410E

0.50 @ 4.0 A

250

150

0.15

4.0 @ 100°C

10

4.0

TL = 110°C

MBRS410L

0.33 @ 4.0 A

150

125

5.0

200 @ 100°C

200

4.0

TL = 70°C

MBRS4201

0.860 @ 4.0 A

100

150

1.0

5.0 @ 150°C

40

5.0

TC = 105°C

MBRS540

0.5 @ 5.0 A

190

150

0.3

15 @ 40 V

(1)I O (2)At (3)At

is total device current capability. VRRM unless noted VRRM, TJ = 100°C unless noted

All devices listed are ON Semiconductor preferred devices

http://onsemi.com 141

Package

CASE 403A-03 (SMB) Cathode = Notch or Polarity Band

CASE 403-03 (SMC) Cathode = Notch

ON Semiconductor Selector Guide − Rectifiers SCHOTTKY Rectifiers (continued) Table 10. Surface Mount Schottky Rectifiers (continued) Max VF @ IF TC = 25°C (V)

Max IR(2)

IFSM (A)

TJ Max (°C)

TJ = 25°C

Max IR(3)

(mA)

(mA)

VRRM (V)

IO(1) (A)

IO Rating Condition

20

3.0

TC = 125°C

MBRD320

0.60 @ 3.0 A

75

175

0.2

20 @ 125°C

30

3.0

TC = 125°C

MBRD330

0.60 @ 3.0 A

75

175

0.2

20 @ 125°C

40

3.0

TC = 125°C

MBRD340

0.60 @ 3.0 A

75

175

0.2

20 @ 125°C

50

3.0

TC = 125°C

MBRD350

0.60 @ 3.0 A

75

175

0.2

20 @ 125°C

60

3.0

TC = 125°C

MBRD360

0.60 @ 3.0 A

75

175

0.2

20 @ 125°C

Device

20

6.0

TC = 130°C

MBRD620CT

0.70 @ 3.0 A

75

175

0.1

15 @ 125°C

30

6.0

TC = 130°C

MBRD630CT

0.70 @ 3.0 A

75

175

0.1

15 @ 125°C

40

6.0

TC = 130°C

MBRD640CT

0.70 @ 3.0 A

75

175

0.1

15 @ 125°C

50

6.0

TC = 130°C

MBRD650CT

0.70 @ 3.0 A

75

175

0.1

15 @ 125°C

60

6.0

TC = 130°C

MBRD660CT

0.70 @ 3.0 A

75

175

0.1

15 @ 125°C

35

8.0

TC = 88°C

MBRD835L

0.40 @ 3.0 A 0.51 @ 8.0 A

75

150

1.4

35

35

10

TC = 115°C

MBRD1035CTL

0.56 @ 10 A

50

150

2.0

130 @ 125°C

45

10

TC = 135°C

MBRD1045T4G

0.84 @ 20 A

70

175

0.1

15 @ 125°C

45

10

TC = 135°C

MBRB1045

0.84 @ 20 A

150

175

0.1

15 @ 125°C

45

15

TC = 105°C

MBRB1545CT

0.84 @ 15 A

150

175

0.1

15 @ 125°C

45

16

TC = 125°C

MBRB1645

0.63 @ 16 A

150

150

0.2

40 @ 125°C

60

20

TC = 110°C

MBRB2060CT

0.95 @ 20 A

150

175

0.15

135 @ 125°C

100

20

TC = 110°C

MBRB20100CT

0.85 @ 10 A 0.95 @ 20 A

150

175

0.1

6.0 @ 125°C

200

20

TC = 134°C

MBRB20200CT

1.0 @ 20 A

150

150

1.0

50 @ 125°C

15

25

TC = 90°C

MBRB2515L

0.45 @ 25 A

150

100

15

200 @ 70°C

35

25

TC = 110°C

MBRB2535CTL

0.47 @ 12.5 A 0.55 @ 25 A

150

125

10

500 @ 125°C

45

30

TC = 130°C

MBRB2545CT

0.82 @ 30 A

150

175

0.2

25 @ 125°C

200

175

0.6

145 @ 150°C 46 @ 10 V, 150°C

30

30

TC = 134°C

MBRB3030CT

0.54 @ 15 A 0.67 @ 30 A

30

30

TC = 115°C

MBRB3030CTL

0.44 @ 15 A 0.51 @ 30 A

300

125

2.0

195 @ 125°C 75 @ 10 V, 125°C

30

40

TC = 115°C

MBRB4030

0.46 @ 20 A 0.55 @ 40 A

300

175

0.35

150 @ 125°C

(1)I O (2)At (3)At

is total device current capability. VRRM unless noted VRRM, TJ = 100°C unless noted

All devices listed are ON Semiconductor preferred devices

http://onsemi.com 142

Package

1

CASE 369A-13 (DPAK)

4

3

“CT” Suffix

4 1 1

4

3

3

Non-“CT” Suffix

1

CASE 418B-04 (D2PAK)

4

3

“CT” Suffix

4 1

4

3

1 3

Non-“CT” Suffix

ON Semiconductor Selector Guide − Rectifiers SCHOTTKY Rectifiers (continued) Table 10. Axial Lead Schottky Rectifiers Max VF @ IF TC = 255C (V)

IFSM (A)

TJ Max (5C)

Max IR(2) TL = 255C (mA)

Max IR(3)

1N5817

0.45 @ 1.0 A

25

125

1.0

10

TA = 55°C RqJA = 80°C/W

1N5818

0.55 @ 1.0 A

25

125

1.0

10

1.0

TA = 55°C RqJA = 80°C/W

1N5819

0.60 @ 1.0 A

25

125

1.0

10

1.0

TA = 55°C

MBR150

0.75 @ 1.0 A

25

150

0.5

5.0

60

1.0

TA = 55°C RqJA = 80°C/W

MBR160

0.75 @ 1.0 A

25

150

0.5

5.0

100

1.0

TA = 120°C RqJA = 50°C/W

MBR1100

0.79 @ 1.0 A

50

175

0.5

5.0

20

3.0

TA = 76°C RqJA = 28°C/W

1N5820

0.457 @ 3.0 A

80

125

2.0

20

30

3.0

TA = 71°C RqJA = 28°C/W

1N5821

0.500 @ 3.0 A

80

125

2.0

20

40

3.0

TA = 61°C RqJA = 28°C/W

1N5822

0.525 @ 3.0 A

80

125

2.0

20

40

3.0

TA = 65°C RqJA = 28°C/W

MBR340

0.74 @ 3.0 A

80

175

0.6

20

50

3.0

TA = 65°C

MBR350RL

0.600 @ 3.0 A

80

150

0.6

20

60

3.0

TA = 65°C RqJA = 28°C/W

MBR360RL

0.740 @ 3.0 A

80

150

0.6

20

100

3.0

TA = 100°C RqJA = 28°C/W

MBR3100

0.79 @ 3.0 A

150

175

0.6

20

45

8.0

TL = 75°C

80SQ045N

0.55 @ 8.0 A

140

125

1.0

50 @ 100°C

VRRM (V)

IO (A)

IO Rating Condition

20

1.0

TA = 55°C RqJA = 80°C/W

30

1.0

40 50

(1)I O (2)At (3)At

Device

(mA)

Package

CASE 59−10 (DO−41) Plastic

Cathode = Polarity Band

is total device current capability. VRRM unless noted VRRM, TJ = 100°C unless noted

All devices listed are ON Semiconductor preferred devices

http://onsemi.com 143

CASE 267-05 (DO−201AD) Plastic

Cathode = Polarity Band

ON Semiconductor Selector Guide − Rectifiers SCHOTTKY Rectifiers (continued) Table 11. TO-220 and I2PAK Thru−Hole Schottky Rectifiers Max IR(2) VRRM (V)

IO (A)

IO Rating Condition

35

15

TC = 165°C

TC = 25°C

Max VF @ IF TC = 25°C (V)

IFSM (A)

TJ Max (°C)

(mA)

(mA)

MBR1535CT

0.84 @ 15 A

150

175

0.1

15 @ 125°C

Device

Max IR(3)

45

15

TC = 165°C

MBR1545CT

0.84 @ 15 A

150

175

0.1

15 @ 125°C

100

16

TC = 133°C

MBR16100CT

0.84 @ 16 A

150

175

0.1

5.0 @ 125°C

30

20

TC = 137°C

MBR2030CTL

0.52 @ 10 A 0.58 @ 20 A

150

150

5.0

40

45

20

TC = 135°C

MBR2045CT

0.84 @ 20 A

150

150

0.1

15 @ 125°C

150

150

0.1

6.0 @ 125°C

Package

60

20

TC = 133°C

MBR2060CT

0.85 @ 10 A 0.95 @ 20 A

80

20

TC = 133°C

MBR2080CT

0.95 @ 20 A

150

175

0.1

6.0 @ 125°C

90

20

TC = 133°C

MBR2090CT

0.95 @ 20 A

150

150

0.1

6.0 @ 125°C

100

10

TC = 168°C

MBR10H100CTG

0.85 @ 10 A

180

175

0.0035

4.5 @ 125°C

100

20

TC = 162°C

MBR20H100CTG

0.88 @ 20 A

250

175

0.0045

6.0 @ 125°C

1

100

30

TC = 155°C

MBR30H100CTG

0.93 @ 30 A

250

175

0.0045

6.0 @ 125°C

3

100

40

TC = 150°C

MBR41H100CTG

0.9 @ 40 A

350

175

0.01

10 @ 125°C

100

60

TC = 133°C

MBR60H100CTG

0.98 @ 60 A

350

175

0.01

10 @ 125°C

100

20

TC = 133°C

MBR20100CT

0.85 @ 10 A 0.95 @ 20 A

150

175

0.1

6.0 @ 125°C

200

20

TC = 125°C

MBR20200CT

1.0 @ 20 A

150

150

1.0

50 @ 125°C

35

25

TC = 95°C

MBR2535CTL

0.55 @ 25 A

150

125

5.0

500 @ 125°C

45

25

TC = 130°C

MBR2545CT

0.82 @ 25 A

150

150

0.2

40 @ 125°C

45

30

TC = 130°C

MBR3045ST

0.76 @ 30 A

150

175

0.2

40 @ 125°C

15

40

TC = 105°C

MBR4015CTL

0.54 @ 25 A

150

125

1.0

400 @ 125°C

250

40

TC = 82°C

MBR40250T

0.097 @ 40 A

150

150

0.03

30 @ 125°C

45

60

TC = 145°C

MBR60L45CT

0.73 @ 60 A

200

175

1.2

255 @ 125°C

35

7.5

TC = 170°C

MBR735

0.8 @ 15 A

150

175

0.1

15 @ 125°C

45

7.5

TC = 170°C

MBR745

0.84 @ 15 A

150

175

0.1

15 @ 125°C

35

10

TC = 135°C

MBR1035

0.84 @ 20 A

150

150

0.1

15 @ 125°C

45

10

TC = 135°C

MBR1045

0.84 @ 20 A

150

150

0.1

15 @ 125°C

60

10

TC = 133°C

MBR1060

0.80 @ 10 A

150

150

0.1

6.0 @ 125°C

80

10

TC = 133°C

MBR1080

0.80 @ 10 A

150

150

0.1

6.0 @ 125°C

90

10

TC = 133°C

MBR1090

0.8 @ 10 A

150

150

0.1

6.0 @ 125°C

100

10

TC = 133°C

MBR10100

0.80 @ 10 A

150

150

0.1

6.0 @ 125°C

35

16

TC = 125°C

MBR1635

0.63 @ 16 A

150

175

0.2

40 @ 125°C

45

16

TC = 125°C

MBR1645

0.63 @ 16 A

150

175

0.2

40 @ 125°C

15

25

TC = 90°C

MBR2515L

0.45 @ 25 A

150

100

15

200 @ 70°C

250

40

TC = 82°C

MBR40250

0.097 @ 40 A

150

150

0.03

30 @ 125°C

30

30

MBRB30H30CT−1G

0.6 @ 30 A

260

150

0.5

45 @ 125°C

45

30

TC = 130°C

MBRB3045CT−1G

0.76 @ 30 A

150

175

0.2

40 @ 125°C

60

30

TC = 159°C

MBRB30H60CT−1G

0.78 @ 30 A

260

175

0.3

45 @ 125°C

100

40

TC = 150°C

MBRB41H100CT−1G

0.9 @ 40 A

350

175

0.01

10 @ 125°C

60

20

TC = 133°C

MBRF2060CT

0.95 @ 20 A

150

150

0.15

15 @ 125°C

100

20

TC = 133°C

MBRF20100CT

0.95 @ 20 A

150

150

0.15

15 @ 125°C

200

20

TC = 125°C

MBRF20200CT

1.0 @ 20 A

150

150

1.0

50 @ 125°C

45

25

TC = 125°C

MBRF2545CT

0.82 @ 25 A

150

150

0.2

40 @ 125°C

60

30

TC = 159°C

MBRF30H60CTG

0.79 @ 30 A

260

175

0.3

45 @ 125°C

250

40

TC = 46°C

MBRF40250T

0.097 @ 40 A

150

150

0.03

30 @ 125°C

(2)At

VRRM unless noted (3)At V RRM, TJ = 100°C unless noted

Indicates UL Recognized − File #E69369

http://onsemi.com 144

CASE 221A-09 (TO-220AB)

4

2, 4

1

2

3

4

CASE 221B-04 (TO-220AC) 1

4

3

1 3

CASE 418D−01 I2PAK (TO−262)

CASE 221D-03 FULL PAK 1 2

“CT’’ Suffix 1 3 3

2

ON Semiconductor Selector Guide − Rectifiers SCHOTTKY Rectifiers (continued) Table 12. TO-218 and TO-247 Schottky Rectifiers Max IR(2) VRRM (V)

IO (A)

IO Rating Condition

45

30

TC = 105°C

TC = 25°C

Max VF @ IF TC = 25°C (V)

IFSM (A)

TJ Max (°C)

(mA)

(mA)

MBR3045PT

0.76 @ 30 A

200

150

1.0

100 @ 125°C

400

175

1.0

50 @ 125°C

Device

Max IR(3) Package

45

40

TC = 125°C

MBR4045PT

0.70 @ 20 A 0.80 @ 40 A

45

60

TC = 125°C

MBR6045PT

0.62 @ 30 A 0.75 @ 60 A

500

150

1.0

50

45

30

TC = 105°C

MBR3045WT

0.76 @ 30 A

200

150

1.0

100 @ 125°C

MBR4015LWT

0.42 @ 20 A 0.50 @ 40 A

400

100

5.0

150 @ 75°C

400

150

1.0

50

175

1.0

50

15

40

TC = 125°C

45

40

TC = 125°C

MBR4045WT

0.70 @ 20 A 0.80 @ 40 A

45

60

TC = 125°C

MBR6045WT

0.62 @ 30 A 0.75 @ 60 A

500

4

1

1 2

70

TC = 100°C

MBR7030WT

0.72 @ 70 A

500

150

5.0

40

TC = 150°C

MBR40H100WT

0.9 @ 40 A

200

175

0.01

10 @ 125°C

45

60

TC = 165°C

MBR60L45WT

0.73 @ 60 A

200

175

1.2

275 @ 125°C

2, 4

3

1 2, 4

3

30

3

CASE 340L−02 (TO-247) 1

100 (2)At (3)At

CASE 340D-02 (TO-218AC)

2

3

250 @ 100°C

VRRM unless noted VRRM, TJ = 100°C unless noted

UltraSoft Rectifiers Table 13. UltraSoft Rectifiers (For High Speed Rectification) VRRM (V)

200

(1)

IO (A)

6.0

IO Rating Condition

TC = 137°C

Device

MSRD620CT

Max IR(2)

Max VF @ IF TC = 29°C (V)

trr (ns)

1.35 @ 6.0 A

55

TJ Max (°C)

175

TC = 25°C

Max IR(3)

(mA)

(mA)

5.0

200

Package CASE 369A−13 (DPAK) 1

4

1

3

600

8.0

TC = 125°C

MSR860

1.7 @ 8.0 A

120

150

10

3

CASE 221B−04 (TO−220AC)

1000 1

600 (1)I

15

TC = 125°C

MSR1560

1.8 @ 15 A

45

is total device current capability. (2)At V RRM unless noted (3)At V RRM, TJ = 150°C unless noted O

http://onsemi.com 145

150

15

5000

4

3

4 1

3

4

ON Semiconductor Selector Guide − Rectifiers Ultrafast Rectifiers (continued) Table 14. Surface Mount Ultrafast Rectifiers Max IR(2) Max trr (ns)

Max VF @ IF TC = 25°C (V)

IFSM (A)

TJ Max (°C)

TJ = 25°C

Max IR(4)

(mA)

(mA)

MURA105

30

0.875 @ 1.0 A

50

175

2.0

50

TL = 155°C

MURA110

30

0.875 @ 1.0 A

50

175

2.0

50

TL = 155°C

MURA115

35

0.875 @ 1.0 A

40

175

2.0

50

1.0

TL = 155°C

MURA120

35

0.875 @ 1.0 A

40

175

2.0

50

300

1.0

TL = 150°C

MURA130

35

1.1 @ 1.0 A

35

175

5.0

150

400

1.0

TL = 150°C

MURA140

35

1.1 @ 1.0 A

35

175

5.0

150

600

1.0

TL = 145°C

MURA160

75

1.25 @ 1.0 A

30

175

5.0

150

600

1.0

TL = 145°C

MURHS160

35

2.4 @ 1.0 A

15

175

20

200 @ 125°C

VRRM (V)

IO(1) (A)

IO Rating Condition

50

1.0

TL = 155°C

100

1.0

150

1.0

200

Device

50

2.0

TL = 135°C

MURA205

30

0.94 @ 2.0 A

50

175

2.0

50

100

2.0

TL = 135°C

MURA210

30

0.94 @ 2.0 A

50

175

2.0

50

150

2.0

TL = 135°C

MURA215

35

0.95 @ 2.0 A

40

175

2.0

50

200

2.0

TL = 135°C

MURA220

35

0.95 @ 2.0 A

40

175

2.0

50

300

2.0

TL = 125°C

MURA230

65

1.3 @ 2.0 A

35

175

5.0

150

400

2.0

TL = 125°C

MURA240

65

1.3 @ 2.0 A

35

175

5.0

150

600

2.0

TL = 110°C

MURA260

75

1.45 @ 2.0 A

30

175

5.0

150

50

1.0

TL = 155°C

MURS105

35

0.875 @ 1.0 A

40

175

2.0

50

100

1.0

TL = 155°C

MURS110

35

0.875 @ 1.0 A

40

175

2.0

50

150

1.0

TL = 155°C

MURS115

35

0.875 @ 1.0 A

40

175

2.0

50

200

1.0

TL = 155°C

MURS120

35

0.875 @ 1.0 A

40

175

2.0

50

400

1.0

TL = 150°C

MURS140

75

1.25 @ 1.0 A

35

175

5.0

150

600

1.0

TL = 150°C

MURS160

75

1.25 @ 1.0 A

35

175

5.0

150

50

2.0

TL = 125°C

MURS205

30

0.94 @ 2.0 A

50

175

2.0

50

100

2.0

TL = 125°C

MURS210

30

0.94 @ 2.0 A

50

175

2.0

50

200

2.0

TL = 145°C

MURS220

35

0.95 @ 2.0 A

40

175

2.0

50

300

2.0

TL = 125°C

MURS230

65

1.3 @ 2.0 A

35

175

5.0

150

400

2.0

TL = 125°C

MURS240

65

1.3 @ 2.0 A

35

175

5.0

150

600

2.0

TL = 125°C

MURS260

75

1.45 @ 2.0 A

35

175

5.0

150

200

3.0

TL = 140°C

MURS320

35

0.875 @ 3.0 A

75

175

5.0

150

400

3.0

TL = 130°C

MURS340

75

1.25 @ 3.0 A

75

175

10

250

600

3.0

TL = 130°C

MURS360

75

1.25 @ 3.0 A

75

175

10

250

5.0

250 @ 125°C

200 200

6.0 3.0

TC = 140°C

MURD620CT

TC = 158°C

MURD320

35 35

1.0 @ 3.0 A 0.95 @ 3.0 A

50 75

175 175

5.0

3.0

TC = 140°C

MURD330

50

1.15 @ 3.0 A

90

175

5.0

500

300

3.0

TC = 160°C

MURD330

50

1.15 @ 3.0 A

75

175

5.0

500

3.0

TC = 160°C

MURD340

50

1.15 @ 3.0 A

75

175

CASE 403D−02 SMA

Cathode = Polarity Band

CASE 403A−03 SMB

Cathode = Polarity Band

CASE 403−03 SMC Cathode = Notch 1

5.0

500

600

5.0

TC = 159°C

MURHD560

30

2.7 @ 5.0 A

50

175

10

70 @ 125°C

400

8.0

TC = 120°C

MURHB840CT

28

2.2 @ 4.0 A

100

175

10

500

600

8.0

TC = 120°C

MURHB860CT

35

2.8 @ 4.0 A

100

175

10

500

200

16

TC = 150°C

MURB1620CT

35

0.975 @ 8.0 A

100

175

5.0

250

TC = 150°C

MURB1660CT

“CT” Suffix

DPAK 4 1

1 3

Non-“CT” Suffix 1

4

3

D2PAK CASE 418B−04

“CT” Suffix

1

4

3 1

16

4

3

4

600

4

3

500 @ 125°C

300 400

Package

60

1.5 @ 8.0 A

100

(1)I

is total device current capability. VRRM unless noted (4)At V RRM, TJ = 150°C unless noted O (2)At

All devices listed are ON Semiconductor preferred devices

http://onsemi.com 146

175

10

500

3

Non-“CT” Suffix

ON Semiconductor Selector Guide − Rectifiers Ultrafast Rectifiers (continued) Table 15. Axial Lead Ultrafast Rectifiers Max IR(2) Max trr (ns)

Max VF @ IF TC = 25°C (V)

IFSM (A)

TJ Max (°C)

TJ = 25°C

Max IR(4)

(mA)

(mA)

MUR105

35

0.875 @ 1.0 A

35

175

2.0

50

TA = 130°C

MUR110

35

0.875 @ 1.0 A

35

175

2.0

50

TA = 130°C

MUR115

35

0.875 @ 1.0 A

35

175

2.0

50

1.0

TA = 130°C RqJA = 50°C/W

MUR120

25

0.875 @ 1.0 A

35

175

2.0

50

300

1.0

TA = 120°C

MUR130

75

1.25 @ 1.0 A

35

175

5.0

150

400

1.0

TA = 120°C

MUR140

75

1.25 @ 1.0 A

35

175

5.0

150

600

1.0

TA = 120°C RqJA = 50°C/W

MUR160

75

1.25 @ 1.0 A

35

175

5.0

150

800

1.0

TA = 95°C

MUR180E

75

1.75 @ 1.0 A

35

175

10

600 @ 100°C

1000

1.0

TA = 95°C RqJA = 50°C/W

MUR1100E

75

1.75 @ 1.0 A

35

175

10

600 @ 100°C

200

2.0

TA = 90°C

MUR220

35

0.95 @ 2.0 A

35

175

2.0

50

400

2.0

TA = 85°C

MUR240

65

1.15 @ 2.0 A

35

175

5.0

150

600

2.0

TA = 60°C

MUR260

75

1.35 @ 2.0 A

35

175

5.0

150

1000

2.0

TA = 35°C

MUR2100E

100

2.2 @ 2.0 A

35

175

10

600

VRRM (V)

IO (A)

IO Rating Condition

50

1.0

TA = 130°C

100

1.0

150

1.0

200

Device

50

4.0

TA = 80°C

MUR405

35

0.89 @ 4.0 A

125

175

5.0

150

100

4.0

TA = 80°C

MUR410

35

0.89 @ 4.0 A

125

175

5.0

150

150

4.0

TA = 80°C

MUR415

35

0.89 @ 4.0 A

125

175

5.0

150

200

4.0

TA = 80°C RqJA = 28°C/W

MUR420

35

0.88 @ 3.0 A

125

175

5.0

150

400

4.0

TA = 40°C

MUR440

75

1.28 @ 4.0 A

110

175

10

250

600

4.0

TA = 40°C RqJA = 28°C/W

MUR460

75

1.25 @ 3.0 A

110

175

10

250

800

4.0

TA = 35°C

MUR480E

75

1.75 @ 3.0 A

70

175

25

900

1000

4.0

TA = 35°C RqJA = 28°C/W

MUR4100E

75

1.75 @ 3.0 A

70

175

25

900

(2)At V RRM unless noted (4)At VRRM, TJ = 150°C unless noted

http://onsemi.com 147

Package

CASE 59-10 (DO−41) Plastic Cathode = Polarity Band

CASE 267-05 (DO−201AD) Plastic Cathode = Polarity Band

ON Semiconductor Selector Guide − Rectifiers Ultrafast Rectifiers (continued) Table 16. TO-220 Ultrafast and MEGAHERTZ™ Rectifiers Max IR(2) Max trr (ns)

Max VF @ IF TC = 25°C (V)

IFSM (A)

TJ Max (°C)

TC = 25°C

Max IR(4)

(mA)

(mA)

VRRM (V)

IO(1) (A)

IO Rating Condition

200

6.0

TC = 130°C

MUR620CT

35

0.975 @ 3.0 A

75

175

5.0

250

400

8.0

TC = 120°C

MURH840CT

28

2.2 @ 4.0 A

100

175

10

500

600

8.0

TC = 120°C

MURH860CT

35

2.8 @ 4.0 A

100

175

10

500

1

100

16

TC = 150°C

MUR1610CT

35

0.975 @ 8.0 A

100

175

5.0

250

3

150

16

TC = 150°C

MUR1615CT

35

0.975 @ 8.0 A

100

175

5.0

250

200

16

TC = 150°C

MUR1620CT

35

0.975 @ 8.0 A

100

175

5.0

250

1

200

16

TC = 160°C

MUR1620CTR

85

1.2 @ 8.0 A

100

175

5.0

500

3

400

16

TC = 150°C

MUR1640CT

60

1.30 @ 8.0 A

100

175

10

250

600

16

TC = 150°C

MUR1660CT

60

1.5 @ 8.0 A

100

175

10

500

MUR1620CTR Only

Device

50

8.0

TC = 150°C

MUR805

35

0.975 @ 8.0 A

100

175

5.0

250

100

8.0

TC = 150°C

MUR810

35

0.975 @ 8.0 A

100

175

5.0

250

150

8.0

TC = 150°C

MUR815

35

0.975 @ 8.0 A

100

175

5.0

250

200

8.0

TC = 150°C

MUR820

35

0.975 @ 8.0 A

100

175

5.0

250

400

8.0

TC = 150°C

MUR840

60

1.30 @ 8.0 A

100

175

10

500

600

8.0

TC = 150°C

MUR860

60

1.50 @ 8.0 A

100

175

10

500

25

500 @ 100°C

800

8.0

TC = 150°C

MUR880E

75

1.80 @ 8.0 A

100

175

1000

8.0

TC = 150°C

MUR8100E

75

1.80 @ 8.0 A

100

175

25

500 @ 100°C

100

15

TC = 150°C

MUR1510

35

1.05 @ 15 A

200

175

10

500

150

15

TC = 150°C

MUR1515

35

1.05 @ 15 A

200

175

10

500

200

15

TC = 150°C

MUR1520

35

1.05 @ 15 A

200

175

10

500

400

15

TC = 150°C

MUR1540

60

1.25 @ 15 A

150

175

10

500

600

15

TC = 145°C

MUR1560

60

1.50 @ 15 A

150

175

10

1000

200

20

TC = 125°C

MUR2020R

95

1.10 @ 20 A

250

175

50

1000

200

16

TC = 150°C

35

0.975 @ 8.0 A

100

150

5.0

250

600

16

TC = 150°C

MURF1660CT

60

1.5 @ 8.0 A

100

150

10

500

600

8.0

TC v 120°C

MURHF860CT

35

2.8 @ 4.0 A

100

150

10

500

(1)I

is total device capability VRRM unless noted (4)At VRRM, TJ = 150°C unless noted O (2)At

MURF1620CT

Package CASE 221A-09 (TO-220AB)

4

2, 4 1

2

3

2, 4

CASE 221B-04 (TO-220AC) 4

1

4

3

1

3

CASE 221D-03 (TO−220) FULL PAK

Indicates UL Recognized − File #E69369

Table 17. TO-218 and TO-247 Ultrafast Rectifiers VRRM (V) 200

IO (A) 30

IO Rating Condition TC = 145°C

Device MUR3020WT

Max trr (ns) 35

Max VF @ IF TC = 25°C (V) 1.05 @ 15 A

Max IR(2) IFSM (A) 200

TJ Max (°C) 175

TJ = 25°C

Max IR(4)

(mA)

(mA)

Package

0.5

CASE 340L−02 (TO-247)

10

1

2, 4

3

600

30

TC = 145°C

MUR3060WT

60

1.70 @ 15 A

150

175

10

1.0

200

30

TC = 150°C

MUR3020PT

35

1.05 @ 15 A

200

175

10

0.5

400

30

TC = 150°C

MUR3040PT

60

1.25 @ 15 A

150

175

10

0.5

1

1 3

600

30

TC = 145°C

MUR3060PT

60

1.50 @ 15 A

150

(2)At

VRRM unless noted (4)At VRRM, TJ = 150°C unless noted

http://onsemi.com 148

175

10

1.0

2

3

CASE 340D-02 (TO-218AC) 2, 4 1

2

3

4

ON Semiconductor Selector Guide − Rectifiers Fast Recovery Rectifiers/General Purpose Rectifiers Table 18. Fast Recovery Rectifiers/General Purpose Rectifiers Max IR(2) VRRM (V)

IO (A)

IO Rating Condition

Device

Max VF @ IF TJ = 25°C (V)

Max trr (ns)

IFSM (A)

TJ Max (°C)

TJ = 25°C

Max IR(3)

(mA)

(mA)

400

1.5

TL = 118°C

MRS1504

1.04 @ 1.5 A

50

150

1.0

340

300

1.0

TL = 150°C

MRA4003G

1.1 @ 1.0 A

30

175

10

50

400

1.0

TL = 150°C

MRA4004G

1.1 @ 1.0 A

30

175

10

50

600

1.0

TL = 150°C

MRA4005G

1.1 @ 1.0 A

30

175

10

50

800

1.0

TL = 150°C

MRA4006G

1.1 @ 1.0 A

30

175

10

50

1000

1.0

TL = 150°C

MRA4007G

1.1 @ 1.0 A

30

175

10

50

50

1.0

TA = 75°C

1N4001RL

1.1 @ 1.0 A

30

175

10

50

100

1.0

TA = 75°C

1N4002RL

1.1 @ 1.0 A

30

175

10

50

200

1.0

TA = 75°C

1N4003RL

1.1 @ 1.0 A

30

175

10

50

400

1.0

TA = 75°C

1N4004RL

1.1 @ 1.0 A

30

175

10

50

600

1.0

TA = 75°C

1N4005RL

1.1 @ 1.0 A

30

175

10

50 50

800

1.0

TA = 75°C

1N4006RL

1.1 @ 1.0 A

30

175

10

1000

1.0

TA = 75°C

1N4007RL

1.1 @ 1.0 A

30

175

10

50

50

1.0

TA = 75°C

1N4933RL

1.2 @ 1.0 A

200

30

150

5.0

100

100

1.0

TA = 75°C

1N4934RL

1.2 @ 1.0 A

200

30

150

5.0

100

200

1.0

TA = 75°C

1N4935RL

1.2 @ 1.0 A

200

30

150

5.0

100

400

1.0

TA = 75°C

1N4936RL

1.2 @ 1.0 A

200

30

150

5.0

100

600

1.0

TA = 75°C

1N4937RL

1.2 @ 1.0 A

200

30

150

5.0

100

50

3.0

TL = 105°C

1N5400RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

100

3.0

TL = 105°C

1N5401RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

200

3.0

TL = 105°C

1N5402RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

400

3.0

TL = 105°C

1N5404RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

600

3.0

TL = 105°C

1N5406RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

800

3.0

TL = 105°C

1N5407RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

1000

3.0

TL = 105°C

1N5408RL

1.0 @ 3.0 A

200

170

10

100 @ 150°C

200

3.0

TA = 80°C(8)

MR852RL

1.25 @ 3.0 A

200

100

150

10

150

400

3.0

TA = 80°C(8)

MR854RL

1.25 @ 3.0 A

200

100

150

10

150

600

3.0

TA = 80°C(8)

MR856RL

1.25 @ 3.0 A

200

100

150

10

150

50

6.0

TA = 60°C RqJA = 25°C/W

MR750RL

1.25 @ 100 A

400

175

25

1000

100

6.0

TA = 60°C RqJA = 25°C/W

MR751RL

1.25 @ 100 A

400

175

25

1000

200

6.0

TA = 60°C RqJA = 25°C/W

MR752RL

1.25 @ 100 A

400

175

25

1000

400

6.0

TA = 60°C RqJA = 25°C/W

MR754RL

1.25 @ 100 A

400

175

25

1000

600

6.0

TA = 60°C RqJA = 25°C/W

MR756RL

1.25 @ 100 A

400

175

25

1000

200

25

TC = 150°C

MR2502

1.18 @ 78.5 A

400

175

100

500

400

25

TC = 150°C

MR2504

1.18 @ 78.5 A

400

175

100

500

(2)At

VRRM unless noted (3)At V RRM, TJ = 100°C unless noted (7)Package Size: 0.120” max diameter by 0.260” length.

(8)Must

be derated for reverse power dissipation. See data sheet. (9)Overvoltage Transient Suppressor: 24−32 volts avalanche voltage.

http://onsemi.com 149

Package CASE 403A-03 SMB

CASE 403B-02 SMA

Cathode = Notch

CASE 59-10(7) (DO−41) Plastic

Cathode = Polarity Band

CASE 267-05 (DO−201AD) Plastic

Cathode = Polarity Band

CASE 194-04 Axial Lead Micro Button

Cathode indicated by diode symbol

CASE 193-04 Micro Button

Cathode = Polarity Band

ON Semiconductor Selector Guide − Rectifiers Fast Recovery Rectifiers/General Purpose Rectifiers (continued) Table 19. Overvoltage Transient Suppressors Max VF @ IF TJ = 25°C (V)

IFSM (A)

TJ Max (°C)

IRSM (A)

Max IR(6) (mA)

1.1 IF = 100A

400

175

62(5)

0.2

TRA2532

1.18 IF = 100A

500

175

80(5)

10

MR2835SK

1.1 IF = 100A

400

150

62(5)

5.0 @ 20 V

VRRM (V)

VBR(1) (V)

VBR (V)

IO (A)

20

24−32

40(2)

6.0 TC = 125°C

MR2535L

23

24−32

40(4)

32 TC = 150°C

23

24−32

40(3)

32 TC = 150°C

Device

Package CASE 194−04 Axial Lead Micro Button

Cathode = Diode Symbol CASE 193-04 Micro Button

Cathode = Polarity Band CASE 460−02 Top Can

Cathode = Terminal (1)At

Ir = 100 mA, 25°C (2)At Ir = 90 A, Tc = 150°C, PW = 80 mS (3)At Ir = 80 A, Tc = 85°C, PW = 80 mS (4)At Ir = 80 A, Tc = 25°C, PW = 80 mS

(5)Time

Constant = 10 mS, 25°C (6)At V RRM, Tj = 25°C unless noted

http://onsemi.com 150

ON Semiconductor Selector Guide − Rectifiers

http://onsemi.com 151

ON Semiconductor Selector Guide − Rectifiers

http://onsemi.com 152

Bipolar Transistors

http://onsemi.com 153

http://onsemi.com 154

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors Table of Contents

In Brief… Through ON Semiconductor’s extensive process improvements and stringent quality control standards, we are proud to offer a broad line of bipolar power transistors that meet or exceed those of other suppliers. This portfolio consists of discrete and Darlington transistors in a variety of popular packages from the low power surface mount SOT−223 to the high power TO−3.

Page

Bipolar Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156 Discrete Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . . 157 Surface Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157 Through−Hole . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 158 Darlington Transistors . . . . . . . . . . . . . . . . . . . . . . . . . 162 Surface Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162 Through−Hole . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162 Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164 Electronic Lamp Ballasts . . . . . . . . . . . . . . . . . . . . . . . 166 General−Purpose Transistors . . . . . . . . . . . . . . . . . . . 167 General−Purpose Multiple Transistors . . . . . . . . . . . 172 Low Noise and Good hFE Linearity . . . . . . . . . . . . . . 173 Darlington Transistors . . . . . . . . . . . . . . . . . . . . . . . . . 173 High Current Transistors . . . . . . . . . . . . . . . . . . . . . . . 174 High Voltage Transistors . . . . . . . . . . . . . . . . . . . . . . . 176 RF Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177 Switching Transistors . . . . . . . . . . . . . . . . . . . . . . . . . . 177 Multiple Switching Transistors . . . . . . . . . . . . . . . . . . . 178 Digital Transistors (Bias Resistor Transistors) . . . . . 179 Dual Digital Transistors (Bias Resistor Transistors) . . . . . . . . . . . . . . . . . . . 181 Combinational Digital Transistors (Bias Resistor Transistors) . . . . . . . . . . . . . . . . . . . 182 Complex Digital Transistors . . . . . . . . . . . . . . . . . . . . 183 Low Saturation Voltage Transistors . . . . . . . . . . . . . . 184 Load Switch Transistors . . . . . . . . . . . . . . . . . . . . . . . 185

Product Highlights Audio Transistors: • Improved gain linearity, complementary pair gain matching and optimized die area for symmetrical characteristics in complementary configurations. • Unsurpassed high voltage FBSOA performance. • New state of the art 150 W and 180 W high frequency discrete transistors. • ThermalTrakt output transistors with internal bias control eliminate amplifier warm−up period, enable instant temperature adjustment, upgrade sound quality and improve bias stability. • High voltage discrete audio output transistors that reach higher voltages than previously available. Electronic Lamp Ballast: • High frequency, high gain bipolar transistors that utilize monolithic collector/emitter diode tailored to meet the needs of lamp ballasts. • Active anti−saturation network to provide short and highly reproducible collector current storage time. Low VCE(sat) Transistors: • Devices with combination of low saturation voltage and high gain are ideal for high speed switching applications where power savings is a concern. Ultra High Current Transistors: • Dual matched die configurations up to 60 A. • Working voltages from 60 V to 120 V. ON Semiconductor has a commitment to quality and total customer satisfaction. We will continue to demonstrate this in the new and innovative products we plan to announce in the coming year.

http://onsemi.com 155

ON Semiconductor Selector Guide − Bipolar Transistors

BIPOLAR TRANSISTORS SELECTOR GUIDE SELECTION BY PACKAGE IC Range (Amps)

VCE Range (Volts)

PD (Watts)

SOT−223

0.5−3.0

30−300

2.75−3.0

DPAK

0.5-10

25-450

12.5-25

D2PAK

6.0−10

80−350

50−75

DPAK

0.5-10

25-450

12.5-25

TO-225AA

0.3-5.0

25-500

12.5-50

TO-220AB

0.5-15

32-400

30-150

Isolated TO-220

1.0-10

60-450

28-45

TO−218

10−25

60−350

80−150

TO−247

8.0−30

150−250

100−200

TO-264

15-20

250-350

200−250

TO-264 5−Lead

15

260

200

TO-3 (TO-204AA) 40 Mil Pins

4.0-30

40-250

115-250

TO−3 (TO-204AE) 60 Mil Pins

40−60

60-250

150-300

Package

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ON Semiconductor Selector Guide − Bipolar Transistors

DISCRETE TRANSISTORS ICCont Amps Max

VCEO(sus) Volts Min

0.5

300

3.0

30

Device Type

40 0.5

300

MJD340T4

1.0

250

MJD47T4

350 400 2.0

hFE Min/Max

@ IC Amp

MMJT350T1

30/240

0.05

30

2.75

MMJT9435T1

50

1.0

100 typ

3.0

NJT4030P

200/400

1.0

160 typ

2.0

MJD350T4

30/240

0.05

30

15

30/150

0.3

10

15

10 min

1.0

10

15

30/150

0.3

10

15

50 min

2.0

3.0

20

NPN

MMJT9410T1

PNP

MJD5731T4 MJD50T4

45

PD (Case) Watts @ 25°C

fT MHz Min

MJD148T4

50

NJD2873T4

40 min

2.0

30

12.5

450

MJD18002D2T4

6.0 min

2.0

13 typ

25

40

MJD31T4

MJD32T4

10 min

1.0

3.0

15

100

MJD31CT4

MJD32CT4

10 min

1.0

3.0

15

4.0

100

MJD243T4

MJD253T4

40/180

0.2

40

12.5

5.0

25

MJD200T4

MJD210T4

45/180

2.0

65

12.5

6.0

100

MJD41CT4

MJD42CT4

15/75

3.0

3.0

20

8.0

80

MJD44H11T4

MJD45H11T4

40 min

4.0

50 typ

20

10

60

MJD3055T4

MJD2955T4

20/100

4.0

2.0

20

6.0

100

MJB41CT4

MJB42CT4

15/75

3.0

3.0

65

8.0

80

MJB44H11T4

MJB45H11T4

40/100

4.0

40

50

3.0

Package

SOT−223

DPAK

D2PAK 0.3

350

MJE3439

40/160

0.02

15

15

0.5

200

MJE344

30/300

0.05

15

20.8

250

2N5655

30/250

0.1

10

20

300

MJE340

30/240

0.05

30

20.8

350

2N5657

30/250

0.1

10

20

BD159

30/240

0.05

30

20

1.0

1.5

2.0 3.0

MJE350

40

2N4921

2N4918

20/100

0.5

3.0

30

60

2N4922

2N4919

20/100

0.5

3.0

30

80

2N4923

2N4920

20/100

0.5

3.0

30

45

BD135

BD136

40/250

0.15

50

12.5

60

BD137

BD138

40/250

0.15

50

12.5

80

BD139

BD140

40/250

0.15

50

12.5

BD234

25 min

1.0

3.0

25

25 min

1.0

3.0

25

45 80

BD237

40

MJE180

MJE170

50/250

0.1

50

12.5

60

MJE181

MJE171

50/250

0.1

50

12.5

80

BD179

BD180

40/250

0.15

3.0

25

MJE182

MJE172

50/250

0.1

50

12.5

8.0 min

1.0

12 typ

50

500

BUH51 †

†Style 3.

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TO−225AA

ON Semiconductor Selector Guide − Bipolar Transistors

DISCRETE TRANSISTORS (continued) Device Type

ICCont Amps Max

VCEO(sus) Volts Min

4.0

32

BD435

40

MJE521

PD (Case) Watts @ 25°C

hFE Min/Max

@ IC Amp

fT MHz Min

BD436

50 min

2.0

3.0

36

MJE371

40 min

1.0

3.0

40

25 min

1.5

2.0

40

NPN

PNP

2N5190 45

BD437

BD438

40 min

2.0

3.0

36

60

BD439

BD440

25 min

2.0

3.0

36

BD787

BD788

20 min

2.0

50

15

2N5191

2N5194

25/100

1.5

2.0

40

2N5192

2N5195

25/100

1.5

2.0

40

BD441

BD442

15 min

2.0

3.0

36

80 100

MJE243

MJE253

40/120

0.2

40

15

5.0

25

MJE200

MJE210

45/180

2.0

65

15

1.0

60

TIP29A

15/75

1.0

3.0

30

15/75

1.0

3.0

30

15/75

1.0

3.0

30

30/150

0.3

10

40

MJE5730

30/150

0.3

10

40

350

MJE5731

30/150

0.3

10

40

375

MJE5731A

30/150

0.3

10

40

2.0

80

TIP29B

100

TIP29C

250

TIP47

300

TIP48

TIP30C

400

TIP50

30/150

0.3

10

40

400/700

BUL44

14/36

0.4

13 typ

50

450/1000

BUX85

30

0.1

4.0

50

14/34

0.2

12 typ

40

MJE18002 3.0

40

TIP31

TIP32

25 min

1.0

3.0

40

60

TIP31A

TIP32A

25 min

1.0

3.0

40

BD242B

25 min

1.0

3.0

40

TIP31B

TIP32B

25 min

1.0

3.0

40

BD241C

BD242C

25 min

1.0

3.0

40

TIP31C

TIP32C

25 min

1.0

3.0

40

80

D44C12

D45C12

40/120

0.2

40 typ

30

350

MJE15034

MJE15035

10 min

2.0

30

50

400/700

MJE13005

6/30

3.0

4.0

60

500/800

BUH50

10 typ

2.0

4.0

50

250

2N6497

10/75

2.5

5.0

80

400/700

BUL45

14/34

0.3

12 typ

75

BUL45D2*

22 min

0.8

13 typ

75

MJE18004

14/34

0.3

13

75

MJE18004D2*

15 min

0.8

13

75

80

100

4.0

5.0

450/1000

NOTE: When two voltages are given, the format is VCEO(sus)/VCES. *D2 suffix indicates transistor with built−in C−E freewheeling diode and antisaturation network.

http://onsemi.com 158

Package

TO−225AA

TO−220AB

ON Semiconductor Selector Guide − Bipolar Transistors

DISCRETE TRANSISTORS (continued) ICCont Amps Max

VCEO(sus) Volts Min

6.0

40

7.0

Device Type NPN

15/75

3.0

3.0

65

15/75

3.0

3.0

65

80

TIP41B

TIP42B

15/75

3.0

3.0

65

BD244B

15 min

3.0

3.0

65

100

BD243C

BD244C

15 min

3.0

3.0

65

TIP41C

TIP42C

15/75

3.0

3.0

65

400/700

BUL146

14/34

0.5

14 typ

100

450/1000

MJE18006

14/34

0.5

14 typ

100

2N6111

30/150

3.0

4.0

40

2N6109

30/150

2.5

4.0

40

2N6107

30/150

2.0

4.0

40

30 min

1.5

10

60

30

2N6288

70

2N6292

200

BU406

120

MJE15028

MJE15029

20 min

4.0

30

50

150

MJE15030

MJE15031

20 min

4.0

30

50

250

MJE15032

MJE15033

10 min

2.0

30

50

300

MJE5850

15 min

2.0

30 typ

80

350

MJE5851

15 min

2.0

30 typ

80

400

MJE5852

15 min

2.0

30 typ

80

MJE13007

5/30

5.0

14 typ

80

MJE18008

16/34

1.0

13 typ

125

D44H8

D45H8

40 min

4.0

3.0

50

MJE3055T

MJE2955T

20/70

4.0

3.0

75

BD809

BD810

15 min

4.0

1.5

90

D44H11

D45H11

40 min

4.0

50 typ

50

BUH100

6.0 min

10

23 typ

100

90

BUV26

12 min

12

30 typ

85

120

BUV27

12 min

8.0

30 typ

70

6/30

8.0

4.0

100

60

400/700

400/700 15

TIP42 TIP42A

80

12

@ IC Amp

TIP41A

450/1000 10

hFE Min/Max

PNP

60

50

8.0

PD (Case) Watts @ 25°C

fT MHz Min

MJE13009

60

2N6487

2N6490

20/150

5.0

5.0

75

80

2N6488

2N6491

20/150

5.0

5.0

75

D44VH10

D45VH10

20 min

4.0

50 typ

83

4.0 min

20

23 typ

150

400/700

BUH150

NOTE: When two voltages are given, the format is VCEO(sus)/VCES.

http://onsemi.com 159

Package

TO−220AB

ON Semiconductor Selector Guide − Bipolar Transistors

DISCRETE TRANSISTORS (continued) Device Type

ICCont Amps Max

VCEO(sus) Volts Min

1.0

250

MJF47

3.0

100

MJF31C

5.0

450/1000

MJF18004

6.0

400/700

BUL146F

8.0

150

MJF15030

450/1000

MJF18008

60

MJF3055

80

MJF44H11

10

100

TIP33C

15

60

TIP3055

16

160

25

NPN

PNP

PD (Case) Watts @ 25°C

hFE Min/Max

@ IC Amp

fT MHz Min

30/150

0.3

10

28

10 min

1.0

3.0

28

14/34

0.3

13 typ

35

MJF32C

14/34

0.5

14 typ

40

40 min

3.0

30

35

16/34

1.0

13 typ

45

MJF2955

20/100

4.0

2.0

40

MJF45H11

40/100

4.0

40

35

20/100

3.0

3.0

80

TIP2955

5 min

10

2.5

80

MJE4343

MJE4353

15 min

8.0

1.0

125

60

TIP35A

TIP36A

15/75

15

3.0

125

100

TIP35C

TIP36C

15/75

15

3.0

125

8.0

150

MJW21192

MJW21191

15 min

8.0

4.0

100

15

260

MJW0281A

MJW0302A

75/150

3.0

30

150

MJW3281A

MJW1302A

75/150

4.0

30

200

MJW21194

MJW21193

20/60

8.0

4.0

200

MJW21196

MJW21195

20/60

8.0

4.0

200

14/35

3.0

13 typ

250

MJL3281A

MJL1302A

75/150

4.0

30

200

MJL0281A

MJL0302A

75/150

3.0

30

180

350

MJL4281A

MJL4302A

80/250

5.0

35

230

250

MJL21194

MJL21193

25/75

8.0

4.0

200

MJL21196

MJL21195

25/75

8.0

4.0

200

260

NJL0281D

NJL0302D

75/150

3.0

30

180

260

NJL3281D

NJL1302D

75/150

4.0

30

200

350

NJL4281D

NJL4302D

75/150

5.0

30

250

16

250

NJL21194D

NJL21193D

25/75

8.0

4.0

200

10

140

2N3442

20/70

4.0

3.0

117

250

MJ15011

20/100

2.0

3.0

200

60

2N3055

20/70

4.0

2.5

115

20/70

4.0

0.8

115

10

16

30 15

16

15

15

250

450/1000 260

MJF15031

MJW18020

MJ2955

2N3055A 120

MJ15015

MJ15016

20/70

4.0

1.0

180

140

MJ15001

MJ15002

25/150

4.0

2.0

200

NOTE: When two voltages are given, the format is VCEO(sus)/VCES.

http://onsemi.com 160

Package

Isolated TO−220

TO−218

TO−247

TO−264

TO−264 (5−Lead)

TO−3 (TO−204AA)

ON Semiconductor Selector Guide − Bipolar Transistors

DISCRETE TRANSISTORS (continued) Device Type

ICCont Amps Max

VCEO(sus) Volts Min

16

140

2N3773

200

MJ15022

250

PD (Case) Watts @ 25°C

hFE Min/Max

@ IC Amp

fT MHz Min

15/60

8.0

4.0

150

MJ15023

15/60

8.0

5.0

250

MJ15024

MJ15025

15/60

8.0

5.0

250

MJ21194

MJ21193

25/75

8.0

4.0

250

MJ21196

MJ21195

25/75

8.0

4.0

250

NPN

PNP

60

2N3772

15/60

10

2.0

150

90

2N5038

20/100

12

60

140

140

MJ15003

MJ15004

25/150

5.0

2.0

250

60

2N5885

2N5883

20/100

10

4.0

200

80

2N5886

2N5884

20/100

10

4.0

200

100

2N6338

30/120

10

40

200

150

2N6341

30/120

10

40

200

40

2N3771

15/60

15

2.0

150

60

2N5302

15/60

15

2.0

200

100

MJ802

25/100

7.5

2.0

200

200

BUV21

10 min

25

8.0

150

250

BUV22

10 min

20

8.0

250

50

80

2N5686

2N5684

15/60

25

2.0

300

60

60

MJ14001

15/100

50

3.0

300

15/100

50

3.0

300

20

25

30

40

80

MJ4502

MJ14002

http://onsemi.com 161

Package

TO−3 (TO−204AA)

TO−3 (TO−204AE)

ON Semiconductor Selector Guide − Bipolar Transistors

DARLINGTON TRANSISTORS Device Type

ICCont Amps Max

VCEO(sus) Volts Min

2.0

100

MJD112T4

4.0

80

8.0

PD (Case) Watts @ 25°C

hFE Min/Max

@ IC Amp

fT MHz Min

1000 min

2.0

25

20

MJD6039T4

1k/2k

2.0

25

20

350

NJD35N04

2000 min

2.0

90

45

100

MJD122T4

MJD127T4

1k/2k

4.0

4

20

MJD128T4

1k/2k

4.0

4

20

1k min

5.0

500/3400

5.0

NPN

120 10

80

MJD44E3T4

10

350

BUB323Z

PNP MJD117T4

Package

DPAK

20 2.0

75

D2PAK 2.0

100

4.0

40 45

60

80

2.0

5.0

8.0

MJE270†

MJE271†

1.5k min

0.12

6.0

15

2N6034

25 min

1.5

2.0

40

BD675

BD676

750

1.5

3.0

40

BD675A

BD676A

750

2.0

3.0

40

BD677

BD678

750 min

1.5

40

BD677A

BD678A

750 min

2.0

40

MJE800

MJE700

750 min

1.5

1.0

40

2N6038

2N6035

750/18k

2.0

25

40

BD679

BD680

750 min

1.5

BD679A

BD680A

750 min

2.0

MJE802

MJE702

750 min

1.5

1.0

40

MJE803

MJE703

750 min

2.0

1.0

40

25

40

40 40

2N6039

2N6036

750/18k

2.0

100

BD681

BD682

750 min

1.5

60

TIP110

TIP115

500 min

2.0

25

50

40

80

TIP111

TIP116

500 min

2.0

25

50

100

TIP112

TIP117

500 min

2.0

25

50

60

TIP120

TIP125

1k min

3.0

4.0

65

80

TIP121

TIP126

1k min

3.0

4.0

65

100

TIP122

TIP127

1k min

3.0

4.0

75

60

2N6043

2N6040

1k/10k

4.0

4.0

75

1k/20k

3.0

4.0

80

BDX53B

BDX54B

750 min

3.0

4.0

60

TIP101

TIP106

1k/20k

3.0

4.0

80

TIP131

1k/15k

4.0

70

TIP132

1k/15k

4.0

70

TIP100 80

100

400

2N6045

2N6042

1k/10k

3.0

BDX53C

BDX54C

750 min

3.0

TIP102

TIP107

1k/20k

3.0

200 min

4.0

MJE5742

NOTE: When two voltages are given, the format is VCEO(sus)/VCES. †Style 3.

http://onsemi.com 162

TO−225AA

4.0

75

4.0

80 80

TO−220AB

ON Semiconductor Selector Guide − Bipolar Transistors

DARLINGTON TRANSISTORS (continued) Device Type

ICCont Amps Max

VCEO(sus) Volts Min

10

60

2N6387

80

BDX33B

hFE Min/Max

@ IC Amp

2N6667

1k/20k

5.0

20

65

BDX34B

750 min

3.0

3.0

70

1k/20k

5.0

20

65

BDX34C

750 min

3.0

3.0

70

BDW46

1k min

5.0

4.0

85

NPN

PNP

2N6388 100 15

BDX33C

80

PD (Case) Watts @ 25°C

fT MHz Min

100

BDW42

BDW47

1k min

5.0

4.0

85

5.0

100

MJF122

MJF127

2000 min

3.0

4.0

28

10

100

MJF6388

MJF6668

3k/20k

3.0

20

40

10

60

TIP140

500 min

10

4.0

125

TIP141

500 min

10

4.0

125

100

350

BDV65B

BDV64B

1k min

5.0

TIP142

TIP147

500 min

10

500/3400

5.0

BU323Z

4.0

150

MJH11017

400/15k

10

3.0

150

MJH11019

400/15k

10

3.0

150

250

MJH11022

MJH11021

400/15k

10

3.0

150

20

100

MJH6284

MJH6287

750/18k

10

4.0

125

12

100

2N6052

750/18k

6.0

4.0

150

15

250

MJ11021

100 min

15

3.0

175

20

80

2N6286

750/18k

10

4.0

160

2N6287

750/18k

10

4.0

160

50

MJ11022

100

2N6284

60

MJ11012

1k min

20

4.0

200

120

MJ11016

MJ11015

1k min

20

4.0

200

250

MJ11022

MJ11021

400/15k

10

3.0

200

60

MJ11028

400 min

50

300

90

MJ11030

400 min

50

300

120

MJ11032

400 min

50

300

MJ11033

http://onsemi.com 163

Isolated TO−220

125

MJH11020

30

150

TO−220AB

125

200

15

Package

TO−218

TO−3 (TO−204AA)

TO−3 (TO−204AE)

ON Semiconductor Selector Guide − Bipolar Transistors

Audio GENERAL DESIGN CURVES FOR POWER AUDIO OUTPUT STAGES

16 OHMS

300

V(BR)CEO (VOLTS)

PEAK OUTPUT CURRENT (AMPS)

500

V(BR)CEO Required on Output and Driver Transistor vs. Output Power for 4, 8 and 18 W Loads

8 OHMS 4 OHMS

100 70 50 30

10 10

30

50

100

300

500

1000

50

Output Transistor Peak Collector Current vs. Output Power for 4, 8 and 16 W Loads

30

4 OHMS 8 OHMS

10

16 OHMS

5.0 3.0

1.0 10

30

OUTPUT POWER (WATTS)

50

100

300

500

1000

OUTPUT POWER (WATTS)

Another important parameter that must be considered before selecting the output transistors is the safe−operating area these devices must withstand. For a complete discussion see Application Note AN485.

RECOMMENDED POWER TRANSISTORS FOR AUDIO/SERVO LOADS RMS Power Output

NPN

PNP

To 25 W

MJE15030

25 to 50 W

50 to 100 W

Over 100 W

hFE

Package

PD Watts @ 25°C

Min/Max

@ IC Amps

fT MHz Typ

VCEO

IC Max

MJE15031

TO−220

50

150

8.0

20 min

4.0

30

MJE15032

MJE15033

TO−220

50

250

8.0

50 min

1.0

30

MJE15034

MJE15035

TO−220

50

350

4.0

50 min

1.0

30

MJ15001

MJ15002

MJ15003

MJ15004

TO−3

200

140

15

25/150

4.0

3.0

TO−3

150

140

20

25/150

5.0

3.0

MJ15015

MJ15016

TO−3

180

120

15

20/70

4.0

3.0

MJW21192

MJW21191

TO−3

100

150

8.0

15 min

4.0

4.0

MJW0281A

MJW0302A

TO−3

150

260

15

75/150

3.0

30

MJL0281A

MJL0302A

TO−264

180

260

15

75/150

3.0

30

NJL0281D

NJL0302D

TO−264 (5−Lead)

180

260

15

75/150

3.0

30

MJL21194

MJL21193

TO−264

200

250

16

25/75

8.0

4.0

MJL21196

MJL21195

TO−264

200

250

16

25/75

8.0

4.0

MJW21194

MJW21193

TO−247

200

250

16

20/60

8.0

4.0

MJW21196

MJW21195

TO−247

200

250

16

25/60

8.0

4.0

MJL3281A

MJL1302A

TO−264

200

260

15

75/150

5.0

30

http://onsemi.com 164

ON Semiconductor Selector Guide − Bipolar Transistors

RECOMMENDED POWER TRANSISTORS FOR AUDIO/SERVO LOADS (continued) RMS Power Output

hFE

NPN

PNP

Package

PD Watts @ 25°C

MJW3281A

MJW1302A

TO−247

200

260

15

75/150

5.0

30

MJL4281A

MJL4302A

TO−264

200

350

15

80/200

5.0

35

NJL3281D

NJL1302D

TO−264 (5−Lead)

200

260

15

75/150

7.0

30

NJL4281D

NJL4302D

TO−264 (5−Lead)

250

350

15

75/150

5.0

30

MJ15024

MJ15025

TO−3

250

250

16

15/60

8.0

4.0

MJ21194

MJ21193

TO−3

250

250

16

25/75

8.0

4.0

VCEO

IC Max

Min/Max

@ IC Amps

fT MHz Typ

The Power Transistors shown are provided for reference only and show device capability. The final choice of the Power Transistors used is left to the circuit designer and depends upon the particular safe−operating area required and the mounting and heat sinking configuration used.

http://onsemi.com 165

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Power Transistors for Electronic Lamp Ballasts IC Operating Amps

hFE min @ IC Operating VCE = 1.0 V

Inductive Switching @ IC Operating tsi/tfi Max (ms)

PD (Case) Watts @ 25°C

BUL44

1.0

8.0

2.75/0.175

50

MJE18002

1.0

6.0

2.75/0.175

50

800

BUH50

2.0

8.0 typ

2.75/0.15

50

700

BUL45

2.0

7.0

3.8/0.17

75

700

BUL45D2*

2.0

10

2.25/0.015

75

1000

MJE18004

2.0

6.0

2.5/0.175

75

ICCont Amps Max

VCEO(sus) Volts Min

2.0

400

700

450

1000

4.0

500

5.0

400

450

VCES Volts Min

Device Type

1000

MJE18004D2*

2.0

6.0

2.4/0.15

75

400

700

BUL146

3.0

8.0

2.5/0.15

100

450

1000

MJE18006

3.0

6.0

3.2/0.15

100

8.0

450

1000

MJE18008

4.5

6.0

3.2/0.15

125

10

400

700

BUH100

5.0

10 typ

3.5/0.15

100

15

400

700

BUH150

10

8.0 typ

2.75/0.175

150

IC Operating Amps

hFE min @ IC Operating VCE = 1.0 V

Inductive Switching @ IC Operating tsi/tfi Max (ms)

PD (Case) Watts @ 25°C

6.0

Package

TO−220AB

Isolated TO-220 ICCont Amps Max

VCEO(sus) Volts Min

VCES Volts Min

5.0

450

1000

MJF18004

2.0

6.0

2.5/0.175

35

6.0

400

700

BUL146F

3.0

8.0

2.5/0.15

40

8.0

450

1000

MJF18008

4.5

6.0

3.2/0.15

45

ICCont Amps Max

VCEO(sus) Volts Min

VCES Volts Min

IC Operating Amps

hFE min @ IC Operating VCE = 1.0 V

Inductive Switching @ IC Operating tsi/tfi Max (ms)

PD (Case) Watts @ 25°C

2.0

450

1000

1.0

6.0

1.2/0.150

25

Device Type

Package

Isolated TO−220

DPAK

Device Type MJD18002D2T4

Package

DPAK

TO−225AA (TO−126) ICCont Amps Max

VCEO(sus) Volts Min

VCES Volts Min

3.0

500

800

Device Type BUH51†

IC Operating Amps

hFE min @ IC Operating VCE = 1.0 V

Inductive Switching @ IC Operating tsi/tfi Max (ms)

PD (Case) Watts @ 25°C

1.0

8.0

3.75/0.3

50

Package

TO−225AA BUH−Series are specified for Halogen applications. *D2 suffix indicates transistor with built−in C−E freewheeling diode and antisaturation network. †Style 3.

The isolated TO−220 is UL RECOGNIZED for its isolation feature and has been evaluated to 3500 volts RMS. Actual isolation rating depends on specific mounting position and maintaining required strike and creepage distances. http://onsemi.com 166

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors GENERAL−PURPOSE TRANSISTORS

NPN

PNP

V(BR)CEO

IC mA Max

Min

hFE

NF

Max

fT MHz Min

dB Max

MPS8099

MPS8599

80

500

100

300

150

MPSA06

MPSA56

80

500

100

100

BC490

80

1000

60

400

BC640

80

500

40

160

60

0.5

BC639 BC489B

200/150 (Typ)

0.3/0.5

80

1000

160

400

100

0.5

BC639−16

BC640−16

80

1000

100

250

60

0.5

BC546B

BC556B

65

100

180

450

150

10

MPSA05

MPSA55

60

500

100

100

MPS2907A

60

600

100

300

200

MPS751

60

2000

75

75

0.5

60

500

40

160

0.5

− MPS651 BC637 −

2N5087

50

50

250

800

40

2.0

BC182B

BC212B

50

100

200

500

200

10

BC237B

BC307B

45

100

200

460

150

10

BC337

BC327

45

800

100

630

210 (Typ)

BC337−16

BC327−16

45

800

100

250

260 (Typ)

BC337−25

BC327−25

45

800

160

400

260 (Typ)

BC337−40

BC327−40

45

800

250

630

260 (Typ)

BC550C

BC560C

45

100

380

800

250 (Typ)

2.5

BC547A

BC557A

45

100

120

220

150

10

BC547B

BC557B

45

100

180

450

150

10

BC547C

BC557C

45

100

380

800

150

10

MPSA18

45

200

500

100

1.5

MPSA20

40

100

40

400

125

40

600

100

300

300

2N4403

40

600

100

300

200

MPS6652

40

1000

50

100

2N3906

40

200

100

300

250

5.0

MPS4250

40

250

800

2.0

30

100

200

450

300 (Typ)

10

30

100

420

800

300

10

MPS2222A 2N4401 2N3904 − BC548B BC548C

BC558C

BC549C

30

100

420

800

MPS2222

30

600

100

300

250

2N5088

30

50

350

50

3.0

2N5089

25

50

450

50

2.0

2N4124

25

200

120

360

300

MPS4124

25

200

120

360

170

5.0

MPS4126

25

200

120

360

170

4.0

MPS5172

25

100

100

500

20

1000

60

65

0.5

BC368

BC369

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 167

Package

TO−226AA, TO−92 Case 29−11

TO−226AA, TO−92 Case 29−11

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors GENERAL−PURPOSE TRANSISTORS (continued)

NPN MPSW06

PNP MPSW56

MPS6717

V(BR)CEO

IC mA Max

Min

80

500

80

80

500

50

hFE

NF

fT MHz Min

dB Max

50

250

100

Max

MPSW05

MPSW55

60

500

60

50

250

MPSW01A

MPSW51A

40

1000

50

50

MPSW01

MPSW51

30

1000

50

50

MPS6726

30

1000

50

250

MMBT5550L

140

600

60

250

100

100

30

50

−0.25

80

100

20

60

0.15

80

500

100

100

− BSS64L

BSS63L −

MMBTA06L

MMBTA56L

MMBT8099L

80

500

100

300

150

BC846AL

65

100

110

220

100

10

BC846BL

65

100

200

450

100

10

BC856AL

65

100

125

250

100

10

BC856BL

65

100

220

475

100

10

MMBT2907AL

60

600

100

300

200

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 168

Package

TO−226AE (1−WATT) TO−92 Case 29−10

TO−236AB, SOT−23 Case 318−08

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors GENERAL−PURPOSE TRANSISTORS (continued)

NPN

IC mA Max

Min

Max

hFE

NF

fT MHz Min

dB Max

PNP

V(BR)CEO

MMBT2484L

60

50

250

3.0

MMBTA05L

60

500

100

100

60

500

100

50

50

200

250

100

3.0 (Typ)

50

50

250

40

2.0

MMBTA55L

MMBT6428L −

− MMBT5087L

MMBT6429L

45

200

500

100

3.0 (Typ)

BC817−16L

45

500

100

250

100

BC817−25L

45

500

160

400

100

BC817−40L

45

500

250

600

100

BC807−16L

45

500

100

250

100

BC807−25L

45

500

160

400

100

BC807−40L

45

500

250

600

100

BC847AL

45

100

110

220

100

10

BC847BL

45

100

200

450

100

10

BC847CL

45

100

420

800

100

10

BC850BL

45

100

200

450

100

4.0

BC850CL

45

100

420

800

100

4.0

BC857AL

45

100

125

250

100

10

BC857BL

45

100

220

475

100

10

BC857CL

45

100

420

800

100

10

BCW68GL

45

800

120

400

100

10

BCW70L

45

100

215

500

10

45

100

200

450

300

10

BCX17L

45

500

100

600

BCW72L

BCX19L

45

500

100

600

MMBT2222AL

40

600

100

300

300

4.0

MMBT3904L

40

200

100

300

200

5.0

40

200

100

300

250

4.0

40

600

100

300

250

40

600

100

300

200

MMBT3906L −

MMBT4401L −

MMBT4403L

MMBT3416L

40

100

75

225

MMBTA70L

40

100

40

400

125

BCW30L

32

100

215

500

10

BCW32L

32

100

200

450

10

BCW65AL

32

800

100

250

100

10

BCW65CL

32

100

250

630

100

10

BC848AL

30

100

110

220

100

10

BC848BL

30

100

200

450

100

10

BC848CL

30

100

420

800

100

10

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 169

Package

TO−236AB, SOT−23 Case 318−08

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors GENERAL−PURPOSE TRANSISTORS (continued)

PNP

V(BR)CEO

IC mA Max

Min

Max

fT MHz Min

BC849BL

30

100

200

450

100

4.0

BC849CL

30

100

420

800

100

4.0

MMBT489L

30

1000

300

900

100

NPN

hFE

NF

dB Max

MMBT589L

30

1000

100

300

100

BC858AL

30

100

125

250

100

10

BC858BL

30

100

220

475

100

10

BC858CL

30

100

420

800

100

10

BC859BL

30

100

220

475

100

4.0

MMBT5088L

30

50

300

900

5

3.0

MMBT2222L

30

600

100

300

250

4.0

MMBT6521L

25

100

300

600

MMBT5089L

25

50

400

1200

50

2.0

MMBT4124L

25

200

120

360

300

5.0

BC818−40L

25

500

250

600

100

− 4.0

MMBT4126L

25

200

120

300

250

BC808−25L

25

500

160

400

100

BCW33L

20

100

420

800

10

MSD601−R

50

100

210

340

MSD602−R

50

500

120

240

50

100

200

400

50

100

200

400

50

100

120

240

MSC2712G − MSC2712Y

MSA1162G −

MSA1162Y

50

100

120

240

MSB710−R

50

500

120

240

MSB709−R

45

100

210

340

MSD1328−R

20

500

200

350

MSD1328−S

20

500

300

500

80

500

100

100

MMBTA06W

MMBTA56W

BC846BW

65

100

200

450

100

10

BC856BW

65

100

220

475

100

10

MMBT2907AW

60

600

100

200

MSD1819A−R

50

100

210

340

BC847AW

45

100

110

220

100

10

BC847BW

45

100

200

450

100

10

BC847CW

45

100

420

800

100

4.0

BC857BW

45

100

220

475

100

10

BC857CW

45

100

420

800

100

10

MSB1218A−R

45

100

210

340

40

600

100

300

250

MMBT4401W −

40

600

100

300

200

40

600

100

300

300

4.0

40

200

100

300

300

5.0

40

200

100

300

250

4.0

30

100

200

450

100

10

BC848CW

30

100

420

800

100

4.0

BC858AW

30

100

110

220

100

10

BC858BW

30

100

200

450

100

10

MMBT2222AW MMBT3904W − BC848BW

MMBT4403W

MMBT3906W

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 170

Package

TO−236AB, SOT−23 Case 318−08

SC−59 Case 318D−04

SC−70, SOT−323 Case 419−04

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors GENERAL−PURPOSE TRANSISTORS (continued)

NPN

PNP

V(BR)CEO

IC mA Max

Min

Max

fT MHz Min

50

100

120

560

180 (Typ)

2SC4617 −

hFE

NF

dB Max −

50

100

120

560

140 (Typ)

45

100

200

450

100

10

BC847CT

45

100

420

800

100

4.0

BC857BT

45

100

220

475

100

10

40

200

100

300

300

5.0

40

200

100

300

250

4.0

40

600

100

300

300

4.0

2SA1774

BC847BT

MMBT3904T −

MMBT3906T −

MMBT2222AT −

2SA2029M3

50

100

120

560

140 (Typ)

BC856BM3

45

100

220

475

100

10

MMBT2907AM3

60

600

100

200

BC846BM3

65

100

200

450

100

10

2SC5658M3

50

100

120

560

180 (Typ)

BC847BM3

45

100

200

450

100

10

40

600

100

300

300

4.0

− BCP56

BCP53

80

1000

40

250

50 (Typ)

BCP56−10

BCP53−10

80

1000

63

160

50 (Typ)

BCP56−16

BCP53−16

80

1000

100

250

50 (Typ)

PZT2907A

60

600

100

300

200

PZT751

60

2000

75

75

PZT651

40

600

100

300

300

BCP69

25

1000

85

375

60 (Typ)

MMBT2131

30

700

150

PZT2222A BCP68

Package

SOT−416, SC−75, SC−90 Case 463−01

SOT−723 Case 631AA−01

SOT−223 Case 318E−04

SO−74 Case 318F−05

− NST489AM

MBT35200M

35

2000

100

400

100

30

3000

300

900

200

NSL12AW

12

2000

100

300

100

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 171

TSOP−6 SINGLE Case 318G−02

SC−88, SOT−363 Case 419B−02

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors GENERAL−PURPOSE MULTIPLE TRANSISTORS

Device

Type

V(BR)CEO

IC mA Max

Min

hFE

NF

Max

fT MHz Min

dB Max

BC846BDW1

Dual NPN

65

100

200

450

100

10

BC856BDW1

Dual PNP

65

100

220

475

100

10

BC846BPDW1

Dual Complementary

65

100

200

475

100

10

BC847BDW1

Dual NPN

45

100

200

290

100

10

BC847CDW1

Dual NPN

45

100

420

520

100

4.0

BC857BDW1

Dual PNP

45

100

220

290

100

10

BC857CDW1

Dual PNP

45

100

420

520

100

10

BC847BPDW1

Dual Complementary

45

100

200

290

100

10

MBT3904DW1

Dual NPN

40

200

100

300

300

5.0

MBT3906DW1

Dual PNP

40

200

100

300

250

4.0

MBT3946DW1

Dual Complementary

40

200

100

300

250

5.0/4.0

MBT2222ADW1

Dual NPN

40

600

100

300

300

4.0

MBT6429DW1

Dual NPN

45

200

500

1250

100

UMZ1N

Dual Complementary

50

200

200

400

114 (Typ)

BC848CDW1

Dual NPN

30

100

420

250

100

4.0

BC848CPDW1

Dual Complementary

30

100

420

520

100

4.0/10

BC847CDXV6

NPN

45

100

420

520

100

EMT1DXV6

Dual PNP

60

100

120

560

140 (Typ)

EMX1DXV6

Dual NPN

50

100

120

560

180 (Typ)

EMX2DXV6

Dual NPN

50

100

120

560

180 (Typ)

EMZ1DXV6

Complementary

60

100

120

560

140 (Typ)

BC847BPDXV6

Complementary

45

100

200

290

100

NST3904DXV6

Dual NPN

40

200

100

300

300

NST3906DXV6

Dual PNP

40

200

100

300

250

NST3946DXV6

Complementary

40

200

100

300

250

NST30010MXV6

Matched Dual PNP

30

100

420

520

100

BC858CDXV6

Dual PNP

30

100

420

520

100

HN1B01FDW1

Complimentary

50

200

200

400

Package

SC−88, SOT−363 Case 419B−02

SOT−563 Case 463A−01

SO−74 Case 318F−05

8 NSS40301MD08

Matched Dual NPN

40

3000

200

500

150

Devices listed in bold italic are ON Semiconductor preferred devices. 1. Devices in bold, samples starting Oct. 2002, production starting Dec. 2002. 2. Remainder of devices, 4 to 8 weeks after receipt of request based on note 1 timetable.

http://onsemi.com 172

1 SOIC−8 Case 751 STYLE 16

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors LOW NOISE AND GOOD HFE LINEARITY

NPN − BC550C

PNP

V(BR)CEO

IC mA Max

Min

50

50

2N5087 BC560C

hFE

NF

Max

fT MHz Min

dB Max

250

800

40

2.0

45

100

380

800

250 (Typ)

2.5

MPSA18

45

200

500

100

1.5

2N5088

30

50

350

50

3.0

2N5089

25

50

450

50

2.0

MMBT2484L

60

50

250

3.0

MMBT6428L

50

200

250

100

3.0 (Typ)

50

50

250

40

2.0

MMBT6429L

45

200

500

100

3.0 (Typ)

MMBT5088L

30

50

300

900

5

3.0

MMBT5089L

25

50

400

50

2.0

MMBT5087L

Package

TO−226AA, TO−92 Case 29−11 (Note 1)

TO−236AB, SOT−23 Case 318−08

Devices listed in bold italic are ON Semiconductor preferred devices. 1. NF: Noise Figure at RS = 2.0 kW, IC = 200 mA, VCE = 5.0 Volts. f = 30 Hz to 15 kHz.

DARLINGTON TRANSISTORS

PNP

V(BR)CEO

IC mA Max

MPSW45A

50

1000

25K

150K

100

1.5

MPSW45

40

1000

25K

150K

100

1.5

MPSW63

30

500

10K

125

1.5

MPSW13

30

1000

10K

125

1.5

MPSA29

100

500

10K

125

1.5

BC372

100

1000

10K

160K

100

1.1

BC373

80

1000

10K

160K

100

1.1

60

500

10K

1.5

55

1000

10K

50K

150

1.1

40

500

10K

1.5

NPN

MPSA27 BC618

MPSA77 −

MPSA75

hFE Min

NF

Max

fT MHz Min

dB Max

2N6427

40

500

20K

200K

1.5

2N6426

40

500

30K

300K

125

1.5

MPSA14

MPSA64

30

500

20K

125

1.5

MPSA13

MPSA63

30

500

10K

125

1.5

BC517

30

1000

30K

200 (Typ)

1.0

MMBT6427L

40

500

20000

200000

10

30

300

20K

125

30

300

10000

125

30

500

10000

125

80

1000

2000

MMBTA14L MMBTA13L −

BSP52

MMBTA64L − MMBTA63L

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 173

Package

TO−226AE (1−WATT) TO−92 Case 29−10

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

SOT−223 Case 318E−04

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors HIGH CURRENT TRANSISTORS (w 500 mA)

NPN

PNP

V(BR)CEO

IC mA Max

Min

Max

hFE

fT MHz Min 200/150

NF

dB Max

BC489

BC490

80

1000

60

400

BC639

BC640

80

500

40

160

60

0.5

80

1000

100

250

100

0.5

BC489A

(Typ)

0.3/0.5

BC639−16

BC640−16

80

1000

100

250

60

0.5

MPS8099

MPS8599

80

500

100

300

150

MPSA06

MPSA56

80

500

100

100

MPS651

MPS751

60

2000

75

75

0.5

60

500

40

160

0.5

MPSA55

60

500

100

100

MPS2907A

60

600

100

300

200

P2N2907A

60

600

100

300

200

PN2907A

60

600

100

300

200

BC337

BC327

45

800

100

630

210 (Typ)

BC337−25

BC327−25

45

800

160

400

260 (Typ)

BC337−40

BC327−40

45

800

250

630

260 (Typ)

MPS650

MPS750

40

2000

40

75

40

600

100

300

300

BC637 MPSA05

MPS2222A

40

600

100

300

200

P2N2222A

40

600

100

300

300

PN2222A

40

600

100

300

300

MPS6652

40

1000

50

100

PN2222

30

600

100

300

250

MPS2222

30

600

100

300

250

MPS6560

25

500

50

200

60

MPS6601

25

1000

50

100

2N4401

2N4403

BC368

BC369

20

1000

60

65

0.5

MPSW06

MPSW56

80

500

80

50

80

500

50

250

100

MPS6717

MPSW05

MPSW55

60

500

60

50

250

MPSW01A

MPSW51A

40

1000

50

50

MPSW01

MPSW51

30

1000

50

50

30

1000

50

250

MPS6726

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 174

Package

TO−226AA, TO−92 Case 29−11

TO−226AE (1−WATT) TO−92 Case 29−10

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors HIGH CURRENT TRANSISTORS (w 500 mA) (continued)

NPN

PNP

V(BR)CEO

IC mA Max

140

600

60

80

500

100

100

80

500

100

300

150

60

600

100

300

200

60

500

100

100

MMBT5550L MMBTA06L

MMBTA56L

MMBT8099L −

− MMBT2907AL

MMBTA05L

hFE Min

NF

Max

fT MHz Min

dB Max

250

MMBTA55L

60

500

100

50

BCW68GL

45

800

120

400

100

10

45

800

160

400

100

10

45

500

100

600

BCW66GL −

BCX17L

BCX19L

45

500

100

600

MMBT2222AL

40

600

100

300

300

4.0

MMBT4401L

40

600

100

300

250

40

600

100

300

200

MMBT4403L

BCW65AL

32

800

100

250

100

10

MMBT2222L

30

600

100

300

250

4.0

BCP56

BCP53

80

1000

40

250

50 (Typ)

BCP56−10

BCP53−10

80

1000

63

160

50 (Typ)

BCP56−16

BCP53−16

80

1000

100

250

50 (Typ)

PZT2907A

60

600

100

300

200

PZT751

60

2000

75

75

40

600

100

300

300

25

1000

85

375

60 (Typ)

40

600

100

300

300

4.0

60

600

100

200

40

600

100

300

300

4.0

300

500

120

200

50

PZT651

PZT2222A BCP68

BCP69

MMBT2222AT

− MMBT2222AW −

MMBT2907AW − MSB92ASW

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 175

Package

TO−236AB, SOT−23 Case 318−08

SOT−223 Case 318E−04

SOT−416, SC−75, SC−90 Case 463−01

SC−70, SOT−323 Case 419−04

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors HIGH VOLTAGE TRANSISTORS (> 100 V)

NPN −

PNP BF493S −

MPSW42 −

V(BR)CEO

IC mA Max

Min

350

500

300

hFE

NF

Max

fT MHz Min

dB Max

40

50

20

500

40

50

0.5

300

500

25

50

0.5

BF393

300

500

40

50

2N5551

160

600

80

250

100

8.0

150

600

60

240

100

8.0

400

300

50

200

350

500

30

200

40

MPSW92

2N5401

MPSA44

2N6517

2N6520

300

500

40

50

0.5

MPSA92

300

500

40

50

0.5

BF423

250

500

50

60

200

500

40

50

200

500

25

50

MPSA42 − BF422 MPSA43

− −

MPSA93

2N5550

160

600

80

100

0.15

2N6515

250

500

50

300

40

0.3

MMBT6517L

350

500

15

40

350

500

15

40

300

500

40

50

300

500

25

50

200

500

40

50

160

600

80

250

150

500

50

100

8.0

MMBT6520L −

MMBTA42L −

MMBTA92L

MMBTA43L MMBT5551L −

MMBT5401L

MMBT5550L

140

600

60

250

PZTA96S

450

500

50

150

BSP19A

350

1000

40

70

PZTA92

300

500

40

50

PZTA96S

450

500

50

150

BSP16

300

1000

30

120

15

BF721

250

100

50

60

PZTA42

BF720

300

150

40

MSB92W

300

500

25

50

MSB92AW

300

500

120

200

50

MSB92ASW

300

500

120

200

50

MSD42W

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 176

Package

TO−226AE (1−WATT) TO−92 Case 29−10

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

SOT−223 Case 318E−04

SC−70, SOT−323 Case 419−04

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors RF TRANSISTORS

PNP

V(BR)CEO

IC mA Max

MPSH10

25

60

650

CRB = 0.65

BF959

20

100

40

600

CRE = 0.65

MPSH17

15

25

250

800

CCB = 0.9

MMBTH10L

25

60

650

CCB = 0.7

MMBTH10−4L

25

120

240

800

CCB = 0.7

MMBT918L

15

50

20

600

COBO = 1.7

BSV52L

12

100

40

120

400

MSC2295−C

20

30

110

220

150

CRE = 1.5

NPN

hFE Min

Max

fT MHz Min

Cap pF Max

Package

(Typ)

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

SC−59 Case 318D−04

Devices listed in bold italic are ON Semiconductor preferred devices.

SWITCHING TRANSISTORS

NPN

PNP

V(BR)CEO

IC mA Max

Min

Max

fT MHz Min

Toff ns Max

hFE

P2N2907A

60

600

100

300

200

110

110

MPS2907A

60

600

100

300

200

2N4401

2N4403

40

600

100

300

200

2N3904

2N3906

40

200

100

300

250

300

P2N2222A

40

600

100

300

300

285

MPS2222A

40

600

100

300

300

285

60

600

100

300

200

100

MMBT2222AL

40

600

100

300

300

285

MMBT3904L

40

200

100

300

300

250

40

200

100

300

250

300

40

600

100

300

250

255

40

600

100

300

200

255

− MMBT4401L −

MMBT2907AL

MMBT3906L − MMBT4403L

MMBT2369L

15

200

40

120

18

MMBT2369AL

15

200

40

120

18

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 177

Package

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors SWITCHING TRANSISTORS

NPN − MMBT3904W −

PNP

V(BR)CEO

IC mA Max

Min

Max

fT MHz Min

Toff ns Max

60

600

100

300

200

100

40

200

100

300

300

250

MMBT2907AW −

hFE

40

200

100

300

250

300

MMBT2222AW

40

600

100

300

300

285

MMBT4401W

40

600

100

300

250

255

40

600

100

300

200

255

40

200

100

300

300

250

40

200

100

300

250

300

40

600

100

300

300

285

− MMBT3904T − MMBT2222AT

MMBT3906W

MMBT4403W − MMBT3906T −

Package

SC−70, SOT−323 Case 419−04

SOT−416, SC−75, SC−90 Case 463−01

Devices listed in bold italic are ON Semiconductor preferred devices.

MULTIPLE SWITCHING TRANSISTORS

Device

Type

V(BR)CEO

IC mA Max

Min

Max

fT MHz Min

Toff ns Max

hFE

MBT3904DW1

Dual NPN

40

200

100

300

300

250

MBT3906DW1

Dual PNP

40

200

100

300

250

300

MBT3946DW1

Dual Complementary

40

200

100

300

250

250/300

MBT2222ADW1

Dual NPN

40

600

100

300

300

285

HN1B01FDW1

Dual Complementary

50

200

200

400

Package

SC−88, SOT−363 Case 419B−02

SC−74 Case 318F−05

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 178

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors C (OUT)

DIGITAL TRANSISTORS (BIAS RESISTOR TRANSISTORS) B (IN)

These devices include bias resistors on the semiconductor chip with the transistor. See the BRT diagram for orientation of resistors.

NPN

PNP

V(BR)CEO

IC mA Max

hFE Min

R1

R2

W

W

MUN2211

MUN2111

50

100

35

10K

10K

MUN2212

MUN2112

50

100

60

22K

22K

MUN2213

MUN2113

50

100

80

47K

47K

MUN2214

MUN2114

50

100

80

10K

47K

MUN2215

50

100

160

10K

MUN2216

50

100

160

4.7K

MUN2230

50

100

3.0

1.0K

1.0K

50

100

15

4.7K

4.7K

MUN2233

50

100

80

4.7K

47K

MUN2234

50

100

80

22K

47K

MUN2237

50

100

80

47K

22K

50

100

160

47K

MUN2232

MUN2240

MUN2132

MMUN2211L

MMUN2111L

50

100

35

10K

10K

MMUN2212L

MMUN2112L

50

100

60

22K

22K

MMUN2213L

MMUN2113L

50

100

80

47K

47K

MMUN2214L

MMUN2114L

50

100

80

10K

47K

MMUN2215L

MMUN2115L

50

100

160

10K

MMUN2216L

MMUN2116L

50

100

160

4.7K

50

100

8.0

2.2K

2.2K

MMUN2231L MMUN2232L

MMUN2132L

50

100

15

4.7K

4.7K

MMUN2233L

MMUN2133L

50

100

80

4.7K

47K

50

100

80

22K

47K

50

100

160

2.2K

MUN5211

MUN5111

50

100

35

10K

10K

MUN5212

MUN5112

50

100

60

22K

22K

MUN5213

MUN5113

50

100

80

47K

47K

MUN5214

MUN5114

50

100

80

10K

47K

MUN5215

50

100

160

10K

MUN5230

50

100

3.0

1.0K

1.0K

MUN5131

50

100

8.0

2.2K

2.2K

MUN5232

MUN5132

50

100

15

4.7K

4.7K

MUN5233

MUN5133

50

100

80

4.7K

47K

MUN5235

MUN5135

50

100

80

2.2K

47K

MMUN2234L MMUN2238L

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 179

R1

E (GND)

Package

SC−59 Case 318D−04

TO−236AB, SOT−23 Case 318−08

SC−70, SOT−323 Case 419−04

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors C (OUT)

DIGITAL TRANSISTORS (BIAS RESISTOR TRANSISTORS) (continued) B (IN)

These devices include bias resistors on the semiconductor chip with the transistor. See the BRT diagram for orientation of resistors.

NPN

PNP

DTC114EE

DTA114EE

V(BR)CEO

IC mA Max

hFE Min

R1

R2

50

100

35

10K

10K

W

W

50

100

60

22K

22K

DTC144EE

DTA144EE

50

100

80

47K

47K

DTC114YE

DTA114YE

50

100

80

10K

47K

DTC114TE

DTA114TE

50

100

160

10K

DTC143TE

DTA143TE

50

100

160

4.7K

50

100

8.0

2.2K

2.2K

DTC124EE

DTC123EE DTC143EE

DTA143EE

50

100

15

4.7K

4.7K

DTC143ZE

DTA143ZE

50

100

80

4.7K

4.7K

50

100

80

22K

47K

50

100

80

2.2K

47K

DTC124XE

DTC123JE DTC115EE

DTA115EE

50

100

80

100K

100K

DTC114EM3

DTA114EM3

50

100

35

10K

10K

DTC124EM3

DTA124EM3

50

100

60

22K

22K

DTC144EM3

DTA144EM3

50

100

80

47K

47K

DTC114YM3

DTA114YM3

50

100

80

10K

47K

DTC114TM3

DTA114TM3

50

100

160

10K

DTC143TM3

DTA143TM3

50

100

160

4.7K

DTC123EM3

DTA123EM3

50

100

8.0

2.2K

2.2K

DTC143EM3

DTA143EM3

50

100

15

4.7K

4.7K

DTC143ZM3

DTA143ZM3

50

100

80

4.7K

4.7K

DTC124XM3

DTA124XM3

50

100

80

22K

47K

50

100

80

2.2K

47K

DTC115EM3

DTA115EM3

50

100

80

100K

100K

DTC144WM3

DTA144WM3

50

100

80

47K

22K

DTC144TM3

DTA144TM3

50

100

160

47K

DTC123JM3

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 180

R1

E (GND)

Package

SOT−416, SC−75, SC−90 Case 463−01

SOT−723 Case 631AA−01

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors DUAL DIGITAL TRANSISTORS (BIAS RESISTOR TRANSISTORS)

These devices include bias resistors on the semiconductor chip with the transistor. See the BRT diagram for orientation of resistors.

NPN MUN5211DW1

PNP MUN5111DW1

MUN5212DW1

R1

B (IN)

V(BR)CEO

IC mA Max

hFE Min

R1

R2

50

100

35

10K

10K

50

100

60

22K

22K

W

W

MUN5213DW1

MUN5113DW1

50

100

80

47K

47K

MUN5214DW1

MUN5114DW1

50

100

80

10K

47K

MUN5215DW1

MUN5115DW1

50

100

160

10K

MUN5216DW1

MUN5116DW1

50

100

160

4.7K

50

100

3.0

1.0K

1.0K

MUN5230DW1 MUN5232DW1

MUN5132DW1

50

100

15

4.7K

4.7K

MUN5233DW1

MUN5133DW1

50

100

80

4.7K

47K

MUN5235DW1

MUN5135DW1

50

100

80

2.2K

47K

NSBC114EDXV6

NSBA114EDXV6

50

100

35

10K

10K

50

100

60

22K

22K

NSBC124EDXV6 NSBC144EDXV6

NSBA144EDXV6

50

100

80

47K

47K

NSBC114YDXV6

NSBA114YDXV6

50

100

80

10K

10K

NSBC114TDXV6

50

100

160

10K

NSBC143ZDXV6

50

100

80

4.7K

4.7K

NSBA123JDXV6

50

100

80

2.2K

47K

NSBA115EDXV6

50

100

80

100K

100K

15

600

100

2.2K

NSBC115EDXV6

IMH20TR1

Devices listed in bold italic are ON Semiconductor preferred devices. 1. Devices in bold, samples starting Oct. 2002, production starting Dec. 2002. 2. Remainder of devices, 4 to 8 weeks after receipt of request based on note 1 timetable.

http://onsemi.com 181

C (OUT)

E (GND)

Package

SC−88, SOT−363 Duals Case 419B−02

SOT−563 Duals Case 463A−01

SC−74 Case 318F−05

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors COMBINATIONAL DIGITAL TRANSISTORS (BIAS RESISTOR TRANSISTORS)

These devices include bias resistors on the semiconductor chip with the transistor. See the BRT diagram for orientation of resistors.

B (IN)

R1

V(BR)CEO

IC mA Max

hFE Min

Q1

Q2

MUN5311DW1

50

100

35

MUN5211

MUN5111

MUN5312DW1

50

100

60

MUN5212

MUN5112

MUN5313DW1

50

100

80

MUN5213

MUN5113

MUN5314DW1

50

100

80

MUN5214

MUN5114

Device

Type

50

100

160

MUN5215

MUN5115

MUN5316DW1

50

100

160

MUN5216

MUN5116

MUN5330DW1

50

100

3.0

MUN5230

MUN5130

MUN5333DW1

50

100

80

MUN5233

MUN5133

MUN5335DW1

50

100

80

MUN5235

MUN5135

MUN5315DW1

Dual Complementary

UMC3N

Dual Common Base Collector

50

100

35

4.7K/10K

47K/47K

UMC5N

Dual Common Base Collector

50

100

20

47K/∞

47K/∞

Dual Common Emitter

50

100

80

4.7K/47K

4.7K/47K

EMC3DXV5

Dual Common Base Collector

50

100

35

10K/10K

10K/10K

EMC4DXV5

Dual Common Base Collector

50

100

80

10K/47K

4.7K/47K

EMC5DXV5

Dual Common Base Collector

50

100

35

4.7K/10K

4.7K/47K

EMG2DXV5

Dual Common Base, Common Emitter

50

100

80

4.7K/47K

4.7K/47K

Dual Common Base Collector

50

100

4.7K/4.7K

10K/10K

Dual Complementary

50

100

80

10K/47K

47K/47K

Dual

50

100

2.2K/47K

10K/10K

NSB1706DMW5

NSB1010XV5 EMD4DXV6 NSB1011XV6

Devices listed in bold italic are ON Semiconductor preferred devices. 1. Devices in bold, samples starting Oct. 2002, production starting Dec. 2002. 2. Remainder of devices, 4 to 8 weeks after receipt of request based on note 1 timetable.

http://onsemi.com 182

C (OUT)

E (GND)

Package

SC−88, SOT−363 Case 419B−02

SC−88A, SOT−353 SC70−5 Case 419A−02

SOT−553 Case 463B−01

SOT−563 Case 463A−01

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors (3)

COMPLEX DIGITAL TRANSISTORS

These devices include bias resistors on the semiconductor chip with the transistor. See the BRT diagram for orientation of resistors.

(2)

(1)

R1

Q1

Q2

R2 (4)

(6)

(5)

Switching Transistor hFE

V(BR)CEO V

IC (mA) Max

Min

EMF5XV6

12

500

EMF18XV6

60

100

Device

Digital Transistor Max

hFE Min

R1 W

R2 W

270

680

80

47K

47K

120

560

80

47K

47K

Devices listed in bold italic are ON Semiconductor preferred devices. 1. Devices in bold, samples starting Oct. 2002, production starting Dec. 2002. 2. Remainder of devices, 4 to 8 weeks after receipt of request based on note 1 timetable.

http://onsemi.com 183

Package

SOT−563 Case 463A−01

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors LOW SATURATION VOLTAGE TRANSISTORS hFE @ 1.0 A Max

ft MHz Min

VCE(sat) @ 1.0 A Max

200

500

150

0.070

200

500

150

0.095

4

200

500

150

0.060

4

200

500

150

0.090

1

2

100

500

100

0.200

30

1

2

100

500

100

0.300

20

2

4

200

500

150

0.050

20

2

4

200

500

150

0.080

12

2

4

200

500

150

0.055

12

2

4

200

500

150

0.080

30

0.7

2

150

500

100

0.250

NSS30070MR6

30

0.7

2

150

500

100

0.250

NSS35200MR6

35

2

5

100

400

100

0.150

NSS30201MR6

30

2

5

200

900

100

0.150

NSS20201MR6

20

2

5

200

900

100

0.150

NSS20300MR6

20

2

5

100

400

100

0.150

40

6

6

225

500

100

0.065

NPN

PNP

NSS60201L NSS60200L NSS40201L −

− NSS40200L

NSS30101L − NSS20201L − NSS12201L − NSS30071MR6

− NSS40601CF8

NSS30100L − NSS20200L − NSS12200L

V(BR)CEO

IC DC A Max

IC Peak A Max

Min

60

2

4

60

2

4

40

2

40

2

30

NSS40600CF8

40

6

6

220

500

100

0.065

NSS35200CF8

35

2

7

100

400

100

0.150

20

6

6

250

500

100

0.050

20

6

6

220

500

100

0.060

12

6

6

250

500

100

0.050

12

6

6

210

500

100

0.060

40

5

6

250

500

100

0.045

40

5

6

250

500

100

0.080

NSS20601CF8 − NSS12601CF8 − NSS40501UW3 −

− NSS20600CF8 − NSS12600CF8 − NSS40500UW3

NSS20501UW3

20

5

6

250

500

100

0.045

NSS20500UW3

20

5

6

250

500

100

0.090

NSS12501UW3

12

5

6

250

500

100

0.045

NSS12500UW3

12

5

6

250

500

100

0.070

NSS40200UW6

40

2

4

150

500

100

0.120

Package

TO−236AB, SOT−23 Case 318−08 STYLE 6

SC−74 Case 318F−05 STYLE 2

TSOP−6 Single Case 318G−02 STYLE 6

ChipFETt Case 1206A−03 STYLE 4

WDFN3 Case 506AU−01

WDFN6 Case 506AS−01

NSS12200MW6

12

1

2

200

500

150

0.280

NSS12200W

12

2

3

100

300

100

0.290

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 184

SC−88, SOT−363 Case 419B−02 STYLE 20

ON Semiconductor Selector Guide − Bipolar Transistors

Bipolar Transistors LOW SATURATION VOLTAGE TRANSISTORS (continued)

NPN

PNP

V(BR)CEO

IC DC A Max

NSS12100XV6

12

1

hFE @ 1.0 A

IC Peak A Max

Min

2

200

Max

ft MHz Min

VCE(sat) @ 1.0 A Max

500

150

0.280

Package

SOT−563 Case 463A−01

NJD2873

50

2

3

120

360

65

0.300 DPAK Case 369C−01

NSS40301MZ4

40

3

5

200

500

150

0.045

NSS40300MZ4

40

3

5

200

500

150

0.050

NSS60301MZ4

60

3

5

200

500

150

0.060

NSS60300MZ4

60

3

5

200

500

150

0.065

NSB9435

30

3

5

125

500

110

0.210

SOT−223 Case 318E−04

Devices listed in bold italic are ON Semiconductor preferred devices.

LOW SATURATION VOLTAGE MULTIPLE TRANSISTORS hFE Device NSS40301MD08

Type

V(BR)CEO

IC DC

IC Peak

Min

Max

ft

VCE(sat)

40

3

4

200

500

150

0.044

Matched Dual NPN

Package 8 1 SOIC−8 Case 751

LOAD SWITCH TRANSISTORS (Low Saturation Voltage Transistors with BRT Driver)

NPN − −

PNP EMF5XV6 EMF18XV6

hFE @ 1.0 A

V(BR)CEO

IC DC A Max

IC Peak A Max

Max

ft MHz Min

VCE(sat) @ 0.1 A Max

Min

12

0.1

0.5

270

680

0.250

600

0.1

0.5

120

560

0.400

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 185

Package

SOT−563 Case 463A−01

ON Semiconductor Selector Guide − Bipolar Transistors

http://onsemi.com 186

FETs

http://onsemi.com 187

http://onsemi.com 188

ON Semiconductor Selector Guide − FETs

FETs Table of Contents

In Brief…

Page JFETS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 190 High−Frequency Amplifiers . . . . . . . . . . . . . . . . . . . . . 190 Switches and Choppers . . . . . . . . . . . . . . . . . . . . . . . 190 Low−Frequency/Low Noise . . . . . . . . . . . . . . . . . . . . 191 MOSFET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 189 SOT−723 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT−723 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT−563 Complementary . . . . . . . . . . . . . . . . . . . . . 192 SOT−563 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . 192 SOT−563 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC−75 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC−75 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC−89 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 SC−89 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 WDFN6 Complementary . . . . . . . . . . . . . . . . . . . . . . . 192 WDFN6 FETKY® N−Channel . . . . . . . . . . . . . . . . . . 192 WDFN6 FETKY® P−Channel . . . . . . . . . . . . . . . . . . . 192 WDFN6 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 192 WDFN6 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 WDFN6 P−Channel Load Switch . . . . . . . . . . . . . . . . 193 SC−88 Complementary . . . . . . . . . . . . . . . . . . . . . . . . 193 SC−88 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 SC−88 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 SC−88 P−Channel Load Switch . . . . . . . . . . . . . . . . . 193 SC−70 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 SC−70 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 TSOP−6 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 194 TSOP−6 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 194 TSOP−6 P−Channel Load Switch . . . . . . . . . . . . . . . 194 TSSOP−8 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . 194 SOT−23 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 SOT−23 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 ChipFET™ Complementary . . . . . . . . . . . . . . . . . . . . 195 ChipFET™ FETKY® N−Channel . . . . . . . . . . . . . . . . 195 ChipFET™ FETKY® P−Channel . . . . . . . . . . . . . . . . 195 ChipFET™ N−Channel . . . . . . . . . . . . . . . . . . . . . . . . 195 ChipFET™ P−Channel . . . . . . . . . . . . . . . . . . . . . . . . 195 Micro8™ FETKY® P−Channel . . . . . . . . . . . . . . . . . . 195 Micro8™ P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 195 DFN 6 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 DFN 6 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 DFN 8 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 SOT−223 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . 196 SOT−223 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . 196 SO−8 Complementary . . . . . . . . . . . . . . . . . . . . . . . . . 196 SO−8 FETKY® N−Channel . . . . . . . . . . . . . . . . . . . . 196 SO−8 FETKY® P−Channel . . . . . . . . . . . . . . . . . . . . 196 SO−8 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196 SO−8 P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 197 SO−8FL N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 197 DPAK N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 197 DPAK P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 198 D2PAK N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199 D2PAK P−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199 TO−92 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 200 TO−220AB N−Channel . . . . . . . . . . . . . . . . . . . . . . . . 200 TO−220AB P−Channel . . . . . . . . . . . . . . . . . . . . . . . . 200 TO−247 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 200 TO−264 N−Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . 200 Product Replacement Table . . . . . . . . . . . . . . . . . . . . 201 Protected MOSFETs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209

ÑÑÑÑ ÑÑÑÑÑÑÑÑÑÑÑÑ ÑÑ ÑÑÑÑ ÑÑÑÑÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑ ÑÑÑÑ ÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑ ÑÑÑÑÑÑÑÑÑÑÑ ÑÑÑÑÑÑ ÑÑ Product Summary Product

MOSFET

Description

Power and Small Signal (8.0 to 250 V)

Page

Surface Mount

192

Through−Hole

200

What’s New For . . . Computing – MOSFETs for Desktop and Notebook PCs, Workstations, Graphic Cards, Hard Disk Drives, Game Consoles ON Semiconductor has introduced an enhanced portfolio of 30 V MOSFETs utilizing our latest Trench technology providing up to a 54% reduction in RG. These products are available in two packages: DPAK (including IPAK and IPAK with trimmed leads) and our leading edge SO−8FL flat lead power package. The new 30 V DPAK devices include the NTD4809NH, NTD4810NH, NTD4813NH, and NTD4815NH. The new 30 SO−8FL devices include the NTMFS4837NH, NTMFS4839NH, and NTMFS4841NH. Digital Consumer − MOSFETS for Cell Phones, Digital Still Cameras, Media Players, PDAs, Portable Games, Battery Packs, MP3 Players, GPS, USB, Modems, Radio, Set−Top Boxes. Addressing the industry’s needs for thinner, smaller, faster, and cooler devices for portable devices, ON Semiconductor is pleased to announce the following 20 V NTGD3133P, 20 V NTGS3443T, and 30 V NTGS4111P additions to the TSOP−6 family. ON Semiconductor has also expanded it’s SOT−723 offering with the addition of the 20 V NTK3043N, NTK3134N, NTK3139P, and NTK3142P. The devices feature low IGSS < 1.0 mA, ESD protected gates, RDS(on) 1.5 VGS rated, and an ultra−low profile of 0.50 mm for slim designs. Automotive − MOSFETs for Entertainment, Power Train, Safety and Control, Comfort and Convenience, Body Electronics. ON Semiconductor has released a line of 40 V low RDS(on) devices targeted for ABS applications including the NTB5404N, NTB5405N, NTD5406N, and NTD5407N.

How To Use This Selector Guide 1. Choose the Product Type (MOSFET). 2. Choose the Package Type, i.e, DPAK, SOT−23. 3. Choose the Channel Polarity* (i.e., N, P, Complementary). 4. Choose the Voltage Level. 5. View the Elctrical Specifications and Find the Device Number. *Configuration Codes: S = Single, D = Dual, C = Complementary, F = FETKY, L = Load Switch, Q = Quad

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ON Semiconductor Selector Guide − FETs

Junctional Field−Effect Transistors JFETs HIGH−FREQUENCY AMPLIFIERS Re ťYfsť mmho Min

Re ťYosť mmho Max

Ciss pF Max

Crss pF Max

NF dB Max

VGSS VGDO Volts Min

Min

Max

Min

Max

MPF102

1.6

200

7.0

3.0

25

8.0

2.0

20

2N5486

3.5

100

5.0

1.0

4.0

25

2.0

6.0

8.0

20

J309

12 (Typ)

250 (Typ)

7.5

2.5

1.5 (Typ)

25

1.0

4.0

12

30

J310

12 (Typ)

250 (Typ)

7.5

2.5

1.5 (Typ)

25

2.0

6.5

24

60

MMBF5457L

1.0

50

7.0

3.0

4.0

25

0.5

6.0

1.0

5.0

MMBF5484L

3.0

50

5.0

1.0

3.0

25

0.3

3.0

1.0

5.0

MMBFJ309L

10

250

5.0

2.5

4.0

25

1.0

4.0

12

30

MMBFJ310L

8.0

250

5.0

2.5

4.0

25

2.0

6.5

24

60

MMBFU310L

10

250

5.0

2.5

4.0

25

2.5

6.0

24

60

MMBF4416L

4.5

50

4.0

0.8

2.0

30

6.0

5.0

15

N−Channel

VGS(off) Volts

IDSS mA Package

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

Devices listed in bold italic are ON Semiconductor preferred devices.

SWITCHES AND CHOPPERS Ciss pF Max

Crss pF Max

VGSS VGDO Volts Min

VGS(off) Volts

IDSS mA

P−Channel

RDS(on) W Max

Min

Max

Min

Max

ton ns Max

J112

50

28

5.0

35

1.0

5.0

5.0

MPF4392

60

10

3.5

30

25

75

15

35

25

5.0

30

15

55

N−Channel

8.0

toff ns Max

2N5639

60

10

4.0

30

MPF4393

100

10

3.5

30

J110

18

25

0.5

4.0

10

2N5638

30

10

4.0

30

50

4.0

5.0

J111

30

28

5.0

35

3.0

10

20

BSR58L

60

28

5.0

40

0.8

4.0

8.0

80

MMBF4391L

30

10

3.5

30

4.0

10

50

150

MMBF4392L

60

10

3.5

30

2.0

5.0

25

75

MMBF4393L

100

10

3.5

30

0.5

3.0

5.0

30

(Typ)

12 (Typ)

MMBFJ175L

125

11

5.5

30

3.0

6.0

7.0

60

MMBFJ177L

300

30

0.8

2.5

1.5

20

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 190

Package

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

ON Semiconductor Selector Guide − FETs

Junctional Field−Effect Transistors JFETs LOW−FREQUENCY/LOW−NOISE

P−Channel

Re ťYfsť @ 1 kHz mmho Min

Min

Max

Min

Max

2N5457

1.0

50

7.0

3.0

25

0.5

6.0

1.0

5.0

2N5458

1.5

50

7.0

3.0

25

1.0

7.0

2.0

9.0

N−Channel

Re ťYosť @ 1 kHz mmho Max

Ciss pF Max

Crss pF Max

VGSS VGDO Volts Min

VGS(off) Volts

IDSS mA

2N5460

1.0

75

7.0

2.0

40

0.75

6.0

1.0

5.0

2N5461

1.5

75

7.0

2.0

40

1.0

7.5

2.0

9.0

2N5462

2.0

75

7.0

2.0

40

1.8

9.0

4.0

16

4.5

30

0.5

7.5

3.0

7.0

1.0

75

7.0

2.0

40

0.8

6.0

1.0

5.0

BF256A −

− MMBF5460L

BFR30L

1.0

40

5.0

1.5

25

5.0

4.0

10

BFR31L

1.5

20

5.0

1.5

25

2.5

1.0

5.0

Devices listed in bold italic are ON Semiconductor preferred devices.

http://onsemi.com 191

Package

TO−226AA, TO−92 Case 29−11

TO−236AB, SOT−23 Case 318−08

ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount VDSS (V)

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

RDS(on) Max (W) @ VGS = 10 V

4.5 V/ 5.0 V

2.5 V/ 2.7 V

1.8 V/ 1.65 V

3.4

4.5

0.4

0.5

0.5 0.3

Max Rating ID (A)

PD (W)

10.0

0.255

0.4

NTK3043N

S

0.7

0.890

0.5

NTK3134N

S

0.7

1.0

0.780

0.5

NTK3139P

S

0.5

10.0

0.260

0.4

NTK3142P

S

0.55/0.9

0.7/1.2

0.9/2.0

1.5/1.7

0.57/ 0.455

0.3

NTZD3155C

C

0.55

0.07

0.90

1.5

0.570

0.3

NTZD3154N

D

0.90

1.20

2.00

1.7

0.455

0.3

NTZD3152P

D

0.15

0.20

0.24

5.6

0.950

0.2

NTZS3151P

S

3.000

3.500

0.238

0.3

NTA4001N

S

0.230

0.275

0.915

0.3

NTA4153N

S

7.000

7.500

0.154

0.3

NTA7002N

S

0.360

0.450

1.000

2.1

0.760

0.3

NTA4151P

S

0.230

0.275

0.700

1.8

0.915

0.3

NTE4153N

S

0.360

0.450

1.000

2.1

0.760

0.3

NTE4151P

S

0.065/ 0.100

.075/ 0.135

0.120/0.200

3.800

3.3

NTLJD3119C

C

0.065

0.075

0.120

3.7

3.800

1.5

NTLJF3118N

F

0.070

0.090

0.125/ 0.250

5.4

4.600

1.5

NTLJF4156N

F

0.100

0.135

0.200

5.5

3.300

1.5

NTLJF3117P

F

0.070

0.090

0.125/ 0.0250

5.4

4.600

1.5

NTLJD4116N

D

0.035

0.045

0.055

8.5

7.800

1.9

NTLJS4114N

S

0.035

0.045

0.055

12.1

7.800

1.9

NTLJS4159N

S

Device

Config.

SOT−723 − Case 631AA N−Channel 20 P−Channel 20 SOT−563 − Case 463A Complementary 20 N−Channel 20 P−Channel 20 SC−75 − Case 463 N−Channel 20 30

0.070

1.8

P−Channel 20 SC−89 − Case 463C N−Channel 20 P−Channel 20

WDFN6 2*2*.75 (mCoolt) − Case 506AN Complementary 20 FETKY® N−Channel 20

FETKY® P−Channel 20 N−Channel

30

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ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) VDSS (V)

2.5 V/ 2.7 V

1.8 V/ 1.65 V

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

0.100

0.135

0.200

5.5

4.100

1.5

NTLJD3115P

D

0.040

0.050

0.075/0.2

13.0

7.700

1.9

NTLJS3113P

S

0.050

0.060

0.1

4.300

1.6

NTLJD2105L

L

0.900

1.3/2.2

0.63/ 0.755

0.3

NTJD4105C

C

0.25/ 0.88

0.3

NTJD4158C

C

1.3

0.630

0.3

NTJD4401N

D S

RDS(on) Max (W) @ VGS = 10 V

4.5 V/ 5.0 V

Max Rating ID (A)

PD (W)

Device

Config.

WDFN6 2*2*.75 (mCoolt) − Case 506AN P−Channel 20 P−Channel Load Switch 20 SC−88 (SOT−363) − Case 419B Complementary 20 V/8 V

0.375/ 0.3

0.455/ 0.46

30 V/20 V

1.5/ 0.260

2.5/0.500

0.375

0.445

0.060

0.070

6.9

3.200

1.0

NTJS3157N

0.350

0.040

0.8

1.200

0.6

NTJS4405N

S

1.500

2.500

0.9

0.250

0.3

NTJD4001N

D

2.8

2.600

1.0

NTJS4160N

S

N−Channel 20 25 30

0.060

0.085

0.085

P−Channel 8

0.300

0.460

0.900

2.2

0.775

0.3

NTJD2152P

D

12

0.060

0.090

0.160

8.6

3.300

0.6

NTJS3151P

S

0.260

0.500

1.000

2.2

0.880

0.4

NTJD4152P

D

0.060

0.085

0.205

10.0

4.200

1.0

NTJS4151P

S

0.175

0.220

0.320

1.300

0.4

NTJD1155L

L

20 P−Channel Load Switch 8

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ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) RDS(on) Max (W) @ VGS =

VDSS (V)

10 V

4.5 V/ 5.0 V

1.00

1.40

2.5 V/ 2.7 V

1.8 V

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

ID (A)

PD (W)

1.4

0.300

0.2

MMBF2201N

S

Max Rating Device

Config.

SC−70 − Case 419 N−Channel 20 25

0.35

0.40

1.2

0.700

0.3

NTS4409N

S

30

1.50

2.00

0.9

0.270

0.3

NTS4001N

S

0.10

0.14

6.4

1.400

0.3

NTS2101P

S

0.12

0.16

6.4

1.370

0.3

MMBF2202P

S

2.7

0.300

0.2

NTS4101P

S

P−Channel 8 20 2.20

0.21

3.50

TSOP−6 − Case 318G N−Channel 20 30

0.045 0.025

0.055

0.035

8.0

5.100

1.0

NTGS3446

S

12.0

7.000

1.0

NTGS4141N

S

P−Channel 12

20

30

0.075

0.095

7.0

3.300

1.0

NTGS3433

S

0.145

0.200

3.7

2.300

1.1

NTGD3133P

D

0.170

0.280

2.000

1.0

NTGD4161P

D

0.090

0.135

6.2

3.300

1.0

NTGS3441

S

0.110

0.165

3.3

3.160

1.0

NTGS3441P

S

0.065

1.000

7.5

4.400

1.0

NTGS3443

S

0.100

0.170

9.0

3.500

1.0

NTGS3455

S

0.060

0.110

15.3

4.700

1.3

NTGS4111P

S

3.300

0.8

NTGD1100L

L

P−Channel Load Switch 8

0.055

0.070

0.140

0.030

0.038

1.3

6.900

2.0

NTQD6866

D

0.022

0.030

12.5

7.000

1.8

NTQD6968N

D

6.0

0.750

0.4

MGSF1N02L

S

3.5

2.800

1.3

MGSF2N02EL

S

1.4

0.300

0.2

MMBF0201NL

S

2.4

3.200

1.3

NTR4501N

S

6.0

2.100

0.7

MGSF1N03L

S

1.2

0.560

0.8

NTR4003N

S

3.6

2.500

0.7

NTR4503N

S

0.200

0.2

BSS138L

S

7.500

0.115

0.2

2N7002L

S

5.000

0.500

0.2

MMBF170L

S

6.000

0.170

0.2

BSS123L

S

3.700

1.0

NTR2101P

S

TSSOP−8 − Case 948S N−Channel 20 SOT−23 − Case 318 N−Channel 0.090 20

0.130 0.085

1.100

1.400 0.080

0.100 0.110 50 60 100

0.105

0.145 1.500

30

0.115

2.000

0.140 3.500

10.000

P−Channel 8

0.052

0.072

0.120

12.0

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ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

ID (A)

PD (W)

2.2

0.400

0.2

NTR0202PL

S

2.5

1.000

0.4

NTR1P02

S

1.300

0.4

NTR1P02L

S

7.5

3.200

1.3

NTR4101P

S

0.350

6.0

1.950

1.3

NTR4502P

S

10.000

6.0

0.130

0.2

BSS84L

S

RDS(on) Max (W) @ VGS =

VDSS (V)

10 V

4.5 V/ 5.0 V

0.800

1.100

0.180

0.280

2.5 V/ 2.7 V

1.8 V

Max Rating Device

Config.

SOT−23 − Case 318 P−Channel

20

30

0.200

50

0.200

0.350

0.850

0.120

0.210

ChipFETt − Case 1206A Complementary

20

0.08/ 0.115

0.115/ 0.240

2.6/3.0

3.1/2.1

1.1

NTHC5513

C

0.080

0.115/ 0.110

2.3/7.4

3.9/4.4

1.1

NTHD3100C

C

0.045/ 0.080

0.050/ 0.110

7.9/8.9

5.5/4.2

1.1

NTHD3102C

C

0.080

0.115

2.6

2.700

1.1

NTHD4N02F

F

0.080

0.110

7.4

4.400

1.1

NTHD3101F

F

0.155

0.240

3.0

4.400

1.1

NTHD4P02F

F

0.075

0.115

2.6

4.100

1.1

NTHD4508N

D

0.065

0.105

4.0

4.500

1.1

NTHD5904N

D

0.030

0.045

0.070/ 0.15

FETKY® N−Channel 20 FETKY® P−Channel 20

0.170

N−Channel 20

30

12.0

7.200

1.3

NTHS5404

S

0.085

0.140

3.6

3.900

1.1

NTHD4502N

D

0.038

0.050

9.1

6.700

1.3

NTHS4501N

S D

P−Channel 8

20

0.058

0.085

0.160

8.0

4.600

1.1

NTHD2102P

0.025

0.036

0.048

15.0

7.500

1.3

NTHS2101P

S

0.080

0.110

0.170

7.6

4.100

1.1

NTHD4102P

D

0.155

0.240

3.0

2.100

1.1

NTHD4401P

D

0.155

0.260

3.7

3.000

1.1

NTHD5903

D

0.034

0.040

25.0

6.700

1.3

NTHS4101P

S

0.052

0.083

9.7

5.300

1.3

NTHS5441

S

0.065

0.110

7.5

4.900

1.3

NTHS5443

S

0.090

0.150

10.0

3.300

1.4

NTTD4401FR

F

0.090

0.130

10.0

3.200

1.4

NTTS2P02

S

15.0

3.750

1.8

NTTS2P03

S

Micro8t − Case 846A FETKY® P−Channel 20 P−Channel 20 30

0.085

0.135

http://onsemi.com 195

ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) VDSS (V)

RDS(on) Max (W) @ VGS = 4.5 V/ 5.0 V

10 V

2.5 V/ 2.7 V

1.8 V

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

ID (A)

PD (W)

Max Rating Device

Config.

DFN 6 3*3*.85 (mCoolt) − Case 506 N−Channel 20

0.090

0.120

2.1

4.600

1.7

NTLGF3501N

F

0.140

0.225

3.8

3.900

1.6

NTLGF3402P

F

0.031

12.0

9.000

3.2

NTLTD7900ZN

D

1.700

3.2

0.300

0.8

MMFT960

S

0.110

10.6

3.000

2.1

NTF3055−100

S

P−Channel 20

DFN 8 3.3*3.3 (EZFETt) − Case 846C N−Channel 20

0.026

SOT−223 − Case 318E N−Channel 60 60

0.120

7.6

3.000

2.1

NTF3055L108

S

60

0.175

5.1

2.000

2.1

NTF3055L175

S

15.0

10.000

8.3

NTF6P02

S

15.0

5.200

3.1

NTF5P03

S

14.3

2.600

2.3

NTF2955

S

12.0/10.0

5.2/3.4

2.0

NTMD2C02

C

0.075/ 0.300

11.5/14.2

4.100

2.0

MMDF2C03HD

C

0.032

0.040

19.0

6.000

2.0

NTMD6N03

F

0.032

0.040

19.0

6.000

2.0

NTMSD6N303

F

P−Channel 20

0.050

30

0.100

60

0.170

0.070

0.150

SO−8 (MiniMOSt) − Case 751 Complementary .043/ 0.100

20 30

0.070/ 0.200

0.048/ 0.130

FETKY® N−Channel 30

FETKY® P−Channel 20 30

0.090

0.130

0.090

0.015

3.850

2.0

NTMSD2P102

F

16.0

3.850

2.0

NTMSD2P102L

F

0.085

0.125

16.0

3.860

2.0

NTMSD3P102

F

0.085

0.125

16.0

3.860

2.0

NTMSD3P303

F

0.090

0.100

12.5

3.800

2.0

MMDF3N02HD

D

12.0

6.500

2.0

NTMD6N02

D S

N−Channel

20

0.035

0.048

0.040

0.050

11.0

5.900

2.5

NTMS4N01

0.023

0.028

26.0

6.500

2.5

NTMS7N03

S

25

0.100

0.200

10.6

3.600

2.0

MMDF2N02E

D

28

0.0080

0.0098

23.0

14.000

2.5

NTMS4503N

S

0.0600

0.0800

8.0

4.000

2.0

NTMD4N03

D

0.0045

0.0055

45.0

18.000

2.5

NTMS4107N

S

0.0100

0.0140

11.0

12.000

2.3

NTMS4705N

S

0.0120

0.0150

10.0

10.300

2.2

NTMS4706N

S

0.080

0.100

13.9

3.400

2.0

MMDF3N04HD

D

30

40

http://onsemi.com 196

ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) RDS(on) Max (W) @ VGS =

VDSS (V)

10 V

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

ID (A)

PD (W)

Max Rating

4.5 V/ 5.0 V

2.5 V/ 2.7 V

0.500

300.000

12.5

2.000

2.0

MMDF1N05E

D

0.100

0.150

10.0

3.850

2.0

NTMD2P01

D

1.8 V

Device

Config.

SO−8 (MiniMOSt) − Case 751 N−Channel 50

0.300

P−Channel 16 0.160

0.180

15.0

3.300

2.0

MMDF2P02HD

D

0.075

0.095

33.0

5.600

2.5

MMSF3P02HD

S

20

25 30

0.033

0.050

20.0

7.800

2.0

NTMD6P02

D

0.014

0.020

48.0

10.000

2.5

NTMS10P02

S

0.033

0.048

20.0

7.000

2.5

NTMS5P02

S

10.0

2.500

2.0

MMDF2P02E

D

37.9

7.000

2.5

MMSF7P03HD

S

0.250

0.400

0.035

0.050

0.085

0.125

16.0

3.860

2.0

NTMD3P03

D

0.085

0.115

16.0

3.860

2.3

NTMS3P03

S

0.0022

0.0034

47.0

35.000

6.3

NTMFS4108N

S

0.0035

0.0048

37.0

30.000

6.1

NTMFS4119N

S

0.0045

0.0055

33.0

31.000

6.9

NTMFS4120N

S

0.0053

0.0070

24.0

29.000

6.6

NTMFS4121N

S

0.0060

0.0085

23.0

23.000

5.8

NTMFS4122N

S

0.0080

0.0110

11.0

12.300

2.3

NTMFS4701N

S

0.0130

0.0170

7.5

10.200

2.3

NTMFS4707N

S

0.0100

0.0140

10.0

11.500

2.2

NTMFS4708N

S

0.0100

0.0140

10.0

11.000

2.2

NTMFS4744N

S

0.0020

0.0030

39.0

191.000

125.0

NTMFS4833N

S

0.0030

0.0040

32.0

130.000

86.2

NTMFS4834N

S

0.0035

0.0050

22.0

104.000

62.5

NTMFS4835N

S

0.0030

0.0060

20.0

90.000

55.6

NTMFS4836N

S

0.0050

0.0075

14.2

74.000

47.2

NTMFS4837N

S

0.0055

0.0095

13.0

66.000

41.7

NTMFS4839N

S

0.0070

0.0114

11.5

57.000

41.7

NTMFS4841N

S

23.6

32.0

110.0

NTD110N02

S

14.4

30.0

75.0

NTD30N02

S

30.0

80.0

75.0

NTD80N02

S

17.7

32.0

78.1

NTD85N02R

S

21.0

32.0

86.0

NTD95N02R

S

35.000

SO−8FL − Case 488 N−Channel

30

DPAK (TO−252) − Case 369X * N−Channel 0.0046

0.0062

0.0145 24

0.0058

0.0090

0.0052 0.0050

0.0080

http://onsemi.com 197

ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) VDSS (V)

RDS(on) Max (W) @ VGS = 4.5 V/ 5.0 V

10 V

2.5 V/ 2.7 V

1.8 V

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

ID (A)

PD (W)

Max Rating Device

Config.

DPAK (TO−252) − Case 369X * N−Channel

25

30

40

0.0950

0.1300

1.8

14.0

20.8

NTD14N03R

S

0.0450

0.0600

3.8

17.1

22.3

NTD23N03R

S

0.0165

0.0230

5.8

32.0

50.0

NTD40N03R

S

0.0140

0.0230

6.0

45.0

50.0

NTD50N03R

S

0.0105

0.0125

9.5

32.0

58.0

NTD60N02R

S

0.0084

0.0146

12.2

65.0

50.0

NTD65N03R

S

0.0080

0.0130

13.2

32.0

62.5

NTD70N03R

S

0.0060

0.0078

25.5

78.0

64.0

NTD78N03

S

0.0270

13.8

20.0

74.0

NTD20N03L27

S

0.0100

0.0130

55.0

68.0

75.0

NTD4302

S

0.0040

0.0055

30.0

117.0

93.8

NTD4804N

S

0.0050

0.0074

20.5

88.0

66.0

NTD4805N

S

0.0060

0.0094

15.0

76.0

60.0

NTD4806N

S

0.0080

0.0124

11.3

63.0

54.6

NTD4808N

S

0.0090

0.0140

10.7

58.0

52.0

NTD4809N

S

0.0090

0.0125

12.5

58.0

52.0

NTD4809NH

S

0.0100

0.0157

9.0

54.0

50.0

NTD4810N

S

0.0100

0.0167

8.9

54.0

50.0

NTD4810NH

S

0.0130

0.0240

6.9

40.0

35.3

NTD4813N

S

0.0130

0.0259

7.1

40.0

35.3

NTD4813NH

S

0.0150

0.0250

6.0

35.0

32.6

NTD4815N

S

0.0150

0.0277

6.4

35.0

32.6

NTD4815NH

S

10.000

17.000

45.0

70.0

100.0

NTD5406N

S

26.000

40.000

20.0

38.0

75.0

NTD5407N

S

15.3

18.0

55.0

NTD18N06

S

11.0

18.0

55.0

NTD18N06L

S

21.2

20.0

60.0

NTD20N06

S

16.6

20.0

60.0

NTD20N06L

S

24.0

24.0

62.5

NTD24N06

S

0.060 0.065 0.046 0.048 0.042 60

16.0

24.0

62.5

NTD24N06L

S

0.094

0.045

10.9

12.0

48.0

NTD3055−094

S

0.150

7.1

9.0

28.8

NTD3055−150

S

0.104

7.4

12.0

48.0

NTD3055L104

S

0.170

4.7

9.0

28.5

NTD3055L170

S

33.0

32.0

93.8

NTD32N06

S

0.062

23.0

32.0

93.8

NTD32N06L

S

0.165

0.028

14.0

12.0

53.6

NTD12N10

S

0.146

11.3

12.0

56.6

NTD6600N

S

150

0.300

15.0

6.0

20.0

MTD6N15

S

200

0.700

13.7

6.0

50.0

MTD6N20E

S

0.072

15.0

25.0

75.0

NTD25P03L

S

0.072

15.0

25.0

75.0

NTD25P03L

S

100

P−Channel 30

http://onsemi.com 198

ON Semiconductor Selector Guide − FETs MOSFET − Surface Mount (continued) VDSS (V)

RDS(on) Max (W) @ VGS = 4.5 V/ 5.0 V

10 V

2.5 V/ 2.7 V

1.8 V

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

ID (A)

PD (W)

12.0

5.0

40.0

MTD5P06V

S

15.0

15.5

65.0

NTD20P06L

S

15.0

12.0

55.0

NTD2955

S

Max Rating Device

Config.

DPAK (TO−252) − Case 369X * P−Channel 0.450 0.150

60 0.180 D2PAK

(TO−264) − Case 418B

N−Channel 24

25

0.0046

0.0062

23.6

125.0

113.6

NTB125N02R

S

0.0105

0.0125

9.5

65.0

62.5

NTB65N02R

S

0.0058

0.0090

29.0

90.0

85.0

NTB90N02

S

0.0450

0.0600

3.8

23.0

37.5

NTB23N03R

S

0.0080

0.0130

13.2

75.0

74.4

NTB75N03R

S

29.0

85.0

80.0

NTB85N03

S

28.0

74.0

80.0

NTB4302

S

57.0

75.0

125.0

NTB75N03−6

S

0.0068 28

40

0.0093

0.0125

0.0065 0.0080

57.0

75.0

125.0

NTB75N03L09

S

4.5000

7.0000

125.0

136.0

167.0

NTB5404N

S

5.8000

8.0000

88.0

116.0

150.0

NTB5405N

S

12.0

15.0

48.4

NTB18N06

S

7.3

15.0

48.4

NTB18N06L

S

23.4

27.0

88.2

NTB30N06

S

16.0

30.0

88.2

NTB30N06L

S

33.0

45.0

125.0

NTB45N06

S

23.0

45.0

125.0

NTB45N06L

S

62.0

60.0

150.0

NTB60N06

S

43.2

60.0

150.0

NTB60N06L

S

92.0

75.0

214.0

NTB75N06

S

66.0

75.0

214.0

NTB75N06L

S

0.1650

14.0

13.0

64.7

NTB13N10

S

0.0900 0.1000 0.0420 0.0460 60

0.0260 0.0280 0.0140 0.0160 0.0095 0.0110

100

0.0300

72.0

52.0

178.0

NTB52N10

S

150

0.0500

70.0

37.0

178.0

NTB35N15

S

200

0.0810

75.0

30.0

214.0

NTB30N20

S

P−Channel 30

25.000

50.0

125.0

MTB50P03HDL

S

60

80.000

30.0

125.0

MTB30P06V

S

33.0

27.5

120.0

NTB25P06

S

13.0

18.5

88.0

NTB5605P

S

2.0

2.5

MTB2P50E

S

60 60 500

0.075 0.140 6000.000

http://onsemi.com 199

ON Semiconductor Selector Guide − FETs MOSFET − Through Hole VDSS (V)

QT Typ (nC) @ VGS = 4.5 V (5.0 V)/10 V

RDS(on) Max (W) @ VGS = 10 V

4.5 V/ 5.0 V

5.000

6.000

2.5 V/ 2.7 V

1.8 V/ 1.65 V

Max Rating ID (A)

PD (W)

0.200

0.35

2N7000

S

5.000

0.500

0.35

BS170

S

7.500

0.150

0.40

VN2222LL

S

0.250

0.35

BS107

S

0.250

0.35

BS107A

S

0.250

0.35

BS108

S

0.200

0.35

VN2410L

S

23.6

125.0

113.6

NTP125N02R

S

Device

Config.

TO−92 − Case 29 N−Channel 60

14.000 200

28.000

6.000 10.000

240

10.000

TO−220AB − Case 221A N−Channel 0.0046

0.0062

0.0105

0.0125

9.5

65.0

62.5

NTP65N02R

S

0.0058

0.0090

29.0

90.0

85.0

NTP90N02

S

25

0.0080

0.0130

13.0

75.0

74.4

NTP75N03R

S

28

0.0068

29.0

85.0

80.0

NTP85N03

S

0.0065

57.0

75.0

125.0

NTP75N03−6

S

57.0

75.0

125.0

NTP75N03L09

S

12.0

15.0

48.4

NTP18N06

S

7.3

15.0

48.4

NTP18N06L

S

21.2

27.0

88.2

NTP27N06

S

16.0

30.0

88.2

NTP30N06L

S

33.0

45.0

125.0

NTP45N06

S

23.0

45.0

125.0

NTP45N06L

S

62.0

60.0

150.0

NTP60N06

S

43.2

60.0

150.0

NTP60N06L

S

92.0

75.0

214.0

NTP75N06

S

9.3

10.0

40.0

MTP10N10EL

S

24

30

0.0080 0.0900 0.1000 0.0460 0.0460

60

0.0260 0.0280 0.0140 0.0160 0.0095

100

0.2200 0.0300

72.0

52.0

214.0

NTP52N10

S

150

0.0500

70.0

37.0

178.0

NTP35N15

S

200

0.8100

75.0

30.0

214.0

NTP30N20

S

P−Channel 30

74.0

50.0

125.0

MTP50P03HDL

S

0.120

38.0

23.0

90.0

MTP23P06V

S

0.153

14.0

14.0

55.6

NTP2955

S

100

0.300

33.0

12.0

75.0

MTP12P10

S

500

6.000

19.0

2.0

75.0

MTP2P50E

S

85.0

32.000

180.0

MTW32N20E

S

200.0

123.000

313.0

NTY100N10

S

60

0.025

TO−247 − Case 340K N−Channel 200

0.075

TO−264 − Case 340G N−Channel 100

0.010

http://onsemi.com 200

ON Semiconductor Selector Guide − FETs Product Replacements Replacement parts are parts that are equivalent to older versions, but built in newer technologies. PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

2N7000ZL1

2N7000G

ACTIVE

BS107ARLRM

BS107AG

ACTIVE

BS107ARLRP

BS107AG

ACTIVE

BS107RL1

BS107AG

ACTIVE

BS107RLRA

BS107AG

ACTIVE

IRF510

MTP10N10ELG

ACTIVE

IRF520

MTP10N10ELG

ACTIVE

MGSF1N02ELT1

NTR4501NT1G

ACTIVE

MGSF1N02ELT1G

NTR4501NT1G

ACTIVE

MGSF1N02ELT3

NTR4501NT3G

ACTIVE

MGSF1P02ELT1

NTR1P02LT1G

ACTIVE

MGSF1P02ELT3

NTR1P02LT1G

ACTIVE

MGSF1P02LT1

NTR1P02T1G

ACTIVE

MGSF1P02LT1G

NTR1P02T1G

ACTIVE

MGSF1P02LT3

NTR1P02T3G

ACTIVE

MGSF1P02LT3

NTR1P02T3G

ACTIVE

MGSF1P02LT3G

NTR1P02T3G

ACTIVE

MGSF2P02HDT1

NTGS3441T1G

ACTIVE

MGSF3442VT1

NTGS3446T1G

ACTIVE

MGSF3454VT1

NTHS4501NT1G

ACTIVE

MMBF0202PLT1

NTR0202PLT1G

ACTIVE

MMBF0202PLT1G

NTR0202PLT1G

ACTIVE

MMDF2P01HDR2

NTMD3P03R2G

ACTIVE

MMDF2P03HDR2

NTMD3P03R2G

ACTIVE

MMDF3N03HDR2

NTMD4N03R2G

ACTIVE

MMDF4N01HDR2

NTMD6N02R2G

ACTIVE

MMDF4P03HDR2

NTMD3P03R2G

ACTIVE

MMDF6N02HDR2

NTMD6N02R2G

ACTIVE

MMDF6N03HDR2

NTMD6N03R2G

ACTIVE

MMDFS2P102R2

NTMSD3P102R2G

ACTIVE

MMDFS3P303R2

NTMSD3P303R2G

ACTIVE

MMDFS6N303R2

NTMSD6N303R2G

ACTIVE

MMFT2955ET1

NTF2955T1G

ACTIVE

MMFT2955ET1G

NTF2955T1G

ACTIVE

MMFT2955ET3

NTF2955T1G

ACTIVE

MMFT3055ET1

NTF3055−100T1G

ACTIVE

MMFT3055VLT1

NTF3055L108T1G

ACTIVE

MMFT3055VLT1G

NTF3055L108T1G

ACTIVE

MMFT3055VLT3

NTF3055L108T3G

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

MMFT3055VLT3G

NTF3055L108T3G

ACTIVE

MMFT3055VLT3−LF

NTF3055L108T3LFG

ACTIVE

MMFT3055VT1

NTF3055−100T1G

ACTIVE

MMFT3055VT1G

NTF3055−100T1G

ACTIVE

MMFT3055VT3

NTF3055−100T3G

ACTIVE

MMFT3055VT3

NTF3055−100T3G

ACTIVE

MMFT3055VT3G

NTF3055−100T3G

ACTIVE

MMFT5P03HDT3

NTF5P03T3G

ACTIVE

MMSF2P02ER2

NTTS2P02R2G

ACTIVE

MMSF3P03HDR2

NTMS3P03R2G

ACTIVE

MMSF4N01HDR2

NTMS4N01R2G

ACTIVE

MMSF4P01HDR2

NTMS5P02R2G

ACTIVE

MMSF5N02HDR2

NTMS4N01R2G

ACTIVE

MMSF5P02HDR2

NTMS5P02R2G

ACTIVE

MPF9200

BS107G

ACTIVE

MTB1306

NTB75N03L09G

ACTIVE

MTB1306T4

NTB75N03L09T4G

ACTIVE

MTB20N20E

NTB30N20G

ACTIVE

MTB20N20ET4

NTB30N20T4G

ACTIVE

MTB23P06V

NTB25P06G

ACTIVE

MTB23P06VT4

NTB25P06T4G

ACTIVE

MTB29N15E

NTB35N15G

ACTIVE

MTB29N15E1

NTP35N15G

ACTIVE

MTB29N15ET4

NTB35N15T4G

ACTIVE

MTB29N15ET4

NTB35N15T4G

ACTIVE

MTB30N06VL

NTB30N06LT4G

ACTIVE

MTB30N06VLT4

NTB30N06LT4G

ACTIVE

MTB33N10E

NTB52N10G

ACTIVE

MTB33N10ET4

NTB52N10T4G

ACTIVE

MTB36N06V

NTB45N06T4G

ACTIVE

MTB36N06VT4

NTB45N06T4G

ACTIVE

MTB40N10E

NTB52N10T4G

ACTIVE

MTB40N10ET4

NTB52N10T4G

ACTIVE

MTB50N06V

NTB45N06G

ACTIVE

MTB50N06VL

NTB45N06LG

ACTIVE

MTB50N06VLT4

NTB45N06LT4G

ACTIVE

MTB50N06VT4

NTB45N06T4G

ACTIVE

MTB52N06V

NTB60N06G

ACTIVE

MTB52N06VL

NTB60N06LG

ACTIVE

MTB52N06VLT4

NTB60N06LT4G

ACTIVE

MTB52N06VT4

NTB60N06T4G

ACTIVE

MTB55N06Z

NTB75N06G

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

MTB55N06ZT4

NTB75N06T4G

ACTIVE

MTB60N05HDL

NTB75N06LG

ACTIVE

MTB60N05HDLT4

NTB75N06LT4G

ACTIVE

MTB60N06HD

NTB60N06G

ACTIVE

MTB60N06HDT4

NTB60N06T4G

ACTIVE

MTB75N03HDL

NTB75N03L09G

ACTIVE

MTB75N03HDLT4

NTB75N03L09T4G

ACTIVE

MTB75N05HD

NTB75N06G

ACTIVE

MTB75N05HDG

NTB75N06T4G

ACTIVE

MTB75N05HDT4

NTB75N06T4G

ACTIVE

MTB75N05HDT4G

NTB75N06T4G

ACTIVE

MTB75N06HD

NTB75N06G

ACTIVE

MTB75N06HDT4

NTB75N06T4G

ACTIVE

MTD10N10EL

NTD6600NT4G

ACTIVE

MTD10N10ELT4

NTD6600NT4G

ACTIVE

MTD10N10ELT4G

NTD6600NT4G

ACTIVE

MTD1302

NTD4302G

ACTIVE

MTD1302T4

NTD4302T4G

ACTIVE

MTD1312T4

NTD20N03L27T4G

ACTIVE

MTD14N10ET4

NTD6600NT4G

ACTIVE

MTD15N06V

NTD18N06G

ACTIVE

MTD15N06V

NTD18N06G

ACTIVE

MTD15N06VL

NTD18N06LG

ACTIVE

MTD15N06VL

NTD18N06LG

ACTIVE

MTD15N06VL1

NTD18N06L−1G

ACTIVE

MTD15N06VLT4

NTD18N06LT4G

ACTIVE

MTD15N06VT4

NTD18N06T4G

ACTIVE

MTD20N03HDL

NTD20N03L27G

ACTIVE

MTD20N03HDL1

NTD20N03L27−1G

ACTIVE

MTD20N03HDLG

NTD20N03L27G

ACTIVE

MTD20N03HDLT4

NTD20N03L27T4G

ACTIVE

MTD20N03HDLT4G

NTD20N03L27T4G

ACTIVE

MTD20N06HD

NTD24N06G

ACTIVE

MTD20N06HD1

NTD24N06−1G

ACTIVE

MTD20N06HDL

NTD24N06LG

ACTIVE

MTD20N06HDL1

NTD24N06LG

ACTIVE

MTD20N06HDLT4

NTD24N06LT4G

ACTIVE

MTD20N06HDLT4G

NTD24N06LT4G

ACTIVE

MTD20N06HDT4

NTD24N06T4G

ACTIVE

MTD20N06HDT4G

NTD24N06T4G

ACTIVE

MTD20N06V

NTD20N06G

ACTIVE

MTD20P03HDLT4

NTD25P03LT4G

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

MTD20P06HDLG

NTD20P06LG

ACTIVE

MTD20P06HDLT4

NTD20P06LT4G

ACTIVE

MTD20P06HDLT4G

NTD20P06LT4G

ACTIVE

MTD2955ET4

NTD2955T4G

ACTIVE

MTD2955V

NTD2955G

ACTIVE

MTD2955V1

NTD2955−001

ACTIVE

MTD2955V1G

NTD2955−1G

ACTIVE

MTD2955VG

NTD2955G

ACTIVE

MTD2955VT4

NTD2955T4G

ACTIVE

MTD2955VT4G

NTD2955T4G

ACTIVE

MTD3055ELT4

NTD3055L104T4G

ACTIVE

MTD3055V

NTD3055−094G

ACTIVE

MTD3055V1

NTD3055−094−1G

ACTIVE

MTD3055VL

NTD3055L104G

ACTIVE

MTD3055VL1

NTD3055L104−001

ACTIVE

MTD3055VLT4

NTD3055L104T4G

ACTIVE

MTD3055VT4

NTD3055−094T4G

ACTIVE

MTD3302

NTD4302G

ACTIVE

MTD3302T4

NTD4302T4G

ACTIVE

MTD9N10E

NTD12N10G

ACTIVE

MTD9N10E1

NTD12N10G

ACTIVE

MTD9N10ET4

NTD12N10T4G

ACTIVE

MTDF2N06HDR2

NTF3055−100T3G

ACTIVE

MTP10N10E

MTP10N10ELG

ACTIVE

MTP1302

NTP75N03L09G

ACTIVE

MTP15N06V

NTP18N06G

ACTIVE

MTP15N06VL

NTP18N06LG

ACTIVE

MTP20N06V

NTP45N06G

ACTIVE

MTP2955V

NTP2955G

ACTIVE

MTP2955VG

NTP2955G

ACTIVE

MTP29N15E

NTP35N15G

ACTIVE

MTP3055V

NTP18N06G

ACTIVE

MTP3055VL

NTP18N06LG

ACTIVE

MTP30N06VL

NTP30N06LG

ACTIVE

MTP33N10E

NTP52N10G

ACTIVE

MTP36N06V

NTP45N06G

ACTIVE

MTP40N10E

NTP52N10G

ACTIVE

MTP50N06V

NTP45N06G

ACTIVE

MTP50N06VL

NTP45N06LG

ACTIVE

MTP52N06V

NTP60N06G

ACTIVE

MTP52N06VL

NTP60N06LG

ACTIVE

MTP52N06VLG

NTP60N06LG

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

MTP5P06V

MTP23P06VG

ACTIVE

MTP60N06HD

NTP60N06G

ACTIVE

MTP75N03HDL

NTP75N03L09G

ACTIVE

MTP75N06HD

NTP75N06G

ACTIVE

MTSF2P02HDR2

NTTS2P02R2G

ACTIVE

MTSF2P03HDR2

NTTS2P03R2G

ACTIVE

MTW35N15E

NTP35N15G

ACTIVE

MTW45N10E

NTP52N10G

ACTIVE

MTY100N10E

NTY100N10G

ACTIVE

NMFT3055AVLT1

NTF3055L108T1G

ACTIVE

NMFT3055AVLT3

NTF3055L108T1G

ACTIVE

NTB22N06

NTB18N06G

ACTIVE

NTB22N06L

NTB18N06G

ACTIVE

NTB22N06LT4

NTB18N06LT4G

ACTIVE

NTB22N06T4

NTB18N06T4G

ACTIVE

NTB23N03R

NTB23N03RG

ACTIVE

NTB27N06L

NTB30N06LG

ACTIVE

NTB27N06LT4

NTB30N06LT4G

ACTIVE

NTB75N06L

NTB75N06LG

ACTIVE

NTD18N06−001

NTD18N06−1G

ACTIVE

NTD20N06−001

NTD20N06−1G

ACTIVE

NTD24N06L−001

NTD24N06L−1G

ACTIVE

NTD3055L170−001

NTD3055L170−1G

ACTIVE

NTD32N06−001

NTD32N06−1G

ACTIVE

NTD32N06L−001

NTD32N06L−1G

ACTIVE

NTD40N03RT4

NTD40N03RT4G

ACTIVE

NTD4404NT4

NTD4404NT4G

ACTIVE

NTD60N03

NTD70N03RG

ACTIVE

NTD60N03−001

NTD70N03R−001

ACTIVE

NTD60N03T4

NTD70N03RT4G

ACTIVE

NTD85N02R

NTD85N02RG

ACTIVE

NTD85N02R−001

NTD85N02R−1G

ACTIVE

NTD95N02R

NTD95N02RG

ACTIVE

NTD95N02R−001

NTD95N02R−1G

ACTIVE

NTF3055−160T1

NTF3055−100T1G

ACTIVE

NTF3055−160T3

NTF3055−100T3G

ACTIVE

NTF3055−160T3LF

NTF3055−100T3G

ACTIVE

NTGS4111PT1

NTGS4111PT1G

ACTIVE

NTHD3100CT3

NTHD3100CT1G

ACTIVE

NTHD3100CT3G

NTHD3100CT1G

ACTIVE

NTHD3101FT3

NTHD3101FT1G

ACTIVE

NTHD3101FT3G

NTHD3101FT1G

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

NTHD5902T1

NTHD4502NT1G

ACTIVE

NTHD5904NT3

NTHD5904NT1G

ACTIVE

NTHD5904NT3G

NTHD5904NT1G

ACTIVE

NTHD5904T1

NTHD4508NT1G

ACTIVE

NTHD5905T1

NTHD2102PT1G

ACTIVE

NTHS5402T1

NTHS4501NT1G

ACTIVE

NTHS5402T1G

NTHS4501NT1G

ACTIVE

NTHS5445T1

NTHS2101PT1G

ACTIVE

NTJD4105CT4G

NTJD4105CT2G

ACTIVE

NTJS4405NT4

NTJS4405NT4G

ACTIVE

NTMS4P01R2

NTMS5P02R2G

ACTIVE

NTMSD3P102R2

NTMSD3P102R2G

ACTIVE

NTP22N06

NTP18N06G

ACTIVE

NTP22N06L

NTP18N06LG

ACTIVE

NTP27N06L

NTP30N06LG

ACTIVE

NTP3055AV

NTP18N06G

ACTIVE

NTP30N06

NTP45N06G

ACTIVE

NTP75N06L

NTP75N06G

ACTIVE

NTP85N03

NTP85N03G

ACTIVE

NTQD6866R2

NTQD6866R2G

ACTIVE

NTQD6968NR2

NTQD6968NR2G

ACTIVE

NTQD6968R2

NTQD6968NR2G

ACTIVE

NTQD6968R2G

NTQD6968NR2G

ACTIVE

NTR4501NT3

NTR4501NT1G

ACTIVE

NTTD1P02R2

NTTD4401FR2

ACTIVE

NTTD1P02R2G

NTTD4401FR2G

ACTIVE

SBSS138LT3

BSS138LT3G

ACTIVE

SMBF1026LT1

MMBF170LT1G

ACTIVE

SMBF1034LT1

2N7002LT1G

ACTIVE

SMBF1034LT1G

2N7002LT1G

ACTIVE

SMBF1035LT3G

BSS123LT3G

ACTIVE

SMBF1046LT1

2N7002LT1G

ACTIVE

SMBF1049LT1

BSS123LT1G

ACTIVE

SMBF1057LT1

2N7002LT1G

ACTIVE

SMBF1062LT1

BSS123LT1G

ACTIVE

SMFT3355VLT3

NTF3055L108T1G

ACTIVE

SMTD10N10ELT4

NTD12N10T4G

ACTIVE

SMTD10N10ELT4

NTD12N10T4G

ACTIVE

SMTD20P03HDLT4

NTD25P03LT4G

ACTIVE

SMTD2955VT4

NTD2955T4G

ACTIVE

SPF3161KRLRP

2N7000G

ACTIVE

STB23P06VT4

NTB25P06T4G

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

STB30N06VLT4

NTB45N06LT4G

ACTIVE

STB33N10E

NTB52N10T4G

ACTIVE

STB33N10ET4

NTB52N10T4G

ACTIVE

STB36N06VT4

NTB45N06T4G

ACTIVE

STB40N10ET4

NTB52N10T4G

ACTIVE

STB50N06ET4

NTB75N06T4G

ACTIVE

STB50N06VLT4

NTB45N06LT4G

ACTIVE

STB52N06VLT4

NTB60N06LT4G

ACTIVE

STB52N06VT4

NTB60N06T4G

ACTIVE

STB52N06VT4G

NTB60N06T4G

ACTIVE

STB60N06HDT4

NTB60N06G

ACTIVE

STB75N06HDT4

NTB75N06T4G

ACTIVE

STD1003T4

MTD5P06VT4G

ACTIVE

STD1009V−001

NTD3055−094−1G

ACTIVE

STD1009VT4

NTD3055−094T4G

ACTIVE

STD1010ET4

NTD12N10G

ACTIVE

STD1010V

NTD3055L104G

ACTIVE

STD1010VT4

NTD3055L104T4G

ACTIVE

STD1013T4

NTD3055L104T4G

ACTIVE

STD1028T4

NTD18N06T4G

ACTIVE

STD1030−001

NTD3055−150G

ACTIVE

STD1039T4

NTD2955T4G

ACTIVE

STD1040T4

NTD3055L104T4G

ACTIVE

STD1045T4

NTD2955T4G

ACTIVE

STD1057T4

NTB18N06T4G

ACTIVE

STD1066−001

NTD3055L104−001

ACTIVE

STD1068HDL−001

NTD20N06L−001

ACTIVE

STD1069T4

NTD3055−094G

ACTIVE

STD2000T4

NTD3055L104T4G

ACTIVE

STD2002T4

NTD3055−150G

ACTIVE

STD2004−001

NTD2955−001

ACTIVE

STD20P06HDLT4

NTD20P06LT4G

ACTIVE

STD3055VLT4

NTD3055L104T4G

ACTIVE

STD3055VLT4

NTD3055L104T4G

ACTIVE

STD5P06VT4

MTD5P06VT4G

ACTIVE

STD9N10ET4

NTD12N10G

ACTIVE

STDP7222VT4

MTD5P06VT4G

ACTIVE

STP20N06VLF

NTP45N06G

ACTIVE

STP3055VL

NTP18N06LG

ACTIVE

STP30N06EL

NTP30N06LG

ACTIVE

STP36N06V

NTP45N06G

ACTIVE

STP4119

NTD3055−150G

ACTIVE

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ON Semiconductor Selector Guide − FETs PRODUCT REPLACEMENT TABLE Part Number

Recommended New Part Numbers

New Part Status

STP4347

NTP60N06G

ACTIVE

STP4348

NTP60N06LG

ACTIVE

STP4384

NTP18N06LG

ACTIVE

STP4391

NTP18N06LG

ACTIVE

STP50N06V

NTP45N06G

ACTIVE

STP60N06HDLF

NTP60N06LG

ACTIVE

STP8023

NTP45N06LG

ACTIVE

STW1019

NTP35N15G

ACTIVE

VN2222LLRL

VN2222LLRLRAG

ACTIVE

VN2222LLRLRM

VN2222LLRLRAG

ACTIVE

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ON Semiconductor Selector Guide − FETs Automotive and Industrial – ON Semiconductor’s HDPlust platform technology which incorporates various levels of protection features within a MOSFET. The device features can include:

• • • • • • • •

Applications

Short Circuit Protection Current Limit Thermal Shutdown with Automatic Restart Overvoltage Protection ESD Protection Gate−to−Source Protection Current Sense Output Pb−free Package

• • • •

Solenoid Driver Relay Driver Relay Replacement Load Switching

Protected MOSFETs (Automotive/Industrial) Max Rating

Integrated Protection V(BR)DSS (V)

Device

RDS(ON) (W) @ VGS = 10 V

Overvoltage

Overcurrent

Overtemperature

ESD

Current Sense Output

PD (W)

Drain 2, 4, 5

Gate 2

CASE 318G TSOP−6

1

100 kW

6

1 Gate 1 NUD3048M*

100

0.72

3 Source X

0.66

Drain

CASE 508AA (Leadless) SO−8

Main

Gate

Sense NILMS4501N*

24

0.013

*Not Automotive Qualified.

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X

Source X

2.7

ON Semiconductor Selector Guide − FETs

Protected MOSFETs (Automotive/Industrial) (continued) Max Rating

Integrated Protection V(BR)DSS (V)

Device

RDS(ON) (W) @ VGS = 10 V

Overvoltage

Overcurrent

Overtemperature

ESD

Current Sense Output

Drain1

1

NIMD6302R

Gate1

CASE 751 SO−8 “Dual”

8

30

0.05

Mirror

Main FET

Mirror1

Source1

Drain2

Gate2

Main FET

Mirror

Mirror2

X

Source2

X

Drain (Pins 2, 4)

Gate (Pin 1)

CASE 318E SOT−223

RG

MPWR

Overvoltage Protection

PD (W)

1.3

Drain

Gate Input

RG

Overvoltage Protection

MPWR

ESD Protection

ESD Protection

Temperature Limit

Current Limit

Source (Pin 3)

Current Sense

Source

NIF9N05CL

NIF62514, NIF5002N, NIF5003N

NIF9N05CL

55

0.125

X

X

1.69

NIF62514

42

0.1

X

X

X

X

1.7

NIF5002N

42

0.2

X

X

1.1

NIF5003N

42

0.068

X

X

X

X

1.9

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ON Semiconductor Selector Guide − FETs

Protected MOSFETs (Automotive/Industrial) (continued) Max Rating

Integrated Protection V(BR)DSS (V)

Device

RDS(ON) (W) @ VGS = 10 V

Overvoltage

Overcurrent

Overtemperature

ESD

Current Sense Output

Drain (Pins 2, 4) CASE 369C DPAK (TO−252)

Gate (Pin 1)

4 1 2

RG

Drain

Gate Input

MPWR

Overvoltage Protection

PD (W)

RG

Overvoltage Protection

MPWR

ESD Protection

ESD Protection

Temperature Limit

3 Source (Pin 3)

Current Limit

Current Sense

Source NID5001N, 5003N, 5004N, 6002N

NID9N05CL NID9N05CL

55

0.09

X

X

28.8

NID5001N

42

0.029

X

X

64

NID5003N

42

0.05

X

X

1.3

NID6002N

60

0.21

X

X

1.3

NID5004N

40

0.15

X

X

1.3

MLD1N06CL, MLD2N06CL MLD1N06CL

60

0.75 @ VGS = 5.0 V

X

X

X

40

MLD1N06CL

62

0.4 @ VGS = 5.0 V

X

X

X

40

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ON Semiconductor Selector Guide − FETs

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Circuit Protection

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ON Semiconductor Selector Guide − Circuit Protection

Circuit Protection Table of Contents

In Brief… Page

What’s New for Integrated Functions

Circuit Protection Transient Voltage/ESD Protection . . . . . . . . . . . . . . . 217 TVS Arrays in Surface Mount . . . . . . . . . . . . . . . . 217 TVS Low Capacitance Surface Mount for USB 2.0 and 1.1 . . . . . . . . . . . . . . . . . . . . . . 221 TVS Low Capacitance Surface Mount for High Speed Data Lines . . . . . . . . . . . . . . . . 223 TVS (Transient Voltage Suppressors) . . . . . . . . . . . . . . . 224 Axial Leaded . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 224 500 Watt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 224 600 Watt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225 1500 Watt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226 Surface Mount Packages . . . . . . . . . . . . . . . . . . . . . . 228 200 Watt (POWERMITE®) . . . . . . . . . . . . . . . . . . . 228 200 Watt (SOD−123FL) . . . . . . . . . . . . . . . . . . . . . 229 400 Watt (SMA) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230 600 Watt (SMB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 232 1500 Watt (SMC) . . . . . . . . . . . . . . . . . . . . . . . . . . . 238 TVS/ESD Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . 240 One Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 240 Two Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 243 Four Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 246 Five Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 248 Low Capacitance TVS/ESD Protection . . . . . . . . . . . 249 One Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 249 Two Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 250 Four Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 251 Eight Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 255 EMI Filter Circuits Data Line Protection . . . . . . . . . . . . . . . . . . . . . . . . 256 Audio Line Protection . . . . . . . . . . . . . . . . . . . . . . . 261 USB DATA Line Protection . . . . . . . . . . . . . . . . . . . 262

TVS Protection Arrays − ON Semiconductor miniaturizes its TVS array products by introducing the industry’s smallest TVS array. The NUP45V6 series in the ultra small SOT−953 package provides electrostatic discharge (ESD) protection of four data lines in wireless and portable applications. Other recently released products include the NUP2202 and NUP4202 low capacitance arrays for USB 2.0 applications. EMI Filters − ON Semiconductor is the leading provider of integrated EMI Filter Products designed to suppress EMI radio frequency interference (RFI) noise and provide electrostatic discharge (ESD) Protection for advanced Wireless Cell Phones, Portable electronics and Computing applications. We have released more than 25 new products in miniature DFN/WDFN packages in 2005. Our next generation EMI filter packages will be available in Low profile (typical 0.5 mm height) miniature mDFN includes 4−channel (NUF4001MU), 6−channel (NUF6001MU) and 8−channel (and NUF8001MU) provides superior filtering performance over traditional CSP or BGA Package due to low parasitic Inductance and reliability in terms of handling and solderability.

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ON Semiconductor Selector Guide − Circuit Protection

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ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Arrays in Surface Mount • Human Body Model ESD Rating (u16 kV) • IEC 61000−4−2 (ESD) 15 kV (air) 8 kV (contact) • Eight Line Protection Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

Nom

Max

8

5.3

IR

VRWM

(mA)

(mA)

(V)

CASE 506AK DFN8

1

NUP8010MN

@ IT

5.6

5.9

1.0

1.0

3.3

Capacitance (pF) @ 0 V, 1.0 MHz

Typ

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 1)

IPP (A)

VC (V)

Watts

1

8

2

7

3

6

4

5

13

17

1.6

13

20

• Five Line Protection 6

CASE 318F STYLE 1 SC−74 PLASTIC

1

SMS05C

6.2

7.2

1.0

5.0

5.0

260

24

14.5

350

SMS12C

13.3

15

1.0

1.0

12

120

15

23

350

SMS15C

17

19

1.0

1.0

15

95

12

29

350

SMS24C

26.7

32

1.0

1.0

24

60

8.0

44

350

6

5

4

1

2

CASE 419B SC−88 (SOT−363)

3

SMF05C

6.2

7.2

1.0

5.0

5.0

80

8.0

12.5

100

SMF12C

13.3

15

1.0

1.0

12

40

6.0

23

100

SMF15C

17

19

1.0

1.0

15

33

5.0

29

100

SMF24C

26.7

32

1.0

1.0

24

21

2.5

44

100

1. Surge waveform 8 x 20 msec.

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ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Arrays in Surface Mount (continued) • Human Body Model ESD Rating (u16 kV) • IEC 61000−4−2 (ESD) 15 kV (air) 8 kV (contact) • Five Line Protection Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

1

6.2

6.8

Typ

CASE 463A SOT−563

6

NUP5120X6

Capacitance (pF) @ 0 V, 1.0 MHz

7.2

1.0

0.5

3.0

54

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 2)

IPP (A)

VC (V)

Watts

90

• Four Line Protection 6

CASE 318F STYLE 1 SC−74 PLASTIC

1

1

6

2

5

3

4

MMQA5V6

5.32

5.6

5.88

1.0

2.0

3.0

257

3.0

8.0

150

MMQA6V2

5.89

6.2

6.51

1.0

0.7

4.0

225

2.66

9.0

150

MMQA6V8

6.46

6.8

7.14

1.0

0.5

4.3

210

2.45

9.8

150

MMQA12V

11.4

12

12.6

1.0

0.075

9.1

117

1.39

17.3

150

MMQA13V

12.4

13

13.7

1.0

0.075

9.8

108

1.29

18.6

150

MMQA15V

14.3

15

15.8

1.0

0.075

11

93

1.1

21.7

150

MMQA18V

17.1

18

18.9

1.0

0.075

14

77

0.923

26

150

MMQA20V

19

20

21

1.0

0.075

15

69

0.84

28.6

150

MMQA22V

20.9

22

23.1

1.0

0.075

17

63

0.758

31.7

150

MMQA24V

22.8

24

25.2

1.0

0.075

18

58

0.694

34.6

150

MMQA27V

25.7

27

28.4

1.0

0.075

21

50

0.615

39

150

MMQA30V

28.5

30

31.5

1.0

0.075

23

40

0.554

43.3

150

MMQA33V

31.4

33

34.7

1.0

0.075

25

42

0.504

48.6

150

SMS05

6.0

7.2

1.0

20

5.0

300

400

23

15.5

350

SMS12

13.3

15

1.0

1.0

12

120

150

15

23

350

SMS15

16.7

18.5

1.0

1.0

15

100

125

12

29

350

SMS24

26.7

32

1.0

1.0

24

60

75

8.0

44

350

2. Surge waveform 8 x 20 msec.

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ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Arrays in Surface Mount (continued) • Human Body Model ESD Rating (u16 kV) • IEC 61000−4−2 (ESD) 15 kV (air) 8 kV (contact) • Four Line Protection Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance (pF) @ 0 V, 1.0 MHz

Typ

4

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 3)

IPP (A)

VC (V)

Watts

1

5 1

CASE 419A SC−88A (SOT−353)

3

2

5

2 4

3

MSQA6V1W5

6.1

6.6

7.2

1.0

1.0

3.0

90

150

NSQA6V8AW5

6.4

6.8

7.1

1.0

1.0

5.0

12

15

1.6

13

20

NSQA12VAW5

11.4

12

12.7

5.0

0.05

9.0

7.0

15

0.9

23

20

SMF05

6.0

7.2

1.0

5.0

5.0

90

12

12.5

200

11.4

75

5

6

4

1 DF6A6.8FU

6.4

2

CASE 419B SC−88 (SOT−363)

3

6.8

7.2

1.0

1.0

5.0

1

6

2

5

3

4

40

7.0

1 CASE 463B SOT−553

5 1

5

2 4

3

NZQA5V6XV5

5.32

5.6

5.88

1.0

1.0

3.0

90

10

10.5

100

NZQA6V2XV5

5.89

6.2

6.51

1.0

0.5

4.0

80

9.0

11.5

100

NZQA6V8XV5

6.46

6.8

7.14

1.0

0.1

4.3

70

8.0

12.5

100

NZQA5V6AXV5

5.3

5.6

5.9

1.0

1.0

3.0

13

17

1.6

13

20

NZQA6V8AXV5

6.1

6.8

7.2

1.0

1.0

3.0

12

15

1.6

13

20

6

CASE 463A SOT−563

1

D1

GND

D2

D3

GND

VCC

NUP4060AXV6 (D1, D2, and D3)

6.2

6.8

7.2

1.0

0.5

3.0

7.0

10

1.6

13

20

NUP4060AXV6 (VCC)

15.3

16

17.1

5.0

0.05

11

105

0.200

3. Surge waveform 8 x 20 msec.

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ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Arrays in Surface Mount (continued) • Human Body Model ESD Rating (u16 kV) • IEC 61000−4−2 (ESD) 15 kV (air) 8 kV (contact) • Four Line Protection Breakdown Voltage VBR @ 1 mA (V)

Device

Min

Nom

Leakage Current IRM @ VRM

Max

VRWM

Typ Capacitance @ 0 V (pF) (Note 4) Typ

IRWM (mA)

Max

1

Typ Capactiance @ 3 V Bias (pF) (Note 4) Typ

Max

5

2

CASE 526AB SOT−953

3

4

NUP45V6P5

5.3

5.6

5.9

3.0

1.0

13

17

7.0

11.5

NUP46V8P5

6.47

6.8

7.14

4.3

1.0

12

15

6.7

9.5

NUP412VP5

11.4

12

12.7

9.0

1.0

6.5

10

3.5

5.0

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 4)

IPP (A)

VC (V)

Watts

Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance (pF) @ 0 V, 1.0 MHz

Typ

Max 6

6

4

CASE 463A SOT−563

1

2, 5 3 1

NUP4102XV6

13.6

17.8

1.0

0.1

12

13

15

3.0

A1

B2

A3 6.0

7.0

8.0

1.0

75

C1

CASE 766AB 5 PIN FLIP−CHIP CSP

NUP4103FC

25

0.1

3.3

C3 47

• Two Line Protection 3 1 NUP2105L

PIN 1

CASE 318 SOT−23

PIN 3 PIN 2

2 26.2

32

1.0

0.1

24

4. Surge waveform 8 x 20 msec.

http://onsemi.com 220

30

8.0

44

350

ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Low Capacitance Surface Mount for USB 2.0 and 1.1 • ESD Protection Meeting IEC 61000−4−2, 4−4, 4−5 Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz

Typ

CASE 751 SO−8

8 1

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

1

8

2

7

3

6

4

5

USB 2.0 NUP4201DR2

6.0

1.0

10

5.0

2.5

5.0

10

12

500

SRDA05−4R2

6.0

1.0

10

5.0

4.0

8.0

10

12

500

15

2000

CASE 751 SO−8

8 1

USB 1.1 LC03−6

6.8

6

1.0

20

5.0

8.0

12

50

I/O 1

54 12

CASE 318G TSOP−6

3

6 I/O 5 VCC

GND 2

4 I/O

1/O 3

USB 2.0 NUP4301MR6

70

0.1

2.5

0.8

1.5

NUP4302MR6

30

0.1

30

18

6

5

4

1

2

CASE 318F TSOP−6

3

I/O 1

6 I/O

VP 2

5 VN

1/O 3

4 I/O

USB 2.0 NUP4304MR6

70

0.1

2.5

*Cj = Between I/O pins

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0.8

1.5

ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Low Capacitance Surface Mount for USB 2.0 and 1.1 (continued) • ESD Protection Meeting IEC 61000−4−2, 4−4, 4−5 Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

6

Nom

Max

54

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz

Typ

CASE 318G TSOP−6

3 12

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

I/O 1

6 I/O

VN 2

5 VP

I/O 3

4 I/O

USB 2.0 NUP4201MR6

6.0

6

1.0

5.0

5.0

3.0

54

1

CASE 419B SC−88

23

5.0

25

20

I/O 1

6 I/O

VN 2

5 VP

I/O 3

4 I/O

500

USB 2.0 NUP4202W1

6.0

6

54

1.0

5.0

5.0

3.0

CASE 318G TSOP−6

3 12

5.0

28

20

I/O 1

6 I/O

VN 2

5 VP

N/C 3

4 N/C

500

USB 2.0 NUP2201MR6

6.0

6

1.0

54

5.0

5.0

3.0

CASE 419B SC−88

3 12

5.0

25

20

I/O 1

6 I/O

VN 2

5 VP

N/C 3

4 N/C

500

USB 2.0 NUP2202W1

6.0

1.0

5.0

5.0

*Cj = Between I/O pin to ground

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3.0

5.0

28

20

500

ON Semiconductor Selector Guide − Circuit Protection

TVS Protection − Low Capacitance Surface Mount for USB 2.0 and 1.1 (continued) • ESD Protection Meeting IEC 61000−4−2, 4−4, 4−5 Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

6

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz

Typ

54 12

CASE 419B SC−88

3

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

VN

1

6

N/C

I/O

2

5

I/O

VP

3

4

N/C

USB 2.0 NUP2301MW6

70

0.1

2.5

0.8

CASE 318 SOT−23

CATHODE 2

ANODE 1

3 1

1.5

3 CATHODE/ANODE

2

USB 2.0 NUP1301ML3

70

0.1

2.5

0.8

1.5

Max Reverse Surge Current

Max Reverse Voltage @ IPP = 5 A (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

*Cj = Between I/O pins

TVS Protection − Low Capacitance Surface Mount for High Speed Data Lines • ESD Protection Meeting IEC 61000−4−2, 4−4, 4−5 Max Reverse Leakage Current

Breakdown Voltage Device

VBR (V) Min

Nom

Max

3

@ IT

IR

VRWM

(mA)

(mA)

(V)

2

Typ

Max

2

CASE 318 STYLE 26 SOT−23

1

Capacitance (pF) @ 0 V, 1.0 MHz

1 3 (NC)

SL05

6.0

8.0

1.0

20

5.0

3.5

5.0

17

11

300

SL15

16.7

18.5

1.0

1.0

15

3.5

5.0

10

30

300

SL24

26.7

29

1.0

1.0

24

3.5

5.0

5.0

55

300

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Axial Leads Table 1. Peak Power Dissipation, 500 Watts @ 1 ms Surge (10 x 1000 ms) Case 59 − MiniMOSORBE CASE 59 (MiniMOSORB™) PLASTIC Cathode = Polarity Band

! ” #$!%&##! %%&'(#()!# ” )”

ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) VF = 3.5 V Max, IF = 35 A Pulse (except bidirectional devices).

Breakdown Voltage

Working Peak Reverse

VBR

Voltage

(Volts)

VRWM (Volts) (Note 1)

Device

Min (Note 2)

Max

Maximum

Maximum

Maximum

Reverse

Reverse Surge

Reverse Voltage

Current IRSM

@ IT

Leakage

Pulse

@ VRWM

(mA)

IR (mA)

(Amps) (Note 3)

(Clamping Voltage)

@ IRSM VRSM (Volts)

5

SA5.0A

6.4

7

10

600

54.3

9.2

6

SA6.0A

6.67

7.37

10

600

48.5

10.3

7

SA7.0A

7.78

8.6

10

150

41.7

12

9

SA9.0A

10

11.1

1

1

32.5

15.4

10

SA10A

11.1

12.3

1

1

29.4

17

12

SA12A

13.3

14.7

1

1

25.1

19.9

13

SA13A

14.4

15.9

1

1

23.2

21.5

15

SA15A

16.7

18.5

1

1

20.6

24.4

16

SA16A

17.8

19.7

1

1

19.2

26

17

SA17A

18.9

20.9

1

1

18.1

27.6

18

SA18A

20

22.1

1

1

17.2

29.2

20

SA20A

22.2

24.5

1

1

15.4

32.4

24

SA24A

26.7

29.5

1

1

12.8

38.9

26

SA26A

28.9

31.9

1

1

11.9

42.1

28

SA28A

31.1

34.4

1

1

11

45.4

30

SA30A

33.3

36.8

1

1

10.3

48.4

33

SA33A

36.7

40.6

1

1

9.4

53.3

36

SA36A

40

44.2

1

1

8.6

58.1

51

SA51A

56.7

62.7

1

1

6.1

82.4

64

SA64A

71.1

78.6

1

1

4.9

103

170

SA170A

189

209

1

1

1.8

275

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Axial Leads (continued) Table 1. Peak Power Dissipation, 500 Watts @ 1 ms Surge (10 x 1000 ms) Case 59 − MiniMOSORB] (continued)

! ” #$!%&##! %%&'(#()!# ” )”

CASE 17 PLASTIC Cathode = Polarity Band

ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) VF = 3.5 V Max, IF = 50 A Pulse (except bidirectional devices).

Breakdown

Working Peak

Voltage (Note 2) VBR (Volts)

@ IT Pulse

Reverse

Maximum

Maximum

Maximum

Voltage

Reverse

Reverse Surge

Reverse Voltage

VRWM

Leakage

Current IRSM

(Volts) (Note 1)

@ VRWM

@ IRSM (Clamping Voltage)

IR (mA)

(Amps) (Note 3)

Nom

(mA)

6.8 7.5

10 10

P6KE6.8A P6KE7.5A

5.8 6.4

1000 500

57 53

10.5 11.3

10 12 13

1 1 1

P6KE10A P6KE12A P6KE13A

8.55 10.2 11.1

10 5 5

41 36 33

14.5 16.7 18.2

15 16 18 20

1 1 1 1

P6KE15A P6KE16A P6KE18A P6KE20A

12.8 13.6 15.3 17.1

5 5 5 5

28 27 24 22

21.2 22.5 25.2 27.7

22 24 27 30

1 1 1 1

P6KE22A P6KE24A P6KE27A P6KE30A

18.8 20.5 23.1 25.6

5 5 5 5

20 18 16 14.4

30.6 33.2 37.5 41.4

33 36 39 43

1 1 1 1

P6KE33A P6KE36A P6KE39A P6KE43A

28.2 30.8 33.3 36.8

5 5 5 5

13.2 12 11.2 10.1

45.7 49.9 53.9 59.3

47 51 56 62

1 1 1 1

P6KE47A P6KE51A P6KE56A P6KE62A

40.2 43.6 47.8 53

5 5 5 5

9.3 8.6 7.8 7.1

64.8 70.1 77 85

68 75 82 100

1 1 1 1

P6KE68A P6KE75A P6KE82A P6KE100A

58.1 64.1 70.1 85.5

5 5 5 5

6.5 5.8 5.3 4.4

92 103 113 137

150 160 170 180 200

1 1 1 1 1

P6KE150A P6KE160A P6KE170A P6KE180A P6KE200A

128 136 145 154 171

5 5 5 5 5

2.9 2.7 2.6 2.4 2.2

207 219 234 246 274

Device

VRSM (Volts)

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Axial Leads (continued) Table 1. Peak Power Dissipation, 500 Watts @ 1 ms Surge (10 x 1000 ms) Case 59 − MiniMOSORB] (continued)

CASE 41A PLASTIC Cathode = Polarity Band

! ” #$!%&##! %%&'(#()!# ” )”

ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) VF = 3.5 V Max, IF = 100 A Pulse) ELECTRICAL CHARACTERISTICS (C suffix denotes standard back to back bidirectional versions. Test both polarities) Clamping Voltage Max Reverse StandOff Voltage VRWM (Volts) (Note 1)

JEDEC Device

5 5 12

1N5908 1N6373 1N6376

15 18 36

1N6377

Breakdown Voltage

1N6380

Maximum Reverse Surge Current IRSM (Volts) (Note 3)

Maximum Reverse Voltage @ IRSM (Clamping Voltage) VRSM (Volts)

Peak Pulse Current @ Ipp1 = 1 A VC1 (Volts max)

Peak Pulse Current @ Ipp2 = 10 A VC2 (Volts max)

VBR Volts Min (Note 2)

@ IT Pulse (mA)

Maximum Reverse Leakage @ VRWM IR (mA)

ICTE-5 ICTE-12

6 6 14.1

1 1 1

300 300 2

120 160 70

8.5 9.4 21.2

7.6 @ 30 A 7.1 16.1

8 @ 60 A 7.5 16.5

ICTE-15 ICTE-18 ICTE-36

17.6 21.2 42.4

1 1 1

2 2 2

60 50 23

25 30 65.2

20.1 24.2 50.6

20.6 25.2 54.3

Device

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Axial Leads (continued) Table 2. Peak Power Dissipation, 1500 Watts @ 1 ms Surge (10 x 1000 ms) Case 41A − MOSORB

CASE 41A PLASTIC Cathode = Polarity Band

! ” #$!%&##! %%&'(#()!# ” )”

ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) VF = 3.5 V Max, IF = 100 A Pulse Breakdown Voltage (Note 2) VBR Volts

Working Peak Reverse Voltage VRWM (Volts) (Note 1)

Maximum Reverse Leakage @ VRWM IR (mA)

Maximum Reverse Surge Current IRSM (Amps) (Note 3)

Maximum Reverse Voltage @ IRSM (Clamping Voltage) VRSM (Volts)

Nom

@ IT Pulse (mA)

6.8 8.2

10 10

1N6267A

1.5KE6.8A 1.5KE8.2A

5.8 7.02

1000 200

143 124

10.5 12.1

10 11 12 13

1 1 1 1

1N6271A

1N6274A

1.5KE10A 1.5KE11A 1.5KE12A 1.5KE13A

8.55 9.4 10.2 11.1

10 5 5 5

103 96 90 82

14.5 15.6 16.7 18.2

15 16 18 20

1 1 1 1

1N6275A 1N6276A 1N6277A 1N6278A

1.5KE15A 1.5KE16A 1.5KE18A 1.5KE20A

12.8 13.6 15.3 17.1

5 5 5 5

71 67 59.5 54

21.2 22.5 25.2 27.7

22 24 27 30

1 1 1 1

1N6279A 1N6280A 1N6281A 1N6282A

1.5KE24A 1.5KE27A 1.5KE30A

18.8 20.5 23.1 25.6

5 5 5 5

49 45 40 36

30.6 33.2 37.5 41.4

33 36 39 43

1 1 1 1

1N6283A 1N6284A 1N6285A 1N6286A

1.5KE33A 1.5KE36A 1.5KE39A 1.5KE43A

28.2 30.8 33.3 36.8

5 5 5 5

33 30 28 25.3

45.7 49.9 53.9 59.3

47 51 56 62

1 1 1 1

1N6287A 1N6288A 1N6289A 1N6290A

1.5KE47A 1.5KE51A 1.5KE56A 1.5KE62A

40.2 43.6 47.8 53

5 5 5 5

23.2 21.4 19.5 17.7

64.8 70.1 77 85

68 75 82 91

1 1 1 1

1N6291A 1N6292A

1.5KE68A 1.5KE75A 1.5KE82A 1.5KE91A

58.1 64.1 70.1 77.8

5 5 5 5

16.3 14.6 13.3 12

92 103 113 125

100

1

1N6295A

85.5

5

11

137

JEDEC Device

1N6294A

Device

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount Table 3. 1PMT Series Unidirectional Overvoltage Transient Suppressors, 200 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TL = 30°C unless otherwise noted) (VF = 1.25 Volts @ 200 mA) VRWM (V) Device

Marking

(Note 1)

VBR @ IT (V) (Note 2) Min

Nom

Max

IT

IR @ VRWM

VC @ IPP

IPP (A)

(mA)

(mA)

(V)

(Note 3)

POWERMITE) CASE 457 PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1PMT5.0A 1PMT7.0A 1PMT12A 1PMT16A

MKE MKM MLE MLP

5.0 7.0 12 16

6.4 7.78 13.3 17.8

6.7 8.2 14 18.75

7.0 8.6 14.7 19.7

10 10 1.0 1.0

800 500 5.0 5.0

9.2 12 19.9 26

19 14.6 8.8 7.0

1PMT22A 1PMT26A

MLX MME

22 26

24.4 28.9

25.6 30.4

26.9 31.9

1.0 1.0

5.0 5.0

35.5 42.1

4.9 4.2

1PMT33A

MMM

33

36.7

38.7

40.6

1.0

5.0

53.3

3.3

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 4. SMF Series Unidirectional Overvoltage Transient Suppressors, 200 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TL = 30°C unless otherwise noted) (VF = 1.25 Volts @ 200 mA) VRWM (V) Device

Marking

(Note 1)

VBR @ IT (V) (Note 2) Min

Nom

Max

IT

IR @ VRWM

VC @ IPP

IPP (A)

(mA)

(mA)

(V)

(Note 3)

SOD−123FL CASE 498 PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” SMF5.0A SMF6.0A SMF6.5A SMF7.0A

KE KG KK KM

5.0 6.0 6.5 7.0

6.4 6.67 7.22 7.78

6.7 7.02 7.6 8.2

7.0 7.37 7.98 8.6

10 10 10 10

400 400 250 100

9.2 10.3 11.2 12

16.3 14.6 13.4 12.5

SMF7.5A SMF8.0A SMF9.0A

KP KR KV

7.5 8.0 9.0

8.33 8.89 10

8.77 9.36 10.55

9.21 9.83 11.1

1.0 1.0 1.0

50 25 5.0

12.9 13.6 15.4

11.6 11 9.7

SMF10A SMF11A SMF12A SMF13A

KX KZ LE LG

10 11 12 13

11.1 12.2 13.3 14.4

11.7 12.85 14 15.15

12.3 13.5 14.7 15.9

1.0 1.0 1.0 1.0

2.5 2.5 2.5 1.0

17 18.2 19.9 21.5

8.8 8.2 7.5 7.0

SMF14A SMF15A

LK LM

14 15

15.6 16.7

16.4 17.6

17.2 18.5

1.0 1.0

1.0 1.0

23.2 24.4

6.5 6.1

SMF17A SMF18A SMF20A SMF22A

LR LT LV LX

17 18 20 22

18.9 20 22.2 24.4

19.9 21 23.35 25.6

20.9 22.1 24.5 26.9

1.0 1.0 1.0 1.0

1.0 1.0 1.0 1.0

27.6 29.2 32.4 35.5

5.4 5.1 4.6 4.2

SMF24A SMF26A SMF28A SMF30A

LZ ME MG MK

24 26 28 30

26.7 28.9 31.1 33.3

28.1 30.4 32.8 35.1

29.5 31.9 34.4 36.8

1.0 1.0 1.0 1.0

1.0 1.0 1.0 1.0

38.9 42.1 45.4 48.4

3.9 3.6 3.3 3.1

SMF33A SMF36A SMF40A SMF43A

MM MP MR MT

33 36 40 43

36.7 40 44.4 47.8

38.7 42.1 46.8 50.3

40.6 44.2 49.1 52.8

1.0 1.0 1.0 1.0

1.0 1.0 1.0 1.0

53.3 58.1 64.5 69.4

2.8 2.6 2.3 2.2

SMF45A SMF48A SMF51A SMF54A

MV MX MZ NE

45 48 51 54

50 53.3 56.7 60

52.65 56.1 59.7 63.15

55.3 58.9 62.7 66.3

1.0 1.0 1.0 1.0

1.0 1.0 1.0 1.0

72.7 77.4 82.4 87.1

2.1 1.9 1.8 1.7

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. TVS − in Surface Mount (continued)

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 5. 1SMA Series Unidirectional Overvoltage Transient Suppressors; 400 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) (VF = 3.5 Volts @ IF = 40 A for all types) (Note 4)

Device

Working Peak Reverse Voltage VRWM (Volts) (Note 1)

Breakdown Voltage VBR Volts (Min) (Note 2)

IT mA

Maximum Reverse Voltage @ IRSM (Clamping Voltage) VC (Volts)

Maximum Reverse Surge Current IPP (Amps) (Note 3)

Maximum Reverse Leakage @ VRWM IR (mA)

Device Marking

SMA CASE 403B PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1SMA5.0A 1SMA6.0A 1SMA6.5A

5.0 6.0 6.5

6.4 6.67 7.22

10 10 10

9.2 10.3 11.2

43.5 38.8 35.7

400 400 250

QE QG QK

1SMA8.0A 1SMA8.5A 1SMA9.0A

8.0 8.5 9.0

8.89 9.44 10

1 1 1

13.6 14.4 15.4

29.4 27.8 26.0

25 5.0 2.5

QR QT QV

1SMA10A 1SMA11A 1SMA12A 1SMA13A

10 11 12 13

11.1 12.2 13.3 14.4

1 1 1 1

17.0 18.2 19.9 21.5

23.5 22.0 20.1 18.6

2.5 2.5 2.5 2.5

QX QZ RE RG

1SMA15A 1SMA16A 1SMA17A 1SMA18A

15 16 17 18

16.7 17.8 18.9 20

1 1 1 1

24.4 26.0 27.6 29.2

16.4 15.4 14.5 13.7

2.5 2.5 2.5 2.5

RM RP RR RT

1SMA20A 1SMA22A 1SMA24A 1SMA26A

20 22 24 26

22.2 24.4 26.7 28.9

1 1 1 1

32.4 35.5 38.9 42.1

12.3 11.3 10.3 9.5

2.5 2.5 2.5 2.5

RV RX RZ SE

1SMA28A 1SMA30A 1SMA33A 1SMA36A

28 30 33 36

31.1 33.3 36.7 40

1 1 1 1

45.4 48.4 53.3 58.1

8.8 8.3 7.5 6.9

2.5 2.5 2.5 2.5

SG SK SM SP

1SMA40A 1SMA43A 1SMA45A 1SMA48A

40 43 45 48

44.4 47.8 50 53.3

1 1 1 1

64.5 69.4 72.2 77.4

6.2 5.8 5.5 5.2

2.5 2.5 2.5 2.5

SR ST SV SX

1SMA54A 1SMA58A

54 58

60 64.4

1 1

87.1 93.6

4.6 4.8

2.5 2.5

TE TG

1SMA70A

70

77.8

1

113.0

3.5

2.5

TP

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. 4. 1/2 sine wave (or equivalent square pulse, PW = 8.3 ms, duty cycle = 4 pulses per minute.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 6. 1SMA Series Bidirectional Zener Overvoltage Transient Suppressors; 400 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted)

Device

Working Peak Reverse Voltage VRWM (Volts) (Note 1)

Breakdown Voltage VBR Volts (Min) (Note 2)

IT mA

Maximum Reverse Voltage @ IRSM (Clamping Voltage) VC (Volts)

Maximum Reverse Surge Current IPP (Amps) (Note 3)

Maximum Reverse Leakage @ VRWM IR (mA)

Device Marking

SMA CASE 403B PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1SMA10CA

10

11.1

1

17.0

23.5

2.5

QXC

1SMA13CA

13

14.4

1

21.5

18.6

2.5

RGC

1SMA15CA

15

16.7

1

24.4

16.4

2.5

RMC

1SMA16CA

16

17.8

1

26.0

15.4

2.5

RPC

1SMA18CA

18

20

1

29.2

13.7

2.5

RTC

1SMA20CA

20

22.2

1

32.4

12.3

2.5

RVC

1SMA24CA

24

26.7

1

38.9

10.3

2.5

RZC

1SMA26CA

26

28.9

1

42.1

9.5

2.5

SEC

1SMA30CA

30

33.3

1

48.4

8.3

2.5

SKC

1SMA33CA

33

36.7

1

53.3

7.5

2.5

SMC

1SMA36CA

36

40

1

58.1

6.9

2.5

SPC

1SMA40CA

40

44.4

1

64.5

6.2

2.5

SRC

1SMA48CA

48

53.3

1

77.4

5.2

2.5

SXC

1SMA58CA

58

64.4

1

93.6

4.3

2.5

TGC

1SMA60CA

60

66.7

1

96.8

4.1

2.5

TKC

1SMA70CA

70

77.8

1

113.0

3.5

2.5

TPC

1SMA78CA

78

86.7

1

126.0

3.2

2.5

TSC

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 7. 1SMB Series Unidirectional Overvoltage Transient Suppressors; 600 Watts Peak Power @ 1ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) (VF = 3.5 V Max @ IF = 30 A) (Note 4)

Device

Working Peak Reverse Voltage VRWM Volts (Note 1)

Maximum Clamping Voltage VC @ Ipp Volts

Breakdown Voltage VBR @ IT Volts (Min) (Note 2)

mA

Peak Pulse Current Ipp Amps (Note 3)

Maximum Reverse Leakage @ VR IR mA

Device Marking

SMB CASE 403A PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1SMB5.0A 1SMB6.0A 1SMB6.5A 1SMB7.0A

5.0 6.0 6.5 7.0

6.40 6.67 7.22 7.78

10 10 10 10

9.2 10.3 11.2 12.0

65.2 58.3 53.6 50.0

800 800 500 200

KE KG KK KM

1SMB7.5A 1SMB8.0A 1SMB8.5A 1SMB9.0A

7.5 8.0 8.5 9.0

8.33 8.89 9.44 10.0

1.0 1.0 1.0 1.0

12.9 13.6 14.4 15.4

46.5 44.1 41.7 39.0

100 50 10 5.0

KP KR KT KV

1SMB10A 1SMB11A 1SMB12A 1SMB13A

10 11 12 13

11.1 12.2 13.3 14.4

1.0 1.0 1.0 1.0

17.0 18.2 19.9 21.5

35.3 33.0 30.2 27.9

5.0 5.0 5.0 5.0

KX KZ LE LG

1SMB14A 1SMB15A 1SMB16A 1SMB17A

14 15 16 17

15.6 16.7 17.8 18.9

1.0 1.0 1.0 1.0

23.2 24.4 26.0 27.6

25.8 24.0 23.1 21.7

5.0 5.0 5.0 5.0

LK LM LP LR

1SMB18A 1SMB20A 1SMB22A 1SMB24A

18 20 22 24

20.0 22.2 24.4 26.7

1.0 1.0 1.0 1.0

29.2 32.4 35.5 38.9

20.5 18.5 16.9 15.4

5.0 5.0 5.0 5.0

LT LV LX LZ

1SMB26A 1SMB28A 1SMB30A 1SMB33A

26 28 30 33

28.9 31.1 33.3 36.7

1.0 1.0 1.0 1.0

42.1 45.4 48.4 53.3

14.2 13.2 12.4 11.3

5.0 5.0 5.0 5.0

ME MG MK MM

1SMB36A 1SMB40A 1SMB43A 1SMB45A

36 40 43 45

40.0 44.4 47.8 50.0

1.0 1.0 1.0 1.0

58.1 64.5 69.4 72.7

10.3 9.3 8.6 8.3

5.0 5.0 5.0 5.0

MP MR MT MV

1SMB48A 1SMB51A 1SMB54A 1SMB58A

48 51 54 58

53.3 56.7 60.0 64.4

1.0 1.0 1.0 1.0

77.4 82.4 87.1 93.6

7.7 7.3 6.9 6.4

5.0 5.0 5.0 5.0

MX MZ NE NG

1SMB60A 1SMB64A 1SMB70A 1SMB75A

60 64 70 75

66.7 71.1 77.8 83.3

1.0 1.0 1.0 1.0

96.8 103 113 121

6.2 5.8 5.3 4.9

5.0 5.0 5.0 5.0

NK NM NP NR

1SMB85A 1SMB90A 1SMB100A

85 90 100

94.4 100 111

1.0 1.0 1.0

137 146 162

4.4 4.1 3.7

5.0 5.0 5.0

NV NX NZ

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. 4. 1/2 sine wave (or equivalent square pulse, PW = 8.3 ms, duty cycle = 4 pulses per minute. Devices listed in bold, italic are ON Semiconductor preferred devices.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 7. 1SMB Series Unidirectional Overvoltage Transient Suppressors; 600 Watts Peak Power @ 1ms Surge (10 x 1000 ms) (continued) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) (VF = 3.5 V Max @ IF = 30 A) (Note 4)

Device

Working Peak Reverse Voltage VRWM Volts (Note 1)

Maximum Clamping Voltage VC @ Ipp Volts

Breakdown Voltage VBR @ IT Volts (Min) (Note 2)

mA

Peak Pulse Current Ipp Amps (Note 3)

Maximum Reverse Leakage @ VR IR mA

Device Marking

SMB CASE 403A PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1SMB110A 1SMB120A 1SMB130A 1SMB150A

110 120 130 150

122 133 144 167

1.0 1.0 1.0 1.0

177 193 209 243

3.4 3.1 2.9 2.5

5.0 5.0 5.0 5.0

PE PG PK PM

1SMB160A 1SMB170A

160 170

178 189

1.0 1.0

259 275

2.3 2.2

5.0 5.0

PP PR

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. 4. 1/2 sine wave (or equivalent square pulse, PW = 8.3 ms, duty cycle = 4 pulses per minute.

http://onsemi.com 233

ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 8. 1SMB Series Bidirectional Overvoltage Transient Suppressors; 600 Watts Peak Power @ 1ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted).

Device

Working Peak Reverse Voltage VRWM Volts (Note 1)

Maximum Clamping Voltage VC @ Ipp Volts

Breakdown Voltage VBR @ IT Volts (Min) (Note 2)

mA

Peak Pulse Current Ipp Amps (Note 3)

Maximum Reverse Leakage @ VR IR mA

Device Marking

SMB CASE 403A PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1SMB10CA 1SMB11CA 1SMB12CA 1SMB13CA

10 11 12 13

11.1 12.2 13.3 14.4

1.0 1.0 1.0 1.0

17.0 18.2 19.9 21.5

35.3 33.0 30.2 27.9

5.0 5.0 5.0 5.0

KXC KZC LEC LGC

1SMB14CA 1SMB15CA 1SMB16CA 1SMB17CA

14 15 16 17

15.6 16.7 17.8 18.9

1.0 1.0 1.0 1.0

23.2 24.4 26.0 27.6

25.8 24.0 23.1 21.7

5.0 5.0 5.0 5.0

LKC LMC LPC LRC

1SMB18CA 1SMB20CA 1SMB22CA 1SMB24CA

18 20 22 24

20.0 22.2 24.4 26.7

1.0 1.0 1.0 1.0

29.2 32.4 35.5 38.9

20.5 18.5 16.9 15.4

5.0 5.0 5.0 5.0

LTC LVC LXC LZC

1SMB26CA 1SMB28CA 1SMB30CA 1SMB33CA

26 28 30 33

28.9 31.1 33.3 36.7

1.0 1.0 1.0 1.0

42.1 45.4 48.4 53.3

14.2 13.2 12.4 11.3

5.0 5.0 5.0 5.0

MEC MGC MKC MMC

1SMB36CA 1SMB40CA 1SMB43CA 1SMB45CA

36 40 43 45

40.0 44.4 47.8 50.0

1.0 1.0 1.0 1.0

58.1 64.5 69.4 72.7

10.3 9.3 8.6 8.3

5.0 5.0 5.0 5.0

MPC MRC MTC MVC

1SMB48CA 1SMB51CA 1SMB54CA 1SMB58CA

48 51 54 58

53.3 56.7 60.0 64.4

1.0 1.0 1.0 1.0

77.4 82.4 87.1 93.6

7.7 7.3 6.9 6.4

5.0 5.0 5.0 5.0

MXC MZC NEC NGC

1SMB60CA 1SMB64CA 1SMB75CA

60 64 75

66.7 71.1 83.3

1.0 1.0 1.0

96.8 103 121

6.2 5.8 4.9

5.0 5.0 5.0

NKC NMC NRC

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. Devices listed in bold, italic are ON Semiconductor preferred devices.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 9. P6SMB Series Unidirectional Overvoltage Transient Suppressors; 600 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) (VF = 3.5 V Max, IF = 50 A for all types) (Note 4) Breakdown Voltage VBR @ IT Volts (Note 2) Device

Min

Nom

Max

mA

Working Peak Reverse Voltage VRWM Volts (Note 1)

Maximum Reverse Leakage @ VRWM IR mA

Maximum Reverse Surge Current IPP Amps (Note 3)

Maximum Reverse Voltage @ IPP (Clamping Voltage) VC Volts

Maximum Temperature Coefficient of VBR %/°C

Device Marking

SMB CASE 403A PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” P6SMB6.8A P6SMB7.5A P6SMB8.2A P6SMB9.1A

6.45 7.13 7.79 8.65

6.8 7.5 8.2 9.1

7.14 7.88 8.61 9.55

10 10 10 1

5.8 6.4 7.02 7.78

1000 500 200 50

57 53 50 45

10.5 11.3 12.1 13.4

0.057 0.061 0.065 0.068

6V8A 7V5A 8V2A 9V1A

P6SMB10A P6SMB12A P6SMB13A

9.5 11.4 12.4

10 12 13

10.5 12.6 13.7

1 1 1

8.55 10.2 11.1

10 5 5

41 36 33

14.5 16.7 18.2

0.073 0.078 0.081

10A 12A 13A

P6SMB15A P6SMB16A P6SMB18A P6SMB20A

14.3 15.2 17.1 19

15 16 18 20

15.8 16.8 18.9 21

1 1 1 1

12.8 13.6 15.3 17.1

5 5 5 5

28 27 24 22

21.2 22.5 25.2 27.7

0.084 0.086 0.088 0.09

15A 16A 18A 20A

P6SMB22A P6SMB24A P6SMB27A P6SMB30A

20.9 22.8 25.7 28.5

22 24 27 30

23.1 25.2 28.4 31.5

1 1 1 1

18.8 20.5 23.1 25.6

5 5 5 5

20 18 16 14.4

30.6 33.2 37.5 41.4

0.092 0.094 0.096 0.097

22A 24A 27A 30A

P6SMB33A P6SMB36A P6SMB39A P6SMB43A

31.4 34.2 37.1 40.9

33 36 39 43

34.7 37.8 41 45.2

1 1 1 1

28.2 30.8 33.3 36.8

5 5 5 5

13.2 12 11.2 10.1

45.7 49.9 53.9 59.3

0.098 0.099 0.1 0.101

33A 36A 39A 43A

P6SMB47A P6SMB51A P6SMB56A P6SMB62A

44.7 48.5 53.2 58.9

47 51 56 62

49.4 53.6 58.8 65.1

1 1 1 1

40.2 43.6 47.8 53

5 5 5 5

9.3 8.6 7.8 7.1

64.8 70.1 77 85

0.101 0.102 0.103 0.104

47A 51A 56A 62A

P6SMB68A P6SMB75A P6SMB82A P6SMB91A

64.6 71.3 77.9 86.5

68 75 82 91

71.4 78.8 86.1 95.5

1 1 1 1

58.1 64.1 70.1 77.8

5 5 5 5

6.5 5.8 5.3 4.8

92 103 113 125

0.104 0.105 0.105 0.106

68A 75A 82A 91A

P6SMB100A P6SMB110A P6SMB120A P6SMB130A

95 105 114 124

100 110 120 130

105 116 126 137

1 1 1 1

85.5 94 102 111

5 5 5 5

4.4 4 3.6 3.3

137 152 165 179

0.106 0.107 0.107 0.107

100A 110A 120A 130A

P6SMB150A P6SMB160A P6SMB180A P6SMB200A

143 152 171 190

150 160 180 200

158 168 189 210

1 1 1 1

128 136 154 171

5 5 5 5

2.9 2.7 2.4 2.2

207 219 246 274

0.108 0.108 0.108 0.108

150A 160A 180A 200A

Devices listed in bold, italic are ON Semiconductor preferred devices. 1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. 4. 1/2 sine wave (or equivalent square pulse, PW = 8.3 ms, duty cycle = 4 pulses per minute.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 10. P6SMB Series Bidirectional Overvoltage Transient Suppressors; 600 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) Breakdown Voltage VBR @ IT Volts (Note 2) Device

Min

Nom

Max

mA

Working Peak Reverse Voltage VRWM Volts (Note 1)

Maximum Reverse Surge Current IPP Amps (Note 3)

Maximum Reverse Leakage @ VRWM IR mA

Maximum Reverse Voltage @ IPP (Clamping Voltage) VC Volts

Maximum Temperature Coefficient of VBR %/°C

Device Marking

SMB CASE 403A PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” P6SMB11CA P6SMB12CA

10.5 11.4

11 12

11.6 12.6

1 1

9.4 10.2

5 5

38 36

15.6 16.7

0.075 0.078

11C 12C

P6SMB15CA P6SMB16CA P6SMB18CA P6SMB20CA

14.3 15.2 17.1 19

15 16 18 20

15.8 16.8 18.9 21

1 1 1 1

12.8 13.6 15.3 17.1

5 5 5 5

28 27 24 22

21.2 22.5 25.2 27.7

0.084 0.086 0.088 0.09

15C 16C 18C 20C

P6SMB22CA P6SMB24CA P6SMB27CA P6SMB30CA

20.9 22.8 25.7 28.5

22 24 27 30

23.1 25.2 28.4 31.5

1 1 1 1

18.8 20.5 23.1 25.6

5 5 5 5

20 18 16 14.4

30.6 33.2 37.5 41.4

0.092 0.094 0.096 0.097

22C 24C 27C 30C

P6SMB33CA P6SMB36CA P6SMB39CA P6SMB43CA

31.4 34.2 37.1 40.9

33 36 39 43

34.7 37.8 41 45.2

1 1 1 1

28.2 30.8 33.3 36.8

5 5 5 5

13.2 12 11.2 10.1

45.7 49.9 53.9 59.3

0.098 0.099 0.1 0.101

33C 36C 39C 43C

P6SMB47CA P6SMB51CA P6SMB56CA P6SMB62CA

44.7 48.5 53.2 58.9

47 51 56 62

49.4 53.6 58.8 65.1

1 1 1 1

40.2 43.6 47.8 53

5 5 5 5

9.3 8.6 7.8 7.1

64.8 70.1 77 85

0.101 0.102 0.103 0.104

47C 51C 56C 62C

P6SMB68CA P6SMB82CA

64.6 77.9

68 82

71.4 86.1

1 1

58.1 70.1

5 5

6.5 5.3

92 113

0.104 0.105

68C 82C

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. Devices listed in bold, italic are ON Semiconductor preferred devices.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 11. SMBJ12AON Series Bidirectional Overvoltage Transient Suppressors; 600 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) Working Peak Reverse Voltage VRWM Volts (Note 1)

Breakdown Voltage VBR @ IT Volts (Note 2) Device

Min

Nom

Max

mA

Maximum Reverse Leakage @ VRWM IR mA

Maximum Reverse Surge Current IPP Amps (Note 3)

Maximum Reverse Voltage @ IPP (Clamping Voltage) VC Volts

17.5

15.6

SMB CASE 403A PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” SMBJ12AON

13.2

13.75

14.3

1

12

5

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform.

http://onsemi.com 237

ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 12. 1SMC Series Unidirectional Overvoltage Transient Suppressors; 1500 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) (VF = 3.5 V Max @ IF = 100 A) (Note 4)

Device

Working Peak Reverse Voltage VR Volts (Note 1)

Breakdown Voltage

Maximum Clamping Voltage VC @ Ipp Volts

VBR @ IT Volts (Min) (Note 2)

mA

Peak Pulse Current Ipp Amps (Note 3)

Maximum Reverse Leakage @ VR IR mA

Device Marking

SMC CASE 403B PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1SMC5.0A 1SMC6.0A 1SMC6.5A 1SMC7.0A

5.0 6.0 6.5 7.0

6.40 6.67 7.22 7.78

10 10 10 10

9.2 10.3 11.2 12.0

163.0 145.6 133.9 125.0

1000 1000 500 200

GDE GDG GDK GDM

1SMC7.5A 1SMC8.0A 1SMC9.0A

7.5 8.0 9.0

8.33 8.89 10.0

1.0 1.0 1.0

12.9 13.6 15.4

116.3 110.3 97.4

100 50 10

GDP GDR GDV

1SMC10A 1SMC12A 1SMC13A

10 12 13

11.1 13.3 14.4

1.0 1.0 1.0

17.0 19.9 21.5

88.2 75.3 69.7

5.0 5.0 5.0

GDX GEE GEG

1SMC14A 1SMC15A 1SMC16A 1SMC17A

14 15 16 17

15.6 16.7 17.8 18.9

1.0 1.0 1.0 1.0

23.2 24.4 26.0 27.6

64.7 61.5 57.7 53.3

5.0 5.0 5.0 5.0

GEK GEM GEP GER

1SMC18A 1SMC20A 1SMC22A 1SMC24A

18 20 22 24

20.0 22.2 24.4 26.7

1.0 1.0 1.0 1.0

29.2 32.4 35.5 38.9

51.4 46.3 42.2 38.6

5.0 5.0 5.0 5.0

GET GEV GEX GEZ

1SMC26A 1SMC28A 1SMC30A 1SMC33A

26 28 30 33

28.9 31.1 33.3 36.7

1.0 1.0 1.0 1.0

42.1 45.4 48.4 53.3

35.6 33.0 31.0 28.1

5.0 5.0 5.0 5.0

GFE GFG GFK GFM

1SMC36A 1SMC40A 1SMC43A

36 40 43

40.0 44.4 47.8

1.0 1.0 1.0

58.1 64.5 69.4

25.8 23.2 21.6

5.0 5.0 5.0

GFP GFR GFT

1SMC48A 1SMC51A 1SMC54A 1SMC58A

48 51 54 58

53.3 56.7 60.0 64.4

1.0 1.0 1.0 1.0

77.4 82.4 87.1 93.6

19.4 18.2 17.2 16.0

5.0 5.0 5.0 5.0

GFX GFZ GGE GGG

1SMC60A 1SMC64A 1SMC70A 1SMC75A

60 64 70 75

66.7 71.1 77.8 83.3

1.0 1.0 1.0 1.0

96.8 103 113 121

15.5 14.6 13.3 12.4

5.0 5.0 5.0 5.0

GGK GGM GGP GGR

1SMC78A

78

86.7

1.0

126

11.4

5.0

GGT

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. 4. 1/2 sine wave (or equivalent square pulse, PW = 8.3 ms, duty cycle = 4 pulses per minute. Devices listed in bold, italic are ON Semiconductor preferred devices.

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ON Semiconductor Selector Guide − Circuit Protection

TVS − in Surface Mount (continued) Table 13. 1.5 SMC Series Unidirectional Overvoltage Transient Suppressors; 1500 Watts Peak Power @ 1 ms Surge (10 x 1000 ms) ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) (VF = 3.5 V Max, IF = 100 A for all types) (Note 4) Breakdown Voltage VBR @ IT Volts (Note 2) Device

Min

Nom

Max

mA

Working Peak Reverse Voltage VRWM Volts (Note 1)

Maximum Reverse Surge Current IPP Amps (Note 3)

Maximum Reverse Leakage @ VRWM IR mA

Maximum Reverse Voltage @ IPP (Clamping Voltage) VC Volts

Maximum Temperature Coefficient of VBR %/°C

Device Marking

SMC CASE 403 PLASTIC

! ” #$!%&##! %%&'(#()!# ” )” 1.5SMC6.8A 1.5SMC7.5A

6.45 7.13

6.8 7.5

7.14 7.88

10 10

5.8 6.4

1000 500

143 132

10.5 11.3

0.057 0.061

6V8A 7V5A

1.5SMC10A 1.5SMC12A 1.5SMC13A

9.5 11.4 12.4

10 12 13

10.5 12.6 13.7

1 1 1

8.55 10.2 11.1

10 5 5

103 90 82

14.5 16.7 18.2

0.073 0.078 0.081

10A 12A 13A

1.5SMC15A 1.5SMC16A 1.5SMC18A 1.5SMC20A

14.3 15.2 17.1 19

15 16 18 20

15.8 16.8 18.9 21

1 1 1 1

12.8 13.6 15.3 17.1

5 5 5 5

71 67 59.5 54

21.2 22.5 25.2 27.7

0.084 0.086 0.088 0.09

15A 16A 18A 20A

1.5SMC22A 1.5SMC24A 1.5SMC27A 1.5SMC30A

20.9 22.8 25.7 28.5

22 24 27 30

23.1 25.2 28.4 31.5

1 1 1 1

18.8 20.5 23.1 25.6

5 5 5 5

49 45 40 36

30.6 33.2 37.5 41.4

0.092 0.094 0.096 0.097

22A 24A 27A 30A

1.5SMC33A 1.5SMC36A 1.5SMC39A 1.5SMC43A

31.4 34.2 37.1 40.9

33 36 39 43

34.7 37.8 41 45.2

1 1 1 1

28.2 30.8 33.3 36.8

5 5 5 5

33 30 28 25.3

45.7 49.9 53.9 59.3

0.098 0.099 0.1 0.101

33A 36A 39A 43A

1.5SMC47A 1.5SMC51A 1.5SMC56A 1.5SMC62A

44.7 48.5 53.2 58.9

47 51 56 62

49.4 53.6 58.8 65.1

1 1 1 1

40.2 43.6 47.8 53

5 5 5 5

23.2 21.4 19.5 17.7

64.8 70.1 77 85

0.101 0.102 0.103 0.104

47A 51A 56A 62A

1.5SMC68A 1.5SMC75A 1.5SMC82A 1.5SMC91A

64.6 71.3 77.9 86.5

68 75 82 91

71.4 78.8 86.1 95.5

1 1 1 1

58.1 64.1 70.1 77.8

5 5 5 5

16.3 14.6 13.3 12

92 103 113 125

0.104 0.105 0.105 0.106

68A 75A 82A 91A

1. A transient suppressor is normally selected according to the Working Peak Reverse Voltage (VRWM) which should be equal to or greater than the DC or continuous peak operating voltage level. 2. VBR measured at pulse test current IT at ambient temperature of 25°C. 3. 10 x 1000 ms exponential decay surge waveform. 4. 1/2 sine wave (or equivalent square pulse, PW = 8.3 ms, duty cycle = 4 pulses per minute. Devices listed in bold, italic are ON Semiconductor preferred devices.

http://onsemi.com 239

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − One Line SD05 Series Table 14. Single Line TVS/ESD in SOD−323; 350 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL Breakdown Voltage VBR (Note 5) (V) Min

Device

Nom

Max

2

@ IT (mA)

Reverse Voltage Working Peak VRWM (Volts)

Max Reverse Leakage Current IR (mA)

CASE 477 STYLE 1 SOD−323

1

Max Reverse Surge Current IPP (A)

1

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Typical Capacitance (pF) Pin 1 to 2 @ 0 Volts

2

SD05

6.2

6.75

7.3

1.0

5.0

10

24

14.5

350

SD12

13.3

14.5

15.75

1.0

12

1.0

15

25

150

5. VBR measured at pulse test current IT at an ambient temperature of 25°C.

SD12C Table 15. Single Line TVS/ESD in SOD−323; 350 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) BIDIRECTIONAL Breakdown Voltage VBR (Note 6) (V) Min

Device

Nom

Max

2

CASE 477 STYLE 1 SOD−323

1 SD12C

13.3

@ IT (mA)

Reverse Voltage Working Peak VRWM (Volts)

1.0

Max Reverse Surge Current IPP (A)

1 12

6. VBR measured at pulse test current IT at an ambient temperature of 25°C.

http://onsemi.com 240

Max Reverse Leakage Current IR (mA)

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Typical Capacitance (pF) Pin 1 to 2 @ 0 Volts

24

64

2 1.0

15

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − One Line (continued) ESD5Z Series Table 16. Single Line TVS/ESD in SOD−523; 200 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL Breakdown Voltage

Reverse Voltage Working Peak VRWM (Volts)

VBR (Note 7) (V) Min

Device

Nom

@ IT (mA)

Max

2

CASE 502 SOD−523

1

Max Reverse Leakage Current IR (mA)

Max Reverse Surge Current IPP (A)

1

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Typical Capacitance (pF) Pin 1 to 2 @ 0 Volts

2

ESD5Z2.5

4.0

1.0

2.5

6.0

11

10.9

145

ESD5Z3.3

5.0

1.0

3.3

0.05

11.2

14.1

105

ESD5Z5.0

6.2

1.0

5.0

0.05

9.4

18.6

80

ESD5Z6.0

6.8

1.0

6.0

0.01

8.8

20.5

70

ESD5Z7.0

7.5

1.0

7.0

0.01

8.8

22.7

65

ESD5Z12

14.1

1.0

12

0.01

9.6

25

55

7. VBR measured at pulse test current IT at an ambient temperature of 25°C.

mESD Series Table 17. Single Line TVS/ESD in SOD−723; 100 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL Breakdown Voltage VBR (V) @ IT (Note 8) Device

Min

Nom

Max

@ IT (mA)

Reverse Voltage Working Peak VRWM (V)

CASE 509AA SOD−723

Max Reverse Leakage Current IR (mA)

Max Reverse Surge Current IPP (A)

1

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Typical Capacitance (pF) Pin 1 to 2 @ 0 Volts

2

mESD3.3S

5.0

1.0

3.3

2.5

10.4

10.9

80

mESD5.0S

6.2

1.0

5.0

1.0

8.8

13.3

65

mESD12S

13.5

1.0

12

1.0

5.4

23.7

30

8. VBR measured at pulse test current IT at an ambient temperature of 25°C.

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ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − One Line (continued) ESD9X Series Table 18. Single Line TVS/ESD in SOD−923; 100 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL Breakdown Voltage Reverse Voltage Working Peak VRWM (V)

VBR (V) @ IT (Note 9) Min

Device

Nom

@ IT (mA)

Max

CASE 514AA SOD−923

Max Reverse Leakage Current IR (mA)

Max Reverse Surge Current IPP (A)

1

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Typical Capacitance (pF) Pin 1 to 2 @ 0 Volts

2

ESD9X3.3S

5.0

1.0

3.3

2.5

9.8

10.4

80

ESD9X5.0S

6.2

1.0

5.0

1.0

8.7

13.3

65

ESD9X12S

13.5

1.0

12

1.0

5.9

23.7

30

9. VBR measured at pulse test current IT at an ambient temperature of 25°C.

NUP1105L − LIN Bus Protector Table 19. Single Line TVS/ESD in SOT−23; 350 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) BIDIRECTIONAL Max Reverse Leakage Current

Breakdown Voltage VBR (V) Device

Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

3

2 25.7

Typ

28.4

1.0

0.1

24

10. Surge waveform 8 x 20 msec.

http://onsemi.com 242

Max

Max Reverse Surge Current IPP (A)

VC (V)

Peak Power Rating (8×20 msec) (Note 10)

44

350

1

CASE 318 STYLE 27 SOT−23

1 NUP1105L

Capacitance (pF) @ 0 V, 1.0 MHz

Max Reverse Voltage @ IPP (Clamping Voltage)

3

2 −

30

8.0

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − Two Line SM05 − Common Anode Series Table 20. Two Line TVS/ESD in SOT−23; 300 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL Breakdown Voltage VBR (Note 11) (V) Min

Device

Nom

3

Max

@ IT (mA)

Reverse Voltage Working Peak VRWM (Volts)

CASE 318 STYLE 12 LOW PROFILE SOT−23 PLASTIC

1 2

Max Reverse Leakage Current IR (mA)

Max Reverse Surge Current IPP (A)

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

1

Typical Capacitance (pF) Pin 1 to 3 @ 0 Volts

3

2

SM05

6.2

6.75

7.3

1.0

5.0

10

17

9.8

225

SM12

13.3

14.5

15.75

1.0

12

1.0

12

19

95

11. VBR measured at pulse test current IT at an ambient temperature of 25°C.

MA3075WAL Table 21. Two Line TVS/ESD in SOT−23; Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL (VF = 0.9 V Max @ IF = 10 mA) Breakdown Voltage VBR (Note 12) (V) Min

Device 3

Max

CASE 318 STYLE 12 LOW PROFILE SOT−23 PLASTIC

1 2 MA3075WAL

Nom

7.2

7.5

7.9

12. VBR measured at pulse test current IT at an ambient temperature of 25°C.

http://onsemi.com 243

@ IT (mA)

Max Reverse Leakage Current IR (mA @ 5 V)

1

Maximum Temperature Coefficient of VBR (mV/°C)

3

2 5.0

1.0

5.3

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − Two Line (continued) NUP2105L − CAN Bus Protector Table 22. Two Line TVS/ESD in SOT−23; 350 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) BIDIRECTIONAL Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

3 1

Capacitance (pF) @ 0 V, 1.0 MHz Typ

Max

26.2

32

1.0

Peak Power Rating (8×20 msec) (Note 13)

IPP (A)

VC (V)

Watts

1

CASE 318 SOT−23

3 2

2

NUP2105L

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

0.1

24

30

8.0

44

350

13. Surge waveform 8 x 20 msec.

DF3A6.8FU Table 23. Two Line TVS/ESD in SC−70; 150 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL (VF = 0.9 V Max @ IF = 10 mA) Max Reverse Leakage Current

Breakdown Voltage VBR (Note 14) (V) Min

Device

Nom

3 1 DF3A6.8FU

Max

@ IT (mA)

IR @ VR (mA) (V) 1

CASE 419 SC−70 (SOT−323)

Max Reverse Voltage @ IPP (Clamping Voltage) VC (V)

Max Reverse Surge Current IPP (A)

3

2

2 6.4

6.8

7.2

5.0

0.5

14. VBR measured at pulse test current IT at an ambient temperature of 25°C.

http://onsemi.com 244

5.0

2.0

9.6

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − Two Line (continued) NZL5V6AXV Series Table 24. Two Line ESD Protection in SC−89; Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL (VF = 0.9 V Max @ IF = 10 mA) Max Reverse Leakage Current

Breakdown Voltage VBR (Note 15) (V) Min

Device 3

1

Nom

1

CASE 463C SC−89

2

@ IT (mA)

Max

IR @ VR (mA) (V)

3

2

NZL5V6AXV3

5.32

5.6

5.88

5.0

5.0

3.0

NZL6V8AXV3

6.46

6.8

7.14

5.0

1.0

4.5

NZL7V5AXV3

7.12

7.5

7.88

5.0

1.0

5.0

15. VBR measured at pulse test current IT at an ambient temperature of 25°C.

mESD3.3D Series Table 25. Two Line ESD Protection in SOT−723; Meets IEC61000−4−2, Level 4 ELECTRICAL CHARACTERISTICS (TA = 255C unless otherwise noted) UNIDIRECTIONAL (VF = 0.9 V Max @ IF = 10 mA) Max Reverse Leakage Current IR (mA) @ VRWM)

Breakdown Voltage VBR (Note 16) (V) Min

Device 3

1

2

Nom

Max

@ IT (mA)

1

CASE 631AA STYLE 4 SOT−723

3

2

mESD3.3D

5.0

1.0

1.0

mESD5.0D

6.2

1.0

0.1

mESD6.0D

7.0

1.0

0.1

16. VBR measured at pulse test current IT at an ambient temperature of 25°C.

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ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − Four Line Table 26. Four Line TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Device

Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

6

Capacitance (pF) @ 0 V, 1.0 MHz Typ

Max

CASE 318F STYLE 1 SC−74 PLASTIC

1

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 17)

IPP (A)

VC (V)

Watts

1

6

2

5

3

4

MMQA5V6

5.32

5.6

5.88

1.0

2.0

3.0

257

3.0

8.0

150

MMQA6V2

5.89

6.2

6.51

1.0

0.7

4.0

225

2.66

9.0

150

MMQA6V8

6.46

6.8

7.14

1.0

0.5

4.3

210

2.45

9.8

150

MMQA12V

11.4

12

12.6

1.0

0.075

9.1

117

1.39

17.3

150

MMQA13V

12.4

13

13.7

1.0

0.075

9.8

108

1.29

18.6

150

MMQA15V

14.3

15

15.8

1.0

0.075

11

93

1.1

21.7

150

MMQA18V

17.1

18

18.9

1.0

0.075

14

77

0.923

26

150

MMQA20V

19

20

21

1.0

0.075

15

69

0.84

28.6

150

MMQA22V

20.9

22

23.1

1.0

0.075

17

63

0.758

31.7

150

MMQA24V

22.8

24

25.2

1.0

0.075

18

58

0.694

34.6

150

MMQA27V

25.7

27

28.4

1.0

0.075

21

50

0.615

39

150

MMQA30V

28.5

30

31.5

1.0

0.075

23

40

0.554

43.3

150

MMQA33V

31.4

33

34.7

1.0

0.075

25

42

0.504

48.6

150

SMS05

6.0

7.2

1.0

20

5.0

300

400

23

15.5

350

SMS12

13.3

15

1.0

1.0

12

120

150

15

23

350

SMS15

16.7

18.5

1.0

1.0

15

100

125

12

29

350

SMS24

26.7

32

1.0

1.0

24

60

75

8.0

44

350

4

1

5 1

2

CASE 419A SC−88A (SOT−353)

3

5

2 4

3

MSQA6V1W5

6.1

6.6

7.2

1.0

1.0

3.0

90

150

SMF05

6.0

7.2

1.0

5.0

5.0

90

12

12.5

200

17. Surge waveform 8 x 20 msec.

http://onsemi.com 246

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − Four Line (continued) Table 26. Four Line TVS/ESD Protection; Meets IEC61000−4−2, Level 4 (continued) Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device 6

5

Nom

IR

VRWM

(mA)

(mA)

(V)

Typ

4

1 DF6A6.8FU

Max

@ IT

Capacitance (pF) @ 0 V, 1.0 MHz

6.4

2

CASE 419B SC−88 (SOT−363)

3

6.8

7.2

1.0

1.0

5.0

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 18)

IPP (A)

VC (V)

Watts

11.4

75

1

6

2

5

3

4

40

7.0

1 CASE 463B SOT−553

5 1

5

2 4

3

NZQA5V6XV5

5.32

5.6

5.88

1.0

1.0

3.0

90

10

10.5

100

NZQA6V2XV5

5.89

6.2

6.51

1.0

0.5

4.0

80

9.0

11.5

100

NZQA6V8XV5

6.46

6.8

7.14

1.0

0.1

4.3

70

8.0

12.5

100

A1

C1

CASE 766AB 5 PIN FLIP−CHIP CSP

B2

A3 NUP4103FC

6.0

7.0

8.0

1.0

0.1

3.3

18. Surge waveform 8 x 20 msec.

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C3 47

ON Semiconductor Selector Guide − Circuit Protection

TVS/ESD Protection − Five Line Table 27. Five Line TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Device

Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

6

Capacitance (pF) @ 0 V, 1.0 MHz Typ

Max

CASE 318F STYLE 1 SC−74 PLASTIC

1

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 19)

IPP (A)

VC (V)

Watts

SMS05C

6.2

7.2

1.0

5.0

5.0

260

24

14.5

350

SMS12C

13.3

15

1.0

1.0

12

120

15

23

350

SMS15C

17

19

1.0

1.0

15

95

12

29

350

SMS24C

26.7

32

1.0

1.0

24

60

8.0

44

350

6

5

4

1

2

CASE 419B SC−88 (SOT−363)

3

SMF05C

6.2

7.2

1.0

5.0

5.0

80

8.0

12.5

100

SMF12C

13.3

15

1.0

1.0

12

40

6.0

23

100

SMF15C

17

19

1.0

1.0

15

33

5.0

29

100

SMF24C

26.7

32

1.0

1.0

24

21

2.5

44

100

90

CASE 463A SOT−563

6 1

NUP5120X6

6.2

6.8

7.2

1.0

0.5

3.0

19. Surge waveform 8 x 20 msec.

http://onsemi.com 248

54

ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − One Line SL05 Series Table 28. Single Line Low Cap TVS/ESD in SOT−23; 300 Watts Peak Power (8 x 20 ms); Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

3 1

Capacitance (pF) @ 0 V, 1.0 MHz Typ

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

2

CASE 318 STYLE 26 SOT−23

2

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

1 3 (NC)

SL05

6.0

8.0

1.0

20

5.0

3.5

5.0

17

11

300

SL15

16.7

18.5

1.0

1.0

15

3.5

5.0

10

30

300

SL24

26.7

29

1.0

1.0

24

3.5

5.0

5.0

55

300

Table 29. Meets IEC61000−4−2, Level 4 Breakdown Voltage

Device

VBR (V)

@ Ibr

Vf (V)

Min

mA

Max

3 1

Forward Voltage If mA ANODE 1

CASE 318 SOT−23

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

Max

CATHODE 2

3 CATHODE/ANODE

2

USB 2.0 NUP1301ML3

70

100

0.855

*Cj = Between I/O pin and ground.

http://onsemi.com 249

10

0.9

ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − Two Line Table 30. Two Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

Max

CASE 751 SO−8

8 1

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

15

2000

USB 1.1 LC03−6

6.8

6

54 12

1.0

20

5.0

16

25

CASE 318G TSOP−6

3

50

I/O 1

6 I/O

VN 2

5 VP

N/C 3

4 N/C

USB 2.0 NUP2201MR6

6.0

6

5

1.0

5.0

5.0

3.0

5.0

4

1

2

CASE 419B SC−88 (SOT−363)

3

25

20

I/O 1

6 I/O

VN 2

5 VP

N/C 3

4 N/C

500

USB 2.0 NUP2202W1

6.0

1.0

5.0

5.0

3.0

5.0

28

20

500

*Cj = Between I/O pin and ground.

Table 31. Meets IEC61000−4−2, Level 4 Breakdown Voltage

Device

6

5

Forward Voltage

VBR (V)

@ Ibr

Vf (V)

If

Min

mA

Max

mA

1

2

CASE 419B SC−88

Typ

VN

1

6

N/C

I/O

2

5

I/O

VP

3

4

N/C

4 3

Capacitance* (pF) @ 0 V, 1.0 MHz Max

USB 2.0 NUP2301MW6

70

100

0.855

*Cj = Between I/O pin and ground.

http://onsemi.com 250

10

1.6

3.0

ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − Four Line Table 32. Four Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

4

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec) (Note 20)

IPP (A)

VC (V)

Watts

1

5 1

2

CASE 419A SC−88A (SOT−353)

3

5

2 4

3

NSQA6V8AW5

6.4

6.8

7.1

1.0

1.0

5.0

12

15

1.6

13

20

NSQA12VAW5

11.4

12

12.7

5.0

0.05

9.0

7.0

15

0.9

23

20

1 CASE 463B SOT−553

5 1

5

2 4

3

NZQA5V6AXV5

5.3

5.6

5.9

1.0

1.0

3.0

13

17

1.6

13

20

NZQA6V8AXV5

6.1

6.8

7.2

1.0

1.0

4.3

12

15

1.6

13

20

*Cj = Between I/O pin and ground. 20. Surge waveform 8 x 20 msec.

Table 33. Four Line Low Cap TVS/ESD Protection in SOT−953; Meets IEC61000−4−2, Level 4

Breakdown Voltage VBR @ 1.0 mA (Volts) Device

Min

Nom

Max

Leakage Current IRM @ VRM VRWM

IRWM (mA)

Typ Capacitance @ 0 V Bias (pF)

Typ Capacitance @ 3.0 V Bias (pF)

Typ

Max

Typ

Max

1 CASE 527AB SOT−953

5

2 4

3 NUP45V6P5

5.3

5.6

5.9

3.0

1.0

13

17

7.0

11.5

NUP46V8P5

6.47

6.8

7.14

4.3

1.0

12

15

6.7

9.5

NUP412VP5

11.4

12

12.7

9.0

1.0

6.5

10

3.5

5.0

http://onsemi.com 251

ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − Four Line (continued) Table 34. Four Line Low Cap TVS/ESD Protection in SOT−563; Meets IEC61000−4−2, Level 4

Breakdown Voltage (D1, D2, and D3) VBR (V) Device

Min

Nom

Breakdown Voltage (VCC) VBR (V)

@ IT Max

(mA)

Min

Nom

1

6.2

6.8

7.2

Max

Max Reverse Leakage Current (D1, D2, and D3)

1.0

15.3

16

17.1

Max Reverse Leakage Current (VCC)

Peak Power Rating (8×20 msec) (D1, D2, and D3)

Peak Power Rating (8×20 msec) (VCC)

Max

Watts

(mW)

10

20

200

@ IT

VRWM

IR

VRWM

IR

VR

Capacitance (pF) @ 3.0 V, 1.0 MHz

(mA)

(V)

(mA)

(V)

(mA)

(V)

Typ

CASE 463A SOT−563

6

NUP4060AXV6

Working Peak Reverse Voltage (D1, D2, and D3)

5.0

5.0

0.5

D1

GND

D2

D3

VCC

GND

3.0

0.05

11

7.0

Table 35. Four Line Low Cap Bidirectional TVS/ESD Protection in SOT−563; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Device

Min

Nom

Max

@ IT

nA

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

6 4

CASE 463A SOT−563

6 1

2, 5

3 1

NUP4102XV6

13.6

17.8

1.0

100

12

13

15

3.0

25

75

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

*Cj = Between I/O pin and ground.

Table 36. Four Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Device

Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

CASE 751 SO−8

8 1

Max 1

8

2

7

3

6

4

5

USB 2.0 NUP4201DR2

6.0

1.0

10

5.0

5.0

10

10

12

500

SRDA05−4R2

6.0

1.0

10

5.0

10

15

10

12

500

*Cj = Between I/O pin and ground.

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ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − Four Line (continued) Table 36. Four Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 (continued) Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device

Nom

6

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

54

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

CASE 318G TSOP−6

3 12

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

I/O 1

6 I/O

VN 2

5 VP

I/O 3

4 I/O

USB 2.0 NUP4201MR6

6.0

6

5

1.0

5.0

5.0

3.0

4

1

2

CASE 419B SC−88 (SOT−363)

3

5.0

25

20

I/O 1

6 I/O

VN 2

5 VP

I/O 3

4 I/O

500

USB 2.0 NUP4202W1

6.0

1.0

5.0

5.0

3.0

5.0

28

20

500

*Cj = Between I/O pin and ground.

Table 37. Four Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Breakdown Voltage

Device

6

Forward Voltage

VBR (V)

@ Ibr

Vf (V)

If

Min

mA

Max

mA

I/O 1

54 12

CASE 318G TSOP−6

3

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

Max

6 I/O

GND 2

5 VCC 4 I/O

I/O 3

USB 2.0 NUP4301MR6

70

100

0.855

*Cj = Between I/O pin and ground.

http://onsemi.com 253

10

1.6

3.0

ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − Four Line (continued) Table 37. Four Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 (continued) Breakdown Voltage

Device

6

5

Forward Voltage

VBR (V)

@ Ibr

Vf (V)

If

Min

mA

Max

mA

4

1

2

Typ

I/O 1

6 I/O

VP 2

5 VN

I/O 3

4 I/O

CASE 318F TSOP−6

3

Capacitance* (pF) @ 0 V, 1.0 MHz Max

USB 2.0 NUP4304MR6

70

100

0.855

10

1.6

3.0

*Cj = Between I/O pin and ground.

Table 38. Four Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Min

Device

6

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

I/O 1

54

CASE 318G TSOP−6

3 12

6 I/O 5 VCC

GND 2

4 I/O

1/O 3

USB 2.0 NUP4302MR6

30

0.1

30

*Cj = Between I/O pin and ground.

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28

ON Semiconductor Selector Guide − Circuit Protection

Low Capacitance TVS/ESD Protection − Eight Line Table 39. . Eight Line Low Cap TVS/ESD Protection; Meets IEC61000−4−2, Level 4 Max Reverse Leakage Current

Breakdown Voltage VBR (V) Device

Min

Nom

Max

@ IT

IR

VRWM

(mA)

(mA)

(V)

8

Capacitance* (pF) @ 0 V, 1.0 MHz Typ

CASE 506AK DFN8

Max

Max Reverse Surge Current

Max Reverse Voltage @ IPP (Clamping Voltage)

Peak Power Rating (8×20 msec)

IPP (A)

VC (V)

Watts

13

20

1

8

2

7

3

6

4

5

1

NUP8010MN

5.3

5.6

5.9

1.0

1.0

3.3

*Cj = Between I/O pin and ground.

http://onsemi.com 255

13

17

1.6

ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters VBR (V)

Device Typ 3

IR(mA) Max

VRWM

Max

Cdiode (pF) @ 2.5 V (Note 21)

Resistor

Typ

CASE 463 SC−75 PLASTIC

Typ

Max

100

110

100

110

3

1

2

1 NZF220T

7.0

8.0

1.0

3.0

4 5 1 2

CASE 419A SC−88A

3

NZF220DF

7.0

6

8.0

1.0

CASE 463A SOT−563

1

10

1

4

3

5

3.0

7.5

1

4

3

5

NUF2220XV6

7.0

1.0

5.0

7.0

100

115

NUF2230XV6

7.0

1.0

5.0

16

100

110

1.0

5.0

17

100

115

100

120

6

5

4

1 2 NUF2240W1

CASE 419B SC−88

3

7.0

100 R 47 R A2

CASE 499AG−01 FLIP−CHIP

100 R

GND NUF3101FC

7.0

8.0

0.1

21. Line capacitance is 2x the diode capacitance (Cdiode).

http://onsemi.com 256

3.0

15

ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters (continued) VBR (V)

Device Typ

8

IR(mA) Max

@VRWM (V)

Max

Cdiode (pF) @ 2.5 V (Note 22)

Resistor

Typ

Typ

Max

12

100

115

CASE 517AK DFN8 (1.6 x 1.6 x 0.85 mm)

1

NUF4402MN

7.0

8.0

0.1

5.0

NUF4403MN

7.0

8.0

0.1

5.0

17

100

115

NUF4210MN

7.0

8.0

0.1

5.0

8.5

100

115

0.1

5.0

15

200

230

0.1

5.0

12

100

115

0.1

5.0

20

25

30

CASE 506AA DFN8 (2.0 x 2.0 x 0.85 mm)

1

NUF4401MN

7.0

8

CASE 517AD UDFN8 (1.2 x 1.8 0.5 mm)

1

NUF4001MU

7.0

8.0

CASE 517AD UDFN8 (1.2 x 1.8 0.5 mm)

8 1

NUF4152MU

8.0

7.0

8.0

22. Line capacitance is 2x the diode capacitance (Cdiode).

http://onsemi.com 257

ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters (continued) VBR (V)

Device Typ

Max

12

Cdiode (pF) @ 2.5 V (Note 23)

@VRWM (V)

Max

Resistor

Typ

Typ

Max

17

100

115

CASE 506AD DFN12 (1.35 x 3.0 x 0.85 mm)

1

NUF6402MN

IR(mA)

7.0

8.0

1.0

5.0

CASE 499D FLIP−CHIP 300 mm Bumps (1.35 x 3.0 x 0.65 mm)

NUF4105FC

7.0

12

8.0

0.1

3.3

23

100

120

CASE 506AD DFN12 (1.35 x 3.0 x 0.85 mm)

1

NUF6401MN

7.0

1.0

5.0

17

100

115

NUF6406MN

7.0

1.0

5.0

12

100

115

23. Line capacitance is 2x the diode capacitance (Cdiode).

http://onsemi.com 258

ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters (continued) VBR (V)

Device Typ

12

Max

@VRWM (V)

Max

Cdiode (pF) @ 2.5 V (Note 24)

Resistor

Typ

Typ

Max

5.0

17

100

115

CASE 517AE UDFN12 (1.2 x 2.5 x 0.5 mm)

1

NUF6001MU

IR(mA)

7.0

1.0

CASE 499D FLIP−CHIP 300 mm Bumps (1.35 x 3.0 x 0.65 mm)

NUF6106FC

7.0

8.0

0.1

3.3

10

100

120

NUF6105FC

7.0

8.0

0.1

3.3

23

100

120

12

100

115

16

CASE 507AC DFN16 (1.6 x 4.0 x 0.85 mm)

1

1 of 8 Filter Lines

NUF8401MN

7.0

8.0

0.1

5.0

NUF8402MN

7.0

8.0

0.1

3.3

17

100

115

NUF8410MN

7.0

8.0

0.1

5.0

8.5

100

115

24. Line capacitance is 2x the diode capacitance (Cdiode).

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ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters (continued) VBR (V)

Device Typ

1 7.0

Max

8.0

0.1

1 7.0

8.0

0.1

Resistor Typ

Max

100

115

25

30

1 of 8 Filter Lines 5.0

12

1 of 8 Filter Lines 5.0

CASE 499G FLIP−CHIP CSP (2.64 x 2.64 x 0.65 mm)

A1

Cdiode (pF) @ 2.5 V (Note 25) Typ

CASE 517AF UDFN16 (1.2 x 3.5 x 0.5 mm)

16

NUF8152MU

Max

@VRWM (V)

CASE 517AF UDFN16 (1.2 x 3.5 x 0.5 mm)

16

NUF8001MU

IR(mA)

20

1 of 10 Filter Lines

NUF9001FC

7.0

8.0

0.1

5.0

15

200

230

NUF9002FC

7.0

8.0

0.1

5.0

10

100

115

100

110

CASE 485F 24 PIN MLF 1 of 9 Filter Lines NZMM7V0T4

7.0

8.0

0.1

25. Line capacitance is 2x the diode capacitance (Cdiode).

http://onsemi.com 260

3.0

10

ON Semiconductor Selector Guide − Circuit Protection

Audio Filters VBR (V)

Device

IR(mA)

Typ

Max

@VRWM (V)

Cdiode (pF) @ 2.5 V (Note 26)

Max

Typ

C1

CASE 499J FLIP−CHIP

A1

Resistor Max

0.28

0.35

C2

L

L

C1

Typ

C2

Typical L = 2.9 nH NUF2441FC

14.5

17.7

0.1

12

100

VCC 15 kV Contact ESD Protection PGND LOW PASS FILTERING

CASE 499AE FLIP−CHIP

A1

IN

OUT 15 kV

IECL Level 1

Contact ESD

Contact ESD

Protection

Protection

PGND 15 kV Contact ESD

PGND

AGND

Protection

NMF3000FC

12

0.5

10

500

R

1 C CASE 506AA DFN8

1100

8 C

R

4

1

950

C

5 C

NUF2114MN

15.7

17.7

0.1

12

60

8.4

10

NUF2116MN

15.7

17.7

0.01

12

50

64

75

L

1 Cd CASE 506AA DFN8

L

4

1

8 Cd

Cd

5 Cd

Typical L = 10 nH NUF2070MN

15.7

17.7

0.1

26. Line capacitance is 2x the diode capacitance.

http://onsemi.com 261

12

64

2.4

3.5

ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters VBR (V)

Device Typ

IR(mA) Max

Cline (pF) @ 2.5 V

VRWM

Max

Resistor

Typ

Typ

Max

Rs

6

C

CASE 463A SOT−563

1

VBUS

GND

C Rs

NUF2030XV6

6.8

8.0

0.1

5.25

30

22

26.4

NUF2042XV6

6.8

8.0

0.1

5.25

42

22

26.4

5

6

D4

4

1 2

Rs2

Rpu

CASE 419B SC−88 (SOT−363)

3

D(IN)

C

A4 VBUS B4

D(OUT) D1 A2−D2 A3−D3 GND

C Rs1

A1 D(OUT)

D(IN)

NUF2015W1

6.8

8.0

0.1

5.25

42

15

18

NUF2221W1

6.8

8.0

0.1

5.25

42

22

26.4

6

5

D4

4

1 STF202−22

2

C

A4 VBUS B4

7.0

Rs2

Rpu

CASE 318G TSOP−6

3

D(IN)

8.0

5.0

C Rs1

D(IN)

5.25

D(OUT) D1 A2−D2 A3−D3 GND A1 D(OUT)

57

22

24

33

38

A3 1.3 C1 K

A1

1

B2

CASE 499AM FLIP−CHIP

7.8

C3

D2 (Gnd Pin) E1

NUF2222FC

33R

8.8

0.1

5.0

33R

34 RS

D+OUT

E3

D+IN

1

6

5

6 15 k

4

1

2

3

CASE 318G STYLE 10 TSOP−6

VBUS 2

5 15 k D−IN

D−OUT 3 NUF2101M

7.0

8.0

1.0

http://onsemi.com 262

4 5.25

46

30

33.7

ON Semiconductor Selector Guide − Circuit Protection

Data Line Filters (continued) VBR (V)

Device Typ

IR(mA)

Max

Max

@VRWM (V)

Cline (pF) @ 2.5 V Typ

D1

Max

C1

C1

R7 B1

R2

A2 D2

CASE 499AD FLIP−CHIP CSP

Typ

R1

A1

A3

Resistor

D11 D3

B2

R3

C3 B3

A1

C5 B4

C6

C8

C7 B5

C4 D6

C5 D8

R6

A6 D9

C3 D4

R5

A5 D7

C4 R4

A4 D5

C2

C2

C9

C6 D10

C10

NUF4107FC (Pin A1 to C1, Pin A2 to C2)

7.0

8.0

0.1

5.25

36

22

26

NUF4107FC (Pin A3 to C3, Pin A4 to C4, Pin A5 to C5, Pin A6 to C6)

7.0

8.0

0.1

5.25

60

100

120

http://onsemi.com 263

ON Semiconductor Selector Guide − Circuit Protection

http://onsemi.com 264

Clock and Data Management

http://onsemi.com 265

http://onsemi.com 266

ON Semiconductor Selector Guide − Clock and Data Management Devices

Clock and Data Management Table of Contents

In Brief…

Page Signal Translators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 268 Crosspoint Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 269 Clock Fan−out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 270 Clock Dividers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 272 Skew Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 273 Prescalers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 274 Clock Synthesizers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 274 Zero Delay Buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 275 EMI Suppression Clocks . . . . . . . . . . . . . . . . . . . . . . . . . 277 VCO (PLL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 277 Phase/Frequency Detectors . . . . . . . . . . . . . . . . . . . . . . 277 Flip−Flops . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 278 Latches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 280 Shift Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 281 Multiplexers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 282 Serial/Parallel Converter and Parallel/Serial Converters . . . . . . . . . . . . . . . . . . . . . . . . 283 Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 284 Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 285 Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 286 Parity Checkers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 286 Drivers/Receivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 287 Drivers/Buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 290

Advanced clock management devices from ON Semiconductor deliver superior performance by providing the lowest skew and lowest jitter with the highest operating frequencies. ON Semiconductor offers a complete family of Phase Lock Loop (PLL) based products for applications ranging from low cost portable MP3 players, to massive, mission critical servers. Our oscillator replacement ICs offer performance rivaling crystal oscillator solutions at a fraction of the cost, and our new Zero Delay Buffer family is one of the most complete in the industry. Lastly, ON Semiconductor has a series of EMI Suppression Clocks that utilize spread spectrum to minimize the peak electromagnetic interference emissions in consumer products. This portfolio of products makes designing any low skew, high frequency clock tree an easy task with a large range of clock distribution, generation and skew management devices. We address the needs of today’s systems whether operating at 2.5 V, 3.3 V or legacy systems at 5.0 V or −5.2 V. ON Semiconductor’s High Performance Data Management products are designed into state−of−the−art systems such as communication and networking switches, high−end servers, engineering workstations, high−density memory modules, storage networks and precision test and measurement systems. While our ECLinPSt families serve the market well at frequencies up to 6.0 GHz, GigaCommt family of silicon germanium products enables safe and reliable design up to 12 GHz. GigaComm delivers the performance necessary for high frequency applications, while maintaining the manufacturability and price point required for cost−effective volume production.

http://onsemi.com 267

LVPECL

LVTTL/LVCMOS

LVNECL/NECL

LVPECL/PECL PECL

LVTTL/LVCMOS

LVPECL

MC100EPT26

MC100EPT622

MC100LVEL90

MC100LVEL91

MC100LVEL92

MC100LVELT22

MC100LVELT23

MC100LVELT20

LVTTL/LVCMOS

TTL

LVNECL/NECL

MC100EPT25

PECL

LVTTL/LVCMOS

MC100EPT24

MC10ELT21

LVPECL

MC100EPT23

MC10ELT20

LVTTL/LVCMOS

MC100EPT22

PECL to TTL & TTL to PECL (Dual)

MC100ELT28

LVPECL

NECL

MC100ELT25

MC100EPT21

TTL

MC100ELT24

LVNECL/NECL

PECL

MC100ELT23

LVTTL/LVCMOS

TTL

MC100ELT22

MC100EPT20

5

PECL to TTL & TTL to PECL (Dual)

PECL

MC100ELT21

MC100EP90

5/−5.2

TTL

TTL

LVPECL

TTL

PECL

LVTTL

LVPECL

LVPECL

LVNECL

LVPECL

PECL (10−Bit)

LVTTL

LVTTL

LVPECL

LVTTL

LVPECL

LVTTL

LVPECL

LVPECL/PECL

NECL

TTL

PECL

TTL

PECL

3.3

3.3

5

5

3.3

3.3

3.3/5

3.3/5

0.66

800

TBD

100 MHz (min)*

>180

100 MHz (min)*

600

600

650

1500

275

275

>1000

350

1100

350

>1000

>3000

100

100

400

100

100 MHz (min)*

TBD

100 MHz (min)*

700

650

Freq. (Typ) MHz

268

http://onsemi.com

1

1

1

2

2

3

3

3

1

1

1

3.3/−3.3 to −5.2 3.3

1

2

2

1

1

3

2

1

1

2

2

1

1

3

3

# of Channels

3.3

3.3

3.3

3.3

3.3

0.66

5

5

5

5

5

3.3/5

MC100ELT20

NECL

LVPECL/PECL

3.3/5

Voltage

MC100EL91

PECL

To

LVNECL/NECL

From

MC100EL90

Device(s)

SIGNAL TRANSLATORS (Specifications are at 25°C unless otherwise stated)

ON Semiconductor Selector Guide − Clock and Data Management Devices

390

5500

1200

1700

350

610

620

500

450

1500

1100

530

1500

420

1400

370

260

3500 PECL−to−TTL/ 1200 TTL−to−PECL

3300*

950

3500

1200

5500

1200

670

500

Prop. Delay (Typ) ps

225

750 (10%−90%)

1500

600/900 (0.8−2.0 V)

500

580

580

500

250

900

1100/1400 (0.8−2.0 V)

180

600/900 (0.8−2.0 V)

220

600/900 (0.8−2.0 V)

180

180

1500

2300 (10%−90%)

1250

1600 (10%−90%)

1600

750 (10%−90%)

1500

400

500

Tr & Tf (Max) ps

SO−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−20

SO−20

LQFP−32

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−20

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−20

SO−20

Package

5

PECL to TTL & TTL to PECL (Dual)

LVTTL LVNECL/NECL

LVDS

LVDS

PECL to TTL & TTL to PECL (Dual)

LVNECL/NECL

LVTTL/LVCMOS

LVPECL

LVPECL/LVTTL/ LVCMOS/HSTL/ CML/LVDS

LVPECL/LVTTL/ LVCMOS/HSTL/ CML/LVDS

LVPECL/LVTTL/ LVCMOS/HSTL/ CML/LVDS

MC10ELT28

MC10EP90

MC10EPT20

NB100ELT23L

NB100LVEP91

*NB4N5275

*NB4N8555

LVPECL/CML

LVPECL/CML

Any Level

NB4N840M

NBSG72A

From

NB4L858M

Device(s)

CROSSPOINT SWITCHES

*Duplicate in Receiver/Driver category.

5/−5.2

TTL

NECL

LVPECL (w/o LS)

CML

CML

To

LVPECL

2.5/3.3

3.3

2.5/3.3

3.3

3.3

2.5/3.3

3.3

3.3

0.66

Voltage

LVPECL/PECL

5

MC10ELT25

NECL

TTL

5

Voltage

MC10ELT24

PECL

To

TTL

From

MC10ELT22

Device(s)

2

2+2

2+2

# of Outputs

269

7000

2700

3000

Freq. (Typ) MHz

1000

1250

2500

275

>1000

>3000

100

100

400

100MHz (min)*

Freq. (Typ) MHz

http://onsemi.com

2

2+2

2+2

# of Inputs

2

2

3

2

1

3

2

1

1

2

# of Channels

SIGNAL TRANSLATORS (continued) (Specifications are at 25°C unless otherwise stated)

200

225

350

Prop. Delay (Typ) ps

490

500

430

2.1

370

260

3500 PECL−to−TTL/ 1200 TTL−to−PECL

3300*

950

1200

Prop. Delay (Typ) ps

55

80

80

Tr & Tf (Max) ps

180

300

85 (typ)

1300

180

180

1500

2300 (10%−90%)

1250

1600

Tr & Tf (Max) ps

QFN−16

QFN−32

LQFP−32

Package

Micro10

QFN−16

SO−20, QFN−24

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−20

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

SO−8/TSSOP−8

Package

ON Semiconductor Selector Guide − Clock and Data Management Devices

ECL/PECL

ECL/PECL

ECL/PECL/HSTL

ECL/PECL/HSTL

MC100LVEP11

MC100LVEP111

MC100LVEP14

MC100LVEP210

ECL/PECL

ECL/PECL

MC100LVEL14

MC10E211

ECL/PECL

MC100LVEL13

ECL/PECL

ECL/PECL

MC100LVEL11

MC10E111

ECL/PECL

ECL/PECL/HSTL

MC100EP14

MC100LVE310

ECL/PECL

MC100EP11

ECL/PECL

ECL/PECL

MC100EL15

ECL/PECL

ECL/PECL

MC100EL14

MC100LVE210

ECL/PECL

MC100EL13

MC100LVE111

ECL/PECL

MC100EL11

LVDS/PECL

ECL/PECL

MC100E310

ECL/PECL/HSTL

ECL/PECL

MC100E211

MC100EP809

ECL/PECL

MC100EP210S

ECL/PECL

MC100E210

Input Clock

MC100E111

Device(s)

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

HSTL

LVDS

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

ECL/PECL

Output Clock

5

5

2.5/3.3

2.5/3.3

2.5/3.3

2.5/3.3

3.3

3.3

3.3

3.3

3.3

3.3

3.3

3.3

3.3/5

3.3/5

5

5

5

5

5

5

5

5

Voltage

1

1

2

1

1

1

1

2

1

1

2

1

1

2

1

1

1

1

2

1

1

1

2

1

6

9

5

5

10

2

5

3

2

8

4/5

9

9

5

5

2

4

5

3

2

8

6

4/5

9

# of Outputs per Channel

270

>1.5

>1.5

>3

>2

>3

>3

>1

1

>3

1.5

0.7

>1.5

>0.75

>1

>2

>3

1

1

1

2

1

>1.5

0.7

>1.5

Frequency (Typ) GHz

http://onsemi.com

# of Input Channels

CLOCK FAN−OUT (Specifications are at 25°C unless otherwise stated)

ON Semiconductor Selector Guide − Clock and Data Management Devices

75

50

20

25

25

20

50

50

20

50

75

20

15

20

45

20

50

50

50

5

50

75

75

50

Output−to−Output Skew (Max) ps

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

1.4

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

Cycle−to−Cycle Jitter (Typ/Max) ps

400

600

270

250

150

180

500

500

180

600

600

600

600

225

270

180

575

500

500

350

600

400

600

600

Tr & Tf (Max) ps

PLCC−28

PLCC−28

LQFP−32

TSSOP−20

LQFP−32, QFN−32

SO−8, TSSOP−8

SOIC−20

SO−20

SO−8, TSSOP−8

PLCC−28

PLCC−28

PLCC−28

LQFP−32

LQFP−32

TSSOP−20

SO−8, TSSOP−8

SO−16

SO−8, TSSOP−8

SO−20

SO−8, TSSOP−8

PLCC−28

PLCC−28

PLCC−28

PLCC−28

Package

RSPECL/RSECL RSPECL/RSECL

LVECL/LVPECL

CML CML CML LVDS CML

ECL/PECL/TTL/ CMOS/CML/LVDS

LVPECL, LVDS, CML, LVCMOS or LVTTL

ECL/TTL/ CMOS/CML/LVDS

ECL/TTL/ CMOS/CML/LVDS

ECL/TTL/ CMOS/CML/LVDS

ECL/TTL/ CMOS/CML/LVDS

ECL/TTL/ CMOS/CML/LVDS

NBSG14

NB6L11

NB7L11M

NB7L14M

NB7L111M

NB4N11S

NB4N11M

NB100LVEP224

HSTL ECL/PECL

ECL/PECL/TTL/ CMOS/CML/LVDS

ECL/PECL/HSTL

NB100LVEP221

NBSG111

ECL/PECL/HSTL

NB100EP223

ECL/PECL

RSPECL/RSECL

ECL/PECL

MC10LVEP11

ECL/PECL

NBSG11

ECL/PECL

MC10EP11

ECL/PECL

ECL/PECL

ECL/PECL

MC10EL15

ECL/PECL

ECL/PECL

ECL/PECL

MC10EL11

ECL/PECL

Output Clock

ECL/TTL/CMOS/ CML/LVDS

ECL/PECL

Input Clock

MC10E411

Device(s)

3.3

3.3

2.5/3.3

2.5/3.3

2.5/3.3

2.5, 3.3

2.5/3.3

2.5/3.3

2.5/3.3

2.5/3.3

2.5/3.3

3.3

2.5/3.3

3.3/5

5

5

5

Voltage

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

2

2

10

5

2

2

5

10

2

24

20

22

2

2

4

2

9

# of Outputs per Channel

271

2.5

2.0

>5.5

>8

>8

>6

12

>6

>12

>1

>1

>0.5

>3

>3

1

2

1

Frequency (Typ) GHz

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# of Input Channels

CLOCK FAN−OUT (continued) (Specifications are at 25°C unless otherwise stated)

25

25

20

15

15

15

15

15 (typ)

15

15

20

25

20

20

50

5

50

Output−to−Output Skew (Max) ps

1

0.5

0.2

0.2

0.2

0.2

0.5

0.2

0.5

0.2

0.2

0.2

0.2

0.2

0.2

0.2

0.2

Cycle−to−Cycle Jitter (Typ/Max) ps

300

170

75

60

60

120

55

40 (typ)

30

160 (min)

200 (typ)

700

180

180

575

350

600

Tr & Tf (Max) ps

TSSOP−8

QFN−16

QFN−52

QFN−16

QFN−16

SO−8, TSSOP−8

FCBGA−16

FCBGA−14

FCBGA−16

LQFP−64

LQFP−52

LQFP−64

SO−8, TSSOP−8

SO−8, TSSOP−8

SO−16

SO−8, TSSOP−8

PLCC−28

Package

ON Semiconductor Selector Guide − Clock and Data Management Devices

ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL

ECL/PECL

ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL ECL/PECL

MC100EL33

MC100EL34

MC100EL38

MC100EL39

MC100EP139

MC100EP32

MC100EP33

MC100LVE222

MC100LVEL32

MC100LVEL33

MC100LVEL34

MC100LVEL37

MC100LVEL38

MC100LVEL39

MC100LVEP34

MC10EL32

MC10EL33

MC10EL34

MC10EP139

MC10EP32

Output

MC100EL32

Device(s)

Div2

Div2/4, Div4/5/6

Div2, Div4, Div8

Div4

Div2

Div2, Div4, Div8

Div2/4, Div4/6

Div2 Div4/6

Div1 Div2

Div2, Div4, Div8

Div4

Div2

1:15 Diff. Div1, Div2

Div4

Div2

Div2/4, Div4/5/6

Div2/4, Div4/6

Div2, Div4/6

Div2, Div4, Div8

Div4

Div2

Frequency Division

1

1

1

1

1

1

1

1

2

1

1

1

2

1

1

1

1

1

1

1

1

1

2+2

1+1+1

1

1

1+1+1

2+2

2+2

2+2

1+1+1

1

1

15

1

1

2+2

2+2

2+2

1+1+1

1

1

Outputs per Bank

3.3/5

3.3/5

5

5

5

3.3

3.3

3.3

3.3

3.3

3.3

3.3

3.3

3.3/5

3.3/5

3.3/5

5

5

5

5

5

Voltage

272

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# of Channels

CLOCK DIVIDERS (Specifications are at 25°C unless otherwise stated)

ON Semiconductor Selector Guide − Clock and Data Management Devices

>4

>1

1.1

>4

>3

2.8

1

1

1

1.5

>4

>2.6

1.5

>4

>4

>1

1

1

1.1

>4

>3

Frequency (Typ) GHz

350

750

1000

650

510

700

900

900

700

700

630

510

1180

320

350

750

900

900

1000

650

510

Propagation Delay (Typ) ps

0.2 / 1.0

0.2 / 1.0

1

>1.8

>2.5

>1

>1

2.2

2.2

2.05

2.05

2.2

2.2

2.05

2.05

2.5/3.3

3.3

3.3

2.5, 3.3

2.5/3.3

2.5/3.3

3.3/5

Voltage

273

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12.2

12.2

2.6

2.6

12.2

12.2

2.6

2.6

10

10

20

20

10

10

20

20

200

500

470

470

210

875

320

4

>3

>3

>3

3

>3

2.8

2.8

2.2

2.8

1.2

1.1

1.1

1.1

Freq. (Typ) GHz

475

450

580

330

375

410

340

420

460

365

475

525

475

450

580

600

500

Prop. Delay (Typ) ps

278

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3.3/5

3.3/5

3.3/5

5

5

5

Voltage

Description

Device(s)

FLIP−FLOPS (Specifications are at 25°C unless otherwise stated)

ON Semiconductor Selector Guide − Clock and Data Management Devices

150

150

0

50

100

150

100

100

120

125

150

150

150

150

0

200

150

Setup Time (Min) ps

250

200

100

0

100

150

150

100

120

150

250

250

250

200

100

200

175

Hold Time (Min) ps

400

400

100

N/A

150

150

225

150

290

N/A

400

400

400

400

100

400

290

Set/ Reset Recovery (Min) ps

3

3.4

Dual Diff. (OR’ed) Diff.

>3

1.1

1.1

0.9

Diff.

Diff.

Diff.

S.E.

0.9

0.9

S.E.

0.9

S.E.

Freq. (Typ) GHz

Dual S.E. (OR’ed)

Clock Source

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5

5

5

5

5

5

5 V ECL 9−Bit Shift Register

MC10E142

5

5 V ECL 8−Bit Shift Register

MC10E141

5

5

5

5

5

5

5

5 V ECL 8−Bit Shift Register

MC100E141

Voltage

Description

Device(s)

SHIFT REGISTERS (Specifications are at 25°C unless otherwise stated)

1500

450

675

600

650

650

800

800

750

450

675

460

600

650

750

800

650

800

800

750

Prop. Delay (Typ) ps

1500

80

50

175

150

150

50

50

175

80

50

120

175

150

175

175

150

50

50

175

Setup Time (Min) ps

1000

80

100

225

350

350

300

300

200

80

100

120

225

350

200

250

350

300

300

200

Hold Time (Min) ps

N/A

250

800

750

750

750

900

900

900

250

800

290

750

750

900

600

750

900

900

900

Set/ Reset Recovery (Min) ps

N/A

0.2

1

1

>1

>1

>1

1

>1

>1

>1

>1

Freq. (Typ) GHz

ON Semiconductor Selector Guide − Clock and Data Management Devices

60

70

50

75

50

100

N/A

80

50

N/A

200

100

100

N/A

100

80

40

50

60 (typ)

75

50 (typ)

40

60

70

Within Device Skew (Max) ps

1.25

>10

>6

>12

>12

>2.5

>4

>3

>4

Freq. (Typ) GHz

550

120

220

275

120

130

125

120

250

240

220

300

Prop. Delay (Typ) ps

1

0.1

0.2

0.5

0.2

0.2

0.8

0.3

0.5

0.2

0.2

0.2

Jitter (Typ) ps RMS

150

45

90

140

53

120

55

65

240

180

230

180

Tr/Tf (Max) ps

TSSOP−8

QFN−16

QFN−16

QFN−16

QFN−16

SO−8, TSSOP−8

FCBGA−16, QFN−16

FCBGA−16, QFN−16

TSSOP−20, QFN−24

SO−8, TSSOP−8

SO−20, TSSOP−20

SO−8, TSSOP−8

Package

ON Semiconductor Selector Guide − Clock and Data Management Devices

5 V ECL Quad Driver

5 V ECL 3−Bit Scannable Registered Address Driver 5 V ECL 9−Bit Buffer 5 V ECL Quad Driver

5 V ECL 3−Bit Scannable Registered Address Driver 5 V ECL 9−Bit Buffer

MC10E122

MC100E112

MC100E212

MC100E122

3.3 V ECL Low Impedance 1:2 Driver

MC100LVEL12

MC10E212

5 V ECL Low Impedance 1:2 Driver

MC100EL12

MC10E112

5 V ECL Low Impedance 1:2 Driver

Description

MC10EL12

Device(s)

DRIVERS/BUFFERS (Specifications are at 25°C unless otherwise stated)

290

Outputs

S.E.

OR/NOR ECL

OR/NOR ECL

S.E.

OR/NOR ECL

OR/NOR ECL

OR/NOR ECL

OR/NOR ECL

OR/NOR ECL

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5

5

5

5

5

5

3.3

5

5

Voltage

ON Semiconductor Selector Guide − Clock and Data Management Devices

350

800

400

350

800

400

445

290

290

Propagation Delay (Typ) ps

75

50

40

75

50

40

N/A

N/A

N/A

Within Gate Skew (Max) ps

800

650

700

800

650

700

550

550

550

Tr/Tf (Max) ps

PLCC−28

PLCC−28

PLCC−28

PLCC−28

PLCC−28

PLCC−28

SO−8, TSSOP−8

SO−8, TSSOP−8

SO−8, TSSOP−8

Package

ON Semiconductor Selector Guide − Clock and Data Management Devices

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ON Semiconductor Selector Guide − Clock and Data Management Devices

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Interface Table of Contents Line Receivers − EIA Standard . . . . . . . . . . . . . . . Line Drivers − EIA Standard . . . . . . . . . . . . . . . . . Peripheral Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . Modulator/Demodulators . . . . . . . . . . . . . . . . . . . . Timers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Smart Card and SIM Card Interface . . . . . . . . . . .

http://onsemi.com 293

Page

294 294 294 295 295 295

S

Single Ended Differential

R (Note 27)

Type of Output 85

Time Max (ns)

tprop Delay

35

350

300

85

10

60

18

500

Output Current Capability (mA)

TTL, 5.0 V CMOS

Input Capability

PERIPHERAL DRIVERS

tprop Delay Time Max (ns)

Output Current Capability (mA)

1.0

Propagation Delay Time Max (ms)

D

S/D

S

D

S = Single Ended D = Differential

LINE DRIVERS − EIA STANDARD

27. R = Resistor Pull−up, TP = Totem−pole output.

D=

S=

LINE RECEIVERS − EIA STANDARD

Data Transmission

Output Clamp Diode

Party Line Operation

Party Line Operation

ON Semiconductor Selector Guide − Interface

+5.0

50

Off State Voltage Max (V)

294

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MC1413B

Device

7

Drivers Per Package

MC3488A

±10.8 to ±13.2

MC26LS30

±5.0

EIA−422 √ EIA−423 −

MC1488

MC75174B MC75172B

±9.0 to ±12

+5.0

MC1489 MC1489A

Device

DIP−16, SO−16

Device

Suffix/

1 (423) 1 (232)

DIP−16, SO−16

Invert

Logic Function

Dual EIA−423 EIA−232D

EIA−422 or EIA−423 Switchable −

4 (423) 2 (422)

Package

SO−8

SO−16

EIA−232−D

MC1489 MC1489A 4

DIP−8, SO−8

Comments

EIA−232−D

Comments

EIA−485

Companion Drivers

MC1488 MC14C88B

Companion Drivers

4

Receivers Per Package

4

Receivers Per Package

SO−20L

Suffix/ Package

Suffix/ Package

Power Supplies (V)

Power Supplies (V)

Strobe or Enable

Strobe or Enable

−40

−40

0

0

MC1496BD

MC1496BP

MC1496D

MC1496P

0 0 −40

MC1455D

MC1455P

NCV1455B

SIM Card Power Supply/Level Translator

Dual SIM/Smart Card Interface

Compact Smart Card Interface

Compact Smart Card Interface

Dual Asynchronous/Synchronous Smart Card Interface

Power Management and Level Shifter for SIM Cards

NCN4557

NCN6000

NCN6001

NCN6004A

NCN6010

Description

125

70

70

85

TA (max) (°C)

40

40

40

40

2.7

1.8

2.7

2.7

1.8

1.8 0.03

0.03

20

0.5

5

295

3.5

3.5

3.5

3.5

AVS (typ) (V)

2

50

60

15

3

4

II(standby) (max) (mA)

16

16

16

16

VCC (max) (V)

IT (typ) (mA)

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6

5.5

6

6

5.5

5.5

VCC (max) (V)

4.5

4.5

4.5

4.5

65

65

65

65

VCS (typ) (mV)

VCC (min) (V)

20

20

20

20

VCFT (typ) (mV)

VCC (min) (V)

Zos (typ) (kW)

NCN4555

Product

SMART CARD AND SIM CARD INTERFACE

−40

MC1455B

200

200

200

200

Zis (typ) (kW)

TA (min) (°C)

70

70

125

125

TA (max) (°C)

Product

TIMERS

TA (min) (°C)

Product

MODULATOR/DEMODULATORS

10

40

40

5

5

fClock (max) (MHz)

1

1

1

1

12

12

12

12

IIB (typ) (mA)

ET (max) (%)

300

300

300

300

BW (typ) (MHz)

Packages

PDIP−14

SOIC−14

PDIP−14

SOIC−14

Packages

TSSOP−14

QFP−48

TSSOP−20

TSSOP−20

QFN−16

QFN−16

Packages

SOIC−8 Narrow Body

PDIP−8

SOIC−8 Narrow Body

SOIC−8 Narrow Body

85

85

85

85

ACM (typ) (dB)

ON Semiconductor Selector Guide − Interface

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Standard Logic

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ON Semiconductor Selector Guide − Standard Logic

Standard Logic Table of Contents

In the low voltage standard logic arena, ON Semiconductor offers the following families: VCX: This is the fastest, lowest voltage logic family offered by ON Semiconductor. Ten devices in all are offered, with five of the most popular functions, as well as five enhanced devices with a bus hold option. It is specified at 0.9 V to 3.6 V, is offered in the industry standard 48 pin TSSOP package and is specifically well suited for networking/ communication equipment applications, demanding high speed and low power. LCX: LCX is fast becoming the industry “workhorse” product family in 3.0 V applications. This family features 5.0 V tolerant inputs and outputs and is especially suited for mixed−voltage, high−end, advanced workstation designs, as well as for low−power portable applications. LVX: LVX is specified from 2.0 V to 3.6 V and is similar tin performance to VHC, but with lower output drive. It too has overvoltage tolerant (OVT) inputs to 7.0 V, allowing the interface of 5.0 V systems to 3.0 V systems. This family is available in industry standard JEDEC SOIC, EIAJ SOIC, and the popular TSSOP packages. It is specified at –55 to +125_C. VHC: This “5.0 V to 3.0 V transitional family” is specified at 2.0 V to 5.5 V. When operating at supply voltages below 5.0 V, this family features 5.0 V tolerant inputs to support 3.0 V to 5.0 V mixed voltage system designs. Low power, low switching noise and fast switching speeds make this family perfect for low power, low cost applications. The VHCT functions offer TTL level compatibility with CMOS low power performance. VHCT accepts TTL level inputs and delivers full swing (4.5 V to 5.5 V) outputs. The supply voltage range for VHCT is VCC = 4.5 V − 5.5 V. The temperature range for this family is also –55 to +125_C and is also available in the same packages as LVX family. There are three families offered in the more mature 5.0 V and greater operating voltage arena. FACT (AC/ACT), High Speed (HC/HCT) and Metal Gate (14000 series), remain as the legacy logic families. These families, although past the maturity stage in the industry product life cycle, continue to find new applications and will remain industry standards for many more years.

Page

MiniGates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300 VHC One−Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300 HC One−Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300 LCX One−Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 301 LCX Two− and Three−Gates . . . . . . . . . . . . . . . . . . . 301 VCX One Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302 NLU Multi−Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302 Low Voltage Standard Logic . . . . . . . . . . . . . . . . . . . . . . . 303 VCX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303 VHC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303 LCX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 301 LVX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 305 5.0 V and Greater Standard Logic . . . . . . . . . . . . . . . . . . 308 High Speed CMOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 308 AC/ACT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 311 Metal Gate CMOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 314 Logic Special Functions . . . . . . . . . . . . . . . . . . . . . . . . . . 316 Translators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 317

In Brief… This selector guide is a quick reference to ON Semiconductor’s offering of exciting new Analog Switches and MiniGatet products as well as the traditional standard logic integrated circuits. ON Semiconductor continues to increase the breadth of its portfolio offering in the MiniGate arena, and continues to offer the traditional industry standard IC Logic families that have become the foundation for a multitude of legacy electronic systems. The company’s standard logic portfolio provides designers with a wide selection of voltages and speed/drive combinations to meet their application needs. The MiniGate family of devices takes advantage of ON Semiconductor’s world class discrete micropackaging manufacturing technology to enable best−in−class products. The technologies offered in the MiniGate family are direct “relatives” of the standard IC Logic products, designed and manufactured in the same CMOS based technology. These include Analog Switch, LCX, VHC and HC technologies, with the majority of the popular functions available in these different families in industry standard 5, 6 and 8 pin packages. The traditional industry standard Logic IC offerings consist of families in the high voltage standard logic arena (5.0 V and greater).

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ON Semiconductor Selector Guide − Standard Logic

MiniGates VHC One−Gates Ordering Suffixes:

TSSOP−5 = DTT1, SC−88A = DFT2 (available in T & R only), G = Pb−free

Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

MC74VHC1G00

2−Input NAND Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT00

2−Input NAND Gate (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G01

2−Input NAND Gate (Open Drain)

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G02

2−Input NOR Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT02

2−Input NOR Gate (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G03

2−Input NOR Gate (Open Drain)

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G04

Inverter

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT04

Inverter (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1GU04

Inverter (Unbuffered)

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G05

Inverter w/Open−Drain Output

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G07

Buffer w/Open−Drain Output

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G08

2−Input AND Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT08

2−Input AND Gate (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G09

2−Input AND Gate (Open Drain)

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G14

Schmitt Trigger−Inverter

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT14

Schmitt Trigger Inverter (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G32

2−Input OR Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT32

2−Input OR Gate (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G50

Buffer

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT50

Buffer (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G66

Analog Switch

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT66

Analog Switch

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G86

2−Input Exclusive−OR Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT86

2−Input Exclusive−OR Gate (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G125

Bus Buffer (3−State)

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT125

Non−Inverting Tri−State Buffer, Low Enable

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G126

Non−Inverting Tri−State Buffer, High Enable

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1GT126

Bus Buffer Gate (3−State) (TTL Compatible)

TSOP−5, SC−88A

−55 to +125

3.0 to 5.5 V

MC74VHC1G132

Quad 2−Input Schmitt NAND Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

MC74VHC1G135

2−Input NAND Schmitt−Trigger with Open Drain Output

TSOP−5, SC−88A

−55 to +125

2.0 to 5.5 V

Surface Mount Packages

Temperature

Operating Voltage

HC One−Gates Ordering Suffixes:

TSSOP−5 = DTT1, SC−88A = DFT2 (available in T & R only), G = Pb−free

Part Number

Description

MC74HC1G00

2−Input NAND Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

MC74HC1G02

2−Input Positive−NOR Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

MC74HC1G04

Inverter

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

MC74HC1G08

2−Input AND Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

MC74HC1G14

Inverter with Schmitt Trigger

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

MC74HC1G32

2−Input OR Gate

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

MC74HC1GU04

Inverter (Unbuffered)

TSOP−5, SC−88A

−55 to +125

2.0 to 6.0 V

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ON Semiconductor Selector Guide − Standard Logic LCX One−Gates Ordering Suffixes:

SC−88/A = DFT2, US = US8 (available in T & R only), G = Pb−free, UDFN6 = MUR2

Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

SC−88A, UDFN6

−40 to +85

1.65 to 5.5 V

SC−88, UDFN6

−40 to +85

1.65 to 5.5 V

NL7SZ18

2:1 Multiplexer, Tri−State

NL7SZ19

2:1 Multiplexer

NL17SZ00

Single 2−Input NAND Gate

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ02

Single 2−Input NOR Gate

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ04

Single Inverter

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ06

Inverter w/Open Drain Outputs

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ07

Buffer w/Open−Drain Output

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ08

Single 2−Input AND Gate

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ14

Schmitt Trigger Inverter

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ16

Single Buffer

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ17

Non−Inverting Schmitt Trigger Buffer

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ32

Single 2−Input OR Gate

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

NL17SZ74

D Flip−Flop

US8

−40 to +85

1.65 to 5.5 V

NL17SZ86

Exclusive OR Gate

SC−88A

−40 to +85

1.65 to 5.5 V

NL17SZ125

Non−Inverting Tri−State Buffer, Low Enable

SC−88A

−40 to +85

1.65 to 5.5 V

NL17SZ126

Non−Inverting Tri−State Buffer, High Enable

SC−88A

−40 to +85

1.65 to 5.5 V

NL17SZU04

Single Inverter, Unbuffered

SC−88A, SOT−553

−40 to +85

1.65 to 5.5 V

Surface Mount Packages

Temperature

Operating Voltage

LCX Two−Gates and Three−Gates Ordering Suffixes:

TSSOP−5/6 = DTT1, SC−88/A = DFT2, US = US8 (available in T & R only), G = Pb−free

Part Number

Description

NL27WZ00

Dual 2−Input NAND Gate

US8

−40 to +85

1.65 to 5.5 V

NL27WZ02

Dual 2−Input NOR Gate

US8

−40 to +85

1.65 to 5.5 V

NL27WZ04

Dual Inverter

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

NL27WZ06

Dual Inverter w/Open Drain Outputs

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

NL27WZ07

Dual Non−Inverting Bufffer, Open Drain

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

NL27WZ08

Dual 2−Input AND Gate

US8

−40 to +85

1.65 to 5.5 V

NL27WZ14

Dual Schmitt Trigger Inverter

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

NL27WZ16

Dual Non−Inverting Buffer

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

NL27WZ17

Dual Non−Inverting Schmitt Trigger Buffer

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

NL27WZ32

Dual 2−Input OR Gate

US8

−40 to +85

1.65 to 5.5 V

NL27WZ86

Dual Exclusive OR Gate

US8

−40 to +85

1.65 to 5.5 V

NL27WZ125

Dual Non−Inverting Tri−State Buffer, Low Enable

US8

−40 to +85

1.65 to 5.5 V

NL27WZ126

Dual Non−Inverting Tri−State Buffer, High Enable

NL27WZU04

Dual Inverter, Unbuffered

NL37WZ04

US8

−40 to +85

1.65 to 5.5 V

TSOP−6, SC−88

−40 to +85

1.65 to 5.5 V

Triple Inverter

US8

−40 to +85

1.65 to 5.5 V

NL37WZ06

Triple Inverter w/Open Drain Outputs

US8

−40 to +85

1.65 to 5.5 V

NL37WZ07

Triple Non−Inverting Buffer, Open Drain

US8

−40 to +85

1.65 to 5.5 V

NL37WZ14

Ttriple Schmitt Trigger Inverter

US8

−40 to +85

1.65 to 5.5 V

NL37WZ16

Triple Buffer

US8

−40 to +85

1.65 to 5.5 V

NL37WZ17

Triple Non−Inverting Schmitt Trigger Buffer

US8

−40 to +85

1.65 to 5.5 V

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ON Semiconductor Selector Guide − Standard Logic VCX One Gates Ordering Suffixes:

XV5T2 = SOT−553 (available in T & R only), G = Pb−free

Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

NL17SV00

Single 2−Input NAND Gate

SOT−553

−40 to +85

0.9 to 3.6 V

NL17SV02

Single 2−Input NOR Gate

SOT−553

−40 to +85

0.9 to 3.6 V

NL17SV04

Single Inverter

SOT−553

−40 to +85

0.9 to 3.6 V

NL17SV08

Single 2−Input AND Gate

SOT−553

−40 to +85

0.9 to 3.6 V

NL17SV16

Single Buffer

SOT−553

−40 to +85

0.9 to 3.6 V

NL17SV32

Single 2−Input OR Gate

SOT−553

−40 to +85

0.9 to 3.6 V

NLU Multi−Gates Part Number

Description

Operating Voltage (V)

Package Type

Size

Production

NLU1G04MUTCG

Single Inverter

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1G14MUTCG

Single Inverter, Schmitt Input

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT04MUTCG

Single Inverter, TTL Level

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT14MUTCG

Single Inverter, Schmitt Input,TTL Level

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT50MUTCG

Single Buffer Non Inverting, TTL Level

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GU04MUTCG

Single Inverter Unbuffered

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1G07MUTCG

Single Non Inverting Buffer, Open Drain

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1G08MUTCG

Single 2−Input AND Gate

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1G32MUTCG

Single 2−Input OR Gate

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1G86MUTCG

Single 2−Input Exclusive OR Gate

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT32MUTCG

Single 2−Input OR Gate, TTL Levels

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT86MUTCG

Single 2−Input Exclusive OR Gate, TTL Levels

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT125MUTCG

Non−Inverting 3−State Buffer, TTL Levels

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU1GT126MUTCG

Non−Inverting 3−State Buffer, TTL Levels

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2G04MUTCG

Dual Inverter

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2G06MUTCG

Dual Inverter, Open Drain

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2G07MUTCG

Dual Buffer, Open Drain

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2G14MUTCG

Dual Inverter, Schmitt

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2G16MUTCG

Dual Buffer

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2G17MUTCG

Dual Buffer Schmitt

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU2GU04MUTCG

Dual Unbuffered Inverter

1.65 to 5.5

UDFN6

1.2 mm x 1.0mm x 0.5 mm

2Q07

NLU3G14MUTCG

Triple Inverter, Schmitt

1.65 to 5.5

UDFN8

1.8 mm x 1.2 mm x 0.5 mm

2Q07

NLU3G16MUTCG

Triple Buffer

1.65 to 5.5

UDFN8

1.8 mm x 1.2 mm x 0.5 mm

2Q07

NLU3G17MUTCG

Triple Non Inverting Schmitt Trigger Buffer

1.65 to 5.5

UDFN8

1.8 mm x 1.2 mm x 0.5 mm

2Q07

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ON Semiconductor Selector Guide − Standard Logic

Low Voltage Standard Logic VCX Ordering Suffixes: DTR = TSSOP T & R, MNR2 = DFN, G = Pb−free Part Number

Description

74VCXH245

8−Bit Bus Buffer (3−State, Bus Hold)

74VCXH16245

16−Bit Bus Transceiver (3−State, Bus Hold)

Surface Mount Packages

Temperature

Operating Voltage

QFN−20

−40 to +85

1.65 to 3.6 V

TSSOP−48

−40 to +85

1.65 to 3.6 V

VHC Ordering Suffixes:

D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free

Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

MC74VHC00

Quad 2−Input NAND Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT00A

Quad 2−Input NAND Gate (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC02

Quad 2−Input Positive−NOR Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT02A

Quad 2−Input Positive−NOR Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC04

Hex Inverter

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT04A

Hex Inverter (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHCU04

Hex Inverter (Unbuffered)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHC08

Quad 2−Input AND Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT08A

Quad 2−Input AND Gate, TTL Compatible

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC14

Hex Schmitt Trigger

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT14A

Hex Schmitt Trigger, TTL Compatible

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC32

Quad 2−Input OR Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT32A

Quad 2−Input OR Gate (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC50

Hex Buffer

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT50A

Hex Buffer (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC74

Dual D Flip−Flop w/Preset and Clear

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT74A

Dual D Flip−Flop w/Preset and Clear (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC86

Quad Exclusive−OR Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT86A

Quad 2−Input Exclusive−OR Gate (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC125

Quad Bus Buffer (3−State)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT125A

Quad Bus Buffer Gate (3−State) (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC126

Quad Bus Buffer (3−State)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT126A

Quad Bus Buffer Gate (3−State) (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC132

Quad 2−Input Schmitt NAND Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT132A

Quad 2−Input Schmitt NAND Gate

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC138

3−to−8 Line Decoder/Demultiplexer

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC74VHCT138A

3−to−8 Line Decoder (TTL Compatible)

SO−16, TSSOP−16, EIAJ−16

−55 to +125

4.5 to 5.5 V

MC74VHC139

Dual 2−to−4 Line Decoder/Demultiplexer

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC74VHCT139A

Dual 2−to−4 Line Decoder/DeMultiplexer (TTL Compatible)

SO−16, TSSOP−16, EIAJ−16

−55 to +125

4.5 to 5.5 V

MC74VHC157

Quad 2−Channel Multiplexer

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC74VHCT157A

Quad 2−to−1 Data Selector/Multiplexer (TTL Compatible)

SO−16, TSSOP−16, EIAJ−16

−55 to +125

4.5 to 5.5 V

MC74VHC240

Octal Bus Buffer (3−State/Inverted)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT240A

Octal Bus Buffer (3−State/Inverted) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

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ON Semiconductor Selector Guide − Standard Logic VHC (continued) Ordering Suffixes:

D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free

Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

MC74VHC244

Octal Bus Buffer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT244A

Octal Bus Buffer (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC245

Octal Bus Transceiver (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT245A

Octal Bus Transceiver (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC257

Quad 2−Line to 1−Line Data Selectors/Multiplexer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT257A

Quad 2−to−1 Data Selectors/Mux (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC259

8−Bit Addressable Latch

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHCT259A

8−Bit Addressable Latch (TTL Compatible)

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74VHC373

Octal D−Type Latch (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT373A

Octal D−Type Latch (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC374

Octal D−Type Flip−Flop (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT374A

Octal D−Type Flip−Flop (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC540

Octal Bus Buffer (3−State/Inverted)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT540A

Octal Bus Buffer (3−State/Inverted) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC541

Octal Bus Buffer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT541A

Octal Bus Buffer (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC573

Octal D−Type Latch (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT573A

Octal D−Type Latch (3−State) (TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC574

Octal D−Type Flip−Flop (3−State)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74VHCT574A

Octal D−Type Flip−Flop (3−State)(TTL Compatible)

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74VHC4051

8−to−1 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC74VHC4052

Dual 4 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC74VHC4053

Triple 2 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC74VHC4066

Quad Analog Switch

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC74VHC4316

Quad Analog Switch w/Translator

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

LCX Ordering Suffixes:

D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free

Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

MC74LCX00

Quad 2−Input NAND Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX02

Quad 2−Input Positive−NOR Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX04

Hex Inverter

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCXU04

Hex Inverter (Unbuffered)

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX06

Hex Inverter w/Open−Drain Output

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX07

Hex Buffer w/Open−Drain Output

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX08

Quad 2−Input AND Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX14

Hex Schmitt Trigger

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX32

Quad 2−Input OR Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX74

Dual D Flip−Flop w/Preset and Clear

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

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ON Semiconductor Selector Guide − Standard Logic LCX (continued) Ordering Suffixes:

D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free Operating Voltage

Part Number MC74LCX86

Description Quad Exclusive−OR Gate

Surface Mount Packages SO−14, TSSOP−14, EIAJ−14

Temperature −40 to +85

2.0 to 3.6 V

MC74LCX125

Quad Bus Buffer (3−State)

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LCX138

3−to−8 Line Decoder/Demultiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LCX139

Dual 2−to−4 Line Decoder/Demultiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LCX157

Quad 2−Channel Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LCX158

Quad 2−to−1 Data Selector/Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LCX240

Octal Bus Buffer (3−State/Inverted)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX244

Octal Bus Buffer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX245

Octal Bus Transceiver (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX257

Quad 2−Line To 1−Line Data Selectors/Multiplexer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX258

Quad 2−Line To 1−Line Data Selectors/Multiplexer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX373

Octal D−Type Latch (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX374

Octal D−Type Flip−Flop (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX540

Octal Bus Buffer (3−State/Inverted)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX541

Octal Bus Buffer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX573

Octal D−Type Latch (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX574

Octal D−Type Flip−Flop (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LCX16240

16−Bit Bus Buffer (3−State/Inverted)

TSSOP−48

−40 to +85

2.0 to 3.6 V

MC74LCX16244

16−Bit Bus Buffer (3−State)

TSSOP−48

−40 to +85

2.0 to 3.6 V

MC74LCX16245

16−Bit Bus Transceiver (3−State)

TSSOP−48

−40 to +85

2.0 to 3.6 V

MC74LCX16373

16−Bit D−Type Latch (3−State)

TSSOP−48

−40 to +85

2.0 to 3.6 V

MC74LCX16374

16−Bit D−Type Flip−Flop (3−State)

TSSOP−48

−40 to +85

2.0 to 3.6 V

LVX Ordering Suffixes: D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

MC74LVX00

Quad 2−Input NAND Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX02

Quad 2−Input Positive−NOR Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX04

Hex Inverter

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVXU04

Hex Inverter (Unbuffered)

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX08

Quad 2−Input AND Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX14

Hex Schmitt Trigger

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX32

Quad 2−Input OR Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX50

Hex Buffer

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX74

Dual D Flip−Flop w/Preset and Clear

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX86

Quad Exclusive−OR Gate

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX125

Non−Inverting Tri−State Buffer, Low Enable

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX126

Quad Bus Buffer

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX132

Quad 2−Input NAND Schmitt Trigger

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX138

3−to−8 Line Decoder/Demultiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX139

Dual 2−to−4 Line Decoder/Demultiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX157

Quad 2−Channel Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX240

Octal Bus Buffer (3−State/Inverted)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVX244

Octal Bus Buffer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVX245

Octal Bus Transceiver (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

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ON Semiconductor Selector Guide − Standard Logic LVX (continued) Ordering Suffixes: D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free Part Number

Description

Surface Mount Packages

Temperature

Operating Voltage

MC74LVX257

Quad 2−Line to 1−Line Data Selectors/Multiplexer (3−State)

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX259

8−Bit Addressable Latch

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX373

Octal D−Type Latch (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVX374

Octal D−Type Flip−Flop (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVX540

Octal Inverting Bus Buffer

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.6 to 3.6 V

MC74LVX541

Octal Bus Buffer (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVX573

Octal D−Type Latch (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVX574

Octal D−Type Flip−Flop (3−State)

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 3.6 V

MC74LVXC3245

Octal Dual Supply Translating Bus Transceiver

SO−24W, TSSOP−24

−40 to +85

2.0 to 3.6 V

MC74LVX4051

8−to−1 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVXT4051

8−to−1 Channel Analog Multiplexer (TTL Compatible Inputs)

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX4052

Dual 4 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVXT4052

Dual 4 Channel Analog Multiplexer (TTL Compatible Inputs)

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX4053

Triple 2 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVXT4053

Triple 2 Channel Analog Multiplexer (TTL Compatible Inputs)

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX4066

Quad Analog Switch

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVXT4066

Quad Analog Switch (TTL Compatible Inputs)

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 3.6 V

MC74LVX4245

Octal Dual Supply Translating Bus Transceiver

SO−24W, TSSOP−24

−40 to +85

2.0 to 3.6 V

MC74LVX8051

8−to−1 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVXT8051

8−to−1 Channel Analog Multiplexer (TTL Compatible Inputs)

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVX8053

Triple 2 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

MC74LVXT8053

Triple 2 Channel Analog Multiplexer

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 3.6 V

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ON Semiconductor Selector Guide − Standard Logic

High−Speed CMOS Product Designation Definitions HC vs. HCT

devices. However, in some cases, an equivalent HCT device may not replace a TTL device without some form of circuit modification. Designers can use HCT devices to perform logic level conversions only. In newer designs, the designer wants all the advantages of a true CMOS system and designs using only HC devices.

ON Semiconductor’s High−Speed CMOS product family, intended to give the designer an alternative to LSTTL. HSCMOS, with the faster speed advantage over metal−gate CMOS (MC14000 series) and the lower power consumption advantage over LSTTL, is an optimum choice for midrange designs. With the availability of high−speed CMOS microprocessors and memories, the ability to design a 100% CMOS system is possible. HCT devices offer a short−term solution to the TTL/ NMOS−to−CMOS interface problem. To achieve this interface capability, some CMOS advantages had to be compromised. These compromises include power consumption, operating voltage range, and noise immunity. In most cases HCT devices are drop−in replacements of TTL devices with significant advantages over the TTL

“A” versus “Non−A” “A” Versus “Non−A” — ON Semiconductor has a device performance enhancement program for the High−Speed CMOS family. This is indicated by an “A” suffix on the device identification. Some of the characteristics of this “A” enhancement program are improved design, a better quality process, faster performing AC propagation delays and enhancements to various DC characteristics.

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ON Semiconductor Selector Guide − Standard Logic

5.0 V and Greater Standard Logic High Speed CMOS: HC A−Family Ordering Suffixes:

Part Number

N = PDIP Rail, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, F = SOEIAJ Rail, FEL = SOEIAJ T & R, G = Pb−free Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

MC74HC00A

Quad 2−Input NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC02A

Quad 2−Input Positive−NOR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC03A

Quad 2−Input NAND Gate (Open Drain)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC04A

Hex Inverter

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HCT04A

Hex Inverter (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74HCU04A

Hex Inverter (Unbuffered)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC08A

Quad 2−Input AND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC14A

Hex Schmitt Trigger

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HCT14A

Hex Schmitt Trigger Inverter (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74HC32A

Quad 2−Input OR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC74A

Dual D Flip−Flop w/Preset and Clear

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HCT74A

Dual D Flip−Flop w/ Preset and Clear (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

4.5 to 5.5 V

MC74HC86A

Quad Exclusive−OR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC125A

Quad Bus Buffer (3−State)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC126A

Quad Bus Buffer (3−State)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC132A

Quad 2−Input Schmitt NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC138A

3−to−8 Line Decoder/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HCT138A

Dual 2−to−4 Line Decoder/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

4.5 to 5.5 V

MC74HC139A

Dual 1−of−4 Decoder/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC157A

Quad 2−Channel Multiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC161A

Synchronous Binary Counter w/Asynchronous Clear

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC163A

Synchronous Binary Counter w/Asynchronous Clear

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC164A

8−Bit SIPO Shift Register

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC165A

8−Bit PISO Shift Register

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC174A

Hex D Flip−Flop w/Clear

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC175A

Quad D Flip−Flop w/Clear

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC240A

Octal Bus Buffer (3−State/Inverted)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HC244A

Octal Bus Buffer (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HCT244A

Octal Bus Buffer (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC245A

Octal Bus Transceiver (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

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ON Semiconductor Selector Guide − Standard Logic High Speed CMOS: HC A−Family Ordering Suffixes:

Part Number

N = PDIP Rail, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, F = SOEIAJ Rail, FEL = SOEIAJ T & R, G = Pb−free Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

MC74HCT245A

Octal Bus Transceiver (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC273A

Octal D−Type Flip−Flop

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 5.5 V

MC74HCT273A

Octal D−Type Flip−Flop w/Clear (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC373A

Octal D−Type Latch (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HCT373A

Octal D−Type Latch (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC374A

Octal D−Type Flip−Flop (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HCT374A

Octal D−Type Flip−Flop (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC390A

Dual Binary Counter w/ +2 +5 Sections

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC393A

Dual 4−Stage Binary Ripple Counter

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC540A

Octal Bus Buffer (3−State/Inverted)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HC541A

Octal Bus Buffer (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HCT541A

Octal Bus Buffer (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC573A

Octal D−Type Latch (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HCT573A

Octal D−Type Latch (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC574A

Octal D−Type Flip−Flop (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

2.0 to 6.0 V

MC74HCT574A

Octal D−Type Flip−Flop (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−55 to +125

4.5 to 5.5 V

MC74HC589A

8−Bit Shift Register

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC595A

8−Bit Shift Register/Latch (3−State)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4020A

14−Stage Binary Ripple Counter

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4040A

12−Stage Binary Ripple Counter

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4046A

Phase Lock Loop

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4051A

8−to−1 Channel Analog Multiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4052A

Dual 4 Channel Analog Multiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4053A

Triple 2 Channel Analog Multiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4060A

14−Stage Binary Ripple Counter w/Oscillator

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4066A

Quad Analog Switch

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 6.0 V

MC74HC4316A

Quad Analog Switch w/Translator

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

http://onsemi.com 309

ON Semiconductor Selector Guide − Standard Logic High Speed CMOS: HC A−Family Ordering Suffixes:

Part Number

N = PDIP Rail, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, F = SOEIAJ Rail, FEL = SOEIAJ T & R, G = Pb−free Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

MC74HC4538A

Dual Re−triggerable Precision Monostable Multivibrator

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4851A

8−to−1 Channel Analog Multiplexer w/Inj Current Control

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

MC74HC4852A

Dual 4 Channel Analog Multiplexer w/Inj Current Control

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

2.0 to 6.0 V

High Speed CMOS: HC Family Ordering Suffixes: DR2G = Pb−free SOIC in Tape & Reel, DTR2G = Pb−free TSSOP in Tape & Reel Part Number

Desciption

Packages

Temperature (_C)

Operating Voltage (V)

−55 to +125

2.0 to 6.0

74HC00

Quad 2−Input NAND Gate

SO−14, TSSOP−14

74HC02

Quad 2−Input Positive NOR Gate

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HC04

Hex Inverter

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HCT04

Hex Inverter (TTL Compatible)

SO−14, TSSOP−14

−55 to +125

4.5 to 6.0

74HCU04

Hex Inverter (Unbuffered)

SO−14, TSSOP−14

−55 to +125

4.5 to 6.0

74HC08

Quad 2−Input AND Gate

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HCT08

Quad 2−Input AND Gate (TTL Compatible)

SO−14, TSSOP−14

−55 to +125

4.5 to 6.0

74HC14

Hex Schmitt Trigger

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HCT14

Hex Schmitt Trigger (TTL Compatible)

SO−14, TSSOP−14

−55 to +125

4.5 to 6.0

74HC32

Quad 2−Input OR Gate

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HC74

Dual D Flip−Flop 2/ Preset and Clear

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HC86

Quad Exclusive OR Gate

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HC125

Quad Bus Buffer 3−State

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HC132

Quad 2−Input Schmitt NAND Gate

SO−14, TSSOP−14

−55 to +125

2.0 to 6.0

74HC138

3−to−8 Line Decoder / Demultiplexer

SO−16, TSSOP−16

−55 to +125

2.0 to 6.0

74HCT157

Quad 2−Channel Multiuplexer (TTL Compatible)

SO−16, TSSOP−16

−55 to +125

4.5 to 6.0

74HC244

Octal Bus Buffer (3−State)

TSSOP−20

−55 to +125

2.0 to 6.0

74HC245

Octal Bus Transceiver (3−State)

TSSOP−20

−55 to +125

2.0 to 6.0

74HC373

Octal D−Type Latch (3−State)

TSSOP−20

−55 to +125

2.0 to 6.0

74HC374

Octal D−Type Flip−Flop (3−State)

TSSOP−20

−55 to +125

2.0 to 6.0

74HC574

Octal D−Type Flip Flop (3−State)

TSSOP−20

−55 to +125

2.0 to 6.0

74HC595

8 Bit Shift Register/Latch (3−State)

SO−16, TSSOP−16

−55 to +125

2.0 to 6.0

http://onsemi.com 310

ON Semiconductor Selector Guide − Standard Logic AC/ACT Ordering Suffixes:

Part Number

N = PDIP Rail, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

MC74AC00

Quad 2−Input NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT00

Quad 2−Input NAND Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC02

Quad 2−Input NOR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT02

Quad 2−Input NOR Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC04

Hex Inverter

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT04

Hex Inverter (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC05

Hex Inverter w/Open−Drain Output

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT05

Hex Inverter w/Open−Drain Output (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC08

Quad 2−Input AND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT08

Quad 2−Input AND Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC10

Triple 3−Input NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT10

Triple 3−Input NAND Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC11

Triple 3−Input AND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT11

Triple 3−Input AND Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC14

Hex Schmitt Trigger

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT14

Hex Schmitt Trigger Inverter (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC20

Dual 4−Input NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT20

Dual 4−Input NAND Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC32

Quad 2−Input OR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT32

Quad 2−Input OR Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC74

Dual D Flip−Flop w/Preset and Clear

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT74

Dual D Flip−Flop w/Preset and Clear (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC86

Quad Exclusive−OR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT86

Quad 2−Input Exclusive−OR Gate (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC125

Quad Bus Buffer (3−State)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT125

Quad Bus Buffer Gate (3−State) (TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC132

Quad 2−Input NAND Gate (Schmitt−Trigger)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

2.0 to 6.0 V

MC74ACT132

Quad 2−Input NAND Gate (Schmitt−Trigger, TTL Compatible)

DIP−14

SO−14, TSSOP−14, EIAJ−14

−40 to +85

4.5 to 5.5 V

MC74AC138

3−to−8 Line Decoder/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

http://onsemi.com 311

ON Semiconductor Selector Guide − Standard Logic AC/ACT Ordering Suffixes:

N = PDIP Rail, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free

MC74ACT138

3−to−8 Line Decoder (TTL Compatible)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC139

Dual 2−to−4 Line Decoder/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT139

Dual 2−to−4 Line Decoder/DeMultiplexer (TTL Compatible)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74ACT153

Dual 4−Input Multiplexer, TTL Compatible Inputs

DIP−16

SO−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC157

Quad 2−Channel Multiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT157

Quad 2−to−1 Data Selector/Multiplexer (TTL Compatible)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC161

Synchronous Presettable Binary Counter

DIP−16

SO−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT161

Synchronous Presettable Binary Counter, TTL Compatible Inputs

DIP−16

SO−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC163

Synchronous Presettable Binary Counter

DIP−16

SO−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT163

Synchronous Presettable Binary Counter, TTL Compatible Inputs

DIP−16

SO−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC240

Octal Bus Buffer (3−State/Inverted)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT240

Octal Bus Buffer (3−State/Inverted) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74ACT241

Octal Bus Buffer (3−State/Non−Inverted) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC244

Octal Bus Buffer (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT244

Octal Bus Buffer (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC245

Octal Bus Transceiver (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT245

Octal Bus Transceiver (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC253

Dual 4−Input Multiplexer w/3−State Outputs

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT253

Dual 4−Input Multiplexer w/3−State Outputs

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC257

Quad 2−Line to 1−Line Data Selectors/Multiplexer (3−State)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT257

Quad 2−to−1 Data Selectors/Mux (3−State) (TTL Compatible)

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC259

8−Bit Addressable Latch

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

MC74ACT259

8−Bit Addressable Latch

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

4.5 to 5.5 V

MC74AC273

Octal D−Type Flip−Flop

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT273

Octal D−Type Flip−Flop w/Clear (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC373

Octal D−Type Latch (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

http://onsemi.com 312

ON Semiconductor Selector Guide − Standard Logic AC/ACT Ordering Suffixes:

N = PDIP Rail, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, M = SOEIAJ Rail, MEL = SOEIAJ T & R, G = Pb−free

MC74ACT373

Octal D−Type Latch (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC374

Octal D−Type Flip−Flop (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT374

Octal D−Type Flip−Flop (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC377

Octal D−Type Flip−Flop w/Data Enable (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT377

Octal D−Type Flip−Flop w/Data Enable (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC540

Octal Bus Buffer (3−State/Inverted)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT540

Octal Bus Buffer (3−State/Inverted) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC541

Octal Bus Buffer (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT541

Octal Bus Buffer (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74ACT564

Octal D−Type Latch w/3−State Outputs (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC573

Octal D−Type Latch (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT573

Octal D−Type Latch (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC574

Octal D−Type Flip−Flop (3−State)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

2.0 to 6.0 V

MC74ACT574

Octal D−Type Flip−Flop (3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74ACT640

Octal Bus Transceiver (Inverting, 3−State) (TTL Compatible)

DIP−20

SO−20W, TSSOP−20, EIAJ−20

−40 to +85

4.5 to 5.5 V

MC74AC646

Octal Bus Transceiver/Register (3−State)

DIP−24

SO−24W, TSSOP−24, EIAJ−24

−40 to +85

2.0 to 6.0 V

MC74ACT646

Octal Bus Transceiver/Register (3−State) (TTL Compatible)

DIP−24

SO−24W, TSSOP−24, EIAJ−24

−40 to +85

4.5 to 5.5 V

MC74AC652

Octal Bus Transceiver/Register (3−State)

DIP−24

SO−24W, TSSOP−24, EIAJ−24

−40 to +85

2.0 to 6.0 V

MC74ACT652

Octal Bus Transceiver/Register (3−State) (TTL Compatible)

DIP−24

SO−24W, TSSOP−24, EIAJ−24

−40 to +85

4.5 to 5.5 V

MC74AC4040

12−Stage Binary Ripple Counter

DIP−16

SO−16, TSSOP−16, EIAJ−16

−40 to +85

2.0 to 6.0 V

http://onsemi.com 313

ON Semiconductor Selector Guide − Standard Logic Metal Gate CMOS Ordering Suffixes:

CP = PDIP, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, F = SOEIAJ Rail, FEL = SOEIAJ T & R, G = Pb−free

Part Number

Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14001B

Quad 2−Input NOR Gate

DIP−14

MC14001UB

Quad 2−Input NOR Gate Unbuffered

DIP−14

SO−14

−55 to +125

3.0 to 18 V

−55 to +125

3.0 to 18 V

MC14007UB

Dual Complementary Pair plus Inverter

DIP−14

SO−14, TSSOP−14, EIAJ−14

MC14008B

4−Bit Full Adder

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14011B

Quad 2−Input NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14011UB

Quad 2−Input NAND Gate Unbuffered

DIP−14

SO−14

−55 to +125

3.0 to 18 V

MC14012B

Dual 4−Input NAND Gate

DIP−14

SO−14, EIAJ−14

−55 to +125

3.0 to 18 V

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14013B

Dual D Flip−Flop

DIP−14

MC14014B

8−Bit Static Shift Register

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

−55 to +125

3.0 to 18 V

MC14015B

Dual 4−Bit Static Shift Register

DIP−16

SO−16, TSSOP−16, EIAJ−16

MC14016B

Quad Analog Switch/Multiplexer

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14017B

Decade Counter

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14018B

Presettable Divide−by−N Counter

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14020B

14−Bit Binary Counter

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14021B

8−Bit Static Shift Register

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14022B

Octal Counter

DIP−16

SO−16

−55 to +125

3.0 to 18 V

MC14023B

Triple 3−Input NAND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14024B

7−Stage Ripple Counter

DIP−14

SO−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14025B

Triple 3−Input NOR Gate

DIP−14

SO−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14027B

Dual J−K Flip−Flop

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14028B

BCD−to−Decimal/Binary−to−Octal Decoder

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14029B

Presettable Binary/BCD Up/Down Counter

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14040B

12−Stage Ripple−Carry Binary Counter/ Divider

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14042B

Quad Clocked D−Latch

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14043B

Quad NOR R−S Latch

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14044B

Quad NAND R−S Latch

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14046B

Phase−Locked Loop

DIP−16

SO−16W,EIAJ−16

−55 to +125

3.0 to 18 V

MC14049B

Hex Inverter

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14049UB

Hex Inverter Unbuffered

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14050B

Hex Buffer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

http://onsemi.com 314

ON Semiconductor Selector Guide − Standard Logic Metal Gate CMOS Ordering Suffixes:

CP = PDIP, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, F = SOEIAJ Rail, FEL = SOEIAJ T & R, G = Pb−free

Part Number

Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

MC14051B

8−Channel Analog Multiplexer/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14052B

Dual 4−Channel Analog Multiplexer/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14053B

Triple 2−Channel Analog Multiplexer/Demultiplexer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14060B

14−Stage Binary Counter/Oscillator

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14066B

Quad Analog Switch

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14067B

16−Channel Analog Multiplexer/Demultiplexer

DIP−24

SO−24W, TSSOP−24

−55 to +125

3.0 to 18 V

MC14069UB

Hex Inverter

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14070B

Quad 2−Input Exclusive−OR Gate

DIP−14

SO−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14071B

Quad 2−Input OR Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14073B

Triple 3−Input AND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14076B

Quad D−Type Register w/3−State Outputs

DIP−24

SO−24

−55 to +125

3.0 to 18 V

MC14077B

Quad 2−Input Exclusive−NOR Gate

DIP−14

SO−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14081B

Quad 2−Input AND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14082B

Dual 4−Input AND Gate

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14093B

Quad 2−Input Schmitt Trigger NAND

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

3.0 to 18 V

MC14094B

8−Stage Shift/Store Register w/3−State Outputs

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14099B

8−Bit Addressable Latch

DIP−16

SO−16W

−55 to +125

3.0 to 18 V

MC14106B

Hex Schmitt Trigger

DIP−14

SO−14, TSSOP−14

−55 to +125

3.0 to 18 V

MC14174B

Hex D Flip−Flop

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14175B

Quad D Flip−Flop

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14490

Hex Contact Bounce Eliminator

DIP−16

SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14503B

Hex 3−State Buffer

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14504B

TTL or CMOS to CMOS Hex Level Shifter

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14511B

BCD−to−7 Segment Latch/Decoder/Driver

DIP−16

SO−16, SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14512B

8−Channel Data Selector

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14513B

BCD−to−7 Segment Latch/Decoder/Driver w/Ripple Blanking

DIP−18

N/A

−55 to +125

3.0 to 18 V

MC14514B

4−Bit Transparent Latch/4−to−16 Line Decoder (High)

DIP−24

SO−24W

−55 to +125

3.0 to 18 V

MC14515B

4−Bit Transparent Latch/4−to−16 Line Decoder (Low)

DIP−24

SO−24W

−55 to +125

3.0 to 18 V

MC14516B

Presettable Binary Up/Down Counter

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

http://onsemi.com 315

ON Semiconductor Selector Guide − Standard Logic Metal Gate CMOS Ordering Suffixes:

Part Number

CP = PDIP, D = SOIC Rail, DR2 = SOIC T & R, DW = SOICW Rail, DWR2 = SOICW T & R, DT = TSSOP Rail, DTR2 = TSSOP T & R, F = SOEIAJ Rail, FEL = SOEIAJ T & R, G = Pb−free Description

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

MC14517B

Dual 64−Bit Static Shift Register

DIP−16

SO−16W

−55 to +125

3.0 to 18 V

MC14518B

Dual BCD Up Counter

DIP−16

SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14520B

Dual Binary Up Counter

DIP−16

SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14521B

24−Stage Frequency Divider

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14526B

Presettable 4−Bit Binary Down Counter

DIP−16

SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14528B

Dual Monostable Multivibrator

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14532B

8−Bit Priority Encoder

DIP−16

SO−16, EIAJ−16,

−55 to +125

3.0 to 18 V

MC14536B

Programmable Timer

DIP−16

SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14538B

Dual Precision Monostable Multivibrator

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14541B

Programmable Oscillator/Timer

DIP−16

SO−16, TSSOP−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14543B

BCD−to−7 Segment Latch/Decoder/Driver for LCD

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14549B

Successive Approximation Register

DIP−16

SO−16W

−55 to +125

3.0 to 18 V

MC14551B

Quad 2−Channel Analog Multiplexer/Demultiplexer

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14553B

3−Digit BCD Counter

DIP−16

SO−16W

−55 to +125

3.0 to 18 V

MC14555B

Dual Binary to 1−of−4 Decoder (Active High Outputs)

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14556B

Dual Binary to 1−or−4 Decoder/Demultiplexer

DIP−16

SO−16, EIAJ−16

−55 to +125

3.0 to 18 V

MC14557B

1−to−64 Bit Variable Length Shift Register

DIP−16

SO−16W, EIAJ−16

−55 to +125

3.0 to 18 V

MC14559B

Successive Approximation Register

DIP−16

SO−16W

−55 to +125

3.0 to 18 V

MC14562B

128−Bit Static Shift Register

DIP−14

N/A

−55 to +125

3.0 to 18 V

MC14569B

Programmable Dual 4−Bit Binary/BCD Down Converter

DIP−16

SO−16W, TSSOP−16

−55 to +125

3.0 to 18 V

MC14572UB

Hex Gate Unbuffered

DIP−16

SO−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC14584B

Hex Schmitt Trigger

DIP−14

SO−14, TSSOP−14, EIAJ−14

−55 to +125

2.0 to 5.5 V

MC14585B

4−Bit Magnitude Comparator

DIP−16

SO−16, EIAJ−16

−55 to +125

2.0 to 5.5 V

MC14598B

8−Bit Bus−Compatible Addressable Latch

DIP−18

N/A

−55 to +125

2.0 to 5.5 V

Dual−In−Line Packages

Surface Mount Packages

Temperature

Operating Voltage

DIP−16

EIAJ−16

−40 to +85

4.2 to 6.0 V

SC−88

−40 to +85

1.65 to 5.5 V

Logic Special Functions Part Number

Description

JLC1562

I2C Bus I/O Expander

NL7SZ18

2:1 Digital MUX, 3−State Output

NL7SZ19

2:1 Digital MUX

SC−88

−40 to +85

1.65 to 5.5 V

NLSF1174

Hex D Flip−Flop with Clear

QFN−16, 3x3mm

−55 to +125

2.0 to 6.0 V

NLSF2500

Keypad Multiplexer

QFN−16, 3x3mm

−40 to +85

1.5 to 5.5 V

NLSF3T125

Quad Bus Buffer, TTL Compatible

QFN−16, 3x3mm

−40 to +85

2.5 to 5.5 V

NLSF3T126

Quad Bus Buffer, TTL Compatible

QFN−16, 3x3mm

−40 to +85

2.5 to 5.5 V

NLSF595

Serial (SPI) Tri−Color LED Driver

TSSOP−16, SOIC−16, QFN−16

−55 to +125

2.0 to 5.5 V

http://onsemi.com 316

ON Semiconductor Selector Guide − Standard Logic Translators Device

Type

Description

Package

Size

Production

NLSX3014MUTAG

Auto Sense Bi−Directional

4−Bit 100 Mbps Configurable Dual−Supply Level Translator

UQFN12

2.00 mm x 1.70 mm

2Q07

NLSV4T3234FCT1G

Uni−Directional

4−Bit Dual−Supply Bus Buffer Level Translator with 26 Ohm Output Series Resistor

mBump11

2.04 mm x 1.41 mm

NOW

NLSV1T240MUTAG

Uni−Directional

1−Bit Configurable Dual−Supply Bus Buffer Level Translator (Inverter)

UDFN6

1.20 mm x 1.00 mm

2Q07

NLSV1T244MUTAG

Uni−Directional

1−Bit Configurable Dual−Supply Bus Buffer Level Translator

UDFN6

1.20 mm x 1.00 mm

2Q07

NLSV2T240MUTAG

Uni−Directional

2−Bit Configurable Dual−Supply Bus Buffer Level Translator (Inverter)

UDFN8

1.80 mm x 1.20 mm

2Q07

NLSV2T244MUTAG

Uni−Directional

2−Bit Configurable Dual−Supply Bus Buffer Level Translator

UDFN8

1.80 mm x 1.20 mm

2Q07

NLSV4T240MUTAG

Uni−Directional

4−Bit Configurable Dual−Supply Bus Buffer Level Translator (Inverter)

UQFN12

1.70 mm x 2.00 mm

2Q07

NLSV4T244MUTAG

Uni−Directional

4−Bit Configurable Dual−Supply Bus Buffer Level Translator

UQFN12

1.70 mm x 2.00 mm

2Q07

http://onsemi.com 317

ON Semiconductor Selector Guide − Standard Logic

http://onsemi.com 318

Alphanumeric Parts Index

http://onsemi.com 319

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

1.5KE10A

227

1.5SMC82A

239

1N5368B

125

1.5KE11A

227

1.5SMC91A

239

1N5369B

125

1.5KE12A

227

1N4001

149

1N5370B

125

1.5KE13A

227

1N4002

149

1N5371B

125

1.5KE15A

227

1N4003

149

1N5372B

125

1.5KE16A

227

1N4004

149

1N5373B

125

1.5KE18A

227

1N4005

149

1N5374B

125

1.5KE20A

227

1N4006

149

1N5375B

125

1.5KE24A

227

1N4007

149

1N5377B

125

1.5KE27A

227

1N4933

149

1N5378B

125

1.5KE30A

227

1N4934

149

1N5380B

125

1.5KE33A

227

1N4935

149

1N5381B

125

1.5KE36A

227

1N4936

149

1N5383B

125

1.5KE39A

227

1N4937

149

1N5384B

125

1.5KE43A

227

1N5333B

124

1N5386B

125

1.5KE47A

227

1N5334B

124

1N5387

125

1.5KE51A

227

1N5335B

124

1N5388B

125

1.5KE56A

227

1N5336B

124

1N5400

149

1.5KE6.8A

227

1N5337B

124

1N5401

149

1.5KE62A

227

1N5338B

124

1N5402

149

1.5KE68A

227

1N5339B

124

1N5404

149

1.5KE75A

227

1N5340B

124

1N5406

149

1.5KE8.2A

227

1N5341B

124

1N5407

149

1.5KE82A

227

1N5342B

124

1N5408

149

1.5KE91A

227

1N5343B

124

1N5817

143

1.5SMC10A

239

1N5344B

124

1N5818

143

1.5SMC12A

239

1N5346B

124

1N5819

143

1.5SMC13A

239

1N5347B

124

1N5820

143

1.5SMC15A

239

1N5348B

124

1N5821

143

1.5SMC16A

239

1N5349B

124

1N5822

143

1.5SMC18A

239

1N5350B

124

1N5908

226

1.5SMC20A

239

1N5351B

124

1N5913B

124

1.5SMC22A

239

1N5352B

124

1N5917B

124

1.5SMC24A

239

1N5353B

124

1N5919B

124

1.5SMC27A

239

1N5354B

124

1N5920B

124

1.5SMC30A

239

1N5355B

124

1N5921B

124

1.5SMC33A

239

1N5356B

124

1N5923B

124

1.5SMC36A

239

1N5357B

124

1N5924B

124

1.5SMC39A

239

1N5358B

124

1N5925B

124

1.5SMC43A

239

1N5359B

124

1N5927B

124

1.5SMC47A

239

1N5360B

125

1N5929B

124

1.5SMC51A

239

1N5361B

125

1N5931B

124

1.5SMC56A

239

1N5362B

125

1N5932B

124

1.5SMC6.8A

239

1N5363B

125

1N5934B

124

1.5SMC62A

239

1N5364B

125

1N5935B

125

1.5SMC68A

239

1N5365B

125

1N5937B

125

1.5SMC7.5A

239

1N5366B

125

1N5938B

125

1.5SMC75A

239

1N5367B

125

1N5940B

125

http://onsemi.com 320

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

1N5941B

125

1PMT5941B

132

1SMA5922B

131

1N5942B

125

1PMT7.0A

228

1SMA5923B

131

1N5946B

125

1SMA10A

230

1SMA5924B

131

1N5948B

125

1SMA10CA

231

1SMA5925B

131

1N5953B

125

1SMA11A

230

1SMA5927B

131

1N5955B

125

1SMA12A

230

1SMA5928B

131

1N5956B

125

1SMA13A

230

1SMA5929B

131

1N6267A

227

1SMA13CA

231

1SMA5930B

131

1N6271A

227

1SMA15A

230

1SMA5931B

131

1N6274A

227

1SMA15CA

231

1SMA5932B

131

1N6275A

227

1SMA16A

230

1SMA5933B

131

1N6276A

227

1SMA16CA

231

1SMA5934B

131

1N6277A

227

1SMA17A

230

1SMA5935B

131

1N6278A

227

1SMA18A

230

1SMA5936B

131

1N6279A

227

1SMA18CA

231

1SMA5937B

131

1N6280A

227

1SMA20A

230

1SMA5938B

132

1N6281A

227

1SMA20CA

231

1SMA5939B

132

1N6282A

227

1SMA22A

230

1SMA5940B

132

1N6283A

227

1SMA24A

230

1SMA5941B

132

1N6284A

227

1SMA24CA

231

1SMA5942B

132

1N6285A

227

1SMA26A

230

1SMA5943B

132

1N6286A

227

1SMA26CA

231

1SMA5945B

132

1N6287A

227

1SMA28A

230

1SMA6.0A

230

1N6288A

227

1SMA30A

230

1SMA6.5A

230

1N6289A

227

1SMA30CA

231

1SMA60CA

231

1N6290A

227

1SMA33A

230

1SMA70A

230

1N6291A

227

1SMA33CA

231

1SMA70CA

231

1N6292A

227

1SMA36A

230

1SMA78CA

231

1N6294A

227

1SMA36CA

231

1SMA8.0A

230

1N6295A

227

1SMA40A

230

1SMA8.5A

230

1N6373

226

1SMA40CA

231

1SMA9.0A

230

1N6376

226

1SMA43A

230

1SMB100A

232

1N6377

226

1SMA45A

230

1SMB10A

232

1N6380

226

1SMA48A

230

1SMB10CA

234

1PMT12A

228

1SMA48CA

231

1SMB110A

233

1PMT16A

228

1SMA5.0A

230

1SMB11A

232

1PMT22A

228

1SMA54A

230

1SMB11CA

234

1PMT26A

228

1SMA58A

230

1SMB120A

233

1PMT33A

228

1SMA58CA

231

1SMB12A

232

1PMT5.0A

228

1SMA5913B

131

1SMB12CA

234

1PMT5920B

131

1SMA5914B

131

1SMB130A

233

1PMT5921B

131

1SMA5915B

131

1SMB13A

232

1PMT5922B

131

1SMA5916B

131

1SMB13CA

234

1PMT5924B

131

1SMA5917B

131

1SMB14A

232

1PMT5927B

131

1SMA5918B

131

1SMB14CA

234

1PMT5929B

131

1SMA5919B

131

1SMB150A

233

1PMT5933B

131

1SMA5920B

131

1SMB15A

232

1PMT5934B

131

1SMA5921B

131

1SMB15CA

234

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Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

1SMB160A

233

1SMB5922B

131

1SMB9.0A

232

1SMB16A

232

1SMB5923B

131

1SMB90A

232

1SMB16CA

234

1SMB5924B

131

1SMC10A

238

1SMB170A

233

1SMB5925B

131

1SMC12A

238

1SMB17A

232

1SMB5926B

131

1SMC13A

238

1SMB17CA

234

1SMB5927B

131

1SMC14A

238

1SMB18A

232

1SMB5928B

131

1SMC15A

238

1SMB18CA

234

1SMB5929B

131

1SMC16A

238

1SMB20A

232

1SMB5930B

131

1SMC17A

238

1SMB20CA

234

1SMB5931B

131

1SMC18A

238

1SMB22A

232

1SMB5932B

131

1SMC20A

238

1SMB22CA

234

1SMB5933B

131

1SMC22A

238

1SMB24A

232

1SMB5934B

131

1SMC24A

238

1SMB24CA

234

1SMB5935B

131

1SMC26A

238

1SMB26A

232

1SMB5936B

131

1SMC28A

238

1SMB26CA

234

1SMB5937B

131

1SMC30A

238

1SMB28A

232

1SMB5938B

132

1SMC33A

238

1SMB28CA

234

1SMB5939B

132

1SMC36A

238

1SMB30A

232

1SMB5940B

132

1SMC40A

238

1SMB30CA

234

1SMB5941B

132

1SMC43A

238

1SMB33A

232

1SMB5942B

132

1SMC48A

238

1SMB33CA

234

1SMB5943B

132

1SMC5.0A

238

1SMB36A

232

1SMB5944B

132

1SMC51A

238

1SMB36CA

234

1SMB5945B

132

1SMC54A

238

1SMB40A

232

1SMB5946B

132

1SMC58A

238

1SMB40CA

234

1SMB5947B

132

1SMC6.0A

238

1SMB43A

232

1SMB5948B

132

1SMC6.5A

238

1SMB43CA

234

1SMB5949B

132

1SMC60A

238

1SMB45A

232

1SMB5951B

132

1SMC64A

238

1SMB45CA

234

1SMB5952B

132

1SMC7.0A

238

1SMB48A

232

1SMB5953B

132

1SMC7.5A

238

1SMB48CA

234

1SMB5954B

132

1SMC70A

238

1SMB5.0A

232

1SMB5955B

132

1SMC75A

238

1SMB51A

232

1SMB5956B

132

1SMC78A

238

1SMB51CA

234

1SMB6.0A

232

1SMC8.0A

238

1SMB54A

232

1SMB6.5A

232

1SMC9.0A

238

1SMB54CA

234

1SMB60A

232

1SS400T1

123

1SMB58A

232

1SMB60CA

234

2N3055

160

1SMB58CA

234

1SMB64A

232

2N3055A

160

1SMB5913B

131

1SMB64CA

234

2N3442

160

1SMB5914B

131

1SMB7.0A

232

2N3771

161

1SMB5915B

131

1SMB7.5A

232

2N3772

161

1SMB5916B

131

1SMB70A

232

2N3773

161

1SMB5917B

131

1SMB75A

232

2N3904

167,177

1SMB5918B

131

1SMB75CA

234

2N3906

167,177

1SMB5919B

131

1SMB8.0A

232

2N4124

167

1SMB5920B

131

1SMB8.5A

232

2N4401

167,174,177

1SMB5921B

131

1SMB85A

232

2N4403

167,174,177

http://onsemi.com 322

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

2N4918

157

2N6043

162

2N6517

176

2N4919

157

2N6045

162

2N6520

176

2N4920

157

2N6052

163

2N6667

163

2N4921

157

2N6071A

111

2N7000

2N4922

157

2N6071B

111

2N7000G

2N4923

157

2N6073A

111

2N7000ZL1

201

2N5038

161

2N6073B

111

2N7002L

194

2N5060

108

2N6075A

111

2N7002LT1G

206

2N5061

108

2N6075B

111

2SA1774

171

2N5062

108

2N6107

159

2SA2029BM3T5G

171

2N5064

108

2N6109

159

2SC4617

171

2N5087

167,173

2N6111

159

2SC5658BM3T5G

171

2N5088

167,173

2N6284

163

3EZ16D

124

2N5089

167,173

2N6286

163

3EZ18D

124

2N5190

158

2N6287

163

74HC00

310

2N5191

158

2N6288

159

74HC02

310

2N5192

158

2N6292

159

74HC04

310

2N5194

158

2N6338

161

74HC08

310

2N5195

158

2N6341

161

74HC125

310

2N5302

161

2N6344

112

74HC132

310

2N5401

176

2N6344A

113

74HC138

310

2N5457

191

2N6348A

113

74HC14

310

2N5458

191

2N6349A

113

74HC244

310

2N5460

191

2N6387

163

74HC245

310

2N5461

191

2N6388

163

74HC32

310

2N5462

191

2N6394

110

74HC373

310

2N5486

190

2N6395

110

74HC374

310

2N5550

176

2N6397

110

74HC574

310

2N5551

176

2N6399

110

74HC595

310

2N5638

190

2N6400

110

74HC74

310

2N5639

190

2N6401

110

74HC86

310

2N5655

157

2N6402

110

74HCT04

310

2N5657

157

2N6403

110

74HCT08

310

2N5684

161

2N6404

110

74HCT14

310

2N5686

161

2N6405

110

74HCT157

310

2N5883

161

2N6426

173

74HCU04

310

2N5884

161

2N6427

173

74VCXH16245

303

2N5885

161

2N6487

159

74VCXH245

303

2N5886

161

2N6488

159

80SQ045N

143

2N6027

115

2N6490

159

AU5517

2N6028

115

2N6491

159

BAL99LT1

122

2N6034

162

2N6497

158

BAS116LT1

122

2N6035

162

2N6504

110

BAS16DXV6T1

123

2N6036

162

2N6505

110

BAS16HT1

123

2N6038

162

2N6507

110

BAS16LT1

122

2N6039

162

2N6508

110

BAS16TT1

123

2N6040

162

2N6509

110

BAS16WT1

122

2N6042

162

2N6515

176

BAS16XV2T1

123

http://onsemi.com 323

200 201,206

99

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

BAS19LT1

122

BC368

167,174

BC847BPDW1T1

172

BAS20HT1

123

BC369

167,174

BC847BPDXV6T1

172

BAS20LT1

122

BC372

173

BC847BTT1

171

BAS21DW5T1

123

BC373

173

BC847BWT1

170

BAS21HT1

123

BC489

174

BC847CDW1T1

172

BAS21LT1

122

BC489A

174

BC847CDXV6T1

172

BAS21SL

122

BC489B

167

BC847CLT1

169

BAS40-04LT1

119

BC490

167,174

BC847CTT1

171

BAS40-06LT1

119

BC517

173

BC847CWT1

170

BAS40LT1

119

BC546B

167

BC848ALT1

169

BAS70-04LT1

119

BC547A

167

BC848BLT1

169

BAS70LT1

119

BC547B

167

BC848BWT1

170

BAT54ALT1

119

BC547C

167

BC848CDW1T1

172

BAT54AWT1

119

BC548B

167

BC848CLT1

169

BAT54CLT1

119

BC548C

167

BC848CPDW1T1

172

BAT54CTT1

119

BC549C

167

BC848CWT1

170

BAT54CWT1

119

BC550C

167,173

BC849BLT1

170

BAT54CXV3T1

120

BC556B

167

BC849CLT1

170

BAT54HT1

119

BC557A

167

BC850BLT1

169

BAT54LT1

119

BC557B

167

BC850CLT1

169

BAT54SLT1

119

BC557C

167

BC856ALT1

168

BAT54SWT1

119

BC558C

167

BC856BDW1T1

172

BAT54T1

119

BC560C

167,173

BC856BLT1

168

BAT54WT1

119

BC618

173

BC856BM3T5G

171

BAT54XV2T1

120

BC637

167,174

BC856BWT1

170

BAV199LT1

122

BC639

167,174

BC857ALT1

169

BAV70LT1

122

BC639-16

167,174

BC857BDW1T1

172

BAV70TT1

123

BC640

167,174

BC857BLT1

169

BAV70WT1

122

BC640-16

167,174

BC857BTT1

171

BAV74LT1

122

BC807-16LT1

169

BC857BWT1

170

BAV99LT1

122

BC807-25LT1

169

BC857CDW1T1

172

BAV99RWT1

122

BC807-40LT1

169

BC857CLT1

169

BAV99WT1

122

BC808-25L

170

BC857CWT1

170

BAW56LT1

122

BC817-16LT1

169

BC858ALT1

170

BAW56TT1

123

BC817-25LT1

169

BC858AWT1

170

BAW56WT1

122

BC817-40LT1

169

BC858BLT1

170

BC182B

167

BC818-40L

170

BC858BWT1

170

BC212B

167

BC846ALT1

168

BC858CDXV6T1

172

BC237B

167

BC846BDW1T1

172

BC858CLT1

170

BC307B

167

BC846BLT1

168

BC859BLT1

170

BC846BM3T5G

171

BCP53-10

171,175

BC846BPDW1T1

172

BCP53-16

171,175

BC327

167,174

BC327-16

167

BC327-25

167,174

BC846BWT1

170

BCP53T1

171,175

BC327-40

167,174

BC847ALT1

169

BCP56-10

171,175

BC337

167,174

BC847AWT1

170

BCP56-16

171,175

BC847BDW1T1

172

BCP56T1

171,175

BC337-16

167

BC337-25

167,174

BC847BLT1

169

BCP68T1

171,175

BC337-40

167,174

BC847BM3T5G

171

BCP69T1

171,175

http://onsemi.com 324

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

BCW30LT1

169

BD681

162

BSS63LT1

168

BCW32LT1

169

BD682

162

BSS64LT1

168

BCW33LT1

170

BD787

158

BSS84L

195

BCW65ALT1

169,175

BD788

158

BSV52LT1

177

BCW65CLT1

169

BD809

159

BU323Z

163

BCW66GLT1

175

BD810

159

BU406

159

BCW68GLT1

169,175

BDV64B

163

BUB323Z

BCW70LT1

169

BDV65B

163

BUH100

159,166

162

BCW72LT1

169

BDW42

163

BUH150

159,166

BCX17LT1

169,175

BDW46

163

BUH50

158,166

BCX19LT1

169,175

BDW47

163

BUH51

157,166

BD135

157

BDX33B

163

BUL146

159,166

BD136

157

BDX33C

163

BUL146F

160,166

BD137

157

BDX34B

163

BUL44

158,166

BD138

157

BDX34C

163

BUL45

158,166

BD139

157

BDX53B

162

BUL45D2

158,166

BD140

157

BDX53C

162

BUV21

161

BD159

157

BDX54B

162

BUV22

161

BD179

157

BDX54C

162

BUV26

159

BD180

157

BF256A

191

BUV27

159

BD234

157

BF393

176

BUX85

158

BD237

157

BF422

176

BZ84C36E

128

BD241C

158

BF423

176

BZG03C15

131

BD242B

158

BF493S

176

BZG03C150

132

BD242C

158

BF720T1

176

BZX84B16L

128

BD243C

159

BF721T1

176

BZX84B18L

128

BD244B

159

BF959

177

BZX84B5V1L

127

BD244C

159

BFR30LT1

191

BZX84B5V6L

127

BD435

158

BFR31LT1

191

BZX84B6V2L

127

BD436

158

BS107

200

BZX84B6V8L

128

BD437

158

BS107A

200

BZX84B7V5L

128

BD438

158

BS107AG

201

BZX84B8V2L

128

BD439

158

BS107ARLRM

201

BZX84B9V1L

128

BD440

158

BS107ARLRP

201

BZX84C10L

128

BD441

158

BS107G

202

BZX84C11L

128

BD442

158

BS107RL1

201

BZX84C12L

128

BD675

162

BS107RLRA

201

BZX84C13E

128

BD675A

162

BS108

200

BZX84C13L

128

BD676

162

BS170

200

BZX84C15L

128

BD676A

162

BSP16T1

176

BZX84C16L

128

BD677

162

BSP19AT1

176

BZX84C18E

128

BD677A

162

BSP52T1

173

BZX84C18L

128

BD678

162

BSR58LT1

190

BZX84C20L

128

BD678A

162

BSS123L

194

BZX84C22L

128

BD679

162

BSS123LT1G

206

BZX84C24L

128

BD679A

162

BSS123LT3G

206

BZX84C27L

128

BD680

162

BSS138L

194

BZX84C2V4L

127

BD680A

162

BSS138LT3G

206

BZX84C2V7L

127

http://onsemi.com 325

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Page

128

CS51021

BZX84C33L

128

CS51021A

BZX84C36L

128

CS51022

BZX84C39L

128

CS51022A

BZX84C3V0L

127

CS51031

31,35

DF3A6.8FU

244

BZX84C3V3E

127

CS51033

31,35

DF6A6.8FU

219,247

BZX84C3V3L

127

CS51221

22,23,36,37,75

DTA114EET1

180

BZX84C3V6L

127

CS5124

22,23,36,37,75

DTA114EM3T5G

180

BZX84C3V9E

127

CS51411

31,32

DTA114TET1

180

BZX84C3V9L

127

CS51412

31,32

DTA114TM3T5G

180

BZX84C43L

128

CS51413

31,32

DTA114YET1

180

BZX84C47L

128

CS51414

31,32

DTA114YM3T5G

180

BZX84C4V3L

127

CS5157H

38,75

DTA115EET1

180

BZX84C4V7E

127

CS5165A

38,75

DTA115EM3T5G

180

BZX84C4V7L

127

CS5171

31,33,34

DTA123EM3T5G

180

BZX84C51L

128

CS5172

31,33,34

DTA124EM3T5G

180

BZX84C56L

128

CS5173

31,33,34

DTA124XM3T5G

180

BZX84C5V1E

127

CS5174

31,33,34

DTA143EE

180

BZX84C5V1L

127

CS5253B-1

45,49

DTA143EM3T5G

180

BZX84C5V6E

127

CS5253B-8

44,49

DTA143TE

180

BZX84C5V6L

127

CS5301

38,75

DTA143TM3T5G

180

BZX84C62L

128

CS8101

51,52,74

DTA143ZET1

180

BZX84C68L

128

CS8122

51,74

DTA143ZM3T5G

180

BZX84C6V2E

127

CS8126

51,74

DTA144EET1

180

BZX84C6V2L

127

CS8126-1

DTA144EM3T5G

180

BZX84C6V8L

128

CS8129

51,53,74

DTA144TM3

180

BZX84C75L

128

CS8151

51,52,74

DTA144WM3T5G

180

BZX84C7V5L

128

CS8156

51,74

DTC114EET1

180

BZX84C8V2E

128

CS8161

51,74

DTC114EM3T5G

180

BZX84C8V2L

128

CS8182

51,53,74

DTC114TET1

180

BZX84C9V1E

128

CS8183

51,54

DTC114TM3T5G

180

BZX84C9V1L

128

CS8190

68,69,73

DTC114YET1

180

C106B

108

CS8321

51,52,74

DTC114YM3T5G

180

C106D

108

CS8361

51,54,74

DTC115EET1

180

C106D1

108

CS8363

51,54,74

DTC115EM3T5G

180

C106M

108

CS8371

51,74

DTC123EET1

180

C106M1

108

CS9201

51,52,74

DTC123EM3T5G

180

109

CS9202

51,52,74

DTC123JET1

180

DTC123JM3T5G

180

C122F1 CS2841B

22,27

37

Device Number

BZX84C30L

22,23,36,75 37 22,23,36,75

53

CV78LxxA

51

DAN222

123

DAN222M3T5G

123

DAP222

123

DAP222M3T5G

123

CS3341

62,63,69,72

D44C12

158

DTC124EET1

180

CS3351

62,63,69,72

D44H11

159

DTC124EM3T5G

180

CS3361

69,72

D44H8

159

DTC124XET1

180

CS4121

68,69,73

D44VH10

159

DTC124XM3T5G

180

CS4122

68,69,73

D45C12

158

DTC143EET1

180

CS4192

68,69,73

D45H11

159

DTC143EM3T5G

180

CS5101

22,36

D45H8

159

DTC143TE

180

CS5101EDW16

28

D45VH10

159

DTC143TM3T5G

180

CS5101EN14

28

DA121TT1

123

DTC143ZET1

180

http://onsemi.com 326

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

DTC143ZM3T5G

180

LM201AV

91

M1MA151WKT1

122

DTC144EET1

180

LM211

97

M1MA152KT1

122

DTC144EM3T5G

180

LM224

95

M1MA152WAT1

122

DTC144TM3T5G

180

LM239

98

M1MA152WKT1

122

DTC144WM3T5G

180

LM2574

31,32

M1MA174T1

122

EMC3DXV5T5

182

LM2575

31,32

M74VHC1GT66

102

EMC4DXV5T5

182

LM2576

31,32

MA3075WAL

243

EMC5DXV5T5

182

LM258

93

MAC08B

111

EMD4DXV6T1

182

LM285

39,40

MAC08M

111

EMF18XV6

185

LM2901

98

MAC12D

113

EMF18XV6T5

183

LM2902

95

MAC12HCD

113

EMF5XV6

185

LM2902V

95

MAC12HCM

113

EMF5XV6T5

183

LM2903

97

MAC12HCN

113

EMG2DXV5T5

182

LM2904

93

MAC12M

113

EMT1DXV6

172

LM293

97

MAC12N

113

EMX1DXV6T1

172

LM2931

44,46

MAC12SM

113

EMX2DXV6T1

172

LM2931A

44,46

MAC12SN

113

EMZ1DXV6T1

172

LM2931AC

45,46

MAC15A10

113

ESD5Z12

241

LM2931C

45

MAC15A6

113

ESD5Z2.5

241

LM301A

91

MAC15A8

113

ESD5Z3.3

241

LM311

97

MAC15M

113

ESD5Z5.0

241

LM317

41,43

MAC15N

113

ESD5Z6.0

241

LM317L

41,42

MAC15SD

113

ESD5Z7.0

241

LM317M

41,42

MAC15SM

113

ESD9XSeries

242

LM323

41,43

MAC15SN

113

ESD9X12S

242

LM323A

41

MAC16CM

113

ESD9X3.3S

242

LM324

95

MAC16CN

113

ESD9X5.0S

242

LM337

41,43

MAC16D

113

HN1B01FDW1

172

LM339

98

MAC16M

113

HN1B01FDW1T1

178

LM350

41,43

MAC16N

113

HN2D02FUTW1T1

123

LM358

93

MAC210A10

113

ICTE-12

226

LM385

39,40

MAC210A8

113

ICTE-15

226

LM393

97

MAC212A10

113

ICTE-18

226

LM833

93

MAC212A8

113

ICTE-36

226

LP2950

46

MAC228A10

112

ICTE-5

226

LP2950AC

46

MAC228A4

112

IMH20TR1

181

LP2950C

44

MAC228A6

112

IRF510

201

LP2950CAC

44

MAC228A8

112

IRF520

201

LP2951

46

MAC4DCM-1

112

J110

190

LP2951AC

45,46

MAC4DCMT4

112

J111

190

LP2951C

44,45

MAC4DCN-1

112

J112

190

LP2951CAC

MAC4DHM

111

J309

190

M1MA141KT1

122

MAC4DHM-1

111

J310

190

M1MA141WAT1

122

MAC4DLM

111

JLC1562

316

M1MA142WAT1

122

MAC4DLM-1

111

44,46

M1MA142WKT1

122

MAC4DSM-1

112

M1MA151KT1

122

MAC4DSMT4

112

M1MA151WAT1

122

MAC4DSN-1

112

L4949 LC03-6 LM201A

221,250 91

44

http://onsemi.com 327

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MAC4DSNT4

112

MBR160

143

MBRB1045

142

MAC8D

112

MBR16100CT

144

MBRB1545CT

142

MAC8M

112

MBR1635

144

MBRB1645

142

MAC8N

112

MBR1645

144

MBRB20100CT

142

MAC8SD

112

MBR20100CT

144

MBRB20200CT

138,142

MAC8SM

112

MBR20200CT

138,144

MBRB2060CT

MAC8SN

112

MBR2030CTL

138,144

MBRB2515L

138,142

MAC97A4

111

MBR2045CT

144

MBRB2535CTL

138,142

MAC97A6

111

MBR2060CT

144

MBRB2545CT

MAC97A8

111

MBR2080CT

144

MBRB3030CT

MAC997A6

111

MBR2090CT

144

MBRB3030CTL

138,142

MAC997A8

111

MBR20H100CTG

138,144

MBRB3045CT-1G

138,144

MAC997B6

111

MBR2515L

138,144

MBRB30H30CT-1G

138,144

MAC997B8

111

MBR2535CTL

138,144

MBRB30H60CT-1G

138,144

MAC9D

112

MBR2545CT

MAC9M

112

MAC9N

112 31,76

MAX1720

142

142 142

144

MBRB4030

MBR3045PT

145

MBRB41H100CT-1G

138,144

MBR3045ST

138,144

MBRD1035CTL

138,142

MBR3045WT

145

MBRD1045T4G

142

MAX708

55

138,144

MBRD320

142

MAX809

55,56

MBR3100

143

MBRD330

142

MAX810

55,56

MBR340

143

MBRD340

142

MAX828

31,76

MBR350RL

143

MBRD350

142

MAX829

31,76

MBR360RL

143

MBRD360

142

MBD301

119

MBR4015CTL

144

MBRD620CT

142

MBD330DWT1

120

MBR4015LWT

145

MBRD630CT

142

MBD54DWT1

120

MBR4015WT

138

MBRD640CT

142

MBD701

119

MBR40250

139,144

MBRD650CT

142

MBD770DWT1

120

MBR40250T

139,144

MBRD660CT

142

MBR0520L

MBR30H100CTG

142

138,140

MBR4045PT

145

MBRD835L

MBR0530

140

MBR4045WT

145

MBRF20100CT

144

MBR0540

140

MBR40H100WT

145

MBRF20200CT

139,144

MBR10100

144

MBR40H100WTG

138

MBRF2060CT

144

MBR1035

144

MBR41H100CTG

138,144

MBRF20H100CTG

138

MBR1045

144

MBR6045PT

145

MBRF2545CT

144

MBR1060

144

MBR6045WT

145

MBRF30H60CTG

138,144

MBR1080

144

MBR60H100CTG

138,144

MBRF40250T

139,144

MBR1090

144

MBR60L45CT

138,144

MBRM110E

138,140

138,144

MBR60L45WT

MBR10H100CTG MBR1100

143

138,142

138,145

MBRM110L

138,140

MBR7030WT

145

MBRM120E

138,140

144

MBRM120L

140

144

MBR120ESF

138,140

MBR735

MBR120LSF

138,140

MBR745

MBRM130L

140

MBR120VLSF

138,140

MBRA120E

138,140

MBRM140

140

140

MBRA130L

140

MBRS1100

141 141

MBR130 MBR130LSF

138,140

MBRA140

140

MBRS120

MBR140SF

140

MBRA160

140

MBRS130

MBR150

143

MBRA210E

138,140

MBRS130L

MBR1535CT

144

MBRA210L

138,140

MBRS140

141

MBR1545CT

144

MBRA340

MBRS140L

141

140

http://onsemi.com 328

141 138,141

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MBRS1540

141

MC100E164

282

MC100EL59

282

MBRS190

141

MC100E166

286

MC100EL90

268

MBRS2040L

141

MC100E167

282

MC100EL91

268

MBRS230L

138,141

MC100E171

282

MC100ELT20

268

MBRS240L

141

MC100E175

280

MC100ELT21

268

MBRS260

141

MC100E193

286

MC100ELT22

268

MBRS3100

141

MC100E195

273

MC100ELT23

268

MBRS320

141

MC100E196

273

MC100ELT24

268

MBRS3200

138,141

MC100E210

270

MC100ELT25

268

MBRS3201

MC100ELT28

268

MC100EP01

284

138,141

MC100E211

270

MBRS330

141

MC100E212

281,290

MBRS340

141

MC100E241

281

MC100EP016A

285

MBRS360T3

141

MC100E256

282

MC100EP05

284

MBRS410E

138,141

MC100E310

270

MC100EP08

284

MBRS410L

138,141

MC100E404

284

MC100EP101

284

MBRS4201

138,141

MC100E416

287

MC100EP105

284

141

MC100E431

278

MC100EP11

270

172,178

MC100E445

283

MC100EP116

287

MBRS540 MBT2222ADW1T1 MBT35200M

171

MC100E446

283

MC100EP131

278,281

MBT3904DW1T1

172,178

MC100E451

281

MC100EP139

272

MBT3906DW1T1

172,178

MC100E452

281

MC100EP14

270

MBT3946DW1T1

172,178

MC100E457

282

MC100EP140

277

MBT6429DW1T1

172

MC100EL01

284

MC100EP142

281

MC10/100E160

286

MC100EL04

284

MC100EP16

287

MC10/100EP16VB

287

MC100EL05

284

MC100EP16F

287

MC10/100EP16VC

287

MC100EL07

284

MC100EP16T

287

MC100E016

285

MC100EL11

270

MC100EP16VA

287

MC100E101

284

MC100EL12

290

MC100EP16VB

287

MC100E104

284

MC100EL13

270

MC100EP16VC

287

MC100E107

284

MC100EL14

270

MC100EP16VS

287

MC100E111

270

MC100EL15

270

MC100EP16VT

288

MC100E112

290

MC100EL16

287

MC100EP17

288

MC100E116

287

MC100EL1648

277

MC100EP195

273

MC100E122

290

MC100EL17

287

MC100EP196

273

MC100E131

278

MC100EL29

278

MC100EP210S

270

MC100E136

285

MC100EL30

278

MC100EP29

278

MC100E137

285

MC100EL31

278

MC100EP31

278

MC100E141

281

MC100EL32

272

MC100EP32

272

MC100E142

281

MC100EL33

272

MC100EP33

272

MC100E143

281

MC100EL34

272

MC100EP35

278

MC100E150

280

MC100EL35

278

MC100EP40

277

MC100E151

280,281

MC100EL38

272

MC100EP445

283

MC100E154

280

MC100EL39

272

MC100EP446

283

MC100E155

280

MC100EL51

278

MC100EP451

281

MC100E156

280

MC100EL52

278

MC100EP51

278

MC100E157

282

MC100EL56

282

MC100EP52

278

MC100E158

282

MC100EL57

282

MC100EP56

282

MC100E163

282

MC100EL58

282

MC100EP57

282

http://onsemi.com 329

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MC100EP58

282

MC100LVEP210

270

MC10EL11

271

MC100EP809

270

MC100LVEP34

272

MC10EL12

290

MC100EP90

268

MC10E016

285

MC10EL15

271

MC100EPT20

268

MC10E101

284

MC10EL16

288

MC100EPT21

268

MC10E104

284

MC10EL30

279

MC100EPT22

268

MC10E107

284

MC10EL31

279

MC100EPT23

268

MC10E111

270

MC10EL32

272

MC100EPT24

268

MC10E112

290

MC10EL33

272

MC100EPT25

268

MC10E116

288

MC10EL34

272

MC100EPT26

268

MC10E122

290

MC10EL35

279

MC100EPT622

268

MC10E131

279

MC10EL51

279

MC100LVE111

270

MC10E136

285

MC10EL52

279

MC100LVE164

282

MC10E137

285

MC10EL56

283

MC100LVE210

270

MC10E141

281

MC10EL57

283

MC100LVE222

272

MC10E142

281

MC10EL58

283

MC100LVE310

270

MC10E143

281

MC10ELT20

268

MC100LVEL01

284

MC10E150

280

MC10ELT21

268

MC100LVEL05

284

MC10E151

280,281

MC10ELT22

269

MC100LVEL11

270

MC10E154

280,282

MC10ELT24

269

MC100LVEL12

290

MC10E155

280,282

MC10ELT25

269

MC100LVEL13

270

MC10E156

280,282

MC10ELT28

269

MC100LVEL14

270

MC10E157

282

MC10EP01

284

MC100LVEL16

288

MC10E158

282

MC10EP05

284

MC100LVEL17

288

MC10E163

283

MC10EP08

285

MC100LVEL29

278

MC10E164

283

MC10EP101

285

MC100LVEL30

278

MC10E1651

286

MC10EP105

285

MC100LVEL31

278

MC10E1652

286

MC10EP11

271

MC100LVEL32

272

MC10E166

286

MC10EP116

288

MC100LVEL33

272

MC10E167

283

MC10EP131

279

MC100LVEL34

272

MC10E171

283

MC10EP139

272

MC100LVEL37

272

MC10E175

280

MC10EP142

281

MC100LVEL38

272

MC10E195

273

MC10EP16

288

MC100LVEL39

272

MC10E196

273

MC10EP16T

288

MC100LVEL40

277

MC10E211

270

MC10EP16VA

288

MC100LVEL51

279

MC10E212

290

MC10EP16VB

288

MC100LVEL56

282

MC10E404

284

MC10EP16VC

288

MC100LVEL58

282

MC10E411

271

MC10EP16VT

289

MC100LVEL59

282

MC10E416

288

MC10EP17

289

MC100LVEL90

268

MC10E431

279

MC10EP195

273

MC100LVEL91

268

MC10E445

283

MC10EP196

273

MC100LVEL92

268

MC10E446

283

MC10EP29

279

MC100LVELT20

268

MC10E451

281

MC10EP31

279

MC100LVELT22

268

MC10E452

281

MC10EP32

272

MC100LVELT23

268

MC10E457

283

MC10EP33

273

MC100LVEP11

270

MC10EL01

284

MC10EP35

279

MC100LVEP111

270

MC10EL04

284

MC10EP445

283

MC100LVEP14

270

MC10EL05

284

MC10EP446

283

MC100LVEP16

288

MC10EL07

284

MC10EP451

281

http://onsemi.com 330

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MC10EP51

279

MC14052B

102,315

MC1455D

295

MC10EP52

279

MC14053B

102,315

MC1455P

295

MC10EP56

283

MC14060B

315

MC14562B

316

MC10EP57

283

MC14066B

102,315

MC14569B

316

MC10EP58

283

MC14067B

102,315

MC14572UB

316

MC10EP90

269

MC14069UB

315

MC14584B

316

MC10EPT20

269

MC14070B

315

MC14585B

316

MC10H141

281

MC14071B

315

MC14598B

316

MC10LVEL58

283

MC14073B

315

MC1488

294

MC10LVEP11

271

MC14076B

315

MC1489

294

MC10LVEP16

289

MC14077B

315

MC1496BD

295

MC12026A

274

MC14081B

315

MC1496BP

295

MC12080

274

MC14082B

315

MC1496D

295

MC12093

274

MC14093B

315

MC1496P

295

MC12095

274

MC14094B

315

MC26LS30

294

MC14001B

314

MC14099B

315

MC3302

MC14001UB

314

MC14106B

315

MC33023

22,23,36

MC14007UB

314

MC1413

62,68,294

MC33025

22,26,36

MC14008B

314

MC14174B

315

MC3303

MC14011B

314

MC14175B

315

MC33030

68,71

MC14011UB

314

MC14490

315

MC33033

68,73

MC14012B

314

MC14503B

315

MC33035

68,73

MC14013B

314

MC14504B

315

MC33039

MC14014B

314

MC14511B

315

MC33060A

MC14015B

314

MC14512B

315

MC33063

31,34

MC14016B

102,314

MC14513B

315

MC33064

55,56

MC14017B

314

MC14514B

315

MC33067

22,25

MC14018B

314

MC14515B

315

MC33071

91

MC14020B

314

MC14516B

315

MC33072

93

MC14021B

314

MC14517B

316

MC33074

95

MC14022B

314

MC14518B

316

MC33077

93

MC14023B

314

MC14520B

316

MC33078

93

MC14024B

314

MC14521B

316

MC33079

95

MC14025B

314

MC14526B

316

MC33151

62,63

MC14027B

314

MC14528B

316

MC33152

62,63

MC14028B

314

MC14532B

316

MC33153

62,63

MC14029B

314

MC14536B

316

MC33160

41,42,51,55,74 55,56

MC1403

98

95

68,71 22,23,36

39,40

MC14538B

316

MC33161

MC1403B

39

MC14541B

316

MC33163

34

MC14040B

314

MC14543B

316

MC33164

55,56

MC14042B

314

MC14549B

316

MC33166

31,32,34

MC14043B

314

MC14551B

102,316

MC33167

31,32,34

MC14044B

314

MC14553B

316

MC33171

91

MC14046B

314

MC14555B

316

MC33172

93

MC14049B

314

MC14556B

316

MC33172V

93

MC14049UB

314

MC14557B

316

MC33174

95

MC14050B

314

MC14559B

316

MC33174V

95

MC14051B

102,315

MC1455B

295

MC33178

93

http://onsemi.com 331

Alphabetical Parts Listing Device Number

Page

Device Number

MC33179

95

MC34167

MC33201

91

MC33202

Page

Device Number

Page

31,32,34

MC74ACT08

311

MC3423

55,56

MC74ACT10

311

94

MC34262

19,20

MC74ACT11

311

MC33204

96

MC34268

44,49,75

MC74ACT125

311

MC33204V

96

MC3479

68,72

MC74ACT132

311

MC33232

19,20

MC44604

22,23,36

MC74ACT138

312

MC33260

19,20

MC44605

22,23,36

MC74ACT139

312

MC33262

19,20

MC44608

22,23,36

MC74ACT14

311

MC33269

44,45,49

MC74AC00

311

MC74ACT153

312

MC33272A

94

MC74AC02

311

MC74ACT157

312

MC33274A

96

MC74AC04

311

MC74ACT161

312

44,48

MC74AC05

311

MC74ACT163

312

MC33340

60,61,76

MC74AC08

311

MC74ACT20

311

MC33341

39,60,61,76

MC74AC10

311

MC74ACT240

312

MC33342

60,61,76

MC74AC11

311

MC74ACT241

312

MC33363

29,30

MC74AC125

311

MC74ACT244

312

MC33364

25

MC74AC132

311

MC74ACT245

312

MC33364

22

MC74AC138

311

MC74ACT253

312

MC33368

19,20

MC74AC139

312

MC74ACT257

312

MC33375

44,48

MC74AC14

311

MC74ACT259

312

MC33470

38,75

MC74AC157

312

MC74ACT273

312

MC33501

91

MC74AC161

312

MC74ACT32

311

MC33502

94

MC74AC163

312

MC74ACT373

313

MC33503

91

MC74AC20

311

MC74ACT374

313

MC33565

41,42,75

MC74AC240

312

MC74ACT377

313

MC33567

45,50,75

MC74AC244

312

MC74ACT540

313

MC33761

44,46

MC74AC245

312

MC74ACT541

313

MC33762

45,46

MC74AC253

312

MC74ACT564

313

MC33765

45,49

MC74AC257

312

MC74ACT573

313

MC34023

22,23,36

MC74AC259

312

MC74ACT574

313

MC34025

22,26,36

MC74AC273

312

MC74ACT640

313

MC33275

MC3403

MC74AC32

311

MC74ACT646

313

22,23,36

MC74AC373

312

MC74ACT652

313

MC34063

31,34

MC74AC374

313

MC74ACT74

311

MC34064

55,56

MC74AC377

313

MC74ACT86

311

MC34067

22,25

MC74AC4040

313

MC74HC00A

308

MC34071

92

MC74AC540

313

MC74HC02A

308

MC34072

94

MC74AC541

313

MC74HC03A

308

MC34074

96

MC74AC573

313

MC74HC04A

308

MC34074A

96

MC74AC574

313

MC74HC08A

308

MC34060A

MC34074V

96

96

MC74AC646

313

MC74HC125A

308

MC34151

62,63

MC74AC652

313

MC74HC126A

308

MC34152

62,63

MC74AC74

311

MC74HC132A

308

MC34160

41,42,55

MC74AC86

311

MC74HC138A

308

MC34161

55,56

MC74ACT00

311

MC74HC139A

308

MC34163

31,34

MC74ACT02

311

MC74HC14A

308

MC34164

55,56

MC74ACT04

311

MC74HC157A

308

MC34166

31,32,34

MC74ACT05

311

MC74HC161A

308

http://onsemi.com 332

Alphabetical Parts Listing Device Number

Page

Device Number

Page

MC74HC163A

308

MC74HCT04A

308

MC74LVX08

305

MC74HC164A

308

MC74HCT138A

308

MC74LVX125

305

MC74HC165A

308

MC74HCT14A

308

MC74LVX126

305

MC74HC174A

308

MC74HCT244A

308

MC74LVX132

305

MC74HC175A

308

MC74HCT245A

309

MC74LVX138

305

MC74HC1G00

300

MC74HCT273A

309

MC74LVX139

305

MC74HC1G02

300

MC74HCT373A

309

MC74LVX14

305

MC74HC1G04

300

MC74HCT374A

309

MC74LVX157

305

MC74HC1G08

300

MC74HCT541A

309

MC74LVX240

305

MC74HC1G14

300

MC74HCT573A

309

MC74LVX244

305

MC74HC1G32

300

MC74HCT574A

309

MC74LVX245

305

MC74HC1GU04

300

MC74HCT74A

308

MC74LVX257

306

MC74HC240A

308

MC74HCU04A

308

MC74LVX259

306

MC74HC244A

308

MC74LCX00

304

MC74LVX32

305

MC74HC245A

308

MC74LCX02

304

MC74LVX373

306

MC74HC273A

309

MC74LCX04

304

MC74LVX374

306

MC74HC32A

308

MC74LCX06

304

MC74LVX4051

306

MC74HC373A

309

MC74LCX07

304

MC74LVX4052

306

MC74HC374A

309

MC74LCX08

304

MC74LVX4053

306

MC74HC390A

309

MC74LCX125

305

MC74LVX4066

102,306

MC74HC393A

309

MC74LCX138

305

MC74LVX4245

306

MC74HC4020A

309

MC74LCX139

305

MC74LVX50

305

MC74HC4040A

309

MC74LCX14

304

MC74LVX540

306

MC74HC4046A

309

MC74LCX157

305

MC74LVX541

306

MC74HC4051

102

MC74LCX158

305

MC74LVX573

306

MC74HC4051A

309

MC74LCX16240

305

MC74LVX574

306

MC74HC4052

102

MC74LCX16244

305

MC74LVX74

MC74HC4052A

309

MC74LCX16245

305

MC74LVX8051

102,306

MC74HC4053

102

MC74LCX16373

305

MC74LVX8053

102,306

MC74HC4053A

309

MC74LCX16374

305

MC74LVX86

305

MC74HC4060A

309

MC74LCX240

305

MC74LVXC3245

306

MC74HC4066

102

MC74LCX244

305

MC74LVXT4051

306

MC74HC4066A

309

MC74LCX245

305

MC74LVXT4052

306

MC74HC4316

102

MC74LCX257

305

MC74LVXT4053

306

MC74HC4316A

309

MC74LCX258

305

MC74LVXT4066

102,306

MC74HC4538A

310

MC74LCX32

304

MC74LVXT8051

102,306

MC74HC4851

102

MC74LCX373

305

MC74LVXT8053

102,306

MC74HC4851A

310

MC74LCX374

305

MC74LVXU04

305

MC74HC4852

102

MC74LCX540

305

MC74VHC00

303

MC74HC4852A

310

MC74LCX541

305

MC74VHC02

303

MC74HC540A

309

MC74LCX573

305

MC74VHC04

303

MC74HC541A

309

MC74LCX574

305

MC74VHC08

303

MC74HC573A

309

MC74LCX74

304

MC74VHC125

303

MC74HC574A

309

MC74LCX86

305

MC74VHC126

303

MC74HC589A

309

MC74LCXU04

304

MC74VHC132

303

MC74HC595A

309

MC74LVX00

305

MC74VHC138

303

MC74HC74A

308

MC74LVX02

305

MC74VHC139

303

MC74HC86A

308

MC74LVX04

305

MC74VHC14

303

http://onsemi.com 333

Device Number

Page

305

Alphabetical Parts Listing Device Number

Page

Device Number

Page

MC74VHC157

303

MC74VHC573

304

Device Number MC79LxxA

Page 41

MC74VHC1G00

300

MC74VHC574

304

MC79M00Series

42

MC74VHC1G01

300

MC74VHC74

303

MC79Mxx

41

MC74VHC1G02

300

MC74VHC86

303

MC79xx

41

MC74VHC1G03

300

MC74VHCT00A

303

MC79xxA

MC74VHC1G04

300

MC74VHCT02A

303

MCH12140

277

MC74VHC1G05

300

MC74VHCT04A

303

MCK12140

277

MC74VHC1G07

300

MC74VHCT08A

303

MCR08B

108

MC74VHC1G08

300

MC74VHCT125A

303

MCR08M

108

MC74VHC1G09

300

MC74VHCT126A

303

MCR100-3

108

MC74VHC1G125

300

MC74VHCT132A

303

MCR100-4

108

MC74VHC1G126

300

MC74VHCT138A

303

MCR100-6

108

MC74VHC1G132

300

MC74VHCT139A

303

MCR100-8

108

MC74VHC1G135

300

MC74VHCT14A

303

MCR106-6

108

MC74VHC1G14

300

MC74VHCT157A

303

MCR106-8

108

MC74VHC1G32

300

MC74VHCT240A

303

MCR12D

109

MC74VHC1G50

300

MC74VHCT244A

304

MCR12DCM

109

MC74VHC1G66

102,300

MC74VHCT245A

304

MCR12DCN

109

MC74VHC1G86

300

MC74VHCT257A

304

MCR12DSM

109

MC74VHC1GT00

300

MC74VHCT259A

304

MCR12DSN

109

MC74VHC1GT02

300

MC74VHCT32A

303

MCR12DSN-001

109

MC74VHC1GT04

300

MC74VHCT373A

304

MCR12LD

109

MC74VHC1GT08

300

MC74VHCT374A

304

MCR12LM

109

MC74VHC1GT125

300

MC74VHCT50A

303

MCR12LN

109

MC74VHC1GT126

300

MC74VHCT540A

304

MCR12M

109

MC74VHC1GT14

300

MC74VHCT541A

304

MCR12N

109

MC74VHC1GT32

300

MC74VHCT573A

304

MCR16N

110

MC74VHC1GT50

300

MC74VHCT574A

304

MCR218-2

109

MC74VHC1GT6

103

MC74VHCT74A

303

MCR218-4

109

MC74VHC1GT66

300

MC74VHCT86A

303

MCR218-6

109

MC74VHC1GT86

300

MC74VHCU04

303

MCR22-6

108

MC74VHC1GU04

300

MC75172B

294

MCR22-8

108

MC74VHC240

303

MC75174B

294

MCR25D

110

MC74VHC244

304

MC7800Series

42

MCR25M

110

MC74VHC245

304

MC78FC00Series

47

MCR25N

110

MC74VHC257

304

MC78FCxx

44

MCR310-10

109

MC74VHC259

304

MC78L00ASeries

42

MCR68-2

109

MC74VHC32

303

MC78LCxx

44,46

MCR69-2

110

MC74VHC373

304

MC78LxxA

41

MCR69-3

110

MC74VHC374

304

MC78M00Series

42

MCR703A

108

41

MC74VHC4051

103,304

MC78Mxx

41

MCR706A

108

MC74VHC4052

304

MC78MxxA

41

MCR708A

108

MC74VHC4053

304

MC78PC

44

MCR708A1

108

MC74VHC4066

103,304

MC78PC00Series

47

MCR716

108

MC74VHC4316

304

MC78xx

41

MCR718

108

MC74VHC50

303

MC78xxA

41

MCR72-3

109

MC74VHC540

304

MC7900Series

42

MCR72-6

109

MC74VHC541

304

MC79L00Series

42

MCR72-8

109

http://onsemi.com 334

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MCR8DCM

109

MJ21193

161,165

MJE15035

158,164

MCR8DCN

109

MJ21194

161,165

MJE170

157

MCR8DSM

109

MJ21195

161

MJE171

157

MCR8DSN

109

MJ21196

161

MJE172

157

MCR8N

109

MJ2955

160

MJE180

MCR8SD

109

MJ4502

161

MJE18002

158,166

MCR8SM

109

MJ802

161

MJE18004

158,166

MCR8SN

109

MJB41CT4

157

MJE18004D2

158,166

MDC3105

62,68

MJB42CT4

157

MJE18006

159,166 159,166

157

MDC3105DM

78

MJB44H11T4

157

MJE18008

MDC3105L

78

MJB45H11T4

157

MJE181

157

MGSF1N02ELT1

201

MJD112T4

162

MJE182

157

MGSF1N02ELT1G

201

MJD117T4

162

MJE200

158

MGSF1N02ELT3

201

MJD122T4

162

MJE210

158

MGSF1N02L

194

MJD127T4

162

MJE243

158

MGSF1N03L

194

MJD148T4

MGSF1P02ELT1

201

MJD18002D2T4

MGSF1P02ELT3

201

MGSF1P02LT1 MGSF1P02LT1G

157

MJE253

158

157,166

MJE270

162

MJD200T4

157

MJE271

162

201

MJD210T4

157

MJE2955T

159

201

MJD243T4

157

MJE3055T

159

MGSF1P02LT3

201

MJD253T4

157

MJE340

157

MGSF1P02LT3G

201

MJD2955T4

157

MJE3439

157

MGSF2N02EL

194

MJD3055T4

157

MJE344

157

MGSF2P02HDT1

201

MJD31CT4

157

MJE350

157

MGSF3442VT1

201

MJD31T4

157

MJE371

158

MGSF3454VT1

201

MJD32CT4

157

MJE4343

160

MJ11012

163

MJD32T4

157

MJE4353

160

MJ11015

163

MJD340T4

157

MJE521

158

MJ11016

163

MJD350T4

157

MJE5730

158

MJ11021

163

MJD41CT4

157

MJE5731

158

MJ11022

163

MJD42CT4

157

MJE5731A

158

MJ11028

163

MJD44E3T4

162

MJE5742

162

MJ11030

163

MJD44H11T4

157

MJE5850

159

MJ11032

163

MJD45H11T4

157

MJE5851

159

MJ11033

163

MJD47T4

157

MJE5852

159

MJ14001

161

MJD50T4

157

MJE700

162

MJ14002

161

MJD5731T4

157

MJE702

162

MJ15001

160,164

MJD6039T4

162

MJE703

162

MJ15002

160,164

MJE13005

158

MJE800

162

MJ15003

161,164

MJE13007

159

MJE802

162

MJ15004

161,164

MJE13009

159

MJE803

162

MJ15011

160

MJE15028

159

MJF122

163

MJ15015

160,164

MJE15029

159

MJF127

163

MJ15016

160,164

MJE15030

159,164

MJF15030

160

MJ15022

161

MJE15031

159,164

MJF15031

160

MJ15023

161

MJE15032

159,164

MJF18004

160,166

MJ15024

161,165

MJE15033

159,164

MJF18008

160,166

MJ15025

161,165

MJE15034

158,164

MJF2955

http://onsemi.com 335

160

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MJF3055

160

MM3Z13V

126

MM5Z2V7

126

MJF31C

160

MM3Z15V

126

MM5Z30V

126

MJF32C

160

MM3Z15V5

126

MM5Z33V

126

MJF44H11

160

MM3Z16V

126

MM5Z36V

127

MJF45H11

160

MM3Z16VS

126

MM5Z3V0

126

MJF47

160

MM3Z18V

126

MM5Z3V3

126

MJF6388

163

MM3Z18VS

126

MM5Z3V6

126

MJF6668

163

MM3Z20V

126

MM5Z47V

127

MJH11017

163

MM3Z22V

126

MM5Z4V7

126

MJH11019

163

MM3Z24V

126

MM5Z4V7S

126

MJH11020

163

MM3Z27V

126

MM5Z5V1

126

MJH11021

163

MM3Z2V4

126

MM5Z5V1S

126

MJH11022

163

MM3Z2V7

126

MM5Z5V6

126

MJH6284

163

MM3Z33V

126

MM5Z5V6S

126

MJH6287

163

MM3Z36V

127

MM5Z6V2S

126

MJL0281A

160,164

MM3Z39V

127

MM5Z6V8

126

MJL0302A

160,164

MM3Z3V0

126

MM5Z6V8S

126

MJL1302A

160,164

MM3Z3V3

126

MM5Z7V5

126

MJL21193

160,164

MM3Z3V3S

126

MM5Z8V2

126

MJL21194

160,164

MM3Z3V6

126

MM5Z8V2S

126

MJL21195

160,164

MM3Z3V9

126

MM5Z9V1

126

MJL21196

160,164

MM3Z3V9S

126

MM5Z9V1S

126

MJL3281A

160,164

MM3Z43V

127

MMBD101LT1

119

MJL4281A

160,165

MM3Z4V3

126

MMBD2835LT1

122

MJL4302A

160,165

MM3Z4V3S

126

MMBD2836LT1

122

MJW0281A

160,164

MM3Z4V7

126

MMBD2837LT1

122

MJW0302A

160,164

MM3Z4V7S

126

MMBD2838LT1

122

MJW1302A

160,165

MM3Z5V1

126

MMBD301LT1

119

MJW18020

160

MM3Z5V1S

126

MMBD330T1

119

MJW21191

160,164

MM3Z5V6

126

MMBD352LT1

119

MJW21192

160,164

MM3Z5V6S

126

MMBD352WT1

119

MJW21193

160,164

MM3Z6V2

126

MMBD353LT1

119

MJW21194

160,164

MM3Z6V2S

126

MMBD354LT1

119

MJW21195

160,164

MM3Z6V8

126

MMBD355LT1

119

MJW21196

160,164

MM3Z6V8S

126

MMBD452LT1

119

MJW3281A

160,165

MM3Z7V5

126

MMBD6050LT1

122

MKP1V120

115

MM3Z7V5S

126

MMBD6100LT1

122

MKP1V130

115

MM3Z8V2

126

MMBD7000LT1

122

MKP1V160

115

MM3Z8V2S

126

MMBD701LT1

119

MKP1V240

115

MM3Z9V1

126

MMBD717LT1

119

MKP3V120

115

MM3Z9V1S

126

MMBD770T1

119

MKP3V240

115

MM5Z10V

126

MMBD914LT1

122

MLD1N06CL

211

MM5Z12V

126

MMBF0201NL

194

MM3Z10V

126

MM5Z15V

126

MMBF0202PLT1

201

MM3Z10VS

126

MM5Z16V

126

MMBF0202PLT1G

201

MM3Z11V

126

MM5Z27V

126

MMBF170L

194

MM3Z12V

126

MM5Z2V4

126

MMBF170LT1G

206

MM3Z12VS

126

MM5Z2V4S

126

MMBF2201N

194

http://onsemi.com 336

Alphabetical Parts Listing Device Number

Page

Device Number

Device Number

Page

MMBF2202P

194

MMBT6429LT1

169,173

Page

MMBZ5227BL

127

MMBF4391LT1

190

MMBT6517LT1

176

MMBZ5227EL

127

MMBF4392LT1

190

MMBT6520LT1

176

MMBZ5228BL

127

MMBF4393LT1

190

MMBT6521L

MMBF4416LT1

190

MMBT8099LT1

MMBF5457LT1

190

MMBF5460LT1 MMBF5484LT1

170

MMBZ5229BL

127

168,175

MMBZ5230BL

127

MMBT918LT1

177

MMBZ5231BL

127

191

MMBTA05LT1

169,175

MMBZ5231EL

127

190

MMBTA06LT1

168,175

MMBZ5232BL

127

MMBFJ175LT1

190

MMBTA06WT1

170

MMBZ5232EL

127

MMBFJ177LT1

190

MMBTA13LT1

173

MMBZ5233BL

127

MMBFJ309LT1

190

MMBTA14LT1

173

MMBZ5234BL

127

MMBFJ310LT1

190

MMBTA42LT1

176

MMBZ5234EL

127

MMBFU310LT1

190

MMBTA43L

176

MMBZ5235BL

128

MMBT2131

171

MMBTA55LT1

169,175

MMBZ5236BL

128

MMBT2222ALT1

169,175,177

MMBTA56LT1

168,175

MMBZ5237BL

128

MMBT2222ATT1

171,175,178

MMBTA56WT1

170

MMBZ5237EL

128

MMBT2222AWT1

170,175,178

MMBTA63LT1

173

MMBZ5238BL

128

170,175

MMBTA64LT1

173

MMBZ5239BL

128

MMBT2369ALT1

177

MMBTA70LT1

169

MMBZ5240BL

128

MMBT2369LT1

177

MMBTA92LT1

176

MMBZ5240EL

128

MMBT2484LT1

169,173

MMBTH10-4L

177

MMBZ5241BL

128

168,175,177

MMBTH10LT1

177

MMBZ5242BL

128

MMBV105GLT1

118

MMBZ5242EL

128

MMBV109LT1

118

MMBZ5243BL

128

169

MMBV2101LT1

118

MMBZ5243EL

128

MMBT3904LT1

169,177

MMBV2105LT1

118

MMBZ5244BL

128

MMBT3904TT1

171,178

MMBV2109LT1

118

MMBZ5244EL

128

MMBT3904WT1

170,178

MMBV3102LT1

118

MMBZ5245BL

128

MMBT3906LT1

169,177

MMBV3401LT1

121

MMBZ5245EL

128

MMBT3906TT1

171,178

MMBV3700LT1

121

MMBZ5246BL

128

MMBT3906WT1

170,178

MMBV409LT1

118

MMBZ5246EL

128

MMBT4124LT1

170

MMBV432LT1

118

MMBZ5247BL

128

MMBT4126LT1

170

MMBV609LT1

118

MMBZ5248BL

128

MMBT4401LT1

169,175,177

MMBV809LT1

118

MMBZ5248EL

128

MMBT2222LT1

MMBT2907ALT1 MMBT2907AM3T5G MMBT2907AWT1 MMBT3416L

MMBT4401WT1 MMBT4403LT1 MMBT4403WT1 MMBT489L

171 170,175,178

170,178

MMBZ12VAL

134

MMBZ5249BL

128

169,175,177

MMBZ15VAL

134

MMBZ5250BL

128

170,178

MMBZ15VDL

133

MMBZ5251BL

128

MMBZ15VDLT1

133

MMBZ5252BL

128

MMBT5087LT1

169,173

170

MMBZ18VAL

134

MMBZ5252EL

128

MMBT5088LT1

170,173

MMBZ20VAL

134

MMBZ5253BL

128

MMBT5089LT1

170,173

MMBZ27VAL

134

MMBZ5254BL

128

MMBT5401LT1

176

MMBZ27VCL

133

MMBZ5255BL

128

MMBT5550L

168

MMBZ33VAL

134

MMBZ5256BL

128

MMBT5550LT1

175,176

MMBZ5221BL

127

MMBZ5257BL

128

MMBT5551LT1

176

MMBZ5222BL

127

MMBZ5258BL

128

MMBT589L

170

MMBZ5223BL

127

MMBZ5259BL

128

MMBT6427LT1

173

MMBZ5225BL

127

MMBZ5261BL

128

MMBT6428LT1

169,173

MMBZ5226BL

127

MMBZ5261EL

128

http://onsemi.com 337

Alphabetical Parts Listing Device Number

Page

MMBZ5262BL

128

MMJT350T1

157

MMSZ39

130

MMBZ5263BL

128

MMJT9410T1

157

MMSZ3V0

129

MMBZ5264BL

128

MMJT9435T1

157

MMSZ3V3

129

MMBZ5265BL

128

MMQA12V

218,246

MMSZ3V6

129

MMBZ5268BL

128

MMQA13V

218,246

MMSZ3V9

129

MMBZ5270BL

128

MMQA15V

218,246

MMSZ43

130

MMBZ5V6AL

Device Number

Page

Device Number

Page

133

MMQA18V

218,246

MMSZ4678

129

133,134

MMQA20V

218,246

MMSZ4679

129

MMBZ6V2AL

133

MMQA22V

218,246

MMSZ4680

129

MMBZ6V8AL

133

MMQA24V

218,246

MMSZ4681

129

MMBZ9V1AL

133

MMQA27V

218,246

MMSZ4682

129

MMDF1N05E

197

MMQA30V

218,246

MMSZ4683

129

MMDF2C03HD

196

MMQA33V

218,246

MMSZ4684

129

MMDF2N02E

196

MMQA5V6

218,246

MMSZ4684E

129

MMDF2P01HDR2

201

MMQA6V2

218,246

MMSZ4685

129

MMDF2P02E

197

MMQA6V8

218,246

MMSZ4686

129

MMDF2P02HD

197

MMSD103T1

122

MMSZ4687

129

MMDF2P03HDR2

201

MMSD301T1

119

MMSZ4688

129

MMDF3N02HD

196

MMSD4148T1

122

MMSZ4688E

129

MMDF3N03HDR2

201

MMSD701T1

119

MMSZ4689

129

MMDF3N04HD

196

MMSD914T1

122

MMSZ4689E

129

MMDF4N01HDR2

201

MMSF2P02ER2

202

MMSZ4690

129

MMDF4P03HDR2

201

MMSF3P02HD

197

MMSZ4690E

129

MMDF6N02HDR2

201

MMSF3P03HDR2

202

MMSZ4691

129

MMDF6N03HDR2

201

MMSF4N01HDR2

202

MMSZ4692

129

MMDFS2P102R2

201

MMSF4P01HDR2

202

MMSZ4693

129

MMDFS3P303R2

201

MMSF5N02HDR2

202

MMSZ4694

129

MMDFS6N303R2

201

MMSF5P02HDR2

202

MMSZ4695

129

MMDL101T1

119

MMSF7P03HD

197

MMSZ4696

129

MMDL301T1

119

MMSZ10

129

MMSZ4697

129

MMDL6050T1

123

MMSZ11

129

MMSZ4698

129

MMDL770T1

119

MMSZ12

129

MMSZ4699

129

MMDL914T1

123

MMSZ13

129

MMSZ4700

129

MMFT2955ET1

201

MMSZ15

129

MMSZ4701

129

MMFT2955ET1G

201

MMSZ15E

129

MMSZ4701E

129

MMFT2955ET3

201

MMSZ16

129

MMSZ4702

129

MMFT3055ET1

201

MMSZ18

129

MMSZ4702E

129

MMFT3055VLT1

201

MMSZ18E

129

MMSZ4703

129

MMFT3055VLT1G

201

MMSZ20

129

MMSZ4704

129

MMFT3055VLT3

201

MMSZ22

129

MMSZ4704E

129

MMFT3055VLT3-LF

202

MMSZ24

129

MMSZ4705

129

MMFT3055VLT3G

202

MMSZ27

129

MMSZ4706

129

MMFT3055VT1

202

MMSZ2V4

129

MMSZ4707

129

MMFT3055VT1G

202

MMSZ2V7

129

MMSZ4708

129

MMFT3055VT3

202

MMSZ2V7E

129

MMSZ4709

129

MMFT3055VT3G

202

MMSZ30

129

MMSZ4710

129

MMFT5P03HDT3

202

MMSZ33

129

MMSZ4711

129

MMFT960

196

MMSZ36

130

MMSZ4713

129

MMBZ5V6ALT1

http://onsemi.com 338

Alphabetical Parts Listing Device Number

Page

Device Number

Page

MMSZ4714

Page 129

Device Number MMSZ5252B

129

MMUN2231LT1

179

MMSZ4715

130

MMSZ5252E

129

MMUN2232LT1

179

MMSZ4717

130

MMSZ5253B

129

MMUN2233LT1

179

MMSZ4V3

129

MMSZ5254B

129

MMUN2234LT1

179

MMSZ4V7

129

MMSZ5254E

129

MMUN2238LT1

179

MMSZ51

130

MMSZ5255B

129

MMVL109T1

118

MMSZ5221B

129

MMSZ5256B

129

MMVL3401T1

121

MMSZ5221E

129

MMSZ5256E

129

MPF102

190

MMSZ5222B

129

MMSZ5257B

129

MPF4392

190

MMSZ5223B

129

MMSZ5257E

129

MPF4393

190

MMSZ5223E

129

MMSZ5258B

130

MPF9200

202

MMSZ5225B

129

MMSZ5259B

130

MPS2222

167,174

MMSZ5226B

129

MMSZ5259E

130

MPS2222A

167,174,177

MMSZ5226E

129

MMSZ5260B

130

MPS2907A

167,174,177

MMSZ5227B

129

MMSZ5260E

130

MPS4124

167

MMSZ5228B

129

MMSZ5261B

130

MPS4126

167

MMSZ5229B

129

MMSZ5262B

130

MPS4250

167

MMSZ5230B

129

MMSZ5263B

130

MPS5172

167

MMSZ5231B

129

MMSZ5264B

130

MPS650

174

MMSZ5232B

129

MMSZ5265B

130

MPS651

167,174

MMSZ5233B

129

MMSZ5266B

130

MPS6560

MMSZ5234B

129

MMSZ5267B

130

MPS6601

174

MMSZ5235B

129

MMSZ5268B

130

MPS6652

167,174

MMSZ5235E

129

MMSZ5270B

130

MPS6717

168,174

MMSZ5236B

129

MMSZ5272B

130

MPS6726

168,174

MMSZ5237B

129

MMSZ56

130

MPS750

174

MMSZ5237E

129

MMSZ5V1

129

MPS751

167,174

MMSZ5238B

129

MMSZ5V6

129

MPS8099

167,174

MMSZ5239B

129

MMSZ6V2

129

MPS8599

167,174

MMSZ5240B

129

MMSZ6V8

129

MPSA05

167,174

MMSZ5240E

129

MMSZ7V5

129

MPSA06

167,174

MMSZ5241B

129

MMSZ8V2

129

MPSA13

173

MMSZ5242B

129

MMSZ8V2E

129

MPSA14

173

MMSZ5242E

129

MMSZ9V1

129

MPSA18

167,173

MMSZ5243B

129

MMUN2111LT1

179

MPSA20

167

MMSZ5244B

129

MMUN2112LT1

179

MPSA27

173

MMSZ5244E

129

MMUN2113LT1

179

MPSA29

173

MMSZ5245B

129

MMUN2114LT1

179

MPSA42

176

MMSZ5245E

129

MMUN2115LT1

179

MPSA43

176

MMSZ5246B

129

MMUN2116LT1

179

MPSA44

176

MMSZ5246E

129

MMUN2132LT1

179

MPSA55

167,174

MMSZ5247B

129

MMUN2133LT1

179

MPSA56

167,174

MMSZ5248B

129

MMUN2211LT1

179

MPSA63

173

MMSZ5248E

129

MMUN2212LT1

179

MPSA64

173

MMSZ5249B

129

MMUN2213LT1

179

MPSA75

173

MMSZ5250B

129

MMUN2214LT1

179

MPSA77

173

MMSZ5250E

129

MMUN2215LT1

179

MPSA92

176

MMSZ5251B

129

MMUN2216LT1

179

MPSA93

176

http://onsemi.com 339

174

Alphabetical Parts Listing Device Number

Page

Device Number

Page

MPSH10

177

MSD1819A-RT1

170

MTB75N06HD

203

MPSH17

177

MSD42WT1

176

MTB75N06HDT4

203

MPSW01

168,174

MSD601-RT1

170

MTD10N10EL

203

MPSW01A

168,174

MSD602-RT1

170

MTD10N10ELT4

203

MPSW05

168,174

MSQA6V1W5

219,246

MTD10N10ELT4G

203

MPSW06

168,174

MSR1560

139,145

MTD1302

203

MPSW13

173

MSR860

139,145

MTD1302T4

203

MPSW42

176

MSRD620CT

139,145

MTD1312T4

203

MPSW45

173

MTB1306

202

MTD14N10ET4

203

MPSW45A

Page

Device Number

173

MTB1306T4

202

MTD15N06V

203

MPSW51

168,174

MTB20N20E

202

MTD15N06VL

203

MPSW51A

168,174

MTB20N20ET4

202

MTD15N06VL1

203

MPSW55

168,174

MTB23P06V

202

MTD15N06VLT4

203

MPSW56

168,174

MTB23P06VT4

202

MTD15N06VT4

203

MPSW63

173

MTB29N15E

202

MTD20N03HDL

203

MPSW92

176

MTB29N15E1

202

MTD20N03HDL1

203

MPX4729A

124

MTB29N15ET4

202

MTD20N03HDLG

203

MR2502

149

MTB2P50E

199

MTD20N03HDLT4

203

149

MR2504

MTB30N06VL

202

MTD20N03HDLT4G

203

MR2535L

139,150

MTB30N06VLT4

202

MTD20N06HD

203

MR2835SK

139,150

MTB30P06V

199

MTD20N06HD1

203

MR750

149

MTB33N10E

202

MTD20N06HDL

203

MR751

149

MTB33N10ET4

202

MTD20N06HDL1

203

MR752

149

MTB36N06V

202

MTD20N06HDLT4

203

MR754

149

MTB36N06VT4

202

MTD20N06HDLT4G

203

MR756

149

MTB40N10E

202

MTD20N06HDT4

203

MR852

149

MTB40N10ET4

202

MTD20N06HDT4G

203

MR854

149

MTB50N06V

202

MTD20N06V

203

MR856

149

MTB50N06VL

202

MTD20P03HDLT4

203

MRA4003

149

MTB50N06VLT4

202

MTD20P06HDLG

204

MRA4004

149

MTB50N06VT4

202

MTD20P06HDLT4

204

MRA4005

149

MTB50P03HDL

199

MTD20P06HDLT4G

204

MRA4006

149

MTB52N06V

202

MTD2955ET4

204

MRA4007

149

MTB52N06VL

202

MTD2955V

204

MRS1504

149

MTB52N06VLT4

202

MTD2955V1

204

MSA1162GT1

170

MTB52N06VT4

202

MTD2955V1G

204

MSA1162YT1

170

MTB55N06Z

202

MTD2955VG

204

MSB1218A-RT1

170

MTB55N06ZT4

203

MTD2955VT4

204

MSB709-RT1

170

MTB60N05HDL

203

MTD2955VT4G

204

MSB710-RT1

170

MTB60N05HDLT4

203

MTD3055ELT4

204

MSB92ASW

MTB60N06HD

203

MTD3055V

204

MSB92AWT1

175,176 176

MTB60N06HDT4

203

MTD3055V1

204

MSB92WT1

176

MTB75N03HDL

203

MTD3055VL

204

MSC2295-C

177

MTB75N03HDLT4

203

MTD3055VL1

204

MSC2712GT1

170

MTB75N05HD

203

MTD3055VLT4

204

MSC2712YT1

170

MTB75N05HDG

203

MTD3055VT4

204

MSD1328-RT1

170

MTB75N05HDT4

203

MTD3302

204

MSD1328-ST1

170

MTB75N05HDT4G

203

MTD3302T4

204

http://onsemi.com 340

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

MTD5P06V

199

MUN2132T1

179

MUN5311DW1T1

182

MTD5P06VT4G

207

MUN2211T1

179

MUN5312DW1T1

182

MTD6N15

198

MUN2212T1

179

MUN5313DW1T1

182

MTD6N20E

198

MUN2213T1

179

MUN5314DW1T1

182

MTD9N10E

204

MUN2214T1

179

MUN5315DW1T1

182

MTD9N10E1

204

MUN2215T1

179

MUN5316DW1T1

182

MTD9N10ET4

204

MUN2216T1

179

MUN5330DW1T1

182

MTDF2N06HDR2

204

MUN2230T1

179

MUN5333DW1T1

182

MTP10N10E

204

MUN2232T1

179

MUN5335DW1T1

182 147

MTP10N10EL

200

MUN2233T1

179

MUR105

201,204

MUN2234T1

179

MUR110

MTP12P10

200

MUN2237T1

179

MUR1100E

MTP1302

204

MUN2240T1

179

MUR115

147

MTP15N06V

204

MUN5111DW1T1

181

MUR120

147

MTP15N06VL

204

MUN5111T1

179

MUR130

147

MTP20N06V

204

MUN5112T1

179

MUR140

147

MTP23P06V

200

MUN5113DW1T1

181

MUR1510

148

MTP23P06VG

205

MUN5113T1

179

MUR1515

148

MTP2955V

204

MUN5114DW1T1

181

MUR1520

148

MTP2955VG

204

MUN5114T1

179

MUR1540

148

MTP29N15E

204

MUN5115DW1T1

181

MUR1560

148

MTP2P50E

200

MUN5116DW1T1

181

MUR160

147

MTP3055V

204

MUN5131T1

179

MUR1610CT

148

MTP3055VL

204

MUN5132DW1T1

181

MUR1615CT

148

MTP30N06VL

204

MUN5132T1

179

MUR1620CT

148

MTP33N10E

204

MUN5133DW1T1

181

MUR1620CTR

148

MTP36N06V

204

MUN5133T1

179

MUR1640CT

148

MTP40N10E

204

MUN5135DW1T1

181

MUR1660CT

148

MTP50N06V

204

MUN5135T1

179

MUR180E

MTP50N06VL

204

MUN5211DW1T1

181

MUR2020R

148

MTP50P03HDL

200

MUN5211T1

179

MUR2100E

147

MTP52N06V

204

MUN5212DW1T1

181

MUR220

147

MTP52N06VL

204

MUN5212T1

179

MUR240

147

MTP52N06VLG

204

MUN5213DW1T1

181

MUR260

147

MTP5P06V

205

MUN5213T1

179

MUR3020PT

148

MTP60N06HD

205

MUN5214DW1T1

181

MUR3020WT

148

MTP75N03HDL

205

MUN5214T1

179

MUR3040PT

148

MTP75N06HD

205

MUN5215DW1T1

181

MUR3060PT

148

MTSF2P02HDR2

205

MUN5215T1

179

MUR3060WT

148

MTSF2P03HDR2

205

MUN5216DW1T1

181

MUR405

147

MTW32N20E

200

MUN5230DW1T1

181

MUR410

MTW35N15E

205

MUN5230T1

179

MUR4100E

MTW45N10E

205

MUN5232DW1T1

181

MUR415

147

MTY100N10E

205

MUN5232T1

179

MUR420

147

MUN2111T1

179

MUN5233DW1T1

181

MUR440

147

MUN2112T1

179

MUN5233T1

179

MUR460

147

MUN2113T1

179

MUN5235DW1T1

181

MUR480E

MUN2114T1

179

MUN5235T1

179

MUR620CT

MTP10N10ELG

http://onsemi.com 341

147 139,147

139,147

147 139,147

139,147 148

Alphabetical Parts Listing Device Number

Page

Device Number

Page

MUR805

148

MURS260

146

NB2308AI1HD

275

MUR810

148

MURS320

146

NB2308AI1HDT

275

139,148

MURS340

146

NB2308AI2D

275

MUR815

148

MURS360

146

NB2308AI2DT

275

MUR820

148

MV104

118

NB2308AI3D

276

MUR840

148

MV209

118

NB2308AI3DT

276

MUR8100E

MUR860

Page

Device Number

148

MV2105

118

NB2308AI4D

276

MUR880E

139,148

MV2109

118

NB2308AI4DT

276

MURA105

146

MZP4735A

124

NB2308AI5HD

276

MURA110

146

MZP4746A

124

NB2308AI5HDT

276

MURA115

146

MZP4749A

124

NB2309AC1D

276

MURA120

146

MZP4750A

125

NB2309AC1DT

276

MURA130

146

NB100ELT23L

269

NB2309AC1HD

276

MURA140

146

NB100EP223

271

NB2309AC1HDT

276

MURA160

146

NB100LVEP17

289

NB2309AI1D

276

MURA205

146

NB100LVEP221

271

NB2309AI1DT

276

MURA210

146

NB100LVEP222

273

NB2309AI1HD

276

MURA215

146

NB100LVEP224

271

NB2309AI1HDT

276

MURA220

146

NB100LVEP56

283

NB2579A

277

MURA230

146

NB100LVEP91

269

NB2669A

277

MURA240

146

NB2304AC1D

275

NB2760A

277

MURA260

146

NB2304AC1HD

275

NB2762A

277

MURB1620CT

146

NB2304AC2D

275

NB2769A

277

MURB1660CT

146

NB2304AI1D

275

NB2779A

277

MURD320

146

NB2304AI1HD

275

NB2780A

277

MURD330

146

NB2304AI2D

275

NB2869A

277

MURD340

146

NB2305AC1D

275

NB2870A

277

MURD620CT

146

NB2305AC1DT

275

NB2872A

277

MURF1620CT

148

NB2305AC1HD

275

NB2879A

277

MURF1660CT

148

NB2305AC1HDT

275

NB2969A

277 288,289

MURH840CT

139,148

NB2305AI1D

275

NB4L16M

MURH860CT

139,148

NB2305AI1DT

275

NB4L52

279

MURHB840CT

139,146

NB2305AI1HD

275

NB4L858M

269

MURHB860CT

139,146

NB2305AI1HDT

275

NB4N11M

271

MURHD560

139,146

NB2308AC1D

275

NB4N11S

271

MURHF860CT

139,148

NB2308AC1DT

275

NB4N316M

289

MURHS160

146

NB2308AC1HD

275

NB4N507A

274

MURS105

146

NB2308AC1HDT

275

NB4N5275

269

MURS110

146

NB2308AC2D

275

NB4N527S

289

MURS115

146

NB2308AC2DT

275

NB4N840M

269

MURS120

146

NB2308AC3D

275

NB6L11

271

MURS140

146

NB2308AC3DT

276

NB6L16

289

MURS160

146

NB2308AC4D

276

NB6L239

273

MURS205

146

NB2308AC4DT

276

NB6N239S

273

MURS210

146

NB2308AC5HD

276

NB7L111M

271

MURS220

146

NB2308AC5HDT

276

NB7L11M

271

MURS230

146

NB2308AI1D

275

NB7L14M

271

MURS240

146

NB2308AI1DT

275

NB7L216

289

http://onsemi.com 342

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

NB7L32M

273

NCP1200

22

NCP1530

NB7L86M

Page 31,32

283,285

NCP1201

22,23,36

NCP1550

31,35

NB7N017M

273

NCP1203

22,23,36

NCP1562

22,24,36,75

NBC12429

274

NCP1205

25

NCP1571

31,35

NBC12429A

274

NCP1205

22

NCP1575

26,31,35

NBC12430

274

NCP1207A

22,25

NCP1580

31,35

NBC12430A

274

NCP1212

22,23,36

NCP1582

31,35,75

NBC12439

274

NCP1215A

NBC12439A

274

NCP1216

22,23,36

NCP1583

31,35,75

NBSG11

271

NCP1216A

22,23,36

NCP1586

75

NBSG111

271

NCP1217

22,24,36

NCP1588

75

NBSG14

271

NCP1217A

22,24,36

NCP1595

75

NBSG16

289

NCP1230

22,24,36

NCP1595A

NBSG16M

289

NCP1271

22,24,36

NCP1601

19,20,21

NBSG16VS

289

NCP1280

24,36

NCP1603

19,21,22,24,36

NBSG53A

273

NCP1280

22

NCP1605

19

NBSG72A

269

NCP1282

22,24,36

NCP1606

19,20

NBSG86A

283,285

NCP1308

22,25

NCP1650

19,20

NCN4555

295

NCP1337

22,25

NCP1651

19,21

NCN4557

295

NCP1351

22,25

NCP1652

19,21

NCN6000

295

NCP1377

22,25

NCP1653

19,20

NCN6001

295

NCP1378

25

NCP1653A

19,20

NCN6004A

295

NCP1378

22

NCP1654

19,20

NCN6010

295

NCP1381

22,25

NCP1729

31,76

NCP1800

60,61,76

22,25

NCP1582A

31,35

31,32

NCP100

39,40

NCP1395A

22,26,36

NCP1000

29,30

NCP1395B

22,36

NCP18335/B

NCP1001

29,30

NCP1396

22,36

NCP1835

60,61

NCP1002

29,30

NCP1400

31,33

NCP1835B

60,61

NCP1010

29,30

NCP1400ASN50

59,77

NCP2809

99

NCP1011

29,30

NCP1402

31,33

NCP2820

99

NCP1012

29,30

NCP1403

31,33

NCP2821

99

NCP1013

29,30

NCP1406

31,33,58,59,76,77

NCP2860

44,45,48

NCP1014

29,30

NCP1410

31,33

NCP2890

99

NCP1027

29,30

NCP1421

31,33,59,76,77

NCP2892A

99

NCP1028

29,30

NCP1421/2

58

NCP300

55,56

NCP1030

36,37,75

NCP1422

31,33,59,76,77

NCP301

56

NCP1031

36,37,75

NCP1423

31,33

NCP301

55

NCP1050

29,30

NCP1450

31,35

NCP302

55,57

NCP1051

29,30

NCP1450A

58,76

NCP303

55,57

NCP1052

29,30

NCP1500

31,32

NCP304

55,57

NCP1053

29,30

NCP1501

31,32

NCP305

55,57

NCP1054

29,30

NCP1510

31,32

NCP3063

31,34

NCP1055

29,30

NCP1519

31,32

NCP3063B

NCP1086

44,45,49

NCP1521

31,32

NCP3163

NCP1117

44,45,49

NCP1522

32

,75

NCP1523

31,32

NCP3334

45,48

NCP112

55,57

NCP1526

31,32

NCP3335

44,75

NCP1200

23,36

NCP1529

31,32

NCP3335A

45,48

http://onsemi.com 343

NCP3163B

76

34 31,34 34

Alphabetical Parts Listing Device Number NCP3418B

Page 75

Device Number

Page

Device Number

Page

NCP5331

38,75

NCS2200

97

NCP5332A

38,75

NCS2201

97

75

NCS2202

97 97

NCP345

55,57,60,61

NCP346

57,60,61

NCP5351

NCP346SN1

55

NCP5355

75

NCS2203

NCP346SN2

55

NCP5371

38,75

NCS7101

92

60,61

NCP5382

38

NCV1009

39,40

NCP3488

75

NCP5385

38

NCV1117

51,53,74

NCP365

76

NCP5387

38

NCV1455B

NCP366

76

NCP5388

38

NCV2931

NCP368

76

NCP5389

38

NCV2931A

NCP3712A

55

NCP5422

31,35

NCV2951

44,47,55

NCP5423

31,35

NCV2951A

52

NCP348

NCP400 NCP4300A

295 51,52,74 52 51,52,74

39

NCP5424

31,35

NCV300

55

22,36

NCP5425

31,35

NCV301

55

28

NCP5426

44,47,62

NCV302

55

NCP4523

45,50

NCP5500

44,49

NCV303

55

NCP4672

45,50

NCP5501

44,48

NCV317

51,53,74

NCP4894

99

NCP5504

45,50

NCV33063

31,34

NCP4330 NCP4330DR2

NCP4896

99

NCP551

44,47

NCV33064

55

NCP500

44,47

NCP553

44,46

NCV33161

55

NCP5005

59,77

NCP5602

58,59,76,77

NCV33164

55

NCP5005/6/7

58,76

NCP5603

31,58,59

NCV33269

51,53,74

NCP5006

59,77

NCP5604

58,76

NCP5007

59,77

NCP5604B

NCP5008

58,76

NCP5608

NCP5010

58,59,76,77

NCP502

44,46

77 58,59,76,77

NCP561

44,47

NCP5612

NCP5030

31,33,58

NCP562

NCP5050

NCV33274A NCV33275 NCV4264 NCV4264-2

96 51,53,74 52 52

58,59,76,77

NCV4269

51,52

44,46

NCV4274

51,53

NCV4274A

51,53

59,76,77

NCP563

44,46

NCP5064A

59,77

NCP565

44,45,49,75

NCV4275

51,74

NCP5064B

59,77

NCP5661

44,45,4975

NCV4276

51,53,74

NCP5106A

62,63

NCP5662

44,45,75

NCP5106B

62,63

NCP5663

44,45,49,75

NCV4279

51,52,74

NCP511

44,47

NCP580

44,47

NCV4299

51,52

NCP5111

62,63

NCP582

44,48

NCV431A

39,40

NCP512

44,46

NCP583

44,48

NCV431B

39,40

NCP5181

62,63

NCP584

44,48

NCV4381B

NCP5201

75

NCP585

44,48

NCV494

22,26,36

NCP5203

75

NCP600

45,48

NCV4949

51,52,74

NCP5208

75

NCP612

44,47

NCV51411

NCP5210

75

NCP623

44,47

NCV5500

NCP5211

31,35

NCP630

44,45,49

NCV5501

53

NCP5211B

35

NCP631

44,50

NCV5504

51,54,74

NCP5215

75

NCP662

44,47

NCV551

51,52,74

NCP5220A

75

NCP663

44,47

NCV553

51,52,74

NCP5304

62,63

NCP803

55,57

NCV612

52

NCP5318

38,75

NCS2001

92

NCV662

52

NCP5322A

38,75

NCS2002

92

NCV663

52

http://onsemi.com 344

NCV4276A

51,53

39

31,32 51,53,74

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

NCV7356

69,70

NIS5101E1T1G

81

NL27WZ126

301

NCV7361A

69,70

NIS5101E2T1

81

NL27WZ14

301

NCV7380

69,70

NIS5101E2T1G

81

NL27WZ16

301

NCV7382

69,70

NIS5102QP1HG

82

NL27WZ17

301

NCV7513

66

NIS5102QP2HG

82

NL27WZ32

301

NCV7601

65,66,69,71

NIS5112D1R2G

82

NL27WZ86

301

NCV7702

65,69,70

NIS5112D2R2G

82

NL27WZU04

301

NIS6111QP

83

NL37WZ04

301

NJD2873

185

NL37WZ06

301

NCV7702B NCV78LxxA

66 52,74

NCV78xx

51,53,74

NJD2873T4

157

NL37WZ07

301

NCV8141

51,53,74

NJD35N04

162

NL37WZ14

301

NCV8184

51,52,74

NJL0281D

160,164

NL37WZ16

301

NCV8501

51,52,74

NJL0302D

160,164

NL37WZ17

NCV8502

51,53,74

NJL1302D

160,165

NL7SZ18

301,316

NCV8503

51,53,74

NJL21193D

160

NL7SZ19

301,316

NCV8504

51,53,74

NJL21194D

160

NLAS1053

103

NCV8505

51,53,74

NJL3281D

160,165

NLAS2066

103

NCV8506

51,53,74

NJL4281D

160,165

NLAS3158

103

NCV8508

51,53,74

NJL4302D

160,165

NLAS323

103

NCV8509

51,54,74

NJT4030P

157

NLAS324

103

NCV8512

53

NL17SV00

302

NLAS325

103

NCV8518

51,53

NL17SV02

302

NLAS3699

102

NCV8664

52

NL17SV04

302

NLAS3699B

NE5230

92

NL17SV08

302

NLAS3799

NE5517

99

NL17SV16

302

NLAS3799B

102

NE5517A

99

NL17SV32

302

NLAS4051

103

NE5532

94

NL17SZ00

301

NLAS4053

103

NE5532A

94

NL17SZ02

301

NLAS4157

102

NE5534

92

NL17SZ04

301

NLAS44599

103

NE5534A

92

NL17SZ06

301

NLAS4501

103

100

NL17SZ07

301

NLAS4599

103

NE570 NE592

301

102 102,103

94

NL17SZ08

301

NLAS4684

102

NE592D14

100

NL17SZ125

301

NLAS4717

102

NE592D8

100

NL17SZ126

301

NLAS4717EP

102

NE592N14

100

NL17SZ14

301

NLAS4783B

102

NE592N8

100

NL17SZ16

301

NLAS5123

102

NID5001N

211

NL17SZ17

301

NLAS5223

102

NID5003N

211

NL17SZ32

301

NLAS5223B

102

NID5004N

211

NL17SZ74

301

NLAS7222A

102

NID6002N

211

NL17SZ86

301

NLAS9431

103

NID9N05CL

211

NL17SZU04

301

NLASB3157

103

NIF5002N

210

NL27WZ00

301

NLAST4051

103

NIF5003N

210

NL27WZ02

301

NLAST44599

103

NIF62514

210

NL27WZ04

301

NLAST4501

103

NIF9N05CL

210

NL27WZ06

301

NLAST4599

103

NILMS4501N

209

NL27WZ07

301

NLAST9431

103

NIMD6302R

210

NL27WZ08

301

NLSF1174

316

81

NL27WZ125

301

NLSF2500

316

NIS5101E1T1

http://onsemi.com 345

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

NLSF3T125

316

NP0900SC

114

NSR0130P2

120

NLSF3T126

316

NP1100SA

114

NSR0140P2

120

NLSF595

316

NP1100SB

114

NSR0230P2

120

NLSV1T240MUTAG

317

NP1300SA

114

NSR0320MW2T1

119

NLSV1T244MUTAG

317

NP1300SB

114

NSR0320XV6T1

120

NLSV2T240MUTAG

317

NP1300SC

114

NSR15ADXV6

120

NLSV2T244MUTAG

317

NP1500SA

114

NSR30CM3T5G

120

NLSV4T240MUTAG

317

NP1500SB

114

NSS12100XV6

185

NLSV4T244MUTAG

317

NP1500SC

114

NSS12200L

184

NLSV4T3234FCT1G

317

NP1800SA

114

NSS12200MW6

184

NLSX3014MUTAG

317

NP1800SB

114

NSS12200W

184

NLU1G04MUTCG

302

NP1800SC

114

NSS12201L

184

NLU1G07MUTCG

302

NP2100SA

114

NSS12500UW3

184

NLU1G08MUTCG

302

NP2100SB

114

NSS12501UW3

184

NLU1G14MUTCG

302

NP2100SC

114

NSS12600CF8

184

NLU1G32MUTCG

302

NP2300SA

114

NSS12601CF8

184

NLU1G86MUTCG

302

NP2300SB

114

NSS20200L

184

NLU1GT04MUTCG

302

NP2300SC

114

NSS20201L

184

NLU1GT125MUTCG

302

NP2600SA

114

NSS20201MR6

184

NLU1GT126MUTCG

302

NP2600SB

114

NSS20300MR6

184

NLU1GT14MUTCG

302

NP2600SC

114

NSS20500UW3

184

NLU1GT32MUTCG

302

NP3100SA

114

NSS20501UW3

184

NLU1GT50MUTCG

302

NP3100SB

114

NSS20600CF8

184

NLU1GT86MUTCG

302

NP3100SC

114

NSS20601CF8

184

NLU1GU04MUTCG

302

NP3500SA

114

NSS30070MR6

184

NLU2G04MUTCG

302

NP3500SB

114

NSS30071MR6

184

NLU2G06MUTCG

302

NP3500SC

114

NSS30100L

184

NLU2G07MUTCG

302

NSB1010XV5T5

182

NSS30101L

184

NLU2G14MUTCG

302

NSB1011XV6T1

182

NSS30201MR6

184

NLU2G16MUTCG

302

NSB1706DMW5T1

182

NSS35200CF8

184

NLU2G17MUTCG

302

NSB9435

185

NSS35200MR6

184

NLU2GU04MUTCG

302

NSBA114EDXV6T1

181

NSS40200L

184

NLU3G14MUTCG

302

NSBA114YDXV6T1

181

NSS40200UW6

184

NLU3G16MUTCG

302

NSBA115EDXV6T1

181

NSS40201L

184

NLU3G17MUTCG

302

NSBA123JDXV6T1

181

NSS40300MZ4T1G

NLVHC1G66

103

NSBA144EDXV6T1

181

NSS40301MD08

NLVHC1GT66

103

NSBC114EDXV6T1

181

NSS40301MZ4T1G

185

NMF3000FC

261

NSBC114TDXV6T1

181

NSS40500UW3

184

NMFT3055AVLT1

205

NSBC114YDXV6T1

181

NSS40501UW3

184

NMFT3055AVLT3

205

NSBC115EDXV6T1

181

NSS40600CF8

184

NP0640SA

114

NSBC124EDXV6T1

181

NSS40601CF8

184

NP0640SB

114

NSBC143ZDXV6T1

181

NSS60200L

184

NP0640SC

114

NSBC144EDXV6T1

181

NSS60201L

184

NP0720SA

114

NSD914XV2T1

123

NSS60300MZ4T1G

185

NP0720SB

114

NSDEMP11XV6T1

123

NSS60301MZ4T1G

185

NP0720SC

114

NSL12AW

171

NST30010MXV6

172

NP0900SA

114

NSQA12VAW5

219,251

NST3904DXV6T1

172

NP0900SB

114

NSQA6V8AW5

219,251

NST3906DXV6T1

172

http://onsemi.com 346

185 172,185

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

NTD24N06-1G

203

199

NTD24N06G

203

202

NTD24N06L

198

NTD24N06L-001

205

NTD24N06L-1G

205

199

NTD24N06LG

203

NTB75N03-6

199

NTD24N06LT4G

203

NTB75N03L09

199

NTD24N06T4G

203

202,203

NTD25P03L

198

202,203

NTD25P03LT4G

NST3946DXV6T1

172

NTB60N06G

202,203,207

NST489AM

171

NTB60N06L

NTA4001N

192

NTB60N06LG

NTA4151P

192

NTB60N06LT4G

NTA4153N

192

NTB60N06T4G

NTA7002N

192

NTB65N02R

NTB125N02R

199

NTB13N10

199

NTB18N06

199

NTB75N03L09G

NTB18N06G

205

NTB75N03L09T4G

NTB18N06L

199

NTB75N03R

199

NTD2955

NTB18N06LT4G

205

NTB75N06

199

NTD2955-001

NTB18N06T4G

202,207 202,203,207

205,207

NTB75N06G

202,203

NTD2955-1G

NTB22N06

205

NTB75N06L

199,205

NTD2955G

NTB22N06L

205

NTB75N06LG

203,205

NTD2955T4G

NTB22N06LT4

205

NTB75N06LT4G

203

NTD3055-094

NTB22N06T4

205

NTB75N06T4G

NTB23N03R

203,207

203,206 199 204,207 204 204 204,206,207 198

NTD3055-094-1G

204,207

199,205

NTB85N03

199

NTD3055-094G

204,207

NTB23N03RG

205

NTB90N02

199

NTD3055-094T4G

204,207

NTB25P06

199

NTD110N02

197

NTD3055-150

198

NTB25P06G

202

NTD12N10

198

NTD3055-150G

207

NTB25P06T4G

NTD12N10G

204,207

NTD3055L104

NTB27N06L

205

NTD12N10T4G

204,206

NTD3055L104-001

204,207

NTB27N06LT4

205

NTD14N03R

198

NTD3055L104G

204,207

NTB30N06

199

NTD18N06

198

NTD3055L104T4G

204,207

NTB30N06L

199

NTD18N06-001

205

NTD3055L170

198

NTB30N06LG

205

NTD18N06-1G

205

NTD3055L170-001

205

202,205

NTD18N06G

203

NTD3055L170-1G

205

NTB30N20

199

NTD18N06L

198

NTD30N02

197

NTB30N20G

202

NTD18N06L-1G

203

NTD32N06

198

NTB30N20T4G

202

NTD18N06LG

203

NTD32N06-001

205

NTB35N15

199

NTD18N06LT4G

203

NTD32N06-1G

205

NTB35N15G

202

NTD18N06T4G

203,207

NTD32N06L

198

NTB35N15T4G

202

NTD20N03L27

198

NTD32N06L-001

205

NTB4302

199

NTD20N03L27-1G

203

NTD32N06L-1G

205

NTB45N06

199

NTD20N03L27G

203

NTD40N03R

198

NTB45N06G

202

NTD20N03L27T4G

203

NTD40N03RT4

205

NTB45N06L

199

NTD20N06

198

NTD40N03RT4G

205

NTB45N06LG

202

NTD20N06-001

205

NTD4302

NTB30N06LT4G

202,206

198

198

NTB45N06LT4G

202,207

NTD20N06-1G

205

NTD4302G

203,204

NTB45N06T4G

202,207

NTD20N06G

203

NTD4302T4G

203,204

NTB52N10

199

NTD20N06L

198

NTD4404NT4

205

NTB52N10G

202

NTD20N06L-001

207

NTD4404NT4G

205

NTB52N10T4G

NTD20P06L

199

NTD4804N

198

NTB5404N

202,207 199

NTD20P06LG

204

NTD4805N

198

NTB5405N

199

NTD20P06LT4G

204,207

NTD4806N

198

NTB5605P

199

NTD23N03R

198

NTD4808N

198

NTB60N06

199

NTD24N06

198

NTD4809N

198

http://onsemi.com 347

Alphabetical Parts Listing Device Number

Device Number

Page

NTD4809NH

198

NTF6P02

196

NTHS4501NT1G

201,206

NTD4810N

198

NTGD1100L

194

NTHS5402T1

206

NTD4810NH

198

NTGD3133P

194

NTHS5402T1G

206

NTD4813N

198

NTGD4161P

194

NTHS5404

195

NTD4813NH

198

NTGS3433

194

NTHS5441

195

NTD4815N

198

NTGS3441

194

NTHS5443

195

NTD4815NH

198

NTGS3441P

194

NTHS5445T1

206

NTD50N03R

198

NTGS3441T1G

201

NTJD2152P

193

NTD5406N

198

NTGS3443

194

NTJD4001N

193

NTD5407N

198

NTGS3446

194

NTJD4105C

193

NTD60N02R

198

NTGS3446T1G

201

NTJD4105CT2G

206

NTD60N03

205

NTGS3455

194

NTJD4105CT4G

206

NTD60N03-001

205

NTGS4111P

194

NTJD4152P

193

NTD60N03T4

205

NTGS4111PT1

205

NTJD4158C

193

NTD65N03R

198

NTGS4111PT1G

205

NTJD4401N

193

NTD6600N

198

NTGS4141N

194

NTJS3151P

193

NTD6600NT4G

203

NTHC5513

195

NTJS3157N

193

NTD70N03R

198

NTHD2102P

195

NTJS4151P

193

NTD70N03R-001

205

NTHD2102PT1G

206

NTJS4160N

193

NTD70N03RG

205

NTHD3100C

195

NTJS4405N

193

NTD70N03RT4G

205

NTHD3100CT1G

205

NTJS4405NT4

206

NTD78N03

198

NTHD3100CT3

205

NTJS4405NT4G

206

NTD80N02

197

NTHD3100CT3G

205

NTK3043N

192

NTHD3101F

195

NTK3134N

192

NTD85N02R

Page

197,205

Device Number

Page

NTD85N02R-001

205

NTHD3101FT1G

205

NTK3139P

192

NTD85N02R-1G

205

NTHD3101FT3

205

NTK3142P

192

NTD85N02RG

205

NTHD3101FT3G

205

NTLGF3402P

196

197,205

NTHD3102C

195

NTLGF3501N

196

NTD95N02R-001

205

NTHD4102P

195

NTLJD2105L

193

NTD95N02R-1G

205

NTHD4401P

195

NTLJD3115P

193

NTD95N02RG

205

NTHD4502N

195

NTLJD3119C

192

NTE4151P

192

NTHD4502NT1G

206

NTLJD4116N

192

NTE4153N

192

NTHD4508N

195

NTLJF3117P

192

NTF2955

196

NTHD4508NT1G

206

NTLJF3118N

192

NTF2955T1G

201

NTHD4N02F

195

NTLJF4156N

192

NTF3055-100

196

NTHD4P02F

195

NTLJS3113P

193

NTD95N02R

NTF3055-100T1G

201,202,205

NTHD5902T1

206

NTLJS4114N

192

NTF3055-100T3G

202,204,205

NTHD5903

195

NTLJS4159N

192

NTF3055-160T1

205

NTHD5904N

195

NTLTD7900ZN

196

NTF3055-160T3

205

NTHD5904NT1G

206

NTMD2C02

196

NTF3055-160T3LF

205

NTHD5904NT3

206

NTMD2P01

197

NTF3055L108

196

NTHD5904NT3G

206

NTMD3P03

197

NTF3055L108T1G

201,205,206

NTHD5904T1

206

NTMD3P03R2G

201

NTF3055L108T3G

201,202

NTHD5905T1

206

NTMD4N03

196

NTF3055L108T3LFG

202

NTHS2101P

195

NTMD4N03R2G

201

NTF3055L175

196

NTHS2101PT1G

206

NTMD6N02

196

NTF5P03

196

NTHS4101P

195

NTMD6N02R2G

201

NTF5P03T3G

202

NTHS4501N

195

NTMD6N03

196

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Alphabetical Parts Listing Device Number

Page

NTMD6N03R2G

201

NTP27N06L

206

NTR4101P

NTMD6P02

197

NTP2955

200

NTR4501N

NTMFS4108N

197

NTP2955G

204

NTR4501NT1G

NTMFS4119N

197

NTP3055AV

206

NTR4501NT3

206

NTMFS4120N

197

NTP30N06

206

NTR4501NT3G

201

NTMFS4121N

197

NTP30N06L

200

NTR4502P

195

NTMFS4122N

197

NTP30N06LG

204,206,207

NTR4503N

194

NTMFS4701N

197

NTP30N20

200

NTS2101P

194

NTMFS4707N

197

NTP35N15

200

NTS4001N

194

NTMFS4708N

197

NTP35N15G

202,204

NTS4101P

194

NTMFS4744N

197

NTP45N06

200

NTS4409N

194

NTMFS4833N

197

NTP45N06G

NTTD1P02R2

206

NTMFS4834N

197

NTP45N06L

NTTD1P02R2G

206

NTMFS4835N

197

NTP45N06LG

NTTD4401FR

195

NTMFS4836N

197

NTP52N10

NTTD4401FR2

206

NTMFS4837N

197

NTP52N10G

NTTD4401FR2G

206

NTMFS4839N

197

NTP60N06

NTMFS4841N

197

NTP60N06G

NTMS10P02

197

NTP60N06L

NTMS3P03

197

NTP60N06LG

NTMS3P03R2G

202

NTP65N02R

NTMS4107N

196

NTMS4503N

196

NTMS4705N

196

NTP75N03L09G

NTMS4706N

196

NTP75N03R

NTMS4N01

196

NTP75N06

NTMS4N01R2G

202

NTP75N06G

NTMS4P01R2

206

NTP75N06L

206

197

NTP85N03

NTMS5P02 NTMS5P02R2G

202,206

Device Number

Page

204,206,207,208 200 204,208 200 204,205 200 204,205,208 200

Device Number

NTTS2P02 NTTS2P02R2G

Page 195 194 201,206

195 202,205

NTTS2P03

195

NTTS2P03R2G

205

200

NTY100N10

200

NTP75N03-6

200

NTY100N10G

205

NTP75N03L09

200

NTZD3152P

192

204,205

NTZD3154N

192

200

NTZD3155C

192

200

NTZS3151P

192

205,206

NUD3048M

209

204,208

200,206

NUD3105DM NUD3105L

NTP85N03G

206

NUD3112

78 78 62,68

NTMS7N03

196

NTP90N02

200

NUD3112DM

79

NTMSD2P102

196

NTQD6866

194

NUD3112L

79

NTMSD2P102L

196

NTQD6866R2

206

NUD3124

68

NTMSD3P102

196

NTQD6866R2G

206

NUD3124DM

79

206

NTQD6968N

194

NUD3124L

79

NTQD6968NR2

206

NUD3160DM

80

NTMSD3P102R2 NTMSD3P102R2G

201,206

NTMSD3P303

196

NTQD6968NR2G

206

NUD3160L

80

NTMSD3P303R2G

201

NTQD6968R2

206

NUD4001DR2

80

NTMSD6N303

196

NTQD6968R2G

206

NUD4011DR2

80

NTMSD6N303R2G

201

NTR0202PL

195

NUF2015W1

262

NTP125N02R

200

NTR0202PLT1G

201

NUF2030XV6

262

NTP18N06

200

NTR1P02

195

NUF2042XV6

262

NTR1P02L

195

NUF2070MN

261

NTP18N06G NTP18N06L

204,206

NTR1P02LT1G

201

NUF2101M

262

204,206,207,208

NTR1P02T1G

201

NUF2114MN

261

NTP22N06

206

NTR1P02T3G

201

NUF2116MN

261

NTP22N06L

206

NTR2101P

194

NUF2220XV6

256

NTP27N06

200

NTR4003N

194

NUF2221W1

262

NTP18N06LG

200

http://onsemi.com 349

Alphabetical Parts Listing Device Number

Page

Device Number

NUF2222FC

262

NUS2401SN

NUF2230XV6

256

NUS3045

NUF2240W1

256

NUS3045MN

NUF3101FC

256

NUF4001MU

257

NUF4105FC

258

NUF4107FC NUF4152MU

Page

Device Number

Page

P6SMB100A

235

P6SMB10A

235

84

P6SMB110A

235

NUS3046MN

84

P6SMB11CA

236

NUS3055MN

84

P6SMB120A

235

NZF220DF

256

P6SMB12A

235

263

NZF220T

256

P6SMB12CA

236

257

NZL5V6AXV3

245

P6SMB130A

235

NUF4210MN

257

NZL6V8AXV3

245

P6SMB13A

235

NUF4401MN

257

NZL7V5AXV3

245

P6SMB150A

235

NUF4402MN

257

NZMM7V0T4

260

P6SMB15A

235

NUF4403MN

257

NZQA5V6AXV5

219,251

P6SMB15CA

236

NUF6001MU

259

NZQA5V6XV5

219,247

P6SMB160A

235

NUF6105FC

259

NZQA6V2XV5

219,247

P6SMB16A

235

NUF6106FC

259

NZQA6V8AXV5

219,251

P6SMB16CA

236

NUF6401MN

258

NZQA6V8XV5

219,247

P6SMB180A

235

NUF6402MN

258

P2N2222A

174,177

P6SMB18A

235

NUF6406MN

258

P2N2907A

174,177

P6SMB18CA

236

NUF8001MU

260

P6KE100A

225

P6SMB200A

235

NUF8152MU

260

P6KE10A

225

P6SMB20A

235

NUF8401MN

259

P6KE12A

225

P6SMB20CA

236

NUF8402MN

259

P6KE13A

225

P6SMB22A

235

NUF8410MN

259

P6KE150A

225

P6SMB22CA

236

NUF9001FC

260

P6KE15A

225

P6SMB24A

235

NUF9002FC

260

P6KE160A

225

P6SMB24CA

236

242

NUP1105L

81 60,61,76

P6KE16A

225

P6SMB27A

235

NUP1301ML3

223,249

P6KE170A

225

P6SMB27CA

236

NUP2105L

220,244

P6KE180A

225

P6SMB30A

235

NUP2201MR6

222,250

P6KE18A

225

P6SMB30CA

236

NUP2202W1

222,250

P6KE200A

225

P6SMB33A

235

NUP2301MW6

223,250

P6KE20A

225

P6SMB33CA

236

NUP4060AXV6

219,252

P6KE22A

225

P6SMB36A

235

NUP4102XV6

220,252

P6KE24A

225

P6SMB36CA

236

NUP4103FC

220,247

P6KE27A

225

P6SMB39A

235

NUP412VP5

220,251

P6KE30A

225

P6SMB39CA

236

NUP4201DR2

221,252

P6KE33A

225

P6SMB43A

235

NUP4201MR6

222,253

P6KE36A

225

P6SMB43CA

236

NUP4202W1

222,253

P6KE39A

225

P6SMB47A

235

NUP4301MR6

221,253

P6KE43A

225

P6SMB47CA

236

NUP4302MR6

221,254

P6KE47A

225

P6SMB51A

235

NUP4304MR6

221,254

P6KE51A

225

P6SMB51CA

236

NUP45V6P5

220,251

P6KE56A

225

P6SMB56A

235

NUP46V8P5

220,251

P6KE6.8A

225

P6SMB56CA

236

NUP5120X6

218,248

P6KE62A

225

P6SMB6.8A

235

NUP8010MN

217,255

P6KE68A

225

P6SMB62A

235

NUS1204MN

84

P6KE7.5A

225

P6SMB62CA

236

60,61,76

P6KE75A

225

P6SMB68A

235

84

P6KE82A

225

P6SMB68CA

236

NUS2045 NUS2045MN

http://onsemi.com 350

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

P6SMB7.5A

235

SA9.0A

224

SMF43A

229

P6SMB75A

235

SBSS138LT3

206

SMF45A

229

P6SMB8.2A

235

SD05

240

SMF48A

229

P6SMB82A

235

SD12

240

SMF5.0A

229

P6SMB82CA

236

SD12C

240

SMF51A

229

P6SMB9.1A

235

SE5532

94

SMF54A

229

P6SMB91A

235

SE5532A

94

SMF6.0A

229

PN2222

174

SE5534

92

SMF6.5A

229

PN2222A

174

SE5534A

92

SMF7.0A

229

174

SG3525

PN2907A

31,35

SMF7.5A

229

PZT2222AT1

171,175

SG3525A

26

SMF8.0A

229

PZT2907AT1

171,175

SG3535A

22,36

SMF9.0A

229

PZT651T1

171,175

SL05

223,249

SMFT3355VLT3

PZT751T1

171,175

SL15

223,249

SMS05

218,246

PZTA42T1

176

SL24

223,249

SMS05C

217,248

PZTA92T1

176

SM05

243

SMS12

218,246

PZTA96S

176

SM12

243

SMS12C

217,248

RB520S30T1

120

SMBF1026LT1

206

SMS15

218,246

RB521S30T1

120

SMBF1034LT1

206

SMS15C

217,248

RB751S40T1

120

SMBF1034LT1G

206

SMS24

218,246

RB751V40T1

119

SMBF1035LT3G

206

SMS24C

217,248

SA10A

224

SMBF1046LT1

206

SMTD10N10ELT4

206

SA12A

224

SMBF1049LT1

206

SMTD20P03HDLT4

206

SA13A

224

SMBF1057LT1

206

SMTD2955VT4

206

SA15A

224

SMBF1062LT1

206

SPF3161KRLRP

206

SA16A

224

SMBJ12AON

237

SS16

140

SA170A

224

SMF05

219,246

SS22

141

SA17A

224

SMF05C

217,248

SS24

141

SA18A

224

SMF10A

229

SS26

141

SA20A

224

SMF11A

229

STB23P06VT4

206

SA24A

224

SMF12A

229

STB30N06VLT4

207

SA26A

224

SMF12C

217,248

STB33N10E

207

SA28A

224

SMF13A

229

STB33N10ET4

207

SA30A

224

SMF14A

229

STB36N06VT4

207

SA33A

224

SMF15A

229

STB40N10ET4

207

SA36A

224

SMF15C

217,248

STB50N06ET4

207

SA5.0A

224

SMF17A

229

STB50N06VLT4

207

SA51A

224

SMF18A

229

STB52N06VLT4

207

SA5230

92

SMF20A

229

STB52N06VT4

207

SA5532

94

SMF22A

229

STB52N06VT4G

207

SA5534

92

SMF24A

229

STB60N06HDT4

207

SA5534A

92

SMF24C

217,248

STB75N06HDT4

207

SA571

100

SMF26A

229

STD1003T4

207

SA572D

100

SMF28A

229

STD1009V-001

207

SA575D

100

SMF30A

229

STD1009VT4

207

SA6.0A

224

SMF33A

229

STD1010ET4

207

SA64A

224

SMF36A

229

STD1010V

207

SA7.0A

224

SMF40A

229

STD1010VT4

207

http://onsemi.com 351

206

Alphabetical Parts Listing Device Number

Page

Device Number

Page

Device Number

Page

STD1013T4

207

TIP117

162

TLV431B

STD1028T4

207

TIP120

162

TRA2532

139,150

STD1030-001

207

TIP121

162

UAA2016

62,64,68,72

STD1039T4

207

TIP122

162

UC2842B

22,27

STD1040T4

207

TIP125

162

UC2843B

22,27

STD1045T4

207

TIP126

162

UC2844B

22,27

STD1057T4

207

TIP127

162

UC2845B

22,27

STD1066-001

207

TIP131

162

UC3842B

22,27

STD1068HDL-001

207

TIP132

162

UC3842BV

22,27

STD1069T4

207

TIP140

163

UC3843B

22,27

STD2000T4

207

TIP141

163

UC3843BV

22,27

STD2002T4

207

TIP142

163

UC3844B

22,27

STD2004-001

207

TIP147

163

UC3844BV

22,27

STD20P06HDLT4

207

TIP2955

160

UC3845B

22,27

STD3055VLT4

207

TIP29A

158

UC3845BV

22,27

STD5P06VT4

207

TIP29B

158

uESD12S

241

STD9N10ET4

207

TIP29C

158

uESD3.3D

245

STDP7222VT4

207

TIP3055

160

uESD3.3S

241

STF202-22

262

TIP30C

158

uESD5.0S

241

STP20N06VLF

207

TIP31

158

UMC3NT1

182

STP3055VL

207

TIP31A

158

UMC5NT1

182

STP30N06EL

207

TIP31B

158

UMZ1NT1

172

STP36N06V

207

TIP31C

158

VN2222LL

200

STP4119

207

TIP32

158

VN2222LLRL

208

STP4347

208

TIP32A

158

VN2222LLRLRAG

208

STP4348

208

TIP32B

158

VN2222LLRLRM

208

STP4384

208

TIP32C

158

VN2410L

200

STP4391

208

TIP33C

160

STP50N06V

208

TIP35A

160

STP60N06HDLF

208

TIP35C

160

STP8023

208

TIP36A

160

STW1019

208

TIP36C

160

T2322B

111

TIP41A

159

T2500D

112

TIP41B

159

T2800D

112

TIP41C

159

TCA0372

94

TIP42

159

TCA0372B

94

TIP42A

159

TDA1085C

68

TIP42B

159

TIP100

162

TIP42C

159

TIP101

162

TIP47

158

TIP102

162

TIP48

158

TIP106

162

TIP50

TIP107

162

TL431A

TIP110

162

TL431B

TIP111

162

TL494

22,26,36

TIP112

162

TL594

22,26,36

TIP115

162

TLV431A

TIP116

162

TLV431A/B

158 39,40 39,40

39,40 39

http://onsemi.com 352

39,40

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