Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Standard Recovery Rectifiers Bridge Rectifiers. Regulators / Controllers Linear Regulators

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1 POWER MNGEMENT ICS DC/DC Switching Regulators / Controllers Linear Regulators Shunt Voltage References Voltage Sup Op mp / USB Power HLL EFFE DISCRETE SEMICONDUCTORS Schottky / SBR Diodes Surface Mount Schottky / SBR Rectifiers Through-Hole / SBR Schottky Rectifiers Switching Diodes Zener Diodes Transient Voltage Suppressors Switching Diodes Zener Diodes Transient Voltage Suppressors (TVSs) Thyristor Surge Protection Devices DIODES INCORPORTED (TSPDs) Data Line Protection Devices Small Signal / Medium Product Design Guide Transistors Matched Transistor rrays Darlington Transistors NPN, PNP Prebiased Transistors MOSFETS POWER MNGEMENT ICs Super-Fast /Ultra-Fast / HLL EFFECT SENSORS Thyristor Surge Standard Recovery Protection DISCRETE SEMICONDUCTORS (TSPDs) Bridge Rectifiers Data Line Protection POWER MNGEMENT ICS Devices DC/DC Switching Small Signal / Medium Regulators / Controllers Power Bipolar Linear Regulators Transistors Shunt Voltage Matched Transistor References rrays Voltage Supervisory Darlington Transistors Op mp / Comparators NPN, PNP Prebiased USB Power Switch Transistors HLL EFFECT SENSORS MOSFETS DISCRETE Complex rrays SEMICONDUCTORS Super-Fast /Ultra-Fast / Schottky / SBR Diodes Fast Recovery Rectifiers Surface Mount Schottky Standard Recovery / SBR Rectifiers Rectifiers Through-Hole / SBR Bridge Rectifiers Schottky Rectifiers POWER MNGEMENT ICS Switching Diodes DC/DC Switching Zener Diodes Regulators / Controllers Transient Voltage Linear Regulators Suppressors (TVSs) Shunt Voltage Thyristor Surge References Protection Devices Voltage Supervisory (TSPDs) Op mp / Comparators Data Line Protection USB Power Switch Devices HLL EFFECT SENSORS Small Signal / Medium DISCRETE Power Bipolar SEMICONDUC Schottky / Surface Mou / SBR Rectifiers Darlington Transistors Through-Hole / SBR NPN, PNP Prebiased Schottky Rectifiers Transistors Switching Diodes MOSFETS Complex rrays Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Standard Recovery Rectifiers Bridge Rectifiers POWER MNGEMENT ICS DC/DC Switching Regulators / Controllers Linear Regulators Shunt Voltage References Voltage Supervisory Op mp / Comparators USB Power Switch HLL EFFECT SENSORS DISCRETE SEMICONDUCTORS Schottky / SBR Diodes Surface Mount Schottky / SBR Rectifiers Through-Hole / SBR Schottky Rectifiers Switching Diodes Zener Diodes Transient Voltage Suppressors (TVSs) Thyristor Surge Protection Devices (TSPDs) Data Line Protection Devices Small Signal / Medium Power Bipolar Transistors Matched Transistor rrays Darlington Transistors NPN, PNP Prebiased Transistors MOSFETS Complex rrays Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Standard Recovery Rectifiers Bridge Rectifiers POWER MNGEMENT ICS DC/DC Switching Regulators / Controllers Linear Regulators Shunt Voltage References Voltage Supervisory Op mp / Comparators USB Power Switch HLL EFFECT SENSORS DISCRETE SEMICONDUCTORS Schottky / SBR Diodes Surface Mount Schottky / SBR Rectifiers Through-Hole / SBR Schottky Rectifiers Switching Diodes Zener Diodes Transient Voltage Suppressors (TVSs) Thyristor Surge Protection Devices (TSPDs) Data Line Protection Devices Small Signal / Medium Power Bipolar Transistors Matched Transistor rrays Darlington Transistors NPN, PNP Prebiased Transistors MOSFETS Complex rrays Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Standard Recovery Rectifiers Bridge Rectifiers POWER MNGEMENT ICS DC/DC Switching Regulators / Controllers Linear Regulators Shunt Voltage References Voltage Supervisory Op mp / Comparators USB Power Switch HLL EFFECT SENSORS DISCRETE SEMICONDUCTORS Schottky / SBR Diodes Surface Mount Schottky / SBR Rectifiers Through-Hole / SBR Schottky Rectifiers Switching Diodes Zener Diodes Transient Voltage Suppressors (TVSs) Thyristor Surge Protection Devices (TSPDs) Data Line Protection Devices Small Signal / Medium Power Bipolar Transistors Matched Transistor rrays Darlington Transistors NPN, PNP Prebiased Transistors MOSFETS Complex rrays Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Standard Recovery Rectifiers Bridge Rectifiers POWER MNGEMENT ICS DC/DC Switching Regulators / Controllers Linear Regulators Shunt Voltage References Voltage Supervisory Op mp / Comparators USB Power Switch HLL EFFECT SENSORS DISCRETE SEMICONDUCTORS Schottky / SBR Diodes Surface Mount Schottky / SBR Rectifiers Through-Hole / SBR Schottky Rectifiers Switching Diodes Zener Diodes Transient Voltage Suppressors (TVSs) Thyristor Surge Protection Devices (TSPDs) Data Line Protection Devices Small Signal / Medium Power Bipolar Transistors Matched Transistor rrays Darlington Transistors NPN, PNP Prebiased Transistors MOSFETS Complex rrays Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Standard Recovery Rectifiers Bridge Rectifiers POWER MNGEMENT ICS DC/DC Switching Regulators / Controllers Linear Regulators Shunt Voltage References Voltage Supervisory

2 Diodes Incorporated s Product Design Guide

3 ll data shown in this catalog is subject to change. For updates, please check the product data sheets on our Corporate website at IMPORTNT NOTICE Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to any product herein. Diodes Incorporated does not assume any liability arising out of the application or use of any product described herein; neither does it convey any license under its patent rights, nor the rights of others. The user of products in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on our website, harmless against all damages. LIFE SUPPORT Diodes Incorporated products are not authorized for use as critical components in life support devices or systems without the expressed written approval of the President of Diodes Incorporated. PowerDI and SBR are registered trademarks of Diodes Incorporated Diodes Incorporated. ll rights reserved. Printed in the United States of merica.

4 Contents bout This Product Design Guide bout the Company s Product Offerings How This Guide Is Organized Our Corporate Website Lead-Free and Green Products Technical Support Product Ordering / Sampling Power Management ICs DC/DC Switching Regulators & Controllers Buck Converter Internal Switch Boost Converter Internal Switch Multiple Topology (Buck, Boost, Inverting) Converter Internal Switch Buck Controllers External Switch Boost Controllers External Switch Inductorless Boost Converter Charge Pump Multiple Topology (Buck, Boost, Inverting) Controllers External Switch Linear Regulators LDO Single Output Quasi LDO Single Output Quasi LDO Dual Output High Efficiency Quasi-LDO Single Output General Purpose Linear Regulator Shunt Voltage References Shunt Voltage References Voltage Supervisory Reset IC (Voltage Supervisor) Op mp / Comparators Operational mplifiers Comparators USB Power Switch USB Power Switch Hall Effect Sensors Hall Effect Sensors Unipolar Switches Bipolar Latches Bipolar Latches (Complementary Output) Omnipolar Switches Omnipolar Switches (Complementary Output) Smart Fan Drivers (Complementary, Latched Output) Discrete Semiconductors Schottky / SBR Diodes Super Barrier Rectifiers (SBR) & Schottky Diodes / DFN / DFN1006H Super Barrier Rectifiers (SBR) & Schottky Diodes / DFN Super Barrier Rectifiers (SBR) & Schottky Diodes / SOD Schottky Diodes / SOT Schottky Diodes / SOT Schottky Diodes / PowerDI Schottky Diodes / SOD Schottky Diodes / SOT Schottky Diodes / SOT Schottky Diodes / SOD Schottky Diodes / SOT Schottky Diodes / SC Schottky Diodes / SOT Contents - 1

5 Surface Mount Schottky / SBR Rectifiers Super Barrier Rectifiers (SBR) / DFN Schottky Rectifiers / SOD Schottky Rectifiers / SOT Schottky Rectifiers / SOD Schottky Rectifiers / SOT Schottky Rectifiers / PowerDI Super Barrier Rectifiers (SBR) / Schottky Rectifiers / SOD Schottky Rectifiers / PowerDI Schottky Rectifiers / SOD Schottky Rectifiers / SOT Schottky Rectifiers / SM Schottky Rectifiers / SMB Super Barrier Rectifiers (SBR) / Schottky Rectifiers / PowerDI Super Barrier Rectifiers (SBR) / Schottky Rectifiers / SM Schottky Rectifiers / SMB Super Barrier Rectifiers (SBR) / PowerDI Super Barrier Rectifiers (SBR) / Schottky Rectifiers / DFN Schottky Rectifiers / PowerDI Super Barrier Rectifiers (SBR) / Schottky Rectifiers / SM Schottky Rectifiers / SMB Schottky Rectifiers / SMC Schottky Rectifiers / PowerDI Schottky Rectifiers / PowerDI Schottky Rectifiers / SMC Schottky Rectifiers / PowerDI Schottky Rectifiers / PowerDI Schottky Rectifiers / PowerDI Schottky Rectifiers (Single) / D 2 PK Super Barrier Rectifiers (SBR) / Schottky Rectifiers (Dual) / D 2 PK Schottky Rectifiers (Dual) / D 2 PK Schottky Rectifiers (Dual) / D 2 PK Super Barrier Rectifiers (SBR) / Schottky Rectifiers (Dual) / D 2 PK Schottky Rectifiers (Dual) / D 2 PK Through-Hole Schottky / SBR Rectifiers Schottky Rectifiers / DO Schottky Rectifiers / DO-201D Schottky Rectifiers / DO-201D Schottky Rectifiers / TO-220C Schottky Rectifiers / TO-220C Schottky Rectifiers / DO-201D Schottky Rectifiers / TO-220C Schottky Rectifiers / DO-201D Schottky Rectifiers / TO-220C Super Barrier Rectifiers (SBR) / Schottky Rectifiers (Dual) / TO-220B Super Barrier Rectifiers (SBR) (Dual) / ITO-220B Schottky Rectifiers (Dual) / TO-220B Schottky Rectifiers / TO-220C Schottky Rectifiers (Dual) / TO-220B Schottky Rectifiers (Dual) / TO-3P Super Barrier Rectifiers (SBR) & Schottky Rectifiers (Dual) / TO-220B Super Barrier Rectifiers (SBR) (Dual) / ITO-220B Schottky Rectifiers (Dual) / TO-3P Super Barrier Rectifiers (SBR) (Dual) / TO-220B Super Barrier Rectifiers (SBR) (Dual) / ITO-220B Schottky Rectifiers (Dual) / TO-3P Super Barrier Rectifiers (SBR) (Dual) / TO-220B Super Barrier Rectifiers (SBR) (Dual) / ITO-220B Schottky Rectifiers (Dual) / TO-3P Super Barrier Rectifiers (SBR) (Dual) / TO-220B Schottky Rectifiers (Dual) / TO-3P Contents - 2

6 Switching Diodes Switching Diodes / DFN Switching Diodes / SOD Switching Diodes / SOT Low Leakage Signal Diodes / SOT Switching Diodes / SOT Low Leakage Signal Diodes / SOT Switching Diodes / PowerDI Switching Diodes / SOD Switching Diodes / SOT Low Leakage Signal Diodes / SOT Switching Diodes / SOT Switching Diodes / SOT Low Leakage Signal Diodes / SOT Switching Diodes / SOD Low Leakage Signal Diodes / SOD Switching Diodes / SOT Low Leakage Signal Diodes / SOT Switching Diodes / SOT Zener Diodes mW Zener Diodes (Single) / DFN mW Zener Diodes (Single) / SOD mW Low Test Current Zener Diodes (Single) / SOD mW Zener Diodes (Single) / SOT mW Zener Diodes (Quad, Common node) / SOT mW Zener Diodes (Single) / SOD mW Low Test Current Zener Diodes (Single) / SOD mW Tight Breakdown Tolerance Zener Diodes (Single) / SOD mW Zener Diodes (Single) / PowerDI mW Zener Diodes (Single) / SOT mW Zener Diodes (Dual, Common node) / SOT mW Zener Diodes (Dual, Isolated) / SOT mW Zener Diodes (Triple, Isolated) / SOT mW Low Test Current Zener Diodes (Triple, Isolated) / SOT mW Tight Breakdown Tolerance Zener Diodes (Triple, Isolated) / SOT mW Zener Diodes (Triple, Bidirectional) / SOT mW Zener Diodes (Quad, Common node) / SOT mW Zener Diodes (Single) / SOT mW Tight Breakdown Tolerance Zener Diodes (Single) / SOT mW Zener Diodes (Dual, Common node) / SOT mW Zener Diodes (Dual, Common Cathode) / SOT mW Zener Diodes (Single) / SOD mW Zener Diodes (Single) / SOD mW Low Test Current Zener Diodes (Single) / SOD mW Tight Breakdown Tolerance Zener Diodes (Single) / SOD W Zener Diodes (Single) / PowerDI W Zener Diodes (Single) / SM Transient Voltage Suppressors (TVS) Transient Voltage Suppressors / DFN Transient Voltage Suppressors / SOD W Peak Power Transient Voltage Suppressors (Common node) / SOT W Peak Power Transient Voltage Suppressors (Common node) / SOT W Peak Power Transient Voltage Suppressors (Common Cathode) / SOT Low Capacitance Transient Voltage Suppressors (Unidirectional) / SOT Transient Voltage Suppressors (Bidirectional) / SOT Low Capacitance Transient Voltage Suppressors (Bidirectional) / SOT W Transient Voltage Suppressors / PowerDI W Transient Voltage Suppressors / SM W Transient Voltage Suppressors / SMB W Transient Voltage Suppressors / DO W Transient Voltage Suppressors / SMC W Transient Voltage Suppressors / DO Contents - 3

7 3000W Transient Voltage Suppressors / SMC Thyristor Surge Protection Devices (TSPDs) Bidirectional Thyristor Surge Protection Devices / SMB Bidirectional Thyristor Surge Protection Devices / SMB Bidirectional Thyristor Surge Protection Devices / SMB Data Line Protection Devices Rail Clamps / SOT Unidirectional, Low Capacitance, Single Data Line Protection Devices with Integrated TVS / SOT Bidirectional, Low Capacitance, Single Data Line Protection Devices with Integrated TVS / SOT Small Signal and Medium Power Bipolar Transistors NPN Transistors / DFN PNP Transistors / DFN Dual NPN Transistors / DFN1310H4-6 (0.4mm Profile) Complementary NPN/PNP Transistors / DFN1310H4-6 (0.4mm Profile) NPN Transistors / SOT PNP Transistors / SOT Dual NPN Transistors / SOT Dual PNP Transistors / SOT Complementary NPN/PNP Transistors / SOT NPN Transistors / SOT PNP Transistors / SOT Dual NPN Transistors / SOT Dual PNP Transistors / SOT Complementary NPN/PNP Transistors / SOT NPN Transistors / SOT UHF/VHF NPN Transistors / SOT PNP Transistors / SOT Dual NPN Transistors / SOT Dual PNP Transistors / SOT Complementary NPN/PNP Transistors / SOT Complex Dual NPN/PNP Transistors / SOT Medium Power NPN Transistors / SOT89-3L Medium Power PNP Transistors / SOT89-3L Medium Power NPN Transistors / SOT Medium Power PNP Transistors / SOT Matched Pair Bipolar Transistors NPN Matched Pair Bipolar Transistors / SOT PNP Matched Pair Bipolar Transistors / SOT NPN Matched Pair Bipolar Transistors / SOT PNP Matched Pair Bipolar Transistors / SOT Darlington Transistors NPN Darlington Transistors / SOT PNP Darlington Transistors / SOT NPN Darlington Transistors / SOT PNP Darlington Transistors / SOT NPN, PNP Prebiased Transistors Single 100m Prebiased Transistors Single 500m Prebiased Transistors Dual 100m Prebiased Transistors Dual 100m Complementary Prebiased Transistors m NPN / 500m PNP Complementary Prebiased Transistors MOSFETS N-Channel MOSFET / DFN1006H4-3 (0.4mm Profile) N-Channel MOSFET / DFN Dual N-Channel MOSFET / DFN1310H4-6 (0.4mm Profile) P-Channel MOSFET / DFN Complementary (N / P Channel) MOSFET / DFN Dual N-Channel MOSFET / SOT Single P-Channel MOSFET / SOT Dual P-Channel MOSFET / SOT Contents - 4

8 Complementary (N / P Channel) MOSFET / SOT N-Channel MOSFET / SOT P-Channel MOSFET / SOT Dual N-Channel MOSFET / SOT Complementary (N / P Channel) MOSFET / SOT Dual P-Channel MOSFET / SOT N-Channel MOSFET / SOT P-Channel MOSFET / SOT Dual N-Channel MOSFET / SOT P-Channel MOSFET / SOT Dual P-Channel MOSFET / SOT N-Channel MOSFET / SC P-Channel MOSFET / SC Complex rrays Discrete Load Switches / SOT Discrete Load Switches / SOT MOSFET and Schottky rrays / DFN2020B MOSFET and Schottky rrays / SOT Discrete Half H-Bridge Motor Driver / SOT Relay Drivers / SOT Discrete Voltage Regulators / SOT Super-Fast /Ultra-Fast / Fast Recovery Rectifiers Super-Fast Recovery Glass Passivated Rectifiers / PowerDI Super-Fast Recovery Glass Passivated Rectifiers / SM Super-Fast Recovery Glass Passivated Rectifiers / SMB Super-Fast Recovery Glass Passivated Rectifiers / DO Ultra-Fast Recovery Glass Passivated Rectifiers / SM Ultra-Fast Recovery Rectifiers / DO Ultra-Fast Recovery Glass Passivated Rectifiers / DO Fast Recovery Glass Passivated Rectifiers / SM Fast Recovery Glass Passivated Rectifiers / SMB Fast Recovery Rectifiers / Fast Recovery Glass Passivated Rectifiers / Fast Recovery Rectifiers / DO Fast Recovery Glass Passivated Rectifiers / DO Ultra-Fast Recovery Rectifiers / DO Ultra-Fast Recovery Rectifiers / DO Fast Recovery Glass Passivated Rectifiers / SM Fast Recovery Glass Passivated Rectifiers / SMB Fast Recovery Rectifiers / DO Fast Recovery Glass Passivated Rectifiers / DO Fast Recovery Rectifiers / DO Fast Recovery Glass Passivated Rectifiers / DO Super-Fast Recovery Glass Passivated Rectifiers / SM Super-Fast Recovery Glass Passivated Rectifiers / SMB Super-Fast Recovery Glass Passivated Rectifiers / DO Ultra-Fast Recovery Rectifiers / DO Ultra-Fast Recovery Glass Passivated Rectifiers / DO Fast Recovery Rectifiers / DO Fast Recovery Glass Passivated Rectifiers / DO Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI Super-Fast Recovery Glass Passivated Rectifiers / SMB Super-Fast Recovery Glass Passivated Rectifiers / SMC Super-Fast Recovery Glass Passivated Rectifiers / DO-201D Ultra-Fast Recovery Rectifiers / DO-201D Ultra-Fast Recovery Glass Passivated Rectifiers / DO-201D Fast Recovery Glass Passivated Rectifiers / SMB Fast Recovery Glass Passivated Rectifiers / SMC Fast Recovery Rectifiers / DO-201D Fast Recovery Glass Passivated Rectifiers / DO-201D Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI Contents - 5

9 6.0 Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI Ultra-Fast Recovery Glass Passivated Rectifiers (Dual) / PowerDI Fast Recovery Glass Passivated Rectifiers / R Super-Fast Recovery Glass Passivated Rectifiers (Dual) / D 2 PK Standard Recovery Rectifiers Standard Recovery Glass Passivated Rectifiers / PowerDI Standard Recovery Glass Passivated Rectifiers / SM Standard Recovery Glass Passivated Rectifiers / SMB Standard Recovery Rectifiers / Standard Recovery Glass Passivated Rectifiers / Standard Recovery Rectifiers / DO Standard Recovery Glass Passivated Rectifiers / DO Standard Recovery Glass Passivated Rectifiers / T Standard Recovery Glass Passivated Rectifiers / SM Standard Recovery Glass Passivated Rectifiers / SMB Standard Recovery Rectifiers / DO Standard Recovery Rectifiers / DO Standard Recovery Glass Passivated Rectifiers / DO Standard Recovery Rectifiers / DO Standard Recovery Glass Passivated Rectifiers / DO Standard Recovery Glass Passivated Rectifiers / PowerDI Standard Recovery Glass Passivated Rectifiers / SMB Standard Recovery Glass Passivated Rectifiers / SMC Standard Recovery Rectifiers / DO-201D Standard Recovery Glass Passivated Rectifiers / DO-201D Standard Recovery Glass Passivated Rectifiers / PowerDI Standard Recovery Glass Passivated Rectifiers / SMC Standard Recovery Rectifiers / R Standard Recovery Glass Passivated Rectifiers / SMC Standard Recovery Rectifiers / R Bridge Rectifiers Switching Diode rrays / SOT Schottky Barrier Diode rrays / SOT Fast Recovery Glass Passivated Bridge Rectifiers / MiniDIP Glass Passivated Bridge Rectifiers / MiniDIP Glass Passivated Bridge Rectifiers / DF-S Glass Passivated Bridge Rectifiers / DF-M Glass Passivated Bridge Rectifiers / DF-S Glass Passivated Bridge Rectifiers / DF-M Glass Passivated Bridge Rectifiers / WOG Glass Passivated Bridge Rectifiers / KBP Glass Passivated Bridge Rectifiers / WOG Glass Passivated Bridge Rectifiers / KBP Glass Passivated Bridge Rectifiers / GBU Glass Passivated Bridge Rectifiers / KBJ Glass Passivated Bridge Rectifiers / GBJ Glass Passivated Bridge Rectifiers / GBU Glass Passivated Bridge Rectifiers / KBJ Glass Passivated Bridge Rectifiers / GBJ Glass Passivated Bridge Rectifiers / GBU Glass Passivated Bridge Rectifiers / GBJ Glass Passivated Bridge Rectifiers / GBU Glass Passivated Bridge Rectifiers / GBJ Glass Passivated Bridge Rectifiers / GBPC Glass Passivated Bridge Rectifiers / GBPC-W Glass Passivated Bridge Rectifiers / GBJ Glass Passivated Bridge Rectifiers / GBJ Glass Passivated Bridge Rectifiers / GBPC Glass Passivated Bridge Rectifiers / GBPC-W Glass Passivated Bridge Rectifiers / GBPC Glass Passivated Bridge Rectifiers / GBPC-W ppendix: Product Packaging Information... ppendix lphanumeric Index... Index-1 Contents - 6

10 bout This Product Design Guide bout the Company s Product Offerings Diodes Incorporated is a leading global manufacturer and supplier of high-quality, applicationspecific standard products within the broad discrete and analog semiconductor markets, serving the consumer electronics, computing, communications, industrial and automotive markets. How This Guide Is Organized This Product Design Guide provides an overview of Diodes, Inc. s product portfolio. It is arranged into the following three product categories: Power Management ICs Hall Effect Sensors Discrete Semiconductors The first two sections present our new nalog IC product portfolio. The third section contains our Discrete components, including our new high-performance Super Barrier Rectifiers, or SBR devices. Under these broad categories, the parts are arranged from low to high power/current and small to large packages. In this Guide, basic electrical and mechanical parameters of our nalog and Discrete products are provided to support your selection of the proper components for your applications. The nalog Power Management ICs and Hall Effect Sensors include: Power Management ICs: DC/DC Switching Regulators and Controllers; Linear Regulators; Shunt Voltage References; Voltage Supervisory; Op mp / Comparators and USB Power Switches. Hall Effect Sensors: Unipolar and Omnipolar Switches, Bipolar Latches and Smart Fan Drivers. The Discrete Semiconductors section includes: Schottky / SBR Diodes; Switching and Zener Diodes Surface Mount Schottky / SBR Rectifiers Through-Hole Schottky / SBR Rectifiers Transient Voltage Suppressor (TVS), Thyristor Surge Protection Devices (TSPD) and Data Line Protection Devices Small Signal and Medium Power Bipolar Transistors, Matched Transistor rrays, and Darlington Transistors NPN, PNP Prebiased Transistors MOSFETS Complex rrays Super-Fast / Ultra-Fast / Fast / Standard Recovery and Bridge Rectifiers bout This Product Design Guide 1-1

11 For package outline drawings and suggested pad layouts, turn to the ppendix. To locate part numbers, turn to the lphanumeric Index at the back. Our Corporate Website For up-to-date product information, please refer to our Corporate website at This site is available in English, Chinese, and Korean. On our website, you will find: Current product specifications / data sheets Product (Parametric) Catalog dvanced Search Lead Free / PB-Free / RoHS compliance information Contact Us for specific Technical and Sales information Global Sales Contact information with Regional Sales Office Locations Online Cross References, SPICE Models, Material Content Reports, and much more. Lead Free and Green Products The Company-wide policy is to offer all of our products in Lead Free or Lead Free Finish, RoHS Compliant format. In addition, we have introduced many of our product packages in Green * format, no Halogens or ntimony compounds. In , we will continue to release more products in the RoHS Lead Free and Green format. Currently, Lead Free/Lead Free Finish, RoHS Compliant products are considered the Company s standard products. Lead Free products are clearly identified. Until lead-containing parts are discontinued, Diodes, Inc. will use the -F suffix on part numbers for products that are Lead Free or have a Lead-Free finish. Please go to for the current Lead Free and Green status of any part, as indicated on our latest data sheets, as follows: 1. Lead Free finish RoHS Compliant shown as Lead Free Finish, RoHS Compliant 2. Pb-Free Lead-free 3. Pb-Free Green Lead-free Green Some SnPb finished, RoHS 5/6 Compliant products may remain available. Use of -F Suffix generally indicates that an SnPb version previously existed. Contact your Diodes, Inc. Sales Representative for further information. * Diodes, Inc. defines Green as RoHS Compliant as well as Halogen and ntimony free. To determine status, refer to the Company s product data sheets on our website at bout This Product Design Guide 1-2

12 Technical Support Diodes Incorporated provides compact discrete semiconductor solutions and analog integrated circuits to a wide variety of end markets. Our engineers work closely with our customers to develop application-specific solutions that offer improved performance in optimal package configurations. For technical or sales support, go to or contact Diodes Incorporated at: The mericas Tel: Europe Tel: +33/(0) Taiwan Tel: Shanghai Tel: Shenzhen Tel: Korea Tel: +82(31) Product Ordering / Sampling To order products or request samples, please contact your local Sales Representative or visit our website at complete list of our Sales Representatives is available on our website. bout This Product Design Guide 1-3

13 Power Management ICs DC/DC Switching Regulators & Controllers Minimum Input Voltage (V) Maximum Input Voltage (V) Output Voltage (V) Output Current () Frequency (Hz) Type Switch Topology Output Channels Operating Temperature Range ( C) Soft Start Enable Pin vailable Packages Buck Converter - Internal Switch P to 5.5 DJ 0.8 P to Vcc DJ 1.2 P P P P P P P P P P P P P P P P P to Vcc DJ 0.8 to Vcc DJ 3.3/5/12/ 1.23 to to Vcc DJ 0.8 to Vcc DJ 3.3/5/12/ 1.23 to to Vcc DJ 0.8 to 0.9 Vcc 3.3/5/12/ 1.23 to to 0.9 Vcc 3.3/5/12/ 1.23 to to Vcc DJ 3.3/5/12/ 1.23 to /5/12/ 1.23 to to Vcc DJ 3.3/5/12/ 1.23 to to Vcc DJ Boost Converter - Internal Switch 600K Fixed 700K Fixed PWM / PFM synchronous 1-25 to +80 X X SOT-25 PWM/PFM synchronous 1-25 to +85 X X SOP-8L K PWM synchronous 1-25 to +85 X X SOP-8L K Fixed 50K Fixed PWM synchronous 1-25 to +85 X X SOP-8L PWM synchronous 1-40 to X TO-263 TO K PWM synchronous 1-25 to +85 X X SOP-8L K Fixed 150K Fixed 300K Fixed 300K Fixed 50K Fixed 300K Fixed 150K Fixed 300K Fixed 150K Fixed 150K Fixed 300K Fixed 150K Fixed 300K Fixed PWM synchronous 1-20 to +85 X X SOP-8L PWM synchronous 1-20 to X SOP-8L PWM synchronous 1-20 to +85 X X SOP-8L PWM synchronous 1-25 to X SOP-8L PWM synchronous 1-40 to X TO-263 TO-220 PWM synchronous 1-25 to X SOP-8L PWM synchronous 1-20 to X TO-263 TO-220 PWM synchronous 1-20 to +85 X X SOP-8L PWM synchronous 1-20 to X TO-263 TO-220 PWM synchronous 1-20 to X TO-252 PWM synchronous 1-20 to +85 X X SOP-8L PWM synchronous 1-20 to X TO-263 TO-220 PWM synchronous 1-20 to +85 X X SOP-16L P / 5 2 to 5.5 DJ K Max. PFM Synchronous 1-40 to X SOT-26 P DJ K Max. PFM Synchronous 1-40 to X MSOP-8L MSOP-10L P to 17 DJ K Fixed PWM/PFM synchronous 1-20 to +80 X X SOP-8L ll data is subject to change. Please check our data sheets at for updates. DC/DC Switching Regulators & Controllers 2-1

14 DC/DC Switching Regulators & Controllers Power Management ICs Minimum Input Voltage (V) Maximum Input Voltage (V) Output Voltage (V) Output Current () Frequency (Hz) Type Switch Topology Output Channels Operating Temperature Range ( C) Soft Start Enable Pin vailable Packages Multiple Topology (Buck, Boost, Inverting) Converter - Internal Switch P to Vcc DJ K DJ PWM synchronous 1-20 to X PDIP SOP-8L Minimum Input Voltage (V) Maximum Input Voltage (V) Output Voltage djustable (V) Maximum Duty Cycle (%) Frequency (Hz) Type Switch Topology Output Channels Operating Temperature Range ( C) Soft Start Enable Pin vailable Packages Buck Controllers - External Switch P to P2014 P to P to 25 - Boost Controllers - External Switch P to 15 80/35 300K DJ 200K 400K Fixed 300K DJ 300K Fixed PWM synchronous 1-20 to +85 X - SOP-8L PWM Synchronous 1 0 to +125 X - SOP-8L PWM synchronous 1-20 to +85 X - SOP-8L PWM / PFM synchronous 1-30 to X SOT-25 Minimum Input Voltage (V) Maximum Input Voltage (V) Maximum Output Current (m) Programmable Frequency (Hz) Charge Pump Mode Standby Quiescent Current (µ) typ Dimming Control Output Channels Operating Temperature Range ( C) Soft Start 1-Wire Serial Digital Interface vailable Packages Inductorless Boost Converter - Charge Pump P /1-Ch 120 /4-Ch 1.2M/ 0.6M/ 1.8M 1x, 1.5x, 2x 1 16-step Logarithmic Scale 4-40 to +85 X X DFN Minimum Input Voltage (V) Maximum Input Voltage (V) Output Voltage djustable (V) Output Voltage ccuracy (%) Frequency (Hz) Type Switch Topology Output Channels Operating Temperature Range ( C) Soft Start Enable Pin vailable Packages Multiple Topology (Buck, Boost, Inverting) Controllers - External Switch P to K DJ PWM synchronous 2-20 to SOP-16L DC/DC Switching Regulators & Controllers 2-2 ll data is subject to change. Please check our data sheets at for updates.

15 Power Management ICs Linear Regulators Output Current () Maximum Dropout Voltage (V) Quiescent Current (µ) Typ PSRR (db) Maximum Operating Input Voltage (V) Output Voltage (V) Operating Temperature Range ( C) Features vailable Packages LDO - Single Output P at 1kHz /1.2/1.5/ 1.8/2.5/2.8/ 2.85/3.0/3.3/ to +85 Thermal Shutdown Protection, Enable SOT-25 SOT-353 P at 1kHz 6 DJ 1V to 5V -40 to +85 Thermal Shutdown Protection, Enable SOT-25 DFN P at 1kHz /1.8/2.0/ 2.5/2.8/3.0/ 3.3/ to +125 Thermal Shutdown Protection, Enable SOT-25 P at 100Hz /1.8/2.0/2.5/2.8 /3.0/3.3/ to +125 Thermal Shutdown Protection SOT-23 SC59-3L/R SOT-89/R P at 100Hz /1.8/2.0/2.5/2.8 /3.0/3.3/ to +125 Thermal Shutdown Protection SOT-25 P at 1KHz to +85 Enable, Reset Output SOP-8L P at 1KHz 5.5 DJ 0.8V to 5V -40 to +85 Thermal Shutdown SOP-8L Protection, DFN Enable, Power- OK output P at 1KHz 5.5 DJ 0.8V to 5V -40 to +85 Thermal Shutdown SOP-8L Protection, DFN Enable, Power- OK Output ll data is subject to change. Please check our data sheets at for updates. Linear Regulators 3-1

16 Linear Regulators Power Management ICs Output Current () Maximum Dropout Voltage (V) Maximum Operating Input Voltage (V) Output Voltage (V) Output curacy (%) Operating Temperature Range ( C) Features vailable Packages Quasi LDO - Single Output P1115/B / 1.8 / 2.5 /2.8/3.0/ 3.3 / 3.5 / 5.0 / DJ 2 0 to +150 Thermal Shutdown Protection SOT89-3L PX P / 2.5 / 3.3 / DJ 1.5 / 1.8 / 2.5 / 3.3 / 5.0 / DJ 2 0 to to +125 P to +125 P P Quasi LDO - Dual Output 1.5 / 1.8 / 2.5 / 3.3 / 5.0 / DJ 1.5 / 1.8 / 2.5 / 3.3 / 5.0 / DJ 2 0 to to +125 Thermal Shutdown Protection Thermal Shutdown Protection Thermal Shutdown Protection Thermal Shutdown Protection Thermal Shutdown Protection SOT223-3L TO252-3L SOT223-3L TO252-3L TO220-3L SOT89-3L TO263-3L SOT223-3L TO252-3L SOT89-3L TO263-3L TO252-3L TO220-3L TO263-3L TO252-3L TO220-3L P1120 / P P1120B / P1121B ch1:3.3 ch2: 2.5 ch1:3.3 ch2: to to +150 Thermal Shutdown Protection Thermal Shutdown Protection SOP-8L SOP-8L High Efficiency Quasi-LDO - Single Output P P / 1.8 / 2.5 / 3.3 / 5.0 / DJ 1.5 / 1.8 / 2.5 / 3.3 / 5.0 / DJ 2 0 to to +125 Thermal Shutdown Protection Thermal Shutdown Protection TO263-5L TO220-5L TO263-5L TO220-5L General Purpose Linear Regulator P78L to +125 P78L to +125 P78L to +125 Thermal Shutdown Protection Thermal Shutdown Protection Thermal Shutdown Protection TO92-3L SOP-8L TO92-3L SOP-8L TO92-3L SOP-8L Linear Regulators 3-2 ll data is subject to change. Please check our data sheets at for updates.

17 Power Management ICs Shunt Voltage References Reference Voltage (V) ccuracy (%) Maximum Input Voltage (V) Sink Current (m) Minimum Cathode Current for Regulation (m) (Typ.) Typical Temperature Coefficient (ppm/ C) Operating Temperature Range ( C) vailable Packages Shunt Voltage References P / to +85 P / to +85 P / to +85 P / to +85 TO-92/SOP-8L SOT-23/SOT23-R SOT-89/SC59-R SOT-25 TO-92/SOP-8L SOT-23/SOT23-R SOT-89/SC59-R SOT-25 TO-92/SOP-8L SOT-23/SOT23-R SOT-89/SC59-R SOT-25 TO-92/SOP-8L SOT-23/SOT23-R SOT-89/SC59-R SOT-25 ll data is subject to change. Please check our data sheets at for updates. Shunt Voltage References 4-1

18 Power Management ICs Voltage Supervisory Detect Voltages (V) Operating Voltage Range (V) Quiescent Current (µ) Reset Threshold ccuracy (%) Typical Time Delay (ms) Reset Output Topology Reset Output Polarity Operating Temperature Range ( C) vailable Packages Reset IC (Voltage Supervisor) P1701/3 P1702/4 2.25/2.63/2.93/ 3.08/4.00/4.38/ /2.63/2.93/ 3.08/4.00/4.38/ to / Push-Pull ctive-low -40 to +105 SC-59 1 to / Push-Pull ctive-high -40 to +105 SC-59 ll data is subject to change. Please check our data sheets at for updates. Voltage Supervisory 5-1

19 Power Management ICs Op mp / Comparators Rail to Rail I/O Supply Voltage Range (V) Gain Bandwidth (typ) (MHz) CMRR (db) Supply Current 5V (per Op mp) Input Offset Voltage (typ) (mv) Input Bias Current (n) Input Common Mode Voltage (V) Output Output Driver (m) Number of Channels Operating Temperature Range ( C) vailable Packages Operational mplifiers P358-3 to to V to V+ -1.5V PX321 PX358 PX324 Input and Output Input and Output Input and Output 2.5 to to to V to V V to V V to V V- +10mV to V+ -10mV V- +10mV to V+ -10mV V- +10mV to V+ -10mV Source: 40 Sink: 20 Source: 60 Sink: 90 Source: 60 Sink: 90 Source: 60 Sink: to to to +85 SOP-8L PDIP-8L SOT-25 SOT-353 MSOP-8L SOP-8L 4-40 to +85 TSSOP-14L Rail to Rail I/O Supply Voltage Range (V) Supply Current Input Offset Voltage (typ) (mv) Input Bias Current (n) Voltage Gain (V/mV) Input Common Mode Voltage (V) Output Driver (m) Supply Type Output Bus Number of Channels Operating Temperature Range ( C) vailable Packages Comparators P393-2 to KOhm 0 to V Single/Split Open-Collect 2 0 to +70 SOP-8L PDIP-8L PX393 Input 2.5 to V to 5.1KOhm V Single/Split Open-Drain 2-40 to +85 MSOP-8L SOP-8L PX339 Input 2.5 to V to 5.1KOhm V Single/Split Open-Drain 4-40 to +85 TSSOP-14L ll data is subject to change. Please check our data sheets at for updates. Op mp / Comparators 6-1

20 Power Management ICs USB Power Switch Current Limit () Operating Voltage Range (V) Enable Logic Number of Channels Rds(on) mohm Operating Temperature ( C) Enable Flag Output Features Undervoltage Lockout Thermal Shutdown vailable Packages USB Power Switch P1212H to 5.5 ctive-high to +125 X X X X SOP-8L P1212L to 5.5 ctive-low to +125 X X X X SOP-8L ll data is subject to change. Please check our data sheets at for updates. USB Power Switch 7-1

21 Hall Effect Sensors Hall-Effect Sensors Description Process Typical pplication Operating Voltage (V) verage Output Current Output Type Operating Point Bop (Gauss) Release Point Brp (Gauss) Grade Special Features Operating Temperature Range ( C) Pin Count vailable Packages Unipolar - Switches TS137 Single Hall Effect Switch Bipolar Contactless Switch 3.5 to 20 25m Open Collector <100 >10 <130 >10 B SIP-3 Only Reverse Power Protected -20 to SIP-3L SC-59 H337 High Temp Single Hall Effect Switch CMOS Contactless Switch 4.2 to 28 25m Open Drain 90/150 30/ to SIP-3L SC-59 Bipolar - Latches H173 High Temp Single Hall Effect Latch Bipolar Motor Position Sensor 3 to 20 25m Pull-Up Resistor 15/60-60/-15 5/80-80/-5 B to SIP-3L SC-59 H175 High Temp Single Hall Effect Latch Bipolar Motor Position Sensor 3.5 to 20 25m Open Collector 15/60-60/-15 5/80-80/-5 B Reverse Power Protected -40 to SIP-3L SC-59 H373 CMOS Hall Effect Latch CMOS Motor Position Sensor 2.5 to 20 25m Pull-Up Resistor 5/60-60/ to SIP-3L SC-59 H375 CMOS Hall Effect Latch CMOS Motor Position Sensor 2.5 to 20 25m Open Drain 5/60-60/ to SIP-3L SC-59 H1751 Position Sensor Bipolar Motor Position Sensor 3.5 to 20 50m Open Collector 5/70-70/-5 - Reverse Power Protected -40 to SIP-3L SC-59 Bipolar - Latches (Complementary Output) H276Q Comp Output Hall Effect Latch Bipolar Dual Coil DC Fan 3.5 to m Open Collector 10/50-50/-10 5/70-70/-5 B -/ /- C Reverse Power Protected -20 to SIP-4L H342 Comp Output Hall Effect Latch Bipolar Dual Coil DC Fan 4.5 to 28 Reverse 3.4m - 7.4m Push/Pull 40/ /-40 - Power Protected -40 to SIP-4L ll data is subject to change. Please check our data sheets at for updates. Hall-Effect Sensors 8-1

22 Hall-Effect Sensors Hall Effect Sensors Description Process Typical pplication Operating Voltage (V) verage Output Current Output Type Operating Point Bop (Gauss) Release Point Brp (Gauss) Grade Special Features Operating Temperature Range ( C) Pin Count vailable Packages Omnipolar - Switches H180 Omnipolar Hall Effect Switch CMOS Contactless Switch 2.5 to 5.5 1m Open Drain Bops <60 Bopn >-60 Brps>10 Brpn<-10 - Chopper Stabilized -40 to SC-59 SIP-3L DFN DFN H1801 Inverted- Output Omnipolar Hall Effect Switch CMOS Contactless Switch 2.5 to 5.5 1m Open Drain Bops <60 Bopn >-60 Brps>10 Brpn<-10 - Chopper Stablized, Inverted Output-on Without Magnet Present -40 to SC-59 DFN DFN H1802 Omnipolar Hall Effect Switch CMOS Contactless Switch 2.5 to 5.5 1m Open Drain Bops <40 Bopn >-40 Brps>10 Brpn<-10 - Chopper Stabilized -40 to SC-59 DFN H1803 Omnipolar Hall Effect Switch CMOS Contactless Switch 2.4 to m CMOS Bops <40 Bopn >-40 Brps>10 Brpn<-10 - Chopper Stabilized -40 to SC-59 DFN Omnipolar - Switches (Complementary Output) H1884 Dual-Output Omnipolar Hall Effect Switch CMOS Contactless Switch 1.65 to m CMOS Bops <55 Bopn >-55 Brps>15 Brpn<-15 - Chopper Stabilized Complementary Output -40 to SOT-553 Smart Fan Drivers (Complementary, Latched Output) H284 Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 3.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart -40 to SIP-4L H285 Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 3.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart, Frequency Generator -40 to SOT89-5 Hall-Effect Sensors 8-2 ll data is subject to change. Please check our data sheets at for updates.

23 Hall Effect Sensors Hall-Effect Sensors Description Process Typical pplication Operating Voltage (V) verage Output Current Output Type Operating Point Bop (Gauss) Release Point Brp (Gauss) Grade Special Features Operating Temperature Range ( C) Pin Count vailable Packages Smart Fan Drivers (Complementary, Latched Output) (continued) H286 Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 3.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart, Rotary Detection -40 to SOT89-5L H287 High Voltage Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 3.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart -40 to SIP-4L H288 High Voltage Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 3.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart, Frequency Generator -40 to SOT89-5L H289 High Voltage Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 3.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart, Rotary Detection -40 to SOT89-5L H291 Low Voltage Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 1.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart -20 to SIP-4L H292 Low Voltage Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 1.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart, Frequency Generator -20 to SOT89-5L H293 Low Voltage Hall Effect Smart Fan Motor Controller CMOS Dual Coil DC Fan 1.8 to m Open Drain 5/60-60/-5 - uto Shutdown, uto Restart, Rotary Detection -20 to SOT89-5L ll data is subject to change. Please check our data sheets at for updates. Hall-Effect Sensors 8-3

24 Discrete Semiconductors Schottky / SBR Diodes Peak Repetitive Reverse Voltage Forward Continuous Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Capacitance ( ) Pin-out Config. V RRM I FM V I F I V R C TOT V m V m µ V pf (typ) Super Barrier Rectifiers (SBR) & Schottky Diodes / DFN / DFN1006H4-2 SBR0220LP* Fig. 1 BT54LP Fig. 1 BT54LPS** Fig. 1 SBR02M30LP* Fig. 1 SDM20U30LP Fig. 1 BS40LP Fig. 1 SDM10U45LP Fig. 1 SBR02U100LP* Fig. 1 Super Barrier Rectifiers (SBR) & Schottky Diodes / DFN SDM6CC Fig. 2 Super Barrier Rectifiers (SBR) & Schottky Diodes / SOD-523 SBR0220T5* Fig. 3 SBR0230T5* Fig. 3 SDM20U Fig. 3 SDM03U Fig. 3 SDM20U Fig. 3 SDM10U Fig. 3 Schottky Diodes / SOT-523 BT54T Fig. 5 BT54CT Fig. 6 BT54ST Fig. 7 BT54T Fig. 4 SDM10P Fig. 4 SDMP0340LT Fig. 5 SDMP0340LCT Fig. 6 SDMP0340LST Fig. 7 SDMP0340LT Fig. 4 BS40-04T Fig. 7 BS40-05T Fig. 6 BS40-06T Fig. 5 BS40T Fig. 4 BS70-04T Fig. 7 BS70-05T Fig. 6 BS70-06T Fig. 5 BS70T Fig. 4 Schottky Diodes / SOT-563 BT54V Fig. 8 BS40V Fig. 9 BT40VC Fig. 8 * Super Barrier Rectifier (SBR) ** 0.4mm package height ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Schottky / SBR Diodes 9-1

25 Schottky / SBR Diodes Discrete Semiconductors Peak Repetitive Reverse Voltage Forward Continuous Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Capacitance ( ) Pin-out Config. Schottky Diodes / PowerDI 323 V RRM I FM V I F I V R C TOT V m V m µ V pf (typ) PD3S Fig. 3 Schottky Diodes / SOD-323 SD103CWS Fig. 3 SD107WS Fig. 3 BT42WS Fig. 3 BT43WS Fig. 3 BT54WS Fig. 3 SD103BWS Fig. 3 SD101CWS Fig. 3 SDMK0340L Fig. 3 SD103WS Fig. 3 SDM10K Fig. 3 SD101BWS Fig. 3 SD101WS Fig. 3 1N5711WS Fig. 3 Schottky Diodes / SOT-323 BT54W Fig. 5 BT54CW Fig. 6 BT54SW Fig. 7 BT54W Fig. 4 SDMG0340L Fig. 4 SDMG0340L Fig. 5 SDMG0340LC Fig. 6 SDMG0340LS Fig. 7 BS40W Fig. 4 BS40W Fig. 7 BS40W Fig. 6 BS40W Fig. 5 BS70W Fig. 4 BS70W Fig. 7 BS70W Fig. 6 BS70W Fig. 5 Schottky Diodes / SOT-363 BT54DW Fig. 10 BT54BRW Fig. 11 BT54CDW Fig. 12 BT54DW Fig. 13 BT54JW Fig. 14 BT54SDW Fig. 15 BT54TW Fig. 16 QSBT Fig. 17 BS40BRW Fig. 11 * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. Schottky / SBR Diodes 9-2 ll data is subject to change. Please check our data sheets at for updates.

26 Discrete Semiconductors Schottky / SBR Diodes Peak Repetitive Reverse Voltage Forward Continuous Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Capacitance ( ) Pin-out Config. Schottky Diodes / SOT-363 (continued) V RRM I FM V I F I V R C TOT V m V m µ V pf (typ) BS40DW Fig. 15 BS40DW Fig. 12 BS40DW Fig. 10 BS40TW Fig. 16 SD103TW Fig. 18 BS70BRW Fig. 11 BS70DW Fig. 15 BS70DW Fig. 12 BS70DW Fig. 10 BS70JW Fig. 14 BS70TW Fig. 16 Schottky Diodes / SOD-123 SD103CW Fig. 3 BT42W Fig. 3 BT43W Fig. 3 SD103BW Fig. 3 SD101CW Fig. 3 SD103W Fig. 3 SD101BW Fig. 3 1N6263W Fig. 3 SD101W Fig. 3 1N5711W Fig. 3 BT46W Fig. 3 Schottky Diodes / SOT-23 SDM40E20L Fig. 5 SDM40E20LC Fig. 6 SDM40E20LS Fig. 7 BT Fig. 4 BT Fig. 5 BT54C Fig. 6 BT54S Fig. 7 BS Fig. 4 BS Fig. 7 BS Fig. 6 BS Fig. 5 SDM20N Fig. 5 BS Fig. 4 BS Fig. 7 BS Fig. 6 BS Fig. 5 * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Schottky / SBR Diodes 9-3

27 Schottky / SBR Diodes Discrete Semiconductors Peak Repetitive Reverse Voltage Forward Continuous Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Capacitance ( ) Pin-out Config. V RRM I FM V I F I V R C TOT V m V m µ V pf (typ) Schottky Diodes / SC-59 SDM20E40C Fig. 6 Schottky Diodes / SOT-26 SDM03MT Fig. 16 SDM03MT Fig. 18 SD103SDM Fig. 15 SDM10M45SD Fig. 15 * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. Schottky / SBR Diodes 9-4 ll data is subject to change. Please check our data sheets at for updates.

28 Discrete Semiconductors Schottky / SBR Diodes Schottky / SBR Diodes Configurations Figure 1 DFN1006-2, DFN1006H4-2 Figure 2 DFN Figure 3 PowerDI 323, SOD-523, SOD-323, SOD-123 Figure 4 SOT-23, SOT-323, SOT-523 Figure 5 SOT-23, SOT-323, SOT-523 Figure 6 SOT-23, SOT-323, SOT-523, SC-59 Figure 7 SOT-23, SOT-323, SOT-523 Figure 8 SOT-563 Figure 9 SOT-563 Figure 10 SOT-363 Figure 11 SOT-363 Figure 12 SOT-363 Figure 13 SOT-363 Figure 14 SOT-363 Figure 15 SOT-363, SOT-26 Figure 16 SOT-363, SOT-26 Figure 17 SOT-363 Figure 18 SOT-363, SOT-26 * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Schottky / SBR Diodes 9-5

29 Discrete Semiconductors Surface Mount Schottky / SBR Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Pin-out Config. I T T I FSM V I F I V R V ºC V m V V RRM 0.5 Super Barrier Rectifiers (SBR) / DFN SBR05U20LP* Fig Schottky Rectifiers / SOD-323 B0520WS Fig. 2 B0530WS Fig. 2 B0540WS Fig Schottky Rectifiers / SOT-23 BT400D Fig Schottky Rectifiers / SOD-123 B0520LW Fig. 2 B0530W Fig. 2 B0540W Fig Schottky Rectifiers / SOT-23 BT Fig Schottky Rectifiers / PowerDI 323 PD3S120L ** Fig. 2 PD3S130H ** Fig. 2 PD3S130L ** Fig. 2 PD3S ** Fig. 2 PD3S ** Fig Super Barrier Rectifiers (SBR) / Schottky Rectifiers / SOD-323 BT Fig. 2 SBR130S3* Fig. 2 SDM100K30L Fig. 2 SBR140S3* Fig Schottky Rectifiers / PowerDI 123 DFLS120L Fig. 2 DFLS Fig. 2 DFLS130L Fig. 2 DFLS140L Fig. 2 DFLS Fig. 2 DFLS Fig. 2 DFLS ** Fig. 2 DFLS Fig. 2 DFLS ** Fig. 2 * Super Barrier Rectifier (SBR) ** Based on Derating of ambient temperature, Ta (FR-4 PCB, 2 oz. Copper) *** Based on Derating of ambient temperature, Ta (Polymide PCB, 2 oz. Copper) ll data is subject to change. Please check our data sheets at for updates. Surface Mount Schottky / SBR Rectifiers 10-1

30 Surface Mount Schottky / SBR Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Pin-out Config. I T T I FSM V I F I V R V ºC V m V V RRM 1.0 Schottky Rectifiers / SOD-123 B130LW Fig. 2 1N5819HW Fig. 2 B140HW Fig Schottky Rectifiers / SOT-23 BT Fig Schottky Rectifiers / SM B Fig. 2 B Fig. 2 B130L Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig Schottky Rectifiers / SMB B120B Fig. 2 B130B Fig. 2 B130LB Fig. 2 B140B Fig. 2 B140HB Fig. 2 B150B Fig. 2 B160B Fig. 2 B170B Fig. 2 B180B Fig. 2 B190B Fig. 2 B1100B Fig. 2 B1100LB Fig Super Barrier Rectifiers (SBR) / Schottky Rectifiers / PowerDI 123 DFLS220L Fig. 2 DFLS Fig. 2 DFLS230L Fig. 2 DFLS230LH ** Fig. 2 SBR230P1* *** Fig. 2 SBR2M30P1* ** Fig. 2 SBR2U30P1* ** Fig. 2 DFLS ** Fig. 2 DFLS240L Fig. 2 SBR240P1* ** Fig. 2 * Super Barrier Rectifier (SBR) ** Based on Derating of ambient temperature, Ta (FR-4 PCB, 2 oz. Copper) *** Based on Derating of ambient temperature, Ta (Polymide PCB, 2 oz. Copper) Surface Mount Schottky / SBR Rectifiers 10-2 ll data is subject to change. Please check our data sheets at for updates.

31 Discrete Semiconductors Surface Mount Schottky / SBR Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Pin-out Config. I T T I FSM V I F I V R V ºC V m V V RRM 2.0 Super Barrier Rectifiers (SBR) / Schottky Rectifiers / SM B Fig. 2 B Fig. 2 SBR2U30S* Fig. 2 B Fig. 2 B Fig. 2 B Fig Schottky Rectifiers / SMB B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig Super Barrier Rectifiers (SBR) / PowerDI 123 SBR3M30P *** Fig. 2 SBR3U30P *** Fig. 2 SBR3U40P *** Fig Super Barrier Rectifiers (SBR) / Schottky Rectifiers / DFN B3L30LP Fig. 4 SBR3U100LP* Fig. 4 SBR3U150LP* Fig Schottky Rectifiers / PowerDI 5 PDS Fig. 5 PDS Fig. 5 PDS Fig. 5 PDS Fig Super Barrier Rectifiers (SBR) / Schottky Rectifiers / SM B Fig. 2 B Fig. 2 B Fig. 2 B340L Fig. 2 SBR340S* Fig. 2 B Fig. 2 B Fig. 2 * Super Barrier Rectifier (SBR) ** Based on Derating of ambient temperature, Ta (FR-4 PCB, 2 oz. Copper) *** Based on Derating of ambient temperature, Ta (Polymide PCB, 2 oz. Copper) ll data is subject to change. Please check our data sheets at for updates. Surface Mount Schottky / SBR Rectifiers 10-3

32 Surface Mount Schottky / SBR Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Pin-out Config. I T T I FSM V I F I V R V ºC V m V V RRM 3.0 Schottky Rectifiers / SMB B320B Fig. 2 B330B Fig. 2 B340B Fig. 2 B340LB Fig. 2 B350B Fig. 2 B360B Fig Schottky Rectifiers / SMC B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig. 2 B Fig Schottky Rectifiers / PowerDI 5 PDS *** Fig Schottky Rectifiers / PowerDI 5 PDS *** Fig. 5 PDS *** Fig. 5 PDS Fig. 5 PDS5100H *** Fig Schottky Rectifiers / SMC B520C Fig. 2 B530C Fig. 2 B540C Fig. 2 B550C Fig. 2 B560C Fig Schottky Rectifiers / PowerDI 5 PDS *** Fig Schottky Rectifiers / PowerDI 5 PDS835L Fig Schottky Rectifiers / PowerDI 5 PDS Fig. 5 PDS1040CTL *** Fig. 6 PDS1040L *** Fig. 5 PDS *** Fig. 5 * Super Barrier Rectifier (SBR) ** Based on Derating of ambient temperature, Ta (FR-4 PCB, 2 oz. Copper) *** Based on Derating of ambient temperature, Ta (Polymide PCB, 2 oz. Copper) Surface Mount Schottky / SBR Rectifiers 10-4 ll data is subject to change. Please check our data sheets at for updates.

33 Discrete Semiconductors Surface Mount Schottky / SBR Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Forward Voltage Drop Max. Reverse Current ( ) Pin-out Config. I T T I FSM V I F I V R V ºC V m V V RRM 10.0 Schottky Rectifiers (Single) / D 2 Pak SBG1025L Fig. 7 SBG1030L Fig Super Barrier Rectifiers (SBR) / Schottky Rectifiers (Dual) / D 2 Pak SBG1030CT Fig. 8 SBG1035CT Fig. 8 SBG1040CT Fig. 8 SBG1045CT Fig. 8 SBR10U200CTB* Fig Schottky Rectifiers (Dual) / D 2 Pak MBRB1530CT Fig. 8 MBRB1535CT Fig. 8 MBRB1540CT Fig. 8 MBRB1545CT Fig Schottky Rectifiers (Dual) / D 2 Pak SBG1630CT Fig. 8 SBG1635CT Fig. 8 SBG1640CT Fig. 8 SBG1645CT Fig Super Barrier Rectifiers (SBR) / Schottky Rectifiers (Dual) / D 2 Pak SBG2030CT Fig. 8 SBG2035CT Fig. 8 SBG2040CT Fig. 8 SBG2045CT Fig. 8 SBR20200CTB* Fig. 8 SBR20300CTB* Fig Schottky Rectifiers (Dual) / D 2 Pak SBG3030CT Fig. 8 SBG3040CT Fig. 8 SBG3045CT Fig. 8 SBG3050CT Fig. 8 SBG3060CT Fig. 8 * Super Barrier Rectifier (SBR) ** Based on Derating of ambient temperature, Ta (FR-4 PCB, 2 oz. Copper) *** Based on Derating of ambient temperature, Ta (Polymide PCB, 2 oz. Copper) ll data is subject to change. Please check our data sheets at for updates. Surface Mount Schottky / SBR Rectifiers 10-5

34 Surface Mount Schottky / SBR Rectifiers Discrete Semiconductors Schottky Rectifier Configurations Figure 1 DFN Figure 2 PowerDI 123, PowerDI 323, SOD-323, SOD-123, SM, SMB, SMC Figure 3 SOT-23 Note: Left & Right pins must be electrically connected at the printed circuit board. Figure 4 DFN Figure 5 Single PowerDI 5 Figure 6 Dual PowerDI 5 Figure 7 Single D 2 PK Figure 8 Dual Common Cathode D 2 PK Surface Mount Schottky / SBR Rectifiers 10-6 ll data is subject to change. Please check our data sheets at for updates.

35 Discrete Semiconductors Through-Hole Schottky / SBR Rectifiers Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T C I FSM V I F I V R o C V m V 1.0 Schottky Rectifiers / DO-41 1N SB ** N SB ** N SB ** SB ** SB ** SB ** SB ** SB ** SB ** Schottky Rectifiers / DO-201D 1N SB ** N SB ** N SB ** SB ** SB ** SB ** SB ** SB ** SB ** Schottky Rectifiers / DO-201D SB ** SB ** SB ** SB ** SB ** SB ** SB ** SB ** SB ** Schottky Rectifiers / TO-220C SBL SBL SBL SBL SBL SBL ** Lead Temperature ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Through-Hole Schottky / SBR Rectifiers 11-1

36 Through-Hole Schottky / SBR Rectifiers Discrete Semiconductors Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM 7.5 Schottky Rectifiers / TO-220C V I T C I FSM V I F I V R o C V m V MBR MBR MBR MBR MBR MBR Schottky Rectifiers / DO-201D SD SD SD SD Schottky Rectifiers / TO-220C SBL SBL SBL SBL SBL SBL Schottky Rectifiers / DO-201D SD ** SD ** SD ** Schottky Rectifiers / TO-220C MBR SBL MBR SBL MBR SBL MBR SBL MBR SBL MBR SBL ** Lead Temperature ( ) Reference product data sheet for specific test conditions. Through-Hole Schottky / SBR Rectifiers 11-2 ll data is subject to change. Please check our data sheets at for updates.

37 Discrete Semiconductors Through-Hole Schottky / SBR Rectifiers Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T C I FSM V I F I V R o C V m V 10.0 Super Barrier Rectifiers (SBR) & Schottky Rectifiers (Dual) / TO-220B MBR1030CT SBL1030CT MBR1035CT SBL1035CT MBR1040CT SBL1040CT SBR1040CT* SBR10U40CT* MBR1045CT SBL1045CT MBR1050CT SBL1050CT MBR1060CT SBL1060CT SBR1060CT* SBR10U60CT* MBR1070CT MBR1080CT MBR1090CT MBR10100CT SBR10100CT* SBR10U100CT* SBR10150CT* SBR10U150CT* SBR10U200CT* SBR10U300CT* Super Barrier Rectifiers (SBR) (Dual) / ITO-220B SBR1040CTFP SBR10U40CTFP SBR1060CTFP SBR10U60CTFP SBR10100CTFP SBR10U100CTFP SBR10150CTFP SBR10U150CTFP SBR10U200CTFP SBR10U300CTFP Schottky Rectifiers (Dual) / TO-220B MBR1530CT MBR1535CT MBR1540CT MBR1545CT MBR1550CT MBR1560CT * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Through-Hole Schottky / SBR Rectifiers 11-3

38 Through-Hole Schottky / SBR Rectifiers Discrete Semiconductors Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM 16.0 Schottky Rectifiers / TO-220C V I T C I FSM V I F I V R o C V m V MBR SBL MBR SBL MBR SBL MBR SBL MBR SBL MBR SBL Schottky Rectifiers (Dual) / TO-220B SBL1630CT SBL1635CT SBL1640CT SBL1645CT SBL1650CT SBL1660CT Schottky Rectifiers (Dual) / TO-3P SBL1630PT SBL1635PT SBL1640PT SBL1645PT SBL1650PT SBL1660PT Super Barrier Rectifiers (SBR) & Schottky Rectifiers (Dual) / TO-220B MBR2030CT SBL2030CT MBR2035CT SBL2035CT MBR2040CT SBL2040CT SBR2040CT* SBR2040CT* SBR20U40CT* MBR2045CT SBL2045CT SBR2045CT* SBR2045CT* MBR2050CT SBL2050CT * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. Through-Hole Schottky / SBR Rectifiers 11-4 ll data is subject to change. Please check our data sheets at for updates.

39 Discrete Semiconductors Through-Hole Schottky / SBR Rectifiers Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T C I FSM V I F I V R o C V m V 20.0 Super Barrier Rectifiers (SBR) & Schottky Rectifiers (Dual) / TO-220B (continued) MBR2060CT SBL2060CT SBR2060CT* SBR2060CT* SBR20U60CT* MBR2070CT MBR2080CT MBR2090CT MBR20100CT SBR20100CT* SBR20100CT* SBR20U100CT* SBR20120CT* SBR20150CT* SBR20150CT* SBR20U150CT* SBR20200CT* SBR20300CT* Super Barrier Rectifiers (SBR) (Dual) / ITO-220B SBR2040CTFP SBR2040CTFP SBR20U40CTFP SBR2045CTFP SBR2045CTFP SBR2060CTFP SBR2060CTFP SBR20U60CTFP SBR20100CTFP SBR20100CTFP SBR20U100CTFP SBR20150CTFP SBR20150CTFP SBR20U150CTFP SBR20200CTFP SBR20300CTFP Schottky Rectifiers (Dual) / TO-3P SBL2030PT SBL2035PT SBL2040PT SBL2045PT SBL2050PT SBL2060PT * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Through-Hole Schottky / SBR Rectifiers 11-5

40 Through-Hole Schottky / SBR Rectifiers Discrete Semiconductors Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T C I FSM V I F I V R o C V m V 30.0 Super Barrier Rectifiers (SBR) (Dual) / TO-220B SBR30U30CT SBR3040CT SBR3040CT SBR3045CT SBR3045CT SBR3060CT SBR3060CT SBR30100CT SBR30100CT SBR30M100CT SBR30150CT SBR30120CT SBR30150CT SBR30200CT SBR30300CT Super Barrier Rectifiers (SBR) (Dual) / ITO-220B SBR3040CTFP SBR3040CTFP SBR3045CTFP SBR3045CTFP SBR3060CTFP SBR3060CTFP SBR30100CTFP SBR30100CTFP SBR30M100CTFP SBR30150CTFP SBR30150CTFP SBR30200CTFP SBR30300CTFP Schottky Rectifiers (Dual) / TO-3P MBR3030PT SBL3030PT MBR3035PT SBL3035PT MBR3040PT SBL3040PT MBR3045PT SBL3045PT MBR3050PT SBL3050PT MBR3060PT SBL3060PT * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. Through-Hole Schottky / SBR Rectifiers 11-6 ll data is subject to change. Please check our data sheets at for updates.

41 Discrete Semiconductors Through-Hole Schottky / SBR Rectifiers Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T C I FSM V I F I V R o C V m V 40.0 Super Barrier Rectifiers (SBR) (Dual) / TO-220B SBR4040CT SBR4045CT SBR40U45CT SBR4060CT SBR40U60CT SBR40100CT SBR40U100CT SBR40150CT Super Barrier Rectifiers (SBR) (Dual) / ITO-220B SBR4040CTFP SBR4045CTFP SBR4060CTFP SBR40100CTFP SBR40150CTFP Schottky Rectifiers (Dual) / TO-3P MBR4030PT SBL4030PT MBR4035PT SBL4035PT MBR4040PT SBL4040PT MBR4045PT SBL4045PT MBR4050PT SBL4050PT MBR4060PT SBL4060PT Super Barrier Rectifiers (SBR) (Dual) / TO-220B SBR6060CT SBR60300CT * Super Barrier Rectifier (SBR) ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Through-Hole Schottky / SBR Rectifiers 11-7

42 Through-Hole Schottky / SBR Rectifiers Discrete Semiconductors Type Number Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T C I FSM V I F I V R o C V m V 60.0 Schottky Rectifiers (Dual) / TO-3P MBR6030PT SBL6030PT MBR6035PT MBR6040PT SBL6040PT MBR6045PT SBL6050PT SBL6060PT Through-Hole Schottky Rectifiers Configurations TO-220C TO-220B, TO-3P ( ) Reference product data sheet for specific test conditions. Through-Hole Schottky / SBR Rectifiers 11-8 ll data is subject to change. Please check our data sheets at for updates.

43 Discrete Semiconductors Switching Diodes Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Max. Forward Voltage Drop Max. Reverse Current Max. Reverse Recovery Time ( ) Max. Total Capacitance Pin-out Config. Switching Diodes / DFN V RRM I O V I F I V R t rr C V R V m V m µ V ns pf V BS16LP Fig. 17 1N4448HLP Fig. 17 Switching Diodes / SOD-523 1N4448HWT Fig. 18 1N4148WT Fig. 18 Switching Diodes / SOT-523 MMBD4448HT Fig. 1 MMBD4448HT Fig. 4 MMBD4448HTC Fig. 2 MMBD4448HTS Fig. 3 BS16T * Fig. 1 BV70T * Fig. 2 BV99T * Fig. 3 BW56T * Fig. 4 BS21T * Fig. 1 Low Leakage Signal Diodes / SOT-523 BS116T * Fig. 1 BV170T * Fig. 2 BV199T * Fig. 3 BW156T * Fig. 4 Switching Diodes / SOT-563 BS16V Fig. 15 MMBD4448V Fig. 15 Low Leakage Signal Diodes / SOT-563 BS116V Fig. 15 Switching Diodes / PowerDI 323 PD3SD * Fig. 18 Switching Diodes / SOD-323 1N4148WS Fig. 18 1N4448WS Fig. 18 BV16WS Fig. 18 1N4448HWS Fig. 18 BV19WS Fig. 18 BV20WS Fig. 18 BV21WS Fig. 18 BV3004WS Fig. 18 * Forward Continuous Current, I FM ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Switching Diodes 12-1

44 Switching Diodes Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Max. Forward Voltage Drop Max. Reverse Current Max. Reverse Recovery Time ( ) Max. Total Capacitance Pin-out Config. Switching Diodes / SOT-323 V RRM I O V I F I V R t rr C V R V m V m µ V ns pf V BS16W Fig. 1 BV70W Fig. 2 BV99W Fig. 3 BW56W Fig. 4 MMBD4148W Fig. 1 MMBD4448W Fig. 1 MMBD4448HW Fig. 1 BS19W Fig. 1 BS20W Fig. 1 BS21W Fig. 1 MMBD2004SW Fig. 3 Low Leakage Signal Diodes / SOT-323 BV199W Fig. 3 Switching Diodes / SOT-353 MMBD4448HCQW Fig. 13 Switching Diodes / SOT-363 BS16TW Fig. 6 BV70DW Fig. 7 BV756DW Fig. 8 BV99BRW Fig. 9 BV99DW * Fig. 10 BW567DW Fig. 16 BW56DW Fig. 11 MMBD4148TW Fig. 6 MMBD4448DW Fig. 15 SD * Fig. 19 MMBD4448HDW Fig. 11 MMBD4448HQW Fig. 12 MMBD4448HCDW Fig. 7 MMBD4448HSDW Fig. 10 MMBD4448HTW Fig. 6 SD * Fig. 10 BS20DW Fig. 15 BS21DW Fig. 15 Low Leakage Signal Diodes / SOT-363 BV199DW Fig. 10 DLP Fig. 19 * Forward Continuous Current, I FM ( ) Reference product data sheet for specific test conditions. Switching Diodes 12-2 ll data is subject to change. Please check our data sheets at for updates.

45 Discrete Semiconductors Switching Diodes Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Max. Forward Voltage Drop Max. Reverse Current Max. Reverse Recovery Time ( ) Max. Total Capacitance Pin-out Config. Switching Diodes / SOD-123 V RRM I O V I F I V R t rr C V R V m V m µ V ns pf V 1N4448W Fig. 18 1N4148W Fig. 18 BV16W Fig. 18 BV19W Fig. 18 BV20W Fig. 18 BV21W Fig. 18 BV3004W * Fig. 18 Low Leakage Signal Diodes / SOD-123 BV116W * Fig. 18 Switching Diodes / SOT-23 BL * Fig. 5 BS Fig. 1 BV Fig. 2 BV * Fig. 3 BW * Fig. 4 MMBD Fig. 1 MMBD Fig. 1 MMBD * Fig. 3 MMBD Fig. 1 MMBD4448H Fig. 1 BS Fig. 1 BS Fig. 1 BS Fig. 1 BV Fig. 4 BV23C Fig. 2 BV23S Fig. 3 MMBD2004S Fig. 3 MMBD Fig. 4 MMBD3004C Fig. 2 MMBD3004S Fig. 3 Low Leakage Signal Diodes / SOT-23 BS ** Fig. 1 BV ** Fig. 2 BV ** Fig. 3 BW ** Fig. 4 Switching Diodes / SOT-26 MMBD4448HTM Fig. 14 MMBD3004BRM * Fig. 9 * Forward Continuous Current, I FM ** Power Dissipation, P = 250mW ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Switching Diodes 12-3

46 Switching Diodes Discrete Semiconductors Switching Diode Configurations Figure 1 SOT-23, SOT-323, SOT-523 Figure 2 SOT-23, SOT-323, SOT-523 Figure 3 SOT-23, SOT-323, SOT-523 Figure 4 SOT-23, SOT-323, SOT-523 Figure 5 SOT-23 Figure 6 SOT-363 Figure 7 SOT-363 Figure 8 SOT-363 Figure 9 SOT-363, SOT-26 Figure 10 SOT-363 Figure 11 SOT-363 Figure 12 SOT-363 Figure 13 SOT-353 Figure 14 SOT-26 Figure 15 SOT-363, SOT-563 Figure 16 SOT-363 Figure 17 DFN Switching Diodes 12-4 Figure 18 PowerDI 323, SOD-123, SOD-323, SOD-523 Figure 19 SOT-363 ll data is subject to change. Please check our data sheets at for updates.

47 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 250mW Zener Diodes (Single) / DFN BZT52C2V4LP Fig. 10 BZT52C2V7LP Fig. 10 BZT52C3V0LP Fig. 10 BZT52C3V3LP Fig. 10 BZT52C3V6LP Fig. 10 BZT52C3V9LP Fig. 10 BZT52C4V3LP Fig. 10 BZT52C4V7LP Fig. 10 BZT52C5V1LP Fig. 10 BZT52C5V6LP Fig. 10 BZT52C6V2LP Fig. 10 BZT52C6V8LP Fig. 10 BZT52C7V5LP Fig. 10 BZT52C8V2LP Fig. 10 BZT52C9V1LP Fig. 10 BZT52C10LP Fig. 10 BZT52C11LP Fig. 10 BZT52C12LP Fig. 10 BZT52C13LP Fig. 10 BZT52C15LP Fig. 10 BZT52C16LP Fig. 10 BZT52C18LP Fig. 10 BZT52C20LP Fig. 10 BZT52C22LP Fig. 10 BZT52C24LP Fig. 10 BZT52C36LP Fig. 10 BZT52C39LP Fig mW Zener Diodes (Single) / SOD-523 BZT52C2V0T Fig. 1 BZT52C2V4T Fig. 1 BZT52C2V7T Fig. 1 BZT52C3V0T Fig. 1 BZT52C3V3T Fig. 1 BZT52C3V6T Fig. 1 BZT52C3V9T Fig. 1 BZT52C4V3T Fig. 1 BZT52C4V7T Fig. 1 BZT52C5V1T Fig. 1 BZT52C5V6T Fig. 1 BZT52C6V2T Fig. 1 BZT52C6V8T Fig. 1 BZT52C7V5T Fig. 1 BZT52C8V2T Fig. 1 BZT52C9V1T Fig. 1 BZT52C10T Fig. 1 BZT52C11T Fig. 1 BZT52C12T Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-1

48 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 150mW Zener Diodes (Single) / SOD-523 (continued) BZT52C13T Fig. 1 BZT52C15T Fig. 1 BZT52C16T Fig. 1 BZT52C18T Fig. 1 BZT52C20T Fig. 1 BZT52C22T Fig. 1 BZT52C24T Fig mW Low Test Current Zener Diodes (Single) / SOD-523 DDZ9689T Fig. 1 DDZ9690T Fig. 1 DDZ9691T Fig. 1 DDZ9692T Fig. 1 DDZ9693T Fig. 1 DDZ9694T Fig. 1 DDZ9696T Fig. 1 DDZ9697T Fig. 1 DDZ9698T Fig. 1 DDZ9699T Fig. 1 DDZ9700T Fig. 1 DDZ9701T Fig. 1 DDZ9702T Fig. 1 DDZ9703T Fig. 1 DDZ9705T Fig. 1 DDZ9707T Fig. 1 DDZ9708T Fig. 1 DDZ9709T Fig. 1 DDZ9711T Fig. 1 DDZ9712T Fig. 1 DDZ9713T Fig. 1 DDZ9714T Fig. 1 DDZ9715T Fig. 1 DDZ9716T Fig. 1 DDZ9717T Fig mW Zener Diodes (Single) / SOT-523 BZX84C2V4T Fig. 2 MMBZ5221BT Fig. 2 BZX84C2V7T Fig. 2 MMBZ5223BT Fig. 2 BZX84C3V0T Fig. 2 MMBZ5225BT Fig. 2 BZX84C3V3T Fig. 2 MMBZ5226BT Fig. 2 BZX84C3V6T Fig. 2 MMBZ5227BT Fig. 2 BZX84C3V9T Fig. 2 MMBZ5228BT Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes 13-2 ll data is subject to change. Please check our data sheets at for updates.

49 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 150mW Zener Diodes (Single) / SOT-523 (continued) BZX84C4V3T Fig. 2 MMBZ5229BT Fig. 2 BZX84C4V7T Fig. 2 MMBZ5230BT Fig. 2 BZX84C5V1T Fig. 2 MMBZ5231BT Fig. 2 BZX84C5V6T Fig. 2 MMBZ5232BT Fig. 2 BZX84C6V2T Fig. 2 MMBZ5234BT Fig. 2 BZX84C6V8T Fig. 2 MMBZ5235BT Fig. 2 BZX84C7V5T Fig. 2 MMBZ5236BT Fig. 2 BZX84C8V2T Fig. 2 MMBZ5237BT Fig. 2 BZX84C9V1T Fig. 2 MMBZ5239BT Fig. 2 BZX84C10T Fig. 2 MMBZ5240BT Fig. 2 BZX84C11T Fig. 2 MMBZ5241BT Fig. 2 BZX84C12T Fig. 2 MMBZ5242BT Fig. 2 BZX84C13T Fig. 2 MMBZ5243BT Fig. 2 BZX84C15T Fig. 2 MMBZ5245BT Fig. 2 BZX84C16T Fig. 2 MMBZ5246BT Fig. 2 BZX84C18T Fig. 2 MMBZ5248BT Fig. 2 BZX84C20T Fig. 2 MMBZ5250BT Fig. 2 BZX84C22T Fig. 2 MMBZ5251BT Fig. 2 BZX84C24T Fig. 2 MMBZ5252BT Fig. 2 BZX84C27T Fig. 2 MMBZ5254BT Fig. 2 MMBZ5255BT Fig. 2 BZX84C30T Fig. 2 MMBZ5256BT Fig. 2 BZX84C33T Fig. 2 MMBZ5257BT Fig. 2 BZX84C36T Fig. 2 MMBZ5258BT Fig. 2 BZX84C39T Fig. 2 MMBZ5259BT Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-3

50 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 150mW Zener Diodes (Quad, Common node) / SOT-563 QZX563C6V8C Fig mW Zener Diodes (Single) / SOD-323 BZT52C2V0S Fig. 1 BZT52C2V4S Fig. 1 MMSZ5221BS Fig. 1 BZT52C2V7S Fig. 1 MMSZ5223BS Fig. 1 BZT52C3V0S Fig. 1 MMSZ5225BS Fig. 1 BZT52C3V3S Fig. 1 MMSZ5226BS Fig. 1 BZT52C3V6S Fig. 1 MMSZ5227BS Fig. 1 BZT52C3V9S Fig. 1 MMSZ5228BS Fig. 1 BZT52C4V3S Fig. 1 MMSZ5229BS Fig. 1 BZT52C4V7S Fig. 1 MMSZ5230BS Fig. 1 BZT52C5V1S Fig. 1 MMSZ5231BS Fig. 1 UDZ5V1B Fig. 1 BZT52C5V6S Fig. 1 MMSZ5232BS Fig. 1 UDZ5V6B Fig. 1 MMSZ5233BS Fig. 1 BZT52C6V2S Fig. 1 MMSZ5234BS Fig. 1 UDZ6V2B Fig. 1 BZT52C6V8S Fig. 1 MMSZ5235BS Fig. 1 UDZ6V8B Fig. 1 BZT52C7V5S Fig. 1 MMSZ5236BS Fig. 1 UDZ7V5B Fig. 1 BZT52C8V2S Fig. 1 MMSZ5237BS Fig. 1 UDZ8V2B Fig. 1 MMSZ5238BS Fig. 1 BZT52C9V1S Fig. 1 MMSZ5239BS Fig. 1 UDZ9V1B Fig. 1 BZT52C10S Fig. 1 MMSZ5240BS Fig. 1 UDZ10B Fig. 1 BZT52C11S Fig. 1 MMSZ5241BS Fig. 1 UDZ11B Fig. 1 BZT52C12S Fig. 1 MMSZ5242BS Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes 13-4 ll data is subject to change. Please check our data sheets at for updates.

51 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Zener Diodes (Single) / SOD-323 (continued) UDZ12B Fig. 1 BZT52C13S Fig. 1 MMSZ5243BS Fig. 1 UDZ13B Fig. 1 BZT52C15S Fig. 1 MMSZ5245BS Fig. 1 UDZ15B Fig. 1 BZT52C16S Fig. 1 MMSZ5246BS Fig. 1 BZT52C18S Fig. 1 MMSZ5248BS Fig. 1 BZT52C20S Fig. 1 MMSZ5250BS Fig. 1 BZT52C22S Fig. 1 MMSZ5251BS Fig. 1 BZT52C24S Fig. 1 MMSZ5252BS Fig. 1 BZT52C27S Fig. 1 MMSZ5254BS Fig. 1 MMSZ5255BS Fig. 1 BZT52C30S Fig. 1 MMSZ5256BS Fig. 1 BZT52C33S Fig. 1 MMSZ5257BS Fig. 1 BZT52C36S Fig. 1 MMSZ5258BS Fig. 1 BZT52C39S Fig. 1 MMSZ5259BS Fig. 1 BZT52C51S Fig mW Low Test Current Zener Diodes (Single) / SOD-323 DDZ9689S Fig. 1 DDZ9690S Fig. 1 DDZ9691S Fig. 1 DDZ9692S Fig. 1 DDZ9693S Fig. 1 DDZ9694S Fig. 1 DDZ9696S Fig. 1 DDZ9697S Fig. 1 DDZ9698S Fig. 1 DDZ9699S Fig. 1 DDZ9700S Fig. 1 DDZ9701S Fig. 1 DDZ9702S Fig. 1 DDZ9703S Fig. 1 DDZ9705S Fig. 1 DDZ9707S Fig. 1 DDZ9708S Fig. 1 DDZ9709S Fig. 1 DDZ9711S Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-5

52 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Low Test Current Zener Diodes (Single) / SOD-323 (continued) DDZ9712S Fig. 1 DDZ9713S Fig. 1 DDZ9714S Fig. 1 DDZ9715S Fig. 1 DDZ9716S Fig. 1 DDZ9717S Fig mW Tight Breakdown Tolerance Zener Diodes (Single) / SOD-323 DDZ5V1BS Fig. 1 DDZ5V6BS Fig. 1 DDZ6V2BS Fig. 1 DDZ6V8CS Fig. 1 DDZ7V5CS Fig. 1 DDZ8V2CS Fig. 1 DDZ9V1CS Fig. 1 DDZ10CS Fig. 1 DDZ11CS Fig. 1 DDZ12CS Fig. 1 DDZ13BS Fig. 1 DDZ14S Fig. 1 DDZ15S Fig. 1 DDZ16S Fig. 1 DDZ18CS Fig. 1 DDZ20CS Fig. 1 DDZ22DS Fig. 1 DDZ24CS Fig. 1 DDZ27DS Fig. 1 DDZ30DS Fig. 1 DDZ33S Fig. 1 DDZ36S Fig. 1 DDZ39FS Fig. 1 DDZ43S Fig mW Zener Diodes (Single) / PowerDI 323 PD3Z284C2V Fig. 1 PD3Z284C2V Fig. 1 PD3Z284C3V Fig. 1 PD3Z284C3V Fig. 1 PD3Z284C3V Fig. 1 PD3Z284C3V Fig. 1 PD3Z284C4V Fig. 1 PD3Z284C4V Fig. 1 PD3Z284C5V Fig. 1 PD3Z284C5V Fig. 1 PD3Z284C6V Fig. 1 PD3Z284C6V Fig. 1 PD3Z284C7V Fig. 1 PD3Z284C8V Fig. 1 PD3Z284C9V Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes 13-6 ll data is subject to change. Please check our data sheets at for updates.

53 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 500mW Zener Diodes (Single) / PowerDI 323 (continued) PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig. 1 PD3Z284C Fig mW Zener Diodes (Single) / SOT-323 BZX84C2V4W Fig. 2 MMBZ5221BW Fig. 2 BZX84C2V7W Fig. 2 MMBZ5223BW Fig. 2 BZX84C3V0W Fig. 2 MMBZ5225BW Fig. 2 BZX84C3V3W Fig. 2 MMBZ5226BW Fig. 2 BZX84C3V6W Fig. 2 MMBZ5227BW Fig. 2 BZX84C3V9W Fig. 2 MMBZ5228BW Fig. 2 BZX84C4V3W Fig. 2 MMBZ5229BW Fig. 2 BZX84C4V7W Fig. 2 MMBZ5230BW Fig. 2 BZX84C5V1W Fig. 2 MMBZ5231BW Fig. 2 BZX84C5V6W Fig. 2 MMBZ5232BW Fig. 2 BZX84C6V2W Fig. 2 MMBZ5234BW Fig. 2 BZX84C6V8W Fig. 2 MMBZ5235BW Fig. 2 BZX84C7V5W Fig. 2 MMBZ5236BW Fig. 2 BZX84C8V2W Fig. 2 MMBZ5237BW Fig. 2 BZX84C9V1W Fig. 2 MMBZ5239BW Fig. 2 BZX84C10W Fig. 2 MMBZ5240BW Fig. 2 BZX84C11W Fig. 2 MMBZ5241BW Fig. 2 BZX84C12W Fig. 2 MMBZ5242BW Fig. 2 BZX84C13W Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-7

54 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Zener Diodes (Single) / SOT-323 (continued) MMBZ5243BW Fig. 2 BZX84C15W Fig. 2 MMBZ5245BW Fig. 2 BZX84C16W Fig. 2 MMBZ5246BW Fig. 2 BZX84C18W Fig. 2 MMBZ5248BW Fig. 2 BZX84C20W Fig. 2 MMBZ5250BW Fig. 2 BZX84C22W Fig. 2 MMBZ5251BW Fig. 2 BZX84C24W Fig. 2 MMBZ5252BW Fig. 2 BZX84C27W Fig. 2 MMBZ5254BW Fig. 2 MMBZ5255BW Fig. 2 BZX84C30W Fig. 2 MMBZ5256BW Fig. 2 BZX84C33W Fig. 2 MMBZ5257BW Fig. 2 BZX84C36W Fig. 2 MMBZ5258BW Fig. 2 BZX84C39W Fig. 2 MMBZ5259BW Fig mW Zener Diodes (Dual, Common node) / SOT-323 Z23C5V6W Fig. 3 Z23C6V8W Fig. 3 Z23C10W Fig. 3 Z23C18W Fig mW Zener Diodes (Dual, Isolated) / SOT-363 BZX84C2V4S Fig. 6 MMBZ5221BS Fig. 5 BZX84C2V7S Fig. 6 MMBZ5223BS Fig. 5 BZX84C3V0S Fig. 6 MMBZ5225BS Fig. 5 BZX84C3V3S Fig. 6 MMBZ5226BS Fig. 5 BZX84C3V6S Fig. 6 MMBZ5227BS Fig. 5 BZX84C3V9S Fig. 6 MMBZ5228BS Fig. 5 BZX84C4V3S Fig. 6 MMBZ5229BS Fig. 5 BZX84C4V7S Fig. 6 MMBZ5230BS Fig. 5 BZX84C5V1S Fig. 6 MMBZ5231BS Fig. 5 BZX84C5V6S Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes 13-8 ll data is subject to change. Please check our data sheets at for updates.

55 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Zener Diodes (Dual, Isolated) / SOT-363 (continued) MMBZ5232BS Fig. 5 MMBZ5233BS Fig. 5 BZX84C6V2S Fig. 6 MMBZ5234BS Fig. 5 BZX84C6V8S Fig. 6 MMBZ5235BS Fig. 5 BZX84C7V5S Fig. 6 MMBZ5236BS Fig. 5 BZX84C8V2S Fig. 6 MMBZ5237BS Fig. 5 MMBZ5238BS Fig. 5 BZX84C9V1S Fig. 6 MMBZ5239BS Fig. 5 BZX84C10S Fig. 6 MMBZ5240BS Fig. 5 BZX84C11S Fig. 6 MMBZ5241BS Fig. 5 BZX84C12S Fig. 6 MMBZ5242BS Fig. 5 BZX84C13S Fig. 6 MMBZ5243BS Fig. 5 BZX84C15S Fig. 6 MMBZ5245BS Fig. 5 BZX84C16S Fig. 6 MMBZ5246BS Fig. 5 BZX84C18S Fig. 6 MMBZ5248BS Fig. 5 BZX84C20S Fig. 6 MMBZ5250BS Fig. 5 BZX84C22S Fig. 6 MMBZ5251BS Fig. 5 BZX84C24S Fig. 6 MMBZ5252BS Fig. 5 BZX84C27S Fig. 6 MMBZ5254BS Fig. 5 MMBZ5255BS Fig. 5 BZX84C30S Fig. 6 MMBZ5256BS Fig. 5 BZX84C33S Fig. 6 MMBZ5257BS Fig. 5 BZX84C36S Fig. 6 MMBZ5258BS Fig. 5 BZX84C39S Fig. 6 MMBZ5259BS Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-9

56 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Zener Diodes (Triple, Isolated) / SOT-363 BZX84C2V4TS Fig. 7 MMBZ5221BTS Fig. 7 BZX84C2V7TS Fig. 7 MMBZ5223BTS Fig. 7 BZX84C3V0TS Fig. 7 MMBZ5225BTS Fig. 7 BZX84C3V3TS Fig. 7 MMBZ5226BTS Fig. 7 BZX84C3V6TS Fig. 7 MMBZ5227BTS Fig. 7 BZX84C3V9TS Fig. 7 MMBZ5228BTS Fig. 7 BZX84C4V3TS Fig. 7 MMBZ5229BTS Fig. 7 BZX84C4V7TS Fig. 7 MMBZ5230BTS Fig. 7 BZX84C5V1TS Fig. 7 MMBZ5231BTS Fig. 7 BZX84C5V6TS Fig. 7 MMBZ5232BTS Fig. 7 MMBZ5233BTS Fig. 7 BZX84C6V2TS Fig. 7 MMBZ5234BTS Fig. 7 BZX84C6V8TS Fig. 7 MMBZ5235BTS Fig. 7 BZX84C7V5TS Fig. 7 MMBZ5236BTS Fig. 7 BZX84C8V2TS Fig. 7 MMBZ5237BTS Fig. 7 MMBZ5238BTS Fig. 7 BZX84C9V1TS Fig. 7 MMBZ5239BTS Fig. 7 BZX84C10TS Fig. 7 MMBZ5240BTS Fig. 7 BZX84C11TS Fig. 7 MMBZ5241BTS Fig. 7 BZX84C12TS Fig. 7 MMBZ5242BTS Fig. 7 BZX84C13TS Fig. 7 MMBZ5243BTS Fig. 7 BZX84C15TS Fig. 7 MMBZ5245BTS Fig. 7 BZX84C16TS Fig. 7 MMBZ5246BTS Fig. 7 BZX84C18TS Fig. 7 MMBZ5248BTS Fig. 7 BZX84C20TS Fig. 7 MMBZ5250BTS Fig. 7 BZX84C22TS Fig. 7 MMBZ5251BTS Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes ll data is subject to change. Please check our data sheets at for updates.

57 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Zener Diodes (Triple, Isolated) / SOT-363 (continued) BZX84C24TS Fig. 7 MMBZ5252BTS Fig. 7 BZX84C27TS Fig. 7 MMBZ5254BTS Fig. 7 MMBZ5255BTS Fig. 7 BZX84C30TS Fig. 7 MMBZ5256BTS Fig. 7 BZX84C33TS Fig. 7 MMBZ5257BTS Fig. 7 BZX84C36TS Fig. 7 MMBZ5258BTS Fig. 7 BZX84C39TS Fig. 7 MMBZ5259BTS Fig mW Low Test Current Zener Diodes (Triple, Isolated) / SOT-363 DDZX9689TS Fig. 7 DDZX9690TS Fig. 7 DDZX9691TS Fig. 7 DDZX9692TS Fig. 7 DDZX9693TS Fig. 7 DDZX9694TS Fig. 7 DDZX9696TS Fig. 7 DDZX9697TS Fig. 7 DDZX9698TS Fig. 7 DDZX9699TS Fig. 7 DDZX9700TS Fig. 7 DDZX9701TS Fig. 7 DDZX9702TS Fig. 7 DDZX9703TS Fig. 7 DDZX9705TS Fig. 7 DDZX9707TS Fig. 7 DDZX9708TS Fig. 7 DDZX9709TS Fig. 7 DDZX9711TS Fig. 7 DDZX9712TS Fig. 7 DDZX9713TS Fig. 7 DDZX9714TS Fig. 7 DDZX9715TS Fig. 7 DDZX9716TS Fig. 7 DDZX9717TS Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-11

58 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 200mW Tight Breakdown Tolerance Zener Diodes (Triple, Isolated) / SOT-363 DDZX5V1BTS Fig. 7 DDZX5V6BTS Fig. 7 DDZX6V2BTS Fig. 7 DDZX6V8CTS Fig. 7 DDZX7V5CTS Fig. 7 DDZX8V2CTS Fig. 7 DDZX9V1CTS Fig. 7 DDZX10CTS Fig. 7 DDZX11CTS Fig. 7 DDZX12CTS Fig. 7 DDZX13BTS Fig. 7 DDZX14TS Fig. 7 DDZX15TS Fig. 7 DDZX16TS Fig. 7 DDZX18CTS Fig. 7 DDZX20CTS Fig. 7 DDZX22DTS Fig. 7 DDZX24CTS Fig. 7 DDZX27DTS Fig. 7 DDZX30DTS Fig. 7 DDZX33TS Fig. 7 DDZX36TS Fig. 7 DDZX39FTS Fig. 7 DDZX43TS Fig mW Zener Diodes (Triple, Bi-directional) / SOT-363 TBZ363C5V Fig. 8 TBZ363C6V Fig. 8 TBZ363C7V Fig. 8 TBZ363C20V Fig mW Zener Diodes (Quad, Common node) / SOT-363 QZX363C5V Fig. 9 QZX363C6V Fig. 9 QZX363C Fig. 9 QZX363C Fig. 9 QZX363C Fig mW Zener Diodes (Single) / SOT-23 BZX84C2V Fig. 2 MMBZ5221B Fig. 2 MMBZ5222B Fig. 2 BZX84C2V Fig. 2 MMBZ5223B Fig. 2 BZX84C3V Fig. 2 MMBZ5225B Fig. 2 BZX84C3V Fig. 2 MMBZ5226B Fig. 2 BZX84C3V Fig. 2 MMBZ5227B Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes ll data is subject to change. Please check our data sheets at for updates.

59 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 350mW Zener Diodes (Single) / SOT-23 (continued) BZX84C3V Fig. 2 MMBZ5228B Fig. 2 BZX84C4V Fig. 2 MMBZ5229B Fig. 2 BZX84C4V Fig. 2 MMBZ5230B Fig. 2 BZX84C5V Fig. 2 MMBZ5231B Fig. 2 BZX84C5V Fig. 2 MMBZ5232B Fig. 2 MMBZ5233B Fig. 2 BZX84C6V Fig. 2 MMBZ5234B Fig. 2 BZX84C6V Fig. 2 MMBZ5235B Fig. 2 BZX84C7V Fig. 2 MMBZ5236B Fig. 2 BZX84C8V Fig. 2 MMBZ5237B Fig. 2 MMBZ5238B Fig. 2 BZX84C9V Fig. 2 MMBZ5239B Fig. 2 BZX84C Fig. 2 MMBZ5240B Fig. 2 BZX84C Fig. 2 MMBZ5241B Fig. 2 BZX84C Fig. 2 MMBZ5242B Fig. 2 BZX84C Fig. 2 MMBZ5243B Fig. 2 MMBZ5244B Fig. 2 BZX84C Fig. 2 MMBZ5245B Fig. 2 BZX84C Fig. 2 MMBZ5246B Fig. 2 BZX84C Fig. 2 MMBZ5248B Fig. 2 BZX84C Fig. 2 MMBZ5250B Fig. 2 BZX84C Fig. 2 MMBZ5251B Fig. 2 BZX84C Fig. 2 MMBZ5252B Fig. 2 BZX84C Fig. 2 MMBZ5254B Fig. 2 MMBZ5255B Fig. 2 BZX84C Fig. 2 MMBZ5256B Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-13

60 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 350mW Zener Diodes (Single) / SOT-23 (continued) BZX84C Fig. 2 MMBZ5257B Fig. 2 BZX84C Fig. 2 MMBZ5258B Fig. 2 BZX84C Fig. 2 MMBZ5259B Fig. 2 BZX84C Fig. 2 BZX84C Fig. 2 BZX84C Fig mW Tight Breakdown Tolerance Zener Diodes (Single) / SOT-23 DDZX5V1B Fig. 2 DDZX5V6B Fig. 2 DDZX6V2B Fig. 2 DDZX6V8C Fig. 2 DDZX7V5C Fig. 2 DDZX8V2C Fig. 2 DDZX9V1C Fig. 2 DDZX10C Fig. 2 DDZX11C Fig. 2 DDZX12C Fig. 2 DDZX13B Fig. 2 DDZX Fig. 2 DDZX Fig. 2 DDZX Fig. 2 DDZX18C Fig. 2 DDZX20C Fig. 2 DDZX22D Fig. 2 DDZX24C Fig. 2 DDZX27D Fig. 2 DDZX30D Fig. 2 DDZX Fig. 2 DDZX Fig. 2 DDZX39F Fig. 2 DDZX Fig mW Zener Diodes (Dual, Common node) / SOT-23 Z23C2V Fig. 3 Z23C3V Fig. 3 Z23C3V Fig. 3 Z23C3V Fig. 3 Z23C3V Fig. 3 Z23C4V Fig. 3 Z23C4V Fig. 3 Z23C5V Fig. 3 Z23C5V Fig. 3 Z23C6V Fig. 3 Z23C6V Fig. 3 Z23C7V Fig. 3 Z23C8V Fig. 3 Z23C9V Fig. 3 Z23C Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes ll data is subject to change. Please check our data sheets at for updates.

61 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 300mW Zener Diodes (Dual, Common node) / SOT-23 (continued) Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig. 3 Z23C Fig mW Zener Diodes (Dual, Common Cathode) / SOT-23 DZ23C2V Fig. 4 DZ23C3V Fig. 4 DZ23C3V Fig. 4 DZ23C3V Fig. 4 DZ23C3V Fig. 4 DZ23C4V Fig. 4 DZ23C4V Fig. 4 DZ23C5V Fig. 4 DZ23C5V Fig. 4 DZ23C6V Fig. 4 DZ23C6V Fig. 4 DZ23C7V Fig. 4 DZ23C8V Fig. 4 DZ23C9V Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig. 4 DZ23C Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-15

62 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 500mW Zener Diodes (Single) / SOD-123 BZT52C2V Fig. 1 BZT52C2V Fig. 1 MMSZ5221B Fig. 1 BZT52C2V Fig. 1 MMSZ5223B Fig. 1 BZT52C3V Fig. 1 MMSZ5225B Fig. 1 BZT52C3V Fig. 1 MMSZ5226B Fig. 1 BZT52C3V Fig. 1 MMSZ5227B Fig. 1 BZT52C3V Fig. 1 MMSZ5228B Fig. 1 BZT52C4V Fig. 1 MMSZ5229B Fig. 1 BZT52C4V Fig. 1 MMSZ5230B Fig. 1 BZT52C5V Fig. 1 MMSZ5231B Fig. 1 BZT52C5V Fig. 1 MMSZ5232B Fig. 1 MMSZ5233B Fig. 1 BZT52C6V Fig. 1 MMSZ5234B Fig. 1 BZT52C6V Fig. 1 MMSZ5235B Fig. 1 BZT52C7V Fig. 1 MMSZ5236B Fig. 1 BZT52C8V Fig. 1 MMSZ5237B Fig. 1 MMSZ5238B Fig. 1 BZT52C9V Fig. 1 MMSZ5239B Fig. 1 BZT52C Fig. 1 MMSZ5240B Fig. 1 BZT52C Fig. 1 MMSZ5241B Fig. 1 BZT52C Fig. 1 MMSZ5242B Fig. 1 BZT52C Fig. 1 MMSZ5243B Fig. 1 BZT52C Fig. 1 MMSZ5245B Fig. 1 BZT52C Fig. 1 MMSZ5246B Fig. 1 BZT52C Fig. 1 MMSZ5248B Fig. 1 BZT52C Fig. 1 MMSZ5250B Fig. 1 BZT52C Fig. 1 MMSZ5251B Fig. 1 BZT52C Fig. 1 MMSZ5252B Fig. 1 BZT52C Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes ll data is subject to change. Please check our data sheets at for updates.

63 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 500mW Zener Diodes (Single) / SOD-123 (continued) MMSZ5254B Fig. 1 MMSZ5255B Fig. 1 BZT52C Fig. 1 MMSZ5256B Fig. 1 BZT52C Fig. 1 MMSZ5257B Fig. 1 BZT52C Fig. 1 MMSZ5258B Fig. 1 BZT52C Fig. 1 MMSZ5259B Fig mW Zener Diodes (Single) / SOD-123 BZT52C Fig. 1 BZT52C Fig. 1 BZT52C Fig mW Low Test Current Zener Diodes (Single) / SOD-123 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-17

64 Zener Diodes Discrete Semiconductors Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 500mW Tight Breakdown Tolerance Zener Diodes (Single) / SOD-123 DDZ5V1B Fig. 1 DDZ5V6B Fig. 1 DDZ6V2B Fig. 1 DDZ6V8B Fig. 1 DDZ6V8C Fig. 1 DDZ7V5B Fig. 1 DDZ7V5C Fig. 1 DDZ8V2B Fig. 1 DDZ8V2C Fig. 1 DDZ9V1B Fig. 1 DDZ9V1C Fig. 1 DDZ10B Fig. 1 DDZ10C Fig. 1 DDZ11B Fig. 1 DDZ11C Fig. 1 DDZ12B Fig. 1 DDZ12C Fig. 1 DDZ13B Fig. 1 DDZ Fig. 1 DDZ14B Fig. 1 DDZ Fig. 1 DDZ16B Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ18C Fig. 1 DDZ Fig. 1 DDZ20C Fig. 1 DDZ Fig. 1 DDZ22D Fig. 1 DDZ Fig. 1 DDZ24C Fig. 1 DDZ Fig. 1 DDZ27D Fig. 1 DDZ Fig. 1 DDZ30D Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ Fig. 1 DDZ39F Fig. 1 DDZ Fig Short duration pulse test used to minimize self-heating effect. Zener Diodes ll data is subject to change. Please check our data sheets at for updates.

65 Discrete Semiconductors Zener Diodes Zener Voltage Range 1 Max. Reverse Leakage Current V I ZT I ZT I V R Nom. V Min. V Max. V m µ V Pin-out Config. 1W Zener Diodes (Single) / PowerDI 123 DFLZ5V Fig. 1 DFLZ5V Fig. 1 DFLZ6V Fig. 1 DFLZ6V Fig. 1 DFLZ7V Fig. 1 DFLZ8V Fig. 1 DFLZ9V Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 DFLZ Fig. 1 1W Zener Diodes (Single) / SM SMZ5V Fig. 1 SMZ5V Fig. 1 SMZ6V Fig. 1 SMZ6V Fig. 1 SMZ7V Fig. 1 SMZ8V Fig. 1 SMZ9V Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig. 1 SMZ Fig Short duration pulse test used to minimize self-heating effect. ll data is subject to change. Please check our data sheets at for updates. Zener Diodes 13-19

66 Zener Diodes Discrete Semiconductors Zener Diode Configurations Figure 1 Single PowerDI 323, PowerDI 123, SOD-123, SOD-323, SOD-523, SM Figure 2 Single SOT-23, SOT-323, SOT-523 Figure 3 Dual Common node SOT-23, SOT-323 Figure 4 Dual Common Cathode SOT-23 Figure 5 Dual Isolated SOT-363 Figure 6 Dual Isolated (alt) SOT-363 Figure 7 Triple Isolated SOT-363 Figure 8 Triple Bi-directional SOT-363 Figure 9 Quad Common node SOT-363, SOT-563 Figure 10 DFN Zener Diodes ll data is subject to change. Please check our data sheets at for updates.

67 Discrete Semiconductors Transient Voltage Suppressors (TVS) Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V Transient Voltage Suppressors / DFN TPD6V8LP 85 8x Fig. 7 Transient Voltage Suppressors / SOD-523 T3V3S x Fig. 5 T5V0S x Fig. 5 T6V0S x Fig. 5 T12S x Fig. 5 24W Peak Power Transient Voltage Suppressors (Common node) / SOT-23 MMBZ5V6L 24 10x Fig. 1 MMBZ6V2L 24 10x Fig. 1 MMBZ6V8L 24 10x Fig. 1 MMBZ9V1L 24 10x Fig. 1 MMBZ10VL 24 10x Fig. 1 40W Peak Power Transient Voltage Suppressors (Common node) / SOT-23 MMBZ15VL 40 10x Fig. 1 MMBZ18VL 40 10x Fig. 1 MMBZ20VL 40 10x Fig. 1 MMBZ27VL 40 10x Fig. 1 MMBZ33VL 40 10x Fig. 1 40W Peak Power Transient Voltage Suppressors (Common Cathode) / SOT-23 MMBZ15VDL 40 10x Fig. 2 MMBZ27VCL 40 10x Fig. 2 Low Capacitance Transient Voltage Suppressors (Uni-directional) / SOT-23 DLP03LC 350 8x Fig. 3 DLP05LC 300 8x Fig. 3 DLPT x Fig. 4 Transient Voltage Suppressors (Bi-directional) / SOT-23 DLP3V3DTZ 372 8x Fig. 1 Low Capacitance Transient Voltage Suppressors (Bi-directional) / SOT-26 DLPD3V3LC 330 8x Fig. 8 ( ) Reference product data sheet for specific conditions. ll data is subject to change. Please check our data sheets at for updates. Transient Voltage Suppressors (TVS) 14-1

68 Transient Voltage Suppressors (TVS) Discrete Semiconductors Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V 225W Transient Voltage Suppressors / PowerDI 123 DFLT5V x Fig. 5 DFLT6V x Fig. 5 DFLT6V x Fig. 5 DFLT7V x Fig. 5 DFLT7V x Fig. 5 DFLT8V x Fig. 5 DFLT8V x Fig. 5 DFLT9V x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig. 5 DFLT x Fig W Transient Voltage Suppressors / SM SMJ5.0(C) x Fig. 5/6 SMJ6.0(C) x Fig. 5/6 SMJ6.5(C) x Fig. 5/6 SMJ7.0(C) x Fig. 5/6 SMJ7.5(C) x Fig. 5/6 SMJ8.0(C) x Fig. 5/6 SMJ8.5(C) x Fig. 5/6 SMJ9.0(C) x Fig. 5/6 SMJ10(C) x Fig. 5/6 SMJ11(C) x Fig. 5/6 SMJ12(C) x Fig. 5/6 SMJ13(C) x Fig. 5/6 SMJ14(C) x Fig. 5/6 SMJ15(C) x Fig. 5/6 SMJ16(C) x Fig. 5/6 ( ) Reference product data sheet for specific conditions. Transient Voltage Suppressors (TVS) 14-2 ll data is subject to change. Please check our data sheets at for updates.

69 Discrete Semiconductors Transient Voltage Suppressors (TVS) Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V 400W Transient Voltage Suppressors / SM (continued) SMJ17(C) x Fig. 5/6 SMJ18(C) x Fig. 5/6 SMJ20(C) x Fig. 5/6 SMJ22(C) x Fig. 5/6 SMJ24(C) x Fig. 5/6 SMJ26(C) x Fig. 5/6 SMJ28(C) x Fig. 5/6 SMJ30(C) x Fig. 5/6 SMJ33(C) x Fig. 5/6 SMJ36(C) x Fig. 5/6 SMJ40(C) x Fig. 5/6 SMJ43(C) x Fig. 5/6 SMJ45(C) x Fig. 5/6 SMJ48(C) x Fig. 5/6 SMJ51(C) x Fig. 5/6 SMJ54(C) x Fig. 5/6 SMJ58(C) x Fig. 5/6 SMJ60(C) x Fig. 5/6 SMJ64(C) x Fig. 5/6 SMJ70(C) x Fig. 5/6 SMT x Fig. 5 SMJ75(C) x Fig. 5/6 SMJ78(C) x Fig. 5/6 SMJ85(C) x Fig. 5/6 SMJ90(C) x Fig. 5/6 SMJ100(C) x Fig. 5/6 SMJ110(C) x Fig. 5/6 SMJ120(C) x Fig. 5/6 SMJ130(C) x Fig. 5/6 SMJ150(C) x Fig. 5/6 SMJ160(C) x Fig. 5/6 SMJ170(C) x Fig. 5/6 600W Transient Voltage Suppressors / SMB SMBJ5.0(C) x Fig. 5/6 SMBJ6.0(C) x Fig. 5/6 SMBJ6.5(C) x Fig. 5/6 SMBJ7.0(C) x Fig. 5/6 SMBJ7.5(C) x Fig. 5/6 SMBJ8.0(C) x Fig. 5/6 SMBJ8.5(C) x Fig. 5/6 SMBJ9.0(C) x Fig. 5/6 SMBJ10(C) x Fig. 5/6 SMBJ11(C) x Fig. 5/6 ( ) Reference product data sheet for specific conditions. ll data is subject to change. Please check our data sheets at for updates. Transient Voltage Suppressors (TVS) 14-3

70 Transient Voltage Suppressors (TVS) Discrete Semiconductors Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V 600W Transient Voltage Suppressors / SMB (continued) SMBJ12(C) x Fig. 5/6 SMBJ13(C) x Fig. 5/6 SMBJ14(C) x Fig. 5/6 SMBJ15(C) x Fig. 5/6 SMBJ16(C) x Fig. 5/6 SMBJ17(C) x Fig. 5/6 SMBJ18(C) x Fig. 5/6 SMBJ20(C) x Fig. 5/6 SMBJ22(C) x Fig. 5/6 SMBJ24(C) x Fig. 5/6 SMBJ26(C) x Fig. 5/6 SMBJ28(C) x Fig. 5/6 SMBJ30(C) x Fig. 5/6 SMBJ33(C) x Fig. 5/6 SMBJ36(C) x Fig. 5/6 SMBJ40(C) x Fig. 5/6 SMBJ43(C) x Fig. 5/6 SMBJ45(C) x Fig. 5/6 SMBJ48(C) x Fig. 5/6 SMBJ51(C) x Fig. 5/6 SMBJ54(C) x Fig. 5/6 SMBJ58(C) x Fig. 5/6 SMBJ60(C) x Fig. 5/6 SMBJ64(C) x Fig. 5/6 SMBJ70(C) x Fig. 5/6 SMBT x Fig. 5 SMBJ75(C) x Fig. 5/6 SMBJ78(C) x Fig. 5/6 SMBJ85(C) x Fig. 5/6 SMBJ90(C) x Fig. 5/6 SMBJ100(C) x Fig. 5/6 SMBJ110(C) x Fig. 5/6 SMBJ120(C) x Fig. 5/6 SMBJ130(C) x Fig. 5/6 SMBJ150(C) x Fig. 5/6 SMBJ160(C) x Fig. 5/6 SMBJ170(C) x Fig. 5/6 ( ) Reference product data sheet for specific conditions. Transient Voltage Suppressors (TVS) 14-4 ll data is subject to change. Please check our data sheets at for updates.

71 Discrete Semiconductors Transient Voltage Suppressors (TVS) Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V 600W Transient Voltage Suppressors / DO-15 P6KE6V8(C) x P6KE7V5(C) x P6KE8V2(C) x P6KE9V1(C) x P6KE10(C) x P6KE11(C) x P6KE12(C) x P6KE13(C) x P6KE15(C) x P6KE16(C) x P6KE18(C) x P6KE20(C) x P6KE22(C) x P6KE24(C) x P6KE27(C) x P6KE30(C) x P6KE33(C) x P6KE36(C) x P6KE39(C) x P6KE43(C) x P6KE47(C) x P6KE51(C) x P6KE56(C) x P6KE62(C) x P6KE68(C) x P6KE75(C) x P6KE82(C) x P6KE91(C) x P6KE100(C) x P6KE110(C) x P6KE120(C) x P6KE130(C) x P6KE150(C) x P6KE160(C) x P6KE170(C) x P6KE180(C) x P6KE200(C) x P6KE220(C) x P6KE250(C) x P6KE300(C) x P6KE350(C) x P6KE400(C) x ( ) Reference product data sheet for specific conditions. ll data is subject to change. Please check our data sheets at for updates. Transient Voltage Suppressors (TVS) 14-5

72 Transient Voltage Suppressors (TVS) Discrete Semiconductors Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V 1500W Transient Voltage Suppressors / SMC SMCJ5.0(C) x Fig. 5/6 SMCJ6.0(C) x Fig. 5/6 SMCJ6.5(C) x Fig. 5/6 SMCJ7.0(C) x Fig. 5/6 SMCJ7.5(C) x Fig. 5/6 SMCJ8.0(C) x Fig. 5/6 SMCJ8.5(C) x Fig. 5/6 SMCJ9.0(C) x Fig. 5/6 SMCJ10(C) x Fig. 5/6 SMCJ11(C) x Fig. 5/6 SMCJ12(C) x Fig. 5/6 SMCJ13(C) x Fig. 5/6 SMCJ14(C) x Fig. 5/6 SMCJ15(C) x Fig. 5/6 SMCJ16(C) x Fig. 5/6 SMCJ17(C) x Fig. 5/6 SMCJ18(C) x Fig. 5/6 SMCJ20(C) x Fig. 5/6 SMCJ22(C) x Fig. 5/6 SMCJ24(C) x Fig. 5/6 SMCJ26(C) x Fig. 5/6 SMCJ28(C) x Fig. 5/6 SMCJ30(C) x Fig. 5/6 SMCJ33(C) x Fig. 5/6 SMCJ36(C) x Fig. 5/6 SMCJ40(C) x Fig. 5/6 SMCJ43(C) x Fig. 5/6 SMCJ45(C) x Fig. 5/6 SMCJ48(C) x Fig. 5/6 SMCJ51(C) x Fig. 5/6 SMCJ54(C) x Fig. 5/6 SMCJ58(C) x Fig. 5/6 SMCJ60(C) x Fig. 5/6 SMCJ64(C) x Fig. 5/6 SMCJ70(C) x Fig. 5/6 SMCJ75(C) x Fig. 5/6 SMCJ78(C) x Fig. 5/6 SMCJ85(C) x Fig. 5/6 SMCJ90(C) x Fig. 5/6 SMCJ100(C) x Fig. 5/6 SMCJ110(C) x Fig. 5/6 SMCJ120(C) x Fig. 5/6 SMCJ130(C) x Fig. 5/6 SMCJ150(C) x Fig. 5/6 SMCJ160(C) x Fig. 5/6 SMCJ170(C) x Fig. 5/6 ( ) Reference product data sheet for specific conditions. Transient Voltage Suppressors (TVS) 14-6 ll data is subject to change. Please check our data sheets at for updates.

73 Discrete Semiconductors Transient Voltage Suppressors (TVS) Power Rating Waveform for Power Rating ( ) Reverse Standoff Voltage Breakdown Voltage Max. Reverse Leakage Current Maximum Clamping Voltage ( ) Pin-Out Config. V RWM V I T I V RWM V I PP W µs V Min. (V) Max. (V) m µ V 1500W Transient Voltage Suppressors / DO KE6V8(C) x KE7V5(C) x KE8V2(C) x KE9V1(C) x KE10(C) x KE11(C) x KE12(C) x KE13(C) x KE15(C) x KE16(C) x KE18(C) x KE20(C) x KE22(C) x KE24(C) x KE27(C) x KE30(C) x KE33(C) x KE36(C) x KE39(C) x KE43(C) x KE47(C) x KE51(C) x KE56(C) x KE62(C) x KE68(C) x KE75(C) x KE82(C) x KE91(C) x KE100(C) x KE110(C) x KE120(C) x KE130(C) x KE150(C) x KE160(C) x KE170(C) x KE180(C) x KE200(C) x KE220(C) x KE250(C) x KE300(C) x KE350(C) x KE400(C) x W Transient Voltage Suppressors / SMC 3.0SMCJ x Fig SMCJ x Fig SMCJ x Fig SMCJ x Fig SMCJ x Fig SMCJ x Fig SMCJ x Fig. 5 ( ) Reference product data sheet for specific conditions. ll data is subject to change. Please check our data sheets at for updates. Transient Voltage Suppressors (TVS) 14-7

74 Transient Voltage Suppressors (TVS) Discrete Semiconductors Transient Voltage Suppressor (TVS) Configurations Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Single Unidirectonal: PowerDI 123, SOD-523, SM, SMB, SMC Figure 6 Single Bi-Directional* SM, SMB, SMC Figure 7 DFN Figure 8 DLPD3V3LC * 'C' suffix in part number denotes bi-directional device. Transient Voltage Suppressors (TVS) 14-8 ll data is subject to change. Please check our data sheets at for updates.

75 Discrete Semiconductors Thyristor Surge Protection Devices (TSPDs) Diodes Inc. s surge protection device, TSPD, also known as a SIDC, is offered in three surge rating series: 30, 50, and 100. In the compact SMB package, the TSPD offers transient protection by switching to a low-voltage-on-state when the breakover voltage is reached in either direction. TSPDs are breakover triggered crowbar protection devices that turn off when the surge current falls below the holding current value. TSPDs are designed to prevent damage to sensitive circuits from over voltage transients, and to meet various regulatory requirements such as GF1089-CORE, ITU-T-K20/21 and FCC Part 68. TSPD V-I Characteristics Rated Repetitive Off-State Voltage Surge Rating Off-State Leakage Current Breakover Voltage On-State Voltage Off-State Capacitance I V DRM I PP V BO V I T = 1 I BO I H C O V DRM V µ V V Breakover Current Min. (m) Max. (m) Holding Current Min. (m) Max. (m) pf 30 Bidirectional Thyristor Surge Protection Devices / SMB TB0640L TB0720L TB0900L TB1100L TB1300L TB1500L TB1800L TB2300L TB2600L TB3100L TB3500L Waveform t r /t p Standard I pp () 2/10 µs GR-1089-CORE 200 8/20 µs IEC /160 µs FCC Part /700 µs ITU-T, K20/ /560 µs FCC Part /1000 µs GR-1089-CORE 30 ll data is subject to change. Please check our data sheets at for updates. Thyristor Surge Protection Devices (TSPDs) 14-9

76 Thyristor Surge Protection Devices (TSPDs) Rated Repetitive Off-State Voltage Surge Rating Off-State Leakage Current Breakover Voltage On-State Voltage Off-State Capacitance I V DRM I PP V BO V I T = 1 I BO I H C O V DRM V µ V V 50 Bidirectional Thyristor Surge Protection Devices / SMB Breakover Current TB0640M TB0720M TB0900M TB1100M TB1300M TB1500M TB1800M TB2300M TB2600M TB3100M TB3500M Min. (m) Discrete Semiconductors Max. (m) Holding Current Min. (m) Max. (m) pf Waveform t r /t p Standard I pp () 2/10 µs GR-1089-CORE 300 8/20 µs IEC /160 µs FCC Part /700 µs ITU-T, K20/ /560 µs FCC Part /1000 µs GR-1089-CORE Bidirectional Thyristor Surge Protection Devices / SMB TB0640H TB0720H TB0900H TB1100H TB1300H TB1500H TB1800H TB2300H TB2600H TB3100H TB3500H Waveform t r /t p Standard I pp () 2/10 µs GR-1089-CORE 500 8/20 µs IEC /160 µs FCC Part /700 µs ITU-T, K20/ /560 µs FCC Part /1000 µs GR-1089-CORE 100 Thyristor Surge Protection Devices (TSPDs) ll data is subject to change. Please check our data sheets at for updates.

77 Discrete Semiconductors Thyristor Surge Protection Devices (TSPDs) Thyristor Surge Protection Device (TSPD) Configuration Single Bi-directional / SMB ll data is subject to change. Please check our data sheets at for updates. Thyristor Surge Protection Devices (TSPDs) 14-11

78 Data Line Protection Devices Discrete Semiconductors Reverse Stand off Voltage Power Rating (8x20 µs waveform) Minimum Breakdown Voltage Maximum Leakage Current Maximum Clamping Voltage Typical Capacitance Between Data Line and V R =0, f=1mhz V RWM P PK V I T I V R V I PP C V W V m µ V V pf Max. # of Data Lines Protected Pin-Out Config. Rail Clamps / SOT-363 DLPT Fig. 1 SD Fig. 2 DLP Fig. 3 SD Fig. 3 QSBT Fig. 4 Uni-Directional, Low Capacitance, Single Data Line Protection Devices with Integrated TVS / SOT-23 DLP03LC Fig. 5 DLP05LC Fig. 5 Bi-Directional, Low Capacitance, Single Data Line Protection Devices with Integrated TVS / SOT-26 DLPD3V3LC Fig. 6 Data Line Protection Device Configurations Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Data Line Protection Devices ll data is subject to change. Please check our data sheets at for updates.

79 Discrete Semiconductors Power Rating Collector to Emitter Voltage NPN Transistors / DFN Max. Collector Current Collector to Emitter V CEO I C h V CE / I C V CE I C / I B f V CE / I C mw V m Min. Max. V / m V m m MHz V m BC847BLP / PNP Transistors / DFN BC857BLP / Dual NPN Transistors / DFN1310H4-6 (0.4mm Profile) BC847CDLP / Complementary NPN/PNP Transistors / DFN1310H4-6 (0.4mm Profile) MMDT3946LP4 200 ±40 ± ±1 / ± /-0.25 ±10 ±1 300/250 ±20 20/-10 NPN Transistors / SOT-523 MMBT3904T / MMBT2222T / MMBT4401T / BC847T / BC847BT / BC847CT / DC4617Q / * DC4617R / * DC4617S / * 12 2 PNP Transistors / SOT-523 MMBT3906T / MMBT4403T / BC857T / BC857BT / BC857CT / D1774Q / * D1774R / * D1774S / * MMBT2907T / Dual NPN Transistors / SOT-563 MMDT3904VC / MMDT2222V / BC847BVC / Dual PNP Transistors / SOT-563 Small Signal and Medium Power Bipolar Transistors DC Current Gain Maximum Saturation Voltage, Minimum Gain Bandwidth Product MMDT3906VC / BC857BV / MMDT2907V / Complementary NPN/PNP Transistors / SOT-563 BC847BVN 150 ±45 ± / /475 ±5 / ±2 0.25/-0.3 ±10 ± /200 ±5 ±10 * Typical ll data is subject to change. Please check our data sheets at for updates. Small Signal and Medium Power Bipolar Transistors 15-1

80 Small Signal and Medium Power Bipolar Transistors Power Rating NPN Transistors / SOT-323 Collector to Emitter Voltage Max. Collector Current Maximum Saturation Voltage, Collector to Emitter Minimum Gain Bandwidth Product V CEO I C h V CE / I C V CE I C / I B f V CE / I C mw V m Min. Max. V / m V m m MHz V m MMST / BC848W / BC848BW / BC848CW / MMST / MMST / MMST / BC817-16W / BC817-25W / BC817-40W / BC847W / BC847BW / BC847CW / MMST / BC846W / BC846BW / MMST / MMST / MMST / PNP Transistors / SOT-323 MMST / BC858W / BC858BW / BC858CW / MMST / MMST / BC807-16W / BC807-25W / BC807-40W / BC857W / BC857BW / BC857CW / MMST / MMST / BC856W / BC856BW / MMST / MMST / MMST / Dual NPN Transistors / SOT-363 DC Current Gain Discrete Semiconductors MMDT / MMDT / MMDT / MMDT / BC847BS / BC846S / MMDT / Small Signal and Medium Power Bipolar Transistors 15-2 ll data is subject to change. Please check our data sheets at for updates.

81 Discrete Semiconductors Power Rating Collector to Emitter Voltage Max. Collector Current V CEO I C h V CE / I C V CE I C / I B f V CE / I C mw V m Min. Max. V / m V m m MHz V m Dual PNP Transistors / SOT-363 MMDT / MMDT / MMDT / BC857BS / MMDT / BC856S / MMDT / Complementary NPN/PNP Transistors / SOT-363 DC Current Gain Maximum Saturation Voltage, Collector to Emitter Minimum Gain Bandwidth Product MMDT ±25 ± ±1 / ±2 0.3/-0.4 ±50 ±5 300/250 ±20 ±10 MMDT ±40 ± ±1 / ± /-0.25 ±10 ±1 250 ±20 ±10 MMDT ±40 ± /-2 / ±150 ±0.40 ±150 ±15 250/200 ±10 ±20 BC847PN 200 ±45 ± / /475 ±5 / ±2 0.25/-0.3 ±10 ± /200 ±5 ±10 MMDT /-60 ± ±10 / ± /-0.40 ±150 ±15 300/200 ±20 ±20 MMDT ±150 ±200 80/ ±5 / ± /-0.2 ±10 ±1 300 ±10 ±10 NPN Transistors / SOT-23 Small Signal and Medium Power Bipolar Transistors MMBT123S / MMBT / BC / BC848B / BC848C / MMBT / MMBT / MMBT / BC / BC / BC / BC / BC847B / BC847C / DNBT / MMBT / BC / BC846B / MMBT / MMBT / MMBT / DN350T / UHF/VHF NPN Transistors / SOT-23 MMBTH / MMBTH / ll data is subject to change. Please check our data sheets at for updates. Small Signal and Medium Power Bipolar Transistors 15-3

82 Small Signal and Medium Power Bipolar Transistors Power Rating PNP Transistors / SOT-23 Collector to Emitter Voltage Max. Collector Current V CEO I C h V CE / I C V CE I C / I B f V CE / I C mw V m Min. Max. V / m V m m MHz V m MMBT / BC / BC858B / BC858C / MMBT / MMBT / BC / BC / BC / BC / BC857B / BC857C / DPBT / MMBT / MMBT / BC / BC856B / MMBT / MMBT / MMBT / DP350T / Dual NPN Transistors / SOT-26 IMX / * 12 2 MMDT / Dual PNP Transistors / SOT-26 IMT / * Complementary NPN/PNP Transistors / SOT-26 Discrete Semiconductors MMDT2227M /-60 ± ±10 / ± /-0.40 ±150 ±15 300/200 ±20 ±20 Complex Dual NPN/PNP Transistors / SOT-26 LBN150B ±40 ±150 90/70 -/- ±1 / ± /-0.16 ±50 ±5 250 ±20 ±10 Medium Power NPN Transistors / SOT89-3L DC Current Gain Maximum Saturation Voltage, Collector to Emitter Minimum Gain Bandwidth Product DCX / * DXT / * 6 50 DXT / DXT / DD1664R / * DD1766Q / * 5 50 DCX / * 5 50 DCX / * 5 50 DCX / * 5 50 DXT / * Typical Small Signal and Medium Power Bipolar Transistors 15-4 ll data is subject to change. Please check our data sheets at for updates.

83 Discrete Semiconductors Power Rating Collector to Emitter Voltage Max. Collector Current V CEO I C h V CE / I C V CE I C / I B f V CE / I C mw V m Min. Max. V / m V m m MHz V m Medium Power PNP Transistors / SOT89-3L DCX / * DB1386Q / * DXT / DB1132R / * DB1188Q / * DCX / * DXT / DCX / * DCX / * DXT / Medium Power NPN Transistors / SOT-223 Small Signal and Medium Power Bipolar Transistors DCP / * DZT / * 6 50 DZT / DCP / * 5 50 DCP / * 5 50 DCP / * 5 50 DCP / * 5 50 DZT / DZT / * DCP / * 5 50 DCP / * 5 50 DZT / * DZT / Medium Power PNP Transistors / SOT-223 DC Current Gain Maximum Saturation Voltage, Collector to Emitter Minimum Gain Bandwidth Product DCP / * DCP / * DCP / * DCP / * DCP / * DCP / * DZT / DZT591C / DZT / * DCP / * DCP / * DZT / * DZT / * Typical ll data is subject to change. Please check our data sheets at for updates. Small Signal and Medium Power Bipolar Transistors 15-5

84 Small Signal and Medium Power Bipolar Transistors Discrete Semiconductors NPN, PNP Transistor Device Configurations NPN DFN PNP DFN Dual NPN DFN1310H4-6 Dual Complementary DFN1310H4-6 Dual NPN SOT-563, SOT-363, SOT-26 Single SOT-523, SOT-323, SOT-23 Dual PNP SOT-563, SOT-363 Dual Complementary SOT-563, SOT-363, SOT-26 LBN150B01 IMX8 IMT4 NPN SOT89-3L, SOT-223 PNP SOT89-3L, SOT-223 Small Signal and Medium Power Bipolar Transistors 15-6 ll data is subject to change. Please check our data sheets at for updates.

85 Discrete Semiconductors Matched Pair Bipolar Transistors Collector to Emitter Voltage Max. Collector Current DC Current Gain Maximum Saturation Voltage, Collector to Emitter Minimum Gain Bandwidth Product I C h V CE / I C V CE I C / I B f V CE / I C V m Min. Max. V m V m m MHz V m V CEO NPN Matched Pair Bipolar Transistors / SOT-363 DMMT3904W* PNP Matched Pair Bipolar Transistors / SOT-363 DMMT3906W* NPN Matched Pair Bipolar Transistors / SOT-26 DMMT5551* DMMT5551S* PNP Matched Pair Bipolar Transistors / SOT-26 DMMT3906* DMMT5401* Matched Pair Bipolar Transistor Configurations DMMT3904W DMMT3906W DMMT5551 DMMT5551S DMMT3906 DMMT5401 * Built with adjacent die from a single wafer: DC Current Gain, h FE, V CE(ST), V BE(ST) are matched to a 2% maximum tolerance. ll data is subject to change. Please check our data sheets at for updates. Matched Pair Bipolar Transistors 15-7

86 Darlington Transistors Discrete Semiconductors Collector to Emitter Voltage Collector Current DC Current Gain Maximum Saturation Voltage, Collector to Emitter Minimum Gain Bandwidth Product I C h V CE / I C V CE I C / I B f V CE / I C V m Min. Max. V m V m m MHz V m V CEO NPN Darlington Transistors / SOT-323 MMST , MMST , MMST , , PNP Darlington Transistors / SOT-323 MMST , MMST , NPN Darlington Transistors / SOT-23 MMBT , MMBT , MMBT , , MMBT , PNP Darlington Transistors / SOT-23 MMBT , MMBT , Darlington Transistor Device Configurations Darlington SOT-323, SOT-23 Darlington Transistors 15-8 ll data is subject to change. Please check our data sheets at for updates.

87 Discrete Semiconductors NPN, PNP Prebiased Transistors Max. Output Current Collector to Emitter Voltage Saturation Voltage, Collector to Emitter DC Current Transfer Ratio, Transistor Gain Bandwidth Product Transistor I O(MX), I C(MX) V CE, V CEO, V CC V CE (ST), V O(ON) h FE m V Typ. (V) Max. (V) Min. Typ. / Max f T MHz 250 Single 100m Prebiased Transistors Series R 1 = R 2 R 1 R 2 R 1 Only R 2 Only Bias Resistors Suffix R1 R2 DFN SOT-523 SOT-323 SOT-23 SC-59 NPN PNP KΩ KΩ 250mW 150mW 200mW 200mW 200mW DDTC123E( ) DDT123E( ) E U C K DDTC143E( ) DDT143E( ) E U C K DDTC114E( ) DDT114E( ) LP (NPN only) E U C K DDTC124E( ) DDT124E( ) E U C K DDTC144E( ) DDT144E( ) LP (PNP only) E U C K DDTC115E( ) DDT115E( ) E U C K DDTC122L( ) DDT122L( ) E U - - DDTC142J( ) DDT142J( ) E U - - DDTC113Z( ) DDT113Z( ) E U C K DDTC123Y( ) DDT123Y( ) E U C K DDTC123J( ) DDT123J( ) LP (NPN only) E U C K DDTC143X( ) DDT143X( ) E U C K DDTC143F( ) DDT143F( ) E U C K DDTC143Z( ) DDT143Z( ) LP (NPN only) E U C K DDTC114W( ) DDT114W( ) E U C K DDTC114Y( ) DDT114Y( ) LP E U C K DDTC124X( ) DDT124X( ) E U C K DDTC144V( ) DDT144V( ) E U C K DDTC144W( ) DDT144W( ) E U C K DDTC122T( ) DDT122T( ) E U - - DDTC142T( ) DDT142T( ) E U - - DDTC113T( ) DDT113T( ) 1 - LP (NPN only) E U C K DDTC123T( ) DDT123T( ) E U C K DDTC143T( ) DDT143T( ) E U C K DDTC114T( ) DDT114T( ) E U C K DDTC124T( ) DDT124T( ) E U C K DDTC144T( ) DDT144T( ) E U C K DDTC115T( ) DDT115T( ) E U C K DDTC125T( ) DDT125T( ) E U C K DDTC114G( ) DDT114G( ) E U C K DDTC124G( ) DDT124G( ) E U C K DDTC144G( ) DDT144G( ) E U C K DDTC115G( ) DDT115G( ) E U C K ll data is subject to change. Please check our data sheets at for updates. NPN, PNP Prebiased Transistors 16-1

88 NPN, PNP Prebiased Transistors Discrete Semiconductors Max. Output Current Collector to Emitter Voltage Gain Bandwidth Product Transistor I O(MX), I C(MX) V CE, V CEO, V CC V CE (ST), V O(ON) h FE f T m V Typ. (V) Max. (V) Min. Typ. / Max. MHz Single 500m Prebiased Transistors Saturation Voltage, Collector to Emitter Series Bias Resistors R1 R2 SOT-323 NPN PNP KΩ KΩ 200mW DDTD113E( ) DDTB113E( ) 1 1 U R1 = R2 DDTD123E( ) DDTB123E( ) U DDTD143E( ) DDTB143E( ) U DDTD114E( ) DDTB114E( ) U DDTD122J( ) DDTB122J( ) U DDTD122L( ) DDTB122L( ) U R1 R2 DDTD142J( ) DDTB142J( ) U DDTD113Z( ) DDTB113Z( ) 1 10 U DDTD123Y( ) DDTB123Y( ) U DDTD133H( ) DDTB133H( ) U DDTD122T( ) DDTB122T( ) U DDTD142T( ) DDTB142T( ) U R1 Only DDTD123T( ) DDTB123T( ) U DDTD143T( ) DDTB143T( ) U DDTD114T( ) DDTB114T( ) 10 - U R2 Only DDTD114G( ) DDTB114G( ) 0 10 U DC Current Transfer Ratio, Transistor Suffix SOT mW C C C C C C C C C C C C C C C C Max. Output Current Collector to Emitter Voltage Gain Bandwidth Product Transistor I O(MX), I C(MX) V CE, V CEO, V CC V CE (ST), V O(ON) h FE f T m V Typ. (V) Max. (V) Min. Typ. / Max. MHz Dual 100m Prebiased Transistors Saturation Voltage, Collector to Emitter DC Current Transfer Ratio, Transistor Series R1 = R2 R1 R2 R1 Only Bias Resistors Suffix R1 R2 SOT-563 SOT-363 SOT-26 NPN PNP KΩ KΩ 150mW 200mW 300mW DDC143E( ) DD143E( ) H U - DDC114E( ) DD114E( ) H U K (PNP only) DDC124E( ) DD124E( ) H U K (PNP only) DDC144( ) DD144( ) EH EU, NS EK (PNP only) DDC122L( ) DD122L( ) H U - DDC142J( ) DD142J( ) H U - DDC123J( ) DD123J( ) H U K (PNP only) DDC114Y( ) DD114Y( ) H U K (PNP only) DDC122T( ) DD122T( ) H U - DDC142T( ) DD142T( ) H U - DDC143T( ) DD143T( ) H U K (PNP only) DDC114T( ) DD114T( ) 10 - H U K (PNP only) DDC144T( ) U - NPN, PNP Prebiased Transistors 16-2 ll data is subject to change. Please check our data sheets at for updates.

89 Discrete Semiconductors NPN, PNP Prebiased Transistors Max. Output Current Collector to Emitter Voltage Saturation Voltage, Collector to Emitter DC Current Transfer Ratio, Transistor Gain Bandwidth Product Transistor I O(MX), I C(MX) V CE, V CEO, V CC V CE (ST), V O(ON) m V Typ. (V) Max. (V) Min. Typ. / Max h FE f T MHz 250 Dual 100m Complementary Prebiased Transistors Series Complementary NPN/PNP R1 = R2 Complementary NPN/PNP R1 R2 Complementary NPN/PNP R1 Only Bias Resistors Suffix R1(PNP) R2(PNP) R1(NPN) R2(NPN) SOT-563 SOT-363 SC-74R KΩ KΩ KΩ KΩ 150mW 200mW 300mW DCX143E( ) H U - DCX114E( ) H U K DCX124E( ) H U K DCX144E( ) H U K DCX122L( ) H U - DCX142J( ) H U - DCX123J( ) H U K DCX114Y( ) H U K DCX122T( ) H U - DCX142T( ) H U - DCX143T( ) H U K DCX114T( ) H U K NPN/PNP R1(PNP) R2(PNP) = R1(NPN) = R2(NPN) DCX100NS (SOT-563) See Part Number - - NPN/PNP R2(PNP) R1(PNP) = R1(NPN) = R2(NPN) DCX4710H (SOT-563) See Part Number m NPN / 500m PNP Complementary Prebiased Transistors Series Complementary 100m NPN / 500m PNP R1 R2 Bias Resistors R1(PNP) R2(PNP) R1(NPN) R2(NPN) Power (mw) Package KΩ KΩ KΩ KΩ MIMD SOT-363 DIMD SC-74R ll data is subject to change. Please check our data sheets at for updates. NPN, PNP Prebiased Transistors 16-3

90 NPN, PNP Prebiased Transistors Discrete Semiconductors NPN, PNP Prebiased Transistor Configurations (Single, SOT-523, SOT-323, SOT-23, SC-59) NPN, PNP Prebiased Transistor Configurations (Single, DFN1006-3) NPN, PNP Prebiased Transistor Configurations (Dual) NPN, PNP Prebiased Transistors 16-4 ll data is subject to change. Please check our data sheets at for updates.

91 Discrete Semiconductors Drain- Source Voltage Gate- Source Voltage Drain Current Gate Threshold Voltage Zero Gate Voltage- Drain Current Input Capacitance V DSS V GSS I D MX R DS(ON) V GS / I D V GS(TH) MX I DSS C ISS V +/-V m Ω V/ V µ Max. (pf) N-Channel MOSFET / DFN1006H4-3 (0.4mm Profile) DMN2005LP4K / (Typ.) Fig. 1 N-Channel MOSFET / DFN DMN2005LPK / (Typ.) Fig. 1 Dual N-Channel MOSFET DFN1310H4-6 (0.4mm Profile) DMN2005DLP4K / (Typ.) Fig. 2 P-Channel MOSFET / DFN DMP2104LP / (Typ.) Fig. 16 Complementary (N / P Channel) MOSFET / DFN DMC2004LPK 20/ / / /0.54, -4.5/ / / /175 Fig. 17 Dual N-Channel MOSFET / SOT-563 2N7002VC / Fig. 3 2N7002VC / Fig. 4 DMN2004VK / Fig. 5 DMN32D2LV / Fig. 5 DMN5010VK / Fig. 6 DMN5L06VK / Fig. 6 DMN5L06VK / Fig. 5 DMN601VK / Fig. 5 Single P-Channel MOSFET / SOT-563 DMP2104V / Fig. 7 Dual P-Channel MOSFET / SOT-563 BSS84V / Fig. 8 DMP2004VK / Fig. 9 Complementary (N / P Channel) MOSFET / SOT-563 DMC2004VK 20/ / / /0.54, -4.5/ / / /175 Fig. 10 N-Channel MOSFET / SOT-323 2N7002W / Fig. 11 BSS123W / Fig. 11 BSS138W / Fig. 11 DMN2004WK / Fig. 12 DMN5L06WK / Fig. 12 DMN601WK / Fig. 12 P-Channel MOSFET / SOT-323 Static Drain- Source On Resistance MOSFETs Pin-out Config. BSS84W / Fig. 13 DMP2004WK / Fig. 14 ll data is subject to change. Please check our data sheets at for updates. MOSFETs 17-1

92 MOSFETs Drain- Source Voltage Gate- Source Voltage Dual N-Channel MOSFET / SOT-363 Drain Current Gate Threshold Voltage Zero Gate Voltage- Drain Current Input Capacitance V DSS V GSS I D MX R DS(ON) V GS / I D V GS(TH) MX I DSS C ISS V +/-V m Ω V/ V µ Max. (pf) 2N7002DW / Fig. 4 BSS138DW / Fig. 4 DMN2004DWK / Fig. 5 DMN5L06DWK / Fig. 5 DMN601DWK / Fig. 5 Complementary (N / P Channel) MOSFET / SOT-363 BSS8402DW 60/ / / 10 5/0.05, -5/ / /-15 50/45 Fig. 15 DMC2004DWK 20/ / / /0.54, -4.5/ / / /175 Fig. 10 Dual P-Channel MOSFET / SOT-363 DMP2004DWK / Fig. 9 BSS84DW Fig. 8 N-Channel MOSFET / SOT-23 Discrete Semiconductors 2N / Fig. 11 2N7002E / Fig. 11 2N7002K / Fig. 12 BS / Fig. 11 BSS / Fig. 11 BSS / Fig. 11 DMN2004K / Fig. 12 DMN2005K / (Typ) Fig. 12 DMN3150L / (Typ.) Fig. 11 DMN5L06K / Fig. 12 DMN601K / Fig. 12 MMBF / Fig. 11 P-Channel MOSFET / SOT-23 BSS / Fig. 13 DMP2004K / Fig. 14 DMP2215L / (Typ.) Fig. 13 Dual N-Channel MOSFET / SOT-26 DMN2004DMK / Fig. 5 DMN5L06DMK / Fig. 5 DMN601DMK / Fig. 5 P-Channel MOSFET / SOT-26 DMP2130LDM / (Typ.) Fig. 7 Dual P-Channel MOSFET / SOT-26 Static Drain- Source On Resistance Pin-out Config. DMP2004DMK / Fig. 9 DMP2240UDM / (Typ.) Fig. 18 MOSFETs 17-2 ll data is subject to change. Please check our data sheets at for updates.

93 Discrete Semiconductors Drain- Source Voltage N-Channel MOSFET / SC-59 Gate- Source Voltage Drain Current Gate Threshold Voltage Zero Gate Voltage- Drain Current Input Capacitance V DSS V GSS I D MX R DS(ON) V GS / I D V GS(TH) MX I DSS C ISS V +/-V m Ω V/ V µ Max. (pf) DMN / (Typ.) Fig. 12 DMN2112SN / (Typ.) Fig. 12 DMN2114SN / (Typ.) Fig. 12 DMN3033LSN / (Typ.) Fig. 12 P-Channel MOSFET / SC-59 Static Drain- Source On Resistance DMP2012SN / (Typ.) Fig. 14 DMP3030SN / (Typ.) Fig. 14 MOSFET Configurations MOSFETs Pin-out Config. Figure 1 Single N-Channel with ESD Protected Gate DFN1006H4-3, DFN Figure 2 Dual N-Channel with ESD Protected Gate DFN1310H4-6 Figure 3 Dual N-Channel SOT-563 Figure 4 Dual N-Channel SOT-363, SOT-563 Figure 5 Dual N-Channel with ESD Protected Gate SOT-563, SOT-26, SOT-363 Figure 6 Dual N-Channel with ESD Protected Gate lternate Pin-out Config. SOT-563 Figure 7 Single P-Channel SOT-563, SOT-26 Figure 8 Dual P-Channel SOT-563, SOT-363 Figure 9 Dual P-Channel with ESD Protected Gate SOT-563, SOT-26, SOT-363 ll data is subject to change. Please check our data sheets at for updates. MOSFETs 17-3

94 MOSFETs Discrete Semiconductors MOSFET Configurations Figure 10 Dual Complementary (N/P-Channel) with ESD Protected Gate SOT-563, SOT-363 Figure 11 Single N-Channel SOT-523, SOT-323, SOT-23, SC-59 Figure 12 Single N-Channel with ESD Protected Gate SOT-523, SOT-323, SOT-23, SC-59 Figure 13 Single P-Channel SOT-323, SOT-23, SC-59 Figure 14 Single P-Channel with ESD Protection SOT-23, SOT-323, SC-59 Figure 15 Dual Complementary (N/P-Channel) SOT-363 Figure 16 Single P-Channel DFN Figure 17 Dual Complementary (N/P-Channel) with ESD Protected Gate DFN Figure 18 Dual P-Channel SOT-26 MOSFETs 17-4 ll data is subject to change. Please check our data sheets at for updates.

95 Discrete Semiconductors Complex rrays Part Number Description Device Schematic Maximum Collector Current I C - Transistor (m) Maximum Collector to Base Voltage V CBO - Transistor (V) Maximum Drain to Source Voltage V DSS - MOSFET (V) Bias Resistors R1 - PBT (Ω) R2 - PBT (Ω) R3 - Pull Down (Ω) Discrete - Load Switches / SOT-363 CT2N1P NPN Transistor + P-Channel MOSFET N/ N/ N/ LMN200B02 Pre-Biased PNP Transistor + N-Channel MOSFET with Pull Down Resistor K K LMN400E01 Pre-Biased PNP Transistor + N-Channel MOSFET with Gate ESD Protection K 220 N/ CT2P1N PNP Transistor + N-Channel MOSFET N/ N/ N/ Discrete - Load Switches / SOT-26 LMN200B01 Pre-Biased PNP Transistor + N-Channel MOSFET with Pull Down Resistor K K LMN400B01 Pre-Biased PNP Transistor + N-Channel MOSFET with Pull Down Resistor K K ll data is subject to change. Please check our data sheets at for updates. Complex rrays 18-1

96 Complex rrays Discrete Semiconductors Configuration Device Schematic Maximum Drain Current I D - MOSFET (m) Maximum Drain to Source Voltage V DSS - MOSFET (V) Static Drain- Source On Resistance R DS(ON) - MOSFET R DS (ON) V DS (V) / I D (m) Peak Repetitive Reverse Voltage V RRM - Schottky Diode (V) Maximum Forward Voltage Drop V F - Schottky V I F (V) I F (m) MOSFET and Schottky rrays / DFN2020B-6 DMS2700UFDB N-Channel MOSFET with Gate ESD Protection + Schottky Barrier Diode / MOSFET and Schottky rrays / SOT-363 NMSD200B01 N-Channel MOSFET with Gate ESD Protection + Schottky Barrier Diode / Description Device Schematic Collector to Emitter Voltage V CEO Collector Current I C Minimum DC Current Gain h V CE / I C NPN PNP NPN PNP NPN PNP V CE / I C V CE / I C V V m m V / m V / m h FE h FE Discrete - Half H-Bridge Motor Driver / SOT-363 HBDM60V600W NPN Transistor + PNP Transistor / / -150 Complex rrays 18-2 ll data is subject to change. Please check our data sheets at for updates.

97 Discrete Semiconductors Description Device Schematic Complex rrays Transistor / PBT Section Switching Diode Maximum Peak Maximum Maximum Collector Bias Repetitive verage Collector to Emitter Resistors Reverse Rectifier Current Voltage Voltage Current V CEO / V CC I C R 1 / R 2 V RRM I O V m Ω V m Relay Drivers / SOT-363 DRDP006W PNP Transistor / Switching Diode-Relay Driver DRDPB16W 1K/10K PNP Pre-biased Transistor R1-R2 / Switching Diode- Relay Driver DRDPB26W 220/4.7K DRDN010W NPN Transistor / Switching Diode-Relay Driver DRDN005W DRDNB16W 1K/10K NPN Pre-biased Transistor R1-R2 / Switching Diode- Relay Driver DRDNB26W 220/4.7K DRDNB21D NPN Pre-biased Transistor R1-R2 / Switching Diode-Dual Relay Driver K/47K ll data is subject to change. Please check our data sheets at for updates. Complex rrays 18-3

98 Complex rrays Description Device Schematic Vo (nom) (V) Discrete Semiconductors Output Current Io (m) Typical Vreg(load) from Io = 100m to 0m (V) Typical Io = 0m (m) Discrete - Voltage Regulators / SOT-363 DVR1V8W DVR2V5W DVR3V3W DVR5V0W NPN Transistor / Zener Diode- Voltage Regulator NPN Transistor / Zener Diode- Voltage Regulator NPN Transistor / Zener Diode- Voltage Regulator NPN Transistor / Zener Diode- Voltage Regulator Complex rrays 18-4 ll data is subject to change. Please check our data sheets at for updates.

99 Discrete Semiconductors Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 1.0 Super-Fast Recovery Glass Passivated Rectifiers / PowerDI 123 DFLU * DFLU * Super-Fast Recovery Glass Passivated Rectifiers / SM ES ES1B ES1C ES1D ES1G Super-Fast Recovery Glass Passivated Rectifiers / SMB MURS MURS MURS Super-Fast Recovery Glass Passivated Rectifiers / DO-41 SF10G SF10BG SF10CG MUR SF10DG SF10FG MUR SF10GG SF10HG MUR SF10JG Ultra-Fast Recovery Glass Passivated Rectifiers / SM US US1B US1D US1G US1J US1K US1M Ultra-Fast Recovery Rectifiers / DO-41 UF UF UF UF UF UF UF * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-1

100 Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 1.0 Ultra-Fast Recovery Glass Passivated Rectifiers / DO-41 UG UG UG UG UG Fast Recovery Glass Passivated Rectifiers / SM RS RS1B RS1D RS1G RS1J RS1K RS1M Fast Recovery Glass Passivated Rectifiers / SMB RS1B RS1BB RS1DB RS1GB RS1JB RS1KB RS1MB Fast Recovery Rectifiers / N4933L PR1001L N4934L PR1002L N4935L PR1003L N4936L PR1004L N4937L PR1005L ( ) Reference product data sheet for specific test conditions. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-2 ll data is subject to change. Please check our data sheets at for updates.

101 Discrete Semiconductors Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 1.0 Fast Recovery Glass Passivated Rectifiers / N4933GL PR1001GL N4934GL PR1002GL N4935GL PR1003GL N4936GL PR1004GL N4937GL PR1005GL PR1006GL PR1007GL Fast Recovery Rectifiers / DO-41 1N PR N PR N PR N PR N PR Fast Recovery Glass Passivated Rectifiers / DO-41 1N4933G PR1001G N4934G PR1002G N4935G PR1003G N4936G PR1004G N4937G PR1005G PR1006G PR1007G Ultra-Fast Recovery Rectifiers / DO-41 UF1501S UF1502S UF1503S UF1504S UF1505S UF1506S UF1507S ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-3

102 Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 1.5 Ultra-Fast Recovery Rectifiers / DO-15 UF UF UF UF UF UF UF Fast Recovery Glass Passivated Rectifiers / SM RS RS2B RS2D RS2G RS2J RS2K RS2M Fast Recovery Glass Passivated Rectifiers / SMB RS RS2B RS2D RS2G RS2J RS2K RS2M Fast Recovery Rectifiers / DO-41 PR1501S PR1502S PR1503S PR1504S PR1505S Fast Recovery Glass Passivated Rectifiers / DO-41 PR1501GS PR1502GS PR1503GS PR1504GS PR1505GS PR1506GS PR1507GS Fast Recovery Rectifiers / DO-15 PR PR PR PR PR ( ) Reference product data sheet for specific test conditions. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-4 ll data is subject to change. Please check our data sheets at for updates.

103 Discrete Semiconductors Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 1.5 Fast Recovery Glass Passivated Rectifiers / DO-15 PR1501G PR1502G PR1503G PR1504G PR1505G PR1506G PR1507G Super-Fast Recovery Glass Passivated Rectifiers / SM ES ES2B ES2C ES2D Super-Fast Recovery Glass Passivated Rectifiers / SMB ES ES2B ES2C ES2D ES2G Super-Fast Recovery Glass Passivated Rectifiers / DO-15 SF20G SF20BG SF20CG SF20DG SF20FG SF20GG SF20HG SF20JG Ultra-Fast Recovery Rectifiers / DO-15 UF UF UF UF UF UF UF Ultra-Fast Recovery Glass Passivated Rectifiers / DO-15 UG UG UG UG UG ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-5

104 Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) 2.0 Fast Recovery Rectifiers / DO-15 V RRM I T T I FSM V I F I V R t rr V o C V µ V ns PR PR PR PR PR Fast Recovery Glass Passivated Rectifiers / DO-15 PR2001G PR2002G PR2003G PR2004G PR2005G PR2006G PR2007G Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI 5 PDU * Super-Fast Recovery Glass Passivated Rectifiers / SMB ES3B ES3BB ES3CB ES3DB Super-Fast Recovery Glass Passivated Rectifiers / SMC ES ES3B ES3C ES3D MURS Super-Fast Recovery Glass Passivated Rectifiers / DO-201D SF30G SF30BG SF30CG SF30DG SF30FG SF30GG SF30HG SF30JG * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-6 ll data is subject to change. Please check our data sheets at for updates.

105 Discrete Semiconductors Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 3.0 Ultra-Fast Recovery Rectifiers / DO-201D UF UF UF UF UF UF UF Ultra-Fast Recovery Glass Passivated Rectifiers / DO-201D UG UG UG UG UG Fast Recovery Glass Passivated Rectifiers / SMB RS3B RS3BB RS3DB RS3GB RS3JB RS3KB RS3MB Fast Recovery Glass Passivated Rectifiers / SMC RS RS3B RS3D RS3G RS3J RS3K RS3M Fast Recovery Rectifiers / DO-201D PR PR PR PR PR Fast Recovery Glass Passivated Rectifiers / DO-201D PR3001G PR3002G PR3003G PR3004G PR3005G PR3006G PR3007G ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-7

106 Super-Fast / Ultra-Fast / Fast Recovery Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) Maximum Reverse Recovery Time ( ) V RRM I T T I FSM V I F I V R t rr V o C V µ V ns 4.0 Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI 5 PDU * Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI 5 PDU * Ultra-Fast Recovery Glass Passivated Rectifiers / PowerDI 5 PDU * Ultra-Fast Recovery Glass Passivated Rectifiers (Dual) / PowerDI 5 PDU620CT * Fast Recovery Glass Passivated Rectifiers / R-6 PR PR PR PR PR Super-Fast Recovery Glass Passivated Rectifiers (Dual) / D 2 PK MURB1610CT MURB1620CT * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. Super-Fast / Ultra-Fast / Fast Recovery Rectifiers 19-8 ll data is subject to change. Please check our data sheets at for updates.

107 Discrete Semiconductors Standard Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T T I FSM V I F I V R o C V µ V 1.0 Standard Recovery Glass Passivated Rectifiers / PowerDI 123 DFLR * DFLR * DFLR * Standard Recovery Glass Passivated Rectifiers / SM S S1B S1D S1G S1J S1K S1M Standard Recovery Glass Passivated Rectifiers / SMB S1B S1BB S1DB S1GB S1JB S1KB S1MB Standard Recovery Rectifiers / N4001L N4002L N4003L N4004L N4005L N4006L N4007L Standard Recovery Glass Passivated Rectifiers / N4001GL N4002GL N4003GL N4004GL N4005GL N4006GL N4007GL * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Standard Recovery Rectifiers 20-1

108 Standard Recovery Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T T I FSM V I F I V R o C V µ V 1.0 Standard Recovery Rectifiers / DO-41 1N N N N N N N Standard Recovery Glass Passivated Rectifiers / DO-41 1N4001G N4002G N4003G N4004G N4005G N4006G N4007G Standard Recovery Glass Passivated Rectifiers / T-1 D1G D2G D3G D4G D5G D6G D7G Standard Recovery Glass Passivated Rectifiers / SM S S2B S2D S2G S2J S2K S2M Standard Recovery Glass Passivated Rectifiers / SMB S S2B S2D S2G S2J S2K S2M * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. Standard Recovery Rectifiers 20-2 ll data is subject to change. Please check our data sheets at for updates.

109 Discrete Semiconductors Standard Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T T I FSM V I F I V R o C V µ V 1.5 Standard Recovery Rectifiers / DO-41 1N5391S N5392S N5393S N5395S N5397S N5398S N5399S Standard Recovery Rectifiers / DO-15 1N N N N N N N Standard Recovery Glass Passivated Rectifiers / DO-15 1N5391G N5392G N5393G N5395G N5397G N5398G N5399G Standard Recovery Rectifiers / DO Standard Recovery Glass Passivated Rectifiers / DO G G G G G G G * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Standard Recovery Rectifiers 20-3

110 Standard Recovery Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T T I FSM V I F I V R o C V µ V 3.0 Standard Recovery Glass Passivated Rectifiers / PowerDI 5 PDR3G * Standard Recovery Glass Passivated Rectifiers / SMB S3B S3BB S3DB S3GB S3JB S3KB S3MB Standard Recovery Glass Passivated Rectifiers / SMC S S3B S3D S3G S3J S3K S3M Standard Recovery Rectifiers / DO-201D 1N N N N N N N Standard Recovery Glass Passivated Rectifiers / DO-201D 1N5400G N5401G N5402G N5404G N5406G N5407G N5408G Standard Recovery Glass Passivated Rectifiers / PowerDI 5 PDR5G * * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. Standard Recovery Rectifiers 20-4 ll data is subject to change. Please check our data sheets at for updates.

111 Discrete Semiconductors Standard Recovery Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T T I FSM V I F I V R o C V µ V 5.0 Standard Recovery Glass Passivated Rectifiers / SMC S5C S5BC S5DC S5GC S5JC S5KC S5MC Standard Recovery Rectifiers / R Standard Recovery Glass Passivated Rectifiers / SMC S8KC S8MC Standard Recovery Rectifiers / R * T, mbient Temperature ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Standard Recovery Rectifiers 20-5

112 Discrete Semiconductors Bridge Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T I FSM V I F I V R o C V µ V Switching Diode rrays / SOT-26** MMBD3004BRM Schottky Barrier Diode rrays / SOT-26** SD103SDM * Fast Recovery Glass Passivated Bridge Rectifiers / MiniDIP RH RH RH Glass Passivated Bridge Rectifiers / MiniDIP HD HD HD HD Glass Passivated Bridge Rectifiers / DF-S DF005S DF01S DF02S DF04S DF06S DF08S DF10S Glass Passivated Bridge Rectifiers / DF-M DF005M DF01M DF02M DF04M DF06M DF08M DF10M Glass Passivated Bridge Rectifiers / DF-S DF15005S DF1501S DF1502S DF1504S DF1506S DF1508S DF1510S * Forward Continuous Current, I FM ** Can be used in a bridge configuration when PC board is laid out appropriately. ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Bridge Rectifiers 21-1

113 Bridge Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T I FSM V I F I V R o C V µ V 1.5 Glass Passivated Bridge Rectifiers / DF-M DF15005M DF1501M DF1502M DF1504M DF1506M DF1508M DF1510M Glass Passivated Bridge Rectifiers / WOG W005G W01G W02G W04G W06G W08G W10G Glass Passivated Bridge Rectifiers / KBP KBP005G * KBP01G * KBP02G * KBP04G * KBP06G * KBP08G * KBP10G * Glass Passivated Bridge Rectifiers / WOG 2W005G W01G W02G W04G W06G W08G W10G Glass Passivated Bridge Rectifiers / KBP KBP2005G * KBP201G * KBP202G * KBP204G * KBP206G * KBP208G * KBP210G * * TC, Case Temperature ( ) Reference product data sheet for specific test conditions. Bridge Rectifiers 21-2 ll data is subject to change. Please check our data sheets at for updates.

114 Discrete Semiconductors Bridge Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T I FSM V I F I V R o C V µ V 4.0 Glass Passivated Bridge Rectifiers / GBU GBU GBU GBU GBU GBU GBU GBU Glass Passivated Bridge Rectifiers / KBJ KBJ4005G KBJ401G KBJ402G KBJ404G KBJ406G KBJ408G KBJ410G Glass Passivated Bridge Rectifiers / GBJ GBJ GBJ GBJ GBJ GBJ GBJ GBJ Glass Passivated Bridge Rectifiers / GBU GBU GBU GBU GBU GBU GBU GBU ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Bridge Rectifiers 21-3

115 Bridge Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T I FSM V I F I V R o C V µ V 6.0 Glass Passivated Bridge Rectifiers / KBJ KBJ6005G KBJ601G KBJ602G KBJ604G KBJ606G KBJ608G KBJ610G Glass Passivated Bridge Rectifiers / GBJ GBJ GBJ GBJ GBJ GBJ GBJ GBJ Glass Passivated Bridge Rectifiers / GBU GBU GBU GBU GBU GBU GBU GBU Glass Passivated Bridge Rectifiers / GBJ GBJ GBJ GBJ GBJ GBJ GBJ GBJ Glass Passivated Bridge Rectifiers / GBU GBU GBU GBU GBU GBU GBU GBU ( ) Reference product data sheet for specific test conditions. Bridge Rectifiers 21-4 ll data is subject to change. Please check our data sheets at for updates.

116 Discrete Semiconductors Bridge Rectifiers Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T I FSM V I F I V R o C V µ V 15.0 Glass Passivated Bridge Rectifiers / GBJ GBJ GBJ GBJ GBJ GBJ GBJ GBJ Glass Passivated Bridge Rectifiers / GBPC GBPC GBPC GBPC GBPC GBPC GBPC GBPC Glass Passivated Bridge Rectifiers / GBPC-W GBPC15005W GBPC1501W GBPC1502W GBPC1504W GBPC1506W GBPC1508W GBPC1510W Glass Passivated Bridge Rectifiers / GBJ GBJ GBJ GBJ GBJ GBJ GBJ GBJ Glass Passivated Bridge Rectifiers / GBJ GBJ GBJ GBJ GBJ GBJ GBJ GBJ ( ) Reference product data sheet for specific test conditions. ll data is subject to change. Please check our data sheets at for updates. Bridge Rectifiers 21-5

117 Bridge Rectifiers Discrete Semiconductors Peak Repetitive Reverse Voltage Max. verage Rectified Current ( ) Peak Forward Surge Current ( ) Max. Forward Voltage Drop Max. Reverse Current ( ) V RRM V I T I FSM V I F I V R o C V µ V 25.0 Glass Passivated Bridge Rectifiers / GBPC GBPC GBPC GBPC GBPC GBPC GBPC GBPC Glass Passivated Bridge Rectifiers / GBPC-W GBPC25005W GBPC2501W GBPC2502W GBPC2504W GBPC2506W GBPC2508W GBPC2510W Glass Passivated Bridge Rectifiers / GBPC GBPC GBPC GBPC GBPC GBPC GBPC GBPC Glass Passivated Bridge Rectifiers / GBPC-W GBPC35005W GBPC3501W GBPC3502W GBPC3504W GBPC3506W GBPC3508W GBPC3510W ( ) Reference product data sheet for specific test conditions. Bridge Rectifiers 21-6 ll data is subject to change. Please check our data sheets at for updates.

118 Product Packaging Information Product Packaging Information PCKGE OUTLINE DIMENSIONS ll Dimensions in mm Surface Mount Packages DFN / DFN1006H4-2 DFN DFN1006H4-2 G H Dim Min Max Typ Min Max Typ B C R D B C G H D N N R ll Dimensions in mm DFN / DFN1006H4-3 DFN DFN1006H4-3 Dim Min Max Typ Min Max Typ G B H C D B C K M G H K D N L L M N ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 1

119 Product Packaging Information DFN DFN Dim Min Max Typ G B H C D E 0.25 B C F D M K E F G H K L M 0.55 N L N 0.20 ll Dimensions in mm DFN / DFN1310H4-6 G B H R0.150 D 3 Z E K * Dimensions D, K, N Repeat 4x ** Dimensions E, L 1, L 2, M, Z Repeat 2x N L 1 M Z L 2 N C DFN DFN1310H4-6 Dim Min Max Typ Min Max Typ B C D* E** G H K* L 1 ** L 2 ** M** N* Z** ll Dimensions in mm ppendix 2 ll data is subject to change. Please check our datasheets at for updates.

120 Product Packaging Information DFN DFN G H N B D L C Bottom View K M DFN Dim Min Max Typ B C D G H K 0.13 L M N 0.50 ll Dimensions in mm 1 E2 E D e e b Bottom View 3 L D2 DFN Dim Min Max Typ D E D E b L e 0.40 ll Dimensions in mm DFN Side View 3 SETING PLNE DFN Dim Min Max Typ Pin#1 ID D D2 L b D D E E2 e 0.50 E c b Bottom View L E L ll Dimensions in mm DFN SETING PLNE DFN Dim Min Max Typ Pin#1 ID D D2 D2/ b D D E E2 e 0.65 E L E e b L ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 3

121 Product Packaging Information DFN2020B SETING PLNE DFN2020B-6 Dim Min Max Typ Pin#1 ID D D b D E E2 D e 0.65 E e b L E L ll Dimensions in mm DFN SIDE VIEW 3 SETING PLNE DFN Dim Min Max Typ e b R b D E E2 D e 0.65 D2 D L SIDE VIEW E E L ll Dimensions in mm BOTTOM VIEW DFN SETING PLNE DFN Dim Min Max Typ Pin#1 ID D D b D E E2 D e 0.50 z b e BOTTOM VIEW L E E L z ll Dimensions in mm ppendix 4 ll data is subject to change. Please check our datasheets at for updates.

122 Product Packaging Information DFN SETING PLNE DFN Dim Min Max Typ Pin#1 ID D D b D D E E2 e 0.45 E E L L e b BOTTOM VIEW SIDE VIEW ll Dimensions in mm DF-S / MiniDIP Dim DF-S MiniDIP Min Max Min Max L G B C B D E D E H C G H J J K K L ll Dimensions in mm MiniMELF / MELF MiniMELF MELF Dim Min Max Min Max B B C Nominal C ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 5

123 Product Packaging Information MSOP-10L Dim MSOP-10L Min Typ Max D E E1 GUGE PLNE a L DETIL a b D DETIL e 0.50 e E1 E E b C L ll Dimensions in mm MSOP-8L D Dim MSOP-8L Min Typ Max a E E3 SEE DETIL C b D e D b 2 1 GUGE PLNE a L DETIL C e 0.65 E E L ll Dimensions in mm PowerDI 123 PowerDI 323 C D E L L4 B L1 L2 L3 E H PowerDI 123 Dim Min Max Typ B C D E H L L L L L ll Dimensions in mm C E D B L E2 L1 L4 L3 L H E1 PowerDI 323 Dim Min Max Typ B C D E E E H L L L L ll Dimensions in mm ppendix 6 ll data is subject to change. Please check our datasheets at for updates.

124 Product Packaging Information PowerDI 5 L1 D b2 2 PowerDI 5 Dim Min Max E E b L1 b1 e D D2 b2 b1 L 2 b D D NOM E e 1.84 NOM E E NOM W b1 e E2 E L1 b1 L L W ll Dimensions in mm SM, SMB, SMC B SM SMB SMC Dim Min Max Min Max Min Max C B C D J H G E D E G H J ll Dimensions in mm SOD-323 / SOD-123 B SOD-323 SOD-123 Dim Min Max Min Max C E B C D 1.05 Typ H G D J E G H Typ. J 0.05 Typ ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 7

125 Product Packaging Information SOD-523 SOD-523 Dim Min Max B B C D C D G E E G ll Dimensions in mm SOP-14L Dim Min SOP-14L Max B P F GUGE PLNE B C DETIL F G 1.27 Typ. 7 (4x) K C K M 0 7 P G DETIL 0 ll Dimensions in mm M SOP-16L Dim Min SOP-16L Max E H L GUGE PLNE B DETIL C D D 2 E e 1.27 Typ. H B e 1 C DETIL L ll Dimensions in mm ppendix 8 ll data is subject to change. Please check our datasheets at for updates.

126 Product Packaging Information SOP-8L Dim Min SOP-8L Max E1 E h L1 DETIL L GUGE PLNE SETING PLNE D E E e Typ. 2 DETIL h L e D b 1 L Ref. 0 8 ll Dimensions in mm SOT-143 SOT-143 Dim Min Max G H B C D TOP VIEW B S E G 1.92 Typ. E D C J H 1.72 Typ. J K L K M L M S ll Dimensions in mm SOT-223 D b1 Q C SOT-223 Dim Min Max Typ b E E1 b C e1 e 7 b L D E E e 4.60 e L Q ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 9

127 Product Packaging Information SOT-363 / SOT-353 / SOT-26 / SOT-25 Dim SOT-363 / 353 SOT-26 / SC-74R / SOT-25 Min Max Min Max Typ B TOP VIEW B C C D 0.65 NOM 0.95 F K H M H J K J D This pin is omitted for SOT-353/SOT-25 F L L M ll Dimensions in mm SOT-523 / SOT-323 / SOT-23 / SC-59 SOT-523 SOT-323 SOT-23 SC-59 Dim Min Max Typ Min Max Min Max Min Max B TOP VIEW B C C D NOM K J G H D E N L M E G H J K L M N ll Dimensions in mm SOT-553 / 563 SOT-553 / 563 Dim Min Max Typ B B C C D 0.50 N (SOT-553 only) D G G H K K H L M L M N 0.1 ll Dimensions in mm ppendix 10 ll data is subject to change. Please check our datasheets at for updates.

128 Product Packaging Information SOT89-3L D1 Dim Min SOT89-3L Max E HE b b C L D D e1 e e e E D HE L ll Dimensions in mm C b b1 SOT89-5L K L J Dim Min SOT89-5L Max G e B D e E F 0.80 E B G 3.00 Ref. I J F K I D1 L 5 Typ. ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 11

129 Product Packaging Information TO252-3L / DPK E b2 L2 TO252-3L / DPK Dim Min Max b 0.61 Typ. D b C C D E b e1 e L1 1 H e 2.28 Typ. e Typ. H L 0.51 L C L SETING PLNE C1 L ll Dimensions in mm TO252-5L B Dim Min TO252-5L Max B M C C D P 1.27 Ref. S D G H S P( TYP.) G K H J K L M L SETING PLNE J ll Dimensions in mm ppendix 12 ll data is subject to change. Please check our datasheets at for updates.

130 Product Packaging Information E L2 TO263-3L / D 2 PK TO263-3L / D 2 PK Dim Min Max D L b b L3 c 0.38 Typ. D e b b1 c E e 2.54 Typ. L L L L L1 1 ll Dimensions in mm TO263-5L E L2 1 Dim Min TO263-5L Max D L b C D E e b C L1 e L L L ll Dimensions in mm TSSOP-14L Dim TSSOP-14L Min Max B L F1 a GUGE PLNE SETING PLNE a1 7 (4X) a B F DETIL C 1.2 D G K F 1.00 Ref. F a1 D C DETIL G 0.65 Ref. K L 6.40 Ref. ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 13

131 Product Packaging Information xial / Through-Hole Packages B D C Dim B C D Min Max Min Max Min Max Min Max DO DO-41 Plastic DO-41 Glass DO DO DO-201D R T ll Dimensions in mm DF-M C Dim Min DF-M Max B E B C D J H D E G H L K G J K L ll Dimensions in mm ppendix 14 ll data is subject to change. Please check our datasheets at for updates.

132 Product Packaging Information GBJ GBJ Dim Min Max L B K M C D _ B S N E G J H I D C P R H I J K 3.0 X 45 L G E E M N P R S ll Dimensions in mm GBPC GBPC-W E B J (C) (-) H C (+) (C) C H GBPC Dim Min Max B C E G H Hole for #10 screw J K M N P (C) H P (+) L K H G L M 26.4 (-) (C) N P ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 15

133 Not Through Holes Product Packaging Information GBU ITO-220B ITO-220B L J B K - ~ ~ + H F G D C E P M N GBU Dim Min Max B C D E F G H J K 3.2 X 45 L M N P ll Dimensions in mm L1 Q b1 E + PIN b2 L2 c b e PIN 1 PIN 3 F D 1 J1 L PIN 2 Dim Min Max b b b c D E e 2.54 typ F J L L L P 3.50 typ Q 2.70 typ ll Dimensions in mm KBJ KBP KBJ KBP Dim Min Max Dim Min Max H C E K G _ J B D L P N M R B C 4.00 NOM D E G H J K L M N P R ll Dimensions in mm J H G + _ E B C D K L M N P B C 2.29 Typical D E G H X 45 J Chamfer K L M N 3 Nominal 2 Nominal P ll Dimensions in mm ppendix 16 ll data is subject to change. Please check our datasheets at for updates.

134 Product Packaging Information MB MB / MB-W Dim Min Max MB-W B E B H C E G H Hole for #10 screw M N H L J (C) (-) C G (+) (C) C H J K L 0.97 NOM 1.07 M N P ll Dimensions in mm P (C) (-) P (+) (C) K H PBL - + PBL B Dim Min Max B H C C D E G D G H 1.30 Typ. ll Dimensions in mm E ll data is subject to change. Please check our datasheets at for updates. ppendix 17

135 Product Packaging Information PBPC-3 PBPC-8 G E D + C H C - E C B PBPC-3 Dim Min Max B C D 1.0 Typ. E G Hole for #6 screw H ll Dimensions in mm J G E D + C H C - E C B PBPC-8 Dim Min Max B C D 1.27 Typ. E G H Typ. J 2.38 X 45 Typ. ll Dimensions in mm PBU PBU Dim Min Max B C D M B C D E K L - ~ ~ + E G H J J N K L H G P M N P ll Dimensions in mm ppendix 18 ll data is subject to change. Please check our datasheets at for updates.

136 Product Packaging Information PDIP-8L Dim Min PDIP-8L Max B B C D L F G 2.54 BSC G H J C K L 7.62 BSC M 10 K N J N ll Dimensions in mm H D F M SIP-3L for mmo Pack only Dim SIP-3L for mmo Pack only Min Max E F D N C a1 45 NOM a2 3 NOM B G a1 a2 C D E F G B P N P 1.55 Min. ll Dimensions in mm ll data is subject to change. Please check our datasheets at for updates. ppendix 19

137 Product Packaging Information SIP-3L for Bulk Pack Dim SIP-3L for Bulk Pack Min Max a1 5 NOM a1 L J a2 a3 a4 5 NOM 45 NOM 3 NOM a2 B P D N C B C D E a3 F G E F G H a4 H J L N P 1.55 Min. ll Dimensions in mm SIP-4L Dim Min SIP-4L Max a1 C K E B C D a2 H D L I E F H I B J F J K L a1 3 5 a2 5 7 ll Dimensions in mm ppendix 20 ll data is subject to change. Please check our datasheets at for updates.

138 Product Packaging Information SIP-5L Dim Min SIP-5L Max a1 C K E B C a2 H D I L D E F B J F H I J K L a1 3 5 a2 5 7 ll Dimensions in mm TO220-3L D Q E P D1 F SETING PLNE TO220-3L Dim Min Max b b C D D E L1 e b1 e F L J L L e b C J1 P Q ll Dimensions in mm e1 ll data is subject to change. Please check our datasheets at for updates. ppendix 21

139 Product Packaging Information TO220-5L E P F D Q D1 SETING PLNE TO220-5L Dim Min Max b b C D b1 L1 D E e L e F J e e1 b C J1 L L P Q ll Dimensions in mm TO-220B Dim TO-220B TO-220C Min Max Min Max TO-220C K C B D L M B C D E G K C B D L M J E N G H J K L M J Pin 1 Pin 2 E N G H H P N P R P R ll Dimensions in mm ppendix 22 ll data is subject to change. Please check our datasheets at for updates.

140 Product Packaging Information TO-3P / TO-247 TO-3P / TO-247 Dim Min Max H B B C D S J K C E G H P Q L J K N G D L M N M M E P Q S 4.4 Typ. ll Dimensions in mm TO92-3L Dim Min TO92-3L Max E b1 L b b b D e D E L e ll Dimensions in mm WOG B C + - E D WOG Dim Min Max B C D G E G ll Dimensions in mm G ll data is subject to change. Please check our datasheets at for updates. ppendix 23

141 Product Packaging Information SUGGESTED PD LYOUT Based on IPC-7351 Figure 1 Dimensions DFN / DFN1006H4-2 MiniMELF MELF SOD-323 SOD-123 SOD-523 SM SMB SMC Z G X Y C C X Y G Z Fig. 1 Figure 2 Dimensions DFN / DFN1006H4-3 Z 1.1 G1 0.3 G2 0.2 X 0.7 X Y 0.4 C 0.7 C Figure 3 Dimensions DFN Z 1.38 G G X 0.95 X X Y 0.75 C 0.76 X 1 C X G2 X2 X1 G2 X Y G1 Y G1 Z Z Fig. 2 Fig. 3 ppendix 24 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ll data is subject to change. Please check our datasheets at for updates.

142 Product Packaging Information Figure 4 Dimensions DFN DFN1310H4-6 G G G X X Y Y a b Figure 5 Dimensions X2 DFN Z 1.3 G X X Y 0.30 Y C G3 a X1 G X1 Y1 b G1 Y2 Z Fig. 5 G2 X2 Fig. 4 Figure 6 Dimensions DFN G G X X Y Y C 0.40 a 0.10 Figure 7 Dimensions DFN Z 1.67 G 0.15 X X Y 0.37 C 0.65 Y C X1 C G X2 Y1 G1 X 1 Y2 X2 G2 a Y Z G Fig. 6 Fig. 7 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ll data is subject to change. Please check our datasheets at for updates. ppendix 25

143 Product Packaging Information Figure 8 Dimensions DFN2020B-6 Z 1.67 G 0.20 G X1 1.0 X Y 0.37 Y C 0.65 Figure 9 Dimensions DFN Z 2.59 G 0.11 X X Y 0.39 C 0.65 Z Y C X2 G X1 G1 X 1 X2 G Y C Fig. 9 Z Y1 G Figure 10 Dimensions Fig. 8 DF-S MiniDIP Z X Y C Figure 11 Dimensions X MSOP-10L X 0.20 Y 0.8 C1 4.2 C X Z C1 Y C C2 Fig. 10 Y Fig. 11 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ppendix 26 ll data is subject to change. Please check our datasheets at for updates.

144 Product Packaging Information Figure 12 Dimensions X MSOP-8L X 0.32 Y 0.8 C1 4.2 C Figure 13 Dimensions PowerDI 123 PowerDI 323 G X X Y Y X1 G X2 C1 Y2 Y1 C2 Fig. 13 Y Fig. 12 Figure 14 Dimensions PowerDI 5 Z 6.6 X1 1.4 X2 3.6 Y1 0.8 Y2 4.7 C 3.87 E1 0.9 X Figure 15 Dimensions SOP-14L X 0.41 Y 1.0 C1 5.1 C Z C X2 E1 X1 C1 Y2 Y1 Y C2 Fig. 14 Fig. 15 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ll data is subject to change. Please check our datasheets at for updates. ppendix 27

145 Product Packaging Information Figure 16 Dimensions SOP-16L X 0.41 Y 1.0 C1 5.1 C Figure 17 Dimensions SOP-8L X 0.41 Y 1.0 C1 5.1 C X X C1 C1 C2 C2 Y Y Fig. 16 Fig. 17 Figure 18 Dimensions SOT-143 Z 2.70 G 1.30 X 2.50 X1 1.0 X Y 0.70 C 2.0 Figure 19 Dimensions SOT-223 X1 3.3 X2 1.2 Y1 1.6 Y2 1.6 C1 6.4 C2 2.3 X2 X X1 Y Y1 Z G C C1 X1 X2 Y2 Fig. 18 X2 Fig. 19 C2 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ppendix 28 ll data is subject to change. Please check our datasheets at for updates.

146 Product Packaging Information Figure 20 Dimensions SOT-523 SOT-323 SOT-23 SC-59 Z X Y C E Figure 21 Dimensions SOT-363 / SOT-353 SOT-26 / SC-74R / SOT-25 SOT-563 Z G X Y C C Y C2 C2 Z C X E Z G C1 Fig. 20 Y X Omit this pad for SOT-353 and SOT-25 Fig. 21 Figure 22 Dimensions SOT89-3L X1 1.7 X2 0.9 X3 0.4 Y1 2.7 Y2 1.3 Y3 1.9 C 3.0 X1 Figure 23 Dimensions X1 SOT89-5L X1 1.7 X X3 0.4 Y1 4.6 Y2 1.2 Y3 0.5 Y4 1.1 C 3.0 Y1 Y4 X3 X2 Y1 Y3 Y2 X2 Y2 X3 Y3 C C Fig. 22 Fig. 23 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ll data is subject to change. Please check our datasheets at for updates. ppendix 29

147 Product Packaging Information Figure 24 Dimensions TO252-3L / DPK X2 TO263-3L / D 2 PK Z X X Y Y C E Figure 25 Dimensions TO252-5L X 5.6 X1 0.6 Y 11.0 Y1 5.6 Y2 2.0 C1 7.2 C X Y2 Y1 C Z Y C1 Y1 Y2 X1 E1 Fig. 24 C2 Fig. 25 X1 Figure 26 Dimensions TO263-5L X 10.9 X Y 15.7 Y1 9.1 Y2 2.5 C 1.7 Figure 27 Dimensions TSSOP-14L X 0.45 Y 1.45 C1 5.9 C X X Y1 Y C1 C2 Y2 Y C X1 Fig. 26 Fig. 27 LL DIMENSIONS RE NOMINL VLUES SHOWN IN MILLIMETERS Note: The suggested land pattern dimensions have been provided for reference only, as actual pad layouts may vary depending on application. These numbers may be modified based on user equipment capability or fabrication criteria. more robust pattern may be desired for wave soldering and is calculated by adding 0.2 mm to the Z dimension. For further information, please reference document IPC-7351, Naming Convention for Standard SMT Land Patterns, and for International grid details, please see document IEC, Publication 97. ppendix 30 ll data is subject to change. Please check our datasheets at for updates.

148 Product Packaging Information SURFCE MOUNT (SMD) PCKGING Bulk, Reel and Carrier Tape Specifications PCKGE TYPE Bulk Tube Quantity MINIMUM PCKING QUNTITY 7" Tape and Reel 13" Tape and Reel Quantity Suffix Quantity Suffix DFN Series N 3K -7 10K -13 DF-S 50 N N 1.5K -T D 2 PK N N N 800 -T D-PK N N N MELF N N -7 5K -13 MiniDIP N N N 3K -T MiniMELF N 2.5K -7 10K -13 MSOP-8L 80 N N 2.5K -13 MSOP-10L 80 N N 2.5K -13 PowerDI 5 N N N 5K -13 PowerDI 123 / PowerDI 323 N 3K -7 10K -13 SC-59 N 3K -7 10K -13 SM N N N 5K -13 SMB N N N 3K -13 SMC N N N 3K -13 SOD-123 / 323 / 523* N 3K* -7* 10K -13 SON-6L N 3K -7 N N SOP-8L 100 N N 2.5K -13 SOP-14L 56 N N 2.5K -13 SOP-16L 50 N N 2.5K -13 SOT-23 / 323 / 353 / 363 / 523 N 3K -7 10K -13 SOT-25 / -26 / SC-74R / SOT-563 N 3K -7 10K -13 SOT89-3L / SOT89-5L N K -13 SOT-143 N 3K -7 10K -13 SOT N N 2.5K -13 SOT-553 N 3K -7 N N TO-252-3L / TO-252-5L 80 N N 2.5K -13 TO-263-3L / TO-263-5L 50 N N TSSOP-14L 96 N N 2.5K -13 Notes: 1. Package quantities given are for minimum packaging quantity only, not minimum order quantity. For minimum order quantity, please contact the Sales Department. 2. No mixed date codes or partial quantity (less than minimum packaging quantity) per packaging is allowed. 3. In no case shall there be two or more consecutive components missing from any reel for any reason. *SOD-523 available in 6K quantity on 7-inch reel, part number suffix "-76K". ll data is subject to change. Please check our datasheets at for updates. ppendix 31

149 KXXKXX KXXKXX KXXKXX 8mm Product Packaging Information Tape Dimensions and Orientation: (Dimensions in mm) For Part Marking, Refer to Datasheet SOT-23 / 323 / 523 SOT-353 / SOT KXX KXX KXX KXX KXX KXX KXX SOD-123 / 323 / SOD-523 has alternating empty cavities as indicated below. SM SMB 12mm PowerDI 123 / MELF SC-74 / SOT-26 / SOT-363 / SOT KXX KXX KXXKXX SC-74 / SOT-26 / SOT-363 / SOT-563 KXX KXX KXX KXX KXX KXX Symmetrical product (No pin 1 indicator) MiniDIP KXX KXX KXX KXX KXX KXX DFN KXX KXX symmetrical Product KXX SC-74R For DFN details - refer to specific datasheet Direction of unreeling ppendix 32 ll data is subject to change. Please check our datasheets at for updates.

150 Product Packaging Information Tape Dimensions and Orientation: (Dimensions in mm) For Part Marking, Refer to Datasheet 12mm (Continued) SOP-8L TSSOP-14L / /5.6 PIN 1 SOT89-3L 3.9/ / / / / / Top Mark 5.4/5.6 PIN / / /4.1 SOT89-5L Top Mark 5.4/5.6 PIN / / /4.1 SOT89-5L (reverse taping) PIN / / /8.1 5 SOT PIN 1 5.4/5.6 Direction of feed 1.45/ / /8.1 ll data is subject to change. Please check our datasheets at for updates. ppendix 33

151 Product Packaging Information Tape Dimensions and Orientation: (Dimensions in mm) For Part Marking, Refer to Datasheet DF-S 16mm D 2 PK 24mm SMC TO / PowerDI PIN 1 3.9/ / / / TO252 / D-PK PIN / / / / /4.1 SOP-14L SOP-16L 3.9/ /8.1 Direction of feed / /8.1 ppendix 34 ll data is subject to change. Please check our datasheets at for updates.

152 Product Packaging Information EMBOSSED CRRIER TPE SPECIFICTIONS t K Top Cover Tape D 0 See Note 1 and Table P0 P2 10 pitches cumulative tolerance on tape ±0.2 E F W B1 K0 See Note 1 and Table For Machine Reference Only Including Draft and Radii Concentric round B0 B0 P User Direction of Feed (8, 12, 16, 24mm Tape) D1 For components 2.0mm x 1.2mm and larger 8, 12, 16, 24mm EMBOSSED TPE DIMENSIONS IN mm Tape Size D E P o tmax o B o K o Constant 8, 12, 16, 24mm See Note 1 Dimensions Tape Size B1 max D1 min F K max P2 R min W Product Type 8mm DFN Series, SOT-23, SOT-25, SOT-26, SOT-143, SOT-323, SOT-353, SOT-363, SOT-523, SOT-563, MiniMELF, PowerDI 123, PowerDI 323, SOD-123, SOD-323, SOD-523, SC-59, SC-74R 12mm 16mm MELF, SM, SMB, minidip SOP-8L, SOT-223, SOT-89 SOP-14L, SOP-16L SMC DF-S PowerDI 5, TO mm D 2 PK, TO-263 Tape Size 8mm P 2.0 ± ± ± ± ± 0.10 SOD K See above (except SOD K) 12mm SM, MELF 16mm SMB, minidip, SOP-8L, SOT-89L, SOT-223 SMC, D-PK, SOP-14L, SOP-16L PowerDI 5 DF-S 24mm D 2 PK Notes: 1. 0 B 0 K 0 are determined by component size. The clearance between the component and the cavity must be within 0.05mm min. to 0.50mm max. for 8mm tape, 0.05mm min. to 0.65 mm max. for 12mm tape and 0.15mm min. to 0.90mm max. for 16mm tape. ll data is subject to change. Please check our datasheets at for updates. ppendix 35

153 Product Packaging Information Top cover tape thickness 0.10mm Max. R Min. Embossed Carrier Bending Radius See Note 2 Direction of feed Cavity 100mm 1mm Max. Tape 1mm Max. 250mm Camber (Top View) llowable camber to be 1.0mm/100mm non-accumulative over 250mm 2. dd 0.05mm min. to 1.00mm min. for 24mm tape and larger. The component cannot rotate more than 20 within the determined cavity, see sketch next page. 3. Tape and components shall pass around radius R without damage. 20 Maximum component rotation Typical component cavity centerline Typical component centerline ppendix 36 ll data is subject to change. Please check our datasheets at for updates.

154 Product Packaging Information SURFCE MOUNT CRRIER TPE SPECIFICTIONS SURFCE MOUNT REEL SPECIFICTIONS (ll Dimensions in mm) T B* C D* N Full Radius G (measured at hub) *Drive spokes optional. If used, dimensions with asterisks apply. Tape Size Max B* Max C D* Max N Min G T Max 8mm mm mm mm Tape Leader and Trailer End Min. 160mm Carrier tape sealed with cover tape Start No Components* Min. 160mm 2 Components Min. 390mm 1 Top Cover Tape User Direction of Feed Notes: 1. There shall be a leader of 230mm [9.05] minimum which may consist of carrier and/or cover tape or a start tape followed by a minimum of 160mm [6.30] of empty carrier tape sealed with cover tape. 2. There shall be a trailer of 160mm [6.30] minimum of empty carrier tape sealed with cover tape. The entire carrier tape must release from the reel hub as the last portion of the tape unwinds from the reel without damage to the carrier tape and the remaining components in the cavities. ll data is subject to change. Please check our datasheets at for updates. ppendix 37

155 Product Packaging Information THROUGH-HOLE PCKGING Bulk, Reels, mmo Packs & Taping Specifications MINIMUM PCKGING QUNTITY MINIMUM PCKING QUNTITY Device Type vailable Packaging Bulk 13" Tape & Reel mmo Pack Quantity per Box Quantity per Tube Quantity per Tray Quantity per Reel Quantity per Box 5KP / 700* 5W 1K 3K 5KW 1K K 5K 3K DF-M 5K 50 DO / 800 / 1K* 4K 2K DO-201 1K 1K / 1.2K* DO-201D 500 / 1K* 1.2K DO K 5K/10K* DO /1K* 5K 3K/5K* GBJ GBPC/W 100 GBU 1K 20 KBJ 1K 20 KBP 3.5K 35 KBPC/W 100 MB/W 100 MP/W 100 PBL 100 PBPC PBPC PBU 100 PDIP-8L R / 500* 500 / 700* SIP-3L 25K 4K SIP-4L 25K SIP-5L 25K ppendix 38 ll data is subject to change. Please check our datasheets at for updates.

156 Product Packaging Information MINIMUM PCKING QUNTITY Device Type vailable Packaging Bulk 13" Tape & Reel mmo Pack Quantity per Box Quantity per Tube Quantity per Tray Quantity per Reel Quantity per Box T1 1K 5K 3K TO-220B / C / ITO220B 2K 50 TO220-5L K TO3P 1.2K 30 TO92 1K / 2.5K / 5K* 2K WOG 1K * Quantity varies by. Notes: 1. Package quantities are given for minimum packaging quality only, not minimum order quantity. For minimum order quantity, please consult the Sales Department. 2. No mixed date codes or partial quantity (less than minimum packaging quantity) per packaging is allowed. 3. In no case shall there be two or more consecutive components missing from any reel for any reason. ll data is subject to change. Please check our datasheets at for updates. ppendix 39

157 Product Packaging Information PRODUCT LBEL SPECIFICTION Label Placement/Dimensions, Definitions & Part Designation STNDRD PRODUCT LBEL (Discrete Product) P/N: BT54C-7 Optional Feature Field QTY: MDE IN (Country) D/C-LOT: 0129-B K1 Scanned Data BT54C B K1 Leading Quiet Zone Trailing Quiet Zone Fig. 1 Standard Label for SnPb Finish, non RoHS Compliant Example: BT54C-7 Pb MSL1 ex RoHS Compliant Fig. 2 Standard Label for Sn Finish, RoHS Compliant Contains Exempt Lead (Pb) Example S1G-13-F Pb Pb-free MSL1 ex RoHS Compliant Fig. 3 Standard Label for Completely Lead Free, RoHS Compliant Product Product is not "Green" (Contains Sb, Halogens, etc.) Example BT54C-7-F ppendix 40 ll data is subject to change. Please check our datasheets at for updates.

158 Product Packaging Information STNDRD PRODUCT LBEL (Discrete Product) (Continued) V Pb-free, Green MSL1 ex RoHS Compliant Fig. 4 Standard Label for Completely Lead Free, "Green", RoHS Compliant Product Product contains no Pb, Sb, Br Example BT54V-7 P/N: 1N5254B-T QTY: D/C - LOT: CN81 Pb MSL1 e 3 RoHS Compliant Fig. 5 Supplemental Label added at Distribution point (primarily glass packaged product) Fig. 6 STNDRD PRODUCT LBEL (nalog Product) Fig. 7 ll data is subject to change. Please check our datasheets at for updates. ppendix 41