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Power Devices and their Applications (Volume III)

About the Book

Table of Contents

3.1.00 : "Power Semiconductors: Fast, Tough, and Compact"

3.1.01 : "Characterization of High Power Darlington Transistors"

3.1.02 : "Reverse-Bias Second Breakdown of High Power Darlington Transistors"

3.1.03 : "Characterization of High-Power BJTs for Motor-Drive Applications"

3.1.04 : "Characterization of RBSOA of High Power Bipolar Transistors Using a Nondestructive Tester"

3.1.05 : "Design Considerations for Paralleling Bipolar Transistors"

3.1.06 : "A Practical SCR Model for Computer-Aided Analysis of AC Resonant Charging Circuits"

3.1.07 : "A Unified SCR Model for Continuous Topology CADA"

3.1.08 : "The J3 SCR Model Applied to Resonant Converter Simulation"

3.1.09 : "Turn-Off Characteristics of Power Transistors Using Emitter-Open Turn-Off"

3.1.10 : "Bipolar - FET Combination Power Transistors for Power Conversion Application"

3.1.11 : "A New FET-Bipolar Combinational Power Semiconductor Switch"

3.1.12 : "Design Considerations for FET-Gated Power Transistors"

3.1.13 : "A GTO Circuit Using IGT and MOSFET as Gate Drivers"

3.1.14 : "An 1800 V, 300 A Nondestructive RBSOA for Bipolar Transistors"

3.1.15 : "RBSOA Characterization of GTO Devices"

3.1.16 : "A New Way to Speed Transistor Switching"

3.1.17 : "A Transistor Model for Numerical Computation of Forward-Bias Second-Breakdown Boundary"

3.2.01 : "Electronic Transformer Using Amorphous Material"

3.2.02 : "High Frequency Core Loss Characteristics of Amorphous Magnetic Materials"

3.2.03 : "Magnetic Properties of the Amorphous Magnetic Metals Between 50 kHz and 225 kHz"

3.2.04 : "Comparison of High Frequency Magnetic Core Losses Under Two Different Driving Conditions: A Sinusoidal Voltage and A Square-Wave Voltage"

3.2.05 : "Power Tests of Ferrite Materials in 1 to 20 MHz Frequency Range"

3.2.06 : "Minimum Weight EI Core and Pot Core Inductor and Transformer Designs"

3.2.07 : "Design Graphs for Optimizing the Energy-Storage Inductor for DC-DC Power Converters"

3.2.08 : "Computer-Aided Graphic Design Optimization of Inductors for DC-DC Power Converters"

3.2.09 : "Input Filter Design for Switching Regulators"

3.2.10 : "Computer-Aided Design for High-Frequency Power Transformers"

3.2.11 : "Practical Design Considerations for High-Frequency Transformers and Resonant Inductors"

3.3.01 : "A Transistorized Chopper - Inverter Controller for Electric Vehicle Propulsion"

3.3.02 : "Transistorized Power Module for High Power DC-Sinusoidal Inverter for Very Low Frequency Transmitter Application"

3.3.03 : "Application of Transistor Emitter-Open Turn-Of Scheme to High-Voltage Power Inverters"

3.3.04 : "Designing a High-Frequency Snubberless FET Power Inverter"

3.3.05 : "IGT/COMFET Latching Characteristics and Application to Brushless DC Motor Drive"

3.3.06 : "Application of IGT/COMFET to Zero-Current Switching Resonant Converters"

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