Based on the third edition textbook, GaN Transistors for Efficient Power Conversion, EPC has posted the first half of a 14-part educational video podcast series on the theory, design basics and applications, such as lidar, DC-DC conversion, and wireless power using gallium nitride FETs and ICs
EL SEGUNDO, Calif.--(BUSINESS WIRE)--#48V--Efficient Power Conversion (EPC) Corporation has posted an update to its popular “How to GaN” video podcast series, These updated videos are based on the recently published third edition textbook, GaN Transistors for Efficient Power Conversion. This 14-part educational video podcast series is designed to provide power system design engineers a technical foundation and application-focused toolset on how to design more efficient power conversion systems using gallium nitride-based transistors and integrated circuits.
The seven videos included in the first half of the series provide an overview of the theoretical foundation and design basics for using GaN transistors and ICs.
The first seven videos include:
- How to GaN 01 – Material Comparisons
- How to GaN 02 – Building a GaN Transistor
- How to GaN 03 – Performance Characteristics
- How to GaN 04 – Design Basics: Gate Drive
- How to GaN 05 – Design Basics: Layout
- How to GaN 06 – Design Basics: Thermal Management
- How to GaN 07 – Design Basics: Modeling and Measurement
The second part of this series, to be released shortly, will provide practical examples on the use of GaN transistors in widely used power electronics applications such as DC-DC conversion for telecom and datacom systems. In addition, it provides examples of how these superior devices enable emerging applications, such as, lidar/time of flight for autonomous vehicles and robotics, wireless power transfer that eliminates the need for power cords, and RF envelope tracking for telecommunications systems.
“This series of short videos will help designers understand the exceptional benefits of GaN technology and the intricacies of incorporating GaN transistors and integrated circuits into power conversion systems. Most importantly, the videos will accelerate design engineers’ learning curve and increase their ability to take maximum advantage of the high switching frequency and high performance of gallium nitride power semiconductors,” noted Alex Lidow, CEO and co-founder of EPC.
EPC is the leader in enhancement mode gallium nitride-based power management devices and integrated circuits that provide even greater space, energy, and cost efficiency. EPC was the first to introduce enhancement-mode gallium-nitride-on-silicon (eGaN) FETs as power MOSFET replacements in applications such as DC-DC converters, wireless power transfer, envelope tracking, RF transmission, power inverters, remote sensing technology (Lidar), and Class-D audio amplifiers with device performance many times greater than the best silicon power MOSFETs.
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