John Glaser scite author profile

D ESIGNERS of power conversion circuits are under relentless pressure to increase power density while maintaining high efficiency. Increased switching frequency is a primary path to higher power density. Prior work has shown that the use of switching frequencies in the VHF band (30 MHz-300 MHz) are a viable path to the achievement of gains in power density. A promising topology for VHF operation is the voltage-fed Class EF2 (Class Φ2) inverter based topology, where the use of controlled impedance at the switching frequency and its 2 nd and 3 rd harmonics provides both full soft switching and substantially reduced voltage stress compared to topologies such as Class E. However, such converters contain multiple resonant elements, and the tuning of the converter can be complicated due in part to the interaction of said elements. It is proposed that a pushpull version of the Class EF2 inverter can alleviate some of these difficulties. In particular, it is shown that odd and even frequency components can be independently tuned without interaction, and furthermore that center-tapped inductors may be used to reduce the total volume occupied by said inductors. The benefits include simplified design and increased power density. Evidence is presented in the form of a push-pull Class EF2 (Class Φ2) unregulated 500 W prototype dc-dc converter with a 30 MHz switching frequency, an input voltage 150 VDC, and an output voltage of 65 VDC. This converter has an efficiency of > 81% under nominal conditions, including gate drive power.

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Direct comparison of silicon and silicon carbide power transistors in high-frequency hard-switched applications

Glaser

Nasadoski

Losee

et al. 2011

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Output plane analysis of load-sharing in multiple-module converter systems

Glaser

Witulski

1994

IEEE Trans. Power Electron.

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John Glaser

GaN Transistors for Efficient Power Conversion

How GaN Power Transistors Drive High-Performance Lidar: Generating ultrafast pulsed power with GaN FETs

A 500 W push-pull dc-dc power converter with a 30 MHz switching frequency

Direct comparison of silicon and silicon carbide power transistors in high-frequency hard-switched applications

Output plane analysis of load-sharing in multiple-module converter systems

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