Optimal design of a class-E resonant driver

Michael Evzelman; Mor Mordechai Peretz

doi:10.1049/iet-pel.2014.0397

Optimal design of a class-E resonant driver

Michael Evzelman, Mor Mordechai Peretz

Department of Electrical & Computer Engineering

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

In many applications of class-E converters, custom-made design of the isolation resonant network is impractical; instead, off-shelf products are used. In this case, matching the target output parameters to the converter component stresses requires an additional passive matching network. The design of this network has a tedious optimisation routine and may pose a considerable engineering challenge. This study introduces an optimisation method based on a behavioural modelling for class-E resonant converters, which significantly simplifies the component selection procedure. The method reduces the number of unknowns during simulation assisted parameter optimisation search. Successful implementation of the optimisation process is demonstrated on an off-line, digitally controlled class-E, piezoelectric transformer-based AC/DC converter, where the main inductor and the matching capacitance are the parameters to be optimised.

Original language	English
Pages (from-to)	1552-1557
Number of pages	6
Journal	IET Power Electronics
Volume	8
Issue number	8
DOIs	https://doi.org/10.1049/iet-pel.2014.0397
State	Published - 1 Aug 2015

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1049/iet-pel.2014.0397

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abstract = "In many applications of class-E converters, custom-made design of the isolation resonant network is impractical; instead, off-shelf products are used. In this case, matching the target output parameters to the converter component stresses requires an additional passive matching network. The design of this network has a tedious optimisation routine and may pose a considerable engineering challenge. This study introduces an optimisation method based on a behavioural modelling for class-E resonant converters, which significantly simplifies the component selection procedure. The method reduces the number of unknowns during simulation assisted parameter optimisation search. Successful implementation of the optimisation process is demonstrated on an off-line, digitally controlled class-E, piezoelectric transformer-based AC/DC converter, where the main inductor and the matching capacitance are the parameters to be optimised.",

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AB - In many applications of class-E converters, custom-made design of the isolation resonant network is impractical; instead, off-shelf products are used. In this case, matching the target output parameters to the converter component stresses requires an additional passive matching network. The design of this network has a tedious optimisation routine and may pose a considerable engineering challenge. This study introduces an optimisation method based on a behavioural modelling for class-E resonant converters, which significantly simplifies the component selection procedure. The method reduces the number of unknowns during simulation assisted parameter optimisation search. Successful implementation of the optimisation process is demonstrated on an off-line, digitally controlled class-E, piezoelectric transformer-based AC/DC converter, where the main inductor and the matching capacitance are the parameters to be optimised.

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Optimal design of a class-E resonant driver

Abstract

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