Ang, Y and Bingham, Chris and Foster, M P and Stone, D A (2007) Modelling and regulation of dual-output LCLC resonant converters. In: Industrial Electronics Society, 2007. IECON 2007. 33rd Annual Conference of the IEEE , 5-8 Nov 2007, Taipei, Taiwan.

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Abstract

The analysis, design and control of 4th-order LCLC voltage-output series-parallel resonant converters (SPRCs) for the provision of multiple regulated outputs, is described. Specifically, state-variable concepts are employed and new analysis techniques are developed to establish operating mode boundaries with which to describe the internal behaviour of a dual-output resonant converter topology. The designer is guided through the most important criteria for realising a satisfactory converter, and the impact of parameter choices on performance is explored. Predictions from the resulting models are compared with those obtained from SPICE simulations and measurements from a prototype power supply under closed loop control.

Item Type:	Conference or Workshop Item (Presentation)
Additional Information:	The analysis, design and control of 4th-order LCLC voltage-output series-parallel resonant converters (SPRCs) for the provision of multiple regulated outputs, is described. Specifically, state-variable concepts are employed and new analysis techniques are developed to establish operating mode boundaries with which to describe the internal behaviour of a dual-output resonant converter topology. The designer is guided through the most important criteria for realising a satisfactory converter, and the impact of parameter choices on performance is explored. Predictions from the resulting models are compared with those obtained from SPICE simulations and measurements from a prototype power supply under closed loop control.
Keywords:	Resonant power conversion
Subjects:	H Engineering > H600 Electronic and Electrical Engineering
Divisions:	College of Sciences > Faculty of Science > Lincoln School of Engineering
Depositing User:	Paul Stewart
Date Deposited:	20 May 2010 17:27
Last Modified:	13 Mar 2013 08:37
URI:	http://eprints.lincoln.ac.uk/id/eprint/2501

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