Gilbert, A. J., Bingham, Chris, Stone, D. A. et al and Foster, M. P.
(2007)
Normalized analysis and design of LCC resonant converters.
IEEE Transactions on Power Electronics, 22
(6).
pp. 2386-2402.
ISSN 0885-8993
Full content URL: http://dx.doi.org/10.1109/TPEL.2007.909243
| Normalized analysis and design of LCC resonant converters | | Abstract—A normalization of the LCC voltage-output resonant
converter performance characteristics, in terms of the tank gain at
resonance and the parallel-to-series-capacitor ratio, is presented.
The resulting description is subsequently used for the derivation
of a design procedure that incorporates the effects of diode losses
and the finite charge/discharge time of the parallel capacitor. Unlike
previously reported techniques, the resulting normalized behavior
of the converter is used to identify design regions to facilitate
a reduction in component electrical stresses, and the use
of harmonics to transfer real power. Consideration of the use of
preferred component values is also given. The underlying methodology
is ultimately suitable for incorporation into a software suite
for use as part of a rapid interactive design tool. Both simulation results
and experimental measurements from a prototype converter
are included to demonstrate the attributes of the proposed analysis
and design methodologies. | | ![[img]](http://eprints.lincoln.ac.uk/style/images/fileicons/application_pdf.png)
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| Item Type: | Article |
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| Item Status: | Live Archive |
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Abstract
Abstract—A normalization of the LCC voltage-output resonant
converter performance characteristics, in terms of the tank gain at resonance and the parallel-to-series-capacitor ratio, is presented. The resulting description is subsequently used for the derivation of a design procedure that incorporates the effects of diode losses and the finite charge/discharge time of the parallel capacitor. Unlike previously reported techniques, the resulting normalized behavior of the converter is used to identify design regions to facilitate a reduction in component electrical stresses, and the use of harmonics to transfer real power. Consideration of the use of preferred component values is also given. The underlying methodology is ultimately suitable for incorporation into a software suite
for use as part of a rapid interactive design tool. Both simulation results and experimental measurements from a prototype converter are included to demonstrate the attributes of the proposed analysis and design methodologies.
| Additional Information: | Abstract—A normalization of the LCC voltage-output resonant
converter performance characteristics, in terms of the tank gain at resonance and the parallel-to-series-capacitor ratio, is presented. The resulting description is subsequently used for the derivation of a design procedure that incorporates the effects of diode losses and the finite charge/discharge time of the parallel capacitor. Unlike previously reported techniques, the resulting normalized behavior of the converter is used to identify design regions to facilitate a reduction in component electrical stresses, and the use of harmonics to transfer real power. Consideration of the use of preferred component values is also given. The underlying methodology is ultimately suitable for incorporation into a software suite
for use as part of a rapid interactive design tool. Both simulation results and experimental measurements from a prototype converter are included to demonstrate the attributes of the proposed analysis and design methodologies. |
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| Keywords: | circuit analysis, Resonant converter, dc-dc converter |
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| Subjects: | H Engineering > H600 Electronic and Electrical Engineering |
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| Divisions: | College of Science > School of Engineering |
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| ID Code: | 2321 |
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| Deposited On: | 20 Apr 2010 04:58 |
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