Analysis, Simulation and Testing of the Gp-Clc Resonant Converter

Document Number: 1999-01-2689

Date Published: August 1999

Author(s):
Bill M. Diong - Univ. of Texas
Rene J. Thibodeaux - Air Force Research Laboratory

Abstract:
High-frequency resonant power converters are an attractive choice for high power density applications, e.g., on aerospace vehicles. Until recently, most of the attention was paid to resonant converters with 2 energy-storage elements. However, it was recently pointed out that some of the drawbacks of this class of converters (including poor load regulation, discontinuous mode operation and poor transient response) could be overcome by adding a third energy-storage element to the resonant circuit. Among the many 3-element resonant converter topologies that have not yet been thoroughly investigated is one that we will refer to as the \gp-CLC topology. This paper will present the results of theoretical analysis and computer simulations performed on this converter topology. Specifically, we will show analytical results on its steady-state characteristics (including input impedance, resonant frequencies, input-output transfer function, individual component voltage and current stresses, and efficiency). In addition, the results of computer simulations are provided to verify the analysis.

File Size: 71K
Product Status: In Stock

See other papers presented at 34th Intersociety Energy Conversion Engineering Conference, August 1999, Vancouver, BC, CANAD, Session: Aerospace Power Analyses & Simulation II

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