High-Frequency Transformer Design With Medium-Voltage Insulation for Resonant Converter in Solid-State Transformer
Zheqing Li, Eric Hsieh, Qiang Li, Fred C. Lee
Abstract
A solid-state transformer can directly convert medium voltage to low voltage (e.g., 400 V) with minimized power-conversion stages. The transformer in the dc–dc module not only provides medium-voltage insulation but also significantly affects the power density of the module. In this article, an innovative compact transformer structure is proposed to handle medium-voltage insulation using an insulation coordination with epoxy, bobbin, shielding layer, and stress-control layer. A brand-new bobbin design and related fabrication process ensures a partial-discharge-free insulation. Besides the traditional core loss and winding loss, high-frequency-related core loss and shielding loss are modeled in detail for the accurate loss evaluation. A simple and comprehensive multiparameter, multiobjective optimization process is proposed to achieve the size and loss tradeoff. The transformer prototype passes the related insulation tests, following the standard IEEE Std. C57.12.01. Finally, the design is demonstrated on a 15 kW, 200 kHz <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">CLLC</i> converter with 98.9% peak efficiency and 3.8 kW/L power density.