Data centers demand high-current, high-efficiency, and low-cost power solutions. The high-voltage dc distribution power architecture has been drawing attention due to its lower conduction loss on cables and harnesses. In this structure, the 380-12 V high output current isolated converter is the key stage. This paper presents a 1-MHz 1-kW LLC resonant converter using GaN devices and planar matrix transformers that are designed and optimized for this application. The transformer design and the optimization of the output capacitor termination are performed and verified. Finally, this cost-effective converter achieves above 97% peak efficiency and 700-W/in³ power density.

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planar matrix transformers gan devices efficiency v highvoltage dc distribution power architecture highcurrent highefficiency conduction loss costeffective converter lowcost power output capacitor termination output current isolated converter 1mhz 1kw llc resonant converter

Fred C. Lee,Mingkai Mu,.Design and Optimization of a 380–12 V High-Frequency, High-Current LLC Converter With GaN Devices and Planar Matrix Transformers. 4 (3),854-862.

Fred C. Lee,Mingkai Mu,"Design and Optimization of a 380–12 V High-Frequency, High-Current LLC Converter With GaN Devices and Planar Matrix Transformers" 4

Fred C. Lee,Mingkai Mu,"Design and Optimization of a 380–12 V High-Frequency, High-Current LLC Converter With GaN Devices and Planar Matrix Transformers"