单级6.78 MHz功率放大器设计，采用高压GaN功率ic，用于无线充电应用

2017 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2017-03-26 DOI:10.1109/APEC.2017.7931237

Lingxiao Xue, Jason Zhang

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引用次数: 12

摘要

用于无线电力传输的传统功率放大器需要由电源适配器产生的低压直流电源。这种多级功率转换解决方案降低了整体效率。提出了一种单级“ac - rf”功率放大器架构，采用调相全桥拓扑和高压GaN功率ic，可直接从整流交流电源产生6.78 MHz的无线电源。构建了50W功率放大器，实现了90%的交流-线圈效率，与现有的多级解决方案相比，将总功率损耗降低了一半。讨论了移相全桥功率放大器的工作原理，给出了无源滤波器网络设计的解析方程。为了提高效率，还提出了一种ZVS-tank耦合方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Single-stage 6.78 MHz power-amplifier design using high-voltage GaN power ICs for wireless charging applications

Traditional power amplifiers for wireless power transfer require a low voltage dc power supply generated by a power adapter. This multi-stage power conversion solution reduces the overall efficiency. A single-stage “AC-RF” power amplifier architecture using a phase-modulated full-bridge topology and high voltage GaN Power ICs is proposed to directly generate 6.78 MHz wireless power from a rectified ac source. A 50W power amplifier is built and achieves 90% ac-to-coil efficiency, which reduces overall power loss by half, comparing to existing multi-stage solutions. The operating principle of a phase-shifted full bridge power amplifier is discussed, and analytical equations are provided for the passive filter network design. A coupled ZVS-tank scheme is also proposed to improve efficiency.

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2017 IEEE Applied Power Electronics Conference and Exposition (APEC)

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