Geodesic Theory of Zero-Voltage-Switching RF Power Inverters for Constant-Voltage or -Current Output Operation

M. Mizutani, S. Koyama, S. Abe, T. Ohira
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引用次数: 4

Abstract

This paper presents a novel design theory for radio frequency (RF) inverters. We project the zero-voltage-switching (ZVS) and zero-voltage-derivative-switching (ZVDS) load impedances on the Smith chart, and find out that their loci exhibit geodesic arcs. We show that any complex impedance can be transformed by a lossless reciprocal network from one geodesic to another. Exploiting this geometric theorem, we establish a design theory of geodesic-to-geodesic (G2G) networks, which employs three LC elements. With the G2G network, RF-switching inverters can achieve ZVS operations over the full load resistance range. The G2G inverter maintains its output voltage or current at a constant amplitude. The design theory is verified via circuit simulations. The presented theory is quite elegant as it is based on a graphical approach.
用于恒压或恒流输出的零电压开关射频功率逆变器的测地线理论
本文提出了一种新的射频逆变器设计理论。我们将零电压开关(ZVS)和零电压导数开关(ZVDS)负载阻抗投影到史密斯图上,发现它们的轨迹呈现测地线弧线。我们证明了任何复杂阻抗都可以通过无损互易网络从一个测地线转换到另一个测地线。利用这一几何定理,我们建立了一个采用三个LC元素的测地线到测地线(G2G)网络设计理论。使用G2G网络,rf开关逆变器可以在满负载电阻范围内实现ZVS操作。G2G逆变器的输出电压或电流保持恒定的幅值。通过电路仿真验证了设计理论。所提出的理论是相当优雅的,因为它是基于图形的方法。
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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