零电压和非零电压下非对称相移控制全桥感应加热逆变器分析

N. Yongyuth, P. Viriya, K. Matsuse
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引用次数: 9

摘要

本文详细分析了一种高频全桥感应加热逆变器在ZVS和非ZVS开关条件下的电路工作,该逆变器采用非对称移相控制原理,在正、负两个方向上都有很宽的控制范围。首先分析了在零电压vs和非零电压vs工况下移相功率控制时的各种电路工作模式及电压和电流方程,并通过MATLAB程序得到输出电压和电流波形。这些波形将通过傅里叶分析进行分析,从而进一步计算交流输出功率Po,直流输入功率Pd,从而计算全桥逆变器的转换效率Tj。分析结果表明,交流输出功率Po和直流输入功率Pd的控制范围受到非零电压工况的限制,非零电压工况随开关频率fs的变化而变化。
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Analysis of a Full-Bridge Inverter for Induction Heating Using Asymmetrical Phase-Shift Control under ZVS and NON-ZVS Operation
This paper presents a detailed analysis of circuit operation under ZVS and NON-ZVS switching conditions in a high-frequency full-bridge inverter for induction heating, using the principle of asymmetrical phase-shift control over a wide control range both in positive and negative directions. A variety of modes of circuit operation with the voltage and current equations during phase-shift power control under the operating conditions of ZVS and NON-ZVS are analyzed as a first step and the output voltage and current waveforms are obtained by MATLAB program. These waveforms will be analyzed by Fourier analysis which can lead further to the calculation of ac output power Po, dc input power Pd, and hence the conversion efficiency Tj of the full-bridge inverter. The analysis results shows that the control ranges of ac output power Po and dc input power Pd are limited by the occurrence of NON-ZVS operating condition, which changes according to the switching frequency fs .
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