基于脉冲密度调制技术的感应加热全桥并联谐振逆变器设计分析

2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC) Pub Date : 2018-04-01 DOI:10.1109/PEEIC.2018.8665571

Anand Kumar, P. Sadhu, R. Raman, Jay Singh

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引用次数: 9

摘要

本文提出了采用脉冲密度调制(PDM)技术的全桥并联谐振逆变器(FBPRI)，用于工业感应加热，如钎焊、焊接、熔炼铁等。在IH应用中，FBPRI控制输出功率的技术已经发展了很多。但它们都不能在不同的工作条件下保持谐振和ZVS/ZCS状态，这是谐振变换器的一个关键特征。因此，降低了IH系统的效率和性能。为了克服这一缺点，本文提出了一种脉冲密度调制(PDM)技术用于FBPRI，以达到比传统IH系统更好的效率和性能。该技术保证了ZVS/ZCS条件，降低了开关损耗。详细描述了所提出的控制方法/技术，并通过47 KHz频率的PSIM仿真进行了验证。

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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Design Analysis of Full-Bridge Parallel Resonant Inverter for Induction Heating Application Using Pulse Density Modulation Technique

In this work, full bridge parallel resonant inverter (FBPRI) using pulse density modulation (PDM) technique has been proposed for industrial induction heating application like brazing, welding, melting of iron etc. There are so many techniques that have been developed for FBPRI to control the output power in IH application. But none of them are able to maintain resonating and ZVS/ZCS condition under a different operating condition which is a key feature of resonant converters. Due to this, efficiency and performance of IH system are degraded. Keeping this disadvantage, a pulse density modulation (PDM) technique has been proposed in this work for FBPRI to achieve better efficiency and performance of the classical IH system. This proposed technique ensures the ZVS/ZCS condition which reduces the switching losses. The proposed control method/technique is described in detail and it is validated through PSIM simulation at a frequency of 47 KHz.

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来源期刊

2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC)

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