Instantaneous Pulse Power Compensator for High-Power-Density Single-Phase Inverter

2018 IEEE Energy Conversion Congress and Exposition (ECCE) Pub Date : 2018-09-01 DOI:10.1109/ECCE.2018.8557432

X. Lyu, Yanchao Li, Ze Ni, Dong Cao, Na Ren, Zheng Zuo, Ruigang Li

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Abstract

This paper presents an instantaneous pulse power compensator (IPPC) concept to achieve ultra-high density with zero voltage ripple and zero dc-link capacitor for high-power-density single-phase inverter application. Compared with traditional 2ndorder method with various power decoupling topologies, IPPC proposed a totally new theoretical analysis from a pulse-power point of view. For dc-link voltage ripple evaluation, traditional theoretical analysis is not suitable for small-capacitance power decoupling applications, however, pulse power analysis can be applied in the whole range. From a view of state-of-the-art on power decoupling methods, a comparison figure with voltage ripple and dc-link capacitance is given to show the limitation of traditional power decoupling method and improvement of IPPC method on minimizing dc-link capacitance. One case study is presented with full-bridge topology with simulation results. Furthermore, one Silicon Carbide (SiC) based inverter and the IPPC based circuit are built. Experimental results verify the proposed idea very well.

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大功率密度单相逆变器的瞬时脉冲功率补偿器

提出了一种瞬时脉冲功率补偿器(IPPC)的概念，以零电压纹波和零直流电容实现高功率密度单相逆变器的超高密度。与传统的二阶解耦方法相比，IPPC从脉冲功率的角度提出了一种全新的理论分析方法。对于直流链路电压纹波评估，传统的理论分析不适合小电容功率去耦应用，而脉冲功率分析可以应用于全范围。从功率去耦方法的研究现状出发，给出了电压纹波和直流电容的对比图，说明了传统功率去耦方法的局限性以及IPPC方法在减小直流电容方面的改进。给出了全桥拓扑的一个实例，并给出了仿真结果。此外，还构建了一个基于碳化硅(SiC)的逆变器和基于IPPC的电路。实验结果很好地验证了所提出的思想。

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2018 IEEE Energy Conversion Congress and Exposition (ECCE)

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