Fault Limiting Circuit based protection for DC and AC Faults in HB-MMC HVDC Systems

IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2021-10-13 DOI:10.1109/IECON48115.2021.9589143

Sukrashis Sarkar, A. Das

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引用次数: 7

Abstract

The Half bridge Modular Multilevel Converter (HB-MMC) based High Voltage Direct Current (HVDC) Transmission systems faces various challenges due to DC faults and AC faults. In case of DC faults (pole-to-pole and pole-to-ground fault), the high fault current flowing through MMC arms may damage the devices present in the MMC. Among the AC faults, the valve side single phase to ground (SPG) fault in HB-MMC based asymmetrical monopolar and bipolar HVDC system is one of the most serious faults. It produces some special characteristics like non-zero crossing of the grid side currents which prevent the AC Circuit breakers (ACCBs) present in the grid side from operating; further, capacitor overvoltage happens in upper arm submodules. In this paper, a Fault Limiting Circuit (FLC) is proposed to solve the above problems. The proposed circuit acts as a parallel LC resonant circuit formed by inserting a capacitor in parallel to arm inductor during fault condition which provides high impedance to the fault current path and reduces the fault current. This circuit is activated during fault condition only, hence the efficiency of the converter is not compromised. The operation of the FLC with HB-MMC is analyzed and verified by simulation in EMTP platform, showing a good agreement between simulation results and theoretical analysis.

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基于限流电路的HB-MMC直流和交流故障保护

基于半桥模块化多电平变换器(HB-MMC)的高压直流输电系统面临着直流故障和交流故障带来的各种挑战。在直流故障(极对极和极对地故障)的情况下，流经MMC臂的高故障电流可能会损坏MMC中的设备。在交流故障中，基于HB-MMC的非对称单、双极直流系统的阀侧单相接地故障是最严重的故障之一。它产生了一些特殊的特性，如电网侧电流的非零交叉，阻止了电网侧交流断路器(accb)的运行;此外，电容器过电压发生在上臂子模块。本文提出了一种故障限制电路(FLC)来解决上述问题。该电路作为并联LC谐振电路，在故障状态下在臂电感并联插入电容，为故障电流路径提供高阻抗，减小故障电流。该电路仅在故障状态时激活，因此转换器的效率不会受到损害。在EMTP平台上对采用HB-MMC的FLC进行了仿真分析和验证，仿真结果与理论分析吻合较好。

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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IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society

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