Litcius/Paper detail

A Novel Fault-Tolerant Operation Approach for Cascaded H-Bridge Converter-Based Battery Energy Storage Systems to Avoid Overcharge

Qian Xiao, Haolin Yu, Yu Jin, Hongjie Jia, Yunfei Mu, Huiqiao Liu, Wenhua Li, Remus Teodorescu, Frede Blaabjerg

2024IEEE Transactions on Industrial Electronics15 citationsDOI

Abstract

Conventional fundamental frequency zero-sequence voltage (FFZSV) injection-based fault-tolerant operation methods cause power reversion under submodule (SM) failure conditions with low-power factor, which leads to overcharge risk in the cascaded H-bridge converter-based battery energy storage system (CHB-BESS). To solve this issue, a novel fault-tolerant operation approach has been proposed for the CHB-BESS. First, the power reversion mechanism and overcharge risk are analyzed with the conventional FFZSV injection-based methods. On this basis, the operation conditions of the CHB-BESS are divided into three stages according to the safe FFZSV injection region, the FFZSV is modified, and the negative sequence current is injected when necessary. As a result, the power flow of battery packs among the three phases can maintain the same direction, and the power reversion and overcharge risk can be avoided. Experimental results under various conditions verify that the proposed fault-tolerant operation approach of the CHB-BESS can achieve uninterrupted operation and avoid overcharge risk.

Topics & Concepts

OverchargeEnergy storageBattery (electricity)Automotive engineeringReliability engineeringComputer scienceFault (geology)Electrical engineeringEngineeringMaterials sciencePower (physics)GeologyQuantum mechanicsSeismologyPhysicsMicrogrid Control and OptimizationIslanding Detection in Power SystemsAdvanced Battery Technologies Research