期刊
IEEE ACCESS
卷 9, 期 -, 页码 7263-7279出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2020.3048022
关键词
PV; DVR; TransZSI; voltage sag; voltage transient; THD
资金
- Universiti Tenaga Nasional, Malaysia
- Long-Term Research Grant (LRGS) from the Ministry of Education Malaysia
A new solar PV fed DVR based on TransZSI is proposed in this article, which uses the UVT-MCBC method for efficient detection, accurate voltage disturbances mitigation, and reducing injected voltage harmonics. The performance analysis shows that the proposed TransZSI-DVR has effectively mitigated voltage sag/swell/interruption and improved power quality in both the PCC and PV system's output voltage.
In this article, a new solar PV fed Dynamic Voltage Restorer (DVR) based on Trans-Z-source Inverter (TransZSI) is proposed to improve the power quality of on-grid Photovoltaic (PV) systems. DVR is a power electronic compensator using for injecting the desired voltage to the Point of Common Coupling (PCC) as per the voltage disturbance. In the proposed DVR, in place of traditional VSI, TransZSI with outstanding merits of buck/boost, a broader range of voltage boost gain, fewer passive components, and lower voltage stress, is put forth. For efficient detection, accurate voltage disturbances mitigation, and also lessening the injected voltage harmonics, a hybrid Unit Vector Template with Maximum Constant Boost Control (UVT-MCBC) method is proposed for TransZSI-DVR. The performance of the proposed TransZSI-DVR with UVT-MCBC has been analyzed under severe sag, slight sag with harmonics, swell, and interruption. The comparative studies and simulation results have shown the effectiveness of the proposed TransZSI-DVR, as opposed to traditional ZSI-DVR and VSI-DVR. The TransZSI-DVR in the PV system has mitigated voltage sag/swell/interruption. It has also improved the power quality of both the injected voltage to the PCC and PV system's output voltage.
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