Modulated Model Predictive Control With Branch and Band Scheme for Unbalanced Load Compensation by MMCC-STATCOM.
- Resource Type
- Article
- Authors
- Pan, Xuejiao; Zhang, Li; Li, Yongfei; Li, Kang; Huang, Han
- Source
- IEEE Transactions on Power Electronics. Aug2022, Vol. 37 Issue 8, p8948-8962. 15p.
- Subject
- *REACTIVE power
*BRANCH & bound algorithms
*SYNCHRONOUS capacitors
*PREDICTION models
*REACTIVE flow
*ELECTRICAL load
- Language
- ISSN
- 0885-8993
This article presents a novel modulated model-predictive control (MMPC) scheme for modular multilevel cascaded converter-based static synchronous compensator (STATCOMs) (MMCC-STATCOMs) to compensate unbalanced load current and regulate reactive power flow. By adding a common-mode voltage (CMV) to the phase-voltages of the star-connected MMCC current model, the method allows natural injection of a nonsinusoidal voltage to the neutral point of the converter, hence achieving interphase cluster voltage balance. Moreover, the imposed CMV is shown to extend the operating ranges of MMCC-STATCOMs when used for negative sequence current compensation. The proposed MMPC method incorporates a modified branch and bound algorithm to optimize the per-phase switch duty ratios. It is shown to be computationally more efficient compared to model-predictive control schemes using the optimal voltage level method combined with voltage sorting schemes. Experimental results with different weighting factors confirm the effectiveness of this control scheme and compared favorably with the conventional scheme of injecting only a sinusoidal zero-sequence voltage. [ABSTRACT FROM AUTHOR]