Litcius/Paper detail

Low-Complexity Power Balancing Point-Based Optimization for Photovoltaic Differential Power Processing

Guanying Chu, Huiqing Wen, Yihua Hu, Lin Jiang, Yong Yang, Yiwang Wang

2020IEEE Transactions on Power Electronics49 citationsDOI

Abstract

Differential power processing (DPP) is regarded as a promising architecture in solving mismatching issues among photovoltaic (PV) submodules. Although conventional total-minimum-power-point (TMPP)-based real-time optimization algorithm by using the distributed submodule-level maximum power point tracking and simultaneously the centralized total-minimum-power tracking shows effectiveness in maximizing the power yield. However, uneven power stress among DPP converters, large oscillations, high additional cost for communication among DPP converters, and complicated implementation hinder the practical application. This article proposed a low-complexity power balancing point-based optimization algorithm to reduce the system cost and size, improve the system efficiency, and realize the standardized modular design for DPP converters. Furthermore, simple submodule-level voltage equalization control is implemented to eliminate expensive communication and relieve the control complexity while guaranteeing high maximum-power-point efficiency. The proposed algorithm can reduce the power rating of DPP converters compared with conventional TMPP-based control, which is beneficial to the improvement of system cost, reliability, and lifetime. Both simulation and experimental results under various scenarios are provided to validate the advantages of the proposed algorithm.

Topics & Concepts

ConvertersModular designMaximum power point trackingPhotovoltaic systemElectronic engineeringPower (physics)Computer sciencePower controlReliability (semiconductor)Maximum power principleControl theory (sociology)VoltageEngineeringControl (management)Electrical engineeringPhysicsOperating systemQuantum mechanicsArtificial intelligenceInverterPhotovoltaic System Optimization Techniquessolar cell performance optimizationSilicon Carbide Semiconductor Technologies