基于增量电导MPPT、修正PQ理论和磁滞电流控制的单相单级并网光伏系统改进控制策略

Nur Fairuz Mohamed Yusof, D. Ishak, Mohamed Salem
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引用次数: 3

摘要

针对单级单相并网光伏(PV)逆变系统,提出了一种结合改进pq理论和双带滞后电流控制(pq - dbhcc)的改进变步长增量电导(VS-InCond)算法。由于并网光伏系统中的单相逆变器接收来自光伏模块的不同直流电压,因此部署PQ-DBHCC策略来调节交流输出电压,并在有载状态下提供最大功率。采用VS-InCond算法和直流链路电容作为光伏模块与逆变器之间的接口,实现最大功率点的跟踪。此外,PQ-DBHCC策略还可以控制逆变器、负载和电网之间的有功和无功功率。MATLAB Simulink仿真结果表明,PQ-DBHCC策略即使在不同的环境条件和负载变化下,也能在逆变器输入端获得所需的固定直流电压并保持最大功率点跟踪。逆变器交流输出在50hz频率下稳定为230 Vrms。观察到输出交流电流和交流电压的总谐波畸变(THDs)小于5%,符合IEEE 519标准的建议。此外,在满载条件下,该系统成功地从光伏模块提供95%的理论最大功率。
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An Improved Control Strategy for Single-Phase Single-Stage Grid-Tied PV System Based on Incremental Conductance MPPT, Modified PQ Theory, and Hysteresis Current Control
In this paper, a modified variable step Incremental Conductance (VS-InCond) algorithm integrated with modified pq theory and double-band hysteresis current control (PQ-DBHCC) is proposed for the implementation on a single-stage single-phase grid-tied photovoltaic (PV) inverter system. As the single-phase inverter in a grid-tied PV system receives varying DC voltage from PV modules, the PQ-DBHCC strategy is deployed to regulate the ac output voltage along with its capability to deliver the maximum power during onload conditions. VS-InCond algorithm and DC-link capacitor are used as the interface between the PV modules and the inverter for tracking maximum power point. Furthermore, the PQ-DBHCC strategy also controls active and reactive power between inverter, load, and grid. The simulation results obtained from MATLAB Simulink software show that PQ-DBHCC strategy is capable of achieving the desired fixed DC voltage at inverter input and maintaining the maximum power point tracking, even under varying environmental conditions and load variations. The inverter ac output has a steady 230 Vrms at 50 Hz frequency. The total harmonic distortions (THDs) of output ac current and ac voltage are observed to be less than 5%, as recommended in IEEE 519 standard. Additionally, during full load conditions, the proposed system successfully delivers 95% of the theoretical maximum power from PV modules.
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