带有源滤波功能的自适应磁滞带控制光伏并网系统

2012 International Conference on Power Engineering and Renewable Energy (ICPERE) Pub Date : 2012-07-03 DOI:10.1109/ICPERE.2012.6287253

S. Mosazadeh, S. Fathi, M. Hajizadeh, A. Sheykholeslami

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引用次数: 23

摘要

本文提出了一种三相并网光伏系统，它不仅可以向电网注入有功功率，而且可以作为并联有源滤波器补偿非线性负荷的谐波和无功功率。采用最大功率点跟踪(MPPT)算法获取不同太阳辐照度下PV的最大功率;因此，在黑暗中，系统被用作有源滤波器，在阳光下，系统同时作为电力调节器和并联有源滤波器运行。该系统的控制基于瞬时功率理论(p-q理论)和自适应迟滞带控制(AHBC)。与传统固定带迟滞控制中瞬时开关频率不恒定不同的是，AHBC方法通过改变迟滞带，使瞬时开关频率保持恒定，但偏差较小。MATLAB/SIMULINK仿真结果验证了该系统在将光伏系统捕获的最大功率注入电网、补偿非线性负载的谐波电流和无功功率方面的有效性。

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Adaptive hysteresis band controlled grid connected PV system with active filter function

This paper presents three-phase grid connected photovoltaic (PV) system that not only can inject active power to the grid but also can compensate harmonics and reactive power of nonlinear loads as a shunt active filter. A maximum power point tracking (MPPT) algorithm is used in order to obtain maximum power under different sun irradiance from PV; hence, in the darkness the system is used as an active filter and in the sunlight the system operates as both power conditioner and shunt active filter simultaneously. Control of the presented system is based on instantaneous power theory (p-q theory) and adaptive hysteresis band control (AHBC). Unlike conventional fix band hysteresis control in which instantaneous switching frequency is not constant, by changing hysteresis band in the AHBC method, instantaneous switching frequency will be constant with a little deviation. Simulation results using MATLAB/SIMULINK verifies effectiveness of the system in injecting of maximum power captured by the PV system to the grid and compensating of the harmonic currents and reactive power of the nonlinear load.

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2012 International Conference on Power Engineering and Renewable Energy (ICPERE)

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