电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
19期
58-61
,共4页
光伏系统%并网逆变器%Simulink%双环控制%前馈%最大功率点跟踪
光伏繫統%併網逆變器%Simulink%雙環控製%前饋%最大功率點跟蹤
광복계통%병망역변기%Simulink%쌍배공제%전궤%최대공솔점근종
photovoltaic system%grid-connected inverter%Simulink%dual-loop control%feed-forward%maximum power point tracking
针对单相光伏并网系统,以两级式单相并网逆变器的主电路拓扑结构为核心,对其建立了数学模型,并在Matlab/Simulink环境下,搭建了5 kW单相并网逆变器的系统仿真模型。采用基于扰动观测的MPPT算法以及基于电网电压前馈的双闭环控制策略,对其特性进行了深入研究和仿真。并用Matlab语言将MPPT算法编写了函数,可以模拟光照变化,分别针对光照不变和光照变化两种情形进行了仿真分析。结果表明,其不但保证系统有较好的稳定性和快速的动态响应跟踪特性,而且能实现了逆变输出电流与电网电压的同频同相以及较低的逆变电流的总谐波畸变率(THD小于1%)。
針對單相光伏併網繫統,以兩級式單相併網逆變器的主電路拓撲結構為覈心,對其建立瞭數學模型,併在Matlab/Simulink環境下,搭建瞭5 kW單相併網逆變器的繫統倣真模型。採用基于擾動觀測的MPPT算法以及基于電網電壓前饋的雙閉環控製策略,對其特性進行瞭深入研究和倣真。併用Matlab語言將MPPT算法編寫瞭函數,可以模擬光照變化,分彆針對光照不變和光照變化兩種情形進行瞭倣真分析。結果錶明,其不但保證繫統有較好的穩定性和快速的動態響應跟蹤特性,而且能實現瞭逆變輸齣電流與電網電壓的同頻同相以及較低的逆變電流的總諧波畸變率(THD小于1%)。
침대단상광복병망계통,이량급식단상병망역변기적주전로탁복결구위핵심,대기건립료수학모형,병재Matlab/Simulink배경하,탑건료5 kW단상병망역변기적계통방진모형。채용기우우동관측적MPPT산법이급기우전망전압전궤적쌍폐배공제책략,대기특성진행료심입연구화방진。병용Matlab어언장MPPT산법편사료함수,가이모의광조변화,분별침대광조불변화광조변화량충정형진행료방진분석。결과표명,기불단보증계통유교호적은정성화쾌속적동태향응근종특성,이차능실현료역변수출전류여전망전압적동빈동상이급교저적역변전류적총해파기변솔(THD소우1%)。
For single-phase photovoltaic grid system, taking the circuit topology of double-stage single-phase grid inverter as a core, this paper establishes the mathematical model, and builds the simulation model of 5 kW single-phase grid inverter system in Matlab/Simulink environment. MPPT algorithm based on the observation of the disturbance voltage and double loop control strategy based on feedforward are adopted, whose properties are studied and simulated. With Matlab language, MPPT algorithm is programmed as a function which can simulate the illumination change, and the simulation analysis of illumination invariant and illumination change is respectively carried out. The simulation results show that it not only makes system have better stability and fast dynamic response characteristics, but also realizes the target that the output voltage has the same frequency and phase with inverted current and lower total harmonic distortion rate (THD less than 1%).