基于改进型扰动观察法的MPPT控制策略研究Research on MPPT Control Strategy Based on Improved Perturbation Observation Method
楼伯良,吴俊,黄弘扬,马智泉,徐群伟
LOU Boliang,WU Jun,HUANG Hongyang,MA Zhiquan,XU Qunwei
摘要(Abstract):
针对传统扰动观察法存在的动态响应和稳态精度不可同时兼顾的矛盾,提出了基于恒压法结合扰动观察法的MPPT(最大功率点跟踪)复合控制策略。在MPPT控制启动阶段先利用恒压法的快速性迅速定位最大功率点附近区域,再采用变步长扰动观察法对最大功率点进行精确定位。在Simulink仿真平台上搭建MPPT仿真模型,仿真结果表明,相对于传统扰动观察法,改进型MPPT控制策略不但启动迅速,外界环境突变时响应速度快,而且稳态精度高。
Given the contradiction between dynamic response and steady-state accuracy of traditional perturbation observation method, a composite MPPT(maximum power point track) control strategy based on constant voltage method and perturbation observation method is proposed. In the start-up stage of MPPT control,the fast speed of constant voltage method is used to locate the vicinity of the maximum power point, and then the variable step perturbation observation method is adopted for accurate location. MPPT simulation model is built on the Simulink simulation platform. The simulation results show that in contrast with the traditional perturbation observation method the improved MPPT control strategy can not only start quickly but respond quickly to sudden changes in the external environment and has high steady-state accuracy.
关键词(KeyWords):
恒压法;动态响应;稳态精度;复合控制
constant voltage method;dynamic response;steady-state accuracy;composite control
基金项目(Foundation):
作者(Author):
楼伯良,吴俊,黄弘扬,马智泉,徐群伟
LOU Boliang,WU Jun,HUANG Hongyang,MA Zhiquan,XU Qunwei
DOI: 10.19585/j.zjdl.201909016
参考文献(References):
- [1]DASH S K,VERMA D,NEMA S,et al.Comparative anal ysis of maximum power point(MPP)acking techniques for solar PV application using Matlab simulink[J].Recent Advances and Innovations in Engineering(ICRAIE),2014,62(5):1-7.
- [2]ROUZBEHI K,MIRANIAN A,CANDELA J I,et al.A generalized voltage droop strategy for control of multiterminal DC grids[J].IEEE Transactions on Industry Applications,2014,51(1):607-618.
- [3]朱圳,孙以泽,彭乐乐,等.一种优化的最大功率点跟踪变步长扰动观察法[J].水电能源科学,2014(6):202-206.
- [4]吴雷,高兴琳.基于功率预测的变步长扰动观测法MPPT研究[J].电源技术,2015,39(3):527-528.
- [5]刘慧文,王生铁,温素芳,等.光伏系统区段划分变步长MPPT算法设计[J].可再生能源,2018,36(8):1151-1157.
- [6]徐晓淳,刘春生,李锋.光伏系统MPPT的改进模糊控制[J].电力系统及其自动化学报,2014,26(9):81-84.
- [7]吕晨旭.基于神经网络的光伏系统MPPT控制算法设计[J].现代电子技术,2018,41(3):132-135.
- [8]周习祥,李加升.基于自适应占空比扰动算法的光伏发电系统MPPT控制[J].电气传动,2012,42(8):24-28.
- [9]孙志松,程若发,马银平.基于克隆选择算法的光伏最大功率点跟踪控制[J].计算机仿真,2012,27(4):333-336.
- [10]杨永恒,周克亮.光伏电池建模及MPPT控制策略[J].电工技术学报,2011,26(S1):229-234.
- [11]王彪,丁运菊,何湘龙.基于牛顿插值算法光伏三相桥逆变器的研究[J].测控技术,2017,36(10):142-146.
- [12]颜建虎,刘丹,李强,等.一种分段式变步长爬山法最大功率追踪控制策略[J].电气工程学报,2015,10(11):111-116.
- [13]严力羕,徐迪,葛爱明.不均匀光照情况下太阳能最大功率追踪算法[J].红外与激光工程,2013,42(8):2173-2180.
- [14]AHMED E M,SHOYAMA M.Variable step size maximum power point tracker using a single variable for stand-alone battery storage PV systems[J].Journal of Power Electronics,2011,11(2):218-227.
- [15]杜毅,彭良平,汤济泽.双级式光伏并网逆变器控制算法研究[J].电气传动,2013, 43(5):33-36.
- [16]时国平,钱叶册,孙佐,等.模糊PI控制的扰动观察法在光伏系统中应用[J].浙江水利水电学院学报,2017(4):75-78.