基于Proteus平台的光伏电池建模及特性仿真
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摘要
为使学生更加深入的了解和掌握光伏电池特性及其发电原理,提出一种基于Proteus平台的光伏电池建模及其发电原理实验方案。方案依据光伏电池等效电路和光伏电池生产厂家提供的特性参数,详细介绍了Proteus平台中光伏电池SPICE模型建模及其特性曲线测试方法。测试结果表明,构建的光伏电池仿真模型完全可以满足光伏发电过程虚拟仿真应用的要求,值得推广和借鉴。
In order to enable students to have a further understanding and mastering the characteristic of the PV cell and power generation principle,this paper presents a method of PV cell modeling and characteristic test based on Proteus platform.The methods of PV cell modeling and its characteristic curve test is introduced in Proteus platform according to the PV cell equivalent circuit and the characteristics parameters supplied by the PV cell manufacturer.The test results show that the established simulation model of PV cell can completely meet the requirements of the application of the virtual simulation of photovoltaic power generation process,and the method is worth learning and promotion.
In order to enable students to have a further understanding and mastering the characteristic of the PV cell and power generation principle,this paper presents a method of PV cell modeling and characteristic test based on Proteus platform.The methods of PV cell modeling and its characteristic curve test is introduced in Proteus platform according to the PV cell equivalent circuit and the characteristics parameters supplied by the PV cell manufacturer.The test results show that the established simulation model of PV cell can completely meet the requirements of the application of the virtual simulation of photovoltaic power generation process,and the method is worth learning and promotion.
引文
[1]孔凡太,戴松元.我国太阳能光伏产业现状及未来展望[J]中国工程科学,2016,18(4):51-54.
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[4]李正明.局部遮挡下光伏电池的数学建模与仿真研究[J].电源技术,2018,42(1):71-74.
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[7]朱嵘涛.Proteus仿真软件在自动化专业课程中的应用研究[J].电脑知识与技术,2017,13(3):200-201.
[8]孙万麟.计算机接口技术课程教学改革实践[J].电脑知识与技术,2017,13(5):112-113.
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[10]孙以泽,彭乐乐.基于Lambert W函数的太阳电池组件参数提取及优化[J].太阳能学报,2014,35(8):1429-1433.
[11]师楠,周苏荃.基于Bezier函数的光伏电池建模[J].电网技术,2015,39(8):2195-220 0.
[12]S.Motahhir.Modeling of PV panel by using Proteus[J].Journal of Engineering Science&Technology Review,20 17,10(2):8-13.
[2]薛午阳.基于Matlab的光伏电池模拟电源设计[J].电源技术,2018,42(3):413-415.
[3]马帅旗.太阳能光伏电池建模及V-I特性研究[J].电源技术2013,37(8):1396-1399.
[4]李正明.局部遮挡下光伏电池的数学建模与仿真研究[J].电源技术,2018,42(1):71-74.
[5]王丰,孔鹏举.基于分布式最大功率跟踪的光伏系统输出特性分析[J].电工技术学报,2015,30(24):128-134.
[6]兰建军.Proteus软件在电子工艺实训中的应用[J].电脑知识与技术,2016,12(2):107-108.
[7]朱嵘涛.Proteus仿真软件在自动化专业课程中的应用研究[J].电脑知识与技术,2017,13(3):200-201.
[8]孙万麟.计算机接口技术课程教学改革实践[J].电脑知识与技术,2017,13(5):112-113.
[9]Sotirios I.Nanou,Stavros A.Papathanassiou.Modeling of a PV system with grid code compatibility[J].Electric Power Systems Research,2014,(116):301-310.
[10]孙以泽,彭乐乐.基于Lambert W函数的太阳电池组件参数提取及优化[J].太阳能学报,2014,35(8):1429-1433.
[11]师楠,周苏荃.基于Bezier函数的光伏电池建模[J].电网技术,2015,39(8):2195-220 0.
[12]S.Motahhir.Modeling of PV panel by using Proteus[J].Journal of Engineering Science&Technology Review,20 17,10(2):8-13.