一种优化的光伏全局最大功率点追踪方法

宁平华; 张庆丰; 冯德仁; 丁鑫龙; 夏兴国; 潘小波

引用本文:	宁平华,张庆丰,冯德仁,等.一种优化的光伏全局最大功率点追踪方法[J].电力系统保护与控制,2021,49(22):152-160.
	NING Pinghua,ZHANG Qingfeng,FENG Deren,et al.An optimized photovoltaic global maximum power point tracking method[J].Power System Protection and Control,2021,49(22):152-160

【打印本页】【下载PDF全文】【查看/发表评论】【EndNote】【RefMan】【BibTex】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 4963次下载 1899次	码上扫一扫！
分享到：微信更多字体:加大+\|默认\|缩小-
一种优化的光伏全局最大功率点追踪方法
宁平华1,2，张庆丰1，冯德仁2，丁鑫龙2，夏兴国1，潘小波1
(1.马鞍山职业技术学院电气工程系，安徽马鞍山 243031；2.安徽省高校电力电子与运动控制重点实验室 (安徽工业大学)，安徽马鞍山 243002)

摘要:

当前的光伏最大功率点追踪技术存在以下不足：在局部阴影工况下，易陷入局部功率峰值；在负载波动时，系统容易出现振荡甚至失稳。针对上述问题，提出一种自适应的光伏全局最大功率点追踪设计方案。该方案将光伏输出端电压-功率扫描电路与Zeta斩波电路有机结合，通过单开关管的简单电路拓扑，既可实现光伏输出端电压功率特性快速扫描，定位全局最大功率点位置，又能根据后级电路需要，实现升降压斩波直流调节。在光照等输入或负载发生突变后，所述系统均能进行开关管占空比自适应调整，确保稳定工作在全局最大功率点附近，避免出现大幅振荡与失稳。经过PSCAD-EMTCD仿真与样机实验验证，结果表明该方案能在包括局部阴影等各种复杂工况下自适应地快速追踪与锁定当前光伏全局最大功率点。

关键词: 自适应光伏 Zeta 斩波电路最大功率点跟踪技术 PSCAD-EMTCD

DOI：DOI: 10.19783/j.cnki.pspc.210214

分类号:

基金项目:安徽省高校省级自然科学研究重点项目资助(KJ2019A1244，KJ2019A1245，KJ2020A0928)；安徽省高校优秀青年人才项目资助(gxyq2019202)；安徽省高拔尖人才项目资助(gxbjZD59)

An optimized photovoltaic global maximum power point tracking method

NING Pinghua1, 2, ZHANG Qingfeng1, FENG Deren2, DING Xinlong2, XIA Xingguo1, PAN Xiaobo1

(1. Department of Electrical Engineering, Ma'anshan Technical College, Ma’anshan 243031, China; 2. Anhui Key Laboratory of Power Electronics and Motion Control (Anhui University of Technology), Ma’anshan 243002, China)

Abstract:

Current photovoltaic (PV) maximum power point tracking (MPPT) technology has the following shortcomings: it is easy for the system to fall into a local power peak under the working condition of partial shadow; it is easy for the system to oscillate and even be unstable when the load fluctuates. In order to solve these problems, an adaptive design scheme of PV global MPPT technology is proposed. The scheme combines a PV output voltage scanning circuit and a Zeta chopper circuit organically. Through the simple circuit topology of single switch tube, not only can the voltage power characteristic of photovoltaic output terminal be quickly scanned and the position of global maximum power point can be located, but also, according to the needs of the post-circuit, the DC regulation of voltage buck or boost chopping can be realized. After a sudden change of irradiance or load, the system can adjust the duty cycle of the switch tube adaptively to ensure stable operation near the global maximum power point and avoid large oscillation and instability. Through PSCAD-EMTCD simulation and a prototype test, the results show that the scheme can track and lock the current PV global maximum power point adaptively and quickly under various complex conditions including partial shadow. This work is supported by the Intercollegiate Key Project of Nature Science of Anhui Province (No. KJ2019A1244, No. KJ2019A1245, and No. KJ2020A0928), the Outstanding Young Talents in Colleges and Universities of Anhui Province (No. gxyq2019202) and the Program for Special Support of Top-Notch Professionals of Anhui Province (No. gxbjZD59).

Key words: adaptive photovoltaic Zeta chopper circuit maximum power point tracking technology PSCAD-EMTCD

X关闭