基于FPGA-CPU的双馈风电系统异步协同仿真

杨光绕<sup>1</sup>; 郝正航<sup>1</sup>; 陈 卓<sup>1</sup>; 陈湘萍<sup>1</sup>; 张 裕<sup>2</sup>; 何朴想<sup>1</sup>

引用本文:	杨光绕,郝正航,陈卓,等.基于FPGA-CPU的双馈风电系统异步协同仿真[J].电力系统保护与控制,2023,51(4):72-81.[点击复制]
	YANG Guangrao,HAO Zhenghang,CHEN Zhuo,et al.Asynchronous co-simulation of a double-fed wind power system based on FPGA-CPU[J].Power System Protection and Control,2023,51(4):72-81[点击复制]

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基于FPGA-CPU的双馈风电系统异步协同仿真
杨光绕¹,郝正航¹,陈卓¹,陈湘萍¹,张裕²,何朴想¹
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(1.贵州大学电气工程学院，贵州贵阳 550025;2.贵州电网有限责任公司电网规划研究中心，贵州贵阳 550002)

摘要:

为实现双馈风电系统的并网及暂态实时仿真，研究了一种基于现场可编程门阵列(field programmable gate array, FPGA)与CPU协同仿真的多速率并行实时仿真方法。使用开关函数法对双馈风电系统中“背靠背”换流器建模并进行资源优化，基于PWM均值化原理完成不同步长系统之间的模型分割。利用FPGA运行速率高的优点，以200 ns的步长实现了“背靠背”换流器的小步长仿真。面向有源配电网实时仿真的需求，实现了FPGA与自主研发的实时仿真机(universal real-time experimental platform, UREP)的200 ns/50 并行协同仿真。通过与Simulink离线仿真结果对比，同时分析模型优化前后的FPGA资源消耗情况，验证了协同仿真的实时性与准确性，可为各类风电系统的并网及暂态研究提供技术参考。

关键词: 现场可编程门阵列(FPGA) 双馈风电系统实时仿真多速率仿真异步协同

DOI：10.19783/j.cnki.pspc.221061

投稿时间：2022-07-06修订日期：2022-10-02

基金项目:国家自然科学基金项目资助(51867007)；第二批国家级新工科研究与实践项目资助(E-NYDQHGC20202227);贵州省教育厅“新型电力系统及其数字化技术工程研究中心”项目资助(黔教技[2022]043)

Asynchronous co-simulation of a double-fed wind power system based on FPGA-CPU

YANG Guangrao¹,HAO Zhenghang¹,CHEN Zhuo¹,CHEN Xiangping¹,ZHANG Yu²,HE Puxiang¹

(1. College of Electrical Engineering, Guizhou University, Guiyang 550025, China; 2. Power Grid Planning and Research Center of Guizhou Power Grid Co., Ltd., Guiyang 550003, China)

Abstract:

To realize the grid-connected and transient real-time simulation of doubly-fed wind power systems, a multi-rate parallel real-time simulation method based on a field programmable gate array (FPGA) and CPU co-simulation is studied. The switch function method is used to model and optimize the resources of the back-to-back converters in the doubly-fed wind power system, and the model partitioning between systems with different step lengths is carried out based on the PWM homogenization principle. Using the advantage of the high running rate of the FPGA, a small-step simulation of the "back-to-back" converter is realized with 200 ns step size. To meet the demands of real-time simulation of an active power distribution network, the 200 ns/50 parallel co-simulation of the FPGA and a self-developed universal real-time experimental platform (UREP) is realized. By comparing with Simulink offline simulation results and analyzing the FPGA resource consumption before and after model optimization, the real-time and accuracy of co-simulation is verified. This can provide a technical reference for the grid connection and transient study of various wind power systems.

This work is supported by the National Natural Science Foundation of China (No. 51867007).

Key words: field programmable gate array (FPGA) double-fed wind power system real-time simulation multi-rate simulation asynchronous collaboration

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