一种MMC型电网模拟器二级控制系统架构设计OA
AN MMC TYPE POWER GRID SIMULATOR SECONDARY CONTROLLER ARCHITECTURE DESIGN
电网模拟器可用于对电力电子并网设备进行可靠性检测,在设计其控制器的过程中,由于受到多控制器协同处理的限制,导致系统复杂化,使得模拟器无法达到预期目标.针对MMC型电网模拟器控制器探讨一种二级控制架构,该控制架构大大缩减控制器数量与光纤用量,满足电网模拟器 10 kHz运行频率的一致性与实时性设计要求.设计实现基于外部存储器接口的并行通信、基于SFP与Aurora链路层协议的光纤传输系统并针对多控制器同步问题提出一种基于双锁相环模块的同步方法,搭建相应的硬件并完成实验分析与验证.
The grid simulator can be used to test the reliability of power electronic grid-connected equipment,and in the process of designing its controller,due to the limitation of multi-controller collaborative processing,the system is complicated and the simulator cannot achieve the expected goal.This paper discusses a secondary control architecture for MMC type power grid simulator controller,which greatly reduces the number of controllers and optical fiber consumption,and meets the consistency and real-time design requirements of 10 kHz operating frequency of power grid simulator.The optical fiber transmission system based on SFP and Aurora link layer protocol based on parallel communication based on external memory interface was designed,and a synchronization method based on double phase-locked loop module was proposed for multi-controller synchronization problem,and the corresponding hardware was built and experimental analysis and verification were completed.
丁江;张永明;陈国初;张宇
上海电机学院电气学院 上海 201306上海电机学院电气学院 上海 201306上海电机学院电气学院 上海 201306上海电机学院电气学院 上海 201306
信息技术与安全科学
电网模拟器控制器架构模块化多电平换流器链路层协议多控制器同步光纤通信
Grid simulatorController architectureModular multilevel convertersLink layer protocolMulti-controller synchronizationOptical fiber communication
《计算机应用与软件》 2026 (2)
50-54,109,6
国家自然科学基金项目(61973209).
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