季宇,苏剑,丁保迪,孙树敏,郑雪梅,孙圣欣.直流微电网储能系统的无源-滑模复合控制方法研究[J].电测与仪表,2021,58(9):63-70. Ji Yu,Su Jian,Ding Baodi,Sun Shumin,Zheng Xuemei,Sun Shengxin.Research on passive based control combined SMC control of DC micro-grid energy storage system[J].Electrical Measurement & Instrumentation,2021,58(9):63-70.
直流微电网储能系统的无源-滑模复合控制方法研究
Research on passive based control combined SMC control of DC micro-grid energy storage system
针对多能互补的直流微电网光储系统中的光伏电池的随机性、不确定性问题,通过无源控制(Passivity Based Control,PBC)方法与滑模控制(Sliding Mode Control,SMC)结合构成PBC-SMC控制的复合控制器,在此基础上设计储能变换器,提出电流内环采用PBC控制方案使得系统满足能量耗散定律自动收敛,为补偿电流精度电压外环采用SMC控制的双闭环控制方案。通过光照突变、负载突变以及二者同时突变的情况下仿真对比了PBC控制器和PBC-SMC控制器的性能,验证PBC-SMC复合控制的有效性,确保光伏—储能直流微电网系统具有优良的稳态性能和动态性能,提升了微网持续供电能力。
英文摘要:
For the characters of strong randomness and uncertainty of PV cells in the multi-energy complementary DC micro-grid optical storage system, this paper adopts a compound controller combing passive based control (PBC) method with sliding mode control (SMC) to form a PBC-SMC controller. On this basis, the energy storage converter is designed, and the PBC control scheme for the inner-loop current is proposed to make the system automatically converge to meet the energy dissipation law, and the SMC double closed-loop control scheme for the outer-loop voltage is proposed to compensate the current precision. The performance of PBC controller and PBC-SMC controller is compared through simulation under the conditions of sudden light changes, sudden load changes, and both sudden changes. The effectiveness of PBC-SMC compound control is verified to ensure that the independent photovoltaic-energy storage system has excellent steady-state performance and dynamic performance, and the continuous power supply ability of the micro-grid is improved.
