电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2015年
1期
122-128
,共7页
张月明%李俊%刘嘉%刘小宁%张敏敏%沈美杰%周海峰
張月明%李俊%劉嘉%劉小寧%張敏敏%瀋美傑%週海峰
장월명%리준%류가%류소저%장민민%침미걸%주해봉
超导磁体电源%谐波抑制%有源滤波%分数阶PI
超導磁體電源%諧波抑製%有源濾波%分數階PI
초도자체전원%해파억제%유원려파%분수계PI
superconducting magnet power supply%harmonic suppression%active filtering%fractional PI
稳态强磁场超导磁体电源采用双反星型可控硅整流技术方案,是一种典型的非线性负载,运行时会带来较大的无功冲击及谐波污染。针对科学装置的链式高压有源电力滤波方案规划,结合有源滤波系统的非线性特性,提出一种采用分数阶PI控制器代替普通PI控制器实现的电流内环解耦方法,基于改进的Oustaloup算法,实现分数阶微积分的求解。通过仿真与实验对比分析了分数阶PI与常规PI控制器的运行效果。经仿真与实验表明,采用的分数阶PI电流内环控制器是正确的,且具有一定的参考价值。
穩態彊磁場超導磁體電源採用雙反星型可控硅整流技術方案,是一種典型的非線性負載,運行時會帶來較大的無功遲擊及諧波汙染。針對科學裝置的鏈式高壓有源電力濾波方案規劃,結閤有源濾波繫統的非線性特性,提齣一種採用分數階PI控製器代替普通PI控製器實現的電流內環解耦方法,基于改進的Oustaloup算法,實現分數階微積分的求解。通過倣真與實驗對比分析瞭分數階PI與常規PI控製器的運行效果。經倣真與實驗錶明,採用的分數階PI電流內環控製器是正確的,且具有一定的參攷價值。
은태강자장초도자체전원채용쌍반성형가공규정류기술방안,시일충전형적비선성부재,운행시회대래교대적무공충격급해파오염。침대과학장치적련식고압유원전력려파방안규화,결합유원려파계통적비선성특성,제출일충채용분수계PI공제기대체보통PI공제기실현적전류내배해우방법,기우개진적Oustaloup산법,실현분수계미적분적구해。통과방진여실험대비분석료분수계PI여상규PI공제기적운행효과。경방진여실험표명,채용적분수계PI전류내배공제기시정학적,차구유일정적삼고개치。
Superconducting magnet power of stabilized intense magnetic fields adopts double-inverse-star silicon controlled rectifying technology; it is a typical non-linear load, which will bring about larger idle impact and harmonic pollution at runtime. Aiming at the program planning for chained high-voltage active power filter system in scientific devices, combing with the non-linear characteristics of active power filter system, a method adopting the fractional-order PI controller instead of ordinary PI controller is proposed to realize inner loop decoupling, and based on improved Oustaloup algorithm to achieve solution of fractional calculus. Through simulation and experimental comparison, the running effect of fractional-order PI controller and conventional PI controller is analyzed. According to simulation and experiment, this fractional-order PI controller is correct, and has a certain value for reference. This work is supported by National Natural Science Foundation of China (No. 50977086).