电机与控制学报
電機與控製學報
전궤여공제학보
Electric Machines and Control
2015年
10期
57-63
,共7页
刘勇智%周政%盛增津%范冰洁%宋金龙
劉勇智%週政%盛增津%範冰潔%宋金龍
류용지%주정%성증진%범빙길%송금룡
开关磁阻起动/发电机%切换控制%滑模变结构控制器%遗传算法
開關磁阻起動/髮電機%切換控製%滑模變結構控製器%遺傳算法
개관자조기동/발전궤%절환공제%활모변결구공제기%유전산법
switched reluctance starter/generator%switching control%sliding mode variable structure con-troller%genetic algorithm
在分析开关磁阻电机( SRM)起动/发电状态切换原理的基础上,针对切换过程的建压和调压控制问题,设计一种基于遗传算法寻优的滑模变结构控制器。该控制器由原动机转速、负载电流、相电流以及输出电压等多闭环回路组成的反馈控制系统构成。在控制器中,设计了基于遗传算法的参数寻优模块,对开通角、关断角以及斩波电流幅值进行解算和筛选,从而保证切换过程的平稳度和快速性。建立基于有限元电磁分析的SRM模型,进行滑模变结构控制器的设计与仿真实验,并通过2 kW的SRM原理样机进行实验验证。仿真和实验结果证实,与传统PID控制策略进行比较,该控制器可以有效提高SRD/G切换过程的动态特性。
在分析開關磁阻電機( SRM)起動/髮電狀態切換原理的基礎上,針對切換過程的建壓和調壓控製問題,設計一種基于遺傳算法尋優的滑模變結構控製器。該控製器由原動機轉速、負載電流、相電流以及輸齣電壓等多閉環迴路組成的反饋控製繫統構成。在控製器中,設計瞭基于遺傳算法的參數尋優模塊,對開通角、關斷角以及斬波電流幅值進行解算和篩選,從而保證切換過程的平穩度和快速性。建立基于有限元電磁分析的SRM模型,進行滑模變結構控製器的設計與倣真實驗,併通過2 kW的SRM原理樣機進行實驗驗證。倣真和實驗結果證實,與傳統PID控製策略進行比較,該控製器可以有效提高SRD/G切換過程的動態特性。
재분석개관자조전궤( SRM)기동/발전상태절환원리적기출상,침대절환과정적건압화조압공제문제,설계일충기우유전산법심우적활모변결구공제기。해공제기유원동궤전속、부재전류、상전류이급수출전압등다폐배회로조성적반궤공제계통구성。재공제기중,설계료기우유전산법적삼수심우모괴,대개통각、관단각이급참파전류폭치진행해산화사선,종이보증절환과정적평은도화쾌속성。건립기우유한원전자분석적SRM모형,진행활모변결구공제기적설계여방진실험,병통과2 kW적SRM원리양궤진행실험험증。방진화실험결과증실,여전통PID공제책략진행비교,해공제기가이유효제고SRD/G절환과정적동태특성。
Based on the analysis on the principle of the SRM ( Switched Reluctance Motor ) status swit-chover from starter to generator, a genetic algorithm sliding mode variable structure controller was de-signed to solve the problem about voltage buildup and adjustment during the process of switchover. The controller consists of multi-close-routines feedback controlling system such as the rotation speed of prime motor, load current, phase current and output voltage. Parameters optimization model based on genetic algorithm, in the controller, was designed to conclude and the turn-on angle, turn-off angle and chopping current was selected to ensure the switchover steady and rapid. SRM module based on finite element elec-tromagnetic analysis was built to design and to simulate the sliding mode variable structure controller. A 2kW SRM model machine was utilized to validate the design. The results shows that the controller, com-paed with traditional PID controlling strategy, can improve the dynamic feature of switchover process of SRD/G efficiently.
