中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
3期
423-430
,共8页
李毅拓%陆海峰%瞿文龙%盛爽
李毅拓%陸海峰%瞿文龍%盛爽
리의탁%륙해봉%구문룡%성상
永磁同步电机%电流谐波抑制%谐振调节器%前馈控制
永磁同步電機%電流諧波抑製%諧振調節器%前饋控製
영자동보전궤%전류해파억제%해진조절기%전궤공제
permanent magnet synchronous motor (PMSM)%current harmonic suppression%resonant controller%feed-forward compensation
当永磁同步电机在转子磁场定向控制方法下运行时,由于电机齿槽以及逆变器死区效应等非理想因素的影响,d、q轴电流中会包含谐波。为了抑制电流谐波,该文采用在电流控制环上并联谐振调节器的方法对特定的谐波进行抑制。谐振调节器在给定的谐振频率下有无穷大的增益,因此可以对该频率的谐波进行完全抑制,但是当输入为阶跃信号时,电流响应会出现超调。为了消除超调,同时提高电流的动态响应速度,采用一种前馈控制方法,同时考虑数字控制延时的影响,达到了电流响应没有超调,快速跟踪的效果。为验证该文提出的方法,进行了仿真分析,并在1.25 kW永磁同步电机实验平台进行了实验,验证了该文方法对电流谐波抑制及动态响应速度的提升作用。
噹永磁同步電機在轉子磁場定嚮控製方法下運行時,由于電機齒槽以及逆變器死區效應等非理想因素的影響,d、q軸電流中會包含諧波。為瞭抑製電流諧波,該文採用在電流控製環上併聯諧振調節器的方法對特定的諧波進行抑製。諧振調節器在給定的諧振頻率下有無窮大的增益,因此可以對該頻率的諧波進行完全抑製,但是噹輸入為階躍信號時,電流響應會齣現超調。為瞭消除超調,同時提高電流的動態響應速度,採用一種前饋控製方法,同時攷慮數字控製延時的影響,達到瞭電流響應沒有超調,快速跟蹤的效果。為驗證該文提齣的方法,進行瞭倣真分析,併在1.25 kW永磁同步電機實驗平檯進行瞭實驗,驗證瞭該文方法對電流諧波抑製及動態響應速度的提升作用。
당영자동보전궤재전자자장정향공제방법하운행시,유우전궤치조이급역변기사구효응등비이상인소적영향,d、q축전류중회포함해파。위료억제전류해파,해문채용재전류공제배상병련해진조절기적방법대특정적해파진행억제。해진조절기재급정적해진빈솔하유무궁대적증익,인차가이대해빈솔적해파진행완전억제,단시당수입위계약신호시,전류향응회출현초조。위료소제초조,동시제고전류적동태향응속도,채용일충전궤공제방법,동시고필수자공제연시적영향,체도료전류향응몰유초조,쾌속근종적효과。위험증해문제출적방법,진행료방진분석,병재1.25 kW영자동보전궤실험평태진행료실험,험증료해문방법대전류해파억제급동태향응속도적제승작용。
When permanent magnet synchronous motor (PMSM) is controlled by field oriented control method, dq-axes current will contain harmonics due to non-ideal factors including slot effect of the motor, dead-time effect of the inverter, etc. To suppress the current harmonics, the resonant controllers are used in this paper by adding to the current control loop. The gain of resonant controller at the given resonant frequency is infinite, so it can suppress the harmonic totally at this frequency, however, when the input happens to be a step signal, the overshoot will occur in the current response. To eliminate the overshoot, and also to improve the dynamic response of the current, a command feed-forward compensation method is used in this paper, meanwhile the effects of the digital control delay are considered. Current response without overshoot is achieved with fast current response. To demonstrate the method proposed in this paper, simulation study is done, experiments are also finished on a built 1.25 kW PMSM platform, the effectiveness of the proposed method including the suppression of current harmonics and the improvement of the dynamic response is verified.