电机与控制学报
電機與控製學報
전궤여공제학보
ECTRIC MACHINES AND CONTROL
2015年
4期
34-39
,共6页
永磁右线同步电机%组合磁极%正弦磁场%剩磁%解析法
永磁右線同步電機%組閤磁極%正絃磁場%剩磁%解析法
영자우선동보전궤%조합자겁%정현자장%잉자%해석법
PMLSM%modular pole sinusoidal magnetic field%remanence%analytical method
针对传统永磁直线同步电机( PMLSM)齿槽效应及单一磁极产生的非正弦气隙磁场引起电机推力波动,使电机性能变差问题,提出一种组合磁极无槽PMLSM,以提高电机气隙磁场正弦度。建立了组合磁极结构模型,采用分层模型法将气隙磁场叠加,研究消除前三次低频次谐波磁场时,其正弦气隙磁场与电机结构参数及材料特性之间的解析关系式。对比分析了组合磁极和磁极未分段时的气隙磁密、空载反电势及其谐波磁场。研究结果表明当组合磁极中各段磁极长度、剩磁比例系数满足确定约束关系时,气隙磁场中三次、五次、七次谐波均为零,能使气隙磁密和空载反电势趋于标准正弦形,有效消除谐波影响,提高电机性能。解析法和有限元法结果一致证明了理论分析的正确性。
針對傳統永磁直線同步電機( PMLSM)齒槽效應及單一磁極產生的非正絃氣隙磁場引起電機推力波動,使電機性能變差問題,提齣一種組閤磁極無槽PMLSM,以提高電機氣隙磁場正絃度。建立瞭組閤磁極結構模型,採用分層模型法將氣隙磁場疊加,研究消除前三次低頻次諧波磁場時,其正絃氣隙磁場與電機結構參數及材料特性之間的解析關繫式。對比分析瞭組閤磁極和磁極未分段時的氣隙磁密、空載反電勢及其諧波磁場。研究結果錶明噹組閤磁極中各段磁極長度、剩磁比例繫數滿足確定約束關繫時,氣隙磁場中三次、五次、七次諧波均為零,能使氣隙磁密和空載反電勢趨于標準正絃形,有效消除諧波影響,提高電機性能。解析法和有限元法結果一緻證明瞭理論分析的正確性。
침대전통영자직선동보전궤( PMLSM)치조효응급단일자겁산생적비정현기극자장인기전궤추력파동,사전궤성능변차문제,제출일충조합자겁무조PMLSM,이제고전궤기극자장정현도。건립료조합자겁결구모형,채용분층모형법장기극자장첩가,연구소제전삼차저빈차해파자장시,기정현기극자장여전궤결구삼수급재료특성지간적해석관계식。대비분석료조합자겁화자겁미분단시적기극자밀、공재반전세급기해파자장。연구결과표명당조합자겁중각단자겁장도、잉자비례계수만족학정약속관계시,기극자장중삼차、오차、칠차해파균위령,능사기극자밀화공재반전세추우표준정현형,유효소제해파영향,제고전궤성능。해석법화유한원법결과일치증명료이론분석적정학성。
For the problem that non-sinusoidal air-gap magnetic field caused by the slot effect and the sin-gle pole of traditional permanent magnet linear synchronous motor ( PMLSM ) generates thrust ripple and affect the its performance, a structure of slotless PMLSM using modular pole was proposed to improve the sine degree of the magnetic field. The structure model of modular poles was established, and the superpo-sition of air-gap magnetic field was computed by layer model method. For eliminating the first three low frequency harmonic magnetic fields, the analytical method was used to analyze the relationship between the structure parameters and material characteristics when the air-gap magnetic field is sine wave, and to study the flux density, no-load EMF and harmonic magnetic field of the modular pole and single pole. The comparing results show that the 3rd, 5th and 7th are both equal to zero, the magnetic field and no-load EMF tends to sine wave when the width and remanence ratio of the modular poles satisfy assured constrains. The motor can effectively eliminate harmonic effects and improve its performance. The validity of theoretical analysis is proved by analytical method and FEM results.