[1]张 超,郭 辉,袁 涛,等.永磁同步电机低频谐波电流对电磁噪声影响[J].机械与电子,2023,41(08):3-7.
 ZHANG Chao,GUO Hui,YUAN Tao,et al.Effect of Low Frequency Harmonic Current on Electromagnetic Noise of Permanent Magnet Synchronous Motor[J].Machinery & Electronics,2023,41(08):3-7.
点击复制

永磁同步电机低频谐波电流对电磁噪声影响()
分享到:

《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
41
期数:
2023年08期
页码:
3-7
栏目:
设计与研究
出版日期:
2023-08-25

文章信息/Info

Title:
Effect of Low Frequency Harmonic Current on Electromagnetic Noise of Permanent Magnet Synchronous Motor
文章编号:
1001-2257 ( 2023 ) 08-0003-05
作者:
张 超 1 郭 辉 1 袁 涛 1 孙 裴 1 肖兰兰 1 李 林 2
1. 上海工程技术大学机械与汽车工程学院,上海 201620 ;
2. 中国人民解放军 32128 部队,山东 济南 250000
Author(s):
ZHANG Chao1 GUO Hui1 YUAN Tao1 SUN Pei1 XIAO Lanlan1 LI Lin2
( 1.School of Mechanical and Automotive Engineering , Shanghai University of Engineering Science , Shanghai 201620 , China ; 2.32128 PLA Troops , Jinan 250000 , China )
关键词:
永磁同步电机谐波电流电磁噪声仿真分析
Keywords:
permanent magnet synchronous motor harmonic current electromagnetic noise simulation analysis
分类号:
TM341
文献标志码:
A
摘要:
为研究永磁同步电机( PMSM )中低频谐波电流对电磁噪声的影响,通过 ANSYS Maxwell 电磁仿真软件,计算正弦波电流源及含五次和七次低频谐波电流源产生的电磁力,同时分析定子组件各阶模态;利用 LMS Virtual Lab 声学仿真软件分析对比正弦波电流源及含五次和七次低频谐波电流源 2 种激励下电机产生的电磁噪声。仿真结果表明,五次和七次低频谐波电流的加入增大了电机 4 倍和 6 倍电流基波频率处的电磁噪声。
Abstract:
In order to study the effect of low-frequency harmonic current on electromagnetic noise of permanent magnet synchronous motor ( PMSM ), this paper calculates the electromagnetic force generated by sine wave current source and current source containing 5th and 7th low-frequency harmonics through ANSYS Maxwell electromagnetic simulation software and analyzes each order mode of stator components. LMS Virtual Lab acoustic simulation software was used to analyze and compare the electromagnetic noise generated by the motor under the excitation of sinusoidal current source and current source with 5th and 7th low-frequency harmonics.The simulation results show that addition of the 5th and 7th low-frequency harmonic currents increases the electromagnetic noise at 4 and 6 times the current fundamental frequency of the motor.

参考文献/References:

[ 1 ] 王虹雨 . 电动汽车用内置式永磁同步电机电磁噪声振动特性研究[ D ] . 杭州:浙江大学,2021.

[ 2 ] ISLAM R , HUSAIN I.Analytical model for predicting noise and vibration in permanent magnet synchronous motors [ J ] .IEEE Transactions on industry application ,2010 , 46 ( 6 ): 2346-2354.
[ 3 ] 白学森 . 电动汽车驱动用分数槽永磁同步电机电磁噪声优化[ J ] . 电机与控制应用, 2022 , 49 ( 6 ): 60-65.
[ 4 ] 陈明轩,尹红彬,高永超,等 . 采用转子开槽的内置永磁电机噪声抑制 [ J ] . 重庆理工大学学报 (自然科学),2022 , 36 ( 8 ): 109-118.
[ 5 ] 范庆锋,王光晨 . 转子不同方式分段斜极对永磁同步电机噪声的影响[ J ] . 电机与控制应用, 2020 , 47 ( 9 ): 79-83.
[ 6 ] 唐任远,宋志环,于慎波,等 . 变频器供电对永磁电机振动噪声源的影响研究[ J ] . 电机与控制学报,2010 , 14( 3 ): 12-17.
[ 7 ] ZHANG W Y , XU Y X , REN J W , et al.Synchronous periodic frequency modulation based on interleaving technique to reduce PWM vibration noise [ J ] .Journal of power electronics , 2019 , 19 ( 6 ): 1515-1526.
[ 8 ] 王长城 . 电动汽车永磁同步电机电磁噪声研究[ D ] . 上海:上海工程技术大学,2018.
[ 9 ] 杨浩东 . 永磁同步电机电磁振动分析[ D ] . 杭州:浙江大学,2011.
[ 10 ] 胡溧,张桐,袁爽,等 . 加速工况下永磁同步电机电磁噪声分析与优化[ J ] . 微电机, 2022 , 55 ( 1 ): 25-29.
[ 11 ] 周吉威 . 谐波电流对永磁同步电机振动噪声影响研究[ D ] . 沈阳:沈阳工业大学,2015.
[ 12 ] LIN F , ZUO S G , DENG W Z , et al.Modeling and analysis of electromagnetic force , vibration and noise in permanent magnet synchronous motor considering current harmonics [ J ] .IEEE Transactions on industrial electronics , 2016 , 63 ( 12 ): 7455-7466.
[ 13 ] 岳东鹏,夏洪兵,高辉,等 . 电动汽车驱动电机电磁噪声的仿真分析[ J ] . 噪声与振动控制,2018 , 38 (增刊1 ): 175-180.

相似文献/References:

[1]柯希彪1,郭 琳1,2,等.基于模糊滑模控制策略的永磁同步电机控制[J].机械与电子,2019,(08):60.
 ,,et al.Permanent-magnet Synchronous Motor Control Based on Fuzzy Sliding Mode Control Strategy[J].Machinery & Electronics,2019,(08):60.
[2]张 旭,孙永荣,陈 悦,等.基于ILC算法的飞机主动侧杆位置控制研究[J].机械与电子,2019,(12):42.
 ZHANG Xu,SUN Yongrong,CHEN Yue,et al.Research on Position Control of Active Sidestick Based on ILC Algorithm[J].Machinery & Electronics,2019,(08):42.
[3]柯希彪1,3,郭 琳1,等.永磁同步电机积分滑模观测器控制[J].机械与电子,2020,(05):59.
 ,,et al.Integral Sliding Mode Observer Control ofPermanent Magnet Synchronous Motor[J].Machinery & Electronics,2020,(08):59.
[4]李 磊.APF系统谐波电流检测方法的研究[J].机械与电子,2020,(09):17.
 LI Lei.Research on Harmonic Current Detection Method of APF System[J].Machinery & Electronics,2020,(08):17.
[5]成旭明,段 杰,肖 息,等.粒子群优化的变论域模糊 PI 机电作动器控制[J].机械与电子,2022,(01):42.
 CHENG Xuming,DUAN Jie,XIAO Xi,et al.Variable Universe Fuzzy PI Control of Electro-mechanical Actuator Based on Particle Swarm Optimization[J].Machinery & Electronics,2022,(08):42.
[6]孙 凯,张友海,刘道国,等.齿轮加工机床用永磁同步电机直接转矩控制方法[J].机械与电子,2023,41(07):52.
 SUN Kai,ZHANG Youhai,LIU Daoguo,et al.Direct Torque Control Method of Permanent Magnet Synchronous Motor for Gear Machining Machine Tool[J].Machinery & Electronics,2023,41(08):52.
[7]吴 昊,孙永荣,孙旭东,等.基于 MPC 算法的飞机主动侧杆杆力控制研究[J].机械与电子,2023,41(08):33.
 WU Hao,SUN Yongrong,SUN Xudong,et al.Research on Stick Force Control of Active Side Stick Based on MPC Algorithm[J].Machinery & Electronics,2023,41(08):33.

备注/Memo

备注/Memo:
收稿日期: 2022-11-11
基金项目:国家自然科学基金资助项目( 52172371 )
作者简介:张 超 ( 1998- ),男,安徽宿松人,硕士研究生,研究方向为汽车驱动电机振动噪声;郭 辉 ( 1981- ),男,山东曹县人,教授,研究方向为车辆振动噪声,通信作者。
更新日期/Last Update: 2023-09-07