期刊文献+

基于模型预测变开关频率PWM的EMI主动抑制技术 被引量:4

Active EMI Suppression Technologies Based on Model Predictive Variable Switching Frequency PWM
下载PDF
导出
摘要 脉宽调制(PWM)是电力电子技术的重要基础领域,是当前电力电子变换器实现交直流电能变换与控制的主要方式。模型预测变开关频率PWM技术是经典脉宽调制技术理论在电力电子变换器领域的重要发展,也是扩频调制技术的一个新兴分支,融合了微秒级时间尺度的开关纹波时域预测模型,可主动控制PWM开关频率自由度,在实现电磁干扰主动抑制的同时,综合权衡了电力电子变换器开关纹波、开关损耗等重要因素。文章综述了基于模型预测变开关频率PWM的传导电磁干扰主动抑制技术的研究进展,回顾了基于不同预测模型的变开关频率PWM技术的实现方法,探讨了模型预测变开关频率PWM技术应用过程中的关键共性问题,进而展望了此技术在电力电子变换器领域的发展方向与机遇。 Pulse width modulation(PWM)technology is an important basic field in the power electronics technology.Model predictive variable switching frequency PWM is an important progress of PWM theory in the field of power electronic converter and a new branch of spread spectrum modulation to reduce the conducted EMI peak noise,which incorporates the time-domain switching ripple prediction model ofμs time scale,and actively controls the switching frequency freedom of PWM,realizing active conducted EMI suppression and weighing a comprehensive balance of switching ripple and switching losses in power electronic converters.This paper mainly summarizes the development of conducted EMI suppression technologies based on model predictive variable switching frequency PWM,and reviews the realization method of variable switching frequency PWM technology based on different prediction models,and discusses the key common problems in the application process of model predictive variable switching frequency PWM technology.Finally,the future development and opportunity of model predictive variable switching frequency PWM technology in power electronic converter field are prospected.
作者 李桥 蒋栋 赵炫 刘自程 孙伟 Li Qiao;Jiang Dong;Zhao Xuan
出处 《安全与电磁兼容》 2022年第6期9-18,共10页 Safety & EMC
基金 国家自然科学基金(52107189)。
关键词 脉宽调制 开关频率 模型预测 电磁干扰 开关纹波 开关损耗 pulse width modulation(PWM) switching frequency prediction model electromagnetic interference(EMI) switching ripple switching losses
  • 相关文献

参考文献8

二级参考文献60

  • 1王颢雄,王斌,周丹,黄凯,崔景秀.两种随机PWM调制技术的比较研究[J].电气传动,2006,36(11):23-25. 被引量:7
  • 2[1]Bruce Carsten.H-Field Probes Spot Switchmode Supply EMI[J].PCIM Magazine,2001(12):24-36.
  • 3[2]白同云.电子电路实用抗干扰技术[M].北京:邮电大学出版社,2002.
  • 4A Richelli,L Colalongo,M Quarantelli,et al.Robust Design of Low EMI Susceptibility CMOS op-amp[J].IEEE Trans.on Electromagn.Compat.,2004,46(2):291-298.
  • 5J N Chiasson,L M Tolbert,K J McKenzie,et al.A Complete Solution to the Harmonic Elimination Problem[J].IEEE Trans.on Power Electronics,2004,19(3):491-499.
  • 6Kagerbauer,J D Jahns,T M.Development of an Active du/dt Control Algorithm for Reducing Inverter Conducted EMI with Minimal Impact on Switching Losses[A].Power Electronics Specialists Conference,PESC'07[C].2007:894-900.
  • 7L D Smith,R E Anderson,D W Forehand,et al.Power Distribution Design Methodology and Capacitor Selection for Modern CMOS Technology[J].IEEE Trans.on Adv.Packag,1999,22(3):284-291.
  • 8Gonzalez D,Balcells J,Santolaria A,et al.Conducted EMI Reduction in Power Converters by Means of Periodic Switching Frequency Modulation[J].IEEE Trans.on Power Electronics,2007,22(6):2271-2281.
  • 9崔纳新,张承慧,李珂,石庆升.电动汽车异步电机变频驱动系统的自抗扰控制[J].电工技术学报,2007,22(8):150-154. 被引量:11
  • 10陈天殷.汽车电器电磁兼容性及电磁干扰的抑制[J].汽车电器,2007(1):56-59. 被引量:20

共引文献57

同被引文献22

引证文献4

二级引证文献1

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部