期刊文献+

基于定子电流和转速的新型IPM电流调节器的研究与实现

New Current Controller for IPM Based on Stator Current and Speed
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摘要 内置式永磁同步电机(IPM)以其能量密度大,调速范围广的特点在插入式混合动力电动车(PHEV)上得到广泛的应用。该文针对传统矢量控制两电流调节器高速调节(TCC)困难的问题,给出了一种单电流调节器(SCC),并提出一种根据反馈的定子电流和转速提高SCC效率和稳定性的方法即可调节单电流调节器(ASCC)。利用电机稳态数学模型,推导出q轴及其解耦分量可由d轴电流决定的数学表达式,通过在矢量图上对比最大电流/转矩(MTPA)及理想控制曲线,说明了ASCC的有效性。仿真和实验结果证明所设计的控制器具有很好的效率和应用前景。 IPM(Interior Permanent Magnet Synchronous Machines)have the advantages in the field of power density,wide-range speed,as a result many auto corporations hires it for PHEV(Plug-in Hybrid Electrical Vehicle).In the field of PHEV,wide-range speed reminding invariable power is very important,but normal TCC(Two Current controller)faces the problem of controlling stability and lower IGBT current efficiency.In this paper,first introduced a new structure named SCC(Single Current controller),and next developed an ASCC(Adaptive Single Current controller)for getting a better current efficiency.With the help of steady IPM model,educed the relation between and,decoupling part.The experimented and simulation results show that ASCC controller has a good performance and practical use prospects.
出处 《微电机》 北大核心 2010年第9期37-40,共4页 Micromotors
基金 863重大项目奇瑞混合动力汽车大规模产业化产品技术(2008AA11A139)
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