Recently, many optimal designs for axial flux permanent magnet (AFPM) motors were performed based on finite- element (FE) analysis. Most of the models are based on reduction of 3D problem to 2D problem which is not ac...Recently, many optimal designs for axial flux permanent magnet (AFPM) motors were performed based on finite- element (FE) analysis. Most of the models are based on reduction of 3D problem to 2D problem which is not accurate for design aspects. This paper describes an accurate electromagnetic analysis of a surface mounted, 28 pole AFPM with concentrated stator winding. The AFPM is modeled with three-dimensional finite-element method. This model in-cludes all geometrical and physical characteristics of the machine components. Using this accurate modeling makes it possible to obtain demanded signals for a very high precision analysis. Magnetic flux density, back-EMF, magnetic axial force and cogging torque of the motor are simulated using FLUX-3D V10.3.2. Meanwhile, the model is paramet-ric and can be used for design process and sensitivity analysis.展开更多
In this paper, using axial field finite analysis method, the field of a movable core type linear oscillation motor is analyzed. The program of axial field finite analysis is worked out. Using this program, we analyze ...In this paper, using axial field finite analysis method, the field of a movable core type linear oscillation motor is analyzed. The program of axial field finite analysis is worked out. Using this program, we analyze various fields, including the field excited by permanent magnet materials, the field by two coils respectively, and the fields with the core moving to various positions.展开更多
为了满足定子无磁轭分块电枢(yokeless and segmented armature,YASA)轴向磁通永磁电机作为车用牵引电机时对输出转矩高平稳性的要求,提出一种基于永磁体径向均匀分段、分组同向偏移的方法来抑制YASA电机的齿槽转矩,以降低转矩脉动。应...为了满足定子无磁轭分块电枢(yokeless and segmented armature,YASA)轴向磁通永磁电机作为车用牵引电机时对输出转矩高平稳性的要求,提出一种基于永磁体径向均匀分段、分组同向偏移的方法来抑制YASA电机的齿槽转矩,以降低转矩脉动。应用三维有限元分析,分别研究了3种不同的永磁体分段方案对齿槽转矩的削弱效果,确定了磁极的最优偏转角度及其对电机综合性能的影响。仿真结果验证了该方法的可行性。YASA电机的齿槽转矩降低了92.62%,额定工况下转矩脉动下降了72.02%,永磁体涡流损耗降低91.28%,同时输出转矩下降不超过5.34%,提高了YASA电机的综合性能。展开更多
针对高频非晶合金轴向磁通永磁电机永磁体涡流损耗大、永磁体温升高的问题,对定子连接板上开设水道冷却系统和电机两侧端盖加装冷却水套冷却系统的冷却效果进行了对比分析。对于定子连接板上开设水道冷却系统,计算了不同水道数和不同水...针对高频非晶合金轴向磁通永磁电机永磁体涡流损耗大、永磁体温升高的问题,对定子连接板上开设水道冷却系统和电机两侧端盖加装冷却水套冷却系统的冷却效果进行了对比分析。对于定子连接板上开设水道冷却系统,计算了不同水道数和不同水速时永磁体温升,给出了水道数选择依据。对电机两侧端盖加装冷却水套冷却系统,分析了冷却水套中有无扰流板以及扰流板形状及其放置位置对冷却效果的影响,并对几种方案水头损失进行了对比分析。计算了不同水速时定子连接板水道冷却系统和无扰流板水套冷却系统永磁体温升和水头损失,指出定子连接板水道冷却系统更适合于非晶合金轴向磁通永磁电机。对一台7 k W、无扰流板水套冷却系统非晶合金轴向磁通永磁样机进行了温升实验,实验结果验证了仿真分析的正确性。展开更多
为了实现轴向磁场永磁(axial field permanent magnet,AFPM)电机大转矩惯量比、低转矩脉动等高品质转矩输出,提出磁极径向组合式的AFPM电机,采用传统表贴永磁与Halbach永磁阵列沿径向排列的转子结构。分析电机运行原理,推导电机功率尺...为了实现轴向磁场永磁(axial field permanent magnet,AFPM)电机大转矩惯量比、低转矩脉动等高品质转矩输出,提出磁极径向组合式的AFPM电机,采用传统表贴永磁与Halbach永磁阵列沿径向排列的转子结构。分析电机运行原理,推导电机功率尺寸方程;通过有限元方法对比分析该结构与传统表贴式结构的磁场分布、转矩、转矩脉动、反电动势及电感等电磁特性。在此基础上,基于响应面分析,构建多目标遗传优化设计方法,对电机转矩、齿槽转矩、反电动势和转矩脉动进行优化设计。最后,基于优选参数加工制造样机,并进行实验研究,验证了该电机结构的有效性和分析的正确性。展开更多
文摘Recently, many optimal designs for axial flux permanent magnet (AFPM) motors were performed based on finite- element (FE) analysis. Most of the models are based on reduction of 3D problem to 2D problem which is not accurate for design aspects. This paper describes an accurate electromagnetic analysis of a surface mounted, 28 pole AFPM with concentrated stator winding. The AFPM is modeled with three-dimensional finite-element method. This model in-cludes all geometrical and physical characteristics of the machine components. Using this accurate modeling makes it possible to obtain demanded signals for a very high precision analysis. Magnetic flux density, back-EMF, magnetic axial force and cogging torque of the motor are simulated using FLUX-3D V10.3.2. Meanwhile, the model is paramet-ric and can be used for design process and sensitivity analysis.
文摘In this paper, using axial field finite analysis method, the field of a movable core type linear oscillation motor is analyzed. The program of axial field finite analysis is worked out. Using this program, we analyze various fields, including the field excited by permanent magnet materials, the field by two coils respectively, and the fields with the core moving to various positions.
文摘为了满足定子无磁轭分块电枢(yokeless and segmented armature,YASA)轴向磁通永磁电机作为车用牵引电机时对输出转矩高平稳性的要求,提出一种基于永磁体径向均匀分段、分组同向偏移的方法来抑制YASA电机的齿槽转矩,以降低转矩脉动。应用三维有限元分析,分别研究了3种不同的永磁体分段方案对齿槽转矩的削弱效果,确定了磁极的最优偏转角度及其对电机综合性能的影响。仿真结果验证了该方法的可行性。YASA电机的齿槽转矩降低了92.62%,额定工况下转矩脉动下降了72.02%,永磁体涡流损耗降低91.28%,同时输出转矩下降不超过5.34%,提高了YASA电机的综合性能。
文摘针对高频非晶合金轴向磁通永磁电机永磁体涡流损耗大、永磁体温升高的问题,对定子连接板上开设水道冷却系统和电机两侧端盖加装冷却水套冷却系统的冷却效果进行了对比分析。对于定子连接板上开设水道冷却系统,计算了不同水道数和不同水速时永磁体温升,给出了水道数选择依据。对电机两侧端盖加装冷却水套冷却系统,分析了冷却水套中有无扰流板以及扰流板形状及其放置位置对冷却效果的影响,并对几种方案水头损失进行了对比分析。计算了不同水速时定子连接板水道冷却系统和无扰流板水套冷却系统永磁体温升和水头损失,指出定子连接板水道冷却系统更适合于非晶合金轴向磁通永磁电机。对一台7 k W、无扰流板水套冷却系统非晶合金轴向磁通永磁样机进行了温升实验,实验结果验证了仿真分析的正确性。
文摘为了实现轴向磁场永磁(axial field permanent magnet,AFPM)电机大转矩惯量比、低转矩脉动等高品质转矩输出,提出磁极径向组合式的AFPM电机,采用传统表贴永磁与Halbach永磁阵列沿径向排列的转子结构。分析电机运行原理,推导电机功率尺寸方程;通过有限元方法对比分析该结构与传统表贴式结构的磁场分布、转矩、转矩脉动、反电动势及电感等电磁特性。在此基础上,基于响应面分析,构建多目标遗传优化设计方法,对电机转矩、齿槽转矩、反电动势和转矩脉动进行优化设计。最后,基于优选参数加工制造样机,并进行实验研究,验证了该电机结构的有效性和分析的正确性。