Optimal Design of an Axial-Flux Permanent-Magnet Motor for an Electric Vehicle Based on Driving Scenarios

Yee Pien Yang; Guan Yu Shih

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Optimal Design of an Axial-Flux Permanent-Magnet Motor for an Electric Vehicle Based on Driving Scenarios

机译：基于行驶场景的电动汽车轴向磁通永磁电动机的优化设计

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This paper proposes a driving-scenario oriented optimal design of an axial-flux permanent-magnet (AFPM) motor for an electric vehicle. The target torque and speed (TN) curve is defined as three operation zones-constant torque, maximum direct current, and maximum voltage—based on the driving scenario. The AFPM motor is designed to minimize energy consumption based on the motor weight and the frequent operating points of a driving cycle. The final result shows that the electric vehicle driven by the proposed AFPM motor consumes about 15% less energy than motors designed using traditional methods.

机译：本文提出了一种针对驾驶场景的电动汽车轴向磁通永磁（AFPM）电动机的优化设计。目标扭矩和速度（TN）曲线根据行驶情况定义为三个操作区域，即恒定扭矩，最大直流电和最大电压。 AFPM电机旨在根据电机重量和行驶周期内的频繁运行点来最大程度地减少能耗。最终结果表明，由提出的AFPM电动机驱动的电动汽车比使用传统方法设计的电动机消耗的能源少约15％。

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《Energies》 |2016年第4期|共页
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Yee Pien Yang; Guan Yu Shih;
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2. Optimal Design of an Axial-Flux Permanent-Magnet Middle Motor Integrated in a Cycloidal Reducer for a Pedal Electric Cycle [J] . Jia-Ming Jiang, Jihong Wang, Yee-Pien Yang Energies . 2015,第12期

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3. Multi-objective optimal design of an axial-flux permanent-magnet wheel motor for electric scooters [J] . Yee-Pien Yang, Chung-Han Lee, Po-Chang Hung Electric Power Applications, IET . 2014,第1期

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4. Sizing equation and Finite Element Analysis optimum design of axial-flux permanent-magnet motor for electric vehicle direct drive [C] . Kahourzade Solmaz, Mahmoudi Amin, Rahim Nasrudin Abdul, Power Engineering and Optimization Conference (PEOCO), 2012 IEEE International . 2012

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7. Optimal Design of an Axial-Flux Permanent-Magnet Motor for an Electric Vehicle Based on Driving Scenarios [O] . Yee Pien Yang, Guan Yu Shih 2016

机译：基于驱动方案的电动汽车轴向磁通永磁电机的优化设计

Optimal Design of an Axial-Flux Permanent-Magnet Motor for an Electric Vehicle Based on Driving Scenarios

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