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首页> 外文会议>International Seminar on Application for Technology of Information and Communication >Pulse Width Modulation (PWM) and Pulse Amplitude Modulation (PAM) Technique for Medium-Speed BLDCM in Electric Vehicle Application
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Pulse Width Modulation (PWM) and Pulse Amplitude Modulation (PAM) Technique for Medium-Speed BLDCM in Electric Vehicle Application

机译:电动车辆应用中型BLDCM脉冲宽度调制(PWM)和脉冲幅度调制(PAM)技术

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摘要

High torque and high efficiency are two factors used as a consideration of why many electric vehicles (EV) use brushless DC motor (BLDCM) as a propulsion system. Likewise, Amtenar car -a PENS's electric car- use this kind of motor as its propulsion. BLDCM can be driven by two techniques. They are Pulse Amplitude Modulation (PAM) and Pulse Width Modulation (PWM) technique. Both techniques are applied to the Amtenar car using the STM32F4 microcontroller to observe the dynamic speed response and efficiency which is operated under no-load conditions and on a load of Amtenar car. PWM scheme uses H-PWM-L-ON while PAM technique employes DC-DC buck converter. When PAM technique is applied to a no-load condition, PAM technique produces higher speed and efficiency and also produces a better dynamic speed performance as compared to PWM technique. While, when both techniques are applied to Amtenar car in the same line-to-line RMS voltage reference, PAM technique generates higher speed and has better dynamic speed performance than PWM technique. According to the comparative study of two techniques that have been observed in this paper, an efficient and high-performance technique for the BLDCM drive as an EV propulsion can be determined.
机译:高扭矩和高效率是两种因素,作为考虑为什么许多电动车辆(EV)使用无刷直流电机(BLDCM)作为推进系统的考虑因素。同样,Amtenar Car-A Pens的电动汽车 - 使用这种电机作为推进。 BLDCM可以由两种技术驱动。它们是脉冲幅度调制(PAM)和脉冲宽度调制(PWM)技术。使用STM32F4微控制器将两种技术应用于Amtenar汽车,以观察动态速度响应和效率,该速度响应和效率在无负荷条件下和Amtenar汽车的负载上操作。 PWM方案使用H-PWM-L-ON,而PAM技术采用DC-DC降压转换器。当PAM技术应用于空载条件时,PAM技术产生更高的速度和效率,并且与PWM技术相比,也产生更好的动态性能。虽然,当两种技术应用于在相同的线到线RMS电压参考的Amtenar汽车时,PAM技术产生更高的速度并且具有比PWM技术更好的动态速度性能。根据本文观察到的两种技术的比较研究,可以确定作为EV推进的BLDCM驱动器的有效和高性能技术。

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