Design and Implementation of Improved Gate Driver Circuit for Sensorless Permanent Magnet Synchronous Motor Control

IF 2.6 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Indra Ferdiansyah, Tsuyoshi Hanamoto
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引用次数: 0

Abstract

Reliable motor control is important for electric vehicle applications. The control process requires accurate measurements of the current and rotor position information to establish correct motor control design, particularly in sensorless permanent magnet synchronous motor control systems. Practical issues regarding the motor control circuit, such as the effects of parasitic element behavior on the switching components in the insulated gate bipolar transistor-driven inverter, were discussed in this study. It analyzed the effects of parasitic elements that can cause the ringing of switching losses and affect the spike of the signal in the motor current, which must be avoided in the implementation of motor control. The gate driver circuit topology was improved to reduce this effect in motor control devices. The proposed gate driver circuit design with the ringing suppression circuit configuration achieved good performance by keeping the signal spike at less than 10% in the motor current. Furthermore, a signal spike or noise was not observed in the estimation results of rotor position when using current information as the parameter control process. Both conditions were verified by experiments on the designed motor control devices. Under these conditions, signal precision can be achieved in motor control.
设计和实现用于无传感器永磁同步电机控制的改进型栅极驱动电路
可靠的电机控制对于电动汽车应用非常重要。控制过程需要精确测量电流和转子位置信息,以确定正确的电机控制设计,特别是在无传感器永磁同步电机控制系统中。本研究讨论了电机控制电路的实际问题,如寄生元件行为对绝缘栅双极晶体管驱动逆变器中开关元件的影响。它分析了寄生元件的影响,这些寄生元件会导致开关损耗振铃,并影响电机电流中的信号尖峰,在实现电机控制时必须避免这些影响。为了减少电机控制设备中的这种影响,对栅极驱动器电路拓扑结构进行了改进。建议的栅极驱动器电路设计采用振铃抑制电路配置,通过将电机电流中的信号尖峰保持在 10%以下,实现了良好的性能。此外,在使用电流信息作为参数控制过程时,转子位置的估计结果中也没有观察到信号尖峰或噪声。这两个条件都在所设计的电机控制设备上得到了实验验证。在这些条件下,电机控制可以实现信号精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
World Electric Vehicle Journal
World Electric Vehicle Journal Engineering-Automotive Engineering
CiteScore
4.50
自引率
8.70%
发文量
196
审稿时长
8 weeks
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