基于霍尔传感器的复杂可编程逻辑器件的无刷直流电机控制

2021 International Conference on Smart-Green Technology in Electrical and Information Systems (ICSGTEIS) Pub Date : 2021-10-28 DOI:10.1109/ICSGTEIS53426.2021.9650433

Muhammad Fajri Sachruddin, Faizal Arya Samman, R. Sadjad

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摘要

本文介绍了利用复杂可编程逻辑器件(CPLD)设计和实现无刷直流(BLDC)电机的速度控制。速度控制的实现是使用PWM技术通过改变占空比应用于三相逆变器。转子位置由霍尔传感器确定，霍尔传感器用作同步PWM控制信号的参考。采用Verilog硬件描述语言(HDL)编写控制模型，并使用ModelSim-Altera进行仿真验证。建立了实验装置，测试了PWM控制下无刷直流电机的性能。控制算法采用Max II EPM240T100C5器件在350W 36V额定无刷直流电机上实现。CPLD使用的逻辑单元数约为240个逻辑单元中的150个。该系统产生占空比可控的PWM，工作频率约为20KHz，按六步换相顺序换相，最高可达2300 RPM。

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BLDC Motor Control using a Complex Programmable Logic Device with Hall-Sensors

This paper presents the design and implementation of speed control for a brushless direct current (BLDC) motor using a complex programmable logic device (CPLD). Implementation of speed control is using a PWM technique by varying duty cycles applied to a three-phase inverter. Rotor position determines by hall sensors which are used as references to synchronize the PWM control signals. The control model is written using Verilog Hardware Description Language (HDL) and verified by simulation using ModelSim-Altera. An experimental setup is built to test the performance of the BLDC Motor under the PWM control. The control algorithm is implemented using Max II EPM240T100C5 devices on a 350W 36V rated BLDC motor. The number of the used logic elements (LEs) of the CPLD is about 150 of 240 LEs. PWM with controllable duty cycle generated in this system for having working frequency about 20KHz and commutate sequentially according to six-step commutation up to 2300 RPM.

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2021 International Conference on Smart-Green Technology in Electrical and Information Systems (ICSGTEIS)

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