Demonstrative DC Motor Control under Power Communication Network

Minglei Lu, Chih-Cheng Huang, Chun-Liang Lin, Yunong Shen
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Abstract

Power line communication (PLC) has been used to transmit and receive digital data via power line in wide application. However, power lines weren’t built for data transmission originally. In practice, data transmission is commonly subjected to switching noise by the multi-path effect. The objective of this research is to establish a platform for easily tune the controller for motor control system under the PLC environment. We build up a dynamic model to simulate the power line environment for communication and propose a frequency-shift keying (FSK) technique to modulate and demodulate the signal for the purpose of network control in the disturbed feedback control loop. A modified proportional-integralderivative controller (PID controller) on positioning control a DC servo motor is proposed to against noise corruption while achieving tracking performance.
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电力通信网络下直流电机控制示范
电力线通信(PLC)是通过电力线传输和接收数字数据的一种通信方式,应用十分广泛。然而,电力线最初并不是为数据传输而建造的。在实际应用中,由于多径效应,数据传输通常会受到切换噪声的影响。本研究的目的是为PLC环境下的电机控制系统建立一个易于调优的控制器平台。建立了电力线通信环境的动态模拟模型,提出了一种移频键控技术,在扰动反馈控制环路中对信号进行调制解调,以达到网络控制的目的。提出了一种改进的比例积分导数控制器(PID控制器)用于直流伺服电机的定位控制,以防止噪声损坏,同时达到跟踪性能。
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