Experimental verification of chopper fed DC series motor with ANN controller

Experimental verification of chopper fed DC series motor with ANN controller

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摘要 In this article an artificial neural network （ANN） has been designed for the control of DC series motor through a DC chopper （DC-DC buck converter）. The proportional-integral-derivative （PID）-ANN speed controller controls the motor voltage by controlling the duty cycle of the chopper thereby the motor speed is regulated. The PID-ANN controller performances are analyzed in both steady-state and dynamic operating condition with various set speeds and various load torques. The rise time, maximum overshoot, settling time, steady-state error, and speed drops are taken for comparison with conventional PID controller and existing work. The training samples for the neuron controller are acquired from the conventional PID controller. The PID-ANN controller performances are analyzed in respect of various load torques and various speeds using MATLAB simula-tion. Then the designed controllers were experimentally verified using an NXP 80C51 based microcontroller （P89VSIRD2BN）. It was found that the hybrid PID-ANN controller with DC chopper can have better control compared with conventional PID controller. In this article an artificial neural network （ANN） has been designed for the control of DC series motor through a DC chopper （DC-DC buck converter）. The proportional-integral-derivative （PID）-ANN speed controller controls the motor voltage by controlling the duty cycle of the chopper thereby the motor speed is regulated. The PID-ANN controller performances are analyzed in both steady-state and dynamic operating condition with various set speeds and various load torques. The rise time, maximum overshoot, settling time, steady-state error, and speed drops are taken for comparison with conventional PID controller and existing work. The training samples for the neuron controller are acquired from the conventional PID controller. The PID-ANN controller performances are analyzed in respect of various load torques and various speeds using MATLAB simula-tion. Then the designed controllers were experimentally verified using an NXP 80C51 based microcontroller （P89VSIRD2BN）. It was found that the hybrid PID-ANN controller with DC chopper can have better control compared with conventional PID controller.

作者 M. MURUGANANDAM M. MADHESWARAN

机构地区 Centre for Advanced Research

出处《Frontiers of Electrical and Electronic Engineering in China》 CSCD 2012年第4期477-489,共13页 中国电气与电子工程前沿（英文版）

关键词 DC series motor proportional-integral-deri-vative （PID） controller artificial neural network （ANN）controller DC chopper speed control MATLAB simulink DC series motor, proportional-integral-deri-vative （PID） controller, artificial neural network （ANN）controller, DC chopper, speed control, MATLAB simulink

分类号 TP273 [自动化与计算机技术—检测技术与自动化装置] U469.72 [机械工程—车辆工程]

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2012年第4期

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Experimental verification of chopper fed DC series motor with ANN controller

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