直流电动机的线性和非线性速度控制

2021 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON) Pub Date : 2021-01-08 DOI:10.1109/ODICON50556.2021.9428996

A. Naik, S. Kar, B. K. Sahu

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引用次数: 1

摘要

本文的主要目的是利用线性和非线性控制器对分离励磁直流电动机的速度进行指导。PID控制器被认为是线性控制器，SMC(滑模控制器)被认为是非线性控制器。这两个控制器都用于分析。本文的第一个目标是设计一种基于变结构系统的SMC，它是一种对外界干扰和参数变化不敏感的鲁棒非线性控制，与PID控制器相比，旨在减少单独励磁直流电动机的沉降时间、欠调量、最大超调量和上升时间。建立了分选励磁直流电动机的动态模型，利用MATLAB/SIMULINK分别实现了传统PID控制器和SMC控制器的速度控制。对两种控制器的仿真结果进行了研究和比较，结果表明SMC作为直流电动机的调速器比传统的PID具有更好的动态性能。当出现扰动时，SMC具有鲁棒性，且能完美地遵循理想速度。

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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Speed Control of DC Motor Using Linear and Non-Linear Controllers

The main aim of this paper is to keep guidance over the speed of a separately excited DC motor utilizing both linear and nonlinear controllers. PID controller is considered as a linear controller and SMC (Sliding Mode Controller) is considered as a nonlinear controller. Both the controllers are used for analysis. The first goal of this paper is to design a SMC based on variable structure systems which is a robust non linear control insensitive to external disturbances and parametric changes with aim to decreasing the settling time, undershoot, maximum overshoot and rise time of a separately excited DC motor as compared to PID controller. A dynamic model of separately excited DC motor is created and both conventional PID controller and SMC are implemented separately for speed control using MATLAB/SIMULINK. The simulation results obtained from both the controller are studied and compared, which shows that SMC has excellence dynamic performance than conventional PID as speed regulator of DC motor. While in occurrence of disturbances SMC is robust, the ideal speed is impeccably followed.

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2021 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON)

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