基于现场可编程门阵列的交流电机模糊控制器设计

Z. A. Obaid, N. Sulaiman, M. Hamidon
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引用次数: 3

摘要

本文设计了比例-积分-导数模糊控制器(PIDFLC)来控制交流电机的位置。采用VHDL语言设计了模糊控制器,并在现场可编程门阵列(FPGA)上实现。设计了两个版本的控制器,第一个是6位的,每个输入/输出变量(6FBC)使用6位,而第二个是每个输入/输出变量(8FBC)使用8位。将交流电机位置控制的二阶数学模型应用于统一反馈控制系统中。为了在ModelSim中进行仿真,已经使用不可合成的VHDL代码构建了仿真环境,并且为了在Matlab (MSBC)中进行仿真,在Matlab中编写了相同的设计。MSBC和6FBC的阶跃响应和控制作用的平均差异分别为- 0.0256和- 0.0009,MSBC和8FBC的阶跃响应和控制作用的平均差异分别为- 0.0030和0.0021,因为8FBC优于6FBC,它更接近MSBC。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of fuzzy logic controller for AC motor based on field programmable gate array
This paper presents design of proportional-integral-derivative fuzzy logic controller (PIDFLC) to control the position in AC motor. Fuzzy logic controller has been designed using VHDL language for implementation in field programmable gate array (FPGA). Two version of the controller have been designed, the first one is 6-bits which uses 6-bits for each input/output variables (6FBC), while the second uses 8-bits for each input/output variables (8FBC). Second order mathematical model represents a position control in AC motor has been used in unity feedback control system with the proposed controller. Simulation environments have been built using non-synthesizable VHDL code for the purpose of simulation in ModelSim, and the same design is coded in Matlab for the purpose of simulation in Matlab (MSBC). The Mean differences between MSBC and 6FBC for Step response and control action are −0.0256 and −0.0009 respectively, and The Mean differences between MSBC and 8FBC for Step response and control action are −0.0030 and 0.0021 respectively, since the 8FBC is superior to 6FBC and its much close to MSBC.
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