基于FPGA的智能电机驱动的软硬件协同设计

2020 2nd International Workshop on Human-Centric Smart Environments for Health and Well-being (IHSH) Pub Date : 2021-02-09 DOI:10.1109/IHSH51661.2021.9378712

Benzekri Azzouz, Belaidi Hadjira

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引用次数: 1

摘要

本文旨在利用硬件/软件协同设计方法解决模糊逻辑控制器的设计，仿真和实现过程，以实时调节电枢控制直流电机的速度。采用模糊逻辑控制律和数字脉宽调制(DPWM)技术作为计算解决方案，并在可重构的计算硬件平台上实现。计算密集型任务使用VHDL作为自定义硬件加速器实现，而数据流和数据控制则使用可编程芯片系统(SoPC)方法在软件中实现。计算机仿真结果表明了该设计流程的有效性和优越性。此外，在电枢控制直流电机平台上验证了该异构控制器的实时性。

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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Hardware/Software Codesign for Intelligent Motor Drive on an FPGA

The paper aims to address the design, simulation and implementation processes of a fuzzy logic controller to regulate in real-time the speed of an armature-controlled DC motor using hardware/software codesign methodology. A fuzzy logic control law and a digital pulse width modulation (DPWM) technique are used as a computational solution, while the implementation is carried on a reconfigurable computing hardware platform. The computationally intensive tasks are implemented as custom hardware accelerators using VHDL, while data flow and data control are implemented in software using the system-on-programmable-chip (SoPC) approach. Computer simulation results show the effectiveness and merit of this design flow. In addition, the real-time applicability of this heterogeneous controller is exemplified on an armature-controlled DC motor platform.

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2020 2nd International Workshop on Human-Centric Smart Environments for Health and Well-being (IHSH)

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