Reconfigurable Hardware-based Embedded Control System Development using LabView Environment

Reconfigurable Hardware-based Embedded Control System Development using LabView Environment

In recent years embedded systems gains attractiveness over traditional computer-based systems in many industrial applications. Usually embedded systems are optimized for a particular task and function. They express many advantages in terms of performance, cost-effectiveness, reliability, size-weight...

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Bibliographic Details
Main Author: SZÁSZ Csaba
Format: Article
Language:English
Published: Editura Universităţii din Oradea 2025-05-01
Series:Journal of Electrical and Electronics Engineering
Subjects:
reconfigurable hardware technology
fpga processor
motor control
embedded system
labview graphical software
Online Access:https://electroinf.uoradea.ro/images/articles/CERCETARE/Reviste/JEEE/JEEE_V18_N1_MAY_2025/10%20paper%202501221%20SZASZ.pdf
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Summary:In recent years embedded systems gains attractiveness over traditional computer-based systems in many industrial applications. Usually embedded systems are optimized for a particular task and function. They express many advantages in terms of performance, cost-effectiveness, reliability, size-weight, or interfacing versatility over other computing solutions. This paper presents a specially developed reconfigurable hardware technology-based embedded system designed for a large scale of industrial control purposes. The software framework of the system has been developed in LabView graphical software environment. The final prototype of the conceived embedded system built upon a high performance FPGA-based development board has been tested in laboratory conditions. There, in a first step a simple dc motor control algorithm has been implemented, similar to many other motors control tasks that may be found in a wide range of practical applications of modern industry. As a result, the laboratory setup embedded system expresses a compact and modular structure, high operational precision, respectively real-time task execution abilities. In addition, the used last-generation reconfigurable hardware technology allows it huge flexibility and versatility in interfacing to many other hardware interfaces and industrial modules. Therefore, the presented design methodology and implemented setup may constitute a useful start point for other future developments. As well as, to provide ideas and guidance for researchers how to conceive and implement a large scale of high performance modern embedded systems.
ISSN:1844-6035
2067-2128

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