Research on the optimisation of motor circuit design in automated single-chip microcomputer systems
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DOI: 10.25236/meimie.2024.018
Author(s)
Xiangyun Cai, Ziyao Zheng
Corresponding Author
Xiangyun Cai
Abstract
This study focuses on the optimisation of motor circuit design in automated single-chip microcomputer systems, with the aim of improving system operating efficiency and control accuracy. By analysing the basic principles of motor types and their drive circuits, the key factors affecting motor performance are identified. Optimisation solutions are proposed in terms of both hardware and software. Hardware optimisation includes the selection of high-efficiency components and improvements to circuit layout, while software optimisation focuses on advanced control algorithms and the implementation of real-time systems. To verify the proposed optimised design, this paper selects specific application scenarios for experimental testing, and the performance evaluation shows that the efficiency, stability and response speed of the optimised system have been significantly improved. This paper looks ahead to the future development direction of motor circuit design and points out the further optimisation opportunities that emerging technologies may bring.
Keywords
automation system, single-chip microcomputer, motor circuit, design optimisation, control algorithm, real-time control, performance evaluation