Sliding Mode Speed Control in Synchronous Motors for Agriculture Machinery: A Chattering Suppression Approach
Journal
Agriculture
ISSN
2077-0472
Publisher
MDPI
Date Issued
2024
Author(s)
David Marcos-Andrade
Francisco Beltran-Carbajal
Ivan Rivas-Cambero
Hugo YaƱez-Badillo
Antonio Favela-Contreras
Type
text::journal::journal article
Abstract
Synchronous motors have extended their presence in different applications, specifically in high-demand environments such as agronomy. These uses need advanced and better control strategies to improve energy efficiency. Within this context, sliding mode control has demonstrated effectiveness in electric machine control due to its advantages in robustness and quick adaptation to uncertain dynamic system disturbances. Nevertheless, this control technique presents the undesirable chattering phenomenon due to the discontinuous control action. This paper introduces a novel speed integral control scheme based on sliding modes for synchronous motors. This approach is designed to track smooth speed profiles and is evaluated through several numeric simulations to verify its robustness against variable torque loads. This approach addresses using electric motors for different applications such as irrigation systems, greenhouses, pumps, and others. Moreover, to address the chattering problem, different sign function approximations are evaluated in the control scheme. Then, the most effective functions for suppressing the chattering phenomenon through extensive comparative analysis are identified. Integral compensation in this technique demonstrates improvement in motor performance, while sign function approximations show a chattering reduction. Different study cases prove the robustness of this control scheme for large-scale synchronous motors. The simulation results validate the proposed control scheme based on sliding modes with integral compensation, by achieving chattering reduction and obtaining an efficient control scheme against uncertain disturbances in synchronous motors for agronomy applications.
License
Open Access
URL License
How to cite
Marcos-Andrade, D., Beltran-Carbajal, F., Rivas-Cambero, I., YaƱez-Badillo, H., Favela-Contreras, A., & Rosas-Caro, J. C. (2024). Sliding Mode Speed Control in Synchronous Motors for Agriculture Machinery: A Chattering Suppression Approach. Agriculture, 14(5), 737.