An Improved Fast Terminal Sliding Mode Control for Step-Down Converter

2023 15th International Conference on Electronics, Computers and Artificial Intelligence (ECAI) Pub Date : 2023-06-29 DOI:10.1109/ECAI58194.2023.10193975

Çağdaş Hisar, Güven Balta, N. Altin, I. Sefa

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Abstract

In this study, an improved fast terminal sliding-mode control (FTSMC) is presented to control the output voltage of the DC-DC step-down converter. It has been compared to other techniques in the literature, including traditional sliding mode control (SMC) and terminal sliding mode control TMSC to demonstrate its performance. The proposed method and all other mentioned methods have been tested in simulation environment. The obtained simulation results are compared in terms of performance of converging error to zero for various conditions such as input voltage variations, step load change and tracking process. The obtained results show that the proposed improved FTSMC method provides the fastest convergence, the smallest rising time, and the smallest steady-state error than the SMC and TSMC method. In addition, no capacitor current was used in the simulations. The backward-euler method was integrated into the sliding surface used and thus only one sensor was used to control the state variables of the respective converter.

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一种改进的降压变换器快速终端滑模控制方法

本文提出了一种改进的快速终端滑模控制(FTSMC)来控制DC-DC降压变换器的输出电压。本文将其与传统滑模控制(SMC)和终端滑模控制(TMSC)等其他技术进行了比较，以证明其性能。所提出的方法和其他方法都已在仿真环境中进行了测试。比较了仿真结果在输入电压变化、负载阶跃变化和跟踪过程等不同条件下误差收敛到零的性能。结果表明，与传统的SMC和TSMC方法相比，改进的FTSMC方法收敛速度快，上升时间短，稳态误差小。此外，模拟中没有使用电容电流。将后向欧拉方法集成到所使用的滑动面中，从而仅使用一个传感器来控制各自转换器的状态变量。

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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来源期刊

2023 15th International Conference on Electronics, Computers and Artificial Intelligence (ECAI)

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