Sensorless Robust Controller for Buck Converter using Modified Fast Terminal Sliding Surface

2021 IEEE Kansas Power and Energy Conference (KPEC) Pub Date : 2021-04-19 DOI:10.1109/KPEC51835.2021.9446228
Prabhakar Holambe, S. Dambhare
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Abstract

Ahstract― This proposes a higher order Sliding mode control strategy to regulate output voltage of dc-dc buck converter affected by line and load uncertainties. The control objective is to regulate the output voltage in presence of change in input voltage and load value is met by designing an observer based super twisting algorithm (STA) for modified fast terminal sliding surface (FTSM). The ability of Luenberger observer and controller in regulating output voltage and tracking reference voltage analyzed. The controller and observer performance is simulated in Matlab and compared with different sliding surface. The simulation results of modified FTSM are superior than conventional Linear sliding surface (CLSS).
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基于改进快速终端滑动面的Buck变换器无传感器鲁棒控制器
摘要提出了一种高阶滑模控制策略来调节受线路和负载不确定性影响的dc-dc降压变换器的输出电压。设计了一种基于观测器的修正快速终端滑动面(FTSM)超扭转算法(STA),实现了在输入电压和负载值发生变化时对输出电压的调节。分析了Luenberger观测器和控制器调节输出电压和跟踪参考电压的能力。在Matlab中对控制器和观测器的性能进行了仿真,并对不同的滑动表面进行了比较。改进的FTSM仿真结果优于传统的线性滑动面(CLSS)。
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2021 IEEE Kansas Power and Energy Conference (KPEC)
2021 IEEE Kansas Power and Energy Conference (KPEC)
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