Hybrid Sensor Fault Tolerant Control of Low Voltage DC Microgrid

2022 IEEE Global Conference on Computing, Power and Communication Technologies (GlobConPT) Pub Date : 2022-09-23 DOI:10.1109/GlobConPT57482.2022.9938148

M. V. S. S. Chandra, S. Mohapatro

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Abstract

Recent times have seen the popularity of Low Voltage DC (LVDC) microgrids. Standalone LVDC microgrids have been quite effective in applications like rural electrification, data centre power systems, satellite microgrids. Voltage control and energy management are very critical in case of standalone LVDC microgrids. The sensor faults especially are critical to handle in standalone and safety critical systems. This work proposes a hybrid sensor fault tolerant control (HSFTC) strategy comprising of both analytical and hardware redundancy components. The analytical redundancy component is designed using a sliding mode observer in tandem with adaptive passivity based control, in order to handle voltage sensor faults. The double modular hardware redundancy component is designed to handle the battery current sensor faults. The performance of the proposed control under different situations of voltage and current sensor faults is observed through the simulation studies in MATLAB/SIMULINK platform. The proposed control strategy is compared with few popular control strategies and found to be effective at handling sensor faults.

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低压直流微电网混合传感器容错控制

近年来，低压直流(LVDC)微电网得到了广泛应用。独立的LVDC微电网在农村电气化、数据中心电力系统、卫星微电网等应用中非常有效。在独立LVDC微电网中，电压控制和能量管理是非常关键的。在单机和安全关键型系统中，传感器故障的处理尤为重要。本文提出了一种混合传感器容错控制(hhsftc)策略，该策略包括分析和硬件冗余组件。分析冗余组件采用滑模观测器与自适应无源控制相结合设计，以处理电压传感器故障。针对电池电流传感器故障，设计了双模块硬件冗余组件。通过在MATLAB/SIMULINK平台上的仿真研究，观察了在电压和电流传感器故障的不同情况下所提出的控制方法的性能。将所提出的控制策略与几种常用的控制策略进行了比较，结果表明该控制策略能够有效地处理传感器故障。

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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2022 IEEE Global Conference on Computing, Power and Communication Technologies (GlobConPT)

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