Design and Implementation of CRONE Controller for Automatic Voltage Regulator (AVR) System

2022 IEEE Bombay Section Signature Conference (IBSSC) Pub Date : 2022-12-08 DOI:10.1109/IBSSC56953.2022.10037437

Pritesh Shah, R. Aravind Sekhar, Margi Shah

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Abstract

Automatic voltage regulator (AVR) systems are critically required in many systems such as hydro, gas, steam turbines and engines. Effective control of an AVR system is complex and challenging due to its unstable open loop response characteristics. The AVR system is required to sustain appropriate voltage levels in spite of fluctuations in the main supply. Hence, the AVR system needs to be primarily designed for stability. This paper presents design implementation of the first and second generations of CRONE controllers (Commande Robuste d'Ordre Non Entier) for an AVR system. CRONE is a non-integer order robust controller which is far more effective than the standard PID controllers as it offers better tuning and flexibility in controlling the AVR process. In the present study, various time-domain performance criteria with and without controller were simulated to validate the accomplishment of AVR CRONE controllers. The proposed control procedure for enhancing AVR systems' efficiency has been shown to be effective and better in terms of improved phase and gain margins.

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自动调压系统CRONE控制器的设计与实现

自动电压调节器(AVR)系统在许多系统中都是至关重要的，例如水力，燃气，蒸汽轮机和发动机。由于AVR系统的开环响应特性不稳定，对其进行有效控制是一项复杂且具有挑战性的工作。AVR系统需要在主电源波动的情况下维持适当的电压水平。因此，AVR系统的设计主要需要考虑稳定性。本文介绍了AVR系统第一代和第二代CRONE控制器的设计实现。CRONE是一种非整数阶鲁棒控制器，它比标准PID控制器更有效，因为它在控制AVR过程中提供了更好的调谐和灵活性。在本研究中，仿真了各种时域性能指标，以验证AVR CRONE控制器的实现。所提出的控制程序提高了AVR系统的效率，并在相位和增益裕度方面得到了更好的改善。

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 Bombay Section Signature Conference (IBSSC)

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