Study of Linear Quadratic Regulator (LQR) Control Method and Its Application to Automatic Voltage Regulator (AVR) System

Olivia Fernaza; Heru Dibyo Laksono

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Study of Linear Quadratic Regulator (LQR) Control Method and Its Application to Automatic Voltage Regulator (AVR) System

机译：线性二次调节器（LQR）控制方法的研究及其在自动电压调节器（AVR）系统中的应用

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Automatic Voltage Regulator (AVR) play a great role in terminal voltage profile design process in a generator. Load state changing as dynamic system behavior will change the current flow in the generator system that result in armature voltage and terminal voltage change. This final project try to make a generator terminal voltage profile control mechanism using Linear Quadratic Regulator method. This method implemented in Automatic Voltage Regulator (AVR) model system. This Model control system is very cheap because it does not need a complex control mechanism that tends to like PID controller. In Linear Quadratic Regulator (LQR) method decided Q and R weight matrix to gain the optimal control signal from feedback state to raise AVR performance in maintaining system stability. Keyword s : AVR, LQR, Stability, Bandwidth, Settling Time.

机译：自动电压调节器（AVR）在发电机端电压曲线设计过程中起着重要作用。负载状态随着动态系统行为的变化而变化，将改变发电机系统中的电流，从而导致电枢电压和端子电压发生变化。该最终项目试图使用线性二次调节器方法来制作发电机端子电压曲线控制机制。此方法在自动电压调节器（AVR）模型系统中实现。该模型控制系统非常便宜，因为它不需要像PID控制器那样复杂的控制机制。在线性二次调节器（LQR）方法中，确定Q和R权重矩阵以从反馈状态获得最佳控制信号，以提高AVR在维持系统稳定性方面的性能。关键字：AVR，LQR，稳定性，带宽，建立时间。

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《Innovative Systems Design and Engineering》 |2014年第10期|共8页
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Olivia Fernaza; Heru Dibyo Laksono;
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Study of Linear Quadratic Regulator (LQR) Control Method and Its Application to Automatic Voltage Regulator (AVR) System

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