Analisis Pengaruh Kontrol PI Dengan Integral Anti-Windup Sebagai Upaya Reduksi Lonjakan Respon pada Sistem Ruang Termal

Reza Fauzi Iskandar, Reksa Putra, Asep Suhendi
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Abstract

The Proportional Integral Derivative (PID) control is a classical control type which still use in industry and the development of methods is being improve. The simplicity of the structure and reliability of the PID makes this control more popular in the industry. Integral element is control element that produce control signals by accumulating error, its process can cause the windup events. Windup is the accumulation of integral controls outside the saturation boundary. Windup has an impact on forced response over a long period which worsens of time response and stability. This paper examines the application of anti-windup controls as an effort to overcome the accumulation of integral actions in PI control scheme. At the temperature reference value of 35 0C, the room temperature response with anti-windup shows a high temperature overshoot about 43.6%. The settling time is 15.3 minutes relative slow. The system response with anti-windup shows the lowest temperature overshoot that is 15.2% and the settling time of the system tends to be faster around 6.9 minutes. Keywords – Thermal room, proportional-Integral, anti-windup.
分析PI对反windup集成的控制影响,作为对热室温系统的反应减少的努力
比例-积分-微分(PID)控制是工业上仍在使用的经典控制类型,其方法的发展正在改进中。PID结构的简单性和可靠性使这种控制在工业中更受欢迎。积分元件是通过累积误差来产生控制信号的控制元件,其过程可能导致饱和事件。收尾是在饱和边界之外的积分控制的累积。停业对长期的强制响应有影响,这会恶化时间响应和稳定性。本文研究了反饱和控制的应用,以克服PI控制方案中积分作用的累积。在35℃的温度参考值下,具有防卷的室温响应显示出约43.6%的高温超调。沉降时间相对较慢,为15.3分钟。具有防饱和的系统响应显示出15.2%的最低温度超调,并且系统的稳定时间往往在6.9分钟左右更快。关键词——热室,比例积分,防卷。
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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