PID Tuning for Optimal Closed-Loop Performance With Specified Gain and Phase Margins

Li K.

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PID Tuning for Optimal Closed-Loop Performance With Specified Gain and Phase Margins

机译：具有指定增益和相位裕度的PID调节以实现最佳闭环性能

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A new robust proportional-integrative-derivative (PID) tuning method based on nonlinear optimization is developed. The closed-loop bandwidth is maximized for specified gain and phase margins (GPM) with constraint on overshoot ratio, so that criteria of closed-loop performance and robustness are both satisfied. The equations of open-loop amplitude ratio and phase change are derived based on frequency analysis for the first-order plus time delay system with a PID controller in parallel form. The equation of closed-loop amplitude ratio is also explicitly given. The formulated optimization problem from the tuning method based on GPM with constraint on closed-loop amplitude ratio is further given. The method is demonstrated in simulation examples and compared with previous work on this topic.

机译：提出了一种基于非线性优化的鲁棒比例积分微分（PID）整定方法。对于指定的增益和相位裕量（GPM），在过冲比的限制下，闭环带宽被最大化，因此，闭环性能和鲁棒性均得到满足。基于具有并行形式的PID控制器的一阶加时滞系统的频率分析，得出开环振幅比和相位变化方程。还明确给出了闭环振幅比方程。进一步给出了基于闭环振幅比约束的基于GPM的整定方法的优化问题。在仿真示例中演示了该方法，并与该主题的先前工作进行了比较。

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来源
《Control Systems Technology, IEEE Transactions on》 |2013年第3期|1024-1030|共7页
作者
Li K.;
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作者单位

Department of Thermal Energy Engineering, China University of Petroleum, Beijing, China;

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原文格式 PDF
正文语种 eng
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关键词
Bandwidth; Equations; Mathematical model; Optimization; Robustness; Simulation; Tuning; Gain margin; nonlinear optimization; phase margin; process control; proportional-integrative-derivative (PID) tuning; robustness;

机译：带宽;方程;数学模型;优化;坚固性模拟;调音获利;非线性优化;相位裕度过程控制;比例积分微分（PID）调整;健壮性;

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1. Optimal Tuning of PID Controllers with Specified Gain and Phase Margins [J] . Jyh-Haur Hwang, Sun-Yuan Tsay, Chyi Hwang Chemical Engineering Communications . 2004,第9期

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2. Optimal gain and phase margin tuning for PID controllers [J] . W. K. Ho, K. W. Lim, W. Xu Automatica . 1998,第8期

机译：PID控制器的最佳增益和相位裕度调整
3. Performance and gain and phase margins of well-known PID tuning formulas [J] . Ho W.K., Gan O.P. IEEE Transactions on Control Systems Technology . 1996,第4期

机译：知名PID调整公式的性能以及增益和相位裕度
4. Calculation of Robust and Optimal Fractional PID Controllers for Time Delay Systems with Gain Margin and Phase Margin Specifications [C] . Yuan-Jay Wang, Shao-Tang Huang, Kun-Han You Chinese Control Conference . 2017

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PID Tuning for Optimal Closed-Loop Performance With Specified Gain and Phase Margins

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