Application of IMC-PID in the Hydraulic Headbox Total Pressure Control

机译：IMC-PID在液压流浆箱总压控制中的应用

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It is very difficult to obtain perfect performance to apply the conventional PID (Proportional-IntegralDerivative) controller, because hydraulic headbox needs high precision total pressure control. Transfer function of total pressure control system was identified by using the direct identification method which is based on the least square method for the first-order plus delay time model. Then combined with IMC (Internal-Model-control) -PID method, an IMC-PID controller was designed, which is simple and only needed to adjust one parameter-the time constant of low pass filter. Acceptable performance can also be obtained by tuning time constant of the low pass filter when the model doesn't match with the real process. The algorithm was applied to total pressure control system of hydraulic headbox. Simulation and practical application show that, IMC-PID is of strong robustness and good dynamic characteristics. Finally, the control system is implemented by S7-300 PLC.

机译：应用常规的PID（比例积分微分）控制器很难获得理想的性能，因为液压流浆箱需要高精度的总压力控制。通过直接识别方法识别总压控制系统的传递函数，该方法基于最小二乘方法用于一阶加延迟时间模型。然后结合IMC（内部模型控制）-PID方法，设计了一种IMC-PID控制器，该控制器简单易行，只需要调整一个参数即低通滤波器的时间常数即可。当模型与实际过程不匹配时，还可以通过调整低通滤波器的时间常数来获得可接受的性能。该算法被应用于液压流浆箱的总压控制系统。仿真和实际应用表明，IMC-PID具有较强的鲁棒性和良好的动态特性。最后，控制系统由S7-300 PLC实现。

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《International conference on computer and network technology》|2011年|401-405|共5页
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Wei Tang; Xuzhong Niu;
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中图分类计算机网络;
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Total pressure control; direct identification; IMC-PID; S7-300 PLC;

机译：总压控制;直接识别; IMC-PID; S7-300 PLC;

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Application of IMC-PID in the Hydraulic Headbox Total Pressure Control

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