The DSP-based digital closed-loop PI controller is designed.
设计了基于DSP的数字闭环pi控制器。
PI controller made the respond speed faster and the overshoot less.
PI控制器使响应的速度更快,超调量更小。
An algorithm for solving the static output feedback PI controller is presented.
提出了一种非严格正则模型静态输出反馈PI控制器求解的算法。
Propose a robust PI controller with position internal feedback compensation (PIP).
提出了鲁棒的内模补偿控制器I-PIP。
We proposed P2I algorithm combined with proportional controller and PI controller.
提出了结合了比例控制器和PI控制器特点的P2I算法。
In this paper, a new duty ratio control technology using PI controller is presented.
本文提出了一种使用PI控制器的占空比控制技术。
Improved ILMI algorithm is developed to solve the problems of the PI controller design.
并提出改进ILMI算法,用于解决控制受约束PI控制器求解问题。
Then the PI tuning method of SISO was used to obtain the optimal PI controller for each loop.
利用SISO系统PI控制器设计方法确定每个环路的最优PI控制器。
A simple and efficient PI controller tuning method for large dead-time processes is presented.
提出一种简单而有效的大滞后过程PI控制器整定方法。
This paper presents a simple gain-variable PI controller used for hydraulic servo system control.
本文提出了一种简单的变增益PI控制器,并应用于液压伺服位置系统的控制。
The parameter design of PI controller is discussed and the design method of P parameter is given.
讨论了PI调节器的参数设计,并具体描述了P参数的计算方法。
PI controller is widely used in wind turbine control system and its parameters need to be identified.
风电机组控制系统中PI控制器较多,需要辨识各PI控制器的参数。
Integrating fuzzy neural network and PI controller, we obtained a fuzzy neural decoupled hybrid controller.
本文将模糊神经网络与PI控制技术相结合构成一种模糊神经解耦混合控制器。
Finally, the Predictive PI Controller designing with Linear Phase Advance Filter as predictor is introduced.
最后,进行了预测项采用线性相位超前滤波器的预测PI控制器的设计。
This paper presents an intelligent PI controller, which is applied in the speed controller of AC drive system.
本文提出一种智能PI控制器,并用作交流调速系统的转速调节器。
Through the modeling and analysis of each part of the control loop, a proper PI controller design was obtained.
通过对控制对象的分析和建模,得到了满足系统要求的控制器。
The controller could also be modified to be a general PI controller for the convenience of industrial application.
这种插补控制器还可改形为常用PI形式,以方便工程上的应用。
PI controller is usually the core of control, but there is the limitation of pure PI controller in active filtering.
电流环数字控制器通常以PI调节器为控制核心,但纯PI调节器在有源滤波中存在一定的局限性。
In this paper, a Fuzzy-PI controller in which parameters of PI controller can be adjusted online by the fuzzy regulator.
本文设计了模糊pi控制器,通过模糊控制对PI参数在线调节。
Dual-closed loop structure is adopted in main thrust motor and rudder motors, and PI controller is implemented by DSP software.
对主推进电机和舵电机的控制采用了双闭环结构,PI调节器由DSP软件实现。
Secondly, two neural networks controllers for the ramp control are developed, which are the direct controller and the PI controller.
其次,论文设计了两种用于入口匝道控制的神经网络控制器——直接型和积分型。
Since the response of a HVDC plant dynamically changes with variations in the operating point, a PI controller performance is far from optimum.
由于HVDC系统的响应随运行状态的变化而改变,使得电压互感器控制器的性能很难实现最优。
A single neuron PI controller with predictive model is designed according to nonlinear systems of many industry processes and practical plants.
针对工业过程和实际控制对象的慢时变非线性的特点,设计了一种预测模型的单神经元PI控制器。
Air and fuel controlling of this stove are realized by PI controller, and temperature controlling adopts self adaptive genetic fuzzy controller.
热处理炉空气、燃料的控制均采用遗传算法优化的PI控制,炉体温度控制采用自适应的遗传模糊控制器。
The experiment results show that: the dynamic performance of the AC servo system is remarkably improved when the intelligent PI controller is used.
实验结果表明:采用智能p I控制器的交流伺服系统,动态性能得到改善。
The traditional PID control theory is proposed, and then the UPFC's PI controller is designed based on UPFC's static model and its control variables.
本文先采用传统的PID控制原理,基于UPFC静态模型及其控制量设计了UPFC的PI控制器。
Based on the characteristics of process and PLC, this paper presents an intelligent PI controller composed of general PI controller and expert control.
根据过程对象和PLC特点,将常规PI控制与专家控制相结合构成智能PI控制器,并将其应用于电加热炉控制系统中。
In this paper, speed loop adopting fuzzy control scheme which takes place of common PI controller, is to improve the performance of disturbance rejection.
本论文首先将模糊控制应用于变频调速系统的转速环,取代常规的PI调节器,旨在提高系统的抗干扰能力。
Fuzzy PI controller has good robustness and flexible control, but it has maximal overshoot and slow response when used in the process with large time delay.
模糊PI控制器具有鲁棒性强、控制灵活等优点,但是将其应用于纯迟延系统时超调量较大、响应速度慢。
For the flow regulation of the controllable traffic in high-speed computer networks, optimization of control parameters directly influence on a PI controller.
对于计算机高速网络中能控交通流的调节,PI控制器的参数优化直接影响控制系统的性能。
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