双电机同步直流伺服系统是颤振激励系统的驱动单元,控制器作为伺服系统的核心,对整个系统性能的优劣起着非常重要的作用。
DC servo system is the drive unit of vibration stimulation system. As the core of servo system, undoubtedly controller plays an important role to the whole system performance.
本文将最小误差激励(mee)法推广应用于多机电力系统分散输出反馈控制器的设计。
This paper proposes the application of extended minimum error excitation (MEE) method to designing decentralized output feedback controllers for multi-machine power systems.
该控制器以系统动态误差和给定信号量作为CMAC的激励信号,并与自适应线性神经元网络相结合构成系统的复合控制。
Combining it with the adaptive linear neuron network, the multiplex control strategy takes the dynamic errors and given signals of the system as input signals to the CMAC neural network.
网络控制系统的控制模式不再是传统的点到点的连接,而是传感器、激励器和控制器作为结点直接连到网络上。
The control model of the networked control system is no longer the traditional point-to-point connections, but sensors, actuators and controllers as the nodes directly connected to the network.
双电机直流同步伺服系统是颤振激励系统的驱动单元,控制器作为伺服系统的核心,对整个系统性能的优劣起着非常重要的作用。
Double motors DC servo system is the drive unit of flutter exciter system. As the core of servo system, controller plays an important role to the whole system performance.
双电机直流同步伺服系统是颤振激励系统的驱动单元,控制器作为伺服系统的核心,对整个系统性能的优劣起着非常重要的作用。
Double motors DC servo system is the drive unit of flutter exciter system. As the core of servo system, controller plays an important role to the whole system performance.
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