前馈信号的引入使炉温控制具有超前决策功能,提高了智能程度。
The use of feedforward signal makes the furnace temperature control have the leading decision function and improve the degree of intelligence.
此方案以建立一个参考模型来得到前馈信号,从而避免了传统方案的缺点。
In this method, the feedforward signal is obtained through establishing a reference model, so that the defect of traditional method can be avoided.
前馈信号同时包含了电网电压和负载的信息,通过快速调节交流侧进线电流,使得系统功率平衡得以维持。
Feedforward signal includes the information of both grid voltage and DC side load. Power balance between the input and output can be maintained by adjusting AC side currents.
TTIB(透明带内导音)及FFSR(前馈信号再生)技术是一种可抗无线信道中多径时延及多谱勒频移引起的信号衰落的技术。
Transparent tone-in-band(TTIB) and feedforward signal regeneration(FFSR) is a technology to combat the effects of multipath propagation delay and doppler effect in wireless channels.
并采用一种前馈型的时滞滤波器技术,对加速度控制信号进行滤波来有效地控制抓斗的摆角。
A time delay filter technique is applied to shape the acceleration control signal, thus prevents the swing grab.
前馈神经网已经被大量用于非线性信号处理。
The feedforward neural networks has been greatly used in the nonlinear signals processing.
结果表明谐波及无功检测信号只不过是电容电压闭环系统中的一个前馈补偿信号,其存在不但不能提高反而影响谐波及无功的稳态和动态补偿精度。
It is concluded that the harmonic and reactive current detection behave as just a feed-forward signal in this closed-loop, and it is incapable of improving the compensation accuracy in steady-state.
内部前馈匝道或信号正比于电感电流的输入和反馈到本相比,在乡村扩展引脚信号。
The internal Feedforward Ramp or a signal proportional to the inductor current is fed into this input and compared to the signal in the VEA pin.
其基本原理上相当于对负载干扰信号加入了前馈控制。
Its principle corresponds to applying the feed-forward control to the load disturbance.
采用数字信号处理器(DSP)控制器,设计了具有电压前馈和电流截止负反馈的转速闭环弱磁调速系统。
The speed adjusting system with field weakening with voltage feedforward, current closed negative feedback and speed closed loop was designed by adopting digital signal processor (DSP).
控制系统以原水流量为前馈和出厂水余氯浓度作为反馈信号,采用PID算法控制加氯量。
The control system takes the original water current capacity and the water extra chlorine density as the forward feed and feedback signal, using the PID algorithm control the chlorine quantity.
为研究前馈控制的适用性,选择不同的信号模拟负荷变化,对比前馈控制对不同干扰形式的调节效果。
For the study, the choice of applicability feed-forward control of different load simulation signal and contrast of different forms of feed-forward control regulation of interference.
为研究前馈控制的适用性,选择不同的信号模拟负荷变化,对比前馈控制对不同干扰形式的调节效果。
For the study, the choice of applicability feed-forward control of different load simulation signal and contrast of different forms of feed-forward control regulation of interference.
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