从分析传导测试原理入手,建立了针对差模干扰信号的一阶滤波器的电路等效模型;
By the way of analyzing the transmit test principle, the model of the first-order filter in allusion to DM interface signal are established;
解耦滤波器为一阶,实验证明是可行的。
Experiments have proven that one-order decoupling filter is feasible.
分析了一阶分形模糊控制滤波器的频率-幅度特性,白噪声和有色噪声分形盒维数的变化;
The frequency-magnitude response of the fractal filter and the change of fractal box dimension of white noise and color noise are analyzed.
利用改进的磁通积分算法,克服了纯积分器直流漂移和初始值问题,消除了一阶低通滤波器的幅值和相位偏差。
The DC drift and initial problems of pure integrator were overcome, and the magnitude and the phase error of one-order low pass filter eliminated by using a novel integration method.
然后应用一阶低通滤波器法分别研究了这两类不动点的控制问题。
Next, a low-pass first order filter is applied to stabilize the two types of fixed points.
由该模型电路可产生一阶低通、一阶高通及二阶低通、二阶带通滤波器。
Based on this configuration, a first order lowpass or highpass filters and a second order lowpass or highpass filter can be constructed.
将并联型有源电力滤波器控制成一阶惯性环节,在不同开关频率时分析各次谐波与补偿特性的定量关系。
A first-order inertia element was considered as the approximate model of SAPF. The compensation characteristic for each order harmonic current was obtained at different switching frequencies.
将并联型有源电力滤波器控制成一阶惯性环节,在不同开关频率时分析各次谐波与补偿特性的定量关系。
A first-order inertia element was considered as the approximate model of SAPF. The compensation characteristic for each order harmonic current was obtained at different switching frequencies.
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