1) voltage-controlled tuned filter
压控调谐滤波器
1.
A realization approach of voltage-controlled tuned filters of the frequency band of 225MHz-400MHz is introduced in this paper.
文章详细介绍了一种225MHz-400MHz压控调谐滤波器的实现方法,该方法主要是通过电压改变变容二极管的电容,从而改变带通滤波器的中心频率,从而实现压控滤波。
2) tuned filter
调谐滤波器
1.
For these reasons the tuned filter must be used when the reactive compensation is done at the existing of system harmonic so as to fulfill the following tasks:do reactive.
所以,在系统存在谐波的情况下做无功补偿时,一定要用调谐滤波器,使其在基波频率下做无功补偿,在谐波频率下表现电感性,避免发生谐振,并且滤除部分谐波。
2.
The newly developed auto-tuned filters are introduced in this paper.
论述了交流调谐滤波器的工作原理和固有缺点,说明滤波器参数变化所引起的失谐是导致滤波性能恶化的主要原因。
3.
Single tuned filter is made of capacitance.
单调谐滤波器为容性,而中频电炉工作一般功率因数较高,因此对中频电炉的谐波治理,应兼顾滤波与无功功率补偿。
3) tunable filter
调谐滤波器
1.
The study of multiple-cavity RF tunable filter;
多腔体射频可调谐滤波器的研究
2.
After explaining how to exploit the huge potential capacity of the optical fiber in order to realize high bit rate communication, the paper describes the components used for the wavelength division multi access communication network, particularly the tunable filters and lasers as .
说明了波分多路/波分多址光纤通信使用的可调谐滤波器、可调谐激光管和光子集成的激光管阵列。
3.
The effect of classic voltage and liquid crystals material parameters on tunable filter transmission spectrum was numerically calculated.
提出了一种在光子晶体中引入液晶缺陷层的光子晶体调谐滤波器。
4) tuned filter
谐调滤波器
5) voltage tunable bandpass filters
电压调谐带通滤波器
1.
Design and research of voltage tunable bandpass filters;
电压调谐带通滤波器的设计研究
6) tunable filter
可调谐滤波器
1.
Numerical analysis of tunable filter based on MOEMS technology driven by electrostatic force;
静电力驱动MOEMS可调谐滤波器的数值分析
2.
Theoretical study on photonic crystal tunable filter with multiple channels;
光子晶体多通道可调谐滤波器的理论研究
3.
Based on this,a tunable filter of double channel of one-dimensional photonic crystal is designed,with the tunable wavelength of 140 nm,tunable FWHM of 1~5 nm,peak value of transmissivit.
98的一维光子晶体双通道可调谐滤波器。
补充资料:电容分压器(见分压器)
电容分压器(见分压器)
capacitor voltage dividers
d)onf。日g无en丫oq{电容分压器(eaPaeitor voltage dividers)见分压器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条