1) self-resonance frequence
自谐频率
1.
In this paper, the author described the relation between self-resonance frequence of the fixed inductor LG and its own distributed capacitance, and presents how to reduce the distributed capacitance so as to improve the self-resonance frequency of the fixed inductor.
本文以大量的试验结果说明固定电感器自谐频率与自身的分布电容的关系。
2) Self-resonant frequency
自谐振频率
3) free-running frequency
自由谐振频率
1.
The model of phase distribution was analyzed,it was demonstrated that symmetrically tuning the free-running frequency of the boundary oscillators in circular array,a linear phase distribution could be achieved with the steady working frequency of array unchanged.
从阵列独立单元的非线性动力学方程出发,建立了该相位阵的连续相位数学模型,分析了阵列相位分布函数,对称地调节圆域边界振荡器的自由谐振频率时,阵列的稳定工作频率不变,相位在阵列中实现了线性分布,加上辐射单元后该圆形阵列可用于空间波束扫描。
2.
This model was used to find that tuning the free-running frequency of oscillators could achieve linear phase distribution for phase-shifterless beam s.
通过对该模型研究表明通过调节阵列边界振荡器单元自由谐振频率,可在振荡器之间形成线性的相位分布和多波束的形成,实现无移相器的波束扫描。
4) automatic frequency tuning
自动频率调谐
5) frequency auto-tuning
频率自动调谐
6) automatic-frequency tuner
自动频率调谐器
补充资料:频率计量(见时间频率计量)
频率计量(见时间频率计量)
frequency metrology: see time and frequency metrology
口n IQ liliang顷率频率计皿(f比quency metrolo盯) 计t。见时闰
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