2) multiple frequency phase
倍频相位
1.
Based on a study of the phase information gathered from rotary machineries,a fault diagnosis method was proposed in which the time phase signal extracted from the multiple frequency phase was used as the characteristic signal for the diagnosis.
通过对旋转机械相位信息的研究,提出从倍频相位中提取相对时相作为诊断特征量。
2.
In the research of phase information of rotary mechanism,comparatively phase is extracted from multiple frequency phase as diagnosing feature.
通过对旋转机械相位信息的研究,提出从倍频相位中提取相对时相作为诊断特征量,讨论了相对时相所包含的故障信息及在不同故障种类中的表征。
3) phase-matching
相位匹配
1.
A difforent frequency generation of nonlinear optical crystals of AgGaSe_2 and AgGaS_2 has been analyzed based on the three-wave coupled equation and energy consesrvation in the phase-matching of type-Ⅰand type-Ⅱ.
经过数值模拟计算,得到了在Ⅰ类和Ⅱ类相位匹配条件下,泵浦波长分别取不同值时差频调谐波长与调谐角度的理论曲线。
2.
Based on the calculation and discussion on the phase-matching,walk-off angle,acceptance angle and effective nonlinear coefficient for the KTP crystal,and on the numerical simulations of the angle-tuning curve and gain curve,the tuning spectrum and cutting angle of the KTP was finally established as 1.
讨论了KTP-OPO的相位匹配,计算了KTP的走离角、允许角和有效非线性系数,数值模拟了角度调谐曲线和增益曲线,从而确定了调谐范围为1。
3.
Energy conversion process and spatial distribution of forward-propagating signal wave and backward-propagating wave of sum frequency under phase-matching condition were investigated.
基于电磁场理论,推导了无耗非线性左手材料中三波耦合的波混合方程,并研究了相位匹配条件下正向信号波与逆向和频波的能量转换过程及其空间分布。
4) phase match
相位匹配
1.
The principles of laser frequency transformation and the theory of phase matching in nonlinear optic crystals are also discussed.
在总结激光频率变换的原理和非线性光学晶体的相位匹配理论的基础上,可以根据相位匹配理论进行晶体的相位匹配角的计算。
5) Phase matching
位相匹配
1.
We have realized the phase matching of optical parametric oscillator in KTP crystal pumped by doubled YAG laser in the quasi-degenerate region theoretically and obtained the condition of interactions of Type Ⅱ (A) and Type Ⅱ (B) in KTP in this region.
从理论上研究了近简并区内倍频YAG激光(532nm)泵浦KTP晶体光参量振荡器位相匹配的实现。
2.
A numerical analysis method used for calculating phase matching with the parametric effect is put forward, the phase mismatching from the material and waveguide dispersion of the fiber in the parametric effect is calculated by the numeric method and the spatial curvature surfaces of phase mismatching Changed with both pump light wavelength and frequency shift between the pu.
研究了几种掺杂情况下光纤折射率的变化导致光纤零色散波长的变化,提出一种用于参量过程中位相匹配的数值分析方法,对光纤中材料色散与波导色散引起的参量过程中的位相失配进行了数值分析,给出相应的随泵浦波长和泵浦与信号间的频移而变化的位相失配空间曲面,结果表明,在零色散波长附近有最大的频移可满足位相匹配,且此规律不随零色散波长移动而发生变
6) phase match
位相匹配
1.
Influence of phase match between input signal and CCD pixel on the MTF;
输入信号与CCD像元位相匹配对调制传递函数的影响
2.
With the definition of the contrast transfer function (CTF), the modulation transfer function (MTF) mathematics-theory relationship of line-array fiber-optics image bundles was established, the influence of phase match between input signal and line-array fiber-optic image bundles on the modulation transfer function was carried out by digital analysis, and the study of experiment was working.
结果表明,输入信号与线列光纤传像束的位相匹配对调制传递函数有一定的影响。
3.
The next, the influence of phase match between input signal and line-array fiber-optic image bundles on the contrast transfer function was analysed digitally.
其次,采用数值计算的方式,分析了输入方波信号与光纤束位相匹配对对比度调制传递函数的影响。
补充资料:倍频
CPU的倍频,全称是倍频系数。CPU的核心工作频率与外频之间存在着一个比值关系,这个比值就是倍频系数,简称倍频。理论上倍频是从1.5一直到无限的,但需要注意的是,倍频是以0.5为一个间隔单位。外频与倍频相乘就是主频,所以其中任何一项提高都可以使CPU的主频上升。
原先并没有倍频概念,CPU的主频和系统总线的速度是一样的,但CPU的速度越来越快,倍频技术也就应允而生。它可使系统总线工作在相对较低的频率上,而CPU速度可以通过倍频来无限提升。那么CPU主频的计算方式变为:主频 = 外频 x 倍频。也就是倍频是指CPU和系统总线之间相差的倍数,当外频不变时,提高倍频,CPU主频也就越高。
一个CPU默认的倍频只有一个,主板必须能支持这个倍频。因此在选购主板和CPU时必须注意这点,如果两者不匹配,系统就无法工作。此外,现在CPU的倍频很多已经被锁定,无法修改。
相关术语:外频
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