1) nonperiodic signal
非周期信号
1.
compared with the periodic signal,it is more complex for the circuit design and its realizability of the nonperiodic signal.
非周期信号与通常的周期信号相比,无论是在电路设计还是在电路的实现方面都要复杂得多。
2) aperiodic exponential signal
非周期指数信号
3) non-sinusoidal period signal
非正弦周期信号
1.
Research on the effective value detecting device of non-sinusoidal period signalbased on MSP430
基于MSP430的非正弦周期信号有效值检测仪表研究
4) periodic signal
周期信号
1.
Study on a new method for high-speed data acquisition of periodic signal;
一种新的周期信号的高速数据采集方法研究
2.
Waveform design and spectral analysis in direct digital synthesizing of periodic signals;
周期信号直接数字式合成中的波形设计与频谱分析
3.
Study on sampling non-synchronism for periodic signal;
周期信号取样非同步度的研究
5) signal cycle
信号周期
1.
According to the queue length waiting in each intersection,both the signal cycle and the split of every intersection were given out.
该控制器能够根据交叉口各相位车辆的排队长度,对各个相位的绿信比和总的信号周期进行实时分配,并且根据交通状况的变化,可以对信号配时效果进行评价,对信号作出调整,具有学习功能。
2.
A method of computing the signal cycle for the coordinated signal control scheme is i.
并应用到株洲市中心广场环形交叉口的信号周期确定中。
3.
The queuing states in the green end were taken as objective,the dynamic signal timing at single-point intersection under the control of two-phase signal was studied,a queuing model was built according to the queuing and discharging process,and the effects of signal cycle,split and arrival ratio on the queuing states were analysed.
根据排队形成和消散过程建立了排队模型,分析了信号周期、绿信比和到达率对排队状态的影响。
6) periodic signals
周期信号
1.
Reconstruction of periodic signals based on non-uniformity synchronous sampling;
基于非均匀同步采样的周期信号重构
2.
Application of genetic algorithm in Fourier transform of periodic signals;
遗传算法在周期信号傅立叶变换中的应用
3.
Detection methods research of frequency domain based on periodic signals;
基于周期信号的频域检测方法研究
补充资料:非正弦波信号发生器
非正弦波信号发生器
nonsinusoidal signal generator
充电状态。如此周而复始。Uc为三角形波,U。为矩形波。可按电容充放电的公式得矩形波的周期T一_~~,f_.ZR:}_~、二一,、一Z找七m}1十二厂},犯形淡阴狈华 \八f/F一喜一1__ 1_一一、{_艺式1) 艺找七上n}1十二于} \八f/ .、_~_,一__.,Rl____,一.一一,田上式叫见:改尖八、C飘才即叫改堂狈华。田 1、£图1(b)可知:改变U;值,即可改变矩形波的幅值。此外,由于电容C的充放电时间常数均为RC,故矩形波的占空比D一丝;票旦一。.:。目J目一~一T一’”“ 丑Rl+Rr肠Vz┌───┐│ )c匕││ N+ ││+ │└───┘ 左,一,布尸-了二尸Uz人l十式f士U: ┌──┬─┐ │ │ │┌─┼──┼─┤│ │tI │f2│├─┼──┼─┘│ │T/2 │ │ ├──┤ │ │ │ └─┴──┘ 图1矩形波信号发生器 (a)电路图;(b)波形图 锯齿波信号发生器电路如图2(a)所示。图中由运算放大器、稳压管和电阻R。、R、、R:组成带正反馈的迟滞型比较器,由结型场效应管和电容C构成反,~_,。、______.__R、__._二_、.、馈网络。当U。一U:时,U。一不拜~下U:,结型场效应~’翎一曰“一一“一一书’一”Rl+R,一乙’~~~~~管的漏极d处于正电位,工作在恒流源状态,它以恒定电流向C充电,使输出电压U。(~UC)直线上升,如图2(b)所示。“UcI升到Uc一二饭海瓦U:时,比较器发生跳变,其输出电压U乙由+U:跳变到一Uz,使Up一彩筑U:。这时漏极d处于负电位,源极s处于正电位,结型场效应管处于倒向工作状态,即d起源极作用,S极起漏极作用,栅极电压为正值,PN结正偏,sd间呈低阻状态,使电容C放电加速。所以,电┌──────┐│-一一节一 │└──────┘ ┌────┐ │ 卜。
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