1) the time of mass mounting
盛上蔟时间
2) Mounting conditions
上蔟环境
3) time online
上网时间
1.
Results:Different Internet use motives could significantly predict the time spent online;the time online increased significantly over time(10.
目的:探索上网时间与网络使用动机、学习成绩的关系。
4) Rise time
上升时间
1.
Relation between transient current peaks and rise time of ESD gun in air discharge mode;
空气放电模式下静电放电模拟器瞬态电流峰值与上升时间的关系
2.
Measurement of rise time based on signal reconstruction and system identification;
基于信号重构和系统辨识的上升时间测量
3.
According to the circuit parameters,using Marx generator as lightning power source and bounded-wave simulator as a transmission line,a LEMP simulator is constructed and the electromagnetic field waveform with changeable rise time and half time is created in the bounded-wave transmi.
为了模拟雷电放电过程中产生的电磁脉冲场,建立了雷电模拟系统的等效电路模型,分析了各种电路参数对模拟器输出波形的影响;根据等效电路各参数,利用Marx发生器作为雷电电磁脉冲源,使用有界波模拟器作为场传输装置,研制了雷电电磁脉冲模拟系统,在有界波传输线内产生上升时间和半波宽度可变的双指数电场波,用来模拟雷雷击过程中产生的雷电电磁脉冲辐射场。
6) rising time
上升时间
1.
The influence of the waveform parameters(pulse-width and rising time)of pulsed corona plasma on the reactor s breakdown voltage(the electron mean energy)is experimentally researched.
实验研究了同轴电极系统中脉冲电晕等离子体中脉冲波形参数 (脉宽和上升时间 )对电极击穿电压峰值 (电子平均能量 )的影响 ,结果表明 ,减短脉冲宽度和减少脉冲上升时间可提高反应器的击穿电压并增加激发电子的能量。
2.
After a profound analysis of the relation between the key sample points of wave, the measurement algorithms about time-domain parameters such as rising time and the falling time are put forward.
传统的测试算法在执行效率上存在不足,通过深入分析待测波形关键样点间关系,本文中所提出的关于上升时间,下降时间等时域参数的测试算法,其效率有显著提高。
3.
Based on the simple linear time invariant second-order system\'s response of bevel-table signal,this paper set up a mathematic connection between the rising time of bevel-table signal and some characteristic values (for example,first peak time and shake period) on the response graph and presents a method of calculating the rising time of step signal when declining shake appears,.
基于单自由度二阶系统的斜台响应,建立响应曲线上一些特征值(如第一峰值时间、振荡周期等)与斜台信号上升时间的数学关系,本文提出了一种阶跃信号测量振荡输出时的上升时间计算方法。
补充资料:大蔟
1.太蔟。十二律之一。
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