1) GPS seconds pulse
GPS秒脉冲
1.
According to the GPS timing principle,GPS seconds pulse is used to trigger control system and broadcasting signal of synchronization trigger.
根据GPS授时原理,提出了利用GPS秒脉冲对同步控制系统进行触发,并无线广播同步触发信号,同时,各传感器节点通过接收同步触发信号,进行时钟同步触发、时钟校准,以及对测试事件触发的同步采集。
2) nanosecond pulse
纳秒脉冲
1.
Optimum analysis on solid dielectric insulation dimension in coaxial electrodes under nanosecond pulse voltage;
纳秒脉冲同轴结构固体绝缘介质尺寸优化分析
2.
Study on electrical tree in PMMA under repetitive nanosecond pulses;
重频纳秒脉冲下有机玻璃电树枝老化特性的实验研究
3.
Based on electrochemical principle,the mechanism of nanosecond pulses WEMM was investigated,and the mathematical model of WEMM was found.
基于电化学原理,讨论了纳秒脉冲电流微细电解线切割加工的机理,建立了微细电解线切割加工数学模型;采用电化学腐蚀原理对微米尺度线电极进行在线制作,建立了微细电解线切割加工试验系统,并进行了微细电解线切割加工试验,切割出带90°直角的微结构,其切缝宽度为30μm。
3) femtosecond pulse
飞秒脉冲
1.
Calibration of interferometric autocorrelation trace for femtosecond pulse in frequency domain and the real-time chirp diagnostic for Ti:sapphire oscillator;
频域标定飞秒脉冲干涉自相关迹及钛宝石振荡器实时啁啾监测
2.
Studying the damage threshold of femtosecond pulses;
飞秒脉冲的破坏阈值研究
3.
Chirp compensation of femtosecond pulse by liquid-crystal spatial light modulator;
液晶空间光调制器在飞秒脉冲色散补偿中的应用
4) pulses per second
秒脉冲
1.
The experiments show that ESD can t destroy the hardware of the GPS-OEM chip,but it can disturb pulses per second of the chip, and can disturb its timing and orientation performances seriously.
实验表明 ,ESD不会对GPS -OEM板造成硬损伤 ,但可以干扰其输出的秒脉冲 (PPS)信号 ,严重影响其定时和定位性能。
5) pulse per second (PPS)
PPS秒脉冲
6) femtosecond laser pulse
飞秒脉冲
1.
Error of spectral intensity and phase of femtosecond laser pulse using SPIDER technique;
用SPIDER法还原飞秒脉冲振幅和相位误差
2.
Optimization of parameters on reconstruction of phase of femtosecond laser pulse with SPIDER;
用SPIDER法重构飞秒脉冲位相中参数的选择
3.
By using the method for the numerical calculation of Green s function, the light field of the femtosecond laser pulses through a subwavelength aperture is simulated and calculated.
应用数值求解格林函数的方法,计算模拟了飞秒脉冲通过亚波长小孔的衍射光场。
补充资料:[styrene-(2-vinylpyridine)copolymer]
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性质:学名苯乙烯-2-乙烯吡啶共聚物。微黄色粉末或透明小颗粒晶体。无臭,无味。不溶于水,溶于酸、乙醇、丙酮、氯仿。有抗水、防潮性能,适用于多种药片的包衣等。
分子量:
CAS号:
性质:学名苯乙烯-2-乙烯吡啶共聚物。微黄色粉末或透明小颗粒晶体。无臭,无味。不溶于水,溶于酸、乙醇、丙酮、氯仿。有抗水、防潮性能,适用于多种药片的包衣等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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