0v
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When the potential reached 0V , there are three time constants , one inductance arc and two contain arcs .
极化电位至0V时,阻抗谱上出现三个时间常数,对应两个容抗弧和一个感抗弧。
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When the injector is closed , the VS pin return to 0V faster , so the drive circuit can be applied to the multi-pulse .
使用这款芯片作为高边驱动芯片,喷油器关闭后,引脚VS迅速恢复到0V快,驱动电路可以应用于使用多脉冲的电控系统中。
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Secondly , the recovery of threshold voltage under the + 5V bias is the fastest and biggest , compared to that under 0V and float bias .
其次,+5V栅偏压退火相对于0V和浮空偏置条件,阈值电压恢复速度快、恢复程度大;
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The ratio of 0V % to 2UV % was used to evaluate the balance of autonomic nerve system and study the relationship of ischemic duration and the moving trend of the balance .
提出以RR间期序列的0V%与2UV%之比评价自主神经的平衡,并探讨缺血持续时间与这种平衡移动之联系。
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The device reveals a drain current saturation density of 0.85A/mm at a gate voltage of 0V and a peak transconductance of 225mS / mm .
0V栅压下,0·3μm栅长、100μm栅宽的器件的饱和漏电流密度为0·85A/mm,峰值跨导为225mS/mm;
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The result show that the radiation damages from Co-60 gamma rays , 1 MeV electrons and 1 & 7MeV protons were equivalent for 0V gate bias conditions .
实验结果表明,60Coγ射线、1MeV电子和2&7MeV质子辐照损伤效应中,在0V栅压下可以相互等效;
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We can draw a conclusion by experimentation , when we use the 4700 μ F electrolytic capacitor as a load , it takes 2.5 second to charge from 0V to 390V.The power supply works steadily and reliability .
实验表明,采用4700μF的电解电容作为负载,从0V充电到390V时,时间约为2.5s,电源工作稳定可靠。
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For each short term RR and QT interval series , the symbolic dynamic indexes ( 0V % , 2UV % ) were calculated to get the paired indexes of HRV and QTV .
对于每个短时RR间期和QT间期序列,分别计算其符号动力学指标(0V%,2UV%),得到配对的HRV和QTV指标。
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Using 12-bit AD converter realizes 8-channel data acquisition function ; Using 12-bit DA converter realizes 4-channel waveform output ; 16-channel digital I / O circuit are designed in the module , which is 0V ~ 5V input range , satisfied with TTL standard .
采用12位AD转换芯片实现了8通道数据采集功能;采用12位DA转换芯片实现了4通道波形输出功能;设计了16通道的双向数字I/O电路,输入范围是0V~5V,满足TTL电平标准。
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In the process of short-circuit current measurement ; the followed voltage 0V was set . By the role of voltage follower , so that the solar cells at both ends can be followed the voltage to 0V , in order to achieve the accurate measurement of short-circuits current .
在短路电流测量中,设定0V跟随电压,经电压跟随器的作用,使太阳电池两端的电压也跟随到0V,从而实现太阳电池短路电流的精确测量。