该电流值受回路对地的接地泄漏电阻限制。
The value of this current is limited by earth leakage resistance of the return circuit versus earth.
为了应用的需要,分析了串联电阻和傍漏电阻对线性的影响。
For application sake, the effects of series and shunt resistances on the linearity of the cell are analysed.
降低寄生源漏电阻可以获得更高的饱和电流、跨导和截至频率。
The calculated results also indicate that higher saturation current, transconductance, and cutoff frequency can be achieved by lowering the parasitic resistances.
分流电阻负载通常是由电缆泄漏电阻引起的,如图2 -4所示。
Cable leakage resistance is a common source of shunt resistance loading, as shown in Figure 2-4.
影响传感器结构稳定性的因素主要有边缘效应、环境温度、漏电阻等。
The factors which impact the stability of the sensor structure mainly include the edge effect, the environmental temperature, the leaking resistance, etc.
为了尽量降低噪声和泄漏电阻的影响,应当将电阻器放在一个屏蔽、保护的测试夹具中。
To minimize noise and leakage resistance, the resistor should be placed in a shielded, guarded test fixture.
然而,要使用电容器就必须明白其特性:包括电容值、额定电压值、温度系数以及泄漏电阻等。
However, to be useful, they must be characterized for capacitance value, voltage rating, temperature coefficient, and leakage resistance.
然而,由于电缆泄漏电阻(RL)与RS并联,实际测量的电阻(RM)有所降低,如图2-34b的并联等效电路所示。
However, since the cable leakage resistance (RL) is in parallel with RS, the actual measured resistance (RM) is reduced, as shown in the parallel equivalent circuit of Figure 2-34b.
体电阻率:表示直接通过材料的泄漏电流。
Volume resistivity: leakage of current directly through the material.
这类应用可能包括电容器的漏电流、二极管反向漏电、电缆或薄膜的绝缘电阻等。
Some of these applications may include leakage current of capacitors, reverse diode leakage, or insulation resistance of cables or films.
泄漏电流是由测量电路和附近的电压源之间的寄生电阻通路产生的。
Leakage currents are generated by stray resistance paths between the measurement circuit and nearby voltage sources.
测量高电阻时两个最常见的误差来源是静电干扰和泄漏电流。
The two most common error sources when measuring high resistance are electrostatic interference and leakage current.
由于流过齐纳二极管的泄漏电流会在电阻器上产生电压降,所以希望使用低漏电的齐纳二极管。
Since the leakage current through the zener diodes results in a voltage drop across the resistor, low leakage zener devices are desirable.
外部的分流电阻,例如:漏电的电缆和肮脏的绝缘子也可能引起负载误差。
External shunt resistances, such as leaky cables and dirty insulators, may also cause loading errors.
使用的MOS管模型考虑了短沟道效应、栅源电容、栅漏电容和输出电阻。
The MOS model used includes short-channel effects, gate-source capacitance, gate-drain capacitance, and output resistance.
可以设定电流,自动检测集电环两个电极在一定电流下的电压降,并且还可以检测集电环与轴之间的绝缘电阻及漏电流。
It can be used to set current, automatically detect the voltage drop of the two slip ring electrodes in a certain current, and the insulation resistance and leakage between the slip ring and the axis.
现场绝缘监测单元能通过对漏电流的监测,实时的在线监测交流380v电网的绝缘情况和离线测量发电机组的绝缘电阻。
By the monitoring of the leakage current, the on-line 380v grid insulation conditions and the off-line insulation resistance can be monitoring in real-time.
本文介绍了绝缘子污染的测量方法,表面电阻测量装置和泄漏电流检测装置,并取得一些结果。
This paper introduces the method of insulation pollution testing, including surface resistance device and Vent current testing device, with correct results.
对直流系统常用的几种接地电阻测试方法如交流法、直流漏电流法等进行了比较分析,指出了它们在使用中的缺点。
After comparing and analyzing several conventional insulating resistance measuring method such as AC method, DC creepage method and so on, their shortcomings in use are pointed out.
当电缆的长度增加时,其电缆电阻、电容和泄漏电流等参数也会变化。
Parameters like cable resistance, capacitance, and leakage currents change as cable length increases.
就绝缘法兰是否漏电,提出了电流方向法、管道电流法及接地电阻法等判断方法。
Three methods to judge the electric leakage of flange are put forward, that is, current direction method, pipeline current method and earth resistance method.
结果表明,电池前电极穿透发射区所引起的漏电电阻率值比其他发射区域的漏电要严重的多。
The result showed that the region under the emitter was more badly shunted than the other emitter regions.
本文的目的在于论述与安全有关的漏电保护的两个参数——动作电阻值和动作时间。
This paper is to demonstrate two parameters of earth-leakage protection relevant to safety-value of operating resistance and operating time.
对储能大电流放电用高压大容量铝电解电容器,要求其漏电流小、等效串联电阻值小、电容量稳定性好、一致性好等。
As electrolytic capacitors of high voltage and capacitance for energy storage and high current discharge, lower leakage current, lower ESR and more stable and constant capacitance are required.
该原理通过消去变压器回路方程中直接体现主磁通的非线性项,构造了仅含漏电感和绕组电阻的二端网络。
On basis of transformer loop equation, a novel principle of transformer protection using equivalent instantaneous leakage inductance is presented.
该原理通过消去变压器回路方程中直接体现主磁通的非线性项,构造了仅含漏电感和绕组电阻的二端网络。
On basis of transformer loop equation, a novel principle of transformer protection using equivalent instantaneous leakage inductance is presented.
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