其电气特性符合保护要求的电容器。
Their electrical characteristic suits the protection requirements of capacitors.
最终的目标是从真空断路器机械特性方面入手,降低操作并联电容器组时的重燃率、并减小操作过电压危害。
The aim is to reduce the reignition rate and over-voltage damage from the perspective of the mechanical characteristics of the vacuum breaker switching shunt capacitor Banks.
因而电解电容器的ESR、ESL以及由此而产生的阻抗频率特性将显得比电容量更为重要。
So, ESR, ESL of the electrolytic Capacitor and the resistance frequency characteristic followed by it are seemed to be more important than capacitance.
该文用阻容型分压器分析了一种脉冲电容器的放电特性。
This article also analyzes the discharge characteristics of a kind of pulse capacitor with the capacitive resistor divider.
分析了断路器绝缘特性和合闸时间分散性对并联电容器组同步关合的影响;
This paper analyses the influences of the closing time scatter and dielectric characteristic of circuit breaker on synchronous energizing shunt capacitor banks.
在室温情况下,研究了MIS结构电容器的湿敏特性。
Studied were the humidity sensitive characteristics of MIS structure capacitor.
本文介绍利用变间隙保护环电容器的损耗特性进行损耗因数的绝对测量(真值测量)和传递。
This article introduces the true value measurement of dissipation factor by making use of an air capacitor with gap-variable guard-ring.
讨论了凝胶电解质的特性、类型、关于其结构性能的研究方法,以及其在电双层电容器和锂离子二次电池方面的应用研究状况,并简要探讨了发展前景。
The specific properties, types, the methods in studying their structure and function and the prospect of their application in electronic double layer capacitors are discussed.
利用电容器这一特性,把它和化学电池结合起来,组成了具有较高比功率的复合电源。
The composite power supply combined the capacitor with chemical battery, so it has high power density.
由于其优越的微波特性,MEMS开关已在许多电路和系统中,包括微波前端电路、数字电容器组和移相网络中得到应用。
Because of their superior microwave performance, MEMS switches are being developed in many circuits and systems, including radio front ends, capacitor Banks and phase shifting networks.
当电容器两端的电压变化时,电容器内部能产生电流的特性称为电容。
The property to produce a current in a condenser, when the voltage across it changes is called capacitance.
对四端对阻抗测量仪在其使用频段内进行校准,须确定四端对标准电容器的频率特性。
The calibration of four-terminal-pair(4TP) impedance meters at their working frequencies requires the knowledge of 4TP standard capacitor frequency characteristic.
因此,其热的稳定特性并不一定就优于其它电容器。
Therefore, Its thermal stability may not be better than other capacitors.
本文给出了描写脉冲MOS电容器的瞬态特性的微分方程。
A differential equation, which describes the transients of pulsed MOS capacitors, is derived.
研究了KOH与煤比例、微波功率和辐射时间对活性炭比电容量的影响,并考察了煤基活性炭双电层电容器的充放电特性。
The influence of the KOH to coal in yield, power and radiation time of microwave were studied. Its charge-discharge performance of the coal based AC EDLC was studied.
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.
钽电解电容器具有阻抗低、漏电流小、高频特性好、可靠性高等特点,而耐久性试验是对电容器产品综合性能最严峻的考验。
The endurance test is a rigorous test for the total performace of a tantalum electrolytic caparitor due to its low impedance, small leakage, high frequency charateristics and high reliability.
针对超级电容器的物理特性,提出了双电层电容器的三种等效模型,即串联rc模型,非线性RC网络模型和线性RC网络模型。
For super capacitor of physical characteristics, there are three model of the Electric Double Layer capacitor that series RC model, nonlinear RC network model and the linear RC network model.
当电容器上所施加电压高于额定工作电压时,电容器的漏电流将上升,其电气特性将在短时内劣化直至损坏。
When capacitor is used at higher voltage than the rated voltage, leakage current increases, characteristics drastically deteriorate and damage in a short period may occur as a result.
其中,线性RC网络模型能近似地反映出超级电容器的物理特性,并可以反映出超级电容器的内部电荷的重新分配特性。
The linear RC network model can approximately reflect the physical characteristics and the internal redistribution of charge characteristics of super capacitors.
模拟结果表明,改进模型能够更精确地预测MF IS电容器铁电层的极化行为、电容器的C -V特性及记忆窗口。
The simulation results show that the improved model can predict the polarization behavior of ferroelectric layer, the C-V characteristic and memory window of MFIS capacitor more accurately.
移相电路主要是由电容器的电流超前电压90度这一特性。
Rc phase-shift circuit current mainly by the capacitor voltage is 90 degrees ahead of this feature.
移相电路主要是由电容器的电流超前电压90度这一特性。
Rc phase-shift circuit current mainly by the capacitor voltage is 90 degrees ahead of this feature.
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