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.
在脉冲电容器充电过程中,高压云母电容器承受高电压;
The divider consists of a pulsed resistor voltage divider and a high voltage mica capacitor.
喷金层的端部接触对金属化膜脉冲电容器整体的质量非常重要。
The electrode end-spraying contact is very important for metallized film capacitor, especially under high electric field pulse condition.
因其介电常数较高,特别适用于作低压、直流、脉冲电容器浸渍剂。
Because of their higher dielectric constant, they are particularly suitable for use as an impregnant for low voltage, direct current, and impulse capacitors.
针对不同贮存环境对高压脉冲电容器电容量漂移的影响进行了长期对比实验研究。
The experiment being made by our research group is aimed at obtaining the result of the capacitance variability of high voltage pulse capacitor.
通过分析金属化膜脉冲电容器的退化失效机理,利用该竞争失效模型,对金属化膜脉冲电容器进行了可靠性分析,确定了该型电容器的可靠度函数。
Then, by analyzing degradation mechanism of metallized-film capacitor, this paper presents a life distribution model of metallized-film pulse capacitor using the models.
数值求解了电路中各电容器和激光管的放电电压和电流脉冲波形,得到了与实测波形一致的模拟结果。
Numerical solutions of discharge voltage and current pulses on each capacitors and laser tube in the circuit are in good agreement with the experimental ones.
系统负荷投切和电容器充电的仿真结果表明,该方法能快速有效地区分暂态脉冲和振荡暂态。
The simulations of load switching and capacitor charging show that the proposed method can quickly and effectively class the impulse transient and oscillation transient disturbances.
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.
在高频、高电压环境下的抗脉冲能力强,替代铝电解电容器有良好的前景。
In the high-frequency, high-voltage environment it has a good anti-pulse capability, and has good prospects of replacing electrolytic capacitors.
脉冲磁场是由储能电容器通过六个触发真空开关对线圈放电产生的。
Pulsed magnetic field is produced by capacitors discharge through six triggered vacuum switches to coils.
高压储能电容器作为脉冲功率系统的核心储能元件,其绝缘性能直接关系到脉冲功率系统工作可靠性。
The insulation capability of High Voltage Storage Capacitor (HVSC), which is the kernel of impulse power, determines the service reliability of impulse power system.
储能电容器的工作过程是在高压直流条件下进行较长时间充电,然后在很短的时间放电,从而在负载上形成高电压、大电流的脉冲。
As the storage capacitor charged under DC and discharges in a short time, which form a high voltage and large current pulse.
应用一个负的触发器脉冲在一个定时周期内来同时复位和触发,这样使电容器C放电并且重新初始化一个循环,从复位脉冲的正边开始启动。
Applying a negative-going trigger pulse simultaneously to RESET and TRIG during the timing interval discharges C and reinitiates the cycle, commencing on the positive edge of the reset pulse.
电容器脉冲放电进行超高能率热处理是细化金属晶粒尺寸、提高材料力学性能的有效方法。
The super-high rate heat treatment with electro-pulsing is considered an effective method to refine crystalline and improve mechanical properties of metals.
适用于电容器充电后瞬间放电的脉冲电路中。
Suitable for instantaneous discharge after electrifying capacitor for pluse circuits.
然后运用脉冲功率技术,通过由电容器和磁开关等组成的脉冲陡化电路对正弦电压波形进行改形,最后输出纳秒级上升前沿、高重复频率的高压脉冲。
Then, transform it through the pulse sharpening circuit consisting mainly of capacitances and magnetic switches, finally outputting the high voltage and high repetition rate nanosecond pulses.
高压电源、储能电容器和至少两个电极用于产生电脉冲并将这种脉冲用于患者。
The high - voltage power supply, the storage capacitor and the at least two electrodes are used for producing an electrical pulse and applying said pulse to a patient.
在这一领域是常见的,一块高质量电容器用于最初储存能量,然后将该电能脉冲脉冲调制后通过一台降压变压器,使之降低电压,增强电流。
The transformer lowers the voltage and raises the current available and the output is then used to power the electrical load.
在这一领域是常见的,一块高质量电容器用于最初储存能量,然后将该电能脉冲脉冲调制后通过一台降压变压器,使之降低电压,增强电流。
The transformer lowers the voltage and raises the current available and the output is then used to power the electrical load.
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