天然的电鳗电池通过八个不同通路和泵结构,产生和释放电压超过五百伏的电脉冲。
Natural electric eel cells generate and release electric pulses of more than 500 volts with eight different channels and pumps.
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.
提出了脉冲电压下局部放电(PD)信号的提取和统计方法。
The extraction and counting method for partial discharge (PD) under pulse voltage was proposed.
通过理论推导得到脉冲电晕放电等离子体的电子平均能量(用电子温度表示)与同轴电极系统中的击穿电压有成正比的关系。
It is theoretically testified in this paper that the breakdown voltage is in direct proportion to the electron mean energy of pulsed corona plasma in a coaxial-electrode system.
脉冲电压峰值和放电频率与臭氧生成速率均几乎有线性关系。
The ozone formation rate increased linearly with increasing pulsed peak voltage and discharge frequency.
对于间隙中的放电情况,施加电压越高,放电区域越大,放电时间间隔越小,放电脉冲频率越高;电压进一步升高,放电转化为稳定的辉光放电。
To the discharge in the air gap, with the increase of applied voltage, the discharge area is larger, and the time interval is smaller, and discharge pulses frequency is higher.
分析了脉冲线加速器在放电过程中产生的预脉冲电压现象。
The prepulse phenomena in the discharge process of accelerator are analyzed in this paper.
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.
高电压无电极强脉冲气体放电,可以用作激光器的激发光源。
High voltage pulsed electrodeless discharge in rare gases can be used as a light source for laser excitation.
在快速充电方面,确定了一种电压控制的放电回馈型脉冲快速充电技术。
Fast charge in respect, determined a fast charging technology named voltage-controlled energy-feedback pulse charge.
在直流、交流以及宽脉冲电压波形条件下,电压上升速率相对缓慢,放电时延内电压增幅可忽略不计。
When applied voltage waveforms are dc, ac and slow pulse, voltage amplitude during discharge can be ignored.
实验表明,氩气放电相邻脉冲之间的瞬时电压间隔是稳定的,而氦气的却是起伏变化的。
Under the same discharge conditions, the numbers of current pulses per half cycle for helium discharge are more than that for argon discharge.
另外,上述触发电极能沿着传输高电压脉冲的放电空隙的长度方向将氙气离子化。
Besides, the triggering electrode will realize the ionization of xenon gas along the length direction of the discharge spacing that transmits high-voltage pulse.
另外,上述触发电极能沿着传输高电压脉冲的放电空隙的长度方向将氙气离子化。
Besides, the triggering electrode will realize the ionization of xenon gas along the length direction of the discharge spacing that transmits high-voltage pulse.
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