所述脉冲式线激光器为纳秒级脉冲绿光激光器。
The pulse type line laser is a nanosecond grade green laser.
设计和制作了能够产生纳秒级脉冲电流的纳秒脉冲发生器。
The nanosecond impulser is designed and fabricated to output nanosecond pulse current.
基于雪崩三极管雪崩效应,研制出了一种数千伏、纳秒级脉冲源。
Based on the avalanche effect, a kind of kilo-volt nanosecond pulsers has been designed, by using microwave PCB (printed circuit board).
利用纳秒级脉冲电源、毫微秒级脉冲电源和直流电源,进行了电解加工试验。
Nickel is electrochemical micromachininged using nanosecond pulse power, millisecond pulse power and direct current power.
结果表明:采用纳秒级脉冲电源能显著提高电解加工的定域性,优化纳秒级脉冲电源脉冲宽度和加工电压可进一步提高加工定域性。
The pulse duration and voltage have obviously affected the localization in ECM using nanosecond pulse power. With a rise in pulse duration and voltage, the localization gradually reduced.
论述了电爆炸导体的爆炸机制,设计了两个电爆炸断路开关的电感储能电路,通过斩波来产生一个纳秒级大电流的单触发脉冲。
Through studying the mechanism of the electric exploding, an inductive storage circuit with two electric explosive switches is designed to produce shot nanosecond pulse by chopped wave.
提出了一种基于普克尔效应实现的稳定纳秒级激光脉冲幅度的方法。
A new method of amplitude stabling for nanosecond laser pulse was proposed based on Pockels effect.
基于SOS效应工作的半导体断路开关可以在纳秒级时间内关断大密度电流,因此可应用于电感储能的脉冲功率发生器。
Based on Semiconductor Opening switch (SOS) effect, the SOS can switch off current of great density within nanoseconds, which is applied to pulse power generator of inductive energy storage.
本课题对一台高压高频逆变电源输出的正弦电压进行处理,将其设计成一台纳秒级高压高重复频率的脉冲电源。
This designation is to deal with the output sine wave of a high frequency and high voltage power supply, the aim is to develop a high voltage and high frequency nanosecond pulse generator.
针对其中的关键部分纳秒级窄脉冲的产生,设计利用MOSFET进行实现,并通过仿真和电路试验对方案加以验证。
For the generation of nano-second width pulse, a design is developed by using MOSFET switch. The results of simulation and circuit experiment show the feasibility of the design.
利用纳秒级的非正弦波窄脉冲来传输数据,具有传输速率高、功耗低、安全性好、抗多径能力强以及成本低廉等许多优点。
It has many advantages, for example high transmission rate, low power consumption, good security, robustness to multipath and low cost.
根据具体系统指标,选择全固态微波电路方案,研制出了系列的数千伏、纳秒级、超宽带雷达用脉冲源。
Based on the microwave PCB circuit, series of kilo-volt nanosecond UWB radar pulsers have been designed.
根据具体系统指标,选择全固态微波电路方案,研制出了系列的数千伏、纳秒级、超宽带雷达用脉冲源。
Based on the microwave PCB circuit, series of kilo-volt nanosecond UWB radar pulsers have been designed.
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