使用光开关,可以把这种功率的上升过程缩短到小于0.1ps,在更短的时间内激光以峰值功率到达等离子体。
Using an optical switch, this ramp up time can be reduced to less than a tenth of a picosecond, delivering peak laser power to the plasma on a faster time scale.
对测试中开关电源提供更低的源阻抗﹐因此它会传送更高的峰值电流。
Lower source impedance to the switching power supply under test, thus it can deliver higher peak current.
静态开关的大小来清除最短路和瞬时电流峰值。
The static switch is sized to clear most short-circuits and transient current spikes.
介绍了峰值电流控制开关电源的原理和优点。
Principles and virtues of switching power supply of peak current control are presented.
表面贴装快速开关整流器。最大反向重复峰值电压200五,最大平均正向电流1.0A。
Surface mount fast switching rectifier. Max repetitive peak reverse voltage 200 V. Max average forward current 1.0 a.
介绍了峰值电流控制开关电源的原理和特点。
This paper presents the principles and features of switching power supply in the peak current control.
快速开关,塑料整流器。最大的经常峰值反向电压为1000V最大平均正向整流电流1.0A。
Fast switching plastic rectifier. Max recurrent peak reverse voltage 1000 V. Max average forward rectified current 1.0 a.
超快开关整流器。最大的经常峰值反向电压为100V最大平均正向整流电流10.0A。
Ultrafast switching rectifier. Max recurrent peak reverse voltage 100 V. Max average forward rectified current 10.0 a.
提出了一种基于临界电流模式的峰值电流控制技术来实现开关电源的功率因数校正任务。
A critical current mode based on the peak current control technology to achieve switching power supply power factor correction task is proposed.
本文介绍了平均电流控制型和峰值电流控制型开关调节系统的分析方法。
The analytical method of power switching regulation system which has current-mode control is introduced in this paper.
推导了各连续态的峰值与总粒子数的解析表达式并详细讨论了峰开关效应。
Analytical expression for the peak and total population of each continuum are presented, and the peak-switching effect is discussed.
实验结果证明了提出的技术能有效降低开关变换器的谐波峰值和应用于开关变换器的可行性。
The experimental results have confirmed the advantage of the proposed method and its applicability for switching converters.
仿真结果表明:四种混沌源调制生成的混沌开关调制信号,均能够降低电源的输入电流及输出电压的频谱峰值。
Simulation results demonstrate: the chaotic modulation signals generated from the four kinds of chaotic sources can all reduce the peak level of the input current and the output voltage spectrums.
仿真结果表明:四种混沌源调制生成的混沌开关调制信号,均能够降低电源的输入电流及输出电压的频谱峰值。
Simulation results demonstrate: the chaotic modulation signals generated from the four kinds of chaotic sources can all reduce the peak level of the input current and the output voltage spectrums.
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