1) Minimum peak current
最小峰值电流
2) peak inrush current
最大峰值电流,最大涌流
3) peak value of current
峰值电流
1.
Based on the experiment for EDM of carbide material, the influences of electricity parameters, such as pulse width and peak value of current, on the machining performances, including process efficiency, electrode wear and machined surface roughness, are researched, and the effecting mechanism is analyzed.
通过对硬质合金材料的电火花加工试验,研究了脉冲宽度、峰值电流等电参数对加工效率、电极损耗、加工表面粗糙度等加工性能的影响规律,并分析了其作用机理,提出通过合理配置电参数以改善硬质合金加工性能的工艺原则。
4) peak current
峰值电流
1.
This paper presents the principles and features of switching power supply in the peak current control.
介绍了峰值电流控制开关电源的原理和特点。
2.
The aim of this paper is to discuss new solutions in the design of insulated gate bipolar transistor (IGBT) gate drivers with advanced protections such as two-level turn-on to reduce peak current when turning on the device, two-level turn-off to limit over-voltage when the device is turned off, and an active Miller clamp function that acts against cross conduction phenomena.
论述了IGBT门极驱动器设计新方案,它具有先进的保护功能,如元件采用双电平开通以减小峰值电流,采用双电平关断以限制过电压,以及防止出现桥臂贯通的有源密勒箝位。
3.
The peak current mode PWM controller can limit the duty cycle.
本文研究了电压电流双闭环控制反激(Flyback)变换器的起动过程,该变换器采用峰值电流控制芯片来实现。
5) peak-current
峰值电流
1.
Small-signal model and design of the active-clamp forward converter with peak-current control mode;
峰值电流控制模式有源箝位正激变换器的小信号模型与设计
2.
Aimed at the shortcomings of the micro-plasma oxidation technique, a high frequency power micro-plasma oxidation supply based on IGBT and peak-current control mode is designed.
针对微等离子体氧化技术的特点,利用IGBT和峰值电流控制模式设计了一种高频大功率微等离子体氧化电源,它可以克服目前普遍使用的晶闸管整流式电源的缺陷,并能满足微等离子体氧化技术对电源的要求。
6) peak current
电流峰值
1.
During full load running of inverter,the inductive current RMS value and the peak current are two important parameters for designing the inductor of the output LC filter.
逆变器满负荷时的电感电流有效值和电流峰值是滤波电感设计的两个重要参数。
补充资料:标准冲击电流波形(见冲击电流发生器)
标准冲击电流波形(见冲击电流发生器)
standard impulse current wave form
blaozhun ehonglld}0n4一u box]ng标准冲击电流波形(standard impulse currentwave form)见冲击电流发生器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条