1) reverse recovery current
反向恢复电流
1.
This paper describes a method for calculating reverse recovery current parame- ters of the thyristor turnoff model.
本文论述了计算晶闸管关断模型反向恢复电流参数的一种方法。
2) reverse recovery over voltage
反向恢复过电压
3) Reverse recovery charge
反向恢复电荷
1.
New SiC Schottky diodes outperform their counterparts, exhibiting up to 600V blocking voltage with the absence of reverse recovery charge and current.
崭新的碳化硅(SiC)肖特基二极管优于它的竞争者,具有600V的阻断电压;而且没有反向恢复电荷和反向恢复电流。
2.
Our work mainly focus on the improvements of reverse recovery charge and gate charge which impact much on high speed switching and high efficiency performance of a VDMOSFET.
本项目主要针对影响器件开关速率和高效性能的反向恢复电荷、栅电荷进行优化和改进。
4) reverse recovery
反向恢复
1.
A simple model is presented for a power diode with reverse recovery.
讨论了一种简单的二极管反向恢复模型,通过采用与存储电荷相关的寿命时间常数来考虑Auger复合过程及少子扩散电流的影响,从而得到更为精确的结果。
2.
Aimed at the problems of voltage spikes and EMI caused by the rectifier diodes due to the reverse recovery,an im-proved spikes-suppressor is proposed,which can eliminate the parasitic oscillation and voltage spikes effectively.
针对输出整流管反向恢复带来的电压尖峰及电磁干扰等问题,设计了一种改进型尖峰抑制器。
3.
Furthermore,reverse recovery losses of main diodes are minimized,and auxiliary switches commutate at zero current.
此外,续流二极管的反向恢复损耗被降低到最小,辅助开关也实现了零电流开关。
5) Reverse-recovery
反向恢复
1.
The proposed converter can reduce the loss caused by the reverse-recovery current of the rectifier in the PFC boost converter and alleviate the relevant electromagnetic interference of the circuit.
它充分发挥Boost'DCM及CCM各自的优势,减少了PFCBoost变换器中输出二极管反向恢复电流引起的损耗,降低了电路的电磁干扰(EMI)。
6) restoring current
恢复电流
补充资料:计时电流反向技术
分子式:
CAS号:
性质: 一种电化学研究方法,是对工作电极施加第一个能产生某种待测物质的电势阶跃后,再施加与初始阶跃反向的第二个电势阶跃,可通过电流-时间曲线对第一阶跃产物进行检测。
CAS号:
性质: 一种电化学研究方法,是对工作电极施加第一个能产生某种待测物质的电势阶跃后,再施加与初始阶跃反向的第二个电势阶跃,可通过电流-时间曲线对第一阶跃产物进行检测。
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