charging capacitor meaning in Chinese
充电电容器
Examples
- At last , a high voltage power supply used for charging capacitors with constant current has been designed and completed . the operational characteristics of this power supply were proved by experiments to be fully agreed with the designing targets
最后,完成了一台高压大功率恒流充电电源的设计与制造,实验结果表明该电源的性能完全达到预期指标。 - The technology of alternating - current - boosting by way of constant current is successfully used to charge capacitors with 25 kilojoules of energy in only eight seconds . rail - gap switch with performances of long life and highly steady state are designed . and the high voltage pulse generator , which can produce low - excursion and fast - rise pulses , are designed by using double trigger circuit and hydro - thyristor as switch
在大功率恒流充电技术上,成功的应用了交流调压式恒流技术,可以在8s内让电容器储存25kj的能量;设计出了长寿命、高稳定的轨道开关;采用氢闸流管做开关,使用双触发电路,研制出了低抖动、快前沿的高压脉冲发生器(点火机) ;采用单片机和pld ,研制出了精度为10ns的延时同步机。 - In chapter 3 , according to the requirements of high voltage power supply used for charging capacitors with constant current , the series resonant converter ( src ) was chosen as the main circuit frame . the dynamic process of src was discussed by using mathematical analyses and numeric simulation to study the operational characteristics , the effects of parameters of resonant circuit on them and the relationship between switching frequency and out put power , which provided the bases of designing the power supply
第三章中根据高压电容恒流充电电源的运行特点,选择了串联负载谐振变换器作为主电路结构形式,并对其动态过程进行了数学分析及数值仿真,讨论了该电路的运行特点、谐振回路参数对运行特性的影响以及开关工作频率与功率输出的关系,为电源的设计提供了依据。 - This paper analyses , compares and researches the measurement of solar array deeply . the system takes advantage of a new measurement of solar array that samples the signal of voltage and current continually during charging capacitor by solar array to redraw the i - v characteristic of solar array . this method can test the i - v characteristic of solar array conveniently and quickly in contrast with the traditional method
针对太阳电池阵列的测试方法,本文进行了详细的分析比较和探讨,系统采用一种新型的电容动态充电方式对太阳电池阵列进行特性测试,该方法是通过检测太阳电池阵列对电容的充电过程中电流、电压的变化数据,重现光伏阵列的i - v特性,采用这种方式可以快速而方便的测量太阳电池阵列的i - v特性,具有体积小、重量轻等特点,克服了传统现场测试方法的弊端。