1) charging circuit
充电电路,充电回路
2) charging circuit
充电回路
1.
This paper first analyzes the charging process of uniform distributed parameter circuits charged by DC voltage supply, then analyzes rectifying voltage supply to charge the charging circuit, and calculates the ununiformity of the charging voltage of stage capacitors.
本文首先讨论直流电压源对均匀分布参数充电回路的充电过程,同时引入整流电压源对充电回路充电分析,计算分析各级电容充电电压之间的不均匀度。
2.
Then through the establishment of the EMTP simulation model of impulse voltage generator,the impact of component parameters of charging circuit,charging methods and the charging time on the ununiformity is investigated.
本文先讨论直流电压源对均匀分布参数充电回路的充电过程,计算分析各级电容充电电压之间的不均匀度。
3) charging circuit
充电电路
1.
The special limiting current charging circuit with voltage tracing was designed according to the charging characteristics of 36 000 joule capacitor stored energy spot welding machine in order to increase the charging efficiency,decrease the shock to power source and satisfy the production efficiency of aluminum made traffic sign boards.
根据 36 0 0 0J大容量储能点焊机的充电特点 ,设计了独特的电压跟踪式限流充电电路 ,以提高充电效率 ,减小对电网的冲击 ,并满足铝制交通标志板的生产效率要
2.
Describes the basal principle,function and work process of charging circuit in SIEMENS mobile X-ray machine.
阐述了西门子移动X线机充电电路的基本功能和工作过程,并分析和排除了该部分产生的故障。
3.
This article introduced improved DC DC circuit of power source and charging circuit of the XD 106 1 channel electrocardiograph.
本文叙述了心电图机电源板中DC-DC电路和充电电路的成功设
4) charge circuit
充电电路
1.
Design of a Power Charge Circuit for the Lithium Battery of RFID
RFID手持机锂电池快速充电电路设计
2.
The quality of charge circuit strongly related to the life-time and the effectiveness of iron battery,it also related to the safety of battery.
锂电池充电电路的好坏不但关系着锂电池的寿命和使用效率,而且还关系着锂电池的安全问题。
5) resonance charging circuit
共振充电回路
1.
The application of resonance charging circuit to electro-hydraulic impulse apparatus for treating wastewater is introduced in this paper.
在电液压脉冲水处理装置中采用共振充电回路,这种充电回路能保证充电电流平缓增加且与通电时间无关,电容器上电压的特殊形状变化对电液压脉冲设备放电器的电气强度恢复过程具有非常有利的作用。
6) delaying arc charge circuit
延弧充电回路
1.
A solution to the automatic control system of delaying arc charge circuit based on RTOS and PLC is introduced in this paper.
介绍了基于实时操作系统(RTOS)和可编程控制器 (PLC)的延弧充电回路自动控制系统的解决方案,并对方案中几处特殊模拟量信号以及对它们调理转换的实现方法进行了数学分析。
补充资料:充电
分子式:
CAS号:
性质:蓄电池从外电路接受电能,转化为电池的化学能的工作过程。蓄电池在其能量经放电消耗后,通过充电恢复,又能重新放电,构成充放循环。一般用直流电流(也有用不对称交流电流或脉冲电流)充电。不同情况下,采用不同的充电方法如恒流充电、恒电压充电、浮充电、涓流充电、急充电或这些方法的组合式充电等。
CAS号:
性质:蓄电池从外电路接受电能,转化为电池的化学能的工作过程。蓄电池在其能量经放电消耗后,通过充电恢复,又能重新放电,构成充放循环。一般用直流电流(也有用不对称交流电流或脉冲电流)充电。不同情况下,采用不同的充电方法如恒流充电、恒电压充电、浮充电、涓流充电、急充电或这些方法的组合式充电等。
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