1) trickle charge
小电流充电
2) charging current
充电电流
1.
Based on the current theory of electrochemistry, it separated the total current signal into two components, Faraday current and charging current.
基于电化学理论电流公式,用迭代目标变换因子分析法对计时电流曲线进行处理,得到分离的法拉第电流和充电电流成分,对于简单的电极过程,分离效果很好,信噪比得到提高,法拉第电流分量可用于定量分析。
2.
By regulating the outer resistor,it controls the charging current through the capacitor,thus obtaining the pulse or sawtooth with the desired frequency.
文中简单介绍了一种由双比较器型施密特触发器构成的振荡电路,它通过调整外部的电阻来控制对电容的充电电流,从而得到所需频率的方波或锯齿波信号。
3) charge current
充电电流
1.
The test results showed that, based on practical application situation, the problem of fast charging can be realised under the conditions of determining the proper charge current ,strictly controling the amount of charge capacity and the environmental temperature as well as the heat diffusion of batteries.
实验结果表明,只要根据具体情况确定合适的充电电流,严格控制充电量和环境温度,保证散热良好,就能达到快速充电的目的。
4) trickle charger
小电流充电器,弱电持续充电器,浮充电器
5) trickle charge
小量充电
6) constant current charge
恒流充电
1.
This paper introduces the main structure of system,principle,PWM constant current charge and SPWM inverter control Algorithm.
介绍了主要部分的结构、工作原理、PWM恒流充电及SPWM逆变控制算法。
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