通过一阶段大电流充电和反向放电去极化,有效提高了充电速度。
Charging speed will be improved through depolarization by first-phase intense current charging and reverse discharging method.
理论和实践表明,涓流充电、大电流充电、过充电和浮充电组合起来的充电方式,可达到最佳的效果。
Theory and practice indicate tiny stream flow, charge, large electric current charge, cross, charge and float way of charging combined to charge, can reach the best result.
当然,使用这么高的速度给电池充电,我们最终不可避免将面临提供大电流的问题。
Of course, that ultimately pushes us up against the issue of supplying sufficient current in the short time frames needed to charge the battery this fast.
为了利用快速充电电池,要强化汽车电路以承载大电流。
To take advantage of fast-charging batteries, a car's electrics will have to be hardened up to cope with the huge amperage involved.
储能电容器的工作过程是在高压直流条件下进行较长时间充电,然后在很短的时间放电,从而在负载上形成高电压、大电流的脉冲。
As the storage capacitor charged under DC and discharges in a short time, which form a high voltage and large current pulse.
起始以大电流恒压充电,并严格控制恒压时间,后期以脉充电流结束能使电池的寿命大大提高。
It improved the battery serve life greatly, which using large charge current at beginning, controlling the charge time of constant voltage and using pulse charge in the end.
起始以大电流恒压充电,并严格控制恒压时间,后期以脉充电流结束能使电池的寿命大大提高。
It improved the battery serve life greatly, which using large charge current at beginning, controlling the charge time of constant voltage and using pulse charge in the end.
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