Electrical storage devices known as capacitors charge and discharge very quickly, but because they hold their charge on the surface of metal plates, their storage capacity is limited.
电荷存储元件——电容器,可以快速地充放电,但是因为电荷被存储在电容器金属片的表面,所以电荷容量有限。
The experimental results showed that, before practical application, the initial capacity and comprehensive performance of stored battery can be obviously incr eased after some charge-discharge cycles.
结果表明:长期搁置后的蓄电池在使用前进行几次充放电循环,其有效容量和综合性能明显得到提高。
Therefore, almost no diminishment of discharge capacity occurs, even after many discharge and charge cycles.
因此,几乎没有放电能力被削弱时,即使经过多次放电和充电周期。
If the discharge current was increased, the discharge capacity was obviously less than the stabilized value and maximum charge voltage was also changed suddenly.
若放电电流增加,在随后的第一周充放电过程中最高充电电压迅速增加、放电容量显著小于稳定值。
The results shown that the relative small charge current is favorable to improve electrode properties including capacity, circle life and discharge stability.
结果表明:小电流活化有利于提高电池的容量、循环寿命和放电性能的稳定性。
The result of investigation shows that the electrode derived from different ion doped into polystyrene resin has a visible difference in the reversibility and capacity of the charge and discharge.
实验结果表明,掺杂不同离子的炭电极具有充、放电的不可逆性,其充、放电容量也有明显的差别。
Its measuring and checking included battery charge, battery capacity, battery internal resistance, circulating charge and discharge test.
电池充电试验、电池容量测量、电池内阻测量、循环充放电寿命试验。
C variable amplitude pulse charging mode was proposed to reduce capacity ratio of charge-discharge and water-loss rate, so the batteries in series were in conformity, thus to extend the cycle life.
变幅脉冲充电模式,减少充放电容量比率和失水量,促使串联中各电池性能的一致,达到延长深循环寿命的目的。
The experimental results showed this electrode can improve reversibility of the battery and increase its charge discharge capacity, cycle life.
实验结果表明,使用这种电极可使电池的可逆性明显改善,提高其循环寿命和充放电容量。
With the increase of the charge-discharge voltage, electrochemical stability was reduced and irreversible capacity loss occurred during the first cycle.
随着充放电电压的升高,首次不可逆放电容量增大,循环稳定性减弱。
The effects of synthesis temperature, time, lithium and aluminum contents on the crystal structure charge-discharge capacity were investigated.
研究了合成温度、合成时间、补锂量对合成产物结构的影响以及掺铝量对合成产物结构和充放电容量的影响。
Particle-fracture and over-charge and discharge in electrode materials are one of the main reasons for capacity fade of lithium-ion batteries.
锂离子电池的过充电、过放电和材料的粉化是电池容量衰减的主要原因之一。
CMP battery uses the imported, original and high-capacity cell, after full charge of the battery, the using time is longer than the original, and the platform of discharge is high.
电池采用进口原装高容量电芯,电池满充电后使用时间比原配电池时间长,放电平台高。
CMP battery uses the imported, original and high-capacity cell, after full charge of the battery, the using time is longer than the original, and the platform of discharge is high.
电池采用进口原装高容量电芯,电池满充电后使用时间比原配电池时间长,放电平台高。
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