深放电

和AGM电池相比，Gel电池电解质多、充电电压和温升低、耗水少、耐深放电、循环寿命长。

Gel batteries have more electrolyte , lower charge voltage and working temperature , less water loss than those of AGM batteries . They are resistant to deep discharge and have long cycle life .

研究表明：由于电池深放电后进行再充电，αPbO2与βPbO2相对含量的改变，从而引起了深放电后电池性能的改变。

And the reason affecting property of battery was analyzed too . It was showed that : The property of changing battery was resulted from the relative content of α PbO 2 and β PbO 2 changing during recharging after battery deep discharging .

在深放电条件下（循环寿命）很好的可靠性；

Good reliability under cyclic , deep-discharge conditions ( cycle life );

深放电对阀控式铅酸电池性能的影响

Influence of deep - discharging on property of VRLA battery

独特的铅泥涂料保证电池在深放电后能再次恢复充电时的完美性能。

Unique lead paste formula enables perfect recovery performanceofbattery recharging after deep discharging .

电池经过深放电有利于提高电池的初期容量但大大地缩短了电池的深循环寿命。

The initial capacity of battery was increased , and the deep cycle life was shortened greatly because of over deep discharging .

为了达到规范约定的电池使用寿命，需要修正直流开关电源缺省电池管理参数，并尽量避免深放电。

In order to regulate the battery service life , the default battery management parameters need to be changed and avoid deep discharging .

对汽车用铅酸蓄电池的极板生产工艺进行了改进实验，有效地改善了生极板和极板外观质量，提高了电池的深放电循环能力。

An improvement on manufacturing process of automotive lead-acid battery plates was investigated . The quality and appearance of plates were better , and the capability of discharging cycle was increased .

通过阀控铅酸电池不同程度深放电的实验，研究了深放电对电池初期容量、荷电保持率、深循环寿命等性能的影响，并对影响性能的原因作了分析。

The influence of over deep discharging on property including initial capacity , charge retention and deep cycle life of battery was investigated through valve regulated lead acid battery over deep discharging in different degree .

本文研究了固化对免维护铅酸蓄电池初始容量和深放电循环能力的影响，发现固化温度70℃&80℃、相对湿度100%较为合适。

The effect of curing on initial capacity and deep discharge cycling of maintenance free lead acid battery was studied - It was found that the suitable curing temperature was 70 ℃ - 80 ℃ and relative humidity was 100 %

其小电流放电的低温性能良好，深放电循环寿命达420次，过放电后的电池容量达额定容量的90%以上。

The low temperature performance of the gel battery was good as discharging with low current . The deep discharge life of the gel battery could reach 420 cycles . The capacity of the gel battery was above 90 % of the rated capacity after overdischarge .

大量的试验证实，MH/Ni电池记忆效应的产生是由于长期的浅充浅放使用所造成的，通过深充放电循环可以消除或减缓记忆效应。

Complete charge and discharge circle could eliminate or remit memory effect .