该模型考虑了放电深度和放电速率对电池寿命的影响。
This model USES depth and rate of discharge and to estimate battery lifetime.
这种电极的容量远大于负极的,成为限制放电深度的电极。
The capacity of this electrode is much larger than that of the negative electrode to limit its depth of discharge.
结果表明:(1)随放电深度的增加,电荷传递阻抗R3先减小后增大;
The results shows: (1)charge-transfer resistance R3 decreases at first and then increases with the increasing of DOD;
通过分析麦斯三定律,指出铅酸蓄电池充电接受能力与放电电流及放电深度的关系。
With the analysis of three Mas Regulations, the correlation between charge acceptance of lead-acid batteries and its discharge current and discharge depth is elucidated.
辅于温度智能补偿精准控制蓄电池的放电深度及充电饱和度,保证蓄电池工作于最佳状态。
We control the depth of discharge and charge saturation accurately by temperature compensation. It makes the lifetime of the battery longer.
着重介绍了蓄电池和充电器之间的匹配和优化以及蓄电池放电深度与循环寿命之间的关系。
The matching and optimization between batteries and their chargers as well as the relationship between the discharge depth and the cycle life were described in this paper.
按照上述最佳配方生产的阀控密封式(VRLA)蓄电池在70%的放电深度下的循环寿命达到了612次。
The cycle life at 70% DOD of the VRLA battery made by the optimum paste formula is up to 612 cycles.
在部分荷电状态(PSOC)下采用不同的充电模式,进行了100%放电深度的对比试验,同时对失效单体电池进行了容量恢复实验。
Under the partial state of charge (PSOC) condition, the experiments for 100% depth of discharge were carried out by using different charging algorithms.
的使用寿命,非迫不得已,不要让电池处于深度放电状态。
Service life and not have to, don't let the battery in the depth of discharge state.
采用厚电极的铅酸电池可以比采用薄电极的铅酸电池更能容忍这种“深度”的放电,但只能以生产更为沉重的重电池作为代价。
Lead-acid batteries with thicker electrodes can tolerate such "deep" discharges better than those with thin ones, but only at the expense of making a heavy battery even heavier.
当德国阳光蓄电池电压降到低限时,报警通知用户,然后自动关机以防止德国阳光蓄电池深度放电。
When Germany sun battery voltage to the low limit, alarm notifies the user, and then automatically shut down to prevent the sun battery deep discharge in Germany.
放电单脉冲的电流峰值和脉宽决定了单个电火花蚀坑的大小和深度,从而直接决定了工件的加工表面粗糙度、形状精度和尺寸精度。
The peak current and pulse duration of single pulse determine the size and depth of discharge crater, so they determine the machining surface roughness and size and shape accuracy.
如果你在电池完全放完电的时候存放,电池将进入深度放电状态,这将造成电池不能再充电。
If you store a battery when it's fully discharged, it could fall into a deep discharge state, which renders it incapable of holding any charge.
对辉光放电质谱在块状金属、半导体、非导体、溶液、气体和深度分析方面的应用进行了综述。
The application of GDMS was reviewed in the aspects of the bulk metal, semiconductor, nonconductor, solution, gas and depth analysis.
并且可根据实际需要再增设多个不同数值的取样电压,以实现不同深度放电的目的。
And according to actual need a plurality of different numerical sampling voltage can be created, thus to achieve the purpose of different depth of discharge.
研究了原子吸收光谱法和辉光放电光谱仪定量测定硬质合金去钴深度的新技术。
A new method for testing the acid etching depth of WC-Co cemented carbide by flame atomic absorption spectrometry and glow discharge spectrometry has been studied.
通过研究不同放电条件下镀锡钢板的光谱行为,确定了具有较好深度分辨率的放电条件,建立了镀锡钢板的辉光放电发射光谱定量深度分析方法。
Discharge conditions at which depth profile analysis of tinplate had good depth resolution were selected by researching spectrometric behaviors of tinplate at different discharge conditions.
一般来说,电动车用蓄电池多工作在深度充放电工作状态。
Generally speaking, the electric car works with the accumulator cell in the depth charging and discharging active status.
是对蓄电池组进行充电和容量检测,深度放电后对电池补充充电及对电池组日常维护,新电池组工程验收的必备仪器。
It's an essential instrument that can charge and capacity test to battery, boost charge and daily maintain to battery after deeply charging and accept to new battery project.
经过若干次等离子体放电实验后,取出样品进行表面形貌、表面元素成分及深度分布的X射线光电子能谱分析。
After plasma irradiation, the specimen surface morphology was observed by SEM and the element composition of the coatings was analysed by XPS.
单体检测整组放电仪是对 蓄电池组及各种直流电源 设备进行维护及容量检测,新电池工程验收和定期深度放电的仪器。
Single cell test& discharger is an instrument that can maintain, test capacity to battery and all kinds of DC power supply, accept to new battery project and charge deeply periodic.
恢复是一种缓慢的,深度的放电过程,它放电使电芯达到一个电压极限,一个电芯一定要由一伏的电压至少放电至0.6伏以下,才能溶散更多的抗性晶体。
Recondition is a slow, deep discharge that drains the cell to a voltage threshold below one volt must be discharged to at least 0.6 volts per cell to dissolve the more resistive crystalline build-up.
恢复是一种缓慢的,深度的放电过程,它放电使电芯达到一个电压极限,一个电芯一定要由一伏的电压至少放电至0.6伏以下,才能溶散更多的抗性晶体。
Recondition is a slow, deep discharge that drains the cell to a voltage threshold below one volt must be discharged to at least 0.6 volts per cell to dissolve the more resistive crystalline build-up.
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