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.
智能蓄电池放电仪是专门对蓄电池组、直流电源、UPS后备电池进行维护及容量检测的仪器。
Intelligent battery discharger is the instrument that can maintain and capacity test to battery, DC power and UPS backup battery.
过滤器厂的负责人说,将德国阳光蓄电池放电工作后,工作人员应在24小时内布满电量,防止电池会影响存储容量。
Filter plant, officials say, will work in Germany sunshine battery discharge, the staff should be full of electricity within 24 hours, prevent the battery will affect the storage capacity.
主要介绍了直流变换电路主电路参数的设计方法,对从事蓄电池放电技术研究的工程技术人员具有较高的参考价值。
The design method of the main circuit components parameters of DC/DC converter is obtained. And this method is of higher value for the engineer.
废蓄电池不再放电。
电压控制的装置出现错误可能会导致蓄电池组充电过度,这反过来可能会加速放电,比正常情况更严重。
A fault in the voltage-control mechanism may thus cause a battery to become overcharged, which, in turn, might precipitate a deeper discharge than normal.
那么,是什么引起混合动力汽车的蓄电池组放电如此严重呢?
So, what could trigger such a deep discharge in a hybrid’s battery?
内阻:应选择内阻小的德国阳光蓄电池,这样才能持续大电流放电。
Resistance: should choose the Germany sunshine battery internal resistance small, can continuous large current discharge.
因为在放电过程中的化学反响,可以使电解液向轻贱,也可以使气泡沿槽的上升,可以使德国阳光蓄电池掉落沿槽下沉。
Because in the discharge process of chemical reaction, can make the electrolyte to the vain, also can make bubbles rising along the trough, can make Germany sunshine battery drop down the sink.
德国阳光蓄电池应避免长期搁置不用,也不能长期浮充而不放电。
German battery should avoid sun lay up for a long time, can't long-term floating without discharge.
太阳能控制器:太阳能控制器的作用是控制整个系统的工作状态,并对蓄电池起到过充电保护、过放电保护的作用。
Solar controller: Solar controller's role is to control the entire system state, and played a rechargeable battery protection, over discharge protection.
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.
蓄电池和充电装置的充放电试验。
Charge and discharge operation test for battery and charge equipment.
所以一种使用方便,效果良好的充放电设备,对于蓄电池来讲时非常必要的。
Therefore one kind of easy to operate, the effect good charging and discharging equipment, says regarding the accumulator cell time is essential.
当蓄电池所储存的电能放完时,太阳能控制器要控制蓄电池不被过放电,保护蓄电池。
When the battery the stored power put up, the solar controller to control the battery will not be a discharge, protect the accumulator.
蓄电池的放电特性提供了关于电池容量和寿命的重要信息。
The discharge characteristics of a secondary battery provide important information about the battery's capacity and life.
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。
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.
太阳能发电控制器是专门为太阳能发电系统提供蓄电池充电、放电管理的电力电子装置。
Photovoltaic controller is an apparatus which is exclusively designed to charge or discharge the storage battery in the photovoltaic generation system.
若连续起动时间过长,将造成蓄电池大量放电和起动机线圈过热冒烟,极易损坏机件。
Consecutive start-up time is too long, would result in battery discharge and substantial smoke starter coil overheating, mechanical damage easily.
德国阳光蓄电池抗深放电能力强,100%放电后仍可连续接在负载上,在一月支配充电可恢回复复兴容量95%。
Germany sunshine battery deep discharge resistance is strong, 100% still can pick up on the load continuously after discharge, dominant charging can restore the revival capacity of 95% in January.
设计出用于阵列MPPT的DC/DC电路和具有蓄电池分组充、放电电路。
A charging (discharging) circuit for storage battery and a DC/DC circuit for MPPT of array are designed.
蓄电池和充电装置的充放电测验。
Charge and discharge operine test for playery and charge equipment.
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.
研究了不同阴极导电剂含量对锂离子蓄电池的充放电性能和阻抗性能的影响。
The influence of cathode conductive agent content to battery performance and AC impedance were investigated.
同时给出了整流滤波电路、辅助源电路、过压保护电路、蓄电池的充放电控制电路的电原理图及其工作原理。
Schematic circuits of rectifier and filter, assistant power, over voltage protection, and charge control for storage battery are suggested , their working principle are also discussed.
介绍了一种新型蓄电池充放电装置的系统结构和工作原理,并对其控制方法和控制电路进行了研究。
The system configure and operation principle of the novel storage battery charged and discharged device were introduced, and its control method and circuit were gived.
介绍了一种新型蓄电池充放电装置的系统结构和工作原理,并对其控制方法和控制电路进行了研究。
The system configure and operation principle of the novel storage battery charged and discharged device were introduced, and its control method and circuit were gived.
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