对电池组进行均衡充电。
主动均衡充电可以有效延长电池组的寿命。
Active equalization can effectively extend cycle life of battery packs.
设计简洁,免维护,无需补水,不需均衡充电。
Maintenance free operation, no need to add water, no equalizing charge required.
基于电池系统模型的复杂性,提出了均衡充电智能控制。
Because of the complexity of battery model, intellectualized equilibrium charging system is brought. forward.
强充电电压,均衡充电电压,浮充电压三阶段充电控制。
Strong charging voltage, Average chaging voltage, Float voltage three-stage charging control.
系统的算法基于对连续充电过程进行离散化后得到的选择式均衡充电模型。
The algorithm of the system is based on the selective equalization model formed from the discretization of continuous charging process.
讨论了传统的均衡充电不适合阀控式铅酸电池,提出了电池组主动均衡的方法。
The traditional equalizing charge was unsuitable to VRLA battery and a battery active equalization method was proposed.
另外当用户认为有必要对电池进行均充电时,亦可通过按键操作进行手动均衡充电。
Furthermore, if a user thinks that the battery needs equalizing charge, the user can conduct equalizing charge manually through push-button operations.
采用了电池均衡充电方法,对电池的不一致性进行了补偿,从而延长了电池组的使用寿命。
A new equalization method is designed to compensate the unbalance between batteries, which lengthens the life of batteries.
为了解决动力锂电池组使用中的一致性问题,本文提出了一种均衡充电管理电路的实现方案。
To solve the problem of uniformity of power Li-ion battery series, an equal charging scheme of managing circuit was proposed in this article.
由于单体电池的内阻、容量、浮充电压一致性好,因此电池在浮充使用状态下无需均衡充电。
With the good coherence of internal resistance, capacity and floating charge , there is no equalizing charge required during use.
这些原则和已有系统的缺陷表明,在均衡充电系统中采用分布式数字化的检控机制较为合理。
These principles and the defects in existing systems show that it is proper to introduce a distributed digital control mechanism into the equalization system.
目前国内外对电池充电的研究主要集中在充电方法上,对均衡充电也有一定的研究,但控制方法都较复杂,难以实现。
At present the research on battery charging focuses mainly on charging methods internally and abroad, but rarely on equilibrium charging.
分析了锂离子电池组均衡充电保护系统在电池组充电过程中的均衡充电和保护功能,建立了电池组均衡充电的控制模型。
Functions of equalization charging and overcharging protection are analyzed, and model of control for series battery packs equalization charging is setup.
均衡充电系统能在充电时主动地将充电能量平均分配给组中各单体,从而有效提升电池组的可用容量,并延长其使用寿命。
Charge equalization systems can deliver charge energy equally to individual cells in the string. In this way, the available capacity will be enhanced and the life cycle will be extended.
按功耗和功能对均衡方式进行了分类,能量非耗散型均衡和充电均衡有广泛的实际应用。
The equalization circuits were classified by power dissipative and function, the non dissipative equalization and charge equalization were used widely in practice.
提出了一种星上电池均衡控制的方法,此方法可在充电与放电状态下,根据每节电池各自的荷电状态对整组串联电池组进行有效均衡。
Based on the model, a new method to control battery equalization was present to counterpoise the energy of in the same battery team in series both for charging state and discharging state.
此外,还必须预先采取措施,使电池能单独充电或放电,以均衡电池之间的充电状态。
In addition, there must be a provision for cells to be individually charged or discharged to balance their SOCs.
串联电池组有主动均衡和被动均衡两种充电模式。
Active equalization and passive equalization are the two charge modes of series connected battery packs.
实现对串联电池组的充电均衡控制,以解决充电过程中因电池特性不一致而产生的电池过充电问题。
Realizes to series battery's charge balanced control, solves in the charging-up the battery surcharge question which produces not because of the battery characteristic.
在均衡管理系统上,采用简单的能耗式均衡方法有效地实现了电池组的充电均衡。
On the balance management system, power consumption balance method is used to realize the charge balance of batteries effectively.
按功耗和功能对均衡方式进行了分类,能量非耗散型均衡和充电均衡有广泛的实际应用。
The equalization circuits were classified by power dissipative and function, the nondissipative equalization and charge equalization were used widely in practice.
最后设计并搭建了充电电压均衡和放电稳压方案的硬件电路,通过分析测得的实验数据,最终验证了方案具有一定的可行性和较高的实用价值。
The design and construction of hardware circuit is discussed in the end. The proposed methods of voltage balancing and voltage stabilizing are proved feasible through analysis of experimental data.
有些蓄电池型式可能需要一个完全充电如同均衡程序的一部分。
Some battery types may require a complete discharge as a part of the equalization process.
有些蓄电池型式可能需要一个完全充电如同均衡程序的一部分。
Some battery types may require a complete discharge as a part of the equalization process.
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