| 1. | Sufficient care must be taken during the design of the charger when charging batteries connected in parallel . consult sanik when parallel charging is required 不可并联充电,以免产生不规则的充电电流不可反向使用电池或使之短路。 |
| 2. | By recharging voltage recharge current vary , and as for the recharge gradually increases , not because of battery heating period and declined slightly 充电电压因充电电流不同而异,并随充电的进行而逐渐上升,到未期因电池发热而略有下降。 |
| 3. | Charge batteries within an ambient temperature range of 0c to 40c . charging current : above 0 . 1c , control conditions time , voltage , temperature , etc . shall be carefully selected 超过0 . 1c的充电电流,要选择合适的控制条件如时间- v温度,否则严重的过充会对电池性能造成损害 |
| 4. | Taking stc89le516ad and uc3842 as the core , an intelligent charging circuit which can realize receivable charging electric current curve tracking technology for the battery was designed 摘要以stc89le516ad和uc3842为核心,实现蓄电池可接受充电电流曲线跟踪技术的智能充电电路设计。 |
| 5. | If the charge voltage of current is too high and cause overload , the function of overload protection can cut off output power . it may resume automatic after release from overload 在充电过种中若充电电流太大或充电电压过高引起机器过载时,本机的过载保护会将输出断开,待过载解除后,自动恢复。 |
| 6. | Automatically detect the voltage of battery , regulate the charging current , and compensate for the self - discharging loss of battery at any moment to ensure that the generator set obtains the suffcient electric quantity of battery required whenever the generator set starts 自动检测蓄电池电压,调节充电电流大小,随时补充电池自放电损失,保证机组任一时刻起动所需电池电量。 |
| 7. | To shorten charging time and improve charging efficiency , the circuit can change the charging electric current automatically according to real time voltage of the battery , and dispel the polarization phenomenon by narrowing pulse discharge in the whole course 该电路可根据蓄电池端电压自动改变充电电流大小,并通过全程窄脉冲放电消除了充电过程中的极化现象,缩短了充电时间,提高了充电效率。 |
| 8. | The adoption of a fuzzy neural network control strategy that features satisfactory ability of self - learning and nonlinear approaching . the charging current traces dynamically the battery - dependent acceptable curves to maintain the charging process under optimal status -采用具有良好自学习能力和非线性逼近能力的模糊神经网络控制策略,使充电电流动态跟踪离散的可接受充电曲线,使充电过程始终在最佳状态下进行。 |
| 9. | Because of the technical complexity such as parameter discreteness and nonlinearity , the confirmation of a theoretically existing acceptable charging current curve is quite difficult and the research and implementation of optimal charging technique are still in their first steps 由于蓄电池技术状态的复杂性如参数的离散性和非线性等,理论上存在的可接受充电电流曲线的确定有相当的难度,最佳充电技术的的理论研究和技术开发尚处于初级阶段。 |
| 10. | With a study in depth on the charging process the author reached the following understanding : the ideal charging current at a specific moment is dependent on the amount of active material on the battery plates and the reactive environment , that is to say , the charging current should follow a j . a . mas proposed acceptable curve or optimal curve ; the polarization is unavoidable but controllable in charging and discharging 笔者主持的原煤炭部优秀青年基金项目《轻型智能充电装置研究》即代表这种关注。笔者通过对充电过程的分析得到如下理解: -任何时刻的理想充电电流取决于当时极板上的活性物质的多少及其周围反应环境,充电电流的变化应遵循马斯( j |