过充电

  • 网络Over-charge;over charge;Overcharge
过充电过充电
  1. 采用多种内阻测量方法和热电偶法,研究了AA型MH-Ni电池在充电、过充电及高倍率放电时电池内阻与电池工作性能的关系。

    The relationship of operating performance of AA size Ni MH cell with its internal resistance during charge , over charge , and high rate discharge are studied using thermocouple method and several other internal resistance measuring methods .

  2. 针对如何使铅酸蓄电池更合理的充、放电的问题,提出选择具有太阳能电池板夜间防反充电、蓄电池过充电、过放电等功能的光伏控制器。

    How to make Lead-acid batteries more reasonable for charging and discharging , suggest chose PV controller which function with solar panels prevent anti-charge , battery over charge and over discharge .

  3. LiCoO2-LiMn2O4混合正极的过充电性能

    Overcharge performance of LiCoO_2-LiMn_2O_4 blended cathode

  4. 可再生能源发电系统中VRLA蓄电池的过充电保护与温度补偿特性的研究

    Study on overcharging protection and temperature compensation of VRLA battery in renewable energy system

  5. 对可再生能源发电系统中阀控式密封铅酸蓄电池(VRLA)的过充电保护与温度补偿特性进行了模拟实验研究。

    A study on overcharging protection and temperature compensation characteristics of VRLA battery was carried out in renewable energy system .

  6. 对含CHB电池过充电过电极表面和隔膜的形貌进行SEM观察,正极表面和隔膜表面均有一层明显的聚合物薄膜覆盖。

    SEM observations of electrode surface and separator of the cell after overcharge suggest that both the electrode and the separator are covered by polymer films .

  7. 在充电电池使用过程中,影响电池寿命的最主要因素是过充电和过放电。普通MH-Ni蓄电池、锂离子蓄电池充电器功能比较单一,很难有效防止过充电的发生。

    Overcharge and overdischarge are the main factors of influencing the life of rechargeable battery .

  8. 结果表明:电荷传递电阻Rct随过充电时间的增加而增加,而表面膜电阻Rf基本不随过充电时间变化。

    Results showed that charge-transfer resistance R _ ( ct ) increased with overcharge time , while surface film resistance R _f changed little during overcharge .

  9. 本文首先扼要介绍锂离子电池保护电路的功能,然后分别介绍过充电保护、过放电保护、过电流保护,最后列举几种保护性半导体IC的性能及应用电路的结构。

    This paper describes the function of protective circuit for lithium ion battery first , then , introduces the over charging protection , over discharging protection and over current protection respectively , and finally , gives the characters and application circuit of protective IC .

  10. 25℃下,0.1C(10)(A)过充电失水率8%。

    Water loss rate was 8 % at the overcharge current of 0.1C10 ( A ) and temperature 25 ℃ .

  11. 过充电测试有如下结果:对1C、12V过充,循环100次后的电池在测试时呈现不安全性;地面超载下桩基侧向变形的分析计算

    Overcharge test demonstrated that batteries caught fire after 100 cycles at 1 C 12 V and 25 cycles at 3 C 12 V , respectively . Analysis and Calculation on the Lateral-displacement of Adjacent-pile Caused by Overcharge on Ground

  12. 用交流阻抗法结合循环伏安法研究了LiMn2O4粉末微电极过充电对LiMn2O4/LiPF6(EC+DEC)溶液界面性质的影响。

    The influence of overcharge of LiMn_2O_4 powder electrode on the properties of LiMn_2O_4 / LiPF_6 - ( EC + DEC ) interface were investigated by impedance technique and cyclic voltammetry .

  13. 测试结果表明,该电路可以完成所有保护功能,正常工作时的功耗电流为3.1μA,过充电保护电压的检测精度达到了±25mV。

    The test results manifest that the circuit achieves all protective function , the dissipative current is normally 3.1 μ A and the precision for over-charge detector threshold is 25 mV .

  14. 功能添加剂对锂离子电池的防过充电化学行为研究

    Electrochemical Behavior of Function Additive for Overcharge Protection of Li-ion Batteries

  15. 铅酸蓄电池的过充电保护与温度补偿

    Overcharging Protection and Temperature Compensation of Lead Acid Battery

  16. 锂离子电池过充电行为的研究进展

    Research progress on overcharge behavior of Lithium ion batteries

  17. 延长阀控密封铅酸蓄电池寿命研究&过充电保护与温度补偿特性

    Study on prolonging life of valve-regulated lead-acid battery & Overcharge protection and temperature compensation

  18. 关于密闭式二次电池过充电时内压的讨论(摘要)

    Discussion on the internal pressure of sealed secondary battery during overcharge ( Abstract )

  19. 综述了二次锂电池过充电保护添加剂的原理及其特点。

    The principle and characteristics of overcharge additives for secondary lithium batteries are reviewed .

  20. 过充电保护,以防止损害电池。

    Overcharge protection prevents harm to battery .

  21. 二次锂电池过充电保护添加剂

    Overcharge protection additives for secondary lithium batteries

  22. 过充电条件下,尖晶石锂锰氧化物的结构受到破坏,电解质的氧化产物可能是气体和水。

    Structure of LiMn_2O_4 was destroyed , gas and water could be produced during overcharge .

  23. 概述了过充电时电池内部的反应机理和提高电池耐过充性的措施。

    The internal reaction mechanism and protection means of the battery during overcharge were summarized .

  24. 2-氯苯甲醚作锂电池防过充电添加剂研究

    2-Chloroanisole for overcharge protection of Li-ion battery

  25. 试验结果表明:研制电池在高温下的充电能力、荷电保持能力以及耐过充电能力均有明显的改进。

    The experiment results showed that the charging capability , charge maintenance and the ability to withstand over-charging was improved .

  26. 通过合理的电源管理,可以有效的防止铅酸蓄电池的过充电、过放电,可以有效地提高铅酸蓄电池的实际使用寿命。

    With reasonable power management , overcharge and overdischarge can be effectively avoided and the service life of lead acid battery increases .

  27. 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 .

  28. 从充电倍率、负极材料的种类以及正负极材料的电容量匹配等方面,研究了锂离子电池的过充电行为。

    The overcharge behavior of Li-ion batteries was studied from the rate of charge , the type of the anode materials and anode to cathode capacity ratio .

  29. 分析了正极板开裂的原因以及预化成时充电时间、过充电和洗涤工艺对正极板开裂的影响;

    The causes of cracking and the effects of charge time , over-charge and the washing process on cracking of positive plate were analyzed in this paper .

  30. 但另一方面,由于锂离子电池极易受到过充电、过放电、过电流等损坏,因此实际应用中对其保护电路的设计就显得非常重要。

    However , lithium ion batteries can be easily damaged by overcharge , excessive discharge or over current . Thus attention must be paid to the battery protection circuit .