Produced prototype completed the state's test and a joint debugging with the whole battery formation system.
制作的样机完成了各工作状态的测试并与化成系统其他部分进行了联合调试。
Battery formation manufacturing process is a key process, which directly affects the battery's quality and production costs.
电池化成是蓄电池生产过程中的关键工艺流程,直接影响着电池的品质和生产成本。
The battery formation device also comprises an upper fixture. The second probe can be fixed on the fixed part or the upper fixture.
本实用新型能有效避免在电池化成、检测 时的短路问题。
This paper introduces a lithium polymer battery formation system based on the digital signal processor TMS320F243 and CAN (controller area network).
介绍了一种基于数字信号处理器TMS32 0f 2 4 3和CAN总线技术的锂电池化成系统。
To this end, my laboratory made a high-efficiency battery formation equipment development issue and the corresponding subject programs to deal with it.
为此,实验室提出了开发高效率电池化成设备的课题并给出相应课题方案。
Formation of white crystal in battery and its mechanism are analyzed and several measures of prevention are proposed.
分析了电池白色结晶的析出及其产生原因。提出了预防措施。
Other methods include alkaline formation of lead battery positive plates (Voss and Freundlich) and electrooxidation of lead acetate in an alkaline solution (Zaslavskii).
其他方法包括在碱性环境制备铅电池的正极和在碱性溶液中用醋酸铅进行电氧化。
The experiment on the influence of drying temperature of the dry charged positive plates after formation on the starting ability of battery was conducted.
本文主要对干荷正极板化成后的干燥温度对电池起动性能的影响进行了探讨性的试验。
There was no leakage of reference battery after formation, but 30% of the test battery was leaked.
在电池化成后,参照电池没有喷爬碱,而实验电池却高达30%。
The effects of two formation methods on the performance of Ni-Cd battery with sintered positive electrode and pasted negative electrode were compared.
比较了两种开口化成制度对半烧结镉镍电池性能的影响。
The gases generated in polymer Liion battery during formation process and storage process were analyzed by means of gas chromatography (GC), and the reason of the gas generation was discussed.
采用气相色谱方法对电池在化成阶段和储存阶段产生的气体进行了分析,初步讨论了聚合物锂离子蓄电池在化成阶段产生气体和储存阶段发生气胀的原因。
The gases generated in polymer Liion battery during formation process and storage process were analyzed by means of gas chromatography (GC), and the reason of the gas generation was discussed.
采用气相色谱方法对电池在化成阶段和储存阶段产生的气体进行了分析,初步讨论了聚合物锂离子蓄电池在化成阶段产生气体和储存阶段发生气胀的原因。
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