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Thermal analysis of the Ultralife SSS/sup TM/ lithium ion solid polymer battery with high energy anode for dual use applications

机译：具有高能量阳极的超级消耗SSS / SUP TM /锂离子固体聚合物电池的热分析，用于双次使用应用

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The thermal properties of the Ultralife SSS/sup TM/ Lithium Ion Battery are investigated, with cell laminate thermal stability and heat capacity reported, as well as thermal calorimetry performed upon a cell stack having an initial capacity of 12.476 Ah during charge and discharge cycling at temperatures of 3, 10, 20, and 40/spl deg/C. Thermal energy represents 3.7 and 7.8% of total energy with discharge currents of 2 and 5 A respectively at 20/spl deg/C. The thermal energy during charge, at 2 and 5 A, represents 3.6 and 7.3% of total energy respectively. The major contributor to thermal performance during charge/discharge cycling is the cell impedance.

机译：研究了超级SSS / SUP TM /锂离子电池的热特性，具有报告的电池层压热稳定性和热容量，以及在充电和放电期间的初始容量为12.476 AH的电池堆进行的热量热量测定温度为3,10,20和40 / spl DEG / c。热能分别代表总能量的3.7％和7.8％，分别在20 / SPL DEG / C处具有2和5a的放电电流。电荷期间的热能，2和5a，分别表示总能量的3.6％和7.3％。充电/放电循环期间热性能的主要原因是细胞阻抗。

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《Intersociety Energy Conversion Engineering Conference 》|1997年||共5页
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Hollandsworth R.P.; Isaacson M.; Institute of Electric and Electronic Engineer;
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中图分类自动化技术、计算机技术 ;
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Thermal analysis of the Ultralife SSS/sup TM/ lithium ion solid polymer battery with high energy anode for dual use applications

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