Temperature derivative battery charge control

机译：温度微分电池充电控制

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A new battery charge termination technique for Ni-Cd batteries will be presented, which is especially effective in low earth orbit application. End of charge termination is based on the temperature increase at end of charge using the temperature derivative detection principle. This makes the end of charge termination practically insensitive to environmental temperature, depth of discharge and solar array charge current fluctuation and guarantees predictable battery voltages, long battery cycle life and minimum thermal dissipation. It also requires about 30% less charging power compared to the conventional voltage-limited charging technique.

机译：将提出一种新的镍镉电池充电终止技术，该技术在低地球轨道应用中特别有效。充电终止终止基于使用温度导数检测原理的充电终止时的温度升高。这使得充电终止实际上对环境温度，放电深度和太阳能电池阵列充电电流波动不敏感，并保证了可预测的电池电压，较长的电池循环寿命和最小的散热。与传统的限压充电技术相比，它还需要约30％的充电功率。

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《Institute of Electrical and Electronics Engineers sixteenth annual Power Electronics Specialists Conference》|1985年|107-122|共16页
会议地点 Toulouse(FR)
作者
Spruijt H.J.N.;
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European Space Research and Technology Centre, Noordwijk, The Netherlands;

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正文语种 eng
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入库时间 2022-08-26 13:56:44

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Temperature derivative battery charge control

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