Deep discharge reconditioning: Pros and cons
Abstract
Deep-discharge reconditioning (DDR) can be of great benefit to battery performance, especially in geosynchronous orbit, if performed properly and regularly, and can be essential to operation of batteries at the high depths of discharge (DOD) required to minimize weight. The procedure should be tailored to fit the nature of the degradation occuring during regular cycling. DDR is not without its drawbacks, however, and these differ depending on the normal DOD to be sustained and/or whether the discharge is done at the battery or the cell level. Battery-level discharge carries the minimum weight penalty but raises questions of the effects of low-rate cell reversal that as yet have no firm answers. Cell level discharge avoids cell reversal but carries significant penalties of weight and complexity. Thus no universal procedure or method of implementation of deep-discharge reconditioning is now available and thus the various approaches must be evaluated for each application.
- Publication:
-
The 1982 Goddard Space Flight Center Battery Workshop
- Pub Date:
- August 1983
- Bibcode:
- 1983batt.work..297S
- Keywords:
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- Alkaline Batteries;
- Electric Discharges;
- Maintenance;
- Spacecraft Power Supplies;
- Earth Orbits;
- Electric Charge;
- Electric Potential;
- Time;
- Electronics and Electrical Engineering