Performance comparison between Ni-H2 dry sinter and slurry electrode cells

The electrical and thermal performance of dry sinter and slurry process electrode cells manufactured for the Hubble Space Telescope (HST) batteries have been characterized for a matrix of operating conditions over the temperature range from 14 to 86°F at various charge control levels. The dry sinter process electrode cells tested are similar to the onboard HST Ni-H₂, cells. The slurry process electrode cells were developed to be less susceptible to electrode expansion and impedance changes with life. Both cell types were impregnated by the aqueous electrochemical process. Test conditions included standard capacity tests and electrical cycling using 96-minute cycling regimens incorporating constant depth-of-discharge (D0D) cycles. The dry sinter process electrodes have higher operating capacities to 1.20 V/cell, but both electrode types have similar heat dissipation for the conditions tested. The results of the testing included cyclic heat generation during a typical 96-minute cycle, operating capacity data vs. cutoff voltage to generate a temperature-compensated voltage curve, and voltage characteristics suitable to develop a voltage prediction model. Analysis of data shows differences in the discharge voltage plateaus at all temperatures for the operating conditions evaluated. This is the basis for recommended changes in the battery charge control