Add to ORKGThe performance of the power system on the solar mesosphere explorer (SME) since launch is discussed. Predictions for continued operation for the rest of the project mission are also discussed. The SME satellite's power system was characterized by both insufficient loading and excessive battery charging during the first year of the mission. These conditions affected battery performance and jeopardized the long-term mission. Increased loading on selected orbits has improved battery performance. Long term projections indicate steadily increasing temperatures for the remainder of the mission
Integrating spacecraft/experiment payloads for solar-thermionic flight test vehicl
The SP-100 program was established in 1983 by DOD, DOE, and NASA as a joint program to develop the t...
Rice University ion detector aboard synchronous orbit Applications Technology Satellite /ATS-1
Solar Photo Voltaic (PV) and thermal dynamic power systems for application to selected Low Earth Orb...
Studies have shown that use of solar dynamic (SD) power for the growth eras of the Space Station Fre...
Advanced Orbiting Solar Observatory system - engineering procedures and requirement
Thermal energy storage (TES) enables a solar dynamic system to deliver constant electric power throu...
Shunt voltage regulator circuit for nickel- cadmium cells with auxiliary electrode
Evaluation of sealed nickel cadmium cells, with auxiliary electrodes, operating in synchronous orbit...
Recent NASA and DOD mission models have indicated future needs for orbital cryogenic storage and sup...
Design, performance, and technology issues associated with reduced gravity propellant management for...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen batteri...
The tether and/or transmission line connecting the SP-100 to space station presents some unorthodox ...
No significant degradation of nickel cadmium battery performance in SATCOM F1 and F2 after almost 8 ...
Program review on critical areas of technology associated with solar cell battery power systems for ...
Integrating spacecraft/experiment payloads for solar-thermionic flight test vehicl
The SP-100 program was established in 1983 by DOD, DOE, and NASA as a joint program to develop the t...
Rice University ion detector aboard synchronous orbit Applications Technology Satellite /ATS-1
Solar Photo Voltaic (PV) and thermal dynamic power systems for application to selected Low Earth Orb...
Studies have shown that use of solar dynamic (SD) power for the growth eras of the Space Station Fre...
Advanced Orbiting Solar Observatory system - engineering procedures and requirement
Thermal energy storage (TES) enables a solar dynamic system to deliver constant electric power throu...
Shunt voltage regulator circuit for nickel- cadmium cells with auxiliary electrode
Evaluation of sealed nickel cadmium cells, with auxiliary electrodes, operating in synchronous orbit...
Recent NASA and DOD mission models have indicated future needs for orbital cryogenic storage and sup...
Design, performance, and technology issues associated with reduced gravity propellant management for...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen batteri...
The tether and/or transmission line connecting the SP-100 to space station presents some unorthodox ...
No significant degradation of nickel cadmium battery performance in SATCOM F1 and F2 after almost 8 ...
Program review on critical areas of technology associated with solar cell battery power systems for ...
Integrating spacecraft/experiment payloads for solar-thermionic flight test vehicl
The SP-100 program was established in 1983 by DOD, DOE, and NASA as a joint program to develop the t...
Rice University ion detector aboard synchronous orbit Applications Technology Satellite /ATS-1