The Viking-75 mission environments and lander interface requirements which influence the design of the RTG (radioisotope thermoelectric generator), as well as RTG-related constraints are discussed. The baseline RTG design evolved from these considerations is presented with particular emphasis on the design features which make the Viking RTG unique. These features include a gas management system employing a separate gas reservoir to maintain the RTG hot junction and heat source temperatures within a desired range throughout the various mission phases, as well as a specially profiled housing/radiator assembly which facilitates both ground cooling of the RTGs prior to launch and thermal control of the lander after landing. Also presented is the expected RTG electrical performance when subjected to the various mission environments/requirements, such as 'power-up' operations in Mars orbit just prior to the entry, and thermal cycling on the Martian surface after landing.
SNAP 19 Viking RTG flight configuration and integration testing
Intersociety Energy Conversion Engineering Conference ; 1974 ; San Francisco, CA
1974-01-01
Miscellaneous
No indication
English
SNAP 19 performance update for Pioneer and Viking missions
Tema Archive | 1979
|Synopsis of Viking flight data
NTRS | 1978
|Viking lander design and systems integration
NTRS | 1974
|