The NASA Deep Space Network (DSN) has a new requirement to support high-data-rate Category A (Cat A) missions (within 2 million kilometers of Earth) with simultaneous S-band uplink, S-band downlink and Ka-band downlink. The S-band links are required for traditional TT&C (Telemetry, Tracking, and Command) support to the spacecraft, while the Ka-band link is intended for high-data-rate science returns. The new Ka-band system combines the use of proven DSN cryogenic designs, for low system temperature, and high data rate capability using commercial telemetry receivers. The initial Cat A support is required for the James Webb Space Telescope (JWST) in 2013 and possibly other missions. The upgrade has been implemented into 3 different 34-meter B...
Projections indicate that in the future the number of NASA's robotic deep space missions is likely t...
The Ka-Band Link Experiment was the first demonstration of a deep-space communications link in the 3...
Future missions envisioned for both human and robotic exploration demand increasing communication ca...
Over the past decade, the Jet Propulsion Laboratory’s Telecommunications and Mission Operations Dire...
The first quarter century of U.S. solar system exploration using unmanned spacecraft has involved pr...
The National Aeronautics and Space Administration (NASA) supports unmanned space missions through a ...
The X-band (8.41 GHz) frequency currently used for deep space telecommunications is too narrow (50 M...
The Ka-band study team was chartered in late 1987 to bring together all the planning elements for es...
Abstract — On-going development of Ka-band capability for the Deep Space Networks (DSN) will radical...
Increased Deep Space Network (DPN) receiving capability far beyond that now available for Voyager is...
A document discusses a multi-Gigabit-per-second, Ka-band transceiver with a software-defined modem (...
As the S-band spectrum becomes crowded, future space missions will need to consider moving command a...
The deep space network (DSN)--with its three complexes in Goldstone, California, Madrid, Spain, and ...
The Deep Space Network (DSN), managed by the Jet Propulsion Laboratory for NASA, is equipped with mu...
New radio science experiments, including a gravitational wave search and several atmospheric occulta...
Projections indicate that in the future the number of NASA's robotic deep space missions is likely t...
The Ka-Band Link Experiment was the first demonstration of a deep-space communications link in the 3...
Future missions envisioned for both human and robotic exploration demand increasing communication ca...
Over the past decade, the Jet Propulsion Laboratory’s Telecommunications and Mission Operations Dire...
The first quarter century of U.S. solar system exploration using unmanned spacecraft has involved pr...
The National Aeronautics and Space Administration (NASA) supports unmanned space missions through a ...
The X-band (8.41 GHz) frequency currently used for deep space telecommunications is too narrow (50 M...
The Ka-band study team was chartered in late 1987 to bring together all the planning elements for es...
Abstract — On-going development of Ka-band capability for the Deep Space Networks (DSN) will radical...
Increased Deep Space Network (DPN) receiving capability far beyond that now available for Voyager is...
A document discusses a multi-Gigabit-per-second, Ka-band transceiver with a software-defined modem (...
As the S-band spectrum becomes crowded, future space missions will need to consider moving command a...
The deep space network (DSN)--with its three complexes in Goldstone, California, Madrid, Spain, and ...
The Deep Space Network (DSN), managed by the Jet Propulsion Laboratory for NASA, is equipped with mu...
New radio science experiments, including a gravitational wave search and several atmospheric occulta...
Projections indicate that in the future the number of NASA's robotic deep space missions is likely t...
The Ka-Band Link Experiment was the first demonstration of a deep-space communications link in the 3...
Future missions envisioned for both human and robotic exploration demand increasing communication ca...