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NASA’s TDRS-M Space Communications Satellite Begins Final Testing

Posted February 14, 2017

The Tracking and Data Relay Satellite (TDRS) project has begun final testing on a new satellite that will replenish NASA’s Space Network. The spacecraft is scheduled to launch from NASA’s Kennedy Space Center in Cape Canaveral, Florida, on Aug. 3, 2017, on an Atlas V rocket.

The addition of TDRS-M to the fleet will provide the Space Network (SN) the ability to support space communication for an additional 15 years. The network consists of TDRS satellites that transmit data to and from ground stations on Earth for NASA missions and expendable launch vehicles. Without the Space Network, scientists, engineers and control room staff would be unable to readily access data from missions like the Hubble Space Telescope and the International Space Station.

TDRS-M will enable groundbreaking science and expand the current fleet of satellites. TDRS puts the “space” in Space Network. In geosynchronous orbit around Earth, the TDRS constellation ensures reliable, global communications coverage to more than 35 NASA spacecraft. TDRS-M will be the 12th satellite the TDRS team has launched since 1983.
Credits: NASA’s Goddard Space Flight Center/Stuart Snodgrass, producer

“The Space Network is critical to numerous NASA missions that are fundamentally changing the way we think about science,” said Bill Marinelli, TDRS development manager with the Space Communications and Navigation (SCaN) program office at NASA Headquarters, which provides programmatic oversight to the TDRS mission. “By expanding the fleet of satellites that support communications from these missions, TDRS-M will enable NASA to continue scientific exploration and discovery for years to come.”

Designed, built and environmentally tested at Boeing’s satellite development center in El Segundo, California, the spacecraft is currently undergoing a final series of tests to ensure it is flight-ready. TDRS-M will continue to undergo electronics, compatibility and deployment tests into the spring as the team prepares to ship the spacecraft to NASA’s Kennedy Space Center in Cape Canaveral, Florida, for its mid-summer launch.

Engineers deployed TDRS-M’s antennas during a routine test at Boeing’s plant in El Segundo, California. Credits: Boeing

TDRS-M undergoes vibration testing.
Credits: Boeing

NASA developed the idea for the Space Network in the 1970s to improve upon the ground-based space communications networks the agency had used since its inception. With ground networks, spacecraft could only connect with the antennas for short periods of time while they were in sight of the ground terminal. Then they would be without a communications connection for long periods of time. By contrast, a space-based network with satellites placed around the globe would provide nearly continuous coverage.

Artist’s concept of the third-generation TDRS spacecraft.
Credits: NASA’s Goddard Space Flight Center

In coming months, engineers will test TDRS-M to ensure it connects with the Space Network’s various ground stations. NASA built the initial White Sands Ground Terminal (WSGT) in Las Cruces, New Mexico, in the 1970s and launched the first TDRS in 1983. In the 1980s, NASA identified the need for and built the Second TDRS Ground Terminal (STGT) at White Sands, forming the White Sands Complex. Today, the network has added two additional ground terminals in Guam and Blossom Point, Maryland, and currently has nine TDRS in orbit around Earth. Two of the original spacecraft have now been retired. The two most recent satellites, TDRS-K  and TDRS-L, were launched from Kennedy Space Center to replenish the fleet in January 2013 and January 2014, respectively. After the scheduled TDRS-M launch later this year, the TDRS project will have successfully launched 12 satellites in support of the Space Network.

The TDRS project at NASA’s Goddard Space Flight Center is responsible for the design, build, integration and testing of the spacecraft. After launch, on-orbit testing and spacecraft acceptance by the TDRS project, the Space Network will integrate TDRS-M into the TDRS constellation.

Source: NASA


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