TDRS-9

TDRS-9
	TDRS-I undergoing processing before launch
Mission type	Communication
Operator	NASA
COSPAR ID	2002-011A
SATCAT no.	27389
Mission duration	Planned: 15 years; Final: 20 years, 9 months and 27 days
Spacecraft properties
Bus	BSS-601
Manufacturer	Boeing SDC
Launch mass	3,180 kilograms (7,010 lb)
Start of mission
Launch date	8 March 2002, 22:59 UTC
Rocket	Atlas IIA
Launch site	Cape Canaveral SLC-36A
Contractor	ILS
End of mission
Disposal	Decommissioned
Deactivated	5 January 2023
Orbital parameters
Reference system	Geocentric
Regime	Geostationary
Longitude	151° West; 173.5° West; 64.5° West
Perigee altitude	35,768 kilometers (22,225 mi)
Apogee altitude	35,809 kilometers (22,251 mi)
Inclination	0 degrees
Epoch	8 March 2002, 17:59:00 UTC

Last updated April 07, 2024

TDRS-9, known before launch as TDRS-I, was an American communications satellite which was operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by the Boeing Satellite Development Center, formerly Hughes Space and Communications, and was based on the BSS-601 satellite bus.^[4] It was the second Advanced TDRS, or second-generation Tracking and Data Relay Satellite, to be launched.

History

An Atlas IIA rocket was used to launch TDRS-I, under a contract with International Launch Services. The launch occurred at 22:59 GMT on 8 March 2002, and used Space Launch Complex 36A at the Cape Canaveral Air Force Station.^[5]

Deployment and problems

TDRS-9 separated from its carrier rocket into a geosynchronous transfer orbit. At 06:00 on 6 October, following a series of apogee burns, it reached geostationary orbit.^[6] The orbit raising maneuvers were originally scheduled to take ten days, but ended up lasting six months due to a problem with the system used to pressurize its number two fuel tank.^[7] A valve used to release helium into the tank failed to open. This was later established to have been due to a wiring error prior to launch. Engineers developed a solution which involved pressurizing the tank using the pressurization system from the number one tank, which was still working, once the propellant in that tank had been used.^[7] When orbit raising operations resumed on 19 March, it was estimated that it would take two months to raise the satellite's orbit. It was later discovered that only using fuel from the number one tank upset the satellite's center of mass, causing the satellite to tumble when its main engines were fired. Controllers were able to compensate for this, however it took longer to raise the orbit as a result.^[7]

Operations

Upon reaching geostationary orbit, TDRS-I was initially placed at a longitude 151 degrees west of the Greenwich Meridian, and following on-orbit testing it received its operational designation, TDRS-9. In October 2003 it was moved from 151° West, and it arrived at 173.5° West in January 2004. It remained there until September, when it was moved to 64.5° West, arriving in March 2005.^[8] Engineers believed that the problems with its fuel tank pressurization system would not affect its operational lifespan.

Related Research Articles

Intelsat 603 or IS-603, previously named Intelsat VI F-3, is a communications satellite operated by Intelsat. Launched in 1990, it was the second of five Intelsat VI satellites to be launched. The Intelsat VI series was constructed by Hughes Aircraft, based on the HS-389 satellite bus.

TDRS-8, known before launch as TDRS-H, is an American communications satellite, of second generation, which is operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by Boeing and is based on the BSS-601 satellite bus.

TDRS-B was an American communications satellite, of first generation, which was to have formed part of the Tracking and Data Relay Satellite System. It was destroyed in 1986 when the Space ShuttleChallenger disintegrated 73 seconds after launch.

TDRS-1, known before launch as TDRS-A, was an American communications satellite, operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by TRW and launched by Space ShuttleChallenger on its maiden flight, STS-6.

GOES-10, known as GOES-K before becoming operational, was an American weather satellite, which formed part of the US National Oceanic and Atmospheric Administration's Geostationary Operational Environmental Satellite system. It was launched in 1997, and after completing operations as part of the main GOES system, it was kept online as a backup spacecraft until December 2009, providing coverage of South America as GOES-SOUTH, and being used to assist with hurricane predictions for North America. It was retired and maneuvered to a graveyard orbit on 1 December 2009.

TDRS-5, known before launch as TDRS-E, is an American communications satellite, of first generation, which is operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by TRW is based on a custom satellite bus which was used for all seven first generation TDRS satellites.

INSAT-2E is an Indian geostationary communications and weather satellite which is operated by the Indian National Satellite System. It is positioned in geostationary orbit at a longitude of 83° East, from where it is used to provide communications services to Asia and Australia. It also carries two meteorological instruments; the Very High Resolution Radiometer, and a CCD camera capable of returning images with a resolution of one kilometre.

<span class="mw-page-title-main">TDRS-3</span> American communications satellite

TDRS-3, known before launch as TDRS-C, is an American communications satellite, of first generation, which is operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by TRW, and is based on a custom satellite bus which was used for all seven first generation TDRS satellites.

TDRS-4, known before launch as TDRS-D, is an American communications satellite, of first generation, which was operated by NASA as part of the Tracking and Data Relay Satellite System from 1989 until 2011. It was constructed by TRW, based on a custom satellite bus which was used for all seven of the first generation TDRS satellites.

TDRS-6, known before launch as TDRS-F, is an American communications satellite, of first generation, which is operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by TRW, and is based on a custom satellite bus which was used for all seven first generation TDRS satellites.

TDRS-7, known before launch as TDRS-G, is an American communications satellite, of first generation, which is operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by TRW as a replacement for TDRS-B, which had been lost in the Challenger accident, and was the last first generation TDRS satellite to be launched.

TDRS-10, known before launch as TDRS-J, is an American communications satellite which is operated by NASA as part of the Tracking and Data Relay Satellite System. It was constructed by the Boeing Satellite Development Center, formerly Hughes Space and Communications, and is based on the BSS-601 satellite bus. It was the third and final Advanced TDRS, or second-generation Tracking and Data Relay Satellite, to be launched.

GOES-2, known as GOES-B before becoming operational, was a geostationary weather satellite which was operated by the United States National Oceanic and Atmospheric Administration as part of the Geostationary Operational Environmental Satellite system. GOES-2 was built by Ford Aerospace, and was based on the satellite bus developed for the Synchronous Meteorological Satellite programme. At launch it had a mass of 295 kilograms (650 lb). It was positioned in geostationary orbit, from where it was used for weather forecasting in the United States. Following its retirement as a weather satellite, it was used as a communications satellite until its final decommissioning in 2001.

GOES-3, known as GOES-C before becoming operational, was an American geostationary weather and communications satellite. It was originally built for the National Oceanic and Atmospheric Administration as part of the Geostationary Operational Environmental Satellite system, and was launched in June 1978. It was positioned in geostationary orbit, from where it was initially used for weather forecasting in the United States. Since ceasing to function as a weather satellite in 1989, it was used as a communications satellite, and spent over thirty-eight years in operation. GOES-3 was decommissioned 29 June 2016 at the Center for Southeastern Tropical Advanced Remote Sensing facility in Miami, Florida.

GOES-4, known as GOES-D before becoming operational, was a geostationary weather satellite which was operated by the United States National Oceanic and Atmospheric Administration as part of the Geostationary Operational Environmental Satellite system. Launched in 1980, it was used for weather forecasting in the United States, and later in Europe. Following its retirement it became the first satellite to be sent into a graveyard orbit.

GOES-5, known as GOES-E before becoming operational, was a geostationary weather satellite which was operated by the United States National Oceanic and Atmospheric Administration as part of the Geostationary Operational Environmental Satellite system. Launched in 1981, it was used for weather forecasting in the United States.

GOES-6, known as GOES-F before becoming operational, was a geostationary weather satellite which was operated by the United States National Oceanic and Atmospheric Administration as part of the Geostationary Operational Environmental Satellite system. Launched in 1983, it was used for weather forecasting in the United States.

Intelsat 605, previously named Intelsat VI F-5, was a communications satellite operated by Intelsat. Launched in 1991, it was the fourth of five Intelsat VI satellites to be launched. The Intelsat VI series was constructed by Hughes Aircraft, based on the HS-389 satellite bus.

TDRS-11, known before launch as TDRS-K, is an American communications satellite which is operated by NASA as part of the Tracking and Data Relay Satellite System. The eleventh Tracking and Data Relay Satellite is the first third-generation spacecraft.

References

↑ "UCS Satellite Database". Union of Concerned Scientists. 1 July 2009. Retrieved 10 August 2009.
↑ "NASA's Tracking and Data Relay Satellite-9 Reaches End of Mission". www.nasa.gov. 5 January 2023. Retrieved 28 July 2023.
↑ "NASA - NSSDCA - Spacecraft - Trajectory Details". nssdc.gsfc.nasa.gov. Retrieved 2 May 2018.
↑ Krebs, Gunter. "TDRS 8, 9, 10". Gunter's Space Page. Retrieved 10 August 2009.
↑ McDowell, Jonathan. "Launch Log". Jonathan's Space Page. Retrieved 10 August 2009.
↑ McDowell, Jonathan. "Index". Geostationary Orbit Catalog. Jonathan's Space Page. Archived from the original on 6 April 2010. Retrieved 10 August 2009.
1 2 3 Harland, David M; Lorenz, Ralph D. (2005). Space Systems Failures (2006 ed.). Chichester: Springer-Praxis. ISBN 0-387-21519-0.
↑ "TDRS 9". TSE. Retrieved 10 August 2009.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[UCS-1] "UCS Satellite Database". Union of Concerned Scientists. 1 July 2009. Retrieved 10 August 2009.

[2] "NASA's Tracking and Data Relay Satellite-9 Reaches End of Mission". www.nasa.gov. 5 January 2023. Retrieved 28 July 2023.

[3] "NASA - NSSDCA - Spacecraft - Trajectory Details". nssdc.gsfc.nasa.gov. Retrieved 2 May 2018.

[GSP-4] Krebs, Gunter. "TDRS 8, 9, 10". Gunter's Space Page. Retrieved 10 August 2009.

[JSR-5] McDowell, Jonathan. "Launch Log". Jonathan's Space Page. Retrieved 10 August 2009.

[GSOHist-6] McDowell, Jonathan. "Index". Geostationary Orbit Catalog. Jonathan's Space Page. Archived from the original on 6 April 2010. Retrieved 10 August 2009.

[SSF-7] 1 2 3 Harland, David M; Lorenz, Ralph D. (2005). Space Systems Failures (2006 ed.). Chichester: Springer-Praxis. ISBN 0-387-21519-0.

[8] "TDRS 9". TSE. Retrieved 10 August 2009.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

v t e Tracking and Data Relay Satellite System
Tracking and data relay satellite List of TDRS satellites
First generation	TDRS-1 TDRS-B TDRS-3 TDRS-4 TDRS-5 TDRS-6 TDRS-7
Second generation	TDRS-8 TDRS-9 TDRS-10
Third generation	TDRS-11 TDRS-12 TDRS-13
Italics denotes launch failure.

v t e ← 2001 Orbital launches in 2002 2003 →
January	USA-164 INSAT-3C
February	Tsubasa, DASH, VEP-3 HESSI Iridium 90, Iridium 91, Iridium 94, Iridium 95, Iridium 96 EchoStar VII Intelsat 904 Kosmos 2387
March	Envisat STS-109 TDRS-9 GRACE Progress M1-8 Shenzhou 3 JCSAT-8, Astra 3A Intelsat 903
April	Kosmos 2388 STS-110 (ITS S0) NSS-7 Soyuz TM-34
May	SPOT-5, Idefix Aqua DirecTV-5 Feng Yun 1D, Hai Yang 1A Ofek-5 Kosmos 2389
June	Intelsat 905 STS-111 (Leonardo MPLM) Ekspress A1R Galaxy 3C Iridium 97, Iridium 98 NOAA-17 Progress M-46
July	CONTOUR Stellat 5, N-STAR c Kosmos 2390, Kosmos 2391 Kosmos 2392
August	Hot Bird 6 EchoStar VIII Atlantic Bird 1, MSG-1
September	Intelsat 906 USERS, Kodama METSAT Tsinghua 2 Hispasat 1D Progress M1-9 Nadezhda 7
October	STS-112 (ITS S1) Foton-M No.1 INTEGRAL Zi Yuan 2B Soyuz TMA-1
November	STS-113 (ITS P1, MEPSI 1A, MEPSI 1B) Astra 1K AlSAT-1, Mozhayets 3, Rubin-3
December	TDRS-10 Hot Bird 7, Stentor, MFD-A, MFD-B ADEOS II, Kanta Kun, FedSat, µ-LabSat 1 (RITE 1, RITE 2) NSS-6 TrailBlazer-2001 STA, Saudisat 1C, LatinSat A, LatinSat B, UniSat 2, Rubin 2 Kosmos 2393 Kosmos 2394, Kosmos 2395, Kosmos 2396 Shenzhou 4 Nimiq 2
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Cubesats are smaller. Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).

TDRS-9

Contents

History

Deployment and problems

Operations

See also

Related Research Articles

References