Boeing Space Systems (BSS-702) Bus
WGS (Wideband Global Satcom) satellite
ManufacturerBoeing Defense, Space & Security
Country of originUnited States
ApplicationsCommunications
Specifications
Launch mass1,500 kg (3,300 lb) to 6,100 kg (13,400 lb)
Payload capacity200 kg (440 lb) to 1,620 kg (3,570 lb)
Power3 kW to >12 kW
RegimeGeostationary
Design life15 years
Production
StatusIn production
On order60
Launched47
Lost3
Maiden launchDecember 22nd, 1999, Galaxy XI
Last launchAugust 6, 2019, ViaSat-2
 BSS-601

Boeing 702 is a communication satellite bus family designed and manufactured by the Boeing Satellite Development Center, and flown from the late-1990s into the 2020s. It covers satellites massing from 1,500 kg (3,300 lb) to 6,100 kg (13,400 lb) with power outputs from 3 to 18 kW and can carry up to approximately 100 high-power transponders.[1]

The baseline Boeing 702 is compatible with several orbital launch systems, including Atlas V, Ariane 5, Delta IV, Falcon 9, Proton, and the Sea Launch-operated Zenit 3SL.[1][2]

Platform versions

After the introduction of the original 702 in 1997, the platform has been continually updated. New members of the platform have been introduced through the years, which allowed the common systems and approaches to span the whole range of mass and power for geosynchronous orbit satellites. The family currently spans four different members: the 702HP for high-power applications, the 702HP-GEO for mobile-telephone services, the 702MP for medium-power requirements and the 702SP for small satellites.[1]

Boeing 702 platform family[1][3]
Platform 702HP 702HP-GEO 702MP 702SP
Year of introduction 1997199720092012
First launch 1999200020122015
First customer PanAmSatSkyTerraIntelsatAsia Broadcast Satellite and SatMex (joint order)
Payload mass 600 kg (1,300 lb) to 1,620 kg (3,570 lb)1,250 kg (2,760 lb) to 1,480 kg (3,260 lb)300 kg (660 lb) to 650 kg (1,430 lb)200 kg (440 lb) to 680 kg (1,500 lb)
Power, kW >128–106–123–8
Spacecraft mass 5,400 kg (11,900 lb) to 5,900 kg (13,000 lb)5,100 kg (11,200 lb) to 5,900 kg (13,000 lb)5,800 kg (12,800 lb) to 6,100 kg (13,400 lb)1,500 kg (3,300 lb) to 2,300 kg (5,100 lb)

702HP

The high-power 702 platform was originally announced in October 1998. With the 2009 introduction of the 702MP "mid-power version", the legacy Boeing 702 platform, which had been continuously evolved, was designated the Boeing 702HP for "high-power".[4] According to Moog-ISP, the 702HP platform uses its bipropellant thrusters.[5]

The SES-9, a 702HP model, launched aboard the Falcon 9 Flight 22 on 4 March 2016.

702 GEO-Mobile

Developed in 1997 for their launch customer Thuraya, it is a special version of the 702HP platform with a 12.25-meter deployable antenna, onboard digital signal processing and beamforming. It is a specialized platform for direct service of mobile users.[6]

702MP

In 2009 Boeing introduced the 702MP platform, a mid-power solution based on the high-power 702HP platform. The 702MP provides the high-capability features inherent in the flight-proven Boeing 702HP satellite model, but with a substantially updated satellite bus structure and simplified propulsion system.[7] The 702MP was designed for satellites in the middle-level power ranges, supporting payloads ranging from 6 to 12 kilowatts. According to Moog-ISP, the 702MP platform uses both its bipropellant thrusters and LEROS liquid apogee engine.[5]

Intelsat is the lead customer for the 702MP. Boeing built Intelsat 21, Intelsat 22, Intelsat 27 and Intelsat 29e (the first EpicNG) satellites based on the platform.[8] In May 2013, Intelsat ordered an additional four EpicNG satellites from Boeing. The first of this new order will be Intelsat 33e.[9] In July 2014, Boeing announced the order of a ninth Intelsat 702MP order, the EpicNG Intelsat 35e.[10]

On January 15, 2015, the SatNews Publishers disclosed Boeing's second 702MP customer. New York Broadband LLC would order an L-band satellite Silkwave 1 to be fully leased to CMMB Vision of Hong Kong.[11] The satellite is expected to enter service in 2018 in the 105° east orbital slot to replace AsiaStar.[12][13]

702SP

By 2005, Boeing was offering a Xenon Electrostatic ion thruster System (XIPS) option for the 702 satellite system.[14] XIPS is 10 times more efficient than conventional liquid-fuel systems. On a XIPS equipped 702 satellite, four 25 cm (9.8 in) thrusters provide economical station keeping, needing only 5 kg (11 lb) of fuel per year, "a fraction of what bipropellant or arcjet systems consume".[14] An XIPS-equipped satellite can be used for final orbit insertion, conserving even more payload mass, as compared to using a traditional on-board liquid apogee engine.[14][15]

Beginning in 2012, Boeing began manifesting all-electric propulsion commsats on the 702SP XIPS propulsion bus for eventual location in geosynchronous orbit. These satellites were the first to be launched with the intent to fully position the satellites using electric propulsion, thus requiring 4–6 months following launch to ready the satellite for its communication mission, but at substantial reduction in launch mass and, therefore, launch cost.[2][15]

As of March 2014, Boeing had sold four of the 702SP satellites to Asia Broadcast Satellite (ABS) of Hong Kong and Mexico's SatMex, with the first two commsats planned for a paired launch in early 2015.[16]

In November 2014, Boeing released information that two of the 702SP satellites they have built—ABS-3A and Eutelsat 115 West B—had completed manufacture and had been stacked conjoined as they prepared for a launch on a SpaceX Falcon 9 vehicle in early 2015. This was to be Boeing's first conjoined launch of two commsats.[17] The two commsats were launched aboard a SpaceX rocket from Cape Canaveral, Florida, at 3:50AM UTC on 2 March 2015 (10:50PM EST on 1 March 2015).

In February 2014, SES announced that it had ordered a Boeing 702SP-based sat for SES-15.[18]

In March 2014, Boeing disclosed an early-2013 order by an unnamed U.S. government agency for three 702SP spacecraft.[19]

In June 2015, Asia Broadcast Satellite (ABS) ordered an additional 702SP, ABS-8, planned to be launched by late 2017, in part because they were well satisfied with performance of ABS-3A, even before it reached its operative orbit. When launched on a Falcon 9, the total investment for ABS was sufficiently low that it would be acceptable even if another satellite to pair on the launch was not added.[20] ABS later cancelled the order after failing to successfully finance the project, in part related to changes to the mechanisms of the Ex-Im Bank during 2015. As of 2015, Boeing and ABS considering other business agreement options.[21]

Customers

Customer 702HP Satellites 702HP GEO-Mobile 702MP Satellites 702SP Satellites Comments
Asia Broadcast Satellite
DirecTV
Eutelsat
Global IP Cayman
Hughes Communications
Inmarsat
Intelsat Plus 3 unnamed EpicNG
Mexican Government
New Skies
plus 2 options
New York Broadband LLC Silkwave 1 (NYBBSat 1)[11][13]
PanAmSat
Telesat Canada
SES
SkyTerra
Thuraya
Unnamed U.S. Government agency 3 Unspecified Satellites[19]
United States Air Force Wideband Global SATCOM system
ViaSat
XM Satellite Radio

Orders and launches

Customer Satellite Ordered Launched Result Rocket Model Launch mass (kg) Mass at BOL Notes and references
PanAmSatGalaxy XI19971999-12-22SuccessAriane 44LBSS-702 (concentrator arrays)44882775degradation of solar concentrators - long term power loss [3]
ThurayaThuraya 119972000-10-21SuccessZenit-3SL702HP-GEO (Concentrator Arrays)51083200degradation of solar concentrators - long term power loss[3]
PanAmSatIntelsat 1R
(formerly PAS-1R and Galaxy XIV)
19972000-11-16SuccessAriane 5 GBSS-702 (concentrator arrays)47582990degradation of solar concentrators - long term power loss[3]
Telesat CanadaAnik F119982000-11-21SuccessAriane 44LBSS-702 (concentrator arrays)47112950degradation of solar concentrators - long term power loss[3]
XM Satellite RadioXM-2 (Roll)19982001-03-18SuccessZenit-3SLBSS-702 (concentrator arrays)46822950degradation of solar concentrators - long term power loss[3][30]
XM Satellite RadioXM-1 (Rock)19982001-05-08SuccessZenit-3SLBSS-702 (concentrator arrays)46822950degradation of solar concentrators - long term power loss[3][30]
PanAmSatGalaxy III-C
(formerly PAS 9 and Galaxy XIII)
19972002-06-15SuccessZenit-3SLBSS-702HP48102835[3]
ThurayaThuraya 219972003-06-10SuccessZenit-3SL702HP-GEO51773200[3]
Telesat CanadaAnik F220002004-07-18SuccessAriane 5 G+BSS-702HP59503805[3]
XM Satellite RadioMX-3 (Rhythm)20032005-03-01SuccessZenit-3SLBSS-702HP4703[31]
Hughes CommunicationsSpaceway F119992005-04-26SuccessZenit-3SLBSS-702HP60803832[3]
Hughes CommunicationsSpaceway F219992005-11-16SuccessAriane 5 ECABSS-702HP61163832[3]
XM Satellite RadioXM-4 (Blues)20032006-10-30SuccessZenit-3SLBSS-702HP5193[31]
New SkiesNSS-820012007-01-30FailureZenit-3SLBSS-702HP59203800Plus 2 options[3]
DirecTVDirecTV-1020042007-07-07SuccessProton-M / Briz-MBSS-702HP58933700[3]
Hughes CommunicationsSpaceway F319992007-08-14SuccessAriane 5 ECABSS-702HP61163832[3]
United States Air ForceWGS 1 (USA 195)20022007-10-11SuccessAtlas V (421)BSS-702HP5987[28]
ThurayaThuraya 320022008-01-15SuccessZenit-3SL702HP-GEO52503200[3]
DirecTVDirecTV-1120042008-03-19SuccessZenit-3SLBSS-702HP59233700[3]
United States Air ForceWGS 2 (USA 204)20022009-04-04SuccessAtlas V (421)BSS-702HP5987[28]
United States Air ForceWGS 3 (USA 211)20022009-12-06SuccessDelta IV M+(5,4)BSS-702HP5987[28]
DirecTVDirecTV-1220042009-12-29SuccessProton-M / Briz-MBSS-702HP60603700[3]
SkyTerraSkyTerra-1 (ex MSV 1)20062010-11-14SuccessProton-M / Briz-M702HP-GEO53903200[3]
United States Air ForceWGS 4 (USA 233)20062012-01-20SuccessDelta IV M+(5,4)BSS-702HP[28]
IntelsatIntelsat 2220092012-03-25SuccessProton-M / Briz-MBSS-702MP6199[24]
IntelsatIntelsat 2120092012-08-19SuccessZenit-3SLBSS-702MP5984[24]
IntelsatIntelsat 2720102013-02-01FailureZenit-3SLBSS-702MP6241[24]
United States Air ForceWGS 520062013-05-25SuccessDelta IV M+(5,4)BSS-702HP[28]
United States Air ForceWGS 620072013-08-08SuccessDelta IV M+(5,4)BSS-702HP[28]
InmarsatInmarsat-5 F120102013-12-08SuccessProton-M / Briz-MBSS-702HP60703750[22]
InmarsatInmarsat-5 F220102015-02-01SuccessProton-M / Briz-MBSS-702HP60703750[22]
Asia Broadcast SatelliteABS-3A20122015-03-02SuccessFalcon 9 v1.1BSS-702SP1954[3]
EutelsatEutelsat 115 West B (ex SATMEX 7)20122015-03-02SuccessFalcon 9 v1.1BSS-702SP2205[3]
Mexican GovernmentMEXSAT 1 (Centenario)20102015-05-16FailureProton-M / Briz-M702HP-GEO5325[25]
United States Air ForceWGS 720112015-07-24SuccessDelta IV M+(5,4)BSS-702HP[28]
InmarsatInmarsat-5 F320102015-08-28SuccessProton-M / Briz-MBSS-702HP60703750[22]
Mexican GovernmentMEXSAT 2 (Morelos 3)20102015-10-02SuccessAtlas V (421)702HP-GEO5325
IntelsatIntelsat 29e20122016-01-27SuccessAriane 5 ECABSS-702MP6552[24]
SESSES-920122016-03-04SuccessFalcon 9 FTBSS-702HP5330[26][27]
Asia Broadcast SatelliteABS-2A20122016-06-15SuccessFalcon 9 FTBSS-702SP[3]
EutelsatEutelsat 117 West B (ex SATMEX 9)20122016-06-15SuccessFalcon 9 FTBSS-702SP1963[3]
IntelsatIntelsat 33e20132016-08-24SuccessAriane 5 ECABSS-702MP[24]
United States Air ForceWGS 820112016-12-07SuccessDelta IV M+(5,4)BSS-702HP[28]
United States Air ForceWGS 920122017-03-08SuccessDelta IV M+(5,4)BSS-702HP[28]
SESSES-1520152017-05-18SuccessSoyuz ST-B / Fregat-MTBSS-702SP2300[18]
InmarsatInmarsat-5 F420132017-05-15SuccessFalcon 9 FTBSS-702HP60703750[23]
ViaSatViaSat-220132017-06-01SuccessAriane 5 ECABSS-702HP6400[29]
IntelsatIntelsat 35e20142017-07-05SuccessFalcon 9 FTBSS-702MP[10]
IntelsatIntelsat 37e20132017-09-17SuccessAriane 5 ECABSS-702MP[3]
IntelsatHorizons-3e20152018-09-25SuccessAriane 5 ECABSS-702MP[3]
United States Air ForceWGS 1020122018-03-19SuccessDelta IV M+(5,4)BSS-702HP[28]
SpacecomAmos-1720162019-08-06SuccessFalcon 9 FTBSS-702MP6500[3]
SKY Perfect JSATJCSat 18/Kacific 120172019-12-16SuccessFalcon 9 FTBSS-702MP6800[3]
New York Broadband LLCSilkwave 1 (NYBBSat 1)2015TBDPlannedBSS-702MP~6000[11][13]
IntelsatIntelsat TBD2013202xPlannedBSS-702MP[3]
SESSES-2020202022PlannedAtlas V 531BSS-702SP[3]
SESSES-2120202022PlannedAtlas V 531BSS-702SP[3]
ViaSatViaSat-3 Americas2015April 2023PlannedFalcon HeavyBSS-702HP6400[3]
ViaSatViaSat-3 AsiaUnknown202xPlannedAriane 5 ECA or Falcon Heavy or Atlas V 551BSS-702HP6400[3]
ViaSatViaSat-3 EMEAUnknown202xPlannedAriane 5 ECA or Falcon Heavy or Atlas V 551BSS-702HP6400[3]
ViaSatViaSat-3 TBD2019202xPlannedAriane 5 ECA or Falcon Heavy or Atlas V 551BSS-702HP6400[3]
United States Air ForceWGS 1120192023PlannedBSS-702X[28]
Unnamed U.S. Government agency(US Gov 1)2013TBATBABSS-702SP[3][19]
Unnamed U.S. Government agency(US Gov 2)2013TBATBABSS-702SP[3][19]
Unnamed U.S. Government agency(US Gov 3)2013TBATBABSS-702SP[3][19]
APMTAPMT 11998CancelledCancelledLong March 3B702HP-GEO (Concentrator Arrays)Order cancelled after manufacturer failed to get an export license for launching on a Chinese rocket [3]
APMTAPMT 21998CancelledCancelledLong March 3B702HP-GEO (Concentrator Arrays)Order cancelled after manufacturer failed to get an export license for launching on a Chinese rocket [3]
Asia Broadcast SatelliteABS-82015TBDCancelledFalcon 9 FTBSS-702SPOrder cancelled due to the U.S. Export-Import Bank's loss of its operating charter due to congressional opposition[3]
Global IP CaymanGiSAT-12016TBDCancelledBSS-702MP6000Order cancelled after the company was the center of controversies, as Chinese investors had taken control of Global IP.[3][32]
Mobile Satellite VenturesMSV SA2006CancelledCancelled702HP-GEO54003200[3]
SkyTerraSkyTerra 2 (ex MSV 2)2006CancelledCancelledProton-M / Briz-M702HP-GEO54003200[3]

References

  1. 1 2 3 4 "Boeing Satellites". Boeing. Retrieved 2015-08-19.
  2. 1 2 Svitek, Amy (2012-03-19). "Electric Satellites For Commercial Satcom". Aviation Week. Retrieved 2012-03-20.
  3. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 Krebs, Gunter Dirk (2015-08-19). "Hughes / Boeing: HS-702 / BSS-702, HS-GEM / BSS-GEM (Geomobile)". Gunter's Space Page. Retrieved 2015-03-10.
  4. "Boeing 702HP Fleet". Archived from the original on 2015-03-04. Retrieved 2015-03-09.
  5. 1 2 "Thrusters". Moog Inc. Archived from the original on 2016-08-10. Retrieved 2016-08-09.
  6. "GEO-Mobile Satellite System". Archived from the original on October 4, 2012. Retrieved 2015-05-18.
  7. "Boeing 702MP Satellite". Archived from the original on 2015-03-03. Retrieved 2015-03-09.
  8. "Boeing 702MP Fleet - Intelsat". Boeing. Archived from the original on 2013-02-08.
  9. 1 2 "Boeing to Build 4 More Intelsat Epic 702MP Satellites" (Press Release). Boeing. 2013-05-09. Retrieved 2015-03-09.
  10. 1 2 3 "Boeing to Build Intelsat 35e EpicNG Satellite" (Press Release). Boeing. 2014-07-08. Retrieved 2015-03-09.
  11. 1 2 3 "The Build Of NYBBSat-1 Is Now A Boeing Effort". SatNews. 2015-01-15. Retrieved 2015-10-30.
  12. "Boeing Satellite to Expand Mobile Communications Services in Asia" (Press Release). Boeing. 2015-10-27. Retrieved 2015-10-30.
  13. 1 2 3 Krebs, Gunter Dirk (2015-10-27). "Silkwave 1 (NYBBSat 1)". Gunter's Space Page. Retrieved 2015-10-30.
  14. 1 2 3 "Boeing 702 Fleet" (PDF). Boeing. 2005. Archived from the original (PDF) on 2016-03-03. Retrieved 2015-02-06.
  15. 1 2 Stephen Clark (2012-03-09). "Electric propulsion could launch new commercial trend". Spaceflightnow.com. Retrieved 2015-02-06.
  16. Svitak, Amy (2014-03-10). "SpaceX Says Falcon 9 To Compete For EELV This Year". Aviation Week. Archived from the original on 2014-03-10. Retrieved 2014-03-11.
  17. "Boeing Stacks Two Satellites to Launch as a Pair" (Press Release). Boeing. 2014-11-12. Retrieved 2014-11-17.
  18. 1 2 3 "SES Orders SES-15 Satellite in North America" (Press Release). SES. 2015-02-16. Retrieved 2015-03-03.
  19. 1 2 3 4 5 "Boeing reveals government's all-electric satellite purchase" (Article). Spaceflight Now. 2014-03-12. Retrieved 2015-05-18.
  20. "ABS Teaming with Boeing, SpaceX for another Electric Satellite" (Article). SpaceNews. 2015-08-26. Retrieved 2015-06-01.
  21. "Exclusive - Boeing eyes 'several hundred' layoffs in satellite division". Yahoo! Finance (Reuters). 2015-08-24. Retrieved 2015-08-26.
  22. 1 2 3 4 5 6 "Boeing Receives 3-Satellite Contract from Inmarsat" (Press Release). Boeing. 2010-08-06. Retrieved 2015-03-09.
  23. 1 2 "Inmarsat to purchase fourth Inmarsat-5 satellite from Boeing" (Press Release). Inmarsat. 2013-10-07. Retrieved 2015-03-09.
  24. 1 2 3 4 5 6 7 8 9 "Intelsat". Boeing. Archived from the original on 2015-03-04. Retrieved 2015-03-09.
  25. 1 2 "Mexican Satellite System (Mexsat)". Archived from the original on 2015-03-09. Retrieved 2015-03-09.
  26. 1 2 "Boeing to manufacture SES' SES-9 satellite" (Press Release). SES. 2012-10-10. Retrieved 2015-03-03.
  27. 1 2 de Selding, Peter B. (2015-03-20). "SpaceX Aims To Debut New Version of Falcon 9 this Summer". Space News. Retrieved 23 March 2015.
  28. 1 2 3 4 5 6 7 8 9 10 11 12 "WGS 1, 2, 3, 4, 5, 6, 7, 8, 9, 10". Gunter's Space Page. Retrieved 2015-03-09.
  29. 1 2 "ViaSat Announces Next Generation Broadband Satellite" (Press Release). ViaSat. 2013-05-16. Retrieved 2015-03-09.
  30. 1 2 3 4 Krebs, Gunter Dirk. "XM 1, 2 (XM Rock, Roll)". Gunter's Space Page. Retrieved 2015-03-10.
  31. 1 2 3 4 Krebs, Gunter Dirk. "XM 3, 4 (XM Rhythm, Blues)". Gunter's Space Page. Retrieved 2015-03-10.
  32. "GiSat". Gunter's Space Page. 2016-09-12. Retrieved 2016-09-13.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.