Optus (satellite)

Last updated

This is a list of the satellites operated by Optus, an Australian telecommunications company. The satellite communications facility is located at Belrose on Sydney's Northern Beaches. [1] Optus' satellites are divided into 4 classes A, B, C and D. As of April 2014 it owns and operates Optus B3, Optus C1, Optus D1, Optus D2 and Optus D3. Optus A1, Optus A2, Optus A3 and Optus B1 satellites have been retired. [2] Optus has the largest network of satellites in Australia and New Zealand. [3]

Contents

On 2 February 2014, NBN Co of Australia chose Optus for a five-year contract to operate two purpose-built satellites (the Sky Muster satellites) to deliver high speed broadband across rural and remote Australia. [4] [5]

A-Class

The Aussat A-Class satellites were funded by the Government for Aussat Pty Ltd. When Optus was granted a telecommunications carrier licence in 1991, it was bundled with the purchase of Aussat Pty Limited as part of the carrier licence deal.

Aussat (Optus) A1

Aussat 1 (now Optus A1) on deployment from Space Shuttle Discovery on STS-51-I STS-51-I AUSSAT 1 deployment.jpg
Aussat 1 (now Optus A1) on deployment from Space Shuttle Discovery on STS-51-I

Aussat 1 was deployed by Space Shuttle Discovery during the first day of the STS-51-I mission.

Aussat (Optus) A2

Aussat 2 was deployed by Space Shuttle Atlantis during the STS-61-B mission.

Aussat (Optus) A3

Aussat 3 was launched from Guiana Space Centre by an Ariane 3. [8]

B-Class

The B-Class satellites were manufactured by Hughes and launched from the Xichang Satellite Launch Center by Long March rockets. The two satellites were the first U.S.-built satellites to be approved by the Reagan administration for launch on Chinese rockets. To break into the commercial launch market, the Chinese offered to launch for less than half of what a U.S. launch company would charge. [9]

Optus B1

Optus B1 was moved to Junk orbit in May 2008.

Failures

Satellite Control Processor

On 21 May 2005 services were temporarily lost when the Primary Satellite Control Processor failed. The satellite was switched to use the Backup SCP in order to restore services. Thereafter the satellite continued to operate from the Backup SCP. [11] [12]

March 2006 Positioning Failure

At 06:52 UTC on 30 March 2006, a routine repositioning manoeuvre failed, resulting in loss of pointing control of the satellite. Although communication with the satellite was not lost, transmission services provided by the satellite failed due to its incorrect positioning. Services were progressively restored between 18:00 and 20:00 UTC. [13] [14] [15] [16] [17]

Local time at the time of the start of the outage ranged from 14:52 AWST to 18:52 NZST, a peak time for listeners and viewers of the radio and television broadcast and subscription services provided directly or indirectly by the satellite.

Optus B2

The Long March 2E rocket carrying Optus B2 experienced a collapse of the payload fairing, destroying the satellite. [18] [19] The rocket continued functioning and delivered the debris into low Earth orbit. [20] The cause of the failure could not be determined at the time. [21] However, the Long March 2E experienced the same payload fairing collapse when launching Apstar 2 in 1995. Based on instrumentation added to the satellite, Hughes determined that the failure was caused by aerodynamic forces and wind shear. [20] The information provided by Hughes caused great political controversy in the United States, which subsequently banned U.S. satellites from being launched on Chinese rockets. [22]

Optus B3

Optus B3 was launched as a replacement for Optus B2. After the fairing failure that destroyed Optus B2, Hughes recommended reinforcement of the fairing. The Chinese chose not to follow the recommendations and instead added more rivets. [20] The launch of Optus B3 was successful, but the next launch of the Long March 2E experienced another fairing failure and destroyed the Apstar 2 satellite.

This satellite is owned by the Commonwealth Bank of Australia and leased back to Singtel Optus. It was replaced by Optus D2. [10]

Optus (and Defence) C1

Artist impression of Optus C1 OptusC1.jpg
Artist impression of Optus C1

Partially funded by the Australian Government (Defence Department) - Optus C1's use is shared between Defence and Telecommunications, in particular the supply of Television services to Australia. Mitsubishi Electric was the prime contractor responsible for manufacturing all the Optus C1 communications systems. [25]

D-Class

Artist impression of Optus D1 OptusD1 SatelliteOnly.jpg
Artist impression of Optus D1

The D1 and D2 satellites replace and expand the services provided by the B1 and B3 satellites respectively, which had both been operating beyond their design lifetimes. The D3 satellite is co-located with C1 to expand capacity.

Optus D1

D1 was successfully launched by an Ariane 5 ECA on 13 October 2006 at 20:56 UTC. [26] It was the first satellite to sign contract for Launch Services Alliance mission assurance. [27]

Customers on D1 include the Australian Broadcasting Corporation (ABC), Special Broadcasting Service (SBS), the Seven Network, the Nine Network, Sky Television New Zealand and New Zealand's Kordia (formerly known as BCL). D1 also supports VSAT users. [28]

Kordia is leasing a full transponder for sublease to TVNZ (TVNZ 1 & TVNZ 2) and Discovery New Zealand (Three & Bravo) for the Freeview service. The Kordia transponder will be on 12.4697 GHz. [29]

Incorrect configuration of New Zealand spot beam

During in-orbit testing of the satellite, it was discovered that the New Zealand spot beam had been configured with horizontal polarisation instead of the expected vertical polarisation - as had been used on its predecessor Optus B1. [30] [31]

As many existing receivers did not have the ability to receive horizontally aligned signals, Sky Television was unable to transfer services from Optus B1 to this beam as expected. Sky was instead assigned capacity on the more general Australia/NZ beam. Due to restrictions on broadcast rights (in terms of both broadcast licensing and copyright), the unencrypted Freeview service could not make a similar allocation switch and was set up as a horizontally-aligned service on the New Zealand spot beam. [32]

On 31 July 2007, Sky successfully performed an over the air software upgrade to all of its customer set-top boxes, enabling them to receive the horizontally-aligned signals from the New Zealand spot beam. Accordingly, Sky was able to return to their original capacity allocation. [33]

Optus D2

D2 was successfully launched from the Guiana Space Centre by an Ariane 5 GS on 5 October 2007 at 22:02 UTC. [35]

Optus D2 replaced Optus B3, which had been in operation for 13 years at the time of D2's launch. [36]

D2 also carries a large number of Free To Air channels, many in languages other than English


Optus D3

The third in the D series of Optus satellites was successfully launched into a geostationary transfer orbit on 21 August 2009 at 22:09 UTC by Arianespace using an Ariane 5 ECA launch vehicle from Europe's Spaceport in Kourou, French Guiana. [38] The satellite will be co-located with Optus C1 at 156° east. Optus sold 25% of the transponder capacity (6 out of 24) to Foxtel to provide High Definition programming as well as "new channels, expanded digital services and enhanced picture and sound quality". [41] [42]

Optus 10

"Optus 10", was awarded to Space Systems/Loral, and announced on 21 March 2011 in a press release by Optus CEO Paul O'Sullivan. The satellite will provide "high quality broadcast services to households, and two way voice and data communication services to areas in and around Australia and NZ", and "satellite services to Australia and NZ Government departments, premium companies and broadcasters including FOXTEL, ABC, SBS, Seven Network, Nine Network, Network Ten, Globecast Australia and Sky TV New Zealand.". [44]

Related Research Articles

Launch Services Alliance is a "back-up" launch service provider. It is a joint venture between the multinational aerospace company Arianespace and Japanese conglomerate Mitsubishi Heavy Industries; initially, the American aerospace firm Boeing Launch Services was involved as well.

<span class="mw-page-title-main">Arab Satellite Communications Organization</span> Arab satellite operator

The Arab Satellite Communications Organization is a communications satellite operator in the Arab World, headquartered in the city of Riyadh, Saudi Arabia. Arabsat was created to deliver satellite-based, public and private telecommunications services to the Arab States, in accordance with International Standards. With 21 member countries, the organization plays a vital role of enhancing communications in the Arab World.

Intelsat 11 is a communications satellite owned by Intelsat and located at 43.0° West longitude, serving the Americas market. Intelsat 11 replaced Intelsat 3R which was nearing the end of its design life. Intelsat 11 was built by Orbital Sciences Corporation, as part of its STAR-2 line. Intelsat 11 was formerly known as PAS-11. It was launched 5 October 2007 by an Ariane 5 GS.

Optus Aurora was a free-to-view satellite television platform in Australia, which aimed at providing television and radio services to remote and black spot areas using the Optus C1 and B3 satellites. The service was available in all areas, using a standard satellite dish and set top box, however commercial stations carried on the platform were restricted to their respective coverage areas.

Embratel Star One is a Brazilian communication satellite company. It is a subsidiary of Embratel.

Star One C1 is a Brazilian communications satellite. It was launched on 14 November 2007 by an Ariane 5ECA carrier rocket, as part of a dual-payload launch with Skynet 5B. It was built by Thales Alenia Space, based on the Spacebus-3000B3 satellite bus. It is operated by Star One, a subsidiary of Embratel.

The Regional African Satellite Communication Organization (RASCOM) will provide telecommunication services, direct TV broadcast services and Internet access in rural areas of Africa. Under an agreement with RASCOM, RascomStar-QAF will implement RASCOM's first 14 communications satellite project. This joint African project is expected to lower the continent's dependency on international satellite networks such as Intelsat.

Horizons-2 is a Ku band communications satellite owned by Horizons Satellite, a joint venture between SKY Perfect JSAT Group and Intelsat. Its orbital slot is located at 74° west longitude.

<span class="mw-page-title-main">ELA-3</span> Launch pad at Kourou Space Centre, French Guiana

ELA-3 is a launch complex at the Guiana Space Centre in French Guiana. Currently inactive, the complex was first used in June 1996 in support of the now retired Ariane 5 rocket. ELA-3 is 21 square kilometres (8.1 sq mi) in size.

Optus D3 is an Australian geostationary communications satellite, which is operated by Optus and provides communications services to Australasia. D3 was the third Optus-D satellite to be launched. It is a 2,401-kilogram (5,293 lb) satellite, which was constructed by Orbital Sciences Corporation based on the Star-2.4 satellite bus, with the same configuration as the earlier Optus D2 satellite.

Astra 31.5°E is the name for the group of Astra communications satellites co-located at the 31.5° east position in the Clarke Belt owned and operated by SES based in Betzdorf, Luxembourg. 31.5° east is SES' newest orbital location serving Europe.

Thor is a family of satellites designed, launched and tested by Hughes Space and Communications for British Satellite Broadcasting (BSB), and were used for Britain's Direct Broadcast Service. Thor is owned by Telenor. Marcopolo 1 launched on 27 August 1989 on the 187th launch of a Delta rocket, and Marcopolo 2 launched on 17 August 1990, on a Delta II rocket. Both satellites were based on the HS-376 satellite bus.

JCSAT-RA, previously known as JCSAT-12, is a Japanese geostationary communications satellite, which is operated by SKY Perfect JSAT Group.

<span class="mw-page-title-main">INSAT-4A</span> Communications satellite

INSAT-4A was the first one in the INSAT-4 Satellites series, providing services in the Ku and C band frequency bands. At the time of launch, it was the heaviest satellite India had produced. The Ku transponders cover the Indian main land and C-Band transponders cover an extended area. It has a dozen Ku transponders and another dozen of C-band transponders. This spacecraft was placed at 83°E along with INSAT-2E and INSAT-3B, by Ariane launch vehicle (ARIANE5-V169).

<span class="mw-page-title-main">ARSAT-2</span> Argentine geostationary communications satellite

ARSAT-2 is a geostationary communications satellite operated by ARSAT and built by the Argentine company INVAP. It was launched from French Guiana alongside Sky Muster satellite using an Ariane 5ECA rocket on September 30, 2015 at 20:30hs UTC, becoming the 400th satellite to be launched by Arianespace. It is licensed to be located at 81° West longitude geostationary slot. ARSAT-2 is the second geostationary satellite built in Argentina, after ARSAT-1. Structurally and mechanically it is a copy of the ARSAT-1, the only difference being the payload and thus it has different antenna configuration.

ABS-2 is a Space Systems/Loral FS 1300 satellite launched in February 2014. It is positioned in geostationary orbit at 75° East and serves four continents across Asia Pacific, Europe, the Middle East, Africa, Russia and CIS countries. The satellite provides fixed satellite services (FSS) including, video, data and telecommunication networks, corporate networks, cellular backhaul, IP trunking, mobility, and government and military services. It is owned and operated by ABS at its Subic Bay facility.

BSAT-3c, also known as JCSAT-110R, is a geostationary communications satellite operated by Broadcasting Satellite System Corporation (B-SAT) and SKY Perfect JSAT (JSAT) which was designed and manufactured by Lockheed Martin on the A2100 platform.

JCSAT-15 is a communications satellite designed and manufactured for SKY Perfect JSAT Group by SSL on the SSL 1300 platform. It has a launch weight of 3,400 kg (7,500 lb), a power production capacity of 10 kW and a 15-year design life. Its payload is composed of Ku band and Ka band transponders.

The JSAT constellation is a communication and broadcasting satellite constellation formerly operated by JSAT Corporation and currently by SKY Perfect JSAT Group. It has become the most important commercial constellation in Japan, and fifth in the world. It has practically amalgamated all private satellite operators in Japan, with only B-SAT left as a local competitor.

<span class="mw-page-title-main">GSAT-18</span> Indian communications satellite

GSAT-18 is an Indian communications satellite. Built by ISRO and operated by INSAT, it carries 24 C-band, 12 extended C-band, and 12 Ku-band transponders.

References

  1. Taylor, Josh (13 July 2011). "Optus satellite facility tour: photos". Slideshow. Archived from the original on 16 July 2011. Retrieved 13 July 2011.
  2. "Satellite TV - For Caravans". Sattvkits.com. Archived from the original on 17 October 2013. Retrieved 5 April 2014.
  3. "The Optus Satellite Network". Optus.com.au. Retrieved 5 April 2014.
  4. "National Broadband Network - Australia | NBN Co selects Optus to operate Long Term Satellites". NBN Co. 3 February 2014. Archived from the original on 12 March 2014. Retrieved 5 April 2014.
  5. "Optus to take control of NBN Co satellites". Theregister.co.uk. Retrieved 5 April 2014.
  6. 1 2 3 "Boeing 376 Fleet - Aussat". Boeing. Archived from the original on 6 November 2007. Retrieved 8 October 2007.
  7. 1 2 3 "Aussat". Encyclopedia Astronautica. Mark Wade. Archived from the original on 27 November 2007. Retrieved 8 October 2007.
  8. "Ariane 2/3". Encyclopedia Astronautica. Mark Wade. Archived from the original on 17 October 2007. Retrieved 8 October 2007.
  9. Stevenson, Richard W. (16 September 1988). "Shaky Start for Rocket Business". The New York Times.
  10. 1 2 3 "About Optus - Satellite Network". Optus. Retrieved 11 October 2007.
  11. "Optus satellite outage problem fixed". AAP via The Age. 27 May 2005. Retrieved 11 October 2007.
  12. "Failures - Boeing 601 (f.k.a. Hughes HS 601)". Satellite News Digest. Archived from the original on 4 October 2007. Retrieved 11 October 2007.
  13. "Optus B1 satellite service restored following overnight outage" (Press release). Optus. 31 March 2006. Retrieved 11 October 2007.
  14. "Outage On SKY Satellite Service" (Press release). SKY Network Television Limited. 2006. Retrieved 11 October 2007.
  15. "Solar Eclipse Interferes With Satellite Restoration" (Press release). SKY Network Television Limited. 2006. Retrieved 11 October 2007.
  16. "SKY Satellite Service Restored" (Press release). SKY Network Television Limited. 2006. Retrieved 11 October 2007.
  17. "SKY Satellite Service Restored" (Press release). SKY Network Television Limited. 2006. Retrieved 11 October 2007.
  18. Optus satellite lost in space Canberra Times 23 December 1992 page 5
  19. Optus satellite lost in launch explosion Flight International 6 January 1993 page 16
  20. 1 2 3 "CZ-2E Space Launch Vehicle". GlobalSecurity.org.
  21. "Optus B1, B2, B3". Gunter's Space Page.
  22. Zelnio, Ryan (9 January 2006). "A short history of export control policy". The Space Review.
  23. "Real Time Satellite Tracking (Optus B3)". www.n2yo.com. Retrieved 24 January 2008.
  24. "New era of defence communications launched into space" (Press release). Senator the Hon Robert Hill, Minister for Defence. 12 June 2003. Retrieved 24 January 2008.
  25. "OPTUS C1". Mitsubishi Electric Corporation. 2008. Archived from the original on 17 May 2008. Retrieved 2 August 2008.
  26. "Ariane 5 ECA launch a success: DIRECTV 9S and OPTUS D1 in orbit" (Press release). Arianespace. 13 October 2006. Retrieved 6 October 2007.
  27. "Optus D1 - Groundbreaking Contract". Arianespace. 19 May 2004. Retrieved 18 August 2014.
  28. "Optus D1 satellite successfully launched" (Press release). Optus. 14 October 2006. Retrieved 6 October 2007.
  29. Archived August 15, 2006, at the Wayback Machine
  30. "TV satellite taxing technicians". onenews. TVNZ. 14 November 2006. Retrieved 6 October 2007.
  31. "Optus D1 problems?". Free to Air Satellite Forums (Asia Pacific). 11 November 2006. Retrieved 6 October 2007.
  32. New Zealand's source for technology news on Stuff.co.nz
  33. "Sky software update inconveniences few". The Dominion Post via stuff.co.nz. Fairfax New Zealand. 6 August 2007. Archived from the original on 30 September 2007. Retrieved 6 October 2007.
  34. 1 2 "Fact Sheet: Optus D1 and D2" (PDF). Orbital Sciences Corporation. 2007. Retrieved 6 October 2007.
  35. "Arianespace boosts Intelsat 11 and Optus D2 into orbit" (Press release). Arianespace. 5 October 2007. Retrieved 6 October 2007.
  36. "D2 Launch Information". Optus. Retrieved 6 October 2007.
  37. "Arianespace To Launch Australian Satellite Optus D3". Space Daily. 9 April 2007. Retrieved 6 October 2007.
  38. 1 2 "Mission Update - Ariane 5's fourth launch of 2009 orbits the JCSAT-12 and Optus D3 payloads for two key Arianespace Asian-Pacific customers". Arianespace. 21 August 2009. Retrieved 22 August 2009.
  39. 1 2 3 4 "Fact Sheet: Optus D3" (PDF). Orbital Sciences Corporation . Retrieved 11 April 2009.
  40. "Orbital Awarded Contract For A Third Communications Satellite By Optus Of Australia" (Press release). Orbital Sciences Corporation. 29 March 2007. Retrieved 6 October 2007.
  41. "FOXTEL and Optus Agree to a Satellite Deal". Kagan Global Research Team. JupiterResearch Analyst Weblogs. 11 April 2007. Archived from the original on 14 February 2008. Retrieved 6 October 2007.
  42. "FOXTEL acquires additional satellite capacity for new television services" (Press release). FOXTEL. 29 March 2007. Retrieved 6 October 2007.
  43. 1 2 3 4 5 6 7 8 "Satellite Details - Optus 10". SatBeams. Retrieved 5 April 2014.
  44. 1 2 "Optus 10 Satellite Successfully Launched". Optus. 12 September 2014. Retrieved 16 April 2017.
  45. "Arianespace - Press Release - Arianespace successfully launches MEASAT-3b and OPTUS 10 satellites". Archived from the original on 12 September 2014.

Satellite information and orbital data

Manufacturer satellite information pages

Satellite operators

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.