Intelsat 33e

Intelsat 33e, also known as IS-33e, is a high throughput geostationary communications satellite operated by Intelsat and designed and manufactured by Boeing on the BSS-702MP platform.^[1]^[2] It is the second satellite of the Epic^NG service, and will cover Europa, Africa and most of Asia from the 60°East longitude, where it is expected to replace Intelsat 904.^[3] It has a mixed C band, K_u band and K_a band payload with all bands featuring wide and C and K_u also featuring spot beams.^[1]^[2]^[4]^[5]

Satellite description

Intelsat 33e was designed and manufactured by Boeing on the Boeing 702MP satellite bus.^[1]^[2] It has a launch mass of 6.6 t (7.3 tons) and a design life of more than 15 years. When stowed for launch, the satellite measures 7.9 by 3.8 by 3.2 metres (26 ft × 12 ft × 10 ft).^[6]

It is powered by two wings, with four panels each, of triple-junction GaAs solar cells.^[7] The 702MP platform was designed to generate between 6kW and 12kW, but Intelsat 33e is designed to generate 13 kW at the end of its design life.^[7]^[6]

It's payload is the second high throughput Epic^NG deployment. The Epic^NG is characterized by the implementation of frequency reuse thanks to a mix of frequency and polarization in small spot beams. Not only applied to the classical HTS K_a band, but also applying the same technique in K_u band and C band. The Epic^NG series also keep the use of wide beams to offer high throughput and broadcast capabilities in the same satellite.^[3]

In the case of Intelsat 33e, the C band side has 20 transponders with a total downlink bandwidth of 2,670 MHz. The spot beams offer high bandwidth for Europe, Central Africa, the Middle East, Asia and Australia, and a wide beam covers sub-Saharan Africa. The K_u band has 249 transponder equivalent for a total downlink bandwidth of 9,194 MHz. The K_u spot beams cover Europe, Africa, the Middle East and Asia, while a wide beam can broadcast to Europe, Middle East and Asia. The The K_a band payload has 450 MHz of bandwidth on a global beam centered at its position.^[6]^[4]^[5]

History

In July 2009, Intelsat became the first customer of the Boeing 702MP platform, when it place an order for four spacecrafts, Intelsat 21, Intelsat 22, Intelsat 27 and the first Epic^NG satellite, Intelsat 29e. In May 2013, Intelsat made a second order for an additional four Epic^NG satellites, the first of which would be Intelsat 33e.^[7]

On July 15, 2016, Senior Space Program Managers Richard Laurie and Brian Sing blogged that they had been on the Boeing factory overseeing the transport preparations for Intelsat 33e to French Guyana. There it would join another Intelsat satellite, Intelsat 36, for integration on the Ariane 5 ECA launcher, which was expected to launch on August 24.^[8]

On July 22, 2016, Intelsat announced that Intelsat 33e had arrived to the Guiana Space Center for launch preparations. It also announced not only communication but aeronautical and maritime mobility clients that were expecting the satellite service.^[9] On July 27, it was explained that the satellite had traveled by truck from the factory to an airport in California, where it was loaded in an Antonov 124. It flew to Florida for a refuelling stop and then flew staright to Kourou airport.^[10]

At the French launch site, even though Intelsat is the owner of the two passengers of the Ariane 5 VA 232 flight, they have separate launch teams. Each satellite is built by a different manufacturer, and it has a different supervisor team within Intelsat.^[10]

On August 24, 2016, at 22:16:01 UTC, after a slight delay due to a rocket issue, the Ariane 5 ECA VA-232 flight launched from Guiana Space Center ELA-3, with Intelsat 33e and Intelsat 36. At 22:44 UTC, Intelsat 33e separated from the rocket's upper stage.^[11] After 41 minutes of flight, both satellites had separated successfully.^[12] Intelsat confirmed that it had received the satellites signals as expected after separation.^[11]^[13] Arianespace estimated the insertion orbit as 248.7 km × 35,858 km × 5.98°, very close to the target of 249.0 km × 35,879 km × 6.00°.^[14]

On September 9, 2016, Intelsat announced that due to a malfunction in the primary thruster, it would require more time for orbit rising and thus the service date had been moved from the last quarter of 2016 to the first of 2017.^[15] On September 22, insurance officials estimated that the main propulsion failure would not reduce the on orbit life of the spacecraft more than 18 months. This could translate to an insurance claim by Intelsat of around 10% of the satellite service life, which could have a value close to 40 millions dollars.^[16]

References

1 2 3 Krebs, Gunter Dirk (2016-04-21). "Intelsat 33e". Gunter's Space Page. Retrieved 2016-08-24.
1 2 3 "Intelsat 33e". Satbeams. Retrieved 2016-08-24.
1 2 "White Paper — The Intelsat Epic^NG Platform" (PDF). Intelsat. Retrieved 2016-08-24.
1 2 "Intelsat 33e Fact Sheet" (PDF). Intelsat. Retrieved 2016-08-24.
1 2 "Intelsat 33e at 60° E". Intelsat. Retrieved 2016-08-24.
1 2 3 "Launch Kit VA232" (PDF). Arianespace. August 2016. Retrieved 2016-08-24.
1 2 3 "Intelsat" (PDF). Boeing. October 2015. Retrieved 2016-08-24.
↑ "Working Double-Time: Intelsat's Next Launch". Intelsat. July 15, 2016. Retrieved 2016-08-24.
↑ "Intelsat 33e Arrives in French Guiana amid Preparations for August 24th Launch on Ariane 5". Intelsat. July 22, 2016. Retrieved 2016-08-24.
1 2 "The Launch of Intelsat 33e: Let the Campaign Begin!". Intelsat. July 27, 2016. Retrieved 2016-08-24.
1 2 "Intelsat 33e, the Second Intelsat EpicNG Satellite, Successfully Launched into Orbit". Intelsat. August 24, 2016. Retrieved 2016-08-25.
↑ Bergin, Chris (August 24, 2016). "Ariane 5 sets new record via the lofting of Intelsat pair". NASASpaceFlight.com. Retrieved 2016-08-24.
↑ Clark, Stephen (August 24, 2016). "Intelsat celebrates double success with Ariane 5 launch". Spaceflight Now. Retrieved 2016-08-25.
↑ "Intelsat "doubles down" with Arianespace for an Ariane 5 dual success". Arianespace. August 24, 2016. Retrieved 2016-08-25.
↑ "Intelsat Updates In-Service Date for Intelsat 33e". Intelsat. September 9, 2016. Archived from the original on 2016-09-14. Retrieved 2016-09-14.
↑ de Selding, Peter B. (September 22, 2016). "Intelsat: Thruster failure may reduce IS-33e's operational life, but not by much". Space News. Retrieved 2016-09-23.

Intelsat, Ltd.

Main articles

Spacecraft

Intelsat I, II, III	Intelsat I Intelsat II F-1 II F-2 II F-3 II F-4 Intelsat III F-1† III F-2 III F-3 III F-4 III F-5† III F-6 III F-7 III F-8†

Intelsat IV	Intelsat IV F-1 IV F-2 IV F-3 IV F-4 IV F-5 IV F-6† IV F-7 IV F-8 IVA F-1 IVA F-2 IVA F-3 IVA F-4 IVA F-5† IVA F-6

Intelsat V	Intelsat V F-1 V F-2 V F-3 V F-4 V F-5 V F-6 V F-7 V F-8 V F-9† VA F-10 VA F-11 VA F-12 VA F-13 VA F-14† VA F-15

Intelsat VI	Intelsat 601 602 603 604 605

Intelsat 7-10	Intelsat 701 702 703 704 705 706 707 708† 709 801 802 803 804 805 806 901 902 903 904 905 906 907 10-02

ex-PanAmSat	Intelsat 1R 2 3R 4 5 6B 7 8 9 10 11 12

Recent Intelsat	Intelsat 14 15 16 17 18 19 20 21 22 23 24 25 26 27† 28 (a.k.a. "New Dawn") 29e 30 31 32e 33e 34 35e 36 37e 38 39

Galaxy (Intelsat Americas)	Galaxy 3C 4R 5 9 10R 11 12 13 14 15 16 17 18 19 23 25 26 27 28

Other	APR-1 APR-2 Horizons-1 Horizons-2 Horizons-3e Intelsat K Marisat-F2 SBS 6

Future launches are in italics, failed launches with † sign.

← 2015 · Orbital launches in 2016 · 2017 →

January	Belintersat-1 – Jason-3 – IRNSS-1E – Intelsat 29e – Eutelsat 9B

February	BeiDou M3-S – USA-266 / GPS IIF -12 – Kosmos 2514 / GLONASS-M 751 – Kwangmyŏngsŏng-4 – USA-267 / NROL-45 / Topaz-4 – Sentinel-3A – ASTRO-H / Hitomi · ChubuSat-2 · ChubuSat-3 · Horyu-4

March	SES-9 – Eutelsat 65 West A – IRNSS-1F – Resurs-P No.3 – ExoMars Trace Gas Orbiter · Schiaparelli EDM lander – Soyuz TMA-20M – Cygnus CRS OA-6 (Lemur-2 × 9) – Kosmos 2515 / Bars-M No.2 – BeiDou IGSO-6 – Progress MS-02

April	Shijian-10 – Dragon CRS-8 · BEAM – Sentinel-1B · MICROSCOPE · AAUSAT-4 · e-st@r-II · OUFTI-1 – Mikhailo Lomonosov · Aist-2D · SamSat 218 – IRNSS-1G

May	JCSAT-14 – Yaogan 30 – Galileo FOC-10, FOC-11 – Thaicom 8 – Kosmos 2516 / GLONASS-M 753 – Ziyuan III-02 · ÑuSat-1/-2

June	Kosmos 2517 / Geo-IK-2 No.12 – Intelsat 31 / DLA-2 – USA-268 / NROL-37 – BeiDou G7 – Eutelsat 117 West B · ABS-2A – Echostar 18 · BRIsat – CartoSat-2C · BIROS · GHGsat · LAPAN-A3 · M3MSat · SkySat-C1 · Flock-2p x 12 · SathyabamaSat · Swayam – MUOS-5 – Chinese next-generation crew capsule scale model · Aolong-1 · Aoxiang Zhixing · Tiange-1 · Tiange-2 – Shijian 16-02

July	Soyuz MS-01 – Progress MS-03 – Dragon CRS-9 – USA-269 / NROL-61

August	Tiantong-1 01 – Gaofen-3 – JCSAT-16 – QUESS / Mozi / Micius · ³Cat-2 · LiXing-1 – USA-270 / GSSAP #3 · USA-271 / GSSAP #4 – Intelsat 33e · Intelsat 36 – Gaofen-10

September	Amos-6 – INSAT-3DR – OSIRIS-REx – Ofek-11 – Tiangong-2 – PeruSat-1 · SkySat × 4 – ScatSat-1 · Alsat-1B · Alsat-2B · Blacksky Pathfinder-1 · Alsat-1N · CanX-7 · PISat · Pratham

October	Sky Muster II · GSAT-18 – Shenzhou 11 – Cygnus CRS OA-5 (Lemur-2 × 4) – Soyuz MS-02

November	Himawari 9 – Shijian-17 – XPNAV 1 – WorldView-4 · CELTEE 1 · Prometheus-2 × 2 · AeroCube 8 × 2 · U2U · RAVAN – Yunhai-1 – Galileo FOC 7, 12, 13, 14 – Soyuz MS-03 – GOES-R – Tianlian I-04

December	Progress MS-04 – Göktürk-1 – Resourcesat-2A – WGS-8

Launches are separated by dashes ( – ), payloads by dots ( · ), multiple names for the same satellite by slashes ( / ). Cubesats are smaller. Manned flights are bolded. Launch failures are in italics. Payloads deployed from other spacecraft are (enclosed in brackets).

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