JCSAT-2B

JCSAT-2B
Names	JCSAT-14
Mission type	Communication
Operator	SKY Perfect JSAT Group
COSPAR ID	JCSAT-14[1]
SATCAT no.	41471[2]
Spacecraft properties
Spacecraft	JCSAT-14
Bus	SSL 1300
Manufacturer	SSL
Launch mass	4,696.2 kg (10,353 lb)[3]
Dry mass	2,194.2 kg (4,837 lb)
Dimensions	25.5 m (84 ft) (solar arrays span)
Power	9.9 kW
Start of mission
Launch date	05:21:00, May 6, 2016
Rocket	Falcon 9 Full Thrust
Launch site	Cape Canaveral SLC-40
Contractor	SpaceX
Orbital parameters
Longitude	154°East
Transponders
Band	26 C band and 18 Ku band
Bandwidth	2,853 MHz
	JSAT

JCSAT-2B, known as JCSAT-14 before commissioning, is a geostationary communications satellite operated by SKY Perfect JSAT Group and designed and manufactured by SSL on the SSL 1300 platform.^[4]^[5] It had a launch weight of 4,696.2 kg (10,353 lb), a power production capacity of 9 to 9.9 kW at end of life and a 15-year design life.^[3] Its payload is composed of 26 C band and 18 K_u band transponders with a total bandwidth of 2,853 MHz.^[3]

SKY Perfect JSAT Group will use JCSAT-2B as a replacement for JCSAT-2A to provide communications services to Japan, Asia, Russia, Oceania, and the Pacific Islands.^[5]

History

On June 11, 2013, SSL announced that it had been awarded a contract by SKY Perfect JSAT Group to manufacture JCSAT-14. It would be a 10 kW satellite with 26 C band and 18 K_u band transponders with a 15 years of expected life. It was scheduled for launch in 2015.^[6]

On January 10, 2014, JSAT announced that it had signed a launch service contract with SpaceX for the launch of JCSAT-14 aboard a Falcon 9 rocket. The expected launch date was the second half of 2015.^[7] But the failure of Falcon 9 Flight 19 meant a delay of at least six months on the launch.^[3]

On March 14, 2016 SSL delivered JCSAT-14 to the launch site, at Cape Canaveral Air Force Station, for launch processing and integration.^[8] JCSAT-14 was launched on May 6, 2016 at 05:21 UTC by a Falcon 9 rocket.^[3] The next day, SSL announced that the satellite had deployed the solar arrays, was in full control and was performing orbital maneuvers to reach its operational position.^[9]

Since July 2016, the rechristened JCSAT-2B is commissioned and operational at the 154° East orbital slot.^[10]

Launch and rocket landing

JCSAT-14 was launched to geostationary transfer orbit on May 6, 2016 at 05:21 UTC, as the 24th mission of a Falcon 9 Full Thrust rocket.^[3] The rocket's first stage subsequently landed on the autonomous spaceport drone ship Of Course I Still Love You in the Atlantic Ocean.^[11]

The first stage of the rocket encountered "extreme temperatures during its reentry into Earth atmosphere" and was subsequently identified as a candidate for reflight, and as a "reference vehicle" for further testing. It was subjected to a series of tests, including a 150-second full-duration engine firing completed on 28 July 2016. Additional tests were planned before SpaceX determines the stage's suitability for reuse on a subsequent launch.^[12] SpaceX has since completed at least 7 more full-duration firings of the core, and has indicated that this stage will be used solely for ground testing purposes.

References

↑ "JCSAT-14". NASA Space Science Data Coordinated Archive. Retrieved 29 July 2016.
↑ "JCSat 2B". Satbeams. Retrieved 26 July 2016.
1 2 3 4 5 6 Graham, William (2016-03-05). "Falcon 9 launches with JCSAT-14 – lands another stage". NASASpaceflight.com. Retrieved 29 July 2016.
↑ Krebs, Gunter Dirk (2016-04-21). "JCSat 14 (JCSat 2B)". Gunter's Space Page. Retrieved 20 July 2016.
1 2 "JCSat 14". SSL. Retrieved 29 July 2016.
↑ "SSL selected to provide satellite to Sky Perfect JSAT". SSL. 2013-06-12. Retrieved 29 July 2016.
↑ "SKY Perfect JSAT signed a Launch Service Contract for JCSAT-14 satellite with SpaceX" (PDF). SKY Perfect JSAT Group. 2014-01-10. Retrieved 29 July 2016.
↑ "SSL delivers communications satellite for Sky Perfect JSAT to Cape Canaveral launch base". SSL. 2016-03-14. Retrieved 29 July 2016.
↑ "SSL satellite for Sky Perfect JSAT begins post-launch maneuvers according to plan". SSL. 2016-05-06. Retrieved 29 July 2016.
↑ "Satellite Fleet JSAT". SKY Perfect JSAT Corporation. Retrieved 29 July 2016.
↑ Dean, James (16 May 2016). "SpaceX Falcon 9 first stage booster suffered 'max' damage on landing". Florida Today. Retrieved 31 March 2017.
↑ Berger, Eric (2016-07-29). "SpaceX takes another step toward reusability with 150-second engine test". Ars Technica. Retrieved 2016-07-29.

External links

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[nasagsfc-mastercatalog2016028a-1] "JCSAT-14". NASA Space Science Data Coordinated Archive. Retrieved 29 July 2016.

[satbeams-jcsat1420160305-2] "JCSat 2B". Satbeams. Retrieved 26 July 2016.

[nsf-20160305-3] 1 2 3 4 5 6 Graham, William (2016-03-05). "Falcon 9 launches with JCSAT-14 – lands another stage". NASASpaceflight.com. Retrieved 29 July 2016.

[gsp-jcsat14-4] Krebs, Gunter Dirk (2016-04-21). "JCSat 14 (JCSat 2B)". Gunter's Space Page. Retrieved 20 July 2016.

[sslmda-jcsat14official-5] 1 2 "JCSat 14". SSL. Retrieved 29 July 2016.

[sslmda-pr20130612-6] "SSL selected to provide satellite to Sky Perfect JSAT". SSL. 2013-06-12. Retrieved 29 July 2016.

[jsat-pr20140110-7] "SKY Perfect JSAT signed a Launch Service Contract for JCSAT-14 satellite with SpaceX" (PDF). SKY Perfect JSAT Group. 2014-01-10. Retrieved 29 July 2016.

[sslmda-pr20160314-8] "SSL delivers communications satellite for Sky Perfect JSAT to Cape Canaveral launch base". SSL. 2016-03-14. Retrieved 29 July 2016.

[sslmda-pr20160506-9] "SSL satellite for Sky Perfect JSAT begins post-launch maneuvers according to plan". SSL. 2016-05-06. Retrieved 29 July 2016.

[jsat-satellitefleet20160729-10] "Satellite Fleet JSAT". SKY Perfect JSAT Corporation. Retrieved 29 July 2016.

[11] Dean, James (16 May 2016). "SpaceX Falcon 9 first stage booster suffered 'max' damage on landing". Florida Today. Retrieved 31 March 2017.

[ars20160729-12] Berger, Eric (2016-07-29). "SpaceX takes another step toward reusability with 150-second engine test". Ars Technica. Retrieved 2016-07-29.

JCSAT satellites
Launch designations	1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 110R
Operational designations	1 1B 2 2A 3 3A 4A 4B 5A 85 110 110R R RA 2B

← 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 (Diwata-1 · Flock-2e' × 20 · 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 × 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 – HTV-6 / Kounotori 6 · (EGG · TuPOD · UBAKUSAT · AOBA-VELOX · STARS · FREEDOM · ITF · Waseda-SAT · OSNSAT · Tancredo-1 · TechEDSat · Lemur-2 × 4) – Fengyun 4A – CYGNSS × 8 – EchoStar 19 – Arase / ERG – TanSat · Spark × 2 – Star One D1 · JCSAT-15 – SuperView / Gaojing-1 01, 02 · Bayi Kepu 1
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).

JCSAT-2B

History

Launch and rocket landing

See also

References

External links