 The PSLV-XL launch vehicle rolled out at Sriharikota First, prior to flight C37 | |
| PSLV-XL launch | |
|---|---|
| Launch | 15 February 2017 (2017-02-15), 03:58:00 UTC |
| Operator | ISRO |
| Pad | SriharikotaFirst |
| Payload | 104 satellites
|
| Outcome | Success |
| PSLV launches | |
PSLV-C37 was the 39th mission of the IndianPolar Satellite Launch Vehicle (PSLV) program and its 16th mission in theXL configuration undertaken by theIndian Space Research Organisation (ISRO). Launched on 15 February 2017 from theSatish Dhawan Space Centre atSriharikota,Andhra Pradesh, the rocket successfully carried and deployed a record number of 104satellites inSun-synchronous orbits in a single mission, breaking the earlier record of launching 37 satellites by a RussianDnepr rocket on 19 June 2014. This record was held until the launch of theTransporter-1 mission by SpaceX on 24 January 2021 which launched 143 satellites.
Its primary payload was theCartosat-2DEarth observation satellite, while the secondary payloads included a total of 103nanosatellites, including two experiments from ISRO. The 101 international satellites were launched as part of a commercial arrangement between several firms and ISRO's commercial armAntrix Corporation Limited, run under the auspices of theIndian Government'sDepartment of Space.
PSLV-C37 was launched from theFirst Launch Pad ofSatish Dhawan Space Centre in Sriharikota at 09:28IST on 15 February 2017. It was the 39th flight of the PSLV and the sixteenth in the XL configuration.[1] It carried a total of 104 satellites including the primary payloadCartosat-2D.[2][3][4] The launcher started placing the satellites into polar Sun-synchronous orbits one after another after a flight of 16 minutes and 48 seconds.[2][5] It first ejected the satellite Cartosat-2D at an altitude of approximately 510 kilometres (320 mi), with 97.46 degrees inclination,[1] followed by the two ISROnanosatellites INS-1A and INS-1B.[2][5] It then took 11 minutes for PSLV C-37 to place the remaining 101 "co-passenger" satellites into their intended orbits.[4]
Soon after separation from the launch vehicle, the two solar arrays on board the Cartosat-2D satellite were automatically deployed. Afterwards,ISRO's Telemetry, Tracking and Command Network atBengaluru took control of the satellite. "In the coming days, the satellite will be brought to its final operational configuration following which it will begin to provideremote sensing services using its panchromatic (black and white) and multispectral (colour) cameras," an ISRO statement read. The mission lasted 29 minutes.[5][1][4]
Originally, PSLV-C37 was set to launch on 27 January 2017 with 83 satellites. With the addition of twenty more satellites to the payload, the schedule was changed to 15 February 2017.[6][7]
On October 6 2024, the upper stage of the rocket (PS4)Re-entered theatmosphere at about 15:48:25 UTC. The corresponding impact point is located in theNorth Atlantic Ocean, off the coast ofCuba.[8]
The rocket launched Cartosat-2D and 103nanosatellites: two from India, one each from Kazakhstan, Israel, the Netherlands, Switzerland, and the United Arab Emirates, along with 96 from the United States – 88Dove satellites and 8 LEMUR satellites.[1] The three Indian satellites launched were Cartosat-2D, INS-1A, and INS-1B.[10] Arrangements for the launch of the 104 satellites were made between ISRO's commercial armAntrix Corporation Limited, under the auspices of theIndian Government'sDepartment of Space, and the international customers.[11]
The Cartosat-2D weighs 714 kilograms (1,574 lb), and its design life is five years.[1] The two Indian nanosatellites, designated INS-1A and INS-1B, each carried two payloads from ISRO'sSpace Applications Centre and theLaboratory for Electro-Optics Systems. INS-1A carried a Surface Bidirectional Reflectance Distribution Function Radiometer (SBR) and a Single Event Upset Monitor (SEUM). INS-1B carried an Earth Exosphere Lyman-Alpha Analyzer (EELA) and Origami Camera as payloads.[1] They weigh 8.4 kilograms (19 lb) and 9.7 kilograms (21 lb) respectively and have been designed with a mission life of six months.[1][5] An ISRO official said: "The nano satellites are an experimental class of satellites introduced by ISRO because there are requests from academic institutions to use them for data collection. The universities do not have the knowledge to build satellites and tend to take a long time… We want them to focus on the instruments as we can provide the nano satellite bus."[12]
The 103 co-passenger satellites weighed approximately 664 kilograms (1,464 lb), bringing the total payload mass to 1,378 kilograms (3,038 lb).[1] The total launch mass of the rocket was 320,000 kilograms (710,000 lb).[1] Among the 96 satellites belonging to US companies, 88CubeSats were owned byPlanet Labs, a privateEarth imaging company based in San Francisco, California.[2] Weighing roughly 5 kilograms (11 lb) each, the satellites separated from the rocket in different directions to avoid collision.[13] With the launch of PSLV-C37, Planet Labs increased its fleet of satellites to 143, which was the largest private satellite fleet in operation at the time.[2][14]
Eight Lemur-2 satellites belonging toSpire Global are to provide vessel tracking and weather measurement services. These satellites have a short lifetime of about two to three years requiring replacement at regular intervals.[2][15]
PSLV-C37 used therocket engine nozzle manufactured byVijayawada, from Andhra Pradesh-based companyResins and Allied Productions (RAP). This is the 100th nozzle manufactured by RAP to be used in a PSLV.[16][7] Several components of PSLV-C37 were manufactured byLarsen & Toubro at its advanced composite facility inVadodara, Gujarat. The honeycomb deck panels used for mounting the heat shield and electronic packages on the upper stage of the PSLV, the antenna mount structure, and the 13 metres (14 yd) diameter bull gear were all manufactured by L&T.[17]
ISRO released a statement stating that it will recover half of the mission's cost from the foreign countries whose satellites it launched.[18]
With this launch, ISRO created a new world record for the largest number of satellites ever launched on a single rocket, surpassing the previous record of Russia, which in 2014 launched 37 satellites usingDnepr rocket.[19][20][21] This record set by ISRO stood until 24 January 2021, whenSpaceX launched the Transporter-1 mission on aFalcon 9 rocket carrying 143 satellites into orbit.[22]
Imagery from the primary satellite,Cartosat-2D, is used for variousland information system andgeographical information system applications in India.[1] Data collected by the two Indian nanosatellites—the INS-1A and INS-1B—will be used by ISRO's Space Applications Centre and the Laboratory for Electro-Optics Systems.[12] The Dove satellites from the US are used to photograph the Earth for commercial, environmental, and humanitarian purposes.[23] Eight LEMUR satellites, weighing 4.6 kilograms (10 lb) each, carried two different payloads, namely SENSE for vessel tracking purposes and STRATOS for atmospheric measurements.[24]Al Farabi-1 satellite built by the students ofAl-Farabi Kazakh National University,Nayif-1 satellite built by theMohammed bin Rashid Space Centre,Dubai, andPEASSS satellite built by an all-European consortium of Partners, are technology demonstrator satellites whereasDIDO-2 built bySpacePharma from Switzerland is a micro-research satellite.[1]BGUSAT (Ben Gurion University SATellite)[25] built byIsrael Aerospace Industries (IAI) in cooperation withBen Gurion University[1] is designed as a research satellite. The satellites objectives are to explore atmospheric and weather phenomena in theinfrared wavelength by imaging atmospheric gaseous contents and atmospheric glow.[26]
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