| Mission type | Navigation |
|---|---|
| Operator | ISRO |
| COSPAR ID | 2013-034A |
| SATCATno. | 39199 |
| Mission duration | 10 years |
| Spacecraft properties | |
| Bus | I-1K |
| Manufacturer | ISRO Satellite Centre Space Applications Centre |
| Launch mass | 1,425 kilograms (3,142 lb) |
| Dry mass | 614 kilograms (1,354 lb)[1] |
| Power | 1,660 watts |
| Start of mission | |
| Launch date | 1 July 2013, 18:11 UTC (2013-07-01UTC18:11Z) |
| Rocket | PSLV-XL C22 |
| Launch site | Satish DhawanFLP |
| Contractor | ISRO |
| Orbital parameters | |
| Reference system | Geocentric |
| Regime | Geosynchronous |
| Longitude | 55° E |
| Perigee altitude | 35,706.1 km (22,186.7 mi)[1] |
| Apogee altitude | 35,882.7 km (22,296.5 mi)[1] |
| Inclination | 29.3°[1] |
| Period | 1436.1 minutes[1] |
| Epoch | 22 January 2015, 16:27:41 UTC[1] |
IRNSS-1B → | |
IRNSS-1A is the first navigationalsatellite in theIndian Regional Navigation Satellite System (IRNSS) series of satellites been placed ingeosynchronous orbit.[1][2]
The satellite has been developed at a cost of₹1.25 billion (US$14 million),[3][4] and was launched on 1 July 2013. It will provideIRNSS services to the Indian public, which would be a system similar toGlobal Positioning System (GPS) but only for India and the region around it.[5]
Each IRNSS satellite has two payloads: a navigation payload and CDMA ranging payload in addition with a laser retro-reflector. The payload generates navigation signals at L5 and S-band. The design of the payload makes the IRNSS system inter-operable and compatible with GPS and Galileo.[6] The satellite is powered by two solar arrays, which generate power up to 1,660 watts, and has a lifetime of ten years.[1]
The satellite was launched from theSatish Dhawan Space Centre (SDSC) on 1 July 2013 at 11:41 PM (IST).[7] The launch was postponed from its initial launch date of 26 June 2013 due to a technical snag in the 2nd stage of thePSLV-C22 launch rocket.[8]ISRO then replaced the faulty component in the rocket and rescheduled the launch to 1 July 2013 at 11:43 p.m.[9][10]
Scientists from theGerman Aerospace Centre (DLR)'s Institute of Communications and Navigation in Oberpfaffenhofen, Germany, have received signals from IRNSS-1A. On 23 July 2013, the German Aerospace Center scientists pointed their 30-meter dish antenna at Weilheim towards the satellite and found that it was already transmitting a signal in the L5 frequency band.[11]
The three Rubidiumatomic clocks on-board IRNSS-1A failed, with the first failure occurring in July 2016. ISRO planned to replace it withIRNSS-1H, in August 2017, but this failed to separate from the launch vehicle.[12][13] On 12 April 2018, ISRO launched successfullyIRNSS-1I as a replacement for IRNSS-1A.[14]
The cause of failure was traced to one of the feed through capacitor carrying the DC supply to the physics package of clock, malfunctioning due to excessive rise in temperature.[15] IRNSS-1A and IRNSS-1G are now being used only for NavIC's short message broadcast service.[16][17]
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