Inside GNSS: Engineering Solutions from the Global Navigation Satellite System Community
GPS Galileo Glonass BeiDou Regional/Augmentation
Inside Unmanned Systems
Thought Leadership Series
IRNSS-1C spacecraft undergoing electromagnetic interference and electromagnetic compatibility (EMI-EMC) tests. ISRO photo

India Lofts Third IRNSS Spacecraft into Orbit

October 23, 2014
Inside GNSS, November/December 2014

Share via: SlashdotSlashdot   TechnoratiTechnorati   India Lofts Third IRNSS Spacecraft into Orbit (Inside GNSS)TwitterTwitter   FacebookFacebook

ISRO's Polar Satellite Launch Vehicle, PSLV-C26, successfully launched IRNSS-1C, the third satellite in the Indian Regional Navigation Satellite System (IRNSS), from Satish Dhawan Space Center last Thursday (October 16, 2014 local time).

IRNSS-1C is the third of the seven satellites constituting the IRNSS space segment. IRNSS-1A and IRNSS-1B, the first two satellites of the constellation, were successfully launched by PSLV on July 02, 2013, and April 04, 2014, respectively. Both IRNSS-1A and 1B are functioning satisfactorily from their designated geosynchronous orbital positions.

IRNSS is an independent regional navigation satellite system designed to provide position information in the Indian region and 1,500 kilometers around the Indian mainland. IRNSS would provide two types of services, namely, Standard Positioning Services (SPS) — provided to all users — and Restricted Services (RS), provided to authorized users.

After the lift-off key flight events — such as stage and strap-on ignitions, heat-shield separation, stage and strap-on separations and satellite injection — took place as planned. After a flight of about 20 minutes 18 seconds, IRNSS-1C Satellite, weighing 1425 kilograms, was injected into an elliptical orbit at an altitude ranging from 282.56 kilometers (perigee) to 20,670 kilometers (apogee) which is very close to the intended orbit, according to ISRO.

After injection, the solar panels of IRNSS-1C were deployed automatically. ISRO's Master Control Facility (at Hassan, Karnataka) assumed the control of the satellite. Four orbit maneuvers will bring the satellite into its geostationary orbit at 83 degrees East longitude.

Earlier this year, ISRO released a signal-in-space interface control document (ICD) for the IRNSS standard positioning service.

Copyright © 2014 Gibbons Media & Research LLC, all rights reserved.

Jammer Dectector
globe Copyright © Inside GNSS Media & Research LLC. All rights reserved.
157 Broad Street, Suite 318 | Red Bank, New Jersey USA 07701
Telephone (732) 741-1964

Problems viewing this page? Contact our webmaster.