The countdown for ISRO’s (Indian Space reserach Organisation) GSLV F12/NVS-01 launch mission commenced at 7:12 am Sunday, forward of the lift-off that’s scheduled for 10:42 am Monday, WION has learnt. The countdown is the ultimate section previous to launch the place the launch automobile’s liquid and cryogenic fuels are stuffed and the ultimate well being checks of essential methods are carried out.
The GSLV rocket that stands tall at the second launchpad at the Satish Dhawan Space Centre, Sriharikota, is supposed to position a 2,332 kg navigation satellite NVS-01 right into a Geosynchronous Transfer Orbit (GTO). The GTO is a short lived parking orbit, into which the satellite will probably be hurled by the rocket. There on, the satellite will independently use its onboard propulsion methods to carry out orbit-raising maneuvres and attain its supposed orbit.
This would be the Indian area company ISRO’s fourth launch mission of the calendar yr 2023. Thus far in 2023, ISRO has launched its smallest rocket SSLV, the most-flown workhorse rocket PSLV and the heaviest rocket LVM3. Monday’s launch will add the GSLV to the checklist — marking the launch of all 4 operational automobiles of ISRO in a brief span of 4 months.
NVS-01 is the primary within the collection of second-generation navigation satellites constructed by ISRO’s UR Rao Satellite Centre in Bengaluru. At current, India makes use of its Navigation with Indian Constellation (NavIC) collection of satellites for civilian and defence navigation, positioning, and timing companies within the Indian mainland and even 1500 km past India’s borders.
“NVS collection of satellites will maintain and increase the NavIC with enhanced options. This collection incorporates L1 band alerts moreover to widen the companies. For the primary time, an indigenous atomic clock will probably be flown in NVS-01,” ISRO mentioned.
While utilizing satellite-based positioning and navigation companies, our place (of the GPS receiver) is decided regarding its distance from a number of satellites. When such a calculation occurs, the gap worth is obtained by multiplying the time (taken for sign to journey) and the velocity of the sign (nearly much like the velocity of sunshine). In such instances, (when giant values are being multiplied) even a variation of a billionth of a second can result in an inaccurate distance worth (by a couple of metrrs or tens of metres). Hence it’s essential to have atomic clocks that may work for a number of years with out even nanosecond-level errors in timekeeping.
Earlier, the NavIC collection of satellites had been often called IRNSS (Indian Regional Navigation Satellite System). It gives two varieties of companies — Standard Positioning Service (SPS) which is supplied to all of the customers and Restricted Service (RS), which is an encrypted service supplied solely to the authorised customers. According to ISRO, among the purposes of the IRNSS/NavIC system are terrestrial, aerial and marine navigation, catastrophe administration, automobile monitoring and fleet administration and exact timing. According to ISRO, NavIC SPS alerts are interoperable with different world navigation satellite system (GNSS) alerts similar to – GPS, Glonass, Galileo, and BeiDou.
ISRO’s NavIC satellites
ISRO’s present collection of eight NavIC satellites had been positioned in orbit in a phased method between the years 2013 and 2018 utilizing PSLV rockets. All satellites within the first-generation NavIC collection weighed 1,425 kg and carried foreign-origin atomic clocks. All IRNSS/NavIC collection satellites carried two varieties of payloads – navigation payload and ranging payload.
The navigation payload transmits alerts for the dedication of place, velocity and time. Rubidium atomic clocks are a part of the navigation payload of the satellite. The ranging payload of those satellites consists of a C-band transponder which facilitates correct dedication of the vary of the satellite.