The primary payload of the rocket is an Oceansat which would be separated in orbit-1 while the eight other nano-satellites would be placed in different orbits based on the customer's requirements (in the Sun-synchronous polar orbits).
Including the primary payload, nine satellites would ride piggyback on the 44.4-metre high PSLV-C54 which has a lift-off mass of 321 tonnes. It is also the 24th flight of the PSLV-XL version.
The mission would be one of the longest ones undertaken by the ISRO scientists who would engage the rocket to change orbits using two-orbit change thrusters (OCTs) used in the PSLV-C54 launch vehicle.
The separation of the
The objective of the mission is to ensure data continuity of ocean colour and wind vector data to sustain operational applications. The customer payloads include ISRO Nano Satellite-2 for Bhutan (INS-2B) which would have two payloads namely NanoMx and APRS-Digipeater. NanoMx is a multispectral optical imaging payload developed by the Space Applications Centre while the APRS-Digipeater payload is jointly developed by the Department of Information Technology and Telecom, Bhutan, and U R Rao Satellite Centre, Bengaluru. The 'Anand' satellite developed by Pixxel is a technology demonstrator to demonstrate the capabilities and commercial applications of a miniature earth observation camera for observation using a micro-satellite in low earth orbit. The 'Thybolt' (two satellites) is from another space start-up Dhruva Space while Astrocast is a technology demonstrator satellite for the internet of things as the payload from Spaceflight, the United States of America.
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