ISRO’s SSLV-D3 Mission: Launching EOS-08 Satellite to 500 km Orbit

This morning at precisely 09:17 a.m, India’s space exploration journey took another significant step forward with the successful launch of the SSLV-D3 (Small Satellite Launch Vehicle) mission, marking a momentous occasion for the Indian Space Research Organisation (ISRO) and the Department of Space (DOS). The SSLV-D3, ISRO’s third developmental flight, successfully deployed the EOS-08 satellite and the SR-0 DEMOSAT into a precise orbit, demonstrating the repeatable flight performance of the SSLV vehicle systems.

Mission Overview

The SSLV-D3 mission is designed to meet the growing demand for launching smaller satellites in an efficient and cost-effective manner. The vehicle is capable of deploying mini, micro, or nano-satellites (ranging from 10 to 500 kg) into a 500 km planar orbit. The SSLV stands out for its low cost, minimal turnaround time, and flexibility in accommodating multiple satellites, making it a suitable choice for “launch-on-demand” missions.

Key specifications of the SSLV-D3 include:

  • Vehicle Height: 34 meters
  • Lift-off Mass: ~119 tons
  • Propulsion: Three solid stages and a liquid propulsion-based Velocity Trimming Module (VTM)
  • Orbit: 475 km circular orbit with a 37.4° inclination

EOS-08: A Technological Marvel

At the heart of today’s mission was the deployment of the EOS-08 satellite, a microsatellite based on ISRO’s innovative Microsat/IMS-1 bus. Weighing approximately 175.5 kg, the satellite is equipped with cutting-edge technology aimed at advancing earth observation capabilities. The EOS-08 carries three primary payloads:

  1. Electro-Optical Infrared (EOIR) Payload: Designed for imaging in the Mid-Wave IR (MIR) and Long-Wave IR (LWIR) bands, enabling a wide array of applications including disaster monitoring, environmental surveillance, fire detection, and industrial disaster management.
  2. Global Navigation Satellite System – Reflectometry (GNSS-R) Payload: Utilized for remote sensing applications such as ocean surface wind monitoring, soil moisture estimation, and flood detection.
  3. SiC UV Dosimeter: A sensor developed to monitor UV irradiance, which is crucial for missions like Gaganyaan and for high-dose UV radiation detection.

Incorporating several advanced technologies, EOS-08 also includes integrated avionics, flexible solar panels, a phased array antenna, and a miniaturized dual gimbal antenna. These innovations make the satellite more efficient in terms of power generation, data storage, and communication, making it a formidable asset for India’s space capabilities.

The Road Ahead: Commercializing SSLV

The successful completion of the SSLV-D3 mission is more than just a technological achievement; it marks the culmination of ISRO/DOS’s SSLV Development Project. With the vehicle’s technology now validated through this and previous missions, the SSLV program is poised for commercialization. The technology transfer to the Indian industry, in collaboration with NewSpace India Limited (NSIL), will enable the production of SSLV vehicles for commercial missions, further strengthening India’s position in the global space market.

Conclusion

The SSLV-D3/EOS-08 mission exemplifies India’s growing prowess in space technology, showcasing the country’s ability to innovate and deliver reliable space solutions. As SSLV transitions into commercial production, it will open new avenues for satellite launches, particularly for smaller payloads, which are increasingly in demand. Today’s launch is not just a win for ISRO but a significant milestone for India’s space industry as a whole, setting the stage for future advancements and commercial opportunities in the space sector.

Get in Touch

LEAVE A REPLY

Please enter your comment!
Please enter your name here

spot_imgspot_img

Related Articles

Get in Touch

844FansLike
20FollowersFollow
10FollowersFollow

Latest Posts