The atomic clock on IRNSS-1F, a NavIC satellite, failed on March 13, 2026, further weakening India's indigenous navigation system.
IRNSS-1F, launched in March 2016, completed its designed mission life of 10 years on March 10, 2026.
As of July 2025, five of the NavIC satellites were completely defunct, with all three clocks in each not working.
Currently, only three NavIC satellites are reliably providing positional and navigation services.
ISRO plans to replace the impaired IRNSS satellites with ones containing indigenously developed rubidium clocks.
Detailed Insights:
NavIC is designed to provide positioning services within India and up to 1,500 km beyond, serving as a backup to global systems like GPS in case of conflicts.
The atomic clocks in the IRNSS satellites were initially imported from SpectraTime, a Swiss manufacturer.
NVS-01, a replacement satellite launched in May 2023, features an indigenously developed rubidium atomic clock.
NVS-02, launched in January 2025, failed to reach its intended orbit, hindering the replacement efforts.
ISRO aims to launch at least three replacement satellites by the end of 2026 to address the issue of defunct and aging satellites.
The failure of atomic clocks in NavIC satellites raises concerns about the reliability and accuracy of India's regional navigation system.
The Union government has been encouraging Indian enterprises to rely on NavIC for determining the Indian Standard Time.
Key Concepts Involved:
Atomic Clock: A timekeeping device that uses the resonant frequency of atoms to measure time with extreme accuracy.
NavIC (Navigation with Indian Constellation): India's regional satellite navigation system, designed to provide accurate positioning within India and surrounding areas.
Rubidium Clock: A type of atomic clock that uses rubidium atoms for timekeeping, offering a balance of accuracy and cost-effectiveness.