Inmarsat's satellite coverage in APAC is set to double after Australian ground stations go live.
Experts at Inmarsat have successfully connected the companys I-6 F1 satellite to new ground stations in Western Australia. It marks a crucial milestone as the company upgrades its communications availability in the fast-growing Asia-Pacific (APAC) region.
The announcement follows the successful launch of I-6 F1s twin I-6 F2 which lifted off from Cape Canaveral in February. Like F1, I-6 F2 will reach its geostationary orbital slot later this year, where it will undergo in-orbit-testing. The satellite will enter operational service over Europe, Africa, and much of the Americas in mid-2024.
I-6 F1 launched in December 2021 and spent seven months travelling to geostationary orbit above the Atlantic, using its all-electric propulsion system. After rigorous in-orbit testing in the second half of 2022, the spacecraft is now at its final orbital slot above the Indian Ocean. The company will begin increasing its capacity and transition services to the new satellite throughout 2023, beginning with the first customers from Q2.
Built-in the UK, the I-6 satellites are the most technologically advanced commercial communications satellites ever launched. They are also the companys first hybrid satellites, featuring both L-band (ELERA) narrowband and Ka-band (Global Xpress) high-speed broadband communications payloads.
Commenting on the development, Peter Hadinger, Chief Technology Officer, Inmarsat, said: We are seeing rising demand for our services across the board, as airlines offer faster services for passengers, shipping companies use automated navigation, and industries aim to decarbonise through the Internet of Things.
Our I-6 satellites are designed to meet that demand into the 2040s over two of the busiest regions in the world, as we enable a smarter, more connected society. Having double the beams, 50% more spectrum per beam and double the power of our I-4 satellites, the I-6s advanced processors can match customer demand as and where it is needed in real-time.
