The module’s L-band chip, based on a new architecture developed by CEA-Leti, is a key hardware component that enables Astrocast customers to cost-efficiently communicate with their assets in the field via its network. It was completed earlier this year in an expedited project between the research institute and Astrocast, and is embedded in Astrocast’s RF module, called Astronode S.
The chip’s architecture is split over the RF core and digital processing and control units. It is fully optimised to support Astrocast’s dedicated bidirectional ground-to-satellite protocol and provides an optimal trade-off between link budget and low-power and low-cost constraints. The chip also embeds all low-earth orbit (LEO), satellite-specific features such as satellite detection and robustness to Doppler shift.
The miniaturised, surface-mount module communicates with terrestrial devices via Astrocast’s constellation of LEO satellites. Using the L-band spectrum, the network primarily targets maritime, oil & gas, agriculture, land transport and environmental applications in which ubiquitous coverage is required.
“Terrestrial IoT networks cover only about 15 percent of the planet, which leaves vast remote and rural areas where our global satellite network provides coverage that is crucial for our target markets,” said Laurent Vieira de Mello, Astrocast’s COO. “Leveraging its expertise embedded in a preliminary version of the RF chip, CEA-Leti developed its chip and delivered the final prototype to meet our requirements and time-to-market goals. They managed the chip technology transfer to our industrialisation, qualification and production partner.”
The project’s critical time-to-market window was managed through the use of a flexible collaboration model covering both prototype and industrialisation phases.
“An accelerated time-to-market goal drove this project from the outset,” said Michel Durr, business development manager at CEA-Leti. “We pioneered this RF technology in 2019, and our team customised it for Astrocast up to production in only three years.”
According to CEA-Leti its industrial tester used for characterization was key to accelerating from prototype to production, which enabled prototype characterization in parallel on the tester and in the lab, according to Durr.
The low-energy, compact, surface-mount Astronode S module for highly integrated, battery-powered IoT systems is said to offer a total cost of ownership that’s up to three times lower than traditional satellite IoT alternatives.
