en.Wedoany.com Reported - Sivers Semiconductors has received an $8.2 million production order to supply next-generation multi-beam Ka-band beamforming integrated circuits (BFICs) for multi-orbit satellite communications company ALL.SPACE, to be used in its terminal products in 2027. Sivers Semiconductors AB, headquartered in Kista, Sweden, is a global player in photonics and wireless technology. This order marks the official transition from the R&D and initial production phase to large-scale mass production in the collaboration between the two parties.

ALL.SPACE recently showcased its product portfolio and project pipeline, covering support for multinational defense customers. The company is serving U.S. Army and U.S. Navy clients, conducting trials with the Royal Canadian Navy, and supporting satellite network operators such as Telesat, SES, and Viasat. Additionally, York Space Systems has signed a definitive agreement to acquire ALL.SPACE, a move that will further strengthen the company's presence in the U.S. defense ecosystem.

Vickram Vathulya, CEO of Sivers Semiconductors, stated that this production order is a significant milestone in the partnership. He noted that Sivers' beamforming platform has been market-validated, confirming its differentiated performance, and that this technology is critical for ALL.SPACE's next-generation terminals and future satellite communications infrastructure.

Paul McCarter, CEO of ALL.SPACE, stated that the continued collaboration with Sivers is key to commercializing its next-generation multi-orbit communication capabilities. This order reflects the strong performance of the jointly developed Ka-band beamforming technology and supports the growing demand from global customers.

Currently, demand for multi-orbit satellite communications is rising. Defense agencies and commercial operators increasingly require resilient, always-on connectivity across Low Earth Orbit (LEO), Medium Earth Orbit (MEO), and Geostationary Earth Orbit (GEO) satellite networks. Advanced beamforming semiconductors and electronically steered antenna technologies are therefore key drivers, providing the flexibility, performance, and reliability needed to operate seamlessly across multiple orbital constellations.

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