Lyntris is developing integrated sensing and communication technologies that support space-based intelligence, surveillance, reconnaissance (ISR) and satellite communications across low Earth orbit (LEO), medium Earth orbit (MEO) and geostationary Earth orbit (GEO). Drawing on decades of experience in antenna development, RF payload integration and ISR satellite programs, the company delivers technologies designed to operate reliably in the harsh radiation, extreme distances and maintenance-free environments of space.

At the core of Lyntris' space capabilities are advanced RF payload integration solutions that combine mission-specific front-end components, subsystems and antenna apertures into fully tested, launch-ready payloads. The company integrates antennas, electronics, mechanisms, radios and processors into spacecraft interface assemblies, providing complete RF payload systems that support persistent surveillance, secure communications and space domain awareness.

Lyntris also develops antenna technologies for every orbital regime, including reflector antennas, feed clusters and integrated feed networks. Designed for satellite communications and ISR missions, these systems are optimized to maximize RF efficiency while reducing size, weight and system complexity. The company further provides vacuum brazing and additive manufacturing techniques to produce compact and lightweight antenna technologies that meet the performance and integration requirements of modern spacecraft.

Complementing the hardware capabilities, Lyntris designs RF subsystems that provide full spectrum coverage from 1 GHz to 1 THz for space, airborne, tactical and ground applications. The vertically integrated development model enables the company to manage every stage of engineering, manufacturing, integration and testing in-house, improving quality control, reducing production timelines and ensuring mission-ready performance before launch. Lyntris also develops precision pointing and control systems with embedded software that enable antennas, optical communications systems, robotics and mission payloads to acquire, track and maintain alignment in demanding space environments.

The company's technologies have been demonstrated through operational space programs. Lyntris designed and delivered the first additively manufactured satellite antenna integrated into Tomorrow.io's Tomorrow-R1, the world's first commercially built weather radar satellite, validating the use of additively manufactured hardware for space applications. The company also supports the Space Development Agency's Proliferated Warfighter Space Architecture (PWSA), delivering more than 80 L-band antenna arrays for Tranche 1 and Tranche 2 satellites to enable resilient beyond-line-of-sight communications across proliferated satellite constellations, delivering more than 80 L-band antenna arrays featuring a modular SWaP-C design optimized for mass production and high-performance connectivity across proliferated satellite constellations.

By combining advanced RF payload integration, space-qualified antenna systems, additive manufacturing, and vertically integrated engineering and production, Lyntris provides end-to-end sensing technologies that enhance satellite communications, intelligence gathering and space domain awareness. Its solutions are designed to support government and defense customers with high-performance capabilities for increasingly complex space missions.

About Lyntris

Lyntris is a U.S-based defense technology company that develops integrated sensing, communications, artificial intelligence, mission software and systems engineering solutions for defense, aerospace and space applications. The company specializes in RF payload integration, advanced antenna technologies, ISR systems and resilient communications that support operations across space, air, land, sea and cyber domains. Through vertically integrated engineering, manufacturing and testing, Lyntris delivers mission-ready technologies for government and national security customers, enabling secure, reliable and high-performance operations in contested environments.

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