Session
Session I: Advanced Technologies 1 - Research & Academia
Location
Salt Palace Convention Center, Salt Lake City, UT
Abstract
This paper presents the first fully integrated design of a CubeSat-compatible sub-terahertz (sub-THz) radio payload for in-space communications at 225 GHz. Addressing the growing congestion in traditional RF bands and the limitations of Free Space Optical systems, the proposed system leverages recent breakthroughs in compact high-frequency front-ends, horn antenna arrays, and RFSoC-based digital processing to unlock multi-GHz bandwidths in the underutilized sub-THz spectrum. A detailed feasibility study confirms link closure from low Earth orbit using state-of-the-art components, and the payload’s architecture is engineered for real-time high-speed uplink/downlink under stringent CubeSat size, weight, and power (SWaP) constraints. The proposed payload will fly aboard the TeraLink CubeSat mission, marking a critical step toward operational sub-THz satellite links and ushering in a new era of broadband, high-frequency space communications.
Document Type
Event
A Radio Payload for In-Space Sub-Terahertz Communications
Salt Palace Convention Center, Salt Lake City, UT
This paper presents the first fully integrated design of a CubeSat-compatible sub-terahertz (sub-THz) radio payload for in-space communications at 225 GHz. Addressing the growing congestion in traditional RF bands and the limitations of Free Space Optical systems, the proposed system leverages recent breakthroughs in compact high-frequency front-ends, horn antenna arrays, and RFSoC-based digital processing to unlock multi-GHz bandwidths in the underutilized sub-THz spectrum. A detailed feasibility study confirms link closure from low Earth orbit using state-of-the-art components, and the payload’s architecture is engineered for real-time high-speed uplink/downlink under stringent CubeSat size, weight, and power (SWaP) constraints. The proposed payload will fly aboard the TeraLink CubeSat mission, marking a critical step toward operational sub-THz satellite links and ushering in a new era of broadband, high-frequency space communications.
