SEATTLE (Spaceflight PR) — Spaceflight Inc., the global launch services provider, announced today it has been awarded a launch service contract for the integration and launch of NASA’s LLITED mission, two 1.5U spacecraft. Spaceflight Inc. will transport the NASA Low-Latitude Ionosphere/Thermosphere Enhancements in Density (LLITED) CubeSats to low Earth orbit on its Sherpa-LTC orbital transfer vehicle (OTV) at the end of the year aboard a SpaceX Falcon 9. For this mission, the Sherpa-LTC, which uses chemical propulsion from Benchmark Space Systems, will make its initial spacecraft deployments and then ignite and maneuver to another orbital destination to deploy the NASA CubeSats.
Launch marks debut flight of its next generation OTV, Sherpa-FX
CAPE CANAVERAL SPACE FORCE STATION, Fla., January 25, 2021 (Spaceflight Inc. PR) — Spaceflight Inc., the global launch services provider, successfully launched and deployed 16 payloads, including 15 from its next-generation orbital transfer vehicle (OTV), Sherpa-FX1, aboard the SpaceX Transporter-1 mission. Dubbed SXRS-3 by Spaceflight, the mission launched January 24 from Space Launch Complex 40 at Cape Canaveral Space Force Station. It delivered Spaceflight’s Sherpa-FX1 to Sun Synchronous Low Earth Orbit (525 km alt), where it deployed payloads for more than 10 organizations.
New OTVs, slated to launch in 2021, will minimize the impact of extended development timelines and schedule delays while providing increased launch flexibility
SEATTLE, November 12, 2020 (Spaceflight PR) —Spaceflight Inc., the leading satellite rideshare and mission management provider, announced today that it is developing two additional next-generation orbital transfer vehicles (OTVs) that will debut in 2021. Its first, Sherpa-FX, will fly on a fully dedicated rideshare mission with SpaceX, dubbed SXRS-3 by Spaceflight, no earlier than December 2020. The next two ESPA-class space vehicles in the company’s portfolio are designed to provide more orbital diversification, including flexible manifest changes, deployment to multiple altitudes and orbital planes, and rapid launch solutions.