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SMi MilSatComUSA 2019  Satellite Communications Technology

Exos Aerospace has successfully concluded the first SARGE reuse “Mission 1” test launch at Spaceport America

(6 March 2019 - Spaceport America) Spaceport America and Exos Aerospace have announced “another successful test flight.”

Exos completed the Pathfinder Launch on August 25th 2018 from Spaceport America. It was the first step in validating the SARGE SRLV that was flown and recovered for reuse. Exos Aerospace gathered critical flight data that enabled advancing the design and setting them up for continued reuse of their SARGE vehicle.

The “Mission 1” test flight of the SARGE reusable system carried commercial payloads flown under the programs listed below. The successful launch further solidified the company’s plan to use this technology as the design basis of their Jaguar orbital launch vehicle with reusable first stage capable of carrying 100kg to Low Earth Orbit (200-400km).

exos 1

(courtesy: Spaceport America)

Flight programs and associated payloads that were on the March 2nd 2019 flight:

SPACEedu: Help your school fund, build, fly and reuse CubeSat projects for their S.T.E.M. research programs. Having already flown for many schools Exos is literally taking education to a higher level. P1. Arete’ Greater Nanticoke Area Trojans (space thermal energy transfer experiment).

SPACEbuild: Test or manufacture in space aboard an Exos vehicle for premium exposure to space flight conditions. The reduced cost of suborbital flights makes it a preferred risk mitigation step for qualifying orbital payloads. P2. NASA (Vibration Damper – TRL advancement), P3. University of Central Florida (Dust Aggregation experiment – SPACE-2 NASA REDDI Payload), P4. Agronautics, LLC (Space hops & grain), P5. SOLGW (memorabilia) P7 Purdue University (PREFER) Space and Payload Atmospheric recording system.

SPACEaid: Perform breakthrough medical research by leveraging the ability to test in the microgravity and vacuum of space. With Exos we can return your payload within minutes of landing. Our soft (5G) launch and fin stabilization means a gentle ride for your payload requiring less effort in payload design over other commercial launch options. P6. Center for Applied Space Technologies (Sponsoring Mayo Clinic for two “BRIC66” payloads performing cell research)

Flight Summary

The payloads were loaded and the vehicle took to the air in the first half of the two hour and forty minute launch window. The three primary upgrades implemented since the Pathfinder 1 flight were validated in flight, dramatically improving the SARGE systems capabilities. The flight aborted early (at about 65,000 feet) having reached the max IIP limit, further proving the autonomous control system capability. While this flight liftoff was dramatically better than the Pathfinder flight, the gimbal control tuning will be the primary targeted opportunity before the next flight. The reusable vehicle deployed its drogue on cue, and started its descent back to earth. Just as SARGE came through the clouds the canopy deployed to start its flight back to the landing zone. The vehicle fought the elevated grounds winds to land well within the 7km safety circle and set down about 1.2km due east of its launch point. Since SARGE did not make its 80km target altitude, but given the soft landing, Exos will return the payloads to their customers for analysis and upgrade before re-flight.

“This was a great test. Any flight where Exos and its payload customers can walk away with another set of data and an intact vehicle/payload makes for a “good day”. This flight builds on the evolution of reusable capabilities that will ultimately drive costs down for access to space” said John Quinn Exos COO.

What’s next for Exos Aerospace?

Shift to commercial operations– “We look forward to supporting space research, manufacturing, and educational opportunity for the world by providing frequent suborbital flights that provide fast and affordable access to space. Since the 36-foot tall 20-inch diameter SARGE rocket has now officially demonstrated its reusable capability, it is proving to be an excellent risk mitigation platform and template for evolving our orbital technology development program. The software and technology we have developed is key to design of the reusable first stage of our planned Jaguar LEO vehicle”.

Focus on STEM Education- Exos has a vision for taking our National Science Fair to space. With the capability to host up to fifty 1U payloads per flight we have a goal to take each states winning Science Fair CubeSat to space and then return the experiments back to the winning schools. Exos plans to apply to the NASA REDDI program to fund the inaugural “National Science Fair” flight.

“We are extremely happy for Exos Aerospace in their recent success and we congratulate them as a privately funded commercial space company and its growth into New Mexico as these tests bring them closer to routine and regular launches of its SARGE vehicle,” said Daniel Hicks, Spaceport America CEO.

About Exos Aerospace Systems & Technologies

Exos Aerospace is a leading developer of reusable space launch vehicles based in Greenville, Texas. Exos provides affordable, repeatable, and reliable commercial spaceflight with accelerated turnaround.

About Spaceport America

Spaceport America is the first purpose-built commercial spaceport in the world. The FAA-licensed launch complex, situated on 18,000 acres adjacent to the U.S. Army White Sands Missile Range in southern New Mexico, has a rocket friendly environment of 6,000 square miles of restricted airspace, low population density, a 12,000-foot spaceway, and 340 days of sunshine and low humidity. Some of the most respected companies in the commercial space industry are customers at Spaceport America: Virgin Galactic, United Launch Alliance, Boeing, UP Aerospace, EnergeticX and Exos Aerospace.