Sakor Technologies selected to build test system for Dream Chaser atmospheric flight control system


Sakor Technologies, a provider of instrumentation products for dynamometer testing, has announced it has supplied a test system to Southwest Research Institute (SwRI) to test the atmospheric flight control system for the Dream Chaser spacecraft, which is a lifting-body, reusable, crewed or uncrewed horizontal-landing vehicle that is owned and operated by Sierra Nevada Corporation (SNC) and designed as a space utility vehicle for low-Earth orbit.

SwRI, headquartered in San Antonio, Texas, USA, is one of the oldest and largest independent, non-profit, applied research and development organizations in the United States. Contracted by SNC to design and build the atmospheric flight control system, SwRI selected Sakor to build a sophisticated system to exercise Dream Chaser’s new control system and to simulate flight from atmospheric interface to landing. The system characterizes overall design performance as well as dynamic response to physical forces typically experienced in standard and extreme flight conditions.

The Dream Chaser spacecraft features seven control surfaces and the Sakor –designed test system features seven dynamometers, each simulating dynamic loads on a specific control surface.

Sakor’s DynoLab data acquisition and control system controls the entire test stand, acting as a space craft emulator. Sending test profiles to the atmospheric flight controller as well as simulating force feedback from each control surface, DynoLab communicates directly with the atmospheric flight control system via MIL-STD-1553B bus, which is a built-in capability of the DynoLab system.

“We are extremely proud to have been selected for this project, which is so critical to our nation’s next-generation space capabilities,” said Randal Beattie, president, SAKOR.

“We are confident that the system will push the design envelope to ensure the atmospheric control system can handle anything it may have thrown at it.”

May 19, 2015

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