TSAT will provide thousands of military users with wideband, highly mobile, beyond line-of-sight protected communications to support network-centric operations for the future battlefield.

Developed by Lockheed Martin and Aerojet, the Hall Current propulsion technology provides significantly improved fuel efficiency over conventional chemical propulsion systems. The Hall Current Thruster system will be used for both orbit transfer, as well as on-orbit station keeping.

Aerojet has over 30 years of experience developing and supplying the electric propulsion needs for critical military, civil and commercial satellites.

"We are extremely pleased with the performance of our next-generation TSAT thruster system," said Mark Pasquale, Lockheed Martin's TSAT vice president.

"Successful demonstration and validation of thruster capability during the risk reduction and system definition phase is a key achievement for the entire team and represents another major milestone for this critical national program."

Leveraging the highly-successful 4.5 kW Hall Current Thruster System for the Advanced Extremely High Frequency (AEHF) program, the TSAT-developed HPHCT yields a greater dry mass to orbit capability enabling the Lockheed Martin/Northrop Grumman TSAT Team to provide a low risk cost effective solution that accommodates the demanding mission requirements for the TSAT program.

TSAT represents the next step toward transitioning the Department of Defense protected communications satellite architecture into a single network comprising multiple satellite, ground, and user segment components.

The system ultimately will replace the Milstar and AEHF programs and provide the Global Information Grid network extension to mobile warfighters, sensors, weapons, and command, control, and communications nodes located on unmanned aerial vehicles, piloted aircraft, on the ground, in the air, at sea or in space.

The Lockheed Martin / Northrop Grumman TSAT space segment team, which includes Juniper Networks, Inc., Sunnyvale, Calif., ViaSat, Carlsbad, Calif., and Lockheed Martin Information Systems and Global Services, Gaithesburg, Md. is currently working under a contract for the Risk Reduction and System Definition phase.

This effort will culminate with a multi-billion dollar development contract to be awarded to a single contractor in late 2008.

The Military Satellite Communications Systems Wing, located at the Space and Missile Systems Center, Los Angeles Air Force Base, Calif., is the TSAT contract manager and lead agency for ensuring the capabilities of this system are made available to the warfighter.

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