TSAT High-Data-Rate Laser Communications System Achieves Test Milestone

Redondo Beach, CA -- With the successful completion of a preliminary compatibility test, the Lockheed Martin/Northrop Grumman Corporation Transformational Satellite Communications System (TSAT) space segment team has built and tested high-data-rate laser communications hardware that meets a newly defined U.S. government lasercom interoperability standard. Lasercom is a key technology to be used in the U.S. Air Force's TSAT program that will deliver improved communications abilities to a wide variety of users.

The first test, OSVS-1, of the lasercom terminal hardware, built by the Northrop Grumman Space Technology sector, was conducted from early November to mid-December 2005 against the Optical Systems Validation Suite (OSVS) testbed at Massachusetts Institute of Technology's Lincoln Laboratory. The second phase of testing, OSVS-2, is scheduled to be completed by February 2007.

The test measured the quality of communication between the Northrop Grumman lasercom terminal and the government terminal (OSVS) testbed, including the ability to point, acquire and track another lasercom terminal and to maintain that tracking in the presence of spacecraft jitter (shaking). Test results proved the hardware can perform at data rates of 10 and 40 gigabits per second and is at a level of maturity consistent with objectives for OSVS-1. Instead of radio frequencies, laser terminals communicate by sending modulated beams of light and are smaller and more cost effective for high-data-rate systems needed for the increasing bandwidth demands of U.S. warfighters.

"Successfully completing this test on schedule represents an important milestone in retiring risk for lasercom technology that will be deployed in operational systems," noted Stuart Linsky, Northrop Grumman vice president, Satellite Communications.

The test demonstrated a single-access optical aperture, which is the front end of a communications terminal that uses a laser to transmit and receive information. The beam width of a lasercom terminal is extremely small, requiring precision pointing, scanning and tracking performance to lock on to and communicate with another terminal. The terminal is designed to maintain tracking when mounted on a spacecraft. The optical aperture uses mechanized mirrors to point toward and track the other terminal. Northrop Grumman's partner, SSG Precision Optronics, Wilmington, Mass., manufactured the telescope used in the test.

The U.S. Air Force identified laser communications as a risk technology needed for TSAT, which will provide high-bandwidth, Internet protocol-based satellite communications to the future warfighter.

"Working closely with our customer, our team has successfully demonstrated our technological readiness essential for achieving mission success on TSAT," said Rick Skinner, vice president, Transformational Communications for Lockheed Martin. "We look forward to working with the Air Force to provide a cutting-edge system that will meet the vital communications needs and requirements of the warfighter."

The Lockheed Martin / Northrop Grumman TSAT space segment team, which includes ViaSat, Rockwell Collins, General Dynamics Advanced Information Systems, L-3 Communications, Stratogis and Caspian Networks, is currently working under a $514 million contract for the Risk Reduction and System

SOURCE: Northrop Grumman Corporation