SBIRS HEO-3 Is On Orbit
By Alicia Garges
/ Published May 11, 2015
LOS ANGELES AIR FORCE BASE, Calif. -- The Air Force has successfully completed the on-orbit checkout of the third Space Based Infrared System sensor operating in a highly elliptical orbit (HEO-3) over the northern hemisphere.
HEO-3 was launched in 2014 on a host satellite. HEO-3 is the first major delivery from the SBIRS Follow-on Production contract, which also includes the third and fourth SBIRS geostationary satellites and the fourth HEO payload.
"This truly was a monumental effort by our Contractor, Government, and Aerospace team. I am extremely proud of the hard work and perseverance of the launch team, the operations team and the countless other professionals whose dedication to the warfighter made this success possible," said Lt. Gen. Samuel Greaves, Space and Missile Systems Center commander and Air Force program executive officer for space. "With the successful on-orbit checkout of this payload, SMC has once again delivered on our commitment to the warfighter. This sensor is a critical component of the on-orbit constellation of missile warning sensors, and enhances the combined constellations of Defense Support Program and SBIRS satellites."
The SBIRS program is managed by the Remote Sensing Systems Directorate at the Space and Missile Systems Center. Lockheed Martin Space Systems Company, Sunnyvale, Calif., is the SBIRS prime contractor, and Northrop Grumman Electronic Systems, Azusa, Calif., is the payload integrator. The 460th Space Wing at Buckley AFB in Aurora, Colo., operates the SBIRS system. The SBIRS program delivers timely, reliable and accurate missile warning and infrared surveillance information to the President of the United States, the Secretary of Defense, Combatant Commanders, the intelligence community and other key decision makers. The system enhances global missile launch detection capability, supports the nation's ballistic missile defense system, expands the country's technical intelligence gathering capacity and bolsters situational awareness for warfighters on the battlefield.