L-3 to provide laser rangefinders for Navy Multi-Spectral Targeting System (MTS)

Oct. 30, 2017
CRANE, Ind. – U.S. Navy airborne surveillance experts needed eye-safe laser rangefinders for the electro-optical Navy Raytheon Multi-Spectral Targeting System (MTS) They found their solution from the L-3 Technologies Advanced Laser Systems Technology (ALST) segment in Orlando, Fla.
CRANE, Ind. – U.S. Navy airborne surveillance experts needed eye-safe laser rangefinders for the electro-optical Navy Raytheon Multi-Spectral Targeting System (MTS). They found their solution from the L-3 Technologies Advanced Laser Systems Technology (ALST) segment in Orlando, Fla.

Officials of the Naval Surface Warfare Center Crane Division in Crane, Ind., have announced a $5.1 million five-year sole-source contract to L-3 ALST to supply and repair eye-safe laser range finders in support of the Raytheon MTS. The value of the upcoming contract has yet to be negotiated.

The Raytheon MST family consists of AN/AAS-44C, AN/AAS-52B, AN/DAS-1A, AN/DAS-4, AN/AAS-53, AN/ZSQ-2, MTS-C, and future derivatives. These systems provide intelligence, surveillance, and reconnaissance (ISR), detection, identification, and targeting capability in day and nighttime operations on manned and unmanned aircraft.

The L-3 laser rangefinders are key elements of the MTS, and have been integrated and qualified as part of this system. L-3 ALST is the only responsible source of laser rangefinders for the MTS, Navy officials say.

Related: Army awards $208.5 million contract to UTC Aerospace for helicopter laser threat warning

Navy experts have purchased laser rangefinders for the MTS for more than 15 years, and have deployed more than 500 systems aboard manned and unmanned aircraft. Buying laser rangefinders and repair services from any other source would be too expensive and time-consuming, Navy officials say. Raytheon builds the MTS at the company's Space and Airborne Systems segment in McKinney, Texas.

Among the Navy aircraft hosting the MTS are the Navy Special Projects Aircraft (SPA) -- a secretive version of the P-3 maritime patrol four-engine turboprop outfitted for sensitive surveillance missions. This aircraft uses the MTS-C, which provides high-altitude target acquisition, tracking, range-finding, and laser designation, and can provide guidance for all tri-service and NATO laser-guided munitions.

The MTS-C includes a long-wave infrared detector, which is suitable for tracking cold bodies such as missiles and warheads after boost phase, as well as or plumes and exhaust of missiles and rockets during boost phase.

The Raytheon MTS family also is aboard the C-130 utility turboprop, SH-60 helicopters, Predator drones, and several other aircraft types. The MTS has an electro-optical and infrared full-motion video camera system that permits long-range surveillance and high-altitude acquisition, tracking and laser designation.

Related: Lockheed Martin to upgrade laser targeting for AH-64E Apache attack helicopter

The Raytheon MTS family of turreted sensors can be fitted with multiple wavelength sensors, near-infrared and color TV cameras, illuminators, eyesafe rangefinders, image merging, spot trackers, and other avionics.

The multi-use system offers surveillance, target acquisition, tracking, rangefinding, and laser designation for the Hellfire missile and for all tri-service and NATO laser-guided munitions such as the Paveway Laser Guided Bomb.

This contract also will involve the L-3 Insight Technology segment in Londonderry, N.H. For more information contact L-3 ALST online at www2.l3t.com/alst, L-3 Insight at www.insighttechnology.com, or Naval Surface Warfare Center-Crane at www.navsea.navy.mil/Home/Warfare-Centers/NSWC-Crane.

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John Keller | Editor-in-Chief

John Keller is the Editor-in-Chief, Military & Aerospace Electronics Magazine--provides extensive coverage and analysis of enabling electronics and optoelectronic technologies in military, space and commercial aviation applications. John has been a member of the Military & Aerospace Electronics staff since 1989 and chief editor since 1995.

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