Marines make transition from gallium arsenide to gallium nitride in air-defense radar

Aug. 26, 2015
QUANTICO, Va., 26 Aug. 2015. Systems designers at Northrop Grumman Corp. are inserting new electronic technology into a new U.S. Marine Corps air-defense radar to make the system more effective in detecting rockets, artillery, mortars, cruise missiles, unmanned aerial vehicles (UAVs), and other low observables.

QUANTICO, Va., 26 Aug. 2015. Systems designers at Northrop Grumman Corp. are inserting new electronic technology into a new U.S. Marine Corps air-defense radar to make the system more effective in detecting rockets, artillery, mortars, cruise missiles, unmanned aerial vehicles (UAVs), and other low observables.

Officials of the Marine Corps Systems Command at Quantico Marine Base, Va., announced a $9.2 million contract modification Tuesday to the Northrop Grumman Electronic Systems segment in Linthicum Heights, Md., to insert gallium nitride components into the Ground/Air Task-Oriented Radar (G/ATOR).

The contract modification calls for Northrop Grumman experts to switch from gallium arsenide to gallium nitride-based electronics to help reduce costs of the expensive G/ATOR system, as well as to enhance its performance and reduce its weight and power consumption. The contract modification incorporates phase II of the gallium nitride transition of the G/ATOR low-rate initial production (LRIP) systems, Marine Corps officials say.

G/ATOR is an expeditionary, three-dimensional, short-to-medium-range multi-role radar system designed to detect low-observable targets with low radar cross sections such as rockets, artillery, mortars, cruise missiles, and UAVs.

Related: Latest order for Marine Corps G/ATOR radar systems brings total number of radars to six

Substituting gallium nitride electronic components for older gallium arsenide technology will help Northrop Grumman and the Marine Corps reduce the mass of the G/ATOR system without compromising its performance, officials say.

Reducing size, weight, and power consumption especially is important for the G/ATOR system because Marine Corps leaders plan to use the system on attack beaches to help defend Marine expeditionary forces from low-observable threats. The system must be sufficiently small and lightweight to accompany Marines in their initial land attacks.

On this contract modification Northrop Grumman will do the work in Linthicum Heights, Md., and should be finished by the end of 2016. For more information contact Northrop Grumman Electronic Systems online at www.northropgrumman.com, or Marine Corps Systems Command at http://www.marcorsyscom.marines.mil/.

About the Author

John Keller | Editor

John Keller is editor-in-chief of Military & Aerospace Electronics magazine, which provides extensive coverage and analysis of enabling electronic and optoelectronic technologies in military, space, and commercial aviation applications. A member of the Military & Aerospace Electronics staff since the magazine's founding in 1989, Mr. Keller took over as chief editor in 1995.

Voice your opinion!

To join the conversation, and become an exclusive member of Military Aerospace, create an account today!