The Air Force’s effort to field a brand new tactical drone, known as MQ-X has effectively been cancelled the service’s top intelligence officer said today. Read more here.
A new, reduced-signature, unmanned aircraft-the long-rumored, 20-hr.-endurance, pure-jet Predator C Avenger-has emerged from General Atomics Aeronautical Systems’ workshops after a 3½-year gestation period paced by massive growth in UAV production and the use of unmanned designs in combat.
The UAV’s undeniably stealthed-up exterior offers several clues about how the aircraft could be employed.
A weapons bay allows internal carriage of 500-lb. bombs with GBU-38 JDAM tail kit and laser guidance. Given the aircraft’s 41-ft. length (which will expand by at least 2 ft. in the second test aircraft), the weapons bay appears to be 10 ft. long.
The weapons bay doors can be removed to allow installation of a semi-submerged, wide-area surveillance pod, says Tom Cassidy, president, General Atomics Aeronautical Systems’ Aircraft Systems Group. Cassidy has earned a unique reputation by using company funds to develop what he believes the military needs rather than chasing Pentagon requirements that shift with disheartening regularity to produce cost increases and production delays. The result is a family of Gnat and Predator designs that are used by all the services and intelligence agencies.
The Predator C, like the B-variants, is designed to carry about 3,000 lb. of weapons and sensors. In a non-stealthy environment, weapons could also be attached externally on the fuselage and wings. For an additional 2 hr. of flying time, fuel tanks can be installed in the weapons bay. Normal fuel storage is split 50/50 between the wings and fuselage.
The Avenger’s electrical power is expected, at least initially, to be less than the 45 kva. available on Predator B variants. A long, featureless underside provides a low-distortion design for carriage of a wide-area surveillance sensor such as an all-weather, active electronically scanned array (AESA) radar. The wide-area surveillance system-to be provided by the Air Force-has yet to be defined. However, it would be carried by a specialized all-reconnaissance version of the Avenger. A Lynx SAR is likely carried in the lower part of the nose. Absent from the prototype is the EO/IR sensor turret used by the Predator family. A retractable installation may have been developed.
The vertically-oriented V-tail both deflects radar and shields the 4,800-lb. thrust Pratt & Whitney Canada’s PW545B engine exhaust’s infrared signature. Predator C has two all-flying tail surfaces with two servos each for flight-control redundancy. The humpbacked design of the engine compartment offers room enough for a serpentine exhaust that eliminates radar observation of the engine. Pratt & Whitney has been developing an S-shaped exhaust that offers protection from radar observation and cooling to reduce the IR signature. The engine is expected to provide an airspeed of at least 400 kt., but Cassidy says envelope expansion tests may produce speeds “considerably greater” than that. Its operational altitude is up to 60,000 ft.
The Avenger’s 17-deg. swept wing (66-ft. span) and tail edges are all parallel in plan view with one or the other leading edges. It is the same shaping discipline used on classic stealth designs like the B-22 and B-2. The cranked trailing edge provides the aerodynamic and structural benefits of a tapered wing and helps shield the engine inlet from radar. Canted upper and power body sides meet at a sharp chine line, continuous from nose to tail, thereby avoiding the radar cross-section hot spot caused by a curved side.
The thickness and curvature of the inboard wing are noteworthy, pointing to an effort to achieve laminar flow over as much of the wing as possible. The prototype carries tufts over the left wing/body junction that allow engineers to visualize airflow in that area.
General Atomics Aeronautical’s parent company includes a division that produces materials for controlling radar, optical and infrared signatures. Adjacent to the company’s Rancho Bernardo, Calif., facility are the world’s largest indoor radar cross section testing ranges. Likely challenges would have included building a “bandpass” radome for the satcom antenna above the nose. It must be transparent at the Ku-band used by most airborne satcoms, but opaque at lower frequencies used by fighter and missile radars. Again, that capability mimics the F-22 and F-35.
Source: Aviation Week
Avenger was designed and developed with the intent of making an unmanned aircraft system that was more survivable in higher threat environments and to provide the U.S. Air Force and other potential customers with an expanded quick-response armed reconnaissance capability. The aircraft will have higher operational and transit speeds than current Predator-series aircraft, resulting in fast response and rapid repositioning for improved mission flexibility and survivability. Wide-area surveillance, armed reconnaissance, border surveillance, time-sensitive strike, and quick response capability missions for use against conventional and asymmetric threats (e.g., terrorists, pirates) are among its key missions.
Wingspan: 66 ft (foldable wings)
Fuselage: 41 ft
Altitude: 60,000 ft
Endurance: 20+ hr
Payload: Internal – 800 lb (363 kg)
External – 3,000 lb (1361 kg)
Air Speed: 400 KT (460 MPH)
Predator C Fact Sheet
• USAF says adios to MQ-X “Avenger” February 12, 2012
• Air Force buys an Avenger, its biggest and fastest armed drone – December 31, 2011
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