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TheAN/AWG-9 andAN/APG-71 radars are all-weather, multi-modeX bandpulse-Doppler radar systems used in theF-14 Tomcat, and also tested onTA-3B.[1] It is a long-range air-to-air system capable of guiding severalAIM-54 Phoenix orAIM-120 AMRAAM missiles simultaneously, using itstrack while scan mode. The AWG-9 utilizes ananalog computer while the APG-71 is an upgraded variant utilizing adigital computer. Both the AWG-9 and APG-71 were designed and manufactured byHughes Aircraft Company's Radar Systems Group inLos Angeles; contractor support was later assumed byRaytheon. The AWG-9 was originally created for the canceled NavyF-111B program.[2]
The AN/AWG-9 offers multiple air-to-air modes: long-rangecontinuous-wave radar velocity search, range-while-search at shorter ranges, and an airborne track-while-scan mode with the ability to track up to 24 airborne targets, display 18 of them on the cockpit displays, and launch against 6 of them at the same time. This function was originally designed to allow the Tomcat to shoot down formations of bombers at long range.
The AWG-9 was the result of a series ofUnited States Navy programs to build what was known as a "fleet-defense fighter": an aircraft armed with extremely long-range radars and missiles that would be able to engage formations of enemy aircraft well-away fromaircraft carriers. Their first attempt was theF6D Missileer, which combinedWestinghouse'sAN/APQ-81 pulse doppler radar with theBendixAAM-N-10 Eagle missile. The Missileer was a relatively simple aircraft, and when planners expressed doubts about its ability to survive after firing its missiles, the Missileer was canceled and the Navy started looking for higher-performance alternatives.
At the same time, theU.S. Air Force had been working on a similar long-range interceptor project of their own, theXF-108 Rapier. The Rapier had much better performance than the Missileer, although itsAIM-47 Falcon andAN/ASG-18 radar, both from Hughes, were somewhat less advanced than their Navy counterparts. The entire system was also very expensive, and the Rapier was canceled, replaced by the hopefully less-expensiveLockheed YF-12 adapted from theLockheed A-12 spy plane. This project was also canceled as the strategic threat moved from bombers toICBMs.
The same was not true for the Navy, where the threat remained manned aircraft and earlyanti-ship missiles. Hughes suggested that the AN/ASG-18 and AIM-47 could be adapted for the Navy in slightly modified form, adding additional tracking capability while reducing the size of the radar antenna to a size more suitable for carrier aircraft. The result was the AN/AWG-9 radar and Phoenix missile.
All that was needed was a suitable airframe, which led to the Navy's involvement in theF-111B program. Although the radar and missile systems started to mature (after the better part of a decade at this point) the F-111B proved to be considerably overweight and had marginal performance, especially in engine-out situations. At the same time, real-world combat overVietnam was proving that the idea of the all-missile fighter was simply not viable, and any fighter design would have to be able todogfight with guns, which the F-111 was simply not suited to. This should not be surprising given the F-111's genesis as atactical bomber andinterdictor.
After many years in development and arguing with Congress, the Navy finally started development of a new aircraft specifically tailored to their needs. The new aircraft emerged as the F-14, armed with the same AWG-9/AIM-54 outfit originally intended for the F-111B. On the F-14, the AWG-9 is capable, and its doppler system allows it to have look-down, shoot-down capabilities.[3]
Hughes delivered enough AWG-9 systems and spares to equip approximately 600 F-14A/B aircraft for the Navy, and an additional 80 aircraft for theIranian Air Force. All of the Navy systems have been retired; some of Iranian systems are still in service.
The APG-71 was a 1980s upgrade of the AWG-9 for use on theF-14D Tomcat. It incorporates technology and common modules developed for theAPG-70 radar used in theF-15E Strike Eagle, providing significant improvements in (digital) processing speed, mode flexibility, clutter rejection, and detection range. The system features a low-sidelobe antenna, a sidelobe-blanking guard channel, and monopulse angle tracking; all of which are intended to make the radar less vulnerable to jamming.
The system itself is capable of a 460-mile (740 km) range, but the antenna design limits this to only 230 miles (370 km). Use ofdatalinked radar data allows two or more F-14Ds to operate the system at its maximum range.
Hughes delivered enough APG-71 radars and spares to equip all 55 F-14Ds produced or converted before the F-14D program was scaled back as a cost-cutting measure and eventually canceled. The F-14 was officially retired from United States Navy service on September 22, 2006, with the last flight occurring October 4, 2006.
