An Apq-180

The AN/APG-63 and AN/APG-70 are a family of all-weather multimode radar systems designed by Hughes Aircraft (now Raytheon) for the F-15 Eagle air superiority fighter. These X-band pulse-doppler radar systems are designed for both air-air and air-ground missions; they are able to look up at high-flying targets and down at low-flying targets without being confused by ground clutter. The systems can detect and track aircraft and small high-speed targets at distances beyond visual range down to close range, and at altitudes down to treetop level. The radar feeds target information into the aircraft's central computer for effective weapons delivery. For close-in dogfights, the radar automatically acquires enemy aircraft and projects this information onto the cockpit heads-up display.


The APG-63 was developed in the early 1970s and has been operational since 1973, and was installed on all F-15A/Bs.[1] In 1979, it received a major upgrade and became the first airborne radar to incorporate a software programmable signal processor (PSP), and the PSP allowed the system to be modified to accommodate new modes and weapons through software reprogramming rather than by hardware retrofit. The APG-63 with PSP is one of the most important feature that distinguishes earlier F-15 A/Bs from the F-15 C/Ds fitted with PSP, and with the exception of the final 43 (which are equipped with APG-70), all F-15 C/Ds are equipped with APG-63 with PSP.

The APG-63 series is no longer in production but remains in service. Almost 1,000 APG-63s had been delivered when production ended in 1986. About 700 are still operational in F-15As, Bs, and early model Cs and Ds operated by the U.S. Air Force, Air National Guard, and the air forces of Israel, Japan, and Saudi Arabia. They are also fitted to the Lockheed P-3 Orion aircraft of U.S. Customs and Border Protection's Office of Air and Marine.


The APG-63(V)1 radar is a 1990s reliability/maintainability hardware redesign which also provided significant mode growth opportunities.[1] It was designed to replace outmoded APG-63 radars installed in F-15C/D aircraft models, providing improved performance and a tenfold increase in reliability. The new radar is able to track 14 targets simultaneously while being able to simultaneously attack 6 of those. Raytheon delivered 180 APG-63(V)1 radar systems to the U.S. Air Force (4 of which have since been lost to crashes), and is on contract to deliver an additional 40 radars to the Republic of Korea Air Force for the F-15K Slam Eagle.


The APG-63(V)2 Active Electronically Scanned Array (AESA) radar has been retrofitted to 18 U.S. Air Force F-15C aircraft.[1] This upgrade includes most of the new hardware from the APG-63(V)1, but adds an AESA to provide increased pilot situational awareness. The AESA radar has an exceptionally agile beam, providing nearly instantaneous track updates and enhanced multi-target tracking capability. The APG-63(V)2 is compatible with current F-15C weapon loads and enables pilots to take full advantage of the AIM-120 AMRAAM's capabilities, simultaneously initiating guidance for multiple missiles to several targets widely spaced in azimuth, elevation, or range.


The APG-63(V)3 radar is a more modern variant of the APG-63(V)2, applying the same AESA technology utilized in Raytheon's APG-79. The (V)3 is designed for retrofit into F-15C/D and deployed in Singapore's new F-15SG aircraft. Raytheon delivered the first prototype APG-63(V)3 system in June 2006.[2] The company started work on an initial production order in October 2007.[3]


AN/APG-64 is a development of AN/APG-63 and it did not enter service.[4]


The APG-70 was a 1980s redesign of the APG-63 for greater reliability and easier maintenance.[5] Additionally, gate array technology enabled the APG-70 to incorporate new modes with enhanced operational capabilities. To reduce production costs, many of the upgraded radar's modules are common with the F/A-18's APG-73 radar, while the computers / processors share a 85% commonality with that of the F-14's APG-71 radar.

APG-70 systems were originally installed on later model F-15C/D aircraft, but have since been replaced on those aircraft by the APG-63(V)1. As with the basic APG-63, the APG-70 is no longer in production; but it is still in service on the F-15E Strike Eagle, the Israeli F-15I and the Saudi F-15S. Also, as with APG-63, APG-70 also comes in two versions, both have identical air-to-air capabilities, but slightly different air-to-ground capabilities: APG-70 on F-15Is and F-15Ss exported to foreign customers has lower performance in that the resolution of Doppler Beam Sharpening (DBS) / Mapping / Synthetic Aparture Radar (SAR) modes for the APG-70 on F-15E of USAF is at least three times better than that of the APG-70 on F-15I and F-15S.


The AN/APG-82 combines the processor of the APG-79 used on the F/A-18E/F Super Hornet with the antenna of the APG-63(V)3 AESA being fitted on the F-15C.[6] The new radar also includes a new cooling system and Radio Frequency Tunable Filters (RFTF). RFTF is designed to enable the F-15E radar and the electronic warfare hardware (jamming) to operate simultaneously without degrading each other.[7] The new radar is to be used in the F-15E Radar Modernization Program (RMP).[8] In 2009, the proposed APG-63(V)4 radar was designated APG-82.[9]


The APQ-180 is a derivative of the APG-70 radar, designed for installation on the AC-130U gunship aircraft (Rockwell/Boeing modification).[10] It uses a modified gimbaling scheme for the planar array, and an upgraded analog signal processor unit, and incorporates several enhanced (and new) air-to-ground modes.


AN/AWG-20 is the Armament Control System used in conjunction with F-15 radars.[11]


AN/AWG-27 is Programmable Armament Control System developed from earlier AWG-20 for use in conjunction with F-15 radars.[12]

See also


External links

  • Raytheon products website
  • [1]
This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.