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An equipment code describes the communication (COM), navigation (NAV), approach aids and surveillance
transponder In telecommunications, a transponder is a device that, upon receiving a signal, emits a different signal in response. The term is a blend of ''transmitter'' and ''responder''. In air navigation or radio frequency identification, a flight trans ...
equipment on board an
aircraft An aircraft ( aircraft) is a vehicle that is able to flight, fly by gaining support from the Atmosphere of Earth, air. It counters the force of gravity by using either Buoyancy, static lift or the Lift (force), dynamic lift of an airfoil, or, i ...
. These alphabetic codes are used on FAA and
ICAO The International Civil Aviation Organization (ICAO ) is a specialized agency of the United Nations that coordinates the principles and techniques of international air navigation, and fosters the planning and development of international sch ...
flight plan forms to aid flight service station (FSS) personnel in their handling of aircraft. On the FAA domestic flight plan form (FAA Form 7233-1) the equipment code is a single character placed in block 3 (Aircraft Type / Special Equipment) as a suffix to the aircraft type code. A single letter is used to represent a radio navigational capability and transponder combination. On the
ICAO The International Civil Aviation Organization (ICAO ) is a specialized agency of the United Nations that coordinates the principles and techniques of international air navigation, and fosters the planning and development of international sch ...
flight plan form (e.g. FAA Form 7233-4 based on the format specified by ICAO Doc 4444) one or more alphabetic codes are placed in box 10. Multiple letters are used to describe individual radio navigational capabilities and a single letter is used to designate the transponder. The FAA began requiring the ICAO format form for domestic flights desiring RNAV routes on 29 July 2008. The ICAO format has already been in use for all domestic flight plans in Canada, Mexico and many other countries for a number of years. Regardless of the form used,
air traffic controller An Air traffic controller (ATC) is a person responsible for the coordination of traffic in their assigned airspace. Typically stationed in area control centers or control towers, they monitor the position, speed, and altitude of aircraft and c ...
s (ATC) issue clearances based on filed equipment codes, therefore it is important for pilots to use the appropriate coding. For example, if a desired route requires GPS, then the pilot should file /G, even if the aircraft also qualifies for other suffixes (this may be moot due to new RNAV routing requirements to use the ICAO form & codes). Pilots are recommended to file the maximum capability of their aircraft in the equipment suffix. To see the differences in the coding systems, consider a VFR aircraft with a VHF communication radio, VOR receiver with glideslope for ILS approaches, ADF, a GPS and a pressure altitude reporting transponder. It would be coded as SG/C on an ICAO form and as /G on the FAA domestic form. Add a DME to the panel and the ICAO code becomes SDG/C while the FAA code remains /G. Then, if the ADF stops receiving the ICAO code becomes DGLOV/C while the FAA code remains /G. More letters with the ICAO format mean more information about the aircraft's radio navigation capability is available to the ATS controller than with the older FAA coding system.


List of ICAO Codes (As of 15 November 2012)

Source:ICAO 2012 Change Summary
/ref>ICAO Equipment Code Explanations
(FAA)


Radio communication, navigation and approach aid equipment and capabilities

* A GBAS landing system * B LPV (APV with SBAS) * C
LORAN LORAN (Long Range Navigation) was a hyperbolic navigation, hyperbolic radio navigation system developed in the United States during World War II. It was similar to the UK's Gee (navigation), Gee system but operated at lower frequencies in order ...
C * D DME * E1 FMC WPR ACARS * E2 D-FIS ACARS * E3 PDC ACARS * F ADF * G
GNSS A satellite navigation or satnav system is a system that uses satellites to provide autonomous geopositioning. A satellite navigation system with global coverage is termed global navigation satellite system (GNSS). , four global systems are op ...
(If the letter G is used, the types of external GNSS augmentation, if any, are specified in Item 18 following the indicator NAV/ and separated by a space.) * H HF RTF ( HF RadioTelephone) * I INS * J1 CPDLC ATN VDL Mode 2 * J2 CPDLC FANS 1/A HFDL * J3 CPDLC FANS 1/A VDL Mode A/0 * J4 CPDLC FANS 1/A VDL Mode 2 * J5 CPDLC FANS 1/A SATCOM (
INMARSAT Inmarsat is a British communications satellite, satellite telecommunications company, offering global mobile services. It provides telephone and data services to users worldwide, via portable or mobile terminals which communicate with groun ...
) * J6 CPDLC FANS 1/A SATCOM (
MTSAT Multifunctional Transport Satellites (MTSAT) were a series of weather and aviation control satellites. They were replaced by Himawari 8 on 7 July 2015. They were geostationary satellites owned and operated by the Japanese Ministry of Land, ...
) * J7 CPDLC FANS 1/A SATCOM (
Iridium Iridium is a chemical element; it has the symbol Ir and atomic number 77. This very hard, brittle, silvery-white transition metal of the platinum group, is considered the second-densest naturally occurring metal (after osmium) with a density ...
) * K
MLS Major League Soccer (MLS) is a professional soccer league in North America and the highest level of the United States soccer league system. It comprises 30 teams, with 27 in the United States and 3 in Canada, and is sanctioned by the United ...
* L ILS * M1 ATC RTF SATCOM (INMARSAT) * M2 ATC RTF (MTSAT) * M3 ATC RTF (Iridium) * N No COM/NAV equipment for the route carried or is unserviceable. * O VOR * P1-P9 Reserved for RCP * Q (Not allocated) * R PBN approved (If the letter R is used, the performance based navigation levels that can be met are specified in Item 18 following the indicator PBN/.) * S Standard Equipment composed of VHF RTF, VOR and ILS, unless another combination is prescribed by the appropriate ATS authority. * T
TACAN A tactical air navigation system, commonly referred to by the acronym TACAN, is a navigation system initially designed for naval aircraft to acquire moving landing platforms (i.e., ships) and later expanded for use by other military aircraft. It p ...
* U
UHF Ultra high frequency (UHF) is the ITU designation for radio frequencies in the range between 300 megahertz (MHz) and 3 gigahertz (GHz), also known as the decimetre band as the wavelengths range from one meter to one tenth of a meter ...
RTF * V VHF RTF * W RVSM approved * X MNPS approved * Y Indicates 8.33 kHz radio band spacing (a standard requirement) * Z Other equipment carried or other capabilities


Surveillance equipment codes


SSR (secondary surveillance radar)

* N No surveillance equipment for the route to be flown is carried, or the equipment is unserviceable * A
Transponder In telecommunications, a transponder is a device that, upon receiving a signal, emits a different signal in response. The term is a blend of ''transmitter'' and ''responder''. In air navigation or radio frequency identification, a flight trans ...
Mode A (4 digits – 4,096 codes) * C Transponder – Mode A (4 digits – 4,096 codes) and Mode C * E Transponder — Mode S, including aircraft identification, pressure-altitude and extended squitter ( ADS-B) capability * H Transponder — Mode S, including aircraft identification, pressure-altitude and enhanced surveillance capability * I Transponder — Mode S, including aircraft identification, but no pressure-altitude capability * L Transponder — Mode S, including aircraft identification, pressure-altitude, extended squitter ( ADS-B) and enhanced surveillance capability * P Transponder — Mode S, including pressure-altitude, but no aircraft identification capability * S Transponder — Mode S, including both pressure altitude and aircraft identification capability * X Transponder — Mode S with neither aircraft identification nor pressure-altitude capability


ADS-B

* B1 ADS-B with dedicated 1090 MHz ADS-B “out” capability * B2 ADS-B with dedicated 1090 MHz ADS-B “out” and “in” capability * U1 ADS-B “out” capability using UAT * U2 ADS-B “out” and “in” capability using UAT * V1 ADS-B “out” capability using VDL Mode 4 * V2 ADS-B “out” and “in” capability using VDL Mode 4


ADS-C

* D1 ADS-C with FANS 1/A capabilities * G1 ADS-C with ATN capabilities


List of FAA aircraft equipment codes for US domestic flights

Source: These codes are being phased out now as FAA adopted the ICAO equipment code system.


No DME

* /X No transponder * /T Transponder with no Mode C * /U Transponder with Mode C


DME

* /D No transponder * /B Transponder with no Mode C * /A Transponder with Mode C


TACAN A tactical air navigation system, commonly referred to by the acronym TACAN, is a navigation system initially designed for naval aircraft to acquire moving landing platforms (i.e., ships) and later expanded for use by other military aircraft. It p ...
only

* /M No transponder * /N Transponder with no Mode C * /P Transponder with Mode C


Basic RNAV

* /Y LORAN, VOR/DME, or INS with no transponder * /C LORAN, VOR/DME, or INS, transponder with no Mode C * /I LORAN, VOR/DME, or INS, transponder with Mode C * /Z RVSM + /I capability


Advanced RNAV

* /V RNAV capability with GNSS and no transponder * /S RNAV capability with GNSS and transponder without Mode C * /G RNAV capability with GNSS and Mode C transponder * /W RVSM with DME and Mode C transponder * /L RVSM + /G capability


Miscellaneous

* /H Any navigation capability with failed transponder * /O Any navigation capability with failed transponder Mode C


References

{{DEFAULTSORT:Equipment Codes Air traffic control