The International Telecommunication Union uses an internationally agreed system for classifying radio frequency signals. Each type of radio emission is classified according to its bandwidth, method of modulation, nature of the modulating signal, and type of information transmitted on the carrier signal. It is based on characteristics of the signal, not on the transmitter used.
An emission designation is of the form BBBB 123 45, where BBBB is the bandwidth of the signal, 1 is a letter indicating the type of modulation used of the main carrier (not including any subcarriers which is why FM stereo is F8E and not D8E), 2 is a digit representing the type of modulating signal again of the main carrier, 3 is a letter corresponding to the type of information transmitted, 4 is a letter indicating the practical details of the transmitted information, and 5 is a letter that represents the method of multiplexing. The 4 and 5 fields are optional.
This designation system was agreed at the 1979 World Administrative Radio Conference (WARC 79), and gave rise to the Radio Regulations that came into force on 1 January 1982. A similar designation system had been in use under prior Radio Regulations.
Bandwidth
The bandwidth (BBBB above) is expressed as four characters: three digits and one letter. The letter occupies the position normally used for a decimal point, and indicates what unit of frequency is used to express the bandwidth. The letter H indicates Hertz, K indicates kiloHertz, M indicates megaHertz, and G indicates gigaHertz. For instance, "500H" means 500 Hz, and "2M50" means 2.5 MHz. The first character must be a digit between 1 and 9; it may not be the digit 0 or a letter.
Types 4 and 5 were removed from use with the 1982 Radio Regulations. In previous editions, they had indicated facsimile and video, respectively.
A3E or A3E G Ordinary
amplitude modulation used for
low frequency and
medium frequency AM broadcastingF8E, F8E H FM broadcasting for radio transmissions on VHF, and as the audio component of analogue
television transmissions. Since there are generally pilot tones (subcarriers) for stereo and RDS the designator '8' is used, to indicate multiple signals.
C3F, C3F N Analogue
PAL, SÉCAM, or
NTSC television video signals (formerly type
A5C, until 1982)
C7W ATSC
digital television, commonly on VHF or UHF
G7W DVB-T, ISDB-T, or DTMB
digital television, commonly on VHF or UHF
A3E AM speech communication – used for aeronautical communications
F3E FM speech communication – often used for
marine radio and many other VHF communications
20K0 F3E Wide FM, 20.0 kHz width, ±5 kHz deviation, still widely used for Ham Radio, NOAA
weather radio, marine, and aviation users [1]
11K2 F3E Narrow FM, 11.25 kHz bandwidth, ±2.5 kHz deviation – All Part 90
Land Mobile Radio Service (LMRS) users were required to upgrade to narrowband equipment by 2013-01-01. [2] [3] [4]
6K00 F3E Even Narrower FM, future roadmap for
Land Mobile Radio Service (LMRS), already required on 700 MHz public safety band
J3E SSB speech communication, used on HF bands by marine, aeronautical and amateur users
R3E SSB with
reduced carrier (AME) speech communication, primarily used on HF bands by the military (a.k.a.
compatible sideband)
N0N Continuous, unmodulated carrier, formerly common for radio direction finding (RDF) in marine and aeronautical navigation.
A1A Signalling by keying the carrier directly, a.k.a. Continuous Wave (CW) or On-Off Keying (OOK), currently used in
amateur radio. This is often but not necessarily
Morse code.
A2A Signalling by transmitting a modulated tone with a carrier, so that it can easily be heard using an ordinary AM receiver. It was formerly widely used for station identification of
non-directional beacons, usually but not exclusively
Morse code (an example of a modulated
continuous wave, as opposed to
A1A, above).
F1B Frequency-shift keying (FSK) telegraphy, such as RTTY.
F1C High frequency
RadiofaxF2D Data transmission by frequency modulation of a radio frequency carrier with an audio frequency FSK subcarrier. Often called AFSK/FM.
J2B Phase-shift keying such as
PSK31 (BPSK31)
There is some overlap in signal types, so a transmission might legitimately be described by two or more designators. In such cases, there is usually a preferred conventional designator.
