There are three types of marker beacons that may be installed as part of their most common application—an instrument landing system.
Outer marker The
outer marker, which normally identifies the
final approach fix (FAF), is situated on the same course/track as the
localizer and the
runway center-line, four to seven
nautical miles before the runway threshold. It is typically located about inside the point where the
glideslope intercepts the intermediate altitude and transmits a 400 Hz tone signal on a low-powered (3 watts), 75
MHz carrier signal. Its
antenna is highly directional, and is pointed straight up. The valid signal area is a × ellipse (as measured above the antenna.) When the
aircraft passes over the outer marker antenna, its marker beacon
receiver detects the signal. The system gives the pilot a visual (blinking
blue outer marker light) and aural (continuous series of audio tone
morse code-like 'dashes') indication.
Locator outer marker In the
United States, the outer marker has often been combined with a
non-directional beacon (NDB) to make a
locator outer marker (
LOM). An LOM is a navigation aid used as part of an
instrument landing system (ILS) instrument approach for aircraft. Aircraft can navigate directly to the location using the NDB as well as be alerted when they fly over it by the beacon. The LOM is becoming less important now that
GPS navigation is well established in the aviation community. Some countries, such as
Canada, have abandoned marker beacons completely, replacing the outer marker with a NDB; and, more recently, with GPS fixes. In the U.S., LOMs are identified by two-letter Morse code modulated at 1020 Hz. LOMs use the first two letters of the parent ILS's identification. For example, at
New York's JFK runway 31R the ILS identifier is I-RTH and the LOM ident is RT. If this facility were a locator middle marker (LMM) its identifier would be the last two letters, TH.
Middle marker A
middle marker works on the same principle as an outer marker. It is normally positioned 0.5 to before the runway threshold. When the aircraft is above the middle marker, the receiver's
amber middle marker light starts blinking, and a repeating pattern of audible morse code-like dot-dashes at a frequency of 1,300 Hz in the headset. This alerts the pilots that they are descending through the CAT I decision altitude (typically
above the ground level on the
glideslope) and should have already initiated the
missed approach if one of several visual cues has not been spotted.
Inner marker Similar to the outer and middle markers, an
inner marker located at the beginning (threshold) of the runway on some ILS approach systems (usually Category II and III) having
decision heights of less than AGL. Triggers a flashing white light on the same marker beacon receiver used for the outer and middle markers; also a series of audio tone 'dots' at a frequency of 3,000 Hz in the headset. On some older marker beacon receivers, instead of the "O", "M" and "I" indicators (outer, middle, inner), the indicators are labeled "A" (or FM/Z), "O" and "M" (airway or Fan and Z marker, outer, middle). The airway marker was used to indicate reporting points along the centerline of now obsolete "Red" airways; this was sometimes a "fan" marker, whose radiated pattern was elongated at right angles across the airway course so an aircraft slightly off course would still receive it. A "Z" marker was sometimes located at low- or medium-frequency range sites to accurately denote station passage. As airway beacons used the same 3,000 Hz audio frequency as the inner marker, the "A" indicator on older receivers can be used to detect the inner marker. ==Back course marker==