Navigation with localizers and VORs is very similar. VORs and localizers share the same navigation radio and display equipment in the flight deck. It can serve as part of an ILS approach or in a stand-alone localizer-only procedure. The primary component of the ILS is the localizer, which provides lateral course guidance. ILS relies on multiple ground-based and aircraft equipment that provides: It is still, by far, the most commonly used precision instrument approach procedure. The ILS is one of the oldest yet most widely used instrument approach procedures still in service. You may already know that Instrument approaches are IFR procedures designed to guide the aircraft from the en-route part of the flight to a position from which it can make a safe landing.Ī precision approach provides lateral (left and right) and vertical (up and down) course guidance on the final approach leg. Source: Instrument Flying Handbook, pg.An Instrument Landing System ( ILS) enables pilots to shoot precision instrument approaches to a runway.īefore digging into the nuts and bolts of ILS, let's review what an instrument approach, and more specifically, a precision-instrument approach is. However, if the approach is conducted at the altitudes specified on the appropriate approach chart, these false courses will not be encountered. Getting established on one of these false courses will result in either confusion (reversed glide-slope needle indications), or result in the need for a very high descent rate. An aircraft flying the LOC/glide-slope course at a constant altitude would observe gyrations of both the glide-slope needle and glide-slope warning flag as the aircraft passed through the various false courses. The angle of the lowest of these false courses will occur at approximately 9°–12°. In addition to the desired course, glideslope facilities inherently produce additional courses at higher vertical angles. Surface vehicles and even other aircraft flying below 5,000 feet above ground level (AGL) may disturb the signal for aircraft on the approach. Localizer and glide-slope signals are subject to the same type of bounce from hard objects as space waves. The ILS and its components are subject to certain errors, which are listed below. The back-course marker, where installed, indicates the back-course FAF. It indicates the point at which an aircraft is at the decision height on the glide path during a Category II ILS approach. The inner marker (IM), where installed, is located on the front course between the MM and the landing threshold. The MM is located approximately 3,500 feet from the landing threshold on the centerline of the localizer front course at a position where the glide-slope centerline is about 200 feet above the touchdown zone elevation. The OM is located on the localizer front course 4 to 7 miles from the airport to indicate a position at which an aircraft, at the appropriate altitude on the localizer course, will intercept the glide path.A marker beacon may also be installed to indicate the FAF on the ILS back course. A third beacon, the inner, is used where Category II operations are certified. Two VHF marker beacons, outer and middle, are normally used in the ILS system.With no more than one-quarter scale deflection maintained, the aircraft will be aligned with the runway. This sensitivity permits accurate orientation to the landing runway. With this course width, a full-scale deflection shows when the aircraft is 2.5° to either side of the centerline. The localizer course is very narrow, normally 5°.The localizer provides course guidance, transmitted at 108.1 to 111.95 MHz (odd tenths only), throughout the descent path to the runway threshold from a distance of 18 NM from the antenna to an altitude of 4,500 feet above the elevation of the antenna site. These are called the front and back courses, respectively. This unit radiates a field pattern, which develops a course down the centerline of the runway toward the middle markers (MMs) and outer markers (OMs), and a similar course along the runway centerline in the opposite direction. The localizer (LOC) ground antenna array is located on the extended centerline of the instrument runway of an airport, remote enough from the opposite (approach) end of the runway to prevent it from being a collision hazard.
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