In a radio
antenna, the
feed line (
feedline), or
feeder, is the cable or other
transmission line that connects the antenna with the radio
transmitter or
receiver. In a transmitting antenna, it feeds the
radio frequency (RF)
current from the transmitter to the antenna, where the energy in the current is radiated as
radio waves. In a receiving antenna it transfers the tiny RF voltage induced in the antenna by the radio wave to the receiver. In order to carry
RF current efficiently, feed lines are made of specialized types of cable called
transmission line. The most widely used types of feed line are
coaxial cable,
twin-lead,
ladder line, and at
microwave frequencies,
waveguide. Particularly with a transmitting antenna, the feed line is a critical component that must be adjusted to work correctly with the antenna and transmitter. Each type of transmission line has a specific
characteristic impedance. This must be matched to the
impedance of the antenna and the transmitter, to transfer power efficiently to the antenna. If these impedances are not matched it can cause a condition called
standing waves on the feed line, in which the RF energy is reflected back toward the transmitter, wasting energy and possibly overheating the transmitter. This adjustment is done with a device called an
antenna tuner in the transmitter, and sometimes a
matching network at the antenna. The degree of mismatch between the feedline and the antenna is measured by an instrument called an
SWR meter (standing wave ratio meter), which measures the
standing wave ratio (SWR) on the line. :
Twin-lead Source: Twin lead is used to connect
FM radios and
television receivers with their antennas, although it has been largely replaced in the latter application by coaxial cable, and as a feedline for low power transmitters such as
amateur radio transmitters. It consists of two wire
conductors running parallel to each other with a precisely constant spacing, molded in
polyethylene insulating material in a flat ribbon-like cable. The distance between the two wires is small relative to the
wavelength of the
RF signal carried on the wire. The RF
current in one wire is equal in
magnitude and opposite in
direction to the RF current on the other wire. Thus, far from the line, the radio waves radiated by one wire will be opposite in
phase and will cancel the waves radiated by the other wire. For the same reason, twin lead is also largely immune to
radio noise and
radio frequency interference (RFI), as long as both wires are kept equally far from any large metal objects or other parallel wires. Any unwanted external radio waves induce equal magnitude currents in the same direction (in phase) on both wires. Since as long as the receiver input is balanced it only responds to differential (opposite) currents, the noise currents are cancelled out. Twin lead is commonly called a type of "
balanced line", however, this needs to be moderated with common sense: All types of cabling, either parallel wire or coaxial, are able to carry balanced current, and all can carry unbalanced current, which will radiate. For that reason every type of feedline requires some attention to make it "balanced", and can become "unbalanced" if neglected; all should be fed with balanced current and connected through current-type
baluns (or "line isolators") at a few points along the line, to remove the noise brought in as unbalanced current.
Coaxial cable Coaxial cable is probably the most widely used type of feedline, used for frequencies below the
microwave (
SHF) range. It consists of a wire center conductor and a braided or solid metallic "shield" conductor, usually
copper or
aluminum surrounding it. The center conductor is separated from the outer shield by a
dielectric, usually plastic foam, to keep the separation between the two conductors precisely constant. The shield is covered with an outer plastic insulation jacket. In
hard coax cable, used for high power transmitting applications like
television transmitters, the shield is a rigid or flexible metal pipe containing a compressed gas such as
nitrogen, and the internal conductor is held centered with periodic plastic spacers. Coax is called "
unbalanced line", since the shield conductor is usually connected to electrical
ground, however the currents that flow along the center conductor are balanced by opposite currents that skim along the interior surface of the shield; only the current flowing on the exterior surface of the coaxial shield is actually unbalanced. If that current can be blocked, then the coax becomes a "balanced line". Coaxial cable's great advantage is that the enclosing shield conductor isolates the cable's interior currents from external electromagnetic fields. If the currents flowing on external surface are blocked, coax becomes unaffected by nearby metal objects and immune to interference.
Waveguide Waveguide is used at
microwave (
SHF) frequencies, at which other types of feedline have excessive power losses. A waveguide is a hollow metallic conductor or pipe. It can have a circular or square cross-section. Waveguide runs are often pressurized with nitrogen gas to keep moisture out. The RF signal travels through the pipe similarly to the way sound travels in a tube. The metal walls keep it from radiating energy outwards and also prevent interference from entering the waveguide. Because of the cost and maintenance waveguide entails, microwave antennas often have the output stage of the transmitter or the
RF front end of the receiver located at the antenna, and the signal is fed to or from the rest of the transmitter or receiver at a lower frequency, using coaxial cable. A waveguide is considered an unbalanced
transmission line. == Impedance matching ==