The antennas are characterized by a number of parameters. Radiation pattern is a graphic representation of radiation characteristics of an antenna according to direction (azimuth and elevation coordinates). Most often represent the radiated power density, but also can find diagrams or phase bias (military antennas). Considering the radiative pattern, we can make a general classification of types of antenna and we can define the directivity of a receiver (isotropic antenna, directional, bi-directional, omni).
Within the transmission we can define co-polar diagram that represents the communication from to a desired polarity and polarized radiation pattern with the opposite polarity to that you already have. The most important parameters of the radiation pattern are: pointing direction: The maximum radiation. Directivity and Gain. Main lobe constitutes angular range around the direction of maximum radiation. Side lobes are other relative maxima, lower the principal value.
This relationship also can be seen from another point of view, indicating how good the antenna in the rejection of signals from the rear. Rarely is really important, because the interference from the rear do not usually happen, but it can happen. The F / B ratio is not a very useful number because often varies greatly from one channel to another. Of course, if it is the radiation pattern, then the F / B is not needed.
Loops are only effective at resonance, and must therefore be geared to operate, high q, very narrow bandwidth. All within about 10 wavelengths (near field) of an antenna may affect its radiation patterns. An antenna is the most "sensitive" in its main cones, there where it has "gain" in a free field radiation pattern.
A transmitter with more than about 3 items are usually less sensitive in a circle slice perpendicular towards the main direction of a jet and therefore one can put antennas in close proximity to a base station. The distance between the antennas should be at least 1 / 2-1 of main wavelengths used. Further away than about 10 wavelengths (far field) affects largely the antenna radiation pattern, but it can affect radio propagation or radio broadcast.
There are three basic types of transmitters: wire, aperture and planar antennas. Also, clusters of these aerials (arrays) are usually considered in the literature as another basic type of antenna. Wire transmitters are variants whose radiating elements are wire conductors having a negligible section relative to wavelength employment.
Every day use of aerials to transmit and receive signals (data) throughout the world by millions of people is ordinary. General: Everything is connected without cables using in some degree antennas for the exchange of information (data). An aerial is a (metal wire) device designed for the purpose of emitting or receiving electromagnetic waves into free space. A transmitter antenna transforms electrical energy into electromagnetic waves, and a receiver performs the inverse function.
If, in each of these ports, a diplexer, which separates the frequency bands of emission and reception, it will be a feeder four ports with a single antenna will be able to send and receive both polarizations simultaneously placed. At other times, these antennas have only two ports, one for emitting a polarization and the other to receive the opposite polarization.
Within the transmission we can define co-polar diagram that represents the communication from to a desired polarity and polarized radiation pattern with the opposite polarity to that you already have. The most important parameters of the radiation pattern are: pointing direction: The maximum radiation. Directivity and Gain. Main lobe constitutes angular range around the direction of maximum radiation. Side lobes are other relative maxima, lower the principal value.
This relationship also can be seen from another point of view, indicating how good the antenna in the rejection of signals from the rear. Rarely is really important, because the interference from the rear do not usually happen, but it can happen. The F / B ratio is not a very useful number because often varies greatly from one channel to another. Of course, if it is the radiation pattern, then the F / B is not needed.
Loops are only effective at resonance, and must therefore be geared to operate, high q, very narrow bandwidth. All within about 10 wavelengths (near field) of an antenna may affect its radiation patterns. An antenna is the most "sensitive" in its main cones, there where it has "gain" in a free field radiation pattern.
A transmitter with more than about 3 items are usually less sensitive in a circle slice perpendicular towards the main direction of a jet and therefore one can put antennas in close proximity to a base station. The distance between the antennas should be at least 1 / 2-1 of main wavelengths used. Further away than about 10 wavelengths (far field) affects largely the antenna radiation pattern, but it can affect radio propagation or radio broadcast.
There are three basic types of transmitters: wire, aperture and planar antennas. Also, clusters of these aerials (arrays) are usually considered in the literature as another basic type of antenna. Wire transmitters are variants whose radiating elements are wire conductors having a negligible section relative to wavelength employment.
Every day use of aerials to transmit and receive signals (data) throughout the world by millions of people is ordinary. General: Everything is connected without cables using in some degree antennas for the exchange of information (data). An aerial is a (metal wire) device designed for the purpose of emitting or receiving electromagnetic waves into free space. A transmitter antenna transforms electrical energy into electromagnetic waves, and a receiver performs the inverse function.
If, in each of these ports, a diplexer, which separates the frequency bands of emission and reception, it will be a feeder four ports with a single antenna will be able to send and receive both polarizations simultaneously placed. At other times, these antennas have only two ports, one for emitting a polarization and the other to receive the opposite polarization.
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