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Design and performance of resonant cavities for communication systems : the theory and performance of resonant cavities for application in mobile radio and base-stations in the VHF and UHF bands are investigatedAdeniran, S. Adekunle January 1984 (has links)
It is often necessary to operate a number of radio communication channels from a single control room without time-sharing between the various channels. Here it is necessary to operate a number of transmitters and receivers simultaneously from the same base station or mobile unit without interference. The best method to achieve this has been found in the use of filters inserted in the transmission line between the antenna and the transmitter(s) on one hand and the receiver(s) on the other hand. The basic unit employed in the design of microwave filters is usually a cavity resonator of which the most important factors are the Q, insertion loss and resonant frequency. However, a problem which frequently arises with cavity resonators is the accurate determination of these resonant characteristics complicated by the presence of coupling port, materials and various design and geometrical deviations. Such cavities have been investigated in several cases and the results have been generalised, but this investigation has been conducted to examine thoroughly most of the problems being met in present practice. Design and development of some common resonant structures are considered. Emphasis is placed on solutions found to special problems especially regarding complicated boundary conditions. Furthermore, investigation includes methods for optimising resonant parameters such as insertion loss and Q, trading of insertion loss with coupled cavity selectivity, frequency tuning and compensation for frequency variations due to wide ranges of operating temperatures. By comparing Q values obtained in practice with theoretical values, it has been possible to establish an appropriate Q loss budget to as to facilitate accurate prediction of coupled cavity unloaded Q. A satisfactory agreement between theory and practice has been obtained. By application of the results of theoretical analysis and experiment, it is shown that microwave filters can be designed to have a desired insertion loss and off-band attenuation slope. Steps leading to designs of any number of cascaded cavities in a two-port network and, subsequently, multi-port networks are discussed in detail.
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Design and performance of resonant cavities for communication systems. The theory and performance of resonant cavities for application-, in mobile radio and base-stations in the VHF and UHF bands are investigated.Adeniran, S. Adekunle January 1984 (has links)
It is often necessary to operate a number of radio communication
channels from a single control room without time-sharing between the
various channels. Here it is necessary to operate a number of transmitters
and receivers simultaneously from the same base station or
mobile unit without interference. The best method to achieve this
has been found in the use of filters inserted in the transmission line
between the antenna and the transmitter(s) on one hand and the receiver(s)
on the other hand.
The basic unit employed in the design of microwave filters is
usually a cavity resonator of which the most important factors are the
Q, insertion loss and resonant frequency. However, a problem which
frequently arises with cavity resonators is the accurate determination
of these resonant characteristics complicated by the presence of coupling
port, materials and various design and geometrical deviations. Such
cavities have been investigated in several cases and the results have
been generalised, but this investigation has been conducted to examine
thoroughly most of the problems being met in present practice. Design
and development of some common resonant structures are considered.
Emphasis is placed on solutions found to special problems especially
regarding complicated boundary conditions. Furthermore, investigation
includes methods for optimising resonant parameters such as insertion
loss and Q, trading of insertion loss with coupled cavity selectivity,
frequency tuning and compensation for frequency variations due to wide
ranges of operating temperatures. By comparing Q values obtained in
practice with theoretical values, it has been possible to establish an
appropriate Q loss budget to as to facilitate accurate prediction of coupled
cavity unloaded Q. A satisfactory agreement between theory and practice
has been obtained.
By application of the results of theoretical analysis and experiment,
it is shown that microwave filters can be designed to have a desired
insertion loss and off-band attenuation slope. Steps leading to
designs of any number of cascaded cavities in a two-port network and,
subsequently, multi-port networks are discussed in detail.
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