Plural frequency matrix multiplexer
First Claim
1. A method of communicating comprising:
- establishing a plurality of multiplexers wherein each multiplexer provides for multiplexing a plurality of signals present respectively at a set of plural input terminals of the multiplexer to divide the power of each of said signals among a set of plural output terminals of the multiplexer, each of said multiplexers being constructed by the steps of;
providing a Butler matrix having a number of input ports arranged in a predetermined order and an equal number of output ports arranged in a predetermined order, the matrix providing a predetermined set of phase tapers among the output ports with different phase tapers being provided in response to a presence of an input signal at different ones of said input ports of the matrix;
connecting a set of delay lines in a predetermined order to the output ports of the matrix, each of said delay lines providing a different amount of delay to signals propagating through said output ports, the amounts of delay being quantized such that a first of said delay lines has a minimal amount of delay and that each succeeding delay line has a delay with one more quantum of delay than the delay of a preceding delay line, each of said delay lines establishing a phase shift to a signal propagating in the delay line with the phase shift being proportional to the frequency of the signal;
selecting a set of input signals of differing signal frequencies to be present at respective input ports of said matrix, the signal frequencies present at the respective matrix input ports differing from each other by an amount sufficient to establish a set of delay-line phase shifts which counteract the phase shifts in the respective phase tapers provided by the matrix; and
wherein input ports of said matrix serve as input ports of said multiplexer, and output ports of said delay lines serve as output ports of said multiplexer;
said communicating method further comprisingcoupling output ports of a plurality of said multiplexers to radiating elements of an array antenna;
generating a beam of radiation by said antenna from signals of said plurality of multiplexers; and
inputting signals to input ports of said multiplexers at different frequencies of a signal spectrum having a succession of frequency bands, separate frequency bands being applied to respective ones of said input ports, and wherein adjacent ones of said bands are applied to different ones of said multiplexers to maximize a spectral spacing of signals in channels of a multiplexer.
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Abstract
A multiplexer for the transmission of signals on different carrier frequencies includes a Butler matrix with a set of delay elements secured to output terminals of the matrix. Each of the delay elements differs from the other delay elements in that the delays imparted to signals by each of the elements differ by an integral number of delay units. The selection of frequency values is made in accordance with the increment in delay unit so as to develop incremental values of phase shift which compensate for phase shift introduced by the phase shift taper of a Butler matrix. This permits summation of signals from plural input ports of the matrix without the generation of intermodulation products among the various signal channels.
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Citations
3 Claims
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1. A method of communicating comprising:
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establishing a plurality of multiplexers wherein each multiplexer provides for multiplexing a plurality of signals present respectively at a set of plural input terminals of the multiplexer to divide the power of each of said signals among a set of plural output terminals of the multiplexer, each of said multiplexers being constructed by the steps of; providing a Butler matrix having a number of input ports arranged in a predetermined order and an equal number of output ports arranged in a predetermined order, the matrix providing a predetermined set of phase tapers among the output ports with different phase tapers being provided in response to a presence of an input signal at different ones of said input ports of the matrix; connecting a set of delay lines in a predetermined order to the output ports of the matrix, each of said delay lines providing a different amount of delay to signals propagating through said output ports, the amounts of delay being quantized such that a first of said delay lines has a minimal amount of delay and that each succeeding delay line has a delay with one more quantum of delay than the delay of a preceding delay line, each of said delay lines establishing a phase shift to a signal propagating in the delay line with the phase shift being proportional to the frequency of the signal; selecting a set of input signals of differing signal frequencies to be present at respective input ports of said matrix, the signal frequencies present at the respective matrix input ports differing from each other by an amount sufficient to establish a set of delay-line phase shifts which counteract the phase shifts in the respective phase tapers provided by the matrix; and wherein input ports of said matrix serve as input ports of said multiplexer, and output ports of said delay lines serve as output ports of said multiplexer; said communicating method further comprising coupling output ports of a plurality of said multiplexers to radiating elements of an array antenna; generating a beam of radiation by said antenna from signals of said plurality of multiplexers; and inputting signals to input ports of said multiplexers at different frequencies of a signal spectrum having a succession of frequency bands, separate frequency bands being applied to respective ones of said input ports, and wherein adjacent ones of said bands are applied to different ones of said multiplexers to maximize a spectral spacing of signals in channels of a multiplexer. - View Dependent Claims (2)
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3. An apparatus for communicating comprising:
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a plurality of multiplexers each having a set of plural input terminals and a set of plural output terminals wherein each multiplexer provides for multiplexing a plurality of signals present respectively at the set of plural input terminals of the multiplexer to divide the power of each of said signals among the set of plural output terminals of the multiplexer, each of said multiplexers comprising; a Butler matrix having a number of input ports arranged in a predetermined order and an equal number of output ports arranged in a predetermined order, the matrix providing a predetermined set of phase tapers among the output ports with different phase tapers being provided in response to a presence of an input signal at different ones of said input ports of the matrix; a set of delay lines connected in a predetermined order to the output ports of the matrix, each of said delay lines providing a different amount of delay to signals propagating through said output ports, the amounts of delay being quantized such that a first of said delay lines has a minimal amount of delay and that each succeeding delay line has a delay with one more quantum of delay than the delay of a preceding delay line, each of said delay lines establishing a phase shift to a signal propagating in the delay line with the phase shift being proportional to the frequency of the signal; wherein input ports of said matrix serve as input ports of said multiplexer, and output ports of said delay lines serve as output ports of said multiplexer; and a plurality of radiating elements of an array antenna coupled to the output ports of a plurality of said multiplexers for generating a beam of radiation by said antenna from signals of said plurality of multiplexers; so that inputting signals to input ports of said multiplexers at different selected frequencies of a signal spectrum having a succession of frequency bands, separate frequency bands being applied to respective ones of said input ports, establishes a set of delay line phase shifts which counteract the phase shifts in the respective phase taper provided by the matrix.
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Specification