Radio frequency transmitter coupling circuit
First Claim
1. A circuit for coupling an antenna to the outputs of at least two transmitters comprisingfirst and second circulators, each of said circulators having first, second and third ports nonreciporcally connected in that order,a connector and a first power combiner, said connector and said combiner each having first and second input ports and a third output port, said connector having a predetermined impedance mismatch between said output port thereof and each of said input ports thereof characterized by a 3 to 1 voltage standing wave ratio of said output port thereof relative to said input ports thereof, said combiner producing at said third port thereof the sum of the signal power incident on said first and second ports thereof,the first and second ports of said connector being connected with equal phase delays to the second ports, respectively, of said first and second circulators, the first and second ports of said combiner being connected to the third ports, respectively, of said first and second circulators, with phase delays equal to each other and to each of the first named phase delays,a second power combiner having first and second input ports and a third output port, said second combiner producing at the third port thereof the sum of signal power incident on said input ports thereof,said third ports of said connector and said first combiner being connected to said first and second ports, respectively, of said second combiner,said antenna being connected to said third port of said second combiner.
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Accused Products
Abstract
An efficient circuit for coupling at least two radio frequency transmitters of arbitrary power and frequency to one antenna comprises a three-port ferrite circulator connected to the output of each transmitter, a tee connector with a predetermined impedance mismatch connected to the first output port of each circulator, a first in-phase power combiner connected to the second output port of each circulator, and a second in-phase power combiner connected to the outputs of the tee connector and first combiner for adding the RF power and feeding the attached antenna. The impedances of transmission lines connected to the tee connector are selected to present a 3 to 1 voltage standing wave ratio to input lines so that reflected power is equally divided and fed in segments of equal power, phase and amplitude to that of the original summation for recombining and delivery to the antenna. The circuit effectively isolates the transmitters from each other and combines their outputs with high efficiency and minimum loss.
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Citations
11 Claims
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1. A circuit for coupling an antenna to the outputs of at least two transmitters comprising
first and second circulators, each of said circulators having first, second and third ports nonreciporcally connected in that order, a connector and a first power combiner, said connector and said combiner each having first and second input ports and a third output port, said connector having a predetermined impedance mismatch between said output port thereof and each of said input ports thereof characterized by a 3 to 1 voltage standing wave ratio of said output port thereof relative to said input ports thereof, said combiner producing at said third port thereof the sum of the signal power incident on said first and second ports thereof, the first and second ports of said connector being connected with equal phase delays to the second ports, respectively, of said first and second circulators, the first and second ports of said combiner being connected to the third ports, respectively, of said first and second circulators, with phase delays equal to each other and to each of the first named phase delays, a second power combiner having first and second input ports and a third output port, said second combiner producing at the third port thereof the sum of signal power incident on said input ports thereof, said third ports of said connector and said first combiner being connected to said first and second ports, respectively, of said second combiner, said antenna being connected to said third port of said second combiner.
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2. A circuit for connecting at least two RF transmitters having different frequencies to an antenna comprising
first and second circulators, each of said circulators having first, second and third ports with said first and second ports being adjacent and said second and third ports being adjacent, adjacent ports of each circulator being nonreciprocally connected, said transmitters being connected to said first ports, respectively, of said circulators, a tee connector having a main channel with first and second ports and a branch channel with a third port, first and second in-phase power combiners, each of said combiners having first, second and third ports arranged to add signal power incident on said first and second ports and produce the sum thereof at said third port, first and second transmission lines having equal impedances and connecting said second ports, respectively, of said first and second circulators to said first and second ports, respectively, of said connector with equal phase delays, third and fourth transmission lines connecting said third ports of said first and second circulators to said first and second ports, respectively, of said first combiner with equal phase delays, fifth and sixth transmission lines connecting said third ports, respectively, of said connector and said first combiner to said first and second ports, respectively, of said second combiner with equal phase delays, and means for creating a predetermined impedance mismatch at said connector between said fifth transmission line and each of said first and second transmission lines whereby to produce a 3: - 1 voltage standing wave ratio characteristic at the third port of said connector relative to the first and second ports thereof,
said antenna being connected to said third port of said second combiner. - View Dependent Claims (3, 4, 5, 6)
- 1 voltage standing wave ratio characteristic at the third port of said connector relative to the first and second ports thereof,
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7. A plurality of circuits for connecting at least four RF transmitters having different frequencies to an antenna, each circuit comprising
first and second circulators, each of said circulators having first, second and third ports nonreciprocally connected in that order, a tee connector and a first power combiner, said connector and combiner each having first and second input ports and a third output port, said connector having a predetermined impedance mismatch between said third port thereof and each of said first and second ports thereof characterized by a 3 to 1 voltage standing wave ratio of said third port thereof relative to said first and second ports thereof, said combiner producing at said third port thereof the sum of the signal power incident on said first and second ports thereof, the first and second ports of said connector being connected with equal phase delays to the second ports, respectively, of said first and second circulators, the first and second ports of said combiner being connected to the third ports, respectively, of said first and second circulators with phase delays equal to each other and to each of the first named phase delays, a second power combiner having first and second input ports and a third output port, said second power combiner producing at the third port thereof the sum of the signal power incident on the first and second ports thereof, said third ports of said connector and of said first combiner being connected to said first and second ports, respectively, of said second combiner, the first port of each circulator of at least two of said plurality of circuits being connected to a transmitter, the third port of each second combiner of said two of said circuits being connected to the first port of each circulator of a third of said circuits, the third port of the second combiner of said third circuit being connected to said antenna.
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8. A circuit for coupling an antenna to the outputs of plurality of transmitters comprising
a like number of circulators each having first, second and third ports with said first and second ports being adjacent and said second and third ports being adjacent, adjacent ports of each circulator being nonreciprocally connected, connector means having a plurality of input ports and an output port, means for connecting said second ports of said circulators to said input ports, respectively, of the connector means with equal phase delays, said connector means being characterized by a capability of combining equal portions of signal power at said input ports into a sum at said output port and reflecting equal segments of said signal power from said input ports, respectively, to said second ports, respectively, of said circulators, power combining means having a plurality of input ports and an output port, and means for connecting said third ports of said circulators and the output port of said connector to said ports, respectively, of said combining means, said antenna being connected to said output port of said combining means.
Specification
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- Resources
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Current AssigneeGeneral Dynamics Government Systems Corporation (General Dynamics Corporation)
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Original AssigneeGTE Products Corporation (Ams-Osram AG)
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InventorsStites, Francis H.
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Primary Examiner(s)Lieberman, Eli
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Assistant Examiner(s)Ohralik, Karl
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Application NumberUS06/360,878Time in Patent Office799 DaysField of Search343/858, 333/1.1, 333/110, 333/24.1, 333/24.2, 333/24.3, 455/277, 455/129, 455/103, 455/101US Class Current343/858CPC Class CodesH01P 5/12 Coupling devices having mor...H04B 1/0458 Arrangements for matching a...
