Parallel amplifiers with combining phase controlled from combiner difference port
First Claim
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1. A paralleled amplifier arrangement, comprising:
- signal splitting means including an input port adapted to be coupled to a source of signal to be amplified and also including first and second output ports at which nominally equal-amplitude split signals are generated in response to said signal to be amplified;
hybrid power combining means including first and second input ports, a sum output port adapted to be coupled to utilization means, and a difference output port, for summing together the quadrature phase components of signals applied to said first and second input ports of said combining means for generating a combined signal at said sum output port for application to said utilization means, and for coupling to said difference output port a difference signal representing the in-phase components of said signals applied to said first and second input ports of said combining means;
first and second amplifying paths, said first amplifying path extending between said first output port of said splitting means and said first input port of said combining means, and said second amplifying path extending between said second output port of said splitting means and said second input port of said combining means, for amplifying said split signals to produce amplified signals, whereby said amplified signals are combined by said combining means to produce a combined amplified signal;
controllable phase shifting means coupled in at least one of said first and second amplifying paths, said controllable phase shifting means including a control input port, for phase-shifting signals in at least one of said first and second amplifying paths relative to the other under control of a control signal applied to said control input port; and
control means coupled to said difference output port of said combining means and comprising amplitude null detection means for sensing the amplitude of said difference signal to produce an amplitude-representative signal, and for, in response to said amplitude-representative signal, generating and applying to said control input port of said phase shifting means a control signal in a feedback manner for thereby tending to maintain said amplified signals near a quadrature phase condition for thereby tending to maximize said combined amplified signal.
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Abstract
A power amplifier arrangement includes a power divider for dividing the signal to be amplified into equal-amplitude components. Each component is amplified by a signal amplifying path. The amplified signals are applied to a phase-sensitive power combiner. The combined signal appears at the sum port and a phase-related difference signal appears at a difference port of the combiner. The difference signal is processed to produce a control signal for controlling the relative phases of the signals passing through the signal amplifying paths.
177 Citations
11 Claims
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1. A paralleled amplifier arrangement, comprising:
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signal splitting means including an input port adapted to be coupled to a source of signal to be amplified and also including first and second output ports at which nominally equal-amplitude split signals are generated in response to said signal to be amplified; hybrid power combining means including first and second input ports, a sum output port adapted to be coupled to utilization means, and a difference output port, for summing together the quadrature phase components of signals applied to said first and second input ports of said combining means for generating a combined signal at said sum output port for application to said utilization means, and for coupling to said difference output port a difference signal representing the in-phase components of said signals applied to said first and second input ports of said combining means; first and second amplifying paths, said first amplifying path extending between said first output port of said splitting means and said first input port of said combining means, and said second amplifying path extending between said second output port of said splitting means and said second input port of said combining means, for amplifying said split signals to produce amplified signals, whereby said amplified signals are combined by said combining means to produce a combined amplified signal; controllable phase shifting means coupled in at least one of said first and second amplifying paths, said controllable phase shifting means including a control input port, for phase-shifting signals in at least one of said first and second amplifying paths relative to the other under control of a control signal applied to said control input port; and control means coupled to said difference output port of said combining means and comprising amplitude null detection means for sensing the amplitude of said difference signal to produce an amplitude-representative signal, and for, in response to said amplitude-representative signal, generating and applying to said control input port of said phase shifting means a control signal in a feedback manner for thereby tending to maintain said amplified signals near a quadrature phase condition for thereby tending to maximize said combined amplified signal. - View Dependent Claims (2, 3, 4, 5, 11)
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6. A method for amplifying signals to be amplified, comprising the steps of:
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splitting said signals to be amplified into first and second nominally equal-amplitude portions to thereby generate first and second split signals; passing said first and second split signals through first and second amplifying paths, respectively, located on a satellite orbiting a heavenly body, to thereby generate first and second amplified signals, respectively; applying said first and second amplified signals to first and second input ports, respectively, of a hybrid power combiner, which power combiner also includes a sum output port at which the quadrature phase components of said first and second signals are summed to produce a combined amplified signal, and which also includes a difference output port at which a difference signal component is generated representing the in-phase component; sensing the amplitude of said difference signal at said difference output port; transmitting said difference signal to said heavenly body; generating a phase control signal in response to said amplitude of said difference signal; and controlling the relative phases of said first and second amplified signals in response to said phase control signal in a manner tending to maximize said combined amplified signal. - View Dependent Claims (7)
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8. A satellite arrangement, comprising:
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a source of RF signal to be transmitted from said satellite to Earth; signal splitting means including an input port adapted for receiving RF signals, and also including first and second output ports at which nominally equal-amplitude signals are produced in response to signals applied to said input port of said signal splitting means; a first path for the flow of RF signal, said first path extending between said source of RF signal to be transmitted and said input port of said signal splitter, whereby said RF signal to be transmitted is divided into first and second nominally equal-amplitude portions; a hybrid signal combiner including first and second input ports, a sum output port and a difference output port; a second path for the flow of RF signal, said second path extending between said first output port of said signal splitting means and said first input port of said hybrid signal combiner, said second path including controllable phase shifting means cascaded with first amplifying means, for controllably phase shifting and amplifying said first portion of said RF signal; a third path for the flow of RF signal, said third path extending between said second output port of said signal splitting means and said second input port of said hybrid combining means, said third path including second amplifying means, for at least amplifying said second portion of said RF signal whereby a sum RF signal is generated at said sum output port of said hybrid power combiner, and a difference RF signal is generated at said difference port; detector means coupled to said difference port of said hybrid power combiner for detecting said difference RF signal and for generating an amplitude-representative signal representative of the amplitude of said difference signal; first modulating means coupled to said detector means for modulating said amplitude representative signal onto an RF carrier to form a modulated signal; first antenna means; a fourth path for the flow of signal between said antenna means and said first modulating means, for coupling said modulated signal to said antenna means for radiating said modulated signal toward a ground station; first receiving means located at said ground station for receiving said modulated signal, and for demodulating said modulated signal for recovering said amplitude-representative signal to form a recovered signal; logic means located at said ground station and coupled to said receiving means for sampling said recovered signal, and for, in response, generating recurrent command signals; second modulating means for modulating said command signals onto an RF carrier signal to form modulated command signals; transmitting means coupled to said second modulating means for transmitting said modulated command signals toward said satellite; second receiving means associated with said satellite and coupled to said phase shifting means, for receiving said modulated command signals, for demodulating said modulated command signals to form recovered command signals, and for applying said recovered command signals to said phase shifting means to thereby form a feedback loop for control of the relative phase of said RF signals in said second and third paths for the flow of RF signal in a manner tending to maintain said difference RF signal near a null and said sum RF signal near a maximum. - View Dependent Claims (9, 10)
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Specification