Self-focusing antenna array
First Claim
1. In a system for supplying power to a remote moving vehicle capable of receiving microwave power radiated from an array at a transmitting station to which said vehicle is not physically connected, a system for continually adjusting the phases of the antennas in said array to steer and focus the beam radiated by the array so that it follows the target, comprising:
- (a) a plurality of antennas each having a unique address;
(b) a source generating radio frequency power which is distributed to said antennas;
(c) for each said antenna, an amplifier effective to amplify said power from said source and to apply it to said antenna, a phase shifter effective to shift the phase of said radio frequency power radiated by said antenna relative to the source and to modulate the phase of the radiated power rapidly, a controller effective to control said phase shifter, said controller causing said relative phase to remain constant except when said phase shifter is selected to be phase modulated and except when it is selected to have said relative phase corrected;
(e) a waveform generator effective to generate a pseudo-random alternating square waveform;
(f) a first switch effective to select in response to the address selected by said timer any one of said antennas and causing its said phase controller and phase shifter to phase modulate said relative phase rapidly by plus or minus 90 degrees away from its said present relative phase in response to said alternating waveform;
(g) a detector on said vehicle effective to detect changes in the magnitude of the power received at the vehicle, the system being such that a change in said relative phase at any selected antenna is effective to change said power received at the vehicle;
(h) ranging means to determine the approximate distance between said target and said antennas and to generate a distance signal;
(i) a first telemetry transceiver and first telemetry antenna at the transmitting station and a second telemetry antenna and second telemetry transceiver on the vehicle which are effective to convey the address of said selected antenna from said timer and said alternating waveform from said waveform generator to said target;
(j) a correlator on said target which is effective to derive an error signal by multiplying said changes in magnitude by said alternating waveform received through said transceivers, time average the result, multiply said average by said distance signal and to transmit said error signal together with said address of said selected antenna to the transmitting station through said telemetry transceivers and antennas;
(k) a converter which is effective to calculate the inverse sine of the error signal received at the transmitting station through said telemetry transceivers and antennas to provide a correction signal;
(l) a second switch which is effective to select said antenna specified by said address received from said vehicle and applying said correction signal to controller of said selected antenna to increase or decrease said present phase shift to a new value in order to maximise said combined-magnitude at said vehicle;
the timer is effective to cycle through all the antennas so rapidly that each antenna spends only such a short time period in the unselected condition that in relation to the number of antennas, and to the speed and range of the vehicle, when that antenna next adopts the selected condition the required change in the phase-angle of the power transmitted through the antenna in order to maximise the combined-magnitude, is less than 90 degrees;
all said means combining to form a closed feedback loop which maximises the ratio of said combined-magnitude at said vehicle to the total power radiated by said array.
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Abstract
A phased array for transmitting to a microwave powered aircraft is focussed and steered by feedback from the aircraft. Each antenna of the array is phase modulated in turn, and the resulting amplitude modulation of the field at the aircraft is used to calculate a correction to the antenna phase, which is telemetered back to the array system and applied to the antenna phase shifter.
115 Citations
13 Claims
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1. In a system for supplying power to a remote moving vehicle capable of receiving microwave power radiated from an array at a transmitting station to which said vehicle is not physically connected, a system for continually adjusting the phases of the antennas in said array to steer and focus the beam radiated by the array so that it follows the target, comprising:
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(a) a plurality of antennas each having a unique address; (b) a source generating radio frequency power which is distributed to said antennas; (c) for each said antenna, an amplifier effective to amplify said power from said source and to apply it to said antenna, a phase shifter effective to shift the phase of said radio frequency power radiated by said antenna relative to the source and to modulate the phase of the radiated power rapidly, a controller effective to control said phase shifter, said controller causing said relative phase to remain constant except when said phase shifter is selected to be phase modulated and except when it is selected to have said relative phase corrected; (e) a waveform generator effective to generate a pseudo-random alternating square waveform; (f) a first switch effective to select in response to the address selected by said timer any one of said antennas and causing its said phase controller and phase shifter to phase modulate said relative phase rapidly by plus or minus 90 degrees away from its said present relative phase in response to said alternating waveform; (g) a detector on said vehicle effective to detect changes in the magnitude of the power received at the vehicle, the system being such that a change in said relative phase at any selected antenna is effective to change said power received at the vehicle; (h) ranging means to determine the approximate distance between said target and said antennas and to generate a distance signal; (i) a first telemetry transceiver and first telemetry antenna at the transmitting station and a second telemetry antenna and second telemetry transceiver on the vehicle which are effective to convey the address of said selected antenna from said timer and said alternating waveform from said waveform generator to said target; (j) a correlator on said target which is effective to derive an error signal by multiplying said changes in magnitude by said alternating waveform received through said transceivers, time average the result, multiply said average by said distance signal and to transmit said error signal together with said address of said selected antenna to the transmitting station through said telemetry transceivers and antennas; (k) a converter which is effective to calculate the inverse sine of the error signal received at the transmitting station through said telemetry transceivers and antennas to provide a correction signal; (l) a second switch which is effective to select said antenna specified by said address received from said vehicle and applying said correction signal to controller of said selected antenna to increase or decrease said present phase shift to a new value in order to maximise said combined-magnitude at said vehicle; the timer is effective to cycle through all the antennas so rapidly that each antenna spends only such a short time period in the unselected condition that in relation to the number of antennas, and to the speed and range of the vehicle, when that antenna next adopts the selected condition the required change in the phase-angle of the power transmitted through the antenna in order to maximise the combined-magnitude, is less than 90 degrees; all said means combining to form a closed feedback loop which maximises the ratio of said combined-magnitude at said vehicle to the total power radiated by said array.
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2. In a system for supplying power to a remote moving vehicle:
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(a) the system includes a transmitting station, comprising an army of several antennas and a power source which is effective to supply power at radio frequency to the antennas; (b) the system is of the kind in which the vehicle moves relative to the transmitting-station, and in which the vehicle Is remote from, and physically unconnected with, the transmitting-station, and in Which the vehicle is capable of receiving power transmitted from the antennas at the transmitting-station; (c) in respect of each antenna, the relative phase angle of that antenna is the phase angle of the power transmitted from that antenna relative to the source, and the system Is arranged for progressively correcting the relative phase angle of each antenna so as to maximise the magnitude of the combined power, termed the combined-magnitude, received at the vehicle from the several antennas; (d) each antenna is capable of adopting a selected condition and an unselected condition; (e) the system includes a timer, which is effective to cycle through fie several antennas at the transmitting-station, setting each antenna in turn to the selected condition; (f) the system includes a phase controller; (g) the system includes a waveform generator; (h) in respect of each antenna when selected by the timer the phase-controller is effective to Induce phase modulation of the power transmitted by that antenna in accordance with the waveform generated by the waveform generator; (i) the system is such that a change in the relative-phase-angle of the power transmitted from the selected antenna is effective to change the combined-magnitude of the power received at the vehicle; (j) the system Includes a combined-magnitude-variation-detector, which is effective to detect and measure the magnitude and sign of a variation in the combined-magnitude, being a variation of the kind that results from modulation of the relative phase-angle of the selected antenna; (k) the detector Is effective to generate a combined-magnitude-variation signal, being a signal which corresponds in magnitude and sign to the magnitude and sign of the said variation in the combined-magnitude; (l) the system includes a ranging means for measuring the range from the transmitting-station to the vehicle, and for generating a range-signal in accordance with the range; (m) the system includes a correlator, which is adapted to receive the combined-magnitude-variation signal and the waveform from the waveform generator and the range-signal, and is adapted to derive from a multiplication thereof an error signal and the system includes means for transmitting the variation signal, the range signal and the waveform to the correlator; (n) the correlator is so arranged that the magnitude and sign of the error signal correspond to the magnitude and sign of the change in the combined-magnitude resulting from the change of phase-angle at the active antenna; (o) the phase-controller is capable of receiving the error signal from the correlator, and is effective, upon receipt of the error signal, to make a change, being a correction, to the relative-phase-angle of the power transmitted through the selected antenna in accordance with the error signal, the magnitude and sign of the correction being such as to increase the combined-magnitude; (p) the timer is effective to cycle through all the antennas so rapidly that each antenna spends only such a short time period in the unselected condition that in relation to the number of antennas, and to the speed and range of the vehicle, when that antenna next adopts the selected condition the required correction to the phase-angle of the power transmitted through the antenna in order to maximise the combined-magnitude, is less than 90 degrees. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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Specification