Distributed adaptive combining system for multiple aperture antennas including phased arrays
First Claim
1. A method for adjusting signals received by a plurality of antenna elements of an array antenna, comprising:
- receiving a first signal using at least a first antenna element of said array antenna;
receiving a second signal using at least a second antenna element of said array antenna;
generating an adjusting signal using said first signal and said second signal, wherein said generating step is conducted without using a velocity signal associated with movement of said array antenna and without using any signal, having one or more frequencies, that is provided independently of at least one of said first and second signals, said adjusting signal being dependent on each of a time correlating signal and a phase correlating signal, said time correlating signal being related to an integer wavelength offset associated with said first and second antenna elements and said phase correlating signal being related to a phase difference associated with said first and second antenna elements; and
controlling a delay associated with said second signal after said generating step using said adjusting signal.
2 Assignments
0 Petitions
Accused Products
Abstract
A phased array type antenna apparatus compensates for phase and time differences between signals received at different elements of the antenna. Each element within the antenna apparatus has an associated phase/time adjuster circuit. The signals from each element are divided, with the first output routed to a combining circuit. The second output of one element is used as a reference signal, with the second output from the remaining elements routed to a switch. One signal is selected at the switch, and is used as a non-reference signal. Phase difference between the reference signal and the non-reference signal is determined at a comparator circuit, and the phase/time adjuster circuit associated with the non-reference signal is adjusted to bring the two signals into phase alignment. Time difference between the reference and non-reference signal is determined using dual correlators and a comparator circuit. The comparator circuit compares the magnitude of an in-phase channel and a quadrature channel from each comparator to determine time difference between the signals. The phase/time adjuster circuit is adjusted to bring the signals into time alignment. When each element is phase and time aligned, the output of the combining circuit is enhanced. Time difference can also be determined for several distinct phased array apertures within an antenna apparatus.
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Citations
26 Claims
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1. A method for adjusting signals received by a plurality of antenna elements of an array antenna, comprising:
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receiving a first signal using at least a first antenna element of said array antenna;
receiving a second signal using at least a second antenna element of said array antenna;
generating an adjusting signal using said first signal and said second signal, wherein said generating step is conducted without using a velocity signal associated with movement of said array antenna and without using any signal, having one or more frequencies, that is provided independently of at least one of said first and second signals, said adjusting signal being dependent on each of a time correlating signal and a phase correlating signal, said time correlating signal being related to an integer wavelength offset associated with said first and second antenna elements and said phase correlating signal being related to a phase difference associated with said first and second antenna elements; and
controlling a delay associated with said second signal after said generating step using said adjusting signal. - View Dependent Claims (5, 6, 7, 8, 9, 12)
said generating step includes producing at least an in-phase signal, and a quadrature signal using said first and second signals.
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6. A method, as claimed in claim 1, wherein:
said controlling step includes adjusting at least one of a time delay and a phase delay.
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7. A method, as claimed in claim 1, wherein:
said adjusting signal depends on whether a control signal has a maximum amplitude.
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8. A method, as claimed in claim 1, wherein:
said generating step includes determining a phase relationship between said first signal and said second signal using a correlator circuit.
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9. A method, as claimed in claim 8, wherein:
said controlling step includes using said adjusting signal to adjust a time delay circuit associated with said second signal.
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12. A method, as claimed in claim 1, wherein:
said generating step is conducted with said first signal only.
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2. A method for adjusting signals received by a plurality of antenna elements of an array antenna, comprising:
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receiving a first signal using at least a first antenna element of said array antenna;
receiving a second signal using at least a second antenna element of said array antenna;
generating an adjusting signal using said first signal and said second signal, wherein said generating step is conducted without using any-signal, having one or more frequencies, that is provided independently of at least one of said first and second signals, and wherein said generating step includes producing signals related to a first correlation envelope and a second correlation envelope using at least one of said first and second signals; and
controlling a delay associated with said second signal after said generating step. - View Dependent Claims (3, 4)
said generating step includes determining a control signal having an amplitude using said signals related to said first correlation envelope and said second correlation envelope.
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4. A method, as claimed in claim 3, wherein:
said adjusting signal depends on said amplitude of said control signal.
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10. A method for adjusting signals received by a plurality of antenna elements of an array antenna, comprising:
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receiving a first signal using at least a first antenna element of said array antenna;
receiving a second signal using at least a second antenna element of said array antenna;
generating an adjusting signal using said first signal and said second signal, wherein said generating step is conducted without using any signal, having one or more frequencies, that is provided independently of at least one of said first and second signals, and wherein said generating step includes;
dividing said first signal at a first power divider to create a first divided signal and a second divided signal;
dividing said second signal at a second power divider to create a third divided signal and a fourth divided signal;
routing said second and fourth divided signals to a power combiner to create a combined output signal; and
determining a phase relationship between said first and second signals using said first divided signal and said third divided signal; and
controlling a delay associated with said second signal after said generating step. - View Dependent Claims (11)
routing said first divided signal to an input of a correlator circuit;
routing said third divided signal to a switch;
selecting said third divided signal at said switch to create a selected signal; and
routing said selected signal to a second input of said correlator circuit.
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13. An antenna apparatus, comprising:
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a plurality of antenna elements including at least first and second antenna elements, said first antenna element receiving a first signal and said second antenna element receiving a second signal; and
a determining circuit that includes processing circuitry that generates signals related to a first correlation envelope and a second correlation envelope and control circuitry responsive to said signals related to said first and second correlation envelopes to output a control signal having an amplitude, said control signal being used in controlling at least one of a time delay and a phase delay associated with said second signal. - View Dependent Claims (14, 15, 16, 17, 18)
said control circuitry includes control logic to determine the presence of a predetermined amplitude associated with said control signal.
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15. An apparatus, as claimed in claim 14, wherein;
said predetermined amplitude is a maximum amplitude associated with said control signal.
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16. An apparatus, as claimed in claim 13, wherein:
said control circuitry includes control logic to ascertain whether a control signal having a predetermined amplitude is present.
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17. An apparatus, as claimed in claim 13, wherein:
said processing circuit provides an in-phase signal and a quadrature signal using said first and second signals.
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18. An apparatus, as claimed in claim 13, wherein:
said processing circuitry includes a correlator circuit and said control circuitry includes a comparator circuit.
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19. A method for combining signals received by at least two displaced apertures of a multiple aperture antenna, comprising:
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providing at least first and second apertures having a first plurality of antenna elements and a second plurality of antenna elements, respectively;
outputting a first aperture output signal and a second aperture output signal using signals obtained from said first plurality of antenna elements and said second plurality of antenna elements, respectively; and
determining a combined adjusting signal using said first and second output signals, wherein said combined adjusting signal depends on signals related to a first correlation envelope and a second correlation envelope; and
controlling a delay related to said first and second aperture output signals using said combined adjusting signal. - View Dependent Claims (20, 21)
said first aperture output signal relates to signals received by said first plurality of antenna elements based on a transmit signal from said multiple aperture antenna.
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21. A method, as claimed in claim 20, wherein:
said combined adjusting signal depends on a determination related to whether a control signal has a maximum amplitude.
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22. An antenna apparatus, comprising:
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a first aperture including a first plurality of antenna elements that provides a first aperture output signal;
a second aperture including a second plurality of antenna elements that provides a second aperture output signal; and
determining circuitry responsive to said first and second aperture output signals to provide a combined adjusting signal used to adjust a delay related to said first and second aperture output signals, said combined adjusting signal being dependent on each of a time correlating signal and a phase correlating signal, said time correlating signal being related to an integer wavelength offset associated with said first and second antenna apertures and said phase correlating signal being related to a phase difference associated with said first and second antenna apertures. - View Dependent Claims (24, 25, 26)
said combined adjusting signal delays said first and second aperture output signals in each of time and phase.
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25. An antenna apparatus, as claimed in claim 22, further including:
a positional sensor that provides information related to at least a physical position of said first.
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26. An antenna apparatus, as claimed in claim 22, further including:
at least a third aperture including a third plurality of antenna elements.
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23. An antenna apparatus, comprising:
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a first aperture including a first plurality of antenna elements that provides a first aperture output signal;
a second aperture including a second plurality of antenna elements that provides a second aperture output signal; and
determining circuitry responsive to said first and second aperture output signals to provide a combined adjusting signal used to adjust a delay related to said first and second aperture output signals, wherein said determining circuitry includes processing circuitry that generates signals related to first and second correlation envelopes obtained from said first and second aperture output signals.
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Specification