Chirp-based method and apparatus for performing distributed network phase calibration across phased array antenna
First Claim
1. For use with an electrical apparatus having a signal transport path along which a plurality of nodes are distributed, one of said nodes being coupled with a reference frequency signal source that is operative to generate a reference frequency signal that propagates along said signal transport path and is distributed thereby to others of said plurality of nodes, said signal transport path imparting a variable delay therethrough of said reference frequency signal employed by said apparatus to operate electrical devices at said nodes, as a result of temperature variations along said signal transport path, a method of providing a measure of delay through said signal transport path between said one of said nodes and a respective one of said others of said nodes, said method comprising the steps of:
- (a) at a selected location along said signal transport path that is farther away from said one of said nodes than said others of said nodes, injecting a chirp signal into said signal transport path so that said chirp signal propagates as an upstream chirp signal over said signal transport path and is reflected from said first node and propagates therefrom along said signal transport path as a downstream chirp signal; and
(b) at said respective node, extracting and processing said upstream chirp signal and said downstream chirp signal to derive a measure of signal transport delay through said signal transport path between said one of said nodes and said respective node.
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Abstract
A chirp-based arrangement derives a measure of phase variation through a reference frequency transport cable of a phased array antenna architecture, such as a spaceborne synthetic aperture radar system. A direct digital synthesized chirp signal is injected in an upstream direction into the transport cable from a downstream end thereof, so that the chirp signal is transmitted in an upstream direction, reflected from an upstream bandpass filter, and returned in a downstream direction. At each of a plurality of nodes that are distributed along the transport cable, the two chirp signals are extracted and frequency domain-processed to derive said measure of transport delay through the cable between the source of the reference frequency signal and each of the nodes.
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Citations
16 Claims
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1. For use with an electrical apparatus having a signal transport path along which a plurality of nodes are distributed, one of said nodes being coupled with a reference frequency signal source that is operative to generate a reference frequency signal that propagates along said signal transport path and is distributed thereby to others of said plurality of nodes, said signal transport path imparting a variable delay therethrough of said reference frequency signal employed by said apparatus to operate electrical devices at said nodes, as a result of temperature variations along said signal transport path, a method of providing a measure of delay through said signal transport path between said one of said nodes and a respective one of said others of said nodes, said method comprising the steps of:
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(a) at a selected location along said signal transport path that is farther away from said one of said nodes than said others of said nodes, injecting a chirp signal into said signal transport path so that said chirp signal propagates as an upstream chirp signal over said signal transport path and is reflected from said first node and propagates therefrom along said signal transport path as a downstream chirp signal; and
(b) at said respective node, extracting and processing said upstream chirp signal and said downstream chirp signal to derive a measure of signal transport delay through said signal transport path between said one of said nodes and said respective node. - View Dependent Claims (2, 3, 4, 5)
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6. An apparatus comprising:
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a signal transport path along which a plurality of nodes are distributed, said nodes having respective electrical devices coupled therewith;
a reference frequency signal source coupled with one of said nodes and being operative to generate a reference frequency signal that propagates along said signal transport path and is distributed thereby to others of said plurality of nodes, said signal transport path imparting a variable delay therethrough, of said reference frequency signal employed by said apparatus to operate said electrical devices at said nodes, as a result of temperature variations along said signal transport path;
a chirp signal generator, coupled with said signal transport path at a selected location therealong that is farther away from said one of said nodes than said others of said nodes, and being operative to inject a chirp signal into said signal transport path so that said chirp signal propagates as an upstream chirp signal over said signal transport path and is reflected from said first node and propagates therefrom along said signal transport path as a downstream chirp signal; and
a chirp signal processor coupled with a respective node of said others of said nodes, and being operative to extract and process said upstream chirp signal and said downstream chirp signal to derive a measure of signal transport delay through said signal transport path between said one of said nodes and said respective node. - View Dependent Claims (7, 8, 9, 10, 11)
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12. A method comprising the steps of:
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(a) distributing a plurality of nodes along a signal transport path;
(b) coupling a reference frequency signal generator to one of said nodes, so that a reference frequency signal generated thereby propagates in a downstream direction along said signal transport path and is distributed to others of said plurality of nodes, said signal transport path imparting a variable delay therethrough of said reference frequency signal, as a result of temperature variations along said signal transport path;
(c) at a selected location along said signal transport path that is farther away from said one of said nodes than said others of said nodes, injecting a chirp signal into said signal transport path so that said chirp signal propagates as an upstream chirp signal over said signal transport path and is reflected from said first node and propagates therefrom along said signal transport path as a downstream chirp signal; and
(d) at each of said other nodes, extracting and processing said upstream chirp signal and said downstream chirp signal to derive a measure of signal transport delay through said signal transport path between said one of said nodes and said each node. - View Dependent Claims (13, 14, 15, 16)
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Specification