Unambiguous wide baseline interferometer
First Claim
1. In a system for receiving an RF signal having envelopes of RF carrier cycles, said RF carrier cycles having zero crossings, means for measuring the differential arrival time of said RF signal at two antennas spaced apart by a distance greater than one wavelength of the RF carrier, comprising first and second triggering means, one for each antenna, each said first and second triggering means having a digital output, said first and second triggering means being responsive to said zero crossings of said RF carrier cycles from its respective said antenna and providing outputs preserving RF carrier phase differential from said antennas, and timer means for measuring the time difference between said outputs of said first and second triggering means.
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Abstract
The angle of arrival (θ) of an RF signal is determined using only two widely spaced antennas (A, B). A coarse/fine measurement system (40) is disclosed wherein the actual time delay between zero-crossings responsive to the same RF carrier cycle within the pulse envelope arriving at each antenna is determined. There is no need for additional antenna pairs with different baselines to otherwise resolve ambiguity.
34 Citations
20 Claims
- 1. In a system for receiving an RF signal having envelopes of RF carrier cycles, said RF carrier cycles having zero crossings, means for measuring the differential arrival time of said RF signal at two antennas spaced apart by a distance greater than one wavelength of the RF carrier, comprising first and second triggering means, one for each antenna, each said first and second triggering means having a digital output, said first and second triggering means being responsive to said zero crossings of said RF carrier cycles from its respective said antenna and providing outputs preserving RF carrier phase differential from said antennas, and timer means for measuring the time difference between said outputs of said first and second triggering means.
- 4. In a system for receiving an RF signal having envelopes of RF carrier cycles, means for measuring the differential arrival time of said RF signal at two antennas spaced apart by a distance greater than one wavelength of the RF carrier, comprising first and second digital counter divider means, one for each antenna, responsive to said RF signal from its respective said antenna and outputting one or more digital submultiples of said RF carrier and preserving RF carrier phase differential from said antennas, and means for measuring the time difference between said digital submultiples of said RF carrier from said antennas.
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14. In a system for receiving an RF signal having envelopes of RF carrier cycles, means for measuring the differential arrival time of said RF signal at two antennas spaced apart by a distance greater than one wavelength of the RF carrier, comprising:
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first and second digital counter divider means, one for each antenna, responsive to said RF signal from its respective said antenna and outputting one or more digital transitions in response to said RF carrier and preserving RF carrier phase differential from said antennas; first and second transition detector means responsive to the output of respective said divider means; timer means responsive to said first and second transition detector means for measuring the time difference between a transition detection from said first divider means triggered from said first antenna and a transition detection from said second divider means triggered from said second antenna, to provide a fine measure of said differential arrival time; means for detecting envelope arrival at said antennas to provide a coarse, and, in combination with said fine measure, an unambiguous measure of said differential arrival time. - View Dependent Claims (15, 16)
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17. In a system for receiving an RF signal having envelopes of RF carrier cycles, means for measuring the differential arrival time of said RF signal at two antennas spaced apart by a distance greater than one wavelength of the RF carrier, comprising:
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first and second digital counter divider chains, one for each antenna, responsive to said RF signal from its respective said antenna and outputting a plurality of different frequency digital submultiples of said RF carrier and preserving RF carrier phase differential from said antennas; first and second zero-crossing detector means, one for each antenna, responsive to the output of respective said divider chains; first and second means, one for each zero-crossing detector, for selectively choosing a respective given said digital submultiple to be detected by its respective said zero-crossing detector such that a mid-envelope zero-crossing is detected; timer means responsive to said first and second zero-crossing detector means for measuring the time difference between a mid-envelope zero-crossing from said first divider chain responsive to said first antenna and a mid-envelope zero-crossing from said second divider chain responsive to said second antenna; first and second threshold detector means, one for each antenna, responsive to said RF signal for enabling the respective divider chain; first and second delay means, one for each antenna, for delaying said RF signal to the respective said divider chain such that the enabling signal from the respective said threshold detector means reaches said divider chain before said RF signal, whereby said divider chain is enabled and ready to divide said RF carrier to said digital submultiples before arrival of the leading RF carrier triggering cycle; first and second limiting amplifier means, one for each antenna, connected between respective said delay means and divider chain, and enabled by respective said threshold detector means; first and second receiver means, one for each antenna, connected between respective said delay means and antenna, and converting a received RF signal to a lower frequency, such as IF, for passage to respective said delay means, limiting amplifier means, divider chain and zero-crossing detector means; means for detecting envelope arrival at said antennas to provide a coarse, and, in combination with said accurate mid-envelope zero-crossing detection, an unambiguous measure of said differential arrival time; and heterodyne mixer means having one input coupled to a given frequency digital submultiple of said first divider chain and another input coupled to the same given frequency submultiple of said second divider chain, for detecting RF carrier phase differential at said antennas to provide a further accurate fine measure of said differential arrival time.
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18. In a system receiving an RF signal having envelopes of RF carrier cycles, a technique for measuring the differential arrival time of said RF signal at two antennas spaced apart by a distance greater than one wavelength of the RF carrier, comprising in combination:
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detecting envelope arrival at said antennas to provide a coarse measure of said differential arrival time; and detecting RF phase differential at said antennas to provide, in combination with said coarse measure, an unambiguous fine measure of said differential arrival time. - View Dependent Claims (19, 20)
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Specification