Method and system for orienting a phased array antenna
First Claim
1. A method for orienting a communications antenna, the method comprising:
- segmenting a receive phase array antenna into N sub-arrays with M-antenna elements in each sub-array;
receiving, a known signal, by each of the M-antenna elements of at least four (4) of the N-sub-arrays;
scanning in a direction of the known signal by applying a beam weight associated with each of the M-antenna elements in each of the at least 4-sub-arrays to obtain M-weighted signals for each of the at least 4-sub-arrays;
combining the M-weighted signals for each of the at least 4-sub-arrays into signals A, B, C, and D, respectively;
generating an azimuth difference signal per a weighted sum of (A+B) and (C+D); and
computing the weights of the azimuth difference signal, such that the azimuth difference signals is driven to a zero signal,wherein N is greater than or equal to four (4) and M is greater than or equal to one (1).
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Abstract
A receive planar phased array antenna on a communications platform is used to estimate a pointing error of the antenna and to orient the antenna boresight towards the transmitter. A method for orienting the communications antenna includes: segmenting a receive phase array antenna into N sub-arrays with M-antenna elements in each sub-array; receiving, a known signal, by each of the M-antenna elements of at least four (4) of the N-sub-arrays; scanning in a direction of the known signal by applying a beam weight associated with each of the M elements in each of the at least 4-sub-arrays to obtain M-weighted signals for each of the at least 4-sub-arrays; combining the M-weighted signals for each of the at least 4-sub-arrays into signals A, B, C and D, respectively; generating an azimuth difference signal per a weighted sum of (A+B) and (C+D) and an elevation difference signal per a weighted sum of (A+C) and (B+D); computing the weights of the azimuth difference signal, such that the azimuth difference signals is driven to a zero signal; and computing the weights of the elevation difference signal, such that the elevation difference signal is driven to a zero signal.
18 Citations
20 Claims
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1. A method for orienting a communications antenna, the method comprising:
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segmenting a receive phase array antenna into N sub-arrays with M-antenna elements in each sub-array; receiving, a known signal, by each of the M-antenna elements of at least four (4) of the N-sub-arrays; scanning in a direction of the known signal by applying a beam weight associated with each of the M-antenna elements in each of the at least 4-sub-arrays to obtain M-weighted signals for each of the at least 4-sub-arrays; combining the M-weighted signals for each of the at least 4-sub-arrays into signals A, B, C, and D, respectively; generating an azimuth difference signal per a weighted sum of (A+B) and (C+D); and computing the weights of the azimuth difference signal, such that the azimuth difference signals is driven to a zero signal, wherein N is greater than or equal to four (4) and M is greater than or equal to one (1). - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for orienting a communications antenna, the method comprising:
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segmenting a receive phase array antenna into N sub-arrays with M-antenna elements in each sub-array; receiving, a known signal, by each of the M-antenna elements of at least four (4) of the N-sub-arrays; scanning in a direction of the known signal by applying a beam weight associated with each of the M-antenna elements in each of the at least 4-sub-arrays to obtain M-weighted signals for each of the at least 4-sub-arrays; combining the M-weighted signals for each of the at least 4-sub-arrays into signals A, B, C, and D, respectively; generating an elevation difference signal per a weighted sum of (A+C) and (B+D); and computing the weights of the elevation difference signal, such that the elevation difference signal is driven to a zero signal, wherein N is greater than or equal to four (4) and M is greater than or equal to one (1). - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification
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- Resources
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Current AssigneeHughes Network Systems LLC (Echostar Corporation)
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Original AssigneeHughes Network Systems LLC (Echostar Corporation)
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InventorsNoerpel, Anthony, Bhaskar, Uday R., Becker, Neal David, Kay, Stanley E.
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Primary Examiner(s)Cumming, William D
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Application NumberUS16/054,062Publication NumberTime in Patent Office550 DaysField of SearchUS Class CurrentCPC Class CodesH01Q 1/1257 using the received signal s...H01Q 1/288 Satellite antennasH01Q 21/0087 Apparatus or processes spec...H01Q 21/06 Arrays of individually ener...H01Q 21/065 Patch antenna arrayH01Q 21/22 Antenna units of the array ...H01Q 3/26 varying the relative phase ...H01Q 3/2605 Array of radiating elements...H01Q 3/34 by electrical means active ...H04B 7/0842 Weighted combiningH04B 7/18504 Aircraft used as relay or h...H04B 7/18506 Communications with or from...H04B 7/18515 Transmission equipment in s...H04B 7/18517 Transmission equipment in e...H04B 7/18519 Operations control, adminis...H04B 7/18523 Satellite systems for provi...H04B 7/18532 Arrangements for managing t...H04W 16/26 Cell enhancers or enhanceme...H04W 16/28 using beam steering
