Apparatus and methods for correcting dispersion in a microwave antenna system

US 4,297,708 A
Filed: 06/22/1978
Issued: 10/27/1981
Est. Priority Date: 06/24/1977
Status: Expired due to Term

First Claim

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1. A nondispersive microwave antenna system comprising:

(a) antenna means for radiating a microwave beam which exhibits variation in the direction of propagation of said beam in a first plane with variation in the frequency of said beam;

(b) lens means for controllably deflecting the direction of propagation of said beam in said first plane, said lens means comprising a plurality of networks located one behind the other, each in the direction of propagation of said beam and each network comprising a plurality of portions with said portions comprising first means for conducting said first means for conducting being cut into sections, second means for conducting and a plurality of first means for switching having conductive and non-conductive states, said first means for switching being spaced apart on said second means for conducting to selectively render said second means for conducting discontinuous when said first means for switching is in said non-conductive state to assure a shift in the phase of said beam passing through said portions of said networks depending upon said conductive and non-conductive states of said first means for switching in said portions of said networks; and

(c) control means for setting the state of conduction of said first means for switching to establish phase shifts in said beam in said portions which phase shifts correct for said variation in the direction of propagation of said beam with variation in the frequency of said beam.

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Abstract

A system for correcting for dispersion in a beam radiated by a flat microwave antenna due to variations in the frequency of operation by providing an electronically controlled phase shift of the beam in the plane of the dispersion. The methods consist of combining with the flat antenna a matrix of particular wire conductors of which certain are controlled such that the phase shift introduced by the matrix is able to correct for the dispersion of the flat antenna.

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13 Claims

1. A nondispersive microwave antenna system comprising:
- (a) antenna means for radiating a microwave beam which exhibits variation in the direction of propagation of said beam in a first plane with variation in the frequency of said beam;
  
  (b) lens means for controllably deflecting the direction of propagation of said beam in said first plane, said lens means comprising a plurality of networks located one behind the other, each in the direction of propagation of said beam and each network comprising a plurality of portions with said portions comprising first means for conducting said first means for conducting being cut into sections, second means for conducting and a plurality of first means for switching having conductive and non-conductive states, said first means for switching being spaced apart on said second means for conducting to selectively render said second means for conducting discontinuous when said first means for switching is in said non-conductive state to assure a shift in the phase of said beam passing through said portions of said networks depending upon said conductive and non-conductive states of said first means for switching in said portions of said networks; and
  
  (c) control means for setting the state of conduction of said first means for switching to establish phase shifts in said beam in said portions which phase shifts correct for said variation in the direction of propagation of said beam with variation in the frequency of said beam.
- View Dependent Claims (2, 3, 4, 5, 11, 12)
- - 2. The system of claim 1 wherein said antenna means comprises a set of parallel wave guides having slots lying in a second plane, said first and second means for conducting being parallel to each other and said first and second means for conducting being perpendicular to the axes of said wave guides.
  - 3. The system of claim 2 wherein said first and second means for conducting are embedded in a dielectric material in planes parallel to said second plane, said dielectric material both supporting said first and second means for conducting and aiding matching of said networks to said beam.
  - 4. The system of claim 3 wherein said first means for switching are diodes.
  - 5. The system of claim 4 wherein said control means includes second means for switching individually coupled to said second means for conducting to selectively control biasing of said diodes.
  - 11. The system of claim 1 wherein said antenna means is fed by a power divider of the Butler Matrix type.
  - 12. The system of claim 1 wherein said antenna means is a conical microwave antenna formed by the juxtaposition of wave guides of radiating elements put together on the generatrix of a cone or cylinder fed in groups of wave guides forming successive sections and said networks being placed along the exterior circumferences at the surface of revolution of the antenna and centered about its axis.

6. A flat microwave antenna, non-dispersive system comprising:
- (c) antenna means for radiating a microwave beam which exhibits variation in the direction of propagation of said beam in a first plane with variation in the frequency of said beam;
  
  (b) lens means for controllably deflecting the direction of propagation of said beam, said lens means comprising a plurality of first and second networks each divided into portions and said portions comprising first conductors cut into sections, second conductors, and a plurality of first means for switching having conductive and non-conductive states, said first means for switching being spaced apart on said second conductors to selectively render said second conductors discontinuous with said first means for switching in said non-conductive state to assure a shift in the phase of said beam passing through portions of said networks depending upon said conductive and non-conductive states of said first means for switching in said portions of said networks, said first and second conductors of said first networks lying parallel to each other, said first and second conductors of said second networks also lying parallel to one another, said first and second conductors of said first planar networks lying perpendicular to said first and second conductors of said second networks, said first networks positioned in front of said antenna means for deflecting the direction of propagation of said beam in said first plane and said second networks positioned in front of said antenna means for deflecting the direction of propagation of said beam perpendicular to the deflection of said first networks; and
  
  (c) control means for setting the state of conduction of said first means for switching in said first networks to establish phase shifts of said beam in said portions of said first networks which correct for said variation in the direction of propagation of said beam with variation in frequency of said beam, and for setting the state of conduction of said first means for switching in said second networks which provides for scanning of said beam without variation in the direction of propagation of said beam due to variation in the frequency of said beam.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The system of claim 6 wherein said antenna means comprises a set of end-fed parallel wave guides having slots lying in a second plane, said first and second conductors of said first planar network lying perpendicular to the axes of said wave guides.
  - 8. The system of claim 7 wherein said first and second conductors of both said first and second networks are embedded in dielectric material in planes parallel to said second plane, said dielectric material both supporting said conductors and aiding matching of said first and second networks to said beam.
  - 9. The system of claim 8 wherein said first means for switching are diodes.
  - 10. The system of claim 9 wherein said control means includes second means for switching individually coupled to said conductors of said first and second networks to selectively control biasing of said diodes.

13. A method for correcting dispersion in a microwave system comprising the steps of:
- (a) radiating a beam from an antenna, said antenna having an intrinsic phase shift which varies the direction of propagation from said antenna in a first plane with the frequency of said beam;
  
  (b) selecting a desired direction of propagation of said beam from said antenna;
  
  (c) positioning a lens apparatus in front of said antenna in the path of said beam, said lens apparatus comprising a plurality of networks of first conductors cut into sections and of second conductors which selectively can be varied between being continuous and being sectioned by the biasing of switches placed on the second conductors at spacings of less than twice but not one half the wave length of said beam radiated from said antenna, each of said networks being located one behind the other, and said positioning placing said first and second conductors in the path of said beam in such a manner that the phase shift of said beam produced by biasing of said switches is exactly in said first plane; and
  
  (d) controlling said switches for each frequency of said beam to establish a phase shift for each frequency as a result of said conductors which, when combined with said instrinsic phase shift, results in said beam propagating in said desired direction.

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Current Assignee
Societe D'Etude Du Radant
Original Assignee
Societe D'Etude Du Radant
Inventors
Vidal, Paul
Primary Examiner(s)
Lieberman, Eli

Application Number

US05/918,152
Time in Patent Office

1,223 Days
Field of Search

343/754, 343/854, 343/771
US Class Current

343/754
CPC Class Codes

H01Q 21/005 Slotted waveguides arrays

H01Q 3/46 Active lenses or reflecting...

Apparatus and methods for correcting dispersion in a microwave antenna system

First Claim

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Abstract

29 Citations

13 Claims

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Apparatus and methods for correcting dispersion in a microwave antenna system

First Claim

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Abstract

29 Citations

13 Claims

Specification

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