Claims
- 1. A slotted waveguide antenna for providing a beam of energy, the pattern of which may be varied, comprising:
- a circular waveguide through which energy of a circumferential mode equal to or greater than may be propagated, said energy having current flow lines which are helical in relation to said waveguide, said propagated energy including energy of a first circulating mode and energy of a second circulating mode;
- a first slot formed in said waveguide and being oriented such that the long dimension of said slot is at an angle of greater than zero degrees with respect to the helical currents of said energy of a first circulating mode and the long dimension of said slot is parallel to the helical currents of said energy of a second circulating mode;
- a second slot formed in said waveguide and being oriented such that the long dimension of said slot is at an angle of greater than zero degrees with respect to the helical currents of said energy of a second circulating mode and the long dimension of said slot is parallel to the helical currents of said energy of a first circulating mode;
- mode transducer means for feeding the circular waveguide with orthogonally polarized modes of the energy to be propagated;
- circular polarizer means for circularly polarizing the energy propagated through the circular waveguide; and
- control means for controlling the relative amplitudes and phases of the energy applied to the orthomode transducer so that the pattern of the beam may be varied.
- 2. The slotted waveguide antenna of claim 1 further comprising:
- a first array of slots formed in said waveguide which are separated from each other by approximately the distance of .lambda..sub.g and are oriented substantially the same as said first slot and are aligned therewith;
- a second array of slots formed in said waveguide which are separated from each other by approximately the distance of .lambda..sub.g and are oriented substantially the same as said second slot and are aligned therewith.
- 3. The slotted waveguide antenna of claim 1 wherein said control means comprises:
- splitter means for splitting said energy to be applied to said mode transducer means into two parts;
- coupling means for applying one part of said split energy to a first port of said mode transducer means and for applying the second part of said split energy to a second port of said mode transducer means; and
- phase control means for controlling the phase of energy fed through one of the ports of said mode transducer means.
- 4. The slotted waveguide antenna of claim 1 wherein said circular waveguide comprises coaxial waveguide.
- 5. The slotted waveguide antenna of claim 1 wherein selected slots are coupled to absorption means for absorbing energy coupled by said selected slots.
- 6. The slotted waveguide antenna of claim 1 wherein said waveguide is dielectically loaded whereby energy may be propagated in an endfire direction.
- 7. The slotted waveguide antenna of claim 1 wherein the first and second slots are positioned in relation to each other such that they form crossed slots.
- 8. The slotted waveguide antenna of claim 2 wherein the first array of slots and the second array of slots are positioned in relation to each other that they form crossed slots.
- 9. The slotted waveguide antenna of claim 2 wherein said control means comprises:
- splitter means for splitting said energy to be applied to said mode transducer means into two parts;
- coupling means for applying one part of said split energy to a first port of said mode transducer means and for applying the second part of said split energy to a second port of said mode transducer means; and
- phase control means for controlling the phase of energy fed through one of the ports of said mode transducer means.
- 10. The slotted waveguide antenna of claim 2 wherein the circular waveguide has an end at which is disposed a short circuit means for providing a polarization reversing short circuit to the energy propagating in the waveguide.
- 11. A slotted waveguide antenna for providing a beam of energy, the pattern of which may be varied, comprising:
- a circular waveguide through which energy of a circumferential mode equal to or greater than may be propagated, said energy having current flow lines which are helical in relation to said waveguide, said propagated energy including energy of a first circulating mode and energy of a second circulating mode;
- a first array of slots formed in said waveguide and being oriented such that the long dimension of said slots is at an angle of greater than zero degrees with respect to the helical currents of said energy of a first circulating mode and the long dimension of said slots is parallel to the helical currents of said energy of a second circulating mode;
- a second array of slots formed in said waveguide and being oriented such that the long dimension of said slots is at an angle of greater than zero degrees with respect to the helical currents of said energy of a second circulating mode and the long dimension of said slots is parallel to the helical currents of said energy of a first circulating mode;
- mode transducer means for feeding the circular waveguide with orthogonally polarized modes of the energy to be propagated;
- circular polarizer means for circularly polarizing the energy propagated through the circular waveguide; and
- control means for controlling the relative amplitudes and phases of the energy applied to the orthomode transducer so that the pattern of the beam may be varied.
- 12. The slotted waveguide antenna of claim 11 wherein the circular waveguide has an end at which is disposed a short circuit means for providing a polarization reversing short circuit to the energy propagating in the waveguide.
- 13. The slotted waveguide of antenna of claim 11 wherein the first array of slots and the second array of slots are positioned in relation to each other such that they form crossed slots.
- 14. The slotted waveguide antenna of claim 11 wherein said control means comprises:
- splitter means for splitting said energy to be applied to said mode transducer means into two parts;
- coupling means for applying one part of said split energy to a first port of said mode transducer means and for applying the second part of said split energy to a second port of said mode transducer means; and
- phase control means for controlling the phase of energy fed through one of the ports of said mode transducer means.
Parent Case Info
This is a division of application Ser. No. 07/006,533 filed Jan. 23, 1987, now U.S. Pat. No. 4,825,219.
US Referenced Citations (7)
Divisions (1)
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Number |
Date |
Country |
Parent |
6533 |
Jan 1987 |
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