Claims
- 1. An edge-guided mode microwave transmission device, comprising in combination:
- a ground plane;
- ferromagnetic substrate means of a predetermined thickness located on said ground plane;
- at least two mutually separated stripline conductors of substantially like conductor patterns formed on said substrate means, each pattern having a pair of conductive edges, one edge of which includes at least one tapered edge segment adapted to effect energy transfer therealong for a predetermined biasing magnetic field;
- means providing a biasing magnetic field of a predetermined magnitude and which is applied transverse to said ground plane;
- resistive load means commonly applied over a predetermined length of the other conductive edge of said at least two conductors;
- a first signal port coupled to one end of one of said two conductors;
- a second signal port coupled to a like end of the other of said two conductors; and
- a third signal port commonly coupled to the opposite end of said two conductors.
- 2. The device as defined by claim 1 wherein said substrate means comprises a pair of substrates having a predetermined separation therebetween.
- 3. The device as defined by claim 2 wherein said pair of substrates comprises a pair of planar substrates of ferrite.
- 4. The device as defined by claim 3 wherein said two stripline conductors are disposed mutually parallel and wherein said other conductive edge of said conductors are substantially linear and constitute the inner conductive edge of said device while said one edge constitutes the outer conductive edge.
- 5. The device as defined by claim 4 wherein said at least one tapered edge segment comprises an exponential taper of predetermined length.
- 6. The device as defined by claim 5 wherein said one edge includes a second exponentially tapered edge segment, said first and second segments being respectively located adjacent each end of the respective stripline conductor.
- 7. The device as defined by claim 6 wherein the tapered edge segment adjacent the third signal port is of a greater length than the tapered portion adjacent the signal port coupled to the other end.
- 8. The device as defined by claim 7 wherein said resistive load means is located intermediate said first and second tapered edge segments.
- 9. The device as defined by claim 8 wherein said resistive load means comprises a resistive film overlaying both said conductors, said resistive film being adapted to absorb any energy traveling along said other conductive edge from said third signal port.
- 10. The device as defined by claim 9 wherein said first, second and third signal ports include coaxial connectors.
- 11. The device as defined by claim 10 wherein said first and second coaxial connectors are located adjacent one another at one end of said device while said third coaxial connector is located at the other end of said device.
Government Interests
The invention described herein may be manufactured and used by or for the Government for governmental purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
3845413 |
Chiron et al. |
Oct 1974 |
|