Claims
- 1. A multiple-channel acousto-electric convolver, comprising:
- (a) a plurality of single-channel acousto-electric convolvers having their first input interdigital transducers connected in parallel and their second input interdigital transducers connected in parallel; each of said single-channel convolvers comprising:
- (1) a body of piezoelectric material for inducing electric field variations along a propagation path thereon for counter-propagating surface acoustic waves, said propagation path having a selected length;
- (2) space-charge-enhancement means for interacting with said electric field variations; and
- (3) coupler means for sensing said electric field variations and coupling them into said space-charge-enhancement means, wherein said coupler means is disposed over a segment of said propagation path, wherein said segment has a length less than said selected propagation path length, and wherein said segment for each single-channel convolver is positioned on said body relative to the ends of said propagation path sufficiently offset from the relative segment position for each remaining single-channel convolver in said plurality of single-channel convolvers that electric field variations sensed by said coupling means on any one single-channel convolver differ significantly from those sensed on any other of said plurality of single-channel convolvers; and
- (b) means for combining the effects of said electric field variations on said space-charge-enhancement means of said plurality of single-channel convolvers in a single output signal.
- 2. A multiple-channel acousto-electric convolver as recited in claim 1 wherein said selected length of said propagation path is the same for each of said plurality of similar single-channel acousto-electric convolvers.
- 3. A multiple-channel acousto-electric convolver as recited in claim 2 wherein said length of said segment of said propagation path is the same for each of said plurality of similar single-channel acousto-electric convolvers.
- 4. A multiple-channel acousto-electric convolver as recited in claim 3 wherein a distribution for disposing said coupling means over said segments of said plurality of propagation paths is selected to provide said multiple-channel convolver with an effective propagation path length greater than said length of any one of said segments.
- 5. A multiple-channel acousto-electric convolver as recited in claim 4 wherein said effective propagation path length is substantially equal to said selected propagation path length.
- 6. A multiple-channel acousto-electric convolver as recited in claim 1 wherein said space-charge-enhancement means comprises a body of semiconductor material and wherein said coupler means is a multistrip coupler.
- 7. A multiple-channel acousto-electric convolver as recited in claim 1 wherein said space-charge-enhancement means comprises an array of interconnected diodes and wherein said coupler means is an array of interdigital transducer taps.
- 8. A multiple-channel acousto-electric convolver as recited in claim 1, further comprising output means for an output signal in which is combined the effects of said electric field variations as coupled into said space-charge-enhancement means for said plurality of similar single-channel acousto-electric convolvers.
Government Interests
The invention herein described was made in the course of or under a contract or subcontract thereunder, with the U.S. Army.
US Referenced Citations (13)
Foreign Referenced Citations (1)
Number |
Date |
Country |
509977 |
Sep 1976 |
SUX |
Non-Patent Literature Citations (1)
Entry |
In Re Harza, 124 USP2 379. |