Surface acoustic wave device employing reflectors
First Claim
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1. A resonant surface acoustic wave device comprising:
- a substrate comprising piezoelectric ceramic material;
one or more surface acoustic wave transducers each disposed exclusively on only one selected surface of said substrate, and each comprising a pair of electrodes formed with substantially linear, parallel, and mutually interdigitated fingers, said electrodes all being disposed on said same substrate surface and adapted to be connected to opposite sides of an electrical circuit;
and at least two surface acoustic wave reflectors disposed on said same substrate surface on opposite sides of said transducer or transducers and acoustically coupled thereto, such reflectors being disposed exclusively at locations spaced apart from said transducer or transducers in directions parallel to said substrate surface and comprising a plurality of individual substantially linear reflector elements which are disposed substantially parallel to said transducer electrode fingers and spaced respective different distances from said fingers such that their respective surface acoustic reflections are substantially in phase with respect to a surface acoustic wave which is within a selected frequency range;
said reflector elements each comprising a remanent electric domain reversal which is formed in said piezoelectic ceramic material adjacent said same substrate surface.
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Abstract
Electric domain reversals are arranged in parallel arrays on a piezoelectric ceramic substrate to form strong reflectors of surface acoustic waves in devices such as filters, resonators and the like. The domains are prepared by a poling process involving the use of a selective electrode pattern to which a high DC voltage is applied at a temperature above ambient but below the Curie temperature of the substrate.
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Citations
2 Claims
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1. A resonant surface acoustic wave device comprising:
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a substrate comprising piezoelectric ceramic material; one or more surface acoustic wave transducers each disposed exclusively on only one selected surface of said substrate, and each comprising a pair of electrodes formed with substantially linear, parallel, and mutually interdigitated fingers, said electrodes all being disposed on said same substrate surface and adapted to be connected to opposite sides of an electrical circuit; and at least two surface acoustic wave reflectors disposed on said same substrate surface on opposite sides of said transducer or transducers and acoustically coupled thereto, such reflectors being disposed exclusively at locations spaced apart from said transducer or transducers in directions parallel to said substrate surface and comprising a plurality of individual substantially linear reflector elements which are disposed substantially parallel to said transducer electrode fingers and spaced respective different distances from said fingers such that their respective surface acoustic reflections are substantially in phase with respect to a surface acoustic wave which is within a selected frequency range; said reflector elements each comprising a remanent electric domain reversal which is formed in said piezoelectic ceramic material adjacent said same substrate surface.
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2. A resonant surface acoustic wave device comprising:
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a substrate comprising piezoelectric ceramic material; two surface acoustic wave transducers each disposed exclusively on only one selected surface of said substrate, and each comprising a pair of electrodes formed with substantially linear, parallel, and mutually interdigitated fingers, said electrodes of both said transducers all being disposed on said same substrate surface and adapted to be connected to opposite sides of an electrical circuit; and at least two surface acoustic wave reflectors disposed on said same substrate surface on opposite sides of both said transducers and acoustically coupled thereto, such reflectors being disposed exclusively at locations spaced apart from both said transducers in directions parallel to said substrate surface and comprising a plurality of individual substantially linear reflector elements which are disposed substantially parallel to said transducer electrode fingers and spaced respective different distances from said fingers such that their respective surface acoustic reflections are substantially in phase with respect to a surface acoustic wave traveling upon said surface within a selected frequency range; said reflector elements each comprising a remanent electric domain reversal which is formed in said piezoelectric ceramic material adjacent said same substrate surface.
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Specification