Frequency coded sensors incorporating tapers

US 7,791,249 B2
Filed: 06/26/2007
Issued: 09/07/2010
Est. Priority Date: 06/26/2006
Status: Expired due to Fees

First Claim

Patent Images

1. A sensor, comprising:

a coded finite impulse response surface acoustic wave device, including;

(a) a piezoelectric substrate;

(b) at least one first transducer arranged on at least a portion of said piezoelectric substrate wherein said at least one first transducer has electrode structures that vary in width and separation so as to generate and receive acoustic waves in spatially adjacent acoustic tracks at frequencies that vary laterally across a transducer acoustic aperture of said at least one first transducer in a direction perpendicular to a direction of acoustic wave propagation, said at least one first transducer having first transducer sub-elements each having a physical center, said physical centers of said first transducer sub-elements being aligned along a common center line;

(c) at least one second surface acoustic wave element on said piezoelectric substrate and spaced from said at least one first transducer along the direction of acoustic wave propagation, said at least one second surface acoustic wave element comprising sub-elements, said sub-elements each comprises electrode structures that are operable to interact with acoustic waves at frequencies that correspond to a subset of the frequencies generated by said at least one first transducer, said sub-elements of said at least one second surface acoustic wave element each having a physical center; and

(d) wherein the at least one second surface acoustic wave element is structured such that said sub-elements of said second surface acoustic wave element are spatially distributed laterally across the acoustic aperture to receive the lateral spatial distribution of frequencies from said first transducer, said physical centers of said sub-elements of said at least one second surface acoustic wave element being spaced at different center to center positions in the direction of acoustic wave propagation relative to said common center line of said first transducer, so as to effect different delays within each of said acoustic tracks, thereby effecting a code,wherein a parameter to be measured affects the acoustic wave propagation within said device.

View all claims

5 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A surface acoustic wave device includes a piezoelectric substrate on which is formed a transducer that generates acoustic waves on the surface of the substrate from electrical waves received by the transducer. The waves are carried along an acoustic track to either a second transducer or a reflector. The transducers or transducer and reflector are formed of subsections that are constructed to operate at mutually different frequencies. The subsections of at least one of the transducers or transducer and reflector are out of alignment with respect to one another relative to the transverse of the propagation direction. The out of aligned subsections provide not only a frequency component but also a time to the signal output signal. Frequency response characteristics are improved. An alternative embodiment provides that the transducers and/or reflectors are continuously tapered instead of having discrete frequency subsections.

Citations

11 Claims

1. A sensor, comprising:
- a coded finite impulse response surface acoustic wave device, including;
  
  (a) a piezoelectric substrate;
  
  (b) at least one first transducer arranged on at least a portion of said piezoelectric substrate wherein said at least one first transducer has electrode structures that vary in width and separation so as to generate and receive acoustic waves in spatially adjacent acoustic tracks at frequencies that vary laterally across a transducer acoustic aperture of said at least one first transducer in a direction perpendicular to a direction of acoustic wave propagation, said at least one first transducer having first transducer sub-elements each having a physical center, said physical centers of said first transducer sub-elements being aligned along a common center line;
  
  (c) at least one second surface acoustic wave element on said piezoelectric substrate and spaced from said at least one first transducer along the direction of acoustic wave propagation, said at least one second surface acoustic wave element comprising sub-elements, said sub-elements each comprises electrode structures that are operable to interact with acoustic waves at frequencies that correspond to a subset of the frequencies generated by said at least one first transducer, said sub-elements of said at least one second surface acoustic wave element each having a physical center; and
  
  (d) wherein the at least one second surface acoustic wave element is structured such that said sub-elements of said second surface acoustic wave element are spatially distributed laterally across the acoustic aperture to receive the lateral spatial distribution of frequencies from said first transducer, said physical centers of said sub-elements of said at least one second surface acoustic wave element being spaced at different center to center positions in the direction of acoustic wave propagation relative to said common center line of said first transducer, so as to effect different delays within each of said acoustic tracks, thereby effecting a code,wherein a parameter to be measured affects the acoustic wave propagation within said device.

2. A coded surface acoustic wave device, comprising:
- a finite impulse response device including;
  
  (a) a piezoelectric substrate;
  
  (b) at least one first transducer on at least a portion of said piezoelectric substrate wherein said first transducer has electrode structures that vary in width and separation so as to generate and receive acoustic waves in spatially adjacent acoustic tracks at frequencies that vary laterally across an transducer acoustic aperture of said at least one first transducer in a direction perpendicular to a direction of acoustic wave propagation, said at least one first transducer having a physical center line extending laterally across the transducer acoustic aperture;
  
  (c) at least one second surface acoustic wave element on said piezoelectric substrate and spaced from said at least one first transducer along the direction of acoustic wave propagation, said at least one second surface acoustic wave element comprising sub-elements, each of said sub-elements comprises electrode structures that are operable to interact with acoustic waves at frequencies that correspond to a subset of the frequencies generated by said at least one first transducer, said sub-elements each having a physical center;
  
  (d) wherein said sub-elements of said at least one second surface acoustic wave element are spatially distributed laterally across the acoustic aperture to match the lateral spatial distribution of frequencies in said first transducer; and
  
  (e) wherein said at least one second surface acoustic wave element is structured such that said sub-elements of said second surface acoustic wave element are spaced at different center-to-center positions in the direction of acoustic wave propagation relative to the center line of the corresponding portion of said first transducer, so as to effect different delays within each of said acoustic tracks, thereby effecting a code.
- View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 3. A coded surface acoustic wave device as defined in claim 2, wherein said at least one second surface acoustic wave element comprises a transducer made up of electrically connected sub-transducers.
  - 4. A coded surface acoustic wave device as defined in claim 2, wherein said at least one second surface acoustic wave element comprises a reflector made up of sub-reflectors.
  - 5. A coded surface acoustic wave device as defined in claim 2, wherein said at least one second surface acoustic wave element comprises at least two second surface acoustic wave elements connected with said piezoelectric substrate spaced from said at least one first transducer.
  - 6. A coded surface acoustic wave device as defined in claim 5, wherein said at least two second surface acoustic wave elements are mirror images of one another and are located on opposite sides of said at least one first transducer.
  - 7. A coded surface acoustic wave device as defined in claim 5, wherein the said at least one first transducer comprises at least two electrically connected transducers spaced in different acoustic tracks, and wherein said at least two second surface acoustic wave elements are spaced from and located on at least one side of said first transducers.
  - 8. A coded surface acoustic wave device as defined in claim 2, wherein said electrode structures of said first transducer and said electrode structures of at least one of said sub-elements of said at least one second surface acoustic wave elements include parallel electrodes.
  - 9. A coded surface acoustic wave device as defined in claim 2, wherein said electrode structures of said first transducer and said electrode structures of at least one of said sub-elements of said at least one second surface acoustic wave elements include continuously tapered electrodes.
  - 10. A coded surface acoustic wave device as defined in claim 2, wherein said at least one second surface acoustic wave element includes busbars, and further comprising:
    - an external sensing element electrically connected to at least a subset of said busbars of said at least one second surface acoustic wave element.
  - 11. A sensor, comprising:
    - a coded surface acoustic wave device as defined in claim 10, wherein the parameter to be measured affects the electrical impedance of said external sensing element, thereby altering the performance of said device.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Sensanna Incorporated
Original Assignee
Applied Sensor Research & Development Corporation (Sensanna Incorporated)
Inventors
Solie, Leland P., Hines, Jacqueline H.
Primary Examiner(s)
Benson; Walter
Assistant Examiner(s)
ROSENAU, DEREK JOHN

Application Number

US11/768,428
Publication Number

US 20070296305A1
Time in Patent Office

1,169 Days
Field of Search

310/313.R, 310/313.A, 310/313.B, 310/313.C, 310/313.D
US Class Current

310/313.00B
CPC Class Codes

H03H 2240/00 Indexing scheme relating to...

H03H 9/14547 Fan shaped; Tilted; Shifted...

Frequency coded sensors incorporating tapers

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

Citations

11 Claims

Specification

Solutions

Use Cases

Quick Links

Frequency coded sensors incorporating tapers

First Claim

5 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

11 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links