18597588. ACOUSTIC WAVE DEVICE WITH MULTI-PERIOD ARCCOSINE APODIZATION simplified abstract (Qorvo US, Inc.)
Contents
ACOUSTIC WAVE DEVICE WITH MULTI-PERIOD ARCCOSINE APODIZATION
Organization Name
Inventor(s)
Shogo Inoue of Longwood FL (US)
ACOUSTIC WAVE DEVICE WITH MULTI-PERIOD ARCCOSINE APODIZATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 18597588 titled 'ACOUSTIC WAVE DEVICE WITH MULTI-PERIOD ARCCOSINE APODIZATION
The abstract describes an acoustic wave device with a piezoelectric layer and an interdigital electrode structure. The electrode structure includes first and second electrode fingers interleaved with each other, following a periodic arccosine apodization function over at least two adjacent fingers.
- The device has a plurality of first electrode fingers extending from a first busbar towards a first apodization edge, and a plurality of second electrode fingers extending from a second busbar towards a second apodization edge.
- The first and second apodization edges follow a periodic arccosine apodization function over at least two adjacent electrode fingers.
- The number of periods of the apodization edges is at least 2.
- The distance between an electrode finger and the apodization function is less than or equal to a predetermined percentage of the apodization amplitude.
Potential Applications: - Acoustic wave sensors - Medical ultrasound devices - Industrial non-destructive testing equipment
Problems Solved: - Improved acoustic wave device performance - Enhanced signal processing capabilities - Increased sensitivity and accuracy in acoustic measurements
Benefits: - Higher resolution in acoustic wave applications - Greater control over signal modulation - Enhanced device reliability and longevity
Commercial Applications: Title: Advanced Acoustic Wave Devices for Precision Applications This technology can be utilized in various industries such as healthcare, manufacturing, and research for precise acoustic wave measurements and signal processing. The market implications include improved product quality, increased efficiency, and expanded capabilities in acoustic sensing technologies.
Prior Art: Readers can explore prior research on piezoelectric materials, interdigital electrode structures, and acoustic wave devices to understand the evolution of this technology.
Frequently Updated Research: Stay updated on advancements in piezoelectric materials, signal processing algorithms, and acoustic wave device design to enhance the performance and applications of this technology.
Questions about Acoustic Wave Devices: 1. How does the interleaved electrode structure contribute to the performance of the acoustic wave device? 2. What are the key factors influencing the design of the apodization edges in the device?
Original Abstract Submitted
An acoustic wave device includes a piezoelectric layer and an interdigital electrode structure over the piezoelectric layer. The interdigital electrode structure includes a plurality of first electrode fingers extending from a first busbar towards a first apodization edge, and a plurality of second electrode fingers extending from a second busbar towards a second apodization edge. The plurality of first electrode fingers and the plurality of second electrode fingers are interleaved with one another. At least one of the first apodization edge or the second apodization edge follows a periodic arccosine apodization function over at least two adjacent electrode fingers. A number of periods of the first apodization edge or the second apodization edge is at least 2. A first distance between one of a first electrode finger or a second electrode finger and the respective periodic arccosine apodization function is less than or equal to a predetermined percentage of an apodization amplitude.