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Ultrasonic matching layer and transducer

A technology of ultrasonic transducers and matching layers, which can be used in sound-generating devices, ultrasonic/acoustic/infrasonic diagnosis, instruments, etc., and can solve difficult imaging problems

Active Publication Date: 2009-05-27
富士胶卷视声公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The technical effect described by this patented system or method can include various benefits that are explained below for different types of applications.

Problems solved by technology

The technical problem addressed by this patented method relates to studying rodents that lack skin or hair for better understanding when they use different types of tools like microscopes during experiments on their owners' body.

Method used

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Examples

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Embodiment 1

[0084] Example 1: Exemplary LiNb 20MHz to 25MHz Transducer with TPX Lens Laminate Manufacturing

[0085] 5 is a block diagram illustrating an exemplary method of fabricating an exemplary Li Nb 20MHz to 25MHz transducer with a TPX lens. The fabrication process is described below in three exemplary sections. First, the fabrication of matching and piezoelectric layers to form a stack is described. Second, the fabrication of the lens layer and cyanoacrylate matching layer is described. Finally, the process of bonding the lens and cyanoacrylate layer to the transducer stack is described.

[0086] Fabrication of matching and piezoelectric layers

[0087] Lithium niobate crystals are prepared for the piezoelectric layer, as shown in block 504 . A 36° Y-cut LiNb crystal was ground (lap) to a thickness of 0.4λ at the desired center frequency to compensate for mass loading. The crystal is plated with 3000 Angstroms of gold using suitable means such as electron beam deposition...

Embodiment 2

[0129] Example 2: For an exemplary broadband (85% to 95% of -6dB bandwidth) general high-frequency design of lithium niobate transducer

[0130] Table 1 shows the different layers that make up an exemplary transducer stack. This stack design can be used for transducers with center frequencies from 20 MHz to over 60 MHz.

[0131] Select the design center frequency f D , making it higher than the desired operating center frequency of the device f 0 , to compensate for mass loading that lowers the center frequency of the device. f D is the frequency at which the device operates in air without a lens and an air backing. For this exemplary design, f D is chosen to be approximately 1.15 to 1.25 times the desired center frequency of the final transducer. For example, for a 20MHz device, given the relationship shown in Table 1, one would choose f D = about 23MHz to 25MHz.

[0132] Table 1:

[0133]

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Abstract

In one aspect, matching layers for an ultrasonic transducer stack having a matching layer comprising a matrix material loaded with a plurality of micron-sized and nano-sized particles. In another aspect, the matrix material is loaded with a plurality of heavy and light particles. In another aspect, an ultrasound transducer stack comprises a piezoelectric layer and at least one matching layer. In one aspect, the matching layer comprises a composite material comprising a matrix material loaded with a plurality of micron-sized and nano-sized particles. In a further aspect, the composite material can also comprise a matrix material loaded with a plurality of heavy and light particles. In a further aspect, a matching layer can also comprise cyanoacrylate.

Description

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Claims

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Application Information

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Owner 富士胶卷视声公司
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