频率在25兆赫以上的医学成像阵列

1999 IEEE Ultrasonics Symposium. Proceedings. International Symposium (Cat. No.99CH37027) Pub Date : 1999-10-17 DOI:10.1109/ULTSYM.1999.849213

T. Ritter, K. Shung, R. Tutwiler, T. Shrout

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引用次数: 10

摘要

研制了一种工作频率为30mhz的复合线性阵列的制造方法。该设计采用双匹配层，一个用于仰角方向聚焦的透镜，一个由28 /spl μ m宽的陶瓷和5.3 /spl μ m宽的聚合物组成的2-2复合材料，以及用于电阻抗匹配的同轴电缆。在原型阵列上测量了超过65%的带宽和小于-30 dB的串扰值。还研究了一种非复合35 MHz设计。使用挠性电路和溅射金属的互连方法进行了测试。然后通过使用非线性回归技术将实验阻抗数据拟合到模型中来测量性能。在35 MHz频率下，测得k/sub 33/' = 0.63, A /spl epsiv//sub 33//sup S///spl epsiv//sub 0/ = 1310。

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Medical imaging arrays for frequencies above 25 MHz

A fabrication method has been developed for composite linear arrays operating at a frequency of 30 MHz. The design features dual matching layers, a lens for focusing in the elevation direction, a 2-2 composite with 28 /spl mu/m wide ceramics and 5.3 /spl mu/m polymer widths, and coaxial cable for electrical impedance matching. Bandwidths exceeding 65% and crosstalk values less than -30 dB were measured on prototype arrays. A non-composite 35 MHz design has also been investigated. An interconnect method using a flex circuit and sputtered metal has been tested. Properties were then measured by fitting experimental impedance data to a model using a non-linear regression technique. A k/sub 33/' of 0.63 and an /spl epsiv//sub 33//sup S///spl epsiv//sub 0/ of 1310 were measured for array elements operating at 35 MHz.

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来源期刊

1999 IEEE Ultrasonics Symposium. Proceedings. International Symposium (Cat. No.99CH37027)

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