P5K-3 Novel Thick Film Transducers for High Frequency Ultrasonography

R. Lou-Meller, W. Wolny, E. Ringgaard, A. Nowicki, M. Lewandowski, W. Secomski
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引用次数: 1

Abstract

New types of thick-film transducers (19 to 37 MHz), with integrated highly attenuating ceramic backing formed of porous PZT material and shaped to the required ROC, were developed. For this project, focused transducers (focal depth 8.8 mm) with two different compositions, based on Ferroperm Pz24 (InSensor TF2400) and Pz26 (In Sensor TF2100), with different dielectric constant were fabricated. The transducers were carefully measured, then electrically and acoustically matched to the acoustical impedance of tissue and next mounted in a mechanical wobbling imaging probe. The transducers were excited with Golay coded sequences at 35 MHz. Introducing the coded excitation allowed replacing the short- burst transmission at 20 MHz with the same peak amplitude pressure, but with almost double center frequency, resulting in considerably better axial resolution. The important factor for coded transmission/reception is the matching of the transducer bandwidth with the one of the coded signal. The thick films exhibited at least 30% bandwidth broadening comparing to the standard Pz27 transducer, resulting in an increase in matching filtering output by a factor of 1.4 - 1.5 and finally resulting in a SNR gain of the same order. Examples of skin scans obtained with the new thick-film transducers are presented. Further improvement of the transducer performance is demonstrated through optimizing the electrical impedance of the HF transducer. This is obtained by using a thick-film component prepared from a lower dielectric constant material, whilst the electromechanical coupling is maintained at approx. 50%.
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新型高频超声厚膜换能器P5K-3
开发了新型厚膜换能器(19至37 MHz),该换能器采用多孔PZT材料形成的集成高衰减陶瓷衬底,并按照所需的ROC形状进行了成形。本课题制作了两种不同成分的聚焦换能器(焦深8.8 mm),分别是基于ferperm Pz24 (InSensor TF2400)和Pz26 (InSensor TF2100),具有不同的介电常数。这些换能器经过仔细测量,然后在电和声学上与组织的声阻抗相匹配,然后安装在一个机械摆动成像探头上。换能器用35 MHz的Golay编码序列激发。引入编码激励可以用相同的峰值压力代替20 MHz的短突发传输,但几乎是中心频率的两倍,从而产生相当好的轴向分辨率。编码发送/接收的重要因素是换能器带宽与编码信号带宽的匹配。与标准Pz27换能器相比,厚膜的带宽至少增加了30%,从而使匹配滤波输出增加了1.4 - 1.5倍,最终获得了相同数量级的信噪比增益。介绍了用这种新型厚膜换能器获得的皮肤扫描实例。通过优化高频换能器的电阻抗,进一步改善了换能器的性能。这是通过使用由较低介电常数材料制备的厚膜组件获得的,同时机电耦合保持在大约。50%。
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