Martin Angerer scite author profile

For breast cancer imaging, ultrasound computer tomography (USCT) is an emerging technology. To improve the image quality of our full 3-D system, a new transducer array system (TAS) design was previously proposed. This work presents a manufacturing approach which realises this new design. To monitor the transducer quality during production, the electro-mechanical impedance (EMI) was measured initially and after each assembly step. To evaluate the measured responses, an extended Krimholtz–Leedom–Matthaei (KLM) transducer model was used. The model aids in interpreting the measured responses and presents a useful tool for evaluating parasitic electric effects and attenuation at resonance. For quality control, the phase angle at thickness resonance φ t was found to be the most specific EMI property. It can be used to verify the functionality of the piezocomposites and allows reliable detection of faults in the acoustic backing. Evaluating the final response of 68 transducers showed 5% variance of the series resonance frequency. This indicates good consistency of derived ultrasound performance parameters.

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Hochauflösende Sonographic des Nervus medianus - neue sonomorphologische Untersuchungstechnik peripherer Nerven

Angerer¹,

Kleudgen²,

Grigo³

et al. 2000

Klin Neurophysiol

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Martin Angerer

Single- PZT- Fiber Transducers for 3D Ultrasound Computed Tomography: Characterization and Modeling

Enhanced KLM Model for Single-Fibre Piezocomposite Transducers

Semi-Automated Packaging of Transducer Arrays for 3D Ultrasound Computer Tomography

Model-Guided Manufacturing of Transducer Arrays Based on Single-Fibre Piezocomposites

Hochauflösende Sonographic des Nervus medianus - neue sonomorphologische Untersuchungstechnik peripherer Nerven

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