Litcius/Paper detail

Transformable Ultrasonic Array Transducer for Multiscale Imaging and Beamforming

Qi Zhang, Teng Ma, Congzhi Wang, Xiangli Liu, Yongchuan Li, Yu Chang, Jiamei Liu, Jiqing Huang, Yang Xiao, Tingrui Pan, Hairong Zheng

2021IEEE Transactions on Industrial Electronics18 citationsDOI

Abstract

Conventional ultrasound probes have inherent limitations in some application scenarios. Because of their fixed shapes and sizes, they can hardly pass through small orifices to examine the target closely. With the recent development of microelectromechanical systems and flexible electronic technologies, collapsible and self-assembling devices are being considered as a potential approach to address this problem. This article presents an innovative transformable ultrasonic transducer (TUT), which can transform between a one-dimensional (1-D) linear array and a 2-D planar array with the ability of switching between different functions including 2-D/3-D imaging and high-intensity focused ultrasound beamforming. The transforming process is accomplished with a specially designed flexible printed circuit board inspired by a paper-folding mechanism. The electrical and acoustic properties of the developed transducer along with the acoustic field distribution in its different forms have been characterized. The 2-D/3-D imaging performances of the TUT have been also evaluated under 1-D and 2-D configurations, respectively. In addition, the performance of a focused concave transforming mode has been also discussed. The evaluation results suggest that TUT can maintain its performance under different structures with precise transforming control. The TUT device has the potential to considerably expand the applications of industrial and clinical ultrasound.

Topics & Concepts

BeamformingTransducerUltrasonic sensorComputer scienceAcousticsProcess (computing)Planar arrayPlanarElectronic engineeringEngineeringPhysicsTelecommunicationsOperating systemComputer graphics (images)Ultrasonics and Acoustic Wave PropagationUltrasound Imaging and ElastographyMicrofluidic and Bio-sensing Technologies