摘要
The ultrasonic transducer industry is dominated by piezoelectric materials.As an emerging alternative,capacitive micromachined ultrasound transducers(CMUTs)offer wider bandwidth,better integration with electronics,and ease of fabricating large arrays.CMUTs have a sealed cavity between a fixed electrode and a suspended metalized membrane.Manufacturing cost and sensitivity are limiting factors in current CMUTs that depend on the fabrication equipment and,especially,on the materials used.For widespread use of CMUTs,a much lower fabrication cost that uses inexpensive materials,which maintain or improve upon existing sensitivity,is needed.Herein,a new fabrication process is described for polymer-based CMUTs(polyCMUTs)using the photopolymer SU-8 and Omnicoat.The first ultrasound B-mode image of a wire phantom created with a 64-element linear array using synthetic aperture beamforming techniques is presented.A 12 VAC signal superimposed on a 10 VDC signal was used on the transmission side,and only a bias-tee,with no amplifiers,was used on the receiving side.The low operational voltage and high sensitivity of this device can be partially attributed to a pre-biasing condition on the membrane.By using a novel sacrificial layer combined with a top electrode embedded inside the membrane,we demonstrated that SU-8 can be used to manufacture CMUTs inexpensively.Moreover,the fabrication used relatively simple equipment,and the number of fabrication steps was reduced compared to traditional CMUT fabrication.This new fabrication process has the potential to increase the use of CMUTs in the ultrasound market,including the market for wearable transducers.
基金
We thank CMC Microsystems Canada and the Natural Sciences and Engineering Research Council of Canada(NSERC)for their funding,software,and fabrication support.