Three Fraunhofer institutes are jointly developing an application platform that will enable small and medium-sized enterprises to use micromachined ultrasonic transducers (MUTs).
The institutes will develop various micromachined devices and pilot products together with industrial partners.
Funded by the Fraunhofer-Gesellschaft, the project is aimed specifically at small and medium-sized enterprises.
Workshops will be held starting July to demonstrate how well MUTs can be integrated into existing systems.
Whether distance measurement and micropositioning, gesture control and collision sensing, endoscopy and sonography – ultrasonic sensors have formed the basis of industry, medicine and mobility for years. Currently, these application-specific sensors are mostly developed and manufactured by SMEs themselves.
The use of modern micromachined ultrasonic transducers allows highly compact systems, increased sensitivity as well as efficient use of array functionalities such as imaging or directivity.
In addition, materials that are harmful to health and the environment can be avoided. However, this is offset by the additional, usually high, costs of developing these semiconductor-based MUTs, which are often hard to bear for many small and medium-sized companies.
“Together with the Fraunhofer Institute for Silicon Technology ISIT and the Fraunhofer Institute for Electronic Nano Systems ENAS we want to build a MUT platform. Using a modular approach, we can use it to quickly and efficiently adapt and develop innovative ultrasound systems to specific applications,” said Jörg Amelung from the Fraunhofer Institute for Photonic Microsystems IPMS. “By bundling our competencies, we are creating an effective alliance that not only ensures a broad range of applications through its technology portfolio but also has the infrastructure for pilot production in its own clean rooms. This closes the gap between academic research and industrial development and offers SMEs an attractive overall package.”
As part of the development of the MUT platform, three central SME research fields, production technology, human-machine interaction and medical technology, will be addressed.
“We believe that the key features of MUTS, miniaturization, improved sensitivity of ultrasonic elements and array functionality, create significant added value here,” said Dr. Fabian Lofink, head of the business unit “MEMS Applications” at Fraunhofer ISIT.
Capacitive micromachined ultrasound transducer (CMUT). © Fraunhofer IPMS
MEMS ultrasound array. © Fraunhofer ISIT
Piezoelectric, micromachined ultrasound transducer for acoustic imaging.© Fraunhofer ENAS