05.04.21
The Fraunhofer Institute for Photonic Microsystems IPMS in Dresden has been developing robust, reliable and versatile ultrasonic sensors for many years.
Due to their small size, the so-called MUTs, Micromachined Ultrasonic Transducers, enable energy-saving, multifunctional, environmentally friendly and extremely compact sensor systems.
The institute presented its latest developments at the digital trade fair SENSOR+TEST.
Nowadays, ultrasonic sensors are fully integrated into everyday life.
They support the driver as parking assistance in automobiles, ensure safety when humans and robots work together, secure filling levels and material flow in the beverage and food industry, or serve as imaging methods for the examination of embryos or organic tissue in medicine.
This versatility is made possible by the propagation and detection of high-frequency sound pulses that are inaudible to humans. These ensure non-contact, reliable and accurate detection of objects for a wide variety of materials regardless of aggregate state, shape and color under almost any circumstances and in virtually any environment.
The micromachined ultrasonic transducers (MUT) developed by Fraunhofer IPMS are based on micro-electro-mechanical systems (MEMS) and are key to the miniaturization of components and devices without which no high-growth technical sector could survive.
“Our miniaturized capacitive micromachined ultrasonic transducers (CMUT) benefit from reliable manufacturing processes in CMOS technology. This enables cost-effective and RoHS-compliant production in high volumes. This is not the case with classic piezoelectric ultrasonic sensors, which are manufactured in a complex precision mechanical process and often contain lead,” said Dr. Sandro Koch, scientist at Fraunhofer IPMS.
The sensors can be manufactured for a wide range of ultrasonic frequencies so that application-specific ranges and resolutions are possible.
Sensor solutions can be manufactured in single-channel structures as well as in any two-dimensional array structures.
The latter enables, for example, the application of imaging methods for environmental monitoring and is thus pioneering in safe human-robot collaboration.
To provide interested parties with a quick introduction to the innovative sensor technologies of Fraunhofer IPMS, the institute offers an evaluation kit.
It consists of either one or two CMUT sensor modules, adapted control electronics, and software as a web application that controls the ultrasonic sensor via plug-and-play.
In the specific working range, the system can send or receive ultrasonic signals with high sensitivity and resolution. The system transmits the data to the web application via Ethernet or WiFi, enabling simultaneous visualization.
Users can thus convince themselves of the technical advantages of Fraunhofer IPMS’ CMUT technology with little effort and evaluate this sensor technology for various application scenarios – such as close-range monitoring, acoustic spectroscopy, flow measurement – in which there is a need for miniaturization with simultaneously increased sensitivity.
One of the latest developments of Fraunhofer IPMS is the Nanoscopic Electrostatic Drive (NED) MEMS ultrasonic transducer.
This technology makes it possible to dispense with the membrane used in conventional ultrasound transducers. Instead, microscopic bending beams are used, which are set in vibration by a signal.
To generate sound, these bending beams are arranged in sound chambers. Sound exits the sound chambers through inlet and outlet slits.
The advantages of this system are very low power requirements and RoHS compatibility, as well as a high number of degrees of freedom in design.
Customer Evaluation Kit for CMUT (© Fraunhofer IPMS)
MEMS-based bending actuator V-NED (© Fraunhofer IPMS)