After successful completion of the course, students are able to understand the underlying problems in the recording of the respective measurand and the solution approaches involved in the most diverse and quite complementary areas of sensor technology.Furthermore, they will have learned special features of acoustic sensors and acoustic perception.
After completing the exercise, students will be able to work with a lock-in amplifier, understand various electrical noise mechanisms, and optimize the anti theft system.
The lecture presents a survey of the most important sensors and of new sensor developments: Sensors for mechanical quantities, chemical sensors, magnetic sensors. The various sensors are discussed with respect to their function, technology and possible applications. The lecture refers to the actual state of the art of microelectronic sensor technologies. The course consists of a lecture part and a practical part.
Lecture Part:
Exercise part:
Note:For students interested in the field of sensor technology, please also refer to the lecture 366.093 Micro- and Nanofluidics, which deals with the current developments in the field of processing and analysis of smallest amounts of liquids. This field in particular is expected to lead to major technical developments, the benefits of which will be felt above all in the field of medical devices and life sciences.
Lecture and laboratory exercise
IMPORTANT:Registration is limited and required for the classroom lecture only!Lab exercise dates are independent of this and sufficiently available.For those who could not register but still want to take the lecture, please refer to the TUWEL course, which also provides or will provide more than sufficient material. Please email me so that we can arrange the LÜ dates.Appointments for the exercise part will be made during the lecture.
Examination and protocol
Script (files)