Lab for Optoelectronics

Setup in which a high-performance LED is operated via a constant-current source

Image of a DSP and an oscilloscope which shows the audio signal of a microphone.

Determining the resistance value via a measuring device

Measuring the short-circuit current of a solar panel

Laboratory: Room 1.U.29

Teaching

General Engineering Lab “Solar Cell Electronics”

The following experiments are part of the GELab “Solar Cell Electronics”:

Current and voltage curves at different levels of illumination
No-load voltage and short-circuit current at different temperatures
Charging electronics IC: Measurement at the step-up chopper using the oscilloscope

General Engineering Lab “Electronics of High-Performance LEDs”

The following experiments are part of the GELab “Electronics of High-Performance LEDs”:

Recording the current-voltage curve of an LED
Power supply electronics by means of a voltage-dropping resistor
Power supply electronics by means of a constant-current source

Practical course: Digital signal processor (BET)

The following experiments are part of the practical course: Digital Signal Processor (DSP):

Quantisation noise and aliasing
Volume, balance, and stereoscopic image widening
Echo with ring memory
FIR filter

Lecture on Accumulator System Technology (MET)

The lecture “Accumulator System Technology” introduces you to various types of rechargeable batteries and their fields of application. A great part of the lecture will teach you the structure and electro-chemical processes of a galvanic cell. Over the course of the lecture, fundamental experiments and sample calculations oriented towards the real world will bring you even closer to the topic.

Lecture in Optics (BET)

During the lecture “Optics”, students will learn about light from its physical point of view (wave-particle duality) and how to apply state-of-the-art technology. In addition, topics of this lecture include geometrical optics, imaging components, light sources and receptors, and further optical effects. Optical fibre and projectors serve as practical examples to apply and deepen knowledge on the topic.

Focus topics of research and development

Various projects and research work are conducted in the Lab for Optoelectronics.

We currently conduct research on an optical test system supported by machine learning (MOPS), which is funded by the Bavarian State Ministry for Economic Affairs, Energy and Technology. Here, it is currently under investigation whether machine learning can be combined successfully with new imaging techniques.

Equipment

Core competences of the Lab for Optoelectronics are:

Close-up image capturing by means of a line camera
Image processing via Matlab and NeuroCheck
Interferometric distance measurement
Technology of rechargeable batteries

Among other equipment, the lab offers:

Matrix and line cameras, linear guides, X-Y stages
Lighting and lamps, especially LEDs
current and voltage sources
signal generators and oscilloscopes
a soldering station to be operated by students
standard devices and components for quick prototyping
microcontrollers and digital signal processors (DSP)
battery management systems and chargers for various types of rechargeable batteries
incubators for the cycle conditioning of rechargeable batteries

Line scan camera with lighting and concentricity gage

Setup of a white-light interferometry with the corresponding interference pattern

SLR camera on a photo stand with an LC display for illuminating the object

Team

Name	E-Mail	Details
Prof. Dr. Gunther Bohn Contact Information Prof. Dr. Gunther Bohn Technical University of Applied Sciences Würzburg-Schweinfurt Room 1.1.63 Ignaz-Schön-Straße 11 97421 Schweinfurt Phone +49 9721 940-8444 E-Mail gunther.bohn[at]thws.de	E-Mail	Show

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