course: Electronics II - Circuits

number:
141066
teaching methods:
lecture with tutorials
media:
overhead transparencies, black board and chalk
responsible person:
Prof. Dr.-Ing. Thomas Musch
Lecturers:
Prof. Dr.-Ing. Thomas Musch (ETIT), B. Sc. Marco Osenberg (ETIT)
language:
german
HWS:
4
CP:
5
offered in:
summer term

dates in summer term

  • start: Wednesday the 22.04.2020
  • lecture: siehe "Sonstiges"

Exam

All statements pertaining to examination modalities (for the summer/winter term of 2020) are given with reservations. Changes due to new requirements from the university will be announced as soon as possible.
Form of exam:written
Registration for exam:FlexNow
Date:04.08.2020
Begin:08:30
Duration:120min
Rooms : HGA 10,  HGB 10
Individual appointments of students to each exam location will be issued by the responsible chair.

goals

The fundamentals of the structured analysis of electronic circuits are known to the students. This is necessary to understand complex electronic circuits, and thus be able to solve electronic problems and synthesize electronic circuits.

content

The lecture 'Electronics 2 - Circuits' provides the basics of circuitry with electronic components. Based on the properties of both discrete passive and active electronic components, for the increased complexity of electronic circuits the transmission behavior is determined analytically. Furthermore, a simplified description is derived and verified by means of CAD methods. Large- and small-scale properties as well as their respective equivalent electronic circuits are discussed. Additionally, the influence of positive- and negative feedback is examined. The structures of fundamental circuits, such as operational amplifiers, power amplifiers, oscillators, and comparators, as well as the properties of commercial electronic components are discussed. In addition, an introduction into the thermal behavior of electronic circuits and into elementary digital circuits is given. • Introduction • Semiconductor components, influence of temperature, large-scale and small-scale behavior • Basic transistor circuits • Bias point adjustment and temperature stability • Advanced circuit design, differential amplifiers, current mirrors, output stages • Feedback circuits, positive- and negative feedback • Operational amplifiers, oscillators, comparators • Power supply circuits, linear and switching power output stages • Heat dissipation and equivalent thermal circuits • Fundamental digital circuits • CAD methods for circuit simulation purposes

requirements

keine

recommended knowledge

Content of the lecture "Electronic Components"

materials

announcement:

sample solutions:

written exam:

miscellaneous

Bitte melden sie sich im Moodle-Kurs der Lehrveranstaltung an, um alle weiteren Informationen bzgl. der Onlinevorlesung im SoSe2020 zu erhalten.

Moodle-Kurs: Elek­tro­nik 2 - Schal­tun­gen (141066-SoSe20) https://moodle.ruhr-uni-bochum.de/m/course/view.php?id=16317

Passwort:EST-2020