t.BA.EU.ELHL2.12HS (Electrical Engineering and Semiconductors 2) 
Module: Electrical Engineering and Semiconductors 2
This information was generated on: 27 October 2021
No.
t.BA.EU.ELHL2.12HS
Title
Electrical Engineering and Semiconductors 2
Organised by
T IEFE
Credits
4

Description

Version: 4.0 start 01 August 2019
 

Short description

Working on from the ELHL1 module, students acquire a more in-depth knowledge of electronics. This includes an understanding of important analog electronic components such as diodes, transistors and operational amplifiers, as well as the basic function of switching power supplies.
 

Module coordinator

Heinzelmann Andreas (heie)

Learning objectives (competencies)

Objectives Competences Taxonomy levels
The students know and understand the functionality of elementary semiconductor devices. F1: Explain the electrical function of PN transitions in the semiconductor.
F2: Explain the function of diodes and transistors.
K1, K2
They know the usual structure of electronic assembly and know the processor steps for creating a module. F3: Can read electronic schemas and create them using an EDA (Electronic Design Automation) tool.
F4: Know the structure of an assembly and the essential terms.
 
K1, K2
They know applications with electronic switches and can explain this. F5: Can use a simulation tool to explain the function of electronic switches. K1, K2
They are able to perform the analysis and design of circuits with diodes, transistors and ideal operational amplifiers analytically and with a simulation tool. M/F6: Know the electronic function of diodes, transistors and operational amplifiers. You can explain the function with a simulation tool. K3

Module contents

Lecture:
- Introduction to semiconductor physics.
- Properties of different diode types, applications and dimensioning.
- Functionality of bipolar and field effect transistors as well as IGBTs.
- Analysis and design of switch applications, such as swiched step-down and step-up converters, including associated control and protection circuits.
- Ideal operational amplifiers in negative feedback, as comparator and as Schmitt trigger.
- Use of a simulation and EDA tool

Internship:
- For each of the above points practical experiments will take place
- Drivers for power LEDs are used as examples for the above topics.

Teaching materials

Script, practical training manual

Supplementary literature

Tietze, Ulrich; Schenk, Christoph; Gamm, Eberhard: Halbleiter-Schaltungstechnik

Prerequisites

 

Teaching language

(X) German ( ) English

Part of International Profile

( ) Yes (X) No

Module structure

Type 3b
  For more details please click on this link: T_CL_Modulauspraegungen_SM2025

Exams

Description Type Form Scope Grade Weighting
Graded assignments during teaching semester written exam
project work
written
execution
45 min
Milestones
grading
grading
15%
25%
End-of-semester exam written exam written 90 min grading 60%

Remarks

 

Legal basis

The module description is part of the legal basis in addition to the general academic regulations. It is binding. During the first week of the semester a written and communicated supplement can specify the module description in more detail.

Note

Course: Elektrotechnik und Halbleiter 2 - Praktikum
No.
t.BA.EU.ELHL2.12HS.P
Title
Elektrotechnik und Halbleiter 2 - Praktikum

Note

  • No module description is available in the system for the cut-off date of 01 August 2099.
Course: Elektrotechnik und Halbleiter 2 - Vorlesung
No.
t.BA.EU.ELHL2.12HS.V
Title
Elektrotechnik und Halbleiter 2 - Vorlesung

Note

  • No module description is available in the system for the cut-off date of 01 August 2099.