Course F07_Leistungselektronik
Responsible: Prof.Dr.Dick
Course
Meets requirements of following modules(MID)
Course Organization
| Version |
| created |
2011-11-28 |
| VID |
1 |
| valid from |
WS 2012/13 |
| valid to |
|
|
|
| Course identifiers |
| Long name |
F07_Leistungselektronik |
| CID |
F07_LE |
| CEID (exam identifier) |
|
|
| Contact hours per week (SWS) |
| Lecture |
2 |
| Exercise (unsplit) |
|
| Exercise (split) |
2 |
| Lab |
1 |
| Project |
|
| Seminar |
|
| Tutorial(voluntary) |
|
|
|
| Total contact hours |
| Lecture |
30 |
| Exercise (unsplit) |
|
| Exercise (split) |
30 |
| Lab |
15 |
| Project |
|
| Seminar |
|
| Tutorial (voluntary) |
|
|
|
| Max. capacity |
| Exercise (unsplit) |
|
| Exercise (split) |
60 |
| Lab |
100 |
| Project |
|
| Seminar |
|
|
Total effort (hours): 150
Instruction language
Study Level
Prerequisites
- Grundgebiete Elektrotechnik 1
- Grundgebiete Elektrotechnik 2
- Grundgebiete Elektrotechnik 3
- Mathematik 1
- Mathematik 2
Textbooks, Recommended Reading
- Mohan; Undeland; Robbins: Power Electronics – Converters, Applications and Design Wiley Verlag, USA
- Schröder: Elektrische Antriebe Band 4:Leistungselektronische SchaltungenSpringer Verlag, Stuttgart
Instructors
Supporting Scientific Staff
- Dipl.-Ing. Dieter Pingel
- Dipl.-Ing. Michael Nixdorf
Transcipt Entry
Leistungselektronik
Assessment
| Type |
| sK |
Regelfall, bei kleiner Prüfungszehl sMP |
| Total effort [hours] |
| sK |
Regelfall, bei kleiner Prüfungszehl sMP |
Frequency: 3/Jahr
Course components
Lecture/Exercise
Objectives
Lerninhalte (Kenntnisse)
- Fundamentals of mathematic
- Rectifiers
- Inverters
- Grid perturbations
- Utilization of Semiconductor devices with turn-off capability: Bipolar Transistor, MOSFET, IGBT, GTO; Drivers
- Self-commutated DC-DC converters
- Sself-commutated rectifiers and inverters
Acquired Skills
- The student can answer the question:"What is power electronics" in detail. In practice the student can decide, whether for a specific technical application a power electronics solution is suitable. Thze student knows about the importance of power electronics for automation technology, electrical power enginnering and basically for efficiency improvements.
- Students know and understand the functionality of the most important line- and forced commutated converters. They are familiar with terms and definitions for the description and characterisation of converters.
- The student can derive a suitable circuit topology for a power electronics application (line- vs. forced commutated converters, important Topologies). The student can bot slitting the specifications info different questionarier to subsequently perform important steps of the converter sythesis.
- Students can analyse and discuss a given power electronics circuitry with regard to efficiency, power factor and device effort.
- The student is fully able to apply different toolbox-topics (THD-Calculations, Power Semiconductor Devices,...).
Additional Component Assessment
Lab
Objectives
Lerninhalte (Kenntnisse)
- Rectifiers
- Thyristor circuits
- simulation of selb-commutated converter
Operational Competences
- Handling of laboratory equipment like oscilloscope etc..
- Circuit installation
- Handling of a software simulation tool
- Technical writing of lab reports
Additional Component Assessment
| Type |
| bSZ |
Praktikumstestat |
| Contribution to course grade |
| bSZ |
Ist Voraussetzung zur summarischen Modulprüfung |
Frequency: 1/Jahr
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