Course Electronic Circuits 1
Responsible: Prof. Dr. Schneider
Course
Meets requirements of following modules(MID)
Course Organization
| Version |
| created |
2013-06-20 |
| VID |
1 |
| valid from |
WS 2012/13 |
| valid to |
|
|
|
| Course identifiers |
| Long name |
Electronic Circuits 1 |
| CID |
F07_EL1 |
| CEID (exam identifier) |
|
|
| Contact hours per week (SWS) |
| Lecture |
2 |
| Exercise (unsplit) |
1 |
| Exercise (split) |
|
| Lab |
1 |
| Project |
|
| Seminar |
|
| Tutorial(voluntary) |
|
|
|
| Total contact hours |
| Lecture |
30 |
| Exercise (unsplit) |
15 |
| Exercise (split) |
|
| Lab |
15 |
| Project |
|
| Seminar |
|
| Tutorial (voluntary) |
|
|
|
| Max. capacity |
| Exercise (unsplit) |
|
| Exercise (split) |
40 |
| Lab |
|
| Project |
|
| Seminar |
|
|
Total effort (hours): 150
Instruction language
Study Level
Prerequisites
- basic skills in calculating electric circuits, resistor, capacitor, inductor
- good knowledge in mathematics, linear equations, calculations with complex terms
Textbooks, Recommended Reading
Instructors
- Prof. Dr. Schneider
- Prof. Dr. Brunner
Supporting Scientific Staff
Transcipt Entry
Electronic Circuits 1
Assessment
| Type |
| oE |
normal case (large number of assessments: wE) |
| Total effort [hours] |
| oE |
10 |
Frequency: 2-3/year
Course components
Lecture/Exercise
Objectives
Contents
- linear passive circuits
- calculation of frequency dependent behaviour
- grafical representation using the bode plot
- transferfunctions of linear circuits
- analysis of input and output resistance
- derivation of the voltage and current amplification, transimpedance, transconductance
- derivation of the cut off frequency
- diode, diode-circuits
- description of the PN-junction
- PN-diode, characteristics and equations
- Z-diode, photo-diode, LED, describe and explain the function
- explain rectifier circuits
- bipolar transistor and basic amplifier circuits
- function of bip transistors
- setting of the operating point
- transistor small signal model
- calculation of the transfer characteristics
- emitter circuit
- collector circuit
- base circuit
- special transistor circuits
- transistor as a switching element
Acquired Skills
- desbribe and analyse circuit behaviour
- build models and calculate real circuits
- calculate element values
Additional Component Assessment
| Type |
| fPS |
excercise (on course and self study) |
| Contribution to course grade |
| fPS |
not rated |
Frequency: 1/year
Lab
Objectives
Acquired Skills
- read and understand technical instructions
- connect circuits and demonstrate the function
Operational Competences
- work on complex task in limited time
- transfer theoretic knowledge into working circuits
- discuss the results
- work with typical measurement equipment
- explain technical basics and their interdependence
Additional Component Assessment
| Type |
| fSC |
lab experiment (4h) |
| fSC |
not rated |
| Contribution to course grade |
| fSC |
Attestation |
| fSC |
written report |
Frequency: 1/year
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