Summer term: Components, Circuits and Simulation
Klausur
Die Klausur findet am 13.8. um 9:15 in U012 im OMZ statt, kann aber in Absprache aller TeilnehmerInnen verschoben werden.Anmeldung
Die Anmeldung geht via → HeiCO.Lehrformat:
Die Veranstaltung findet in Präsenz statt. Im ersten Block findet die Vorlesung statt, im zweiten Block ist Zeit für Übungen.Das Videomaterial, das ich in den vergangenen Jahren erstellt habe, gibt es unten auf dieser Seite (zum Betrachten im HeiCast ist eine Uni-ID erforderlich). Sie können damit verpasste Themen nachholen, oder ein schwierigeres Thema nochmal nacharbeiten.
Time, Location
Content
This lecture is part of the master course 'Computer Engineering'. The lectures introduces the properties of basic components (diodes, transistors, passives), their modelling, analogue simulation of circuits and the most important basic circuits. The lecture is held in German language.The lecture is eligible in the 'Wahlbereich' of the MSc Physics.
Please note:
The accounts will be closed without further notice at the beginning of the next winter term.Lecture Slides © Peter Fischer
Introduction (321.2 KB)
Basics (508.5 KB)
AC Behavior (1.2 MB)
For fun: Higher Order Filters (732.1 KB)
Time Domain Behavior (602.2 KB)
Cadence and Schematic Entry (1.6 MB)
Simulation (579.8 KB)
The pn-diode (937.7 KB)
Transistors (3.7 MB)
The Current Mirror (1.0 MB)
The Gainstage (1.5 MB)
Source Follower and Differential Pair (597.8 KB)
Advanced Examples and Summary (540.2 KB)
Exercises & Tutorials (solutions follow step by step):
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Instruction for Remote Login onto the SuS machines (149.5 KB)
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Exercise: Thevenin and RC (157.2 KB)
Solution (315.2 KB)
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Exercise: RC and active Filters (138.5 KB)
Solution (932.1 KB)
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Exercise: Butterworth Filter (109.2 KB)
Solution (377.6 KB)
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Exercise: Time Domain (88.5 KB)
Solution (348.2 KB)
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Exercise: First Simulation (100.3 KB)
Solution (346.3 KB)
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Exercise: Abstract Circuits (134.8 KB)
Solution (531.4 KB)
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Exercise: The Diode (277.3 KB)
Solution (852.6 KB)
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Exercise: MOS Transistor (159.5 KB)
Solution (715.1 KB)
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Exercise: Current Mirrors (149.6 KB)
Other Documents:
Devices (377.1 KB)
- MOS Model file
MOSLib.lib (6.0 KB)
Videos © Peter Fischer (viewing requires Uni-ID)
- Basics A
- Basics B
- Short Intro to Mathematica
- Transfer Functions A
- Transfer Functions B
- Higher Order Filters
- Simulation A
- Simulation B
- Diode
- Transistor 1
- Transistor 2
- Small Signal Models
- Current Mirror
- Gainstage 1
- Gainstage 2
- Gainstage 3
- Source Follower and Differential Pair
- Summary