Syllabus for |
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EMI010 - Electronic circuit simulation |
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Owner: TELTA |
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3,5 Credits (ECTS 5,25) |
Grading: TH - Five, Four, Three, Not passed |
Level: C |
Department: 59 - MICROTECHNOLOGY AND NANOSCIENCE
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Teaching language: English
Course module |
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Credit distribution |
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Examination dates |
Sp1 |
Sp2 |
Sp3 |
Sp4 |
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No Sp |
0193 |
Examination |
3,5 c |
Grading: TH |
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3,5 c
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29 May 2006 am V |
In programs
TELTA ELECTRICAL ENGINEERING, Year 4 (elective)
TDATA COMPUTER SCIENCE AND ENGINEERING, Year 3 (elective)
TDATA COMPUTER SCIENCE AND ENGINEERING - Digital Systems Design, Year 4 (elective)
TITEA SOFTWARE ENGINEERING, Year 3 (elective)
Examiner:
Docent
Peter Linnér
Eligibility:
For single subject courses within Chalmers programmes the same eligibility requirements apply, as to the programme(s) that the course is part of.
Aim
Ability to understand and apply algorithms and techniques underlying the systematic analysis, simulation, and design of general electrical networks in the frequency and time domain with and without
computer aid.
In addition, it gives a broader understanding of network theory in
general as well as understanding of how simulation technique benefits
a diversity of design problems.
Content
* Introduction to computer methods for circuits
* Available simulation packages
* Extended two-port theory
* Modelling of components, devices, and circuits
* Analysis by subsequent two-port operations
* Linear node admittance analysis
* Non-linear node admittance analysis
* Linear and non-linear transient analysis
* Modified nodal analysis technique (MNA)
* Symbolic circuit analysis
* Sensitivity and tolerance analysis
* Optimization techniques
* Automatic design
* 5 hand-in exercises involving electronic simulation:
1) Amplifier analysis in the time and frequency domain.
2) Non-linear transient analysis of an electronic switch.
3) Design and analysis of a bandstop filter.
4) Using optimization for modification and improvement of
circuits.
5) Student-proposed larger exercise to be presented orally.
Organisation
* Lectures
* Exercises
* Computer program introduction
* MATLAB supported hand-ins
* Electronics simulation hand-ins
* One oral presentation of a case study
Literature
* Peter Linnér: Unified Electronic Circuit Simulation: Theory and Design, 2005.
* Handouts.
Examination
* Written examination: 6 problems. One of which comprises 6 subproblems with 4-alternatives-answer choice.
* Passed on all hand-ins
* One oral presentation