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Syllabus for

Academic year
SSY010 - Electrical systems
 
Syllabus adopted 2014-02-11 by Head of Programme (or corresponding)
Owner: TIELL
7,5 Credits
Grading: TH - Five, Four, Three, Not passed
Education cycle: First-cycle
Major subject: Electrical Engineering
Department: 32 - ELECTRICAL ENGINEERING


Teaching language: Swedish
Block schedule: D

Course module   Credit distribution   Examination dates
Sp1 Sp2 Sp3 Sp4 Summer course No Sp
0105 Examination 6,0 c Grading: TH   6,0 c   28 Oct 2014 am L,  02 Jan 2015 am L,  Contact examiner
0205 Laboratory 1,5 c Grading: UG   1,5 c    

In programs

TIDAL COMPUTER ENGINEERING, Year 3 (compulsory elective)
TIELL ELECTRICAL ENGINEERING - Common branch of study, Year 3 (compulsory)

Examiner:

Docent  Manne Stenberg
Professor  Erik Agrell


Course evaluation:

http://document.chalmers.se/doc/86f0d8de-bdb0-4f59-8d13-6328e146b71c


  Go to Course Homepage

Eligibility:

In order to be eligible for a first cycle course the applicant needs to fulfil the general and specific entry requirements of the programme(s) that has the course included in the study programme.

Course specific prerequisites

Knowledge corresponding to the courses LEU470 Electrical Circuits, LEU460 Electrical Engineering and LEU430 Fundamentals of Digital Systems and Computer.

Aim

This course will provide knowledge about some methods and tools for analysis and design of analog and digital electronics.

Learning outcomes (after completion of the course the student should be able to)


  • Use computer tools in the design, analysis and simulation of analog and digital electronics.
  • Handle computer software for analog electronic circuit drawing and simulation.

  • Analyse a CMOS inverter in Spice.
  • Calculate upper and lower cutoff frequencies for amplifiers by simulation.

  • Design a current to voltage converter.

  • Design signal and power amplifiers.

  • Design cascaded OP amplifiers in order to achieve specified frequency properties.

  • Measure and analyse the frequency properties of analog amplifiers and filters.

  • Analyse the stability of a feedback system and calculate the conditions for oscillation.

  • Analyse and modify existing VHDL code.

  • Use computer software for simulation and synthesis of digital electronics based on VHDL code.

  • Use computer software for programming an FPGA circuit.

  • From a functional description, design a state diagram for a state machine.
  • Design a digital parallel to series converter.

  • Design a digital series to parallel converter.

  • Design and analyse active Butterworth filters.

Content

During the course, a complete audio transmission system will be designed including audio amplifier, A/D conversion, digital serial transmission, D/A conversion, filtering, and power amplification.

Analysis and design of analog och digital electronics: A/D and D/A-converters. Anolog design in Spice. State machines. Analysis and design of digital systems with VHDL. Simulations. Upper and lower cutoff frequencies for different amplifiers an OP-amplifiers. Frequency properties. Feedback and stability. Oscillators. Analog filters. Design of passive and active Butterworth filters.

Organisation

The teaching includes lectures, laboratory sessions, and hand-in assignments.

Literature

Bengt Molin: Analog elektronik, 2nd ed., Studentlitteratur 2009
Lars Bengtsson: Elektriska mätsystem och mätmetoder, Studentlitteratur 2012
Supplementary material on the course web page

Examination

Written examination and compulsory presentation of results from laboratory assignments. To pass the course both a passed exam and passed laboratory assignments are required. The final grade is U (fail), 3, 4, or 5.


Page manager Published: Mon 28 Nov 2016.