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ELE200_1

Electrical Engineering 2

This is the study programme for 2019/2020. It is subject to change.


The objectives of this course are to give the students an introduction to some advanced subjects in electrical engineering. The main subjects are: Dynamical behaviour of 2. order systems, theoretical basis and practical issues on amplifiers, filters and power transistors. The course gives a necessary foundation for courses on control, instrumentation and electronics design in addition to bachelor projects on electronics and the student driven projects at UiS.

Learning outcome

Knowledge:
  • After finishing this course the students have got knowledge in analysing simple Electronic Circuits. They have also got fundamental introduction to, and use of some important electronic elements.

Skills:
  • The Students will be able to calculate currents, voltages, power and energy in the circuits by using different Circuit Analyse Technics. They will be able to find the Transfer Function and Frequency Response for a Circuit, and construct the Bode-Plot. They will also be able to calculate and understand some caracteristics of different analogous filters and simple amplifiers.They will also be able to understand the fundamentals of AD-conversion.

In general:
  • After finishing this course the Student has established a fundamental knowledge of how some different simple electronic circuits are constructed and how they work.

Contents

Transient analysis, transfer functions, frequency responses, Bode-plot, resonance.
Amplifiers.Op. amps, instrumentation amplifier.
Sampling. Aliasing. Analog filters. Switched capacitance filters.
Analog to digital conversion of signals. ADC module in a microcontroller.
Introduction to digital filters. Implementation in an microcontroller.
Power MOSFET.
Pulse Width Modulation. PWM realization in a microcontroller.
Optical encoders.Motor control.
Noise mechanisms. EMC.

Required prerequisite knowledge

None.

Recommended previous knowledge

ELE100 Electrical Engineering 1, ING100 Introductory course for engineers - Computer science and electrical engineering

Exam

Weight Duration Marks Aid
Written exam1/14 hoursA - FAll written and printed means are allowed. Calculators are allowed.

Coursework requirements

Exercises, Laboratory work
5 out of 8 written assignments and 8 lab assignments must be approved before taking the exam.
Completion of mandatory lab assignments are to be made at the times and in the groups that are assigned and published. Absence due to illness or for other reasons must be communicated as soon as possible to the laboratory personnel. One cannot expect that provisions for completion of the lab assignments at other times are made unless prior arrangements with the laboratory personnel have been agreed upon.
Failure to complete the assigned labs on time or not having them approved will result in barring from taking the exam of the course.

Course teacher(s)

Course coordinator
Morten Tengesdal
Coordinator laboratory exercises
Romuald Karol Bernacki
Head of Department
Tom Ryen

Method of work

Weekly in average 3 hours lecturing, 2 hours written assignment exercises and 3 hours laboratory exercises. Mandatory work demands (such as hand in assignments, lab-assignment) must be approved by subject teacher within the specified deadlines.

Overlapping courses

Course Reduction (SP)
Electrical Engineering (BIE210_1) 5
Electrical technology (BIE280_1) 5
Electrical technology (TE0091_A) 5
Digital and Analog Electronic Circuits 1 (TE0622_A) 5
Electrical Technology for ME-students (BIM330_1) 5
Basic circuit and signal analysis (BIE220_1) 5

Open to

Bachelorlevel at the Faculty of Science and Technology.

Course assessment

Form and/or discussion.

Literature

Allan R. Hambley: Electrical Engineering, Principles and Applications, 7. Edition.
Additional selected material made available via Canvas.


This is the study programme for 2019/2020. It is subject to change.

Sist oppdatert: 14.11.2019

History