spring 2024
ELE-3607 Power Electronics - 5 ECTS

Type of course

The course can be taken as a single course. Students belonging to Master in Electrical Engineering are prioritised, while other students can sign up provided available laboratory and lecturer capacity.

Admission requirements

A relevant undergraduate Bachelor Engineering program with minimum 25 credits mathematics, 5 credits statistics, 7,5 credits physics

Application code: 9371

Course content

The course will introduce the student to power electronic components and basic circuits for DC-DC and DC-AC energy conversion. Familiarizing with hardware, measurement techniques and safety is ensured through extensive laboratory work during the course.

Power Electronic fundamentals:

- Basic functionality of semiconductor switches

- Driver circuits

- Established and future transistor technology

- Electric circuit design and analysis

- Energy sources and conversion

- Magnetic design and analysis

- Simulations using SPICE and MATLAB/Simulink

Power Electronic circuits

- Switched circuits

- Rectifier circuits

- Line controlled thyristor converters

- DC-DC switched mode converters (Buck, Boost, Buck-boost)

- Flyback converters

- Full-bridge converter

- DC-AC inverters

- Hard and soft switching

- Power factor correction

- Snubber circuits

- Practical converter design

- Application of power electronic converters

Recommended prerequisites

ELE-3606 Control Engineering, ELE-3609 Signal Distribution and Transmission, MAT-3800 Linear Algebra II, MAT-3801 Numerical Methods

Objectives of the course

After passing this course, the student shall have the following learning outcome:


- The candidate will be able to explain the use of transistors, thyristors and diodes in switched circuits

- The candidate will be able to explain how power conversion can be performed using power electronics and pulse with modulation

- The candidate will know the basic converter topologies (Buck, Boost, Buck-Boost and full-bridge) for converting one DC voltage into another.

- The candidate will be able to explain how DC can be converted to AC using power electronic switches

- The candidate will know the principle of resonant and soft switching converters

- The candidate will know the main sources of energy losses in power electronic circuits

- The candidate will have knowledge on running experiments and conducting measurements in a laboratory environment


- The candidate will be able to derive mathematical models for electrical circuits with linear and switched elements

- The candidate will be able to simulate power electronic circuits in SPICE and Simulink

- The candidate will be able to calculate component values for DC-DC converters

- The candidate will be able to design driver circuits controlling power transistors

- The candidate will be able to design and build inductors based on prefabricated cores

- The candidate will be able to design a controller for DC to AC converters with desired output frequency and voltage

- The candidate can apply power factor correction and snubber circuits to increase power quality in power electronic converters

- The candidate will be able to perform measurements, analysis and troubleshooting on power electronic circuits

- The candidate will be able to realize control algorithms by using rapid prototyping systems (dSpace)

General competence:

- The candidate will have basic knowledge on the use of power electronics in energy production, motor drives and power supplies.

- The candidate will aware of power electronics role towards sustainable societies and electrification, reduced energy consumption, and renewable energy.

Language of instruction and examination


Teaching methods

The course will use a combination of classic lectures and online material. Laboratory exercises will be performed in groups.



Examination: Date: Duration: Grade scale:
School exam 06.03.2024 09:00
3 Hours A–E, fail F

Coursework requirements:

To take an examination, the student must have passed the following coursework requirements:

Laboratory exercises Approved – not approved
UiT Exams homepage

More info about the coursework requirements

- Completed the required HSL courses within laboratory work and safety is required be approved before gaining access to the laboratory.

- 4 (out of 4) approved laboratory exercises.

Re-sit examination

Re-sit exam will be arranged if any candidate received grade F in the previous ordinary exam.
  • About the course
  • Campus: Narvik |
  • ECTS: 5
  • Course code: ELE-3607
  • Tidligere år og semester for dette emnet