Electrical Engineering for Master Students in Engineering Science
7.5 ECTS creditsThe course covers the following:
Electric circuits: Calculations with Ohm's and Kirchoff's laws of series and parallel circuits, Thevenin's theorem
Single-phase and three-phase alternating current circuits: Definitions of sinusoidal voltage and currents, the use of phasors and the j omega method, Y- and D-connected three-phase systems
Power: Active, reactive, and apparent power, phase compensation
Transformers: Windings, voltage, current ratio, transformer formula
Asynchronous machines: Construction, moment, rotational speed, slip, loss, and efficiency, Y/D-connected machine
Synchronous machines: Construction, moment, rotational speed, loss, and efficiency
Direct current machines: Construction, separate and series excitation machine, moment, rotational speed, loss, and efficiency
Semiconductors and rectifiers: Semiconductors of n-type and p-type, diode, simple semiconductor circuits.
Electric circuits: Calculations with Ohm's and Kirchoff's laws of series and parallel circuits, Thevenin's theorem
Single-phase and three-phase alternating current circuits: Definitions of sinusoidal voltage and currents, the use of phasors and the j omega method, Y- and D-connected three-phase systems
Power: Active, reactive, and apparent power, phase compensation
Transformers: Windings, voltage, current ratio, transformer formula
Asynchronous machines: Construction, moment, rotational speed, slip, loss, and efficiency, Y/D-connected machine
Synchronous machines: Construction, moment, rotational speed, loss, and efficiency
Direct current machines: Construction, separate and series excitation machine, moment, rotational speed, loss, and efficiency
Semiconductors and rectifiers: Semiconductors of n-type and p-type, diode, simple semiconductor circuits.
Progressive specialisation:
G1F (has less than 60 credits in first‐cycle course/s as entry requirements)
Education level:
Undergraduate level
Admission requirements
Registration on the course Linear Algebra, 7.5 ECTS credits, or equivalent
Selection:
Selection is usually based on your grade point average from upper secondary school or the number of credit points from previous university studies, or both.
This course is included in the following programme
- Bachelor Programme in Physics (studied during year 3)
- Master of Science in Chemical Engineering (studied during year 3)
- Master of Science in Mechanical Engineering (studied during year 2)
- Master of Science in Engineering Physics (studied during year 3)