Study year 2

Degree Programme in Electrical Engineering (CELTE), Programme syllabus for studies starting in autumn 2017

The following courses are part of study year two.

The course application codes and study periods are valid for the academic year 2018/2019. For other academic years, different application codes and study periods may apply.


General courses

Based on the school year plan for 2016/2017 . Changes can be made for the coming academic year .

The program consists of compulsory courses , conditionally elective courses and elective courses.

When you apply for your bachelor's degree, you should have read 3 conditionally elective courses and one elective course. There is room in the schedule to read two of the courses in the spring in the second year and two in the spring of third year (to be a for full-time student and eligible for student aid, you need to be registered on courses equivalent to 30 credits per semester).

Regarding scheduling conflicts: Only compulsory courses is guaranteed not to collide with other compulsory courses.
Conditionally Elective courses are scheduled collision-free when possible. If you take a course which is not listed as a compulsory course in your academic plan, you must yourself (when selecting courses) make sure that it does not clash with other courses that you plan to read.

SF1628 The course is replaced with a new course in Complex Analysis 7.5 credits (SF1691), starting in spring semester 2019.

Mandatory Appl.code cr. Study period
 1   2   3   4 
EH1110 Global Impact of Electrical Engineering 7.5 0.5 0.5 0.5
ED1110 Vector Analysis 4.5 4.5
SK1108 Classical physics, mechanics and waves 7.5 7.5
EI1220 Electromagnetic Theory E 10.5 3.0 7.5
EQ1110 Continuous Time Signals and Systems 6.0 6.0
EN1020 Project Course in Electrical Engineering, part II 6.0 1.0 2.5 2.5
SF1920 Probability Theory and Statistics
replaces SF1901
60127 6.0 6.0
EQ1120 Discrete Time Signals and Systems 60802 6.0 6.0

Conditionally elective Appl.code cr. Study period
 1   2   3   4 
EI1222 Electromagnetic Theory, Continuation Course 60821 6.0 6.0
EP1100 Data Communications and Computer Networks 60780 7.5 7.5
IH1611 Semiconductor Devices 60957 7.5 7.5
DD1320 Applied Computer Science 60511 6.0 4.0 2.0
DD1388 Program System Construction Using C++ 60732 7.5 4.0 3.5
MH1023 Practical Gender Equality and Diversity Work in Scientific, Technical and Industrial Environments 60449 6.0 3.0 3.0
SF1546 Numerical Methods, Basic Course 60340 6.0 4.0 2.0
SF1662 Discrete Mathematics 60367 7.5 3.5 4.0
SH1012 Modern Physics 60145 8.0 2.0 6.0
SF1691 Complex Analysis
replaces SF1628
60374 7.5 7.5
SF1861 Optimization 60281 6.0 6.0
SK1119 Thermodynamics and Statistical Physics 60179 7.5 7.5