Circuits and SystemsLaajuus (5 cr)
Code: 4_EFA8150
Credits
5 op
Learning objectives
After completing the course, the student will be able to
- understand the fundamental concepts and laws of electric circuits
- learn circuit analysis methods
- solve problems related to electric circuits
Content
-Circuits and Systems (DC Circuits): Circuit variables and elements, Symbols, Basic concepts and solving methods of direct current circuits, Application of Kirchhoff’s laws.
-Circuit analysis: Node-Voltage Method, Mesh-Current Method, Source Transformations, Thevenin and Norton Theorems, Maximum Power Transfer Theorem, Superposition Method, The operational amplifier.
-Circuits and Systems (AC Circuits): Contents of capacitance, inductance, and mutual inductance. Sinusoidal voltage and current Circuit analysis with differential equations, sinusoidal equations, phasors, Impedance calculation, problem solving with phasors.
Materials
The material reported by teacher
Enrollment
01.12.2024 - 15.01.2025
Timing
01.01.2025 - 31.07.2025
Credits
5 op
Mode of delivery
Contact teaching
Teaching languages
- English
Seats
0 - 200
Degree programmes
- Degree Programme in Internet of Things
Teachers
- Markku Kellomäki
Student groups
-
IT24SPInformation Technology IOT
Teaching methods
After completing the course, the student will be able to
- understand the fundamental concepts and laws of electric circuits
- learn circuit analysis methods
- solve problems related to electric circuits
Content
-Circuits and Systems (DC Circuits): Circuit variables and elements, Symbols, Basic concepts and solving methods of direct current circuits, Application of Kirchhoff’s laws.
-Circuit analysis: Node-Voltage Method, Mesh-Current Method, Source Transformations, Thevenin and Norton Theorems, Maximum Power Transfer Theorem, Superposition Method, The operational amplifier.
-Circuits and Systems (AC Circuits): Contents of capacitance, inductance, and mutual inductance. Sinusoidal voltage and current Circuit analysis with differential equations, sinusoidal equations, phasors, Impedance calculation, problem solving with phasors.
Materials
The material reported by teacher
Enrollment
01.12.2023 - 15.01.2024
Timing
01.01.2024 - 30.04.2024
Credits
5 op
Mode of delivery
Contact teaching
Teaching languages
- English
Teachers
- Rajeev Kanth
- Kofi Agyekum
Student groups
-
IT23SPInformation Technology IOT
Teaching methods
After completing the course, the student will be able to
- understand the fundamental concepts and laws of electric circuits
- learn circuit analysis methods
- solve problems related to electric circuits
Content
-Circuits and Systems (DC Circuits): Circuit variables and elements, Symbols, Basic concepts and solving methods of direct current circuits, Application of Kirchhoff’s laws.
-Circuit analysis: Node-Voltage Method, Mesh-Current Method, Source Transformations, Thevenin and Norton Theorems, Maximum Power Transfer Theorem, Superposition Method, The operational amplifier.
-Circuits and Systems (AC Circuits): Contents of capacitance, inductance, and mutual inductance. Sinusoidal voltage and current Circuit analysis with differential equations, sinusoidal equations, phasors, Impedance calculation, problem solving with phasors.
Materials
The material reported by teacher