Electrical Engineering 2Laajuus (4 cr)
Code: TSAS0520
Credits
4 op
Teaching language
- Finnish
Responsible person
- Olli Väänänen
Objective
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Qualifications
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Assessment criteria, satisfactory (1)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Assessment criteria, good (3)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Assessment criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Enrollment
01.08.2024 - 22.08.2024
Timing
09.09.2024 - 31.12.2024
Number of ECTS credits allocated
4 op
Virtual portion
3 op
Mode of delivery
25 % Face-to-face, 75 % Online learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Aimo Kemppinen
Groups
-
TSA24KMInsinööri (AMK), sähkö- ja automaatiotekniikka,monimuototeutus
-
ZJATSA24KMAvoin amk, Sähkö- ja automaatiotekniikka, Monimuoto
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Time and location
2-4 etäluentoa + 2x välikokeita paikan päällä.
Teaching methods
Opetus tapahtuu etätuntien, laskuharjoitusten ja etänä tehtävien laskuharjoitusten kautta.
Exam dates and retake possibilities
Kaksi välikoetta.
1. uusinta vuoden vaihteessa 2025
2. uusinta vuoden vaihteessa 2025
Student workload
Yhteensä 108 tuntia opiskelijan työtä.
Further information for students
Itsearvioinnit tehdään pääosin oppimistehtävien avulla. Arviointipäätös pohjautuu tentissä osoitettuun osaamiseen.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.08.2024 - 22.08.2024
Timing
09.09.2024 - 31.12.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Lutakko Campus
Teaching languages
- Finnish
Seats
20 - 35
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Aimo Kemppinen
Groups
-
TSA22SSSähkö- ja automaatiotekniikka (AMK)
-
TSA22SASähkö- ja automaatiotekniikka (AMK)
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Time and location
Kerran viikossa iltaisin lutakon kampuksella.
Teaching methods
Opetus tapahtuu kontaktituntien, laskuharjoitusten ja etänä tehtävien laskuharjoitusten kautta.
Exam dates and retake possibilities
Kaksi välikoetta.
1. uusinta vuoden vaihteessa 2025
2. uusinta vuoden vaihteessa 2025
Student workload
Kontaktitunnit (luennot ja laskuharjoitukset + tentti) yhteensä 39 tuntia.
Itsenäistä työskentelyä 69 tuntia.
Yhteensä 108 tuntia opiskelijan työtä.
Content scheduling
Itsearvioinnit tehdään pääosin oppimistehtävien avulla. Arviointipäätös pohjautuu tentissä osoitettuun osaamiseen, tehtävien tekemiseen ja läsnäoloon.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
20.11.2023 - 04.01.2024
Timing
01.01.2024 - 31.05.2024
Number of ECTS credits allocated
4 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Lutakko Campus
Teaching languages
- English
Degree programmes
- Bachelor's Degree Programme in Automation and Robotics
Teachers
- Olli Väänänen
Groups
-
TAR23S1Bachelor's Degree Programme in Automation and Robotics
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Teaching methods
Teaching takes place through contact hours, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
Two midterm exams (one in the middle and one in the end)
1. re-exam in late spring 2024
2. re-exam in late spring 2024
Student workload
Contact hours (lectures and exercises + exam) total 52 hours.
Independent work 48 hours.
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
20.11.2023 - 04.01.2024
Timing
01.01.2024 - 19.05.2024
Number of ECTS credits allocated
4 op
Virtual portion
2 op
Mode of delivery
50 % Face-to-face, 50 % Online learning
Unit
School of Technology
Campus
Lutakko Campus
Teaching languages
- Finnish
Seats
0 - 65
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Aimo Kemppinen
Groups
-
TSA23SR1Sähkö- ja automaatiotekniikka (AMK)
-
TSA23SR2Sähkö- ja automaatiotekniikka (AMK)
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Teaching methods
Teaching takes place through contact hours, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
Two midterm exams (one in the middle and one in the end)
1. re-exam in late spring 2024
2. re-exam in late spring 2024
Student workload
Contact hours (lectures and exercises + exam) total 39 hours.
Independent work 69 hours.
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.08.2023 - 24.08.2023
Timing
01.08.2023 - 19.12.2023
Number of ECTS credits allocated
4 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Ari Latvala
Groups
-
TSA23KMInsinööri (AMK), sähkö- ja automaatiotekniikka,monimuototeutus
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Learning materials and recommended literature
Tarkka, Määttänen, Hietalahti. 2003. Piirianalysi 1. Edita
Tarkka, Hietalahti. 2004. Piirianalyysi 2. Edita
Teaching methods
Teaching takes place through online lectures, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
One final exam.
Student workload
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.11.2022 - 05.01.2023
Timing
09.01.2023 - 21.05.2023
Number of ECTS credits allocated
4 op
Virtual portion
1 op
Mode of delivery
75 % Face-to-face, 25 % Online learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 60
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Sirpa Hukari
Groups
-
ZJATSA22S1Avoin amk, Sähkö- ja automaatiotekniikka, Päivä
-
TSA22SR1Sähkö- ja automaatiotekniikka (AMK)
-
TSA22SR2Sähkö- ja automaatiotekniikka (AMK)
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Learning materials and recommended literature
Tarkka, Määttänen, Hietalahti. 2003. Piirianalysi 1. Edita
Tarkka, Hietalahti. 2004. Piirianalyysi 2. Edita
Teaching methods
Teaching takes place through contact hours, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
Two midterm exams (one in the middle and one in the end)
1. re-exam in late spring 2023
2. re-exam in early autumn 2023
Student workload
Contact hours (lectures and exercises + exam) total 42 hours.
Independent work 66 hours.
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Avoin AMK 5.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.11.2022 - 05.01.2023
Timing
01.01.2023 - 21.05.2023
Number of ECTS credits allocated
4 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- English
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Sirpa Hukari
Groups
-
TAR22S1Bachelor's Degree Programme in Automation and Robotics
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Learning materials and recommended literature
Tarkka, Määttänen, Hietalahti. 2003. Piirianalysi 1. Edita
Tarkka, Hietalahti. 2004. Piirianalyysi 2. Edita
Teaching methods
Teaching takes place through contact hours, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
Two midterm exams (one in the middle and one in the end)
1. re-exam in late spring 2023
2. re-exam in early autumn 2023
Student workload
Contact hours (lectures and exercises + exam) total 42 hours.
Independent work 66 hours.
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Avoin AMK 5.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.08.2022 - 25.08.2022
Timing
29.08.2022 - 20.12.2022
Number of ECTS credits allocated
4 op
Virtual portion
4 op
Mode of delivery
Online learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 30
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Ari Latvala
Groups
-
TSA22KMInsinööri (AMK), sähkö- ja automaatiotekniikka,monimuototeutus
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Learning materials and recommended literature
Tarkka, Määttänen, Hietalahti. 2003. Piirianalysi 1. Edita
Tarkka, Hietalahti. 2004. Piirianalyysi 2. Edita
Teaching methods
Teaching takes place through online lectures, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
One final exam.
Student workload
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.11.2021 - 09.01.2022
Timing
01.01.2022 - 15.05.2022
Number of ECTS credits allocated
4 op
Virtual portion
1 op
Mode of delivery
75 % Face-to-face, 25 % Online learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 30
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Ari Latvala
Groups
-
TSA21SASähkö- ja automaatiotekniikka (AMK)
-
ZJA21STPPSAAvoin amk, tekniikka, Sähkö ja automaatiotekniikka, päivä
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Learning materials and recommended literature
Tarkka, Määttänen, Hietalahti. 2003. Piirianalysi 1. Edita
Tarkka, Hietalahti. 2004. Piirianalyysi 2. Edita
Teaching methods
Teaching takes place through contact hours, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
Two midterm exams (one in the middle and one in the end)
1. re-exam in late spring 2022
2. re-exam in early autumn 2022
Student workload
Contact hours (lectures and exercises + exam) total 42 hours.
Independent work 66 hours.
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Avoin AMK 5.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.
Enrollment
01.11.2021 - 09.01.2022
Timing
01.01.2022 - 15.05.2022
Number of ECTS credits allocated
4 op
Virtual portion
1 op
Mode of delivery
75 % Face-to-face, 25 % Online learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 30
Degree programmes
- Bachelor's Degree Programme in Electrical and Automation Engineering
Teachers
- Olli Väänänen
Groups
-
TSA21SBSähkö- ja automaatiotekniikka (AMK)
-
ZJA21STPPSAAvoin amk, tekniikka, Sähkö ja automaatiotekniikka, päivä
Objectives
You will get acquainted with electrical engineering modeling methods and learn systematic analysis methods for determining the currents and voltages of direct current and alternating current circuits. The things learned in this course are key competencies in the field.
EUR-ACE KNOWLEDGE AND UNDERSTANDING
You know the main modeling methods of direct current and alternating current circuits. You will be able to use systematic analysis methods to determine the currents and voltages of different parts of direct current and alternating current circuits. You know the AC power calculation and understand the importance of the power factor. You know the series and parallel resonance phenomenon. You know the basics of a symmetric three-phase system.
Content
circuit transformations
source transformations
mesh analysis
theveninin's theorem
superposition theorem
phasor calculation of alternating current circuits
complex power
resonance circuits
mutual inductance
analysis of symmetric three-phase systems
Learning materials and recommended literature
Tarkka, Määttänen, Hietalahti. 2003. Piirianalysi 1. Edita
Tarkka, Hietalahti. 2004. Piirianalyysi 2. Edita
Teaching methods
Teaching takes place through contact hours, calculation exercises and remote calculation exercises.
Exam dates and retake possibilities
Two midterm exams (one in the middle and one in the end)
1. re-exam in late spring 2022
2. re-exam in early autumn 2022
Student workload
Contact hours (lectures and exercises + exam) total 42 hours.
Independent work 66 hours.
A total of 108 hours of student work.
Further information for students
Self-assessments are mainly done through learning tasks. The assessment decision is based on the skills demonstrated in the exam.
Avoin AMK 5.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize a few different systematic analysis methods to solve simple direct current and alternating current circuits.
Satisfactory 2: You identify key modeling methods for direct current and alternating current circuits. You will be able to utilize systematic analysis methods in solving simple direct current and alternating current circuits.
Evaluation criteria, good (3-4)
Good 3: You know the basic modeling methods of direct current and alternating current circuits. You can use systematic analysis methods to solve different direct current and alternating current circuits. You will recognize how theory can be applied in practice.
Very good 4: You have a good command of key modeling methods for DC and AC circuits. You are able to independently use systematic analysis methods to solve different direct current and alternating current circuits. You manage entities and are able to apply different solution methods to different circuits. You are well placed to apply the theory you have learned to practical problems.
Evaluation criteria, excellent (5)
Excellent 5: You have a good command of key modeling methods for direct current and alternating current circuits. You are able to independently and creatively use systematic analysis methods to solve various direct current and alternating current circuits. You manage entities and are able to apply different solution methods to even complex circuits. You will be in an excellent position to apply the theory you have learned to practical problems.
Prerequisites
Basic knowledge of direct current and alternating current electrical technology and familiarization with electrical safety. Basics of mathematics.