Study Guide

Objective

After completing the course, student will

· recall the theory and the principles of different photovoltaic cell technologies
· analyze dimensioning and selection of inverters
· evaluate requirements and applications of different components on photovoltaic systems
· apply knowledge for designing of residencial and commercial rooftop photovoltaic systems
· apply fundamentals of installation and quality control in working life circumstances
· evaluate safety issues related to photovoltaic systems

Content

1. Introduction to photovoltaic technologies
2. Introduction to system simulation tools
3. Photovoltaic system topologies
4. Practical photovoltaic design exercises
5. Safety aspects in photovoltaic systems

Materials

ItsLearning

Teaching methods

Lectures, simulation exercises

Exam schedules

Final Exam
28 November 14:00-17:00

Common retake date 10.12. 2024

2025 retake dates
14.1, 4.2, 4.3, 22.4, 6.5, 3.6- room ICT_C1035 Deltan, except June Tapio Lem164.

Enroll for retake by contacting teacher one week prior exam date

Content scheduling

1. Introduction to photovoltaic technologies
2. Introduction to system simulation tools
3. Photovoltaic system topologies
4. Practical photovoltaic design exercises
5. Safety aspects in photovoltaic systems

Further information

ItsLearning

Evaluation scale

H-5

Assessment methods and criteria

Final Exam and simulation exercises 50/50
Exercise return after deadline leads for reduction of grade.

Qualifications

Prerequisites: Renewable energy production, Introduction to power electronics

Objective

After completing the course, student will

· recall the theory and the principles of different photovoltaic cell technologies
· analyze dimensioning and selection of inverters
· evaluate requirements and applications of different components on photovoltaic systems
· apply knowledge for designing of residencial and commercial rooftop photovoltaic systems
· apply fundamentals of installation and quality control in working life circumstances
· evaluate safety issues related to photovoltaic systems

Content

1. Introduction to photovoltaic technologies
2. Introduction to system simulation tools
3. Photovoltaic system topologies
4. Practical photovoltaic design exercises
5. Safety aspects in photovoltaic systems

Evaluation scale

H-5

Qualifications

Prerequisites: Renewable energy production, Introduction to power electronics

Objective

After completing the course, student will

· recall the theory and the principles of different photovoltaic cell technologies
· analyze dimensioning and selection of inverters
· evaluate requirements and applications of different components on photovoltaic systems
· apply knowledge for designing of residencial and commercial rooftop photovoltaic systems
· apply fundamentals of installation and quality control in working life circumstances
· evaluate safety issues related to photovoltaic systems

Content

1. Introduction to photovoltaic technologies
2. Introduction to system simulation tools
3. Photovoltaic system topologies
4. Practical photovoltaic design exercises
5. Safety aspects in photovoltaic systems

Evaluation scale

H-5

Qualifications

Prerequisites: Renewable energy production, Introduction to power electronics