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Signaalit ja muutosilmiöt (A0221), 5 op
Basic information
| Course name: | Signaalit ja muutosilmiöt Signals and transients |
| Course Winha code: | A0221 |
| Kurre acronym: | Sign. ja muutosilm. |
| Credits: | 5 |
| Type and level of course: | Professional studies |
| Year of study, semester or study period: | 2.year |
| Implementation: | 2.period, 3.period |
| Semester: | 0607 |
| Language of tuition: | Suomi |
| Teacher: | Kai Virta |
| Final assessment: | Grading scale (0-5) |
Descriptions
Prerequisites
Electric circuits and networks, MATL0114 (Laplace), MATL0027 (Fourier)
Course contents (core content level)
Frequency-based analysis by using Fourier-series and harmonic analyzing methods. Time-based analysis by using Laplace transformation. The impact of circuit voltage and/or current on controlled sources. Transformers and mutual inductance. Input point and transfer functions, natural frequencies and stability.
Course contents (additional)
Laplace transformed network and signal analyzing by using different methods (layering, network loop / junction)
Core content level learning outcomes (knowledge and understanding)
Student understands the basics of transfer functions and frequency analysis with the help of Fourier series. Student is familiar with the basics of the Laplace transformation and its? applications circuit analysis and simulation.
Core content level learning outcomes (skills)
Student is able to operate the basic equipment used for measuring signals, such as the oscilloscope, spectrum analyzer and circuit analyzer. With the help of circuit design software the student is able to build circuits and analyze their function in both frequency and time scale.
Recommended reading
Tarkka, Hietalahti : Piirianalyysi 2
Voipio : Piirianalyysi osa 2
Edminister, Nahvi : Electric circuits (Schaum?s outlines)
Lee, Varaiya : Structure and interpretation of signals and systems
Carlsson : Communication systems
Oppenheim, Willsky : Signals & systems
Teaching and learning strategies
Classroom teaching: 21 h
Laboratory exercises: 21 h
Project: 10 h
Exam: 2h
Student individual workload (student workload analysis carried out 5/05): 58 h
Total: 133 h
Follow-up of the student workload analysis performed: -
Teaching methods and student workload
Assessment weighting and grading
Compulsory homework, a project exercise, laboratory exercises and exam(s) are all to be performed acceptably in order for the course to be passed.
Related competences of the degree programme
Process automation
Production automation
Automation and process electrification
Theoretical basis and mathematical and science skills