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Signaalit (E0127), 5 op
Basic information
| Course name: | Signaalit Signals |
| Course Winha code: | E0127 |
| Kurre acronym: | Sign |
| Credits: | 5 |
| Type and level of course: | Professional studies |
| Year of study, semester or study period: | 2.year |
| Implementation: | 3.period, 4.period |
| Semester: | 0607 |
| Language of tuition: | Suomi |
| Teacher: | Matti Fischer, Thierry Baills |
| Final assessment: | Grading scale (0-5) |
Descriptions
Prerequisites
DC-circuits, AC-circuits, basic mathematics, Laplace transform, series fourier and z-transform
Course contents (core content level)
Frequency domain analysis using Fourier series and harmonic analysis. Time domain analysis using Laplace transform. Transformers and mutual inductance. Transfer function and resonance.
Course contents (additional)
Different analysis methods (superposition, mesh current, node voltage methods) for the analysis of Laplace transformed circuits and signals.
Core content level learning outcomes (knowledge and understanding)
After completion of the course the student understands the concept of transfer function and the basics of frequency domain analysis with Fourier tools. The student is able to use Laplace transform to analyse and simulate circuits.
Core content level learning outcomes (skills)
After completion of the course the student knows how to operate an oscilloscope, a network analyser and a spectrum analyser. The student can use a circuit analysis software to analyse a circuit both in frequency and time domains.
Recommended reading
Tarkka, Hietalahti : Piirianalyysi 2
Edminister, Nahvi : Electric circuits (Schaum?s outlines)
Carlsson : Communication systems
Teaching and learning strategies
Class room teaching: 35 h
Laboratory exercises: 15 h
Project: 20 h
Exam: 6 h
Student individual workload (student workload analysis carried out 5/05): 48 h
Total: 124 h
Follow-up of the student workload analysis is performed: -
Teaching methods and student workload
Assessment weighting and grading
Core content level learning outcomes tested in individual tests,
homework assignments, laboratory exercises and final exam/ exams. In order to pass the course (grade 1) the student must successfully complete the individual tests, homework assignments, laboratory exercises and the exam.
Related competences of the degree programme
Electronics Measurement Technology
Theoretical basis and mathematical and science skills
Analog Electronics Design