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Analogiaelektroniikka I (E0130), 5 op
Basic information
| Course name: | Analogiaelektroniikka I Analog Electronics I |
| Course Winha code: | E0130 |
| Kurre acronym: | analogia I |
| Credits: | 5 |
| Type and level of course: | Professional studies |
| Year of study, semester or study period: | 1.year |
| Implementation: | Spring semester, 3.period, 4.period |
| Semester: | 0607 |
| Language of tuition: | Suomi |
| Teacher: | Heikki Valmu |
| Final assessment: | Grading scale (0-5) |
Descriptions
Prerequisites
MATL0111, E0125
Course contents (core content level)
Fundamental principles of analogue electronics, circuit model of a voltage amplifier, most common operational amplifier circuits, diode I/V-curve, rectifiers, structure and DC-analysis of a bipolar transistor, common emitter bipolar transistor amplifier, structure and DC-analysis of JFET and MOSFET, common source FET-amplifiers,
oscillator theory, Wienin bridge oscillator, Colpitts-oscillator
Course contents (additional)
Nonidealities of an operational amplifier, small signal analysis of transistor amplifiers, common collector and common drain transistor amplifiers, other oscillator topologies
Core content level learning outcomes (knowledge and understanding)
After completion of this course the student will be able to perform decibel conversions. The student will know the most common operational amplifier circuits and will be able to calculate their component values. The student will understand the operating principles of rectifier circuits.
Core content level learning outcomes (skills)
After completion of this course the student will be able to design one-stage common emitter bipolar transistor and common drain field-effect transistor amplifiers. The student will be able to design Wien bridge and Colpitts oscillators and measure the amplitude response of a voltage amplifier using a function generator and an oscilloscope.
Recommended reading
Floyd: Electronic Devices
Additionally: Sedra/Smith: Microelectronic Circuits
Teaching and learning strategies
Class room teaching: 42 h
Laboratory exercises: 18 h
Project: 10 h
Exam: 3h
Student individual workload (student workload analysis carried out 5/05): 56 h
Total: 129 h
Follow-up of the student workload analysis is performed: -
Teaching methods and student workload
Assessment weighting and grading
Six core content level learning outcomes tested in individual tests.
Assessment of the compulsory homework assignments and laboratory reports. Final exam.
In order to pass the course (grade 1) the student must successfully complete the six individual tests, compulsory homework assignments and laboratories.
Related competences of the degree programme
Electronics Measurement Technology
Semiconductor and Sensor Technology
Theoretical basis and mathematical and science skills
Analog Electronics Design