| Course Unit Code | Course Unit Title | Number of ECTS Credits Allocated |
|---|
| 440-4101/01 | Electronic Circuits II | 5 ECTS credits |
| Type of Course Unit | Choice-compulsory |
|---|
| Level of Course Unit | Second Cycle |
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| Year of Study | First Year |
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| Semester when the Course Unit is delivered | Winter Semester |
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| Mode of Delivery | Face-to-face |
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| Language of Instruction | Czech, English |
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| Prerequisites and Co-Requisites | There are no prerequisites or co-requisites for this course unit |
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| Name of Lecturer(s) | Personal ID | Name |
|---|
| TES10 | Ing. Zdeněk Tesař |
| GAJ10 | Dr. Ing. Libor Gajdošík |
| Learning Outcomes of the Course Unit |
|---|
Understand the function of the involvement of electrical circuits and create a new engagement as required.
Learning outcomes are set so that the students are able to identify and apply tasks in the area of the proposal of electronic circuits.
|
| Recommended Optional Programme Components |
|---|
| Common optional components are not offered, students of special interest can participate in departmental activities or can arrange consulting hours with lecturer. |
| Course Contents |
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Lectures:
Voltage and current reference supply, temperature stability.
Electronics switch, optoelectronic coupler and their ussage at electronic circuits.
Differentiating amplifiers, function generators, comparators. Design, realisation, dynamic properties.
Layaut and realisation of function generators, frequency and amplitude stability, non-linearity distortion.
Layaut and realisation D/A convertors, static and dinamic properties.
Layaut and realisation D/A convertors, static and dinamic properties.
Voltage and curent driven boosters, compresors and expandors.
Oscilators, design and realisations.
Multifunction generators.
PLL.
Pulse sources.
Control circuits of pulse sources.
EPAC.
Design of EPAC.
Exercises:
Frequency centre design.
Pulse supy design.
EPAC circuit design.
Basis for design electric circuits.
Laboratories:
Design, realisation and measurement of thermal stability of voltage source.
Design, realisation and measurement of thermal stability of voltage source.
Design, realisation and measurement of differential rectifier.
Design, realisation and measurement of voltage driven generator.
Design, realisation and measurement of D/A convertor.
Design, realisation and measurement of A/D convertor.
Booster charakteristics measurement.
Design, realisation and measurement of RC and LC oscilators.
Design, realisation and measurement of frequenci multiplier with PLL.
Design, realisation and measurement of pulse suply. |
| Recommended or Required Reading |
|---|
| Required Reading: |
|---|
Mikula, V., Hanousek, K.: Elektronické systémy II, část 1. VUT Brno, 1985
Mikula, V., Hanousek, K.: Elektronické systémy II, část 2. VUT Brno, 1987
Kadlec, J., Laipert, M.: Návrh obvodů telekomunikačních zařízení. ČVUT Praha, 1993
Vedral, J., Fischer, J.: Elektronické obvody pro měřící techniku. ČVUT Praha, 1999
|
Mikula, V., Hanousek, K.: Elektronické systémy II, část 1. VUT Brno, 1985
Mikula, V., Hanousek, K.: Elektronické systémy II, část 2. VUT Brno, 1987
Kadlec, J., Laipert, M.: Návrh obvodů telekomunikačních zařízení. ČVUT Praha, 1993
Vedral, J., Fischer, J.: Elektronické obvody pro měřící techniku. ČVUT Praha, 1999
|
| Recommended Reading: |
|---|
Žalud, V.: Moderní radioelektronika. BEN Praha, 2003
Vrba, K.: Navrhování obvodů s integrovanými obvody. VUT Brno, 1984
Vrba, R., Legát, P.: Elektronické přístroje. VUT Brno, 1985 |
Žalud, V.: Moderní radioelektronika. BEN Praha, 2003
Vrba, K.: Navrhování obvodů s integrovanými obvody. VUT Brno, 1984
Vrba, R., Legát, P.: Elektronické přístroje. VUT Brno, 1985 |
| Planned learning activities and teaching methods |
|---|
| Lectures, Tutorials, Experimental work in labs |
| Assesment methods and criteria |
|---|
| Tasks are not Defined |
| Work placement(s) |
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| Course does not contain work placement. |
