Zagreb Polytechnic the Professional Study Programme in Electrical Engineering

Zagreb Polytechnic The professional study programme in Electrical Engineering
Course label / Course name / Course status / Semester
1501 / Analog Circuits / Compulsory / 3.
Course type / Teaching mode / Number of hours / ECTS:
Professional / Lectures + exercises
Exercises: auditory+methodological+laboratory+design+seminar / 45+45
30+0+15+0+0 / 7
Teacher / Mirko Dozet Ph.D.
Department / Department of Electrical Engineering
Course objectives: / Gaining fundamental knowledge of analog circuits, their characteristics, and applications.
Knowledge and competences / Understanding operating principles of analog circuits and their applications in real life. Student will be able to design simple analog circuits.
The way of lecturing / The lectures are conducted by presentations that include tables, diagrams, real life examples and application examples from available commercial product catalogs. / Student group size
80
Exercise type / Auditory: Specific examples are used to demonstrate principles of operation and reinforce the new knowledge presented during lectures. The regularly required homework is used to stimulate independent student studies at home. / 30
Laboratory: The new knowledge from lectures is demonstrated with real life practical examples. The laboratory exercises include measurements and recording of charactreristics that confirm the presented theory of operation. The excercises are conducted by teams of two students per team. / 10
Course Contents
(topics and hours) / Circuits containig diodes: rectifiers - half-wave and full-wave, rectifier circuit elements calculation, voltage doubler and multiplier, diode charge pump (4 hours). Basic bipolar transistor circuits, static and dynamic load line, operating point stabilization, transistor equivalent circuit schematic, amplifier dynamic analysis (6 hours). Amplifiers using CE (common emitter), CC (common collector) and CB (common base) connections (2 hours). Transistor based voltage regulators (2 hours). Darlington connection (1 hour). Unipolar transistor circuits with CS (common source), CD (common drain), and CG (common gate) connections (4 hours). Differential amplifier, basic circuits, differential and common amplification, CMRR (3 hours). Amplifier frequency characterisitics, cascade connected amplifier, amplifier with linear phase shift, Bode plot (6 hours). Transistor equivalent circuit at high frequencies, Miller theorem (3 hours). Active filters (3 hours). Power amplifiers class A, B, AB, and C (2 hours). Push-pull circuit and circuit with complementary transistors, efficiency analysis (3 hours). Feedback principles and types of feedback (2 hours).Oscillator circuits: necessary conditions for oscillation and oscillating frequency, RC, RL and other oscillator types (4 hours).
Exercise Contents / Auditory: Circuits containig diodes and rectifiers (4 hours). Static and dynamic transistor circuits analysis (6 hours). Transistor based regulators (2 hours). Static and dynamic unipolar transistor circuits analysis (6 hours).). Differential amplifiers (4 hours). Frequency characteristics and Bode plots (3 hours). Active filters (3 hours). Power amplifiers, efficiency analysis (2 hours).
Methodological:
Laboratory: Circuits containig diodes (2 hours). Transistor amplifier with CE connection (4 hours). Transistor amplifier with CC connection (2 hours). Transistor amplifier with CB connection (2 hours). Differential amplifier (2 hours). Amplifier frequency characteristics and active filters (3 hours).
Design:
Seminar:
The study and exam literature / 1. P. Biljanović, Elektronički sklopovi (Electronic Circuits), Školska knjiga, Zagreb, 1993.
2. A. Szabo, Industrijska elektronika (Industrial Electronics), Centar Ruđer Bošković, Zagreb, 1990
3. Ž. Butković, G. Zelić, Elektronički sklopovi-Zbirka zadataka (Electronic Circuits - Collection of Homework Examples), FER, Zagreb, 1995.
4. M. Dozet, Ž. Stojanović, Zbirka zadataka-u pripremi (Collection of Homework Examples – In preparation)
Recommended additional literature / Available commercial electronic component catalogs.
Prerequisites / 2714 – Electronic Components
Knowledge evaluation and examination / Laboratory exercises test
Written and oral exam.
This course is available for the engineering diploma related projects.
Proposal made by teacher: Mirko Dozet Ph.D. / Date: 03.03.2005. / Signature:

Zagreb Polytechnic The study programme in Electrical Engineering

Course label / Course name / Course status / Semester
1502 / Linear and nonlinear circuits / Compulsory / 3
Course type / Teaching mode / Number of hours / ECTS:
General / Lectures + exercises
Exercises: auditory / 30+30
12+0+0+18+0 / 4
Teacher / Prof. Ivan Flegar Ph.D.
Department / Department of Electrical Engineering,
Course objectives: / Acquisition of knowledge in the field of electric circuit analysis .
Knowledge and competences / Student will acquire knowledge and skills for analysis of simple electric circuits.
The way of lecturing / All topics are explained and illustrated by means of characteristic examples. / Student group size
30
Exercise type / Auditory
Course Contents
(topics and hours) / Basic properties of lumped networks: Kirchhoff´s laws.Tellegen theorem.(2). One-port dissipative and reactive network elements: resistor, capacitor, inductor. (6). Two-port dissipative network elements: linear dependent sources, operational amplifier, ideal transformer, gyrator. (4). Time responses of networks: commutation laws, zero-state and zero-input responses of first order and second order circuits. (6). Phasor transformation: frequency response, resonance. (4). Superposition integrals. (4). Laplace transformation: solution of simple circuits, natural frequencies, network functions. (4).
The study and exam literature / 1. Flegar, Teorija mreža-Bilješke s predavanja, Sveučilište u Osijeku, Osijek,2001
2. Flegar, Teorija mreža-Zbirka zadataka, Sveučilište u Osijeku, Osijek, 1966
3. L.O.Chua, C.A.Desoer, E.S.Kuh, Linear and Nonlinear Circuits, Mc. Graw Hill Comp. Ne
Recommended additional literature / 1. Nilsson, Riedel, Electric circuits, Reading, Massachusetts, Addison-Wesley Publ. Comp. 1996
Prerequisites
Knowledge evaluation and examination /

• preliminary examination
• written and oral examination

Possibility of preparing the final thesis: no
Proposal made by teacher: Prof. Ivan Flegar Ph.D. / Date: 2005-03-06 / Signature:
Zagreb Polytechnic The professional study programme in Electrical Engineering
Course label / Course name / Course status / Semester
1302 / Electronic Circuits / Compulsory / 3.
Course type / Teaching mode / Number of hours
Professional / Lectures + exercises
Exercises: auditory+methodological+laboratory+design+seminar / 45+45
30+0+15+0+0 / 5
Teacher / Mirko Dozet Ph.D.
Department / Department of Electrical Engineering
Course objectives: / Gaining fundamental knowledge of electronic circuits and their applications. Learning basics of logic and digital circuits.
Knowledge and competences / Understanding operating principles of electronic circuits and their applications in real life.
The way of lecturing / The lectures are conducted by presentations that include tables, diagrams, real life examples, and application examples from available commercial product catalogs. / Student group size
50
Exercise type / Auditory: Specific examples are used to demonstrate principles of operation and reinforce the new knowledge presented during lectures. The regularly required homework is used to stimulate independent student studies at home. / 30
Laboratory: The new knowledge from lectures is demonstrated with real life practical examples. The laboratory exercises include measurements and recording of charactreristics that confirm the presented theory of operation. The excercises are conducted by teams of two students per team. / 10
Course Contents
(topics and hours) / Circuits containig diodes: rectifiers - half-wave and full-wave, rectifier circuit elements calculation, voltage doubler and multiplier, diode charge pump (4 hours). Basic bipolar transistor circuits, static and dynamic load line, operating point stabilization, transistor equivalent circuit schematic, amplifier dynamic analysis (6 hours). Amplifiers using CE (common emitter), CC (common collector) and CB (common base) connections (2 hours). Transistor based voltage regulators (2 hours). Darlington connection (1 hour). Unipolar transistor circuits with CS (common source), CD (common drain), and CG (common gate) connections (4 hours). Differential amplifier, basic circuits, differential and common amplification, CMRR (3 hours). Amplifier frequency characterisitics, cascade connected amplifier, amplifier with linear phase shift, Bode plot (6 hours). Feedback prinicples, types of feedback (2 hours). Oscillator circuits: necessary conditions for oscillation and oscillating frequency, RC, RL and other oscillator types (4 hours). Pulse generator circuits: bistable, astable, monostable multivibrator (3 hours). Basics of logic algebra, logic circuits, binary system. (4 hours). Basic digital circuits, types (4 hours).
Exercise Contents / Auditory:
Circuits containig diodes and rectifiers (4 hours). Static and dynamic transistor circuits analysis (6 hours). Transistor based regulators (2 hours). Static and dynamic unipolar transistor circuits analysis (6 hours).). Differential amplifiers (4 hours). Frequency characteristics and Bode plots (3 hours). Logic circuits, minimization, and realization of logic functions (5 hours).
Methodological:
Laboratory: Circuits containig diodes (2 hours). Transistor amplifier with CE connection (4 hours). Transistor amplifier with CC connection (2 hours). Transistor amplifier with CB connection (2 hours). Differential amplifier (2 hours). Logic circuits (3 hours).
Design:
Seminar:
The study and exam literature / 1. P. Biljanović, Elektronički sklopovi (Electronic Circuits), Školska knjiga, Zagreb, 1993.
2. A. Szabo, Industrijska elektronika (Industrial Electronics), Centar Ruđer Bošković, Zagreb, 1990
3. Ž. Butković, G. Zelić, Elektronički sklopovi-Zbirka zadataka (Electronic Circuits - Collection of Homework Examples), FER, Zagreb, 1995.
4. M. Dozet, Ž. Stojanović, Zbirka zadataka-u pripremi (Collection of Homework Examples – In preparation)
Recommended additional literature / Available commercial electronic component catalogs.
Prerequisites / 2714 – Electronic Components
Knowledge evaluation and examination / Laboratory exercises tests.
Written and oral examination.
This course is available for the engineering diploma related projects.
Proposal made by teacher: Mirko Dozet Ph.D. / Date: 03.03.2005. / Signature: