Fundamentals of Electronic Circuits

The course is a substitute for:

Fundamentals of Electronic Circuits (X31ZEO)

Lecturer:

Tutor:

Supervisor:

Department of Circuit Theory

Synopsis:

This course represents an introduction to the Electronics. The elementary electronic elements, circuits and methods of DC and AC analysis are presented here. The both parts of electronics, analog circuits and digital circuits are educated. All exercises are laboratory and are practical oriented. The course is facultative for all students in the first and second year of study and it does not need any prerequisites.

Requirements:

Syllabus of lectures:

1. Passive elements of electronic circuits, linear and nonlinear models

2. Diode-rectifiers, limiting circuits, voltage regulators. Power supplies for electronic circuits

3. Field effect transistors, type of FETs and characteristic properties. U/I limiting, amplifiers

4. Bipolar transistors, dc and ac models. Amplifier circuits, dc biasing

5. Basic amplifier circuits. Properties and areas of using

6. Operational amplifiers (OA); internal structure, differential amplifier, current mirror, push-pull power amplifier

7. Logic functions. Principles of combinational and sequential circuits

8. TTL integrated circuits, basic structures, parameters, characteristics

9. CMOS integrated circuits, structures, parameters, charakteristics

10. MSI integrated circuits, decoders, using in digital systems

11. Multiplexers and demultiplexers. Principles and using

12. Flip-flops. RS, D, JK flip-flop structures. Shift registers

13. Synchronous and asynchronous counters. Counters and frequency dividers

14. Impulse train generation, ICs for astable multivibrators and one-shots

Syllabus of tutorials:

1. Introduction to laboratory rules

2. Measurement on RC-circuits, frequency response, unit step response

3. Diode limit circuits, Zenner diode regulator, design and measurement

4. Measurement on DC supply sources, rectifiers and voltage regulators

5. JFET amplifier, design and parameter measurement

6. Bipolar transistor amplifier, design, frequency response, input impedance

7. The first credit test

8. Measurement on operation amplifier, offset setting, frequency response, time of „prebehu“

9. Logical ICs TTL and COMS, measurement of static and dynamic parameters

10. Decoders for 7-segment displays, static mode connection

11. Asynchronous and synchronous counters, setting of modulo counting

12. Design of astable multivibrators using Schmitt circuit TTL and CMOS

13. The second credit test

14. Astable multivibrator and one-shot using timer „555“. Credit

Study Objective:

Study materials:

1. Tietze, U., Schenk, Ch.: Electronic Circuits - Design and Appl. Springer Verlag, Berlin, 1991

2. Horowitz, P., Hill, W.: The Art of Electronics. Cambridge University Press, Cambridge, 1992

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Biomedicínské inženýrství - inženýrský blok (elective specialized course)
• Biomedicínské inženýrství - inženýrský blok (elective specialized course)