Course detail

Electronic Devices for SEE

FEKT-BKC-ESOSAcad. year: 2024/2025

Semiconductors physics. PN-junction. Semiconductor Diode. Bipolar junction transistors. Field effect transistors. Voltage amplifier in class A and AB. Transistor switches. Multilayer switching devices, thyristor, triac. Transistor switches IGBT, JFET, HEMT. Digital Circuits. Sensors. Data transfers. Radio communication systems.

Language of instruction

Czech

Number of ECTS credits

5

Mode of study

Not applicable.

Entry knowledge

The subject knowledge on the secondary school level is required.

Rules for evaluation and completion of the course

Numerical exercises, TEST 1 - 15 points; minimum 8 points.
Numerical exercises, TEST 2 - 15 points; point limit not set
Laboratory exercises: 20 points; minimum 12 points
Final exam - 50 points; minimum 25 points.
Laboratory practicum. Numerical practicum.

Aims

The acquirement of the knowledge about alectric components and electronic devices .
Based on the verification of the student's knowledge and skills in seminars, laboratory work and in the written exam, after completing the course the student is able to:

Define the parasitic properties of resistors and explain the effect of materials used and the design of resistors on the generation or suppression of their parasitic properties.
Define the parasitic properties of capacitors and explain the effect of materials used and the design of capacitors to create or suppress their parasitic properties.
Define the parasitic properties of the inductors and explain the influence of the materials used and the design of the inductors to create or suppress their parasitic properties.
Describe the mechanisms that take place in the PN junction in the equilibrium state and in the forward and backward polarizations.
Define the barrier and diffusion capacitance of the PN junction.
Explain the operation of the PN junction in the rectifier, voltage stabilizer, capacitance diode, photodiode and luminescent diode.
Describe the structure of the bipolar transistor and explain its operation.
Design and analyze a class A amplifier with bipolar transistor and a bipolar transistor switch.
Explain the principle and use of linear and nonlinear bipolar transistor models.
Describe the structures of the unipolar transistors JFET and IGFET and explain their operation.
Design and analyze Class A voltage amplifier and Switch with JFET and IGFET Transistors.
Explain the principle of feedback control.
Describe a Class AB power amplifier.
Describe the design of the operational amplifier and explain its operation.
Describe the structure of the thyristor and explain its operation using its substitution scheme.
Describe the structure of the triac.
Define the principle of phase-angle control of switching elements.
Draw and explain examples of typical circuits with thyristor and triac.
Describe transistor switching structures IGBT, JFET, HEMT.
Explain the principle of the transistor converter.
Define the principles for the design and analysis of digital circuits.
Explain the principle of CMOS circuit operation.
Explain the function of the flip-flops.
Describe ways to manage memory.
Draw and describe the connection of rectifiers for different application areas.
Draw and describe examples of stabilizer connection.
Describe and explain the mechanisms of photoluminescence and electroluminescence.
Explains the principles of LED control in lighting technology.
Describe examples of the use of temperature, pressure, humidity and flow sensors.
Explain the method of data transmission over high-voltage installations.
Describe examples of the use of radio communication systems.

Study aids

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

Boušek J., Kosina P.: Elektronické součástky BESO, laboratorní cvičení, FEKT VUT V BRNĚ, elektronické skriptum
Boušek J., Kosina P., Mojrova B.: Elektronické součástky, FEKT VUT V BRNĚ, elektronické skriptum
Boušek J., Kosina P., Mojrova B.: Elektronické součástky sbírka příkladů, FEKT VUT V BRNĚ, elektronické skriptum
Boylestad R., Nashelsky L. :Electronic devices and Circuit Theory ,Prentice Hall
MUSIL V., BRZOBOHATÝ J., BOUŠEK J, PRCHALOVÁ I.: " Elektronické součástky", PC dir, BRNO, 1999
Singh J. : Semiconductor Devices ,McGraw-Hill

Recommended reading

Not applicable.

Classification of course in study plans

  • Programme BKC-SEE Bachelor's 1 year of study, summer semester, compulsory

Type of course unit

 

Lecture

14 hod., optionally

Teacher / Lecturer

Fundamentals seminar

26 hod., compulsory

Teacher / Lecturer

Laboratory exercise

12 hod., compulsory

Teacher / Lecturer