7. Basics of Electrical Engineering

Module Name:

Module 7: Basics of Electrical Engineering 

Code

M7REET(Ba)

Module Elements:

Compulsory Subjects

Electric Circuit Theory

Basics of Electronic and Measuring Equipment

Basics of Radio Engineering and Telecommunications 

Semester Number:

3, 4

Person responsible for the module

T.I. Krashevskaya

Lecturer:

Electric Circuit Theory – T.I. Krashevskaya

Basics of Electronic and Measuring Equipment – G.V. Savostina

Basics of Radio Engineering and Telecommunications – G.V. Savostina

Language:

Russian, Kazakh

Curriculum relation:

Radio Engineering, Electronics and Telecommunications (Ba)

Type of teaching  / number of hours per week and per semester :

3 semester: hours per week – 10 (lectures -1; workshops -1; labs-1; independent work -7);

hours per semester – 150.

4 semester: hours per week – 14 (lectures -2; workshops -1; labs-2; independent work -9);

hours per semester – 210.

Workload:

Teaching Load: 120 hours

Extracurricular Classes: 240 hours

Total: 360 hours

Credit Points:

12 ECTS

Conditions for Examinations:

For admission to the exam, the student must score at least 50 points out of 100 available for every subject of the module

Recommended Conditions:

This module is based on the knowledge gained in the course of the following modules: Physics, Basics of Mathematics

Expected Learning Outcomes:

Know:

- mathematical methods of calculation used in radio systems;

- theoretical basics of electrical engineering;

- basics of metrological support required in the development and adjustment of radio engineering devices;

- principles of construction of radio and telecommunication systems;

- methods of transmission, reception and processing of signals;

Be able to:

- make and calculate electrical schematic diagrams;

- simulate different processes in radioengineering systems with use of application packages;

- use measuring equipment for adjustment and testing of electronic devices;

Possess the skills:

- determination of the main properties of electrical processes under standard exposures, to produce high-quality physical interpretation of the results;

- installation and adjustment of technical means of radio engineering, electronics and telecommunications;

Demonstrate the ability:

- to analyze and select the required methods for calculation of electrical circuits of direct and alternating current;

- to operate systems of radio engineering, electronics and telecommunications, their technical, information and mathematical support and software.

Intendend use/applicability

Modules:  Digital Control Systems, Theory of Electrical Communication, Receiving and Transmitting Devices, Antenna-Feeder Devices, Radio Engineering Systems 

Content:

Electric Circuit Theory

Topology of electrical circuits. Methods of calculation of electrical circuits. Analysis of simple electrical circuits at harmonic actions. The phenomenon of resonance and its importance in radio engineering and telecommunications; serial and parallel oscillatory circuits. Basics of the quadrupole theory.

Basics of Electronic and Measuring Equipment

Basic provisions of metrology and measuring equipment, principles of construction and technical properties of modern measuring equipment. General issues of electrical measurements, measuring transducers, measurement of voltage currents, measurement of parameters of electrical circuits.

Basics of Radio Engineering and Telecommunications

Classification and structure of radio engineering systems. Basics of antenna-feeder devices. Basics of television. Basics of radio and radio transmitting devices. General properties of telecommunication systems.

Examination Form, module mark:

Comprehensive examination including

Electric Circuit Theory – written examination 

Basics of Electronic and Measuring Equipment – computer-based testing

Basics of Radio Engineering and Telecommunications – oral examination

Module mark: the result of the exam Basics of Electronic and Measuring Equipment 

Technical/Multimedia Facilities:

Multimedia complex. Laboratory of Computer Mathematics and Electronic Simulation. Laboratory of Data Measuring Equipment. Laboratory of Antenna-Feeder and Microwave Devices.

Study Materials:

1. V. P. Popov. Basics of electric circuit theory: Textbook for universities. – Moscow: Vysshaya Shkola, 2000.

2. V. P. Bakalov Basics of electric circuit theory: Textbook for universities. – Moscow: Vysshaya Shkola, 2000.

3. A. B. Novgorodtsev. Theoretical Basics of Electrical Engineering. – St. Petersburg: Piter, 2006.

4. V. V. Frisk Basics of electric circuit theory. - M.: IP RadioSoft, 2002.

5. S. S. Antsyferov, B. I. Golub. General Theory of Measurements. – M.: Goryachaya liniya - Telekom, 2007.

6. V. Y. Shishmarev. Means of Measurement. – SPb.: Akademiya, 2006.

7. V. I. Nefedov. Basics of Radio Electronics: Textbook for universities. - Moscow: Vysshaya Shkola, 2004.

8. G. A. Yerokhin et al. Antenna-Feeder Devices and Radio Wave Propagation. - Moscow: Radio i svyaz, 2006.

9. O. V. Golovin. Radio Receivers: Textbook. - M.: Goryachaya liniya - Telekom, 2002.

10. Radio transmitters / edited by V. V. Shakhgildyan - M.: Svyaz, 2005.

Date of last amendment

20.01.2023