20. Analysis and synthesis of electrical circuits

Module Name:

Module 20: Analysis and synthesis of electrical circuits

Code

M20REET(Ba)

Module Elements:

Elective Subjects

Electric Circuit Theory 2

Basics of Electric Circuit Theory

Metrology and Radio Measurements

Engineering Measurements

Data Measuring Equipment

Radio Circuits and Signals

Analysis and Synthesis of Radio Signals

Circuity and System Engineering of Electronic Devices

Industrial Electronics

Basics of Automation

Automatic Control

CAD Systems

Basics of Computer-Aided Design

Radioautomatics;

Computer Networks;

WEB-Programming

Semester Number:

3, 4

Person responsible for the module

Y.V. Gerasimova

Lecturer:

Metrology and Radio Measurements – Y.V. Gerasimova

Engineering Measurements – T.I. Krashevskaya 

Data Measuring Equipment– Y.M. Dariy

Electric Circuit Theory 2 – T.I. Krashevskaya

Basics of Electric Circuit Theory – V.P. Ivel

Radio Circuits and Signals – A.A. Savostin

Analysis and Synthesis of Radio Signals – A.A. Savostin

Circuity and System Engineering of Electronic Devices – Y.V. Gerasimova

Basics of Automation - N.V. Zykova

Automatic Control – Y.V. Gerasimova

CAD Systems – D.V. Ritter

Basics of Computer-Aided Design – P.A. Petrov

Industrial Electronics - A.A. Savostin

Computer Networks – I.R. Kasimov

WEB-Programming – N.V. Astapenko

Radioautomatics – Y.V. Gerasimova

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 – 26 (lectures -4; workshops -2; labs-4; independent work -16); hours per semester – 390.

4 semester: hours per week – 20 (lectures -2; workshops -2; labs-4; independent work -12); hours per semester – 300.

Workload:

Teaching Load: 270 hours

Extracurricular Classes: 420 hours

Total: 690 hours  

Credit Points:

23 ECTS 

Conditions for Examinations:

For admission to the exam, the student must score at least 50 points out of 100 available for the 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, Basics of the Profession

Know: 

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

- theoretical bases of electrical engineering;

- principles of construction and application of analog and digital devices of various functional complexity;

-  principles of construction and application of radio engineering and telecommunication systems;

-  mathematical methods of calculation used in the study of radio systems;

-  physical and mathematical models of processes and phenomena underlying the principles of radio engineering devices and systems;

-  parameters, properties and area of use of radio signals;

-  methods of transmission, reception and processing of signals;

-  main widely used approaches and methods of statistical radio engineering;

-  rules and methods of installation, processing and adjustment of units of radio engineering devices and systems;

-  the basic concepts of automation, the basic principles of regulation and control, and the basic elements of automatic systems;

-  principles of organization of computer-aided design (CAD) systems;

-  CAD software and hardware;

-  methods of network configuration and testing.

Be able: 

-  process measurement results, evaluate measurement errors;

-   make and calculate circuit diagrams;

- apply mathematical and physical laws in the design of radio systems; - calculate the parameters of the signals when they pass through the radio circuit;

- use the basic statistical methods of analysis and synthesis in radio systems;

-   verify, process and adjust the equipment and software used for development, production and adjustment of radio engineering devices and systems;

-   make functional schemes, to calculate indicators of management quality;

-  use software application packages for calculations, simulation and automation of design of radio electronic devices and systems; - configure network equipment settings.

Possess the skills:

-  construction of measuring systems based on personal computers;

-  work with regulatory documentation;

-  development and implementation of measures to protect people and the environment from negative impacts;

-    verify the technical condition of the equipment, organize preventive inspections and maintenance;

-   development of circuit diagrams and printed circuit boards of

electronic devices, development of technical documentation;

-   assemble and install electronic devices; 

-   design of radio receiving and radio transmitting systems;

-   selection of different statistical methods of analysis of radio systems;

-   to solve problems on the basis of modern software packages;

-   work with programs and packages of Electronics Workbench, PSpice, MicroCAP V, OrCAD, P CAD;

-  use the skills to organize local networks of different topologies. 

Demonstrate the ability:

-  ability to offer optimal circuit solutions for the implementation of various electronic devices

-  choose a technical solution for the creation of electrical signals used in the transmission of information with the desired properties

-  apply methods of analysis and synthesis of analog and digital signal processing devices in the field of speech, sound and image processing. - to make and justify specific technical solutions taking into account the requirements of electromagnetic compatibility, ensuring the necessary level of reliability and safety in the development and use of electronic equipment.

-  to independently design and conduct research on automatic control systems.

-  to use applications in various aspects of electronic design;

- manipulating the parameters of program access to the network.

Modules: Modules of modern electronic equipment, Design of electronics, control and communication systems  

Metrology and Radio Measurements  

Measurement errors. Preparation, conduct and processing of the results of the experiment. Methods and means of measurement. Methods of measurement of time parameters of signals, frequency and phase shift. Methods of measurement of voltage and energy parameters of signals. Study of signals in the time and frequency domains.

Engineering Measurements

Classification of technical measuring instruments. Methods of measurement and control of parameters and properties of circuits. Processing of measurement results. Basics of standardization. Basics of certification. Methods of construction of measuring circuits.

Data Measuring Equipment

Development of materials relating to the measurement and evaluation, processing of measuring signals, study of modern principles of construction of power measuring equipment, measuring information systems and complexes, use of methods and measuring instruments in various practical areas.

Electric Circuit Theory 2

Transients in electrical circuits. Electrical circuits with distributed parameters. Electrical circuits with feedback. Nonlinear electrical circuits and methods of their calculation. Electrical filters. Corrective electrical circuits. Discrete electrical circuits. Digital filters.

Basics of Electric Circuit Theory

Basic concepts of the circuit theory. Basic methods of analysis of linear electrical circuits. Linear circuits under harmonic influence. Frequency response and resonance phenomena. Basics of quadrupole theory. Methods of transient analysis in linear circuits. Electrical filters. Circuits with distributed parameters. Bases of synthesis of electric circuits.

Radio Circuits and Signals

Radio signals with amplitude and angular modulation. Spectral analysis of signals. Principles of generating harmonic oscillations. Correlation analysis of signals. Analysis of signals passing through narrow-band circuits. Filter synthesis. Random signal. Numerical methods for calculating linear circuits. Analysis and Synthesis of Radio Signals

Methods of analysis and synthesis of signals in radio engineering devices and systems. Analysis of properties and parameters of formation and processing of signals in radio engineering devices and systems. Synthesis of optimal and quasi-optimal basic procedures of signal generation and processing in radio engineering devices and systems. Analysis of qualitative characteristics and performance indicators.

Circuity and System Engineering of Electronic Devices

Basics of construction and principles of electronic circuits. Amplifying devices. Basic parameters of operational amplifiers. Stages of electronic devices design. Generation of oscillations. Radio engineering systems of data transmission. Secondary power sources of radio electronic means. Elements of digital circuitry. Electronic systems. Implementation of radio communication systems.

Industrial Electronics

Semiconductor diodes. Bipolar transistor. Field-effect transistors. Transistors connection diagram and operation modes of the transistors in the amplification stages.  Thyristors. Power amplifier. Integral operating amplifiers and circuits with them. Feedback Theory. Optoelectronic devices. Power supply. Rectifier circuits (including 3phase). Frequency converter. Digital devices. Logic elements and synthesis of combinational logic circuits. Microcontrollers.  Microprocessors.

Basics of Automation

General information on automation systems and their constituent elements. Sensors and transducers. Relay. Amplifiers. Non-contact magnetic relay and stabilizers. Execution units. Automatic control system. Automatic measuring systems.

Automatic Control 

Classification of automated control systems (ACS). Description of ACS in the frequency domain. ACS Stability. Assessment of ACS quality and accuracy. Synthesis of ACS

CAD Systems 

Notion and stages of design of electronic systems. Main structure of technical and linguistic support of CAD. PCAD as an interactive design package. Design of circuits and printed circuit boards.

Basics of Computer-Aided Design

Theoretical basics of computer-aided design. Software for automation of production of design, technological and normative-technical documentation. Main properties of modern software packages. Mathematical models of radio-electronic design objects. Computer Networks

Mastering the principles of organization and functioning of computer networks, features of the personal computer in networks.

WEB-Programming

Web-Programming is designed to promote students ' familiarity with computer telecommunications and possible approaches to the development of hypertext documents intended for publication in the global computer network of Internet. Training in the development of Web-pages on the basis of an integrated approach; training in Internet programming on the client and server side; training in the use of databases in the development of Web-projects; training in methods of marketing on the Internet, advertising and promotion of developed Internet-resources.

Radioautomatics 

Metrology and Radio Measurements – written examination   Engineering Measurements – written examination  

Electric Circuit Theory - free-form examination

Basics of Electric Circuit Theory - written examination

Radio Circuits and Signals - written examination

Analysis and Synthesis of Radio Signals - written examination

Circuity and System Engineering of Electronic Devices - free-form examination

Basics of Automation - reference paper

Automatic Control - reference paper

CAD Systems – free-form examination

Basics of Computer-Aided Design – written examination

Computer Networks – reference paper

WEB-Programming – computer-based testing

Data Measuring Equipment -  written control examination

Industrial Electronics - computer-based testing

Radioautomatics - reference paper

Multimedia system. IT room. Laboratories of Computer Mathematics and Electronic Simulation, Electronics, Data Measuring Equipment. Radio Engineering Telecommunication Systems and Devices, Electronics and Radio Receiving and Transmitting Devices. Research laboratory of Robotics, Microelectronics and Energy Ecology. 

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20.01.2023