19. Basics of the Profession

Module Name:

Module 19: Basics of the Profession

Code

M19REET(Ba)

Module Elements:

Elective Subjects

Introduction to the Profession / Introduction to the Specialty

Materials Science in Radio Engineering/ Basics of Materials Science 

Computer Graphics;

Computer Simulation;

Programming Technics;

Software Programming Languages;

Prctical Training.

Semester Number:

1, 2

Person responsible for the module

T.I. Krashevskaya

Lecturer:

Introduction to the Profession – T.I. Krashevskaya

Introduction to the Specialty – B.M. Abilmazhinov

Materials Science in Radio Engineering – T.I. Krashevskaya

Basics of Materials Science – S.I. Latypov

Computer Graphics –S.I. Latypov

Computer Simulation –S.I. Latypov

Programming Technics – L.V. Dolmatova

Software Programming Languages – N.V. Astapenko

Language:

Russian, Kazakh

Curriculum relation:

Radio Engineering, Electronics and Telecommunications (Ba)

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

1 semester: hours per week – 8  (lectures -1; workshops -1; labs-1; independent work -5); hours per semester – 120.

2 semester: hours per week – 16  (lectures -3; workshops -1; labs-1; independent work -11); hours per semester – 240.

Workload:

Teaching Load: 120 hours.

Extracurricular Classes: 240 hours.

Practical Training: 30 hours.

Total: 390 hours

Credit Points:

13 ECTS

Conditions for Examinations:

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

Recommended Conditions:

-

Expected Learning Outcomes:

Know: 

- main goals and objectives of the study;

- main directions of modern development of science and technology in the field of radio engineering, telecommunications, computer technology and electronics; - trends in technical development of modern society and prospects for the employment;

- structure and properties of radio materials, their practical application and prospects of development of materials used in radio electronics;

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

-  the       basic    applications     for       working with    design documentation, calculations and models in the designing;

Be able to: 

- independently work with primary sources of technical information;

- state the main problems and tasks of the current period of study in a technically competent manner;

-   classify general processes and phenomena of the technical progress in the field of radio engineering following the most characteristic distinctive signs;

-   make and calculate circuit diagrams;

-  use various options of the applications studied to obtain during in the designing;

Possess the skills:

- use the advantages provided by computer technology in the educational process;

-   use the knowledge gained on the properties of radio materials in practice;

-  to develop drawings of finished products, as well as mathematical processing of project data using a personal computer;

Demonstrate the ability:

-  evaluate technical capabilities and develop recommendations for the construction of general and special purpose information transmission systems and networks;

-  be able to competently solve problems related to the properties and production of radio materials and further

improvement of technological processes;

- assemble and install electronic devices; 

-   to use computer graphics and data acquisition software in the designing of process and design documentation;

Intendend use/applicability

Modules: Electrical Circuits and Radio Measurements, Design of Electronic Devices, Automation. 

Content:

Introduction to the Specialty

Radio engineering as a branch of science and technology. Basic concepts of radio electronics and telecommunications. Basic principles of transmission and reception of information. Analog and discrete data transmission systems.

Introduction to the Profession

Qualification   characteristics of a specialist in radio engineering, electronics and telecommunications. Radio electronics and communication, their role in modern scientific and technical progress. Engineering tasks in the field of energy, instrumentation and radio engineering.

Materials Science in Radio Engineering

Structure and properties of radio materials, their practical application and prospects of development of materials. Production of semiconductors, devices and piezoelectric crystals. Structures and technology of integrated circuits.

Basics of Materials Science

Physical and chemical regularities of the materials structure formation. Different types and properties of materials: those of conductors, semiconductors, electromagnetic and dielectric.

Passive components of electronic equipment.

Computer Graphics

Hardware and functional capabilities of a modern personal computer. Pictorial symbols of elements in the drawing. Drawing up design documentation. Use of Splan application for preparation of drawings. Use of AutoCAD to create drawings.

Computer Simulation

Hardware and functional capabilities of a modern personal computer. MATLAB application for mathematical simultion of electrical processes. Electronics Workbench application for simulation of electrical processes. Microsoft Office Excel to solve common tasks. Microsoft Office Word for design documentation. AutoCAD to create drawings.

Programming Technics

Basics of algorithmization, methods of recording algorithms, basics of programming technology, programming style, structure of programs, methods of debugging and testing programs, data types, general information on object-oriented programming.

Software Programming Languages

Learning of the classification of programming languages, data types, operations, operators of C++ programming language, program development using subroutines, standard modules, programming style, programming quality indicators, methods of debugging and testing programs, basics of object-oriented programming, memory and addressing, program development using pointers, programming features in C++.

Practical Training

Examination Form, module mark:

Introduction to the Profession – reference paper 

Introduction to the Specialty – reference paper 

Materials Science in Radio Engineering – computer-based testing

Basics of Materials Science – computer-based testing

Computer Graphics - free-form examination

Computer Simulation - free-form examination

Programming Technics - free-form examination

Software Programming Languages - free-form examination

Practical Training – training report defense

Module mark: the result of the report defense Practical Training

Technical/Multimedia Facilities:

Multimedia system. IT room. Laboratories of Radio Engineering Telecommunication Systems and Devices, and Electrical Engineering and Materials Science. 

Study Materials:

1. V. A. Romanyuk. Basics of Radio Communication. - M: YURAYT, 2009. 
2. I. S. Gonorovsky. Basics of Radio Engineering / I. S. Gonorovsky. - M: State Publishing House of Literature on Communication and Radio, 2017. - 726 p.
3. N. M. Izyumov. Basics of Radio Engineering / N. M. Izyumov, D.P. Linde. - M: Gosenergoizdat, 2013. - 512 p.
4. N. B. Dogadin. Basics of Radio Engineering: Textbook. - SPb.: Lan, 2007. 
5. M. Moore et al. Telecommunications. Guide for Beginners. – SPb.: BHV-Petersburg, 2003.
6. I. Chernukh. Simulation of Electrical Devices in MATLAB, SimPowerSystems and Simulink. – M: Piter Publishing House, 2007.
7. I. I. Aliyev. Virtual Electrical Engineering. Computer Technologies in Electrical Engineering and Electronics. – Kyiv: RadioSoft, 2003.
8. I. Chernukh. Simulation of Electrical Devices in MATLAB, SimPowerSystems and Simulink. – M: Piter PH, 2007.
9. A. S. Zhuravlev. AutoCAD for Designers. Standards of the Unified System for Design Documentation in AutoCAD 2009/2010/2011. Practical Tips from a Designer. – M: Nauka I tekhnika, 2010.
10. V. Dyakonov. VisSim+Mathcad+MATLAB. Visual Mathematical Simulation. M: SOLON-Press, 2004.
11. I. I. Aliyev. Virtual Electrical Engineering. Computer Technologies in Electrical Engineering and Electronics. – Kyiv: RadioSoft, 2003.
12. N.A.     Litvinenko.      C++Programming        Technology. Beginners //St. Petersburg 2009, BHV
13. M.V. Kuznetsov. C++ Master Class in Problems and Examples //St. Petersburg 2010, BHV 

Date of last amendment

20.01.2023