22. Modules of modern electronic equipment

Module Name:

Module 22: Modules of modern electronic equipment

Module Elements:

Elective Subjects

Process Sensors

Measuring Signal Transducers 

Information Theory

Steady State Radio Engineering

Integrated and Microprocessor Devices

Radio Transmitters

Smart-City Power Sources

Power Supply of Radio Electronic Devices and Systems

Semester Number:

6

Person responsible for the module

S.S. Moldakhmetov

Lecturer:

Process Sensors – Y.M. Dariy

Measuring Signal Transducers  – A.A. Kashevkin

Information Theory – S.S. Moldakhmetov

Steady State Radio Engineering – S.S. Moldakhmetov

Integrated and Microprocessor Devices – P.A. Petrov

Radio Transmitters – P.A. Petrov

Smart-City Power Sources – S.S. Moldakhmetov

Power Supply of Radio Electronic Devices and Systems – A.A. Savostin

Language: 

Russian, Kazakh

Curriculum relation:

Radio Engineering, Electronics and Telecommunications (Ba)

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

6 semester: hours per week – 28 (lectures -3; workshops -2; labs-4; independent work -19); hours per semester – 420.

Workload:

Teaching Load: 135 hours

Extracurricular Classes: 285 hours

Total: 420 hours  

Credit Points:

14 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: Design of Electronic Devices, Analysis and synthesis of electrical circuits, Basics of Electrical Engineering

Expected Learning Outcomes:

Know 

- types and classification of primary measuring transducers (PMP), their principles of operation and properties;

- amplifiers for normalizing the signals from the transducers;

– principles of interfacing with data collection system;  - basics of mathematical analysis of physical processes in analog and digital signal processing devices;

- methods of transmission, reception and processing of signals;

- theoretical basics, elements and methods of digital device design;

- architecture of microcontrollers and microprocessors of wellknown foreign companies;

- devices and principles of operation of microprocessors, principles of software and methods of design of hardware and software of microprocessor systems;

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

- modern element base used for the construction of radio transmitters and power supply devices;

- types and principle of operation of energy sources used in Smart-city;

Be able to

- analyze and develop structural and schematic diagrams of hardware systems for collecting information; 

– choose the PMP basing on the requirements of technical specifications and controlled physical or technical value; 

– choose the correct circuit to enable the PMP in order to maximize the output information signal; 

- use modern means and methods of collection, processing, storage and output of information in solving various technical problems;

- apply methods of optimal solutions theory in designing radiosystems of information transfer, in radiolocating and radio-navigation systems;

- analyze the structure and properties of devices and systems of analog and digital information processing;

- calculate the parameters of digital devices and building circuits;

- assemble and install electronic devices;

- make simple block diagrams of microcontrollers algorithms;

- write programs for microcontrollers;

- calculate the parameters of the schemes of radio transmitting and power supply devices;

- adjust and measure the basic electrical parameters of certain devices for generating, shaping and processing of radio signals;

- select power supply devices for radio engineering and telecommunication systems;

Possess the skills 

– design prototypes and experimental measurement systems; - selection of different statistical methods of analysis of radio systems;

- design and adjustment of analog, digital and microprocessor devices;

- firmware upgrade of microcontrollers using the programmer; - analysis of the functioning of certain units of modern equipment and devices;

- design and calculation of power supply devices and main blocks of shaping and transmission of radio signals;

- application of a program for calculations of parameters and properties of power supply devices and devices for shaping and transmission of radio signals 

Demonstrate the ability

– to use the capabilities of sensors to solve various types of problems (measurement of signals time, shaping signals with specified time properties, voltage measurement, collection, storage and transmission of data, control actuators);

- to apply methods of analysis and synthesis of analog and digital signal processing devices in the field of speech, sound and image processing;

- to search and analyze scientific and technical information and select the necessary components to create power supply devices and devices for shaping and transmission of radio signals; 

- to select materials and components for the creation of power supply devices and devices for the formation and transmission of radio signals depending on the operating conditions.

Intendend use/applicability

Module:  Design of electronics, control and communication systems

Content:

Process Sensors 

Principles of construction and types of primary measuring transducers. Main properties of the measuring transducers. Methods and means of generating output electrical signals in measuring transducers.

Measuring Signal Transducers  

Information basics of measurements. Measuring channels. Measuring signals. Measuring converters of electrical quantities.

Information Theory

General provisions on data transmission. Analog and digital signals. Modulation of signals. Manipulation of digital signals. Coding of signals. Deterministic and random signals. Entropy. Devices for transmitting and receiving data. Communication channels.

Steady State Radio Engineering  

Basic concepts of probability theory. Probabilistic models of signals and interference in radio systems. Linear transformations of random processes. Optimal signal filtering. Detection of discrete signals. Detection of fully known analog signals. Application of the theory of evaluation in radio engineering. Signal discrimination and resolution.

Integrated and Microprocessor Devices 

Electrical properties of semiconductor materials. Semiconductor devices. Analog integrated circuits. Digital integrated circuits: logic units of combinational type, microprocessors, microprocessor systems.

Radio Transmitters

Radio Transmitters on semiconductor devices. Oscillators and frequency synthesizers. Equipment of the transmitting station.

Basic concepts of maintenance of radio transmitters.

Smart-City Power Sources  

Types of sources and their principles of power used for Smart - city. Modern solutions in the field of control and management of energy consumption.

Power Supply of Radio Electronic Devices and Systems

 General properties of secondary power sources. Electrical devices. Special types of transformers. Rectifiers. Load operation of the rectifier. Smoothing filters. Controls in secondary power supply sources.

Examination Form, module mark:

Process Sensors – written examination

Measuring Signal Transducers  – written examination

Information Theory - written examination 

Steady State Radio Engineering - written examination 

Integrated and Microprocessor Devices - free-form examination

Radio Transmitters – free-form examination

Smart-City Power Sources – written examination

Power Supply of Radio Electronic Devices and Systems – freeform examination

Module mark: free-form examination Elective Subject

Technical/Multimedia Facilities:

Multimedia system. Laboratory of Automation and Electrical

Safety. Laboratories of Radio Engineering Telecommunication Systems and Devices, Digital Communication Systems and Radio Receiving and Transmitting Devices, Digital Devices and Microprocessors, Microcontrollers and Special Microprocessors.

Study Materials:

1. J. Freiden. Modern Sensors. Referense Book./ J. Freiden. – M: Tekhnosfera, 2005. – 592 p.
2. H. M. Hashemian, Process Sensors. Properties and Methods to Improve Reliability; Binom - Moscow, 2008. - 336 p.
3. V. I. Tikhonov. Statistical Analysis and Synthesis of Radio Engineering Devices and Systems. – M: Radio i svyaz: Goryachaya liniya-Telekom, 2004.
4. G. I. Khudyakov. Statistical Theory of Radio Engineering Systems. – M: Akademiya, 2009.
5. L. M. Goldenberg Pulse and Digital Devices / L. M. Goldenberg. - Moscow: Ogni, 2009. - 496 p.
6. V. I. Boyko. Microprocessors and Microcontrollers. –SPb.: BHV-Petersburg, 2004.
7. AVR microcontrollers. Course Book for Beginners : textbook/V. Y. Hartov. – 2^nd ed., Updated and revised. – Moscow: MGTU Publishing house, 2012.  280 p.
8. A. K. Naryshkin. Digital Devices and Microprocessors. – M: AKADEMIYA, 2006.
9. Y. V. Novikov. Introduction to Digital Circuit Design. –M.: BINOM. 2007.
10. V. V. Shakhgildyan. Radio Transmitters. – M: Radio i svyaz, 2003.
11. V. I. Kaganov. Radio Transmitters. – M: AKADEMIYA, 2002.
12. V. V. Shakhgildyan. Development of Radio Transmitters. – M: Radio i svyaz, 2001.
13. G. M. Utkin. Devices of Generation and Formation of Radio Signals – M.: Radio i svyaz, 2001.
14. V. M. Bushuyev, V. A. Deminskiy et al. Power Supply of Telecommunication Devices and Systems. – M.: Goryachaya liniya - Telekom, 2009.
15. Y. N. Geytenko. Secondary Power Sources. Textbook for universities. – M.: SOLON-PRESS, 2008.

Date of last amendment

20.01.2023