Production of micro- and nanoelectronics products | Minsk Radioengineering College
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Production of micro- and nanoelectronics products

About the specialty


Specialty code 5-04-0713-09
Entrance tests average score competition for educational document
Specialist qualification technical technician
Form of education day-time
Duration of training ABOUT: 3 years 10 months

Purpose of the educational program


In accordance with OKRB 011, specialty 5-04-0713-09 “Production of micro- and nanoelectronics products” (hereinafter referred to as the specialty) belongs to the educational profile “07. Engineering, manufacturing and construction industries", field of education "071. Engineering and engineering”, group of specialties “0713. Electronics and automation".

The main goal of the training is to prepare competent specialists in the field of production of micro- and nanoelectronics products.

The main type of professional activity of a specialist with specialized secondary education in his specialty in accordance with OKRB 005 is 2611 Production of electronic elements.

The objects of professional activity of a specialist are:

  • technological processes for the production of micro- and nanoelectronics products;

  • materials used in the production of micro- and nanoelectronics products;

  • design, technological and other documentation used in the production process and quality control of micro- and nanoelectronics products;

  • normative legal acts (hereinafter referred to as NLA), technical normative legal acts (hereinafter referred to as TNLA) regulating professional activities.

Professional competencies of a specialist


The graduate must have the following universal competencies:

  • possess a culture of thinking, be capable of perceiving, generalizing and analyzing ideological and psychological-pedagogical problems in the sphere of interpersonal relationships and professional activities;

  • have knowledge about the history of the formation and development of Belarusian statehood;

  • analyze the main categories, concepts and achievements characterizing the level of historical development of legal culture;

  • observe the rights and obligations of a citizen, refer to acts of legislation in various life situations, organize and participate in socially significant activities;

  • master the principles and methods of business communications, analyze conflict situations;

  • possess basic communication skills in oral and written forms in Russian and Belarusian languages ​​to solve problems of interpersonal and intercultural interaction and professional tasks;

  • have basic communication skills in oral and written forms in a foreign language to develop professional foreign language communicative competence in the field of professional communication;

  • observe the norms of a healthy lifestyle, fulfill the requirements for citizens in the field of protecting the population and territories from emergency situations;

  • labor protection requirements, fire safety requirements and environmental protection requirements;

  • use basic software solutions and the global computer network Internet for professional purposes based on assessing the reliability of information, use digital technologies to create and present information;

  • participate in the development and implementation of the organization’s business plan, find opportunities for professional development.

As part of the performance of labor functions, the graduate must have the following professional competencies (hereinafter referred to as PC):

  • analyze the most general philosophical problems of being, knowledge, values ​​and the meaning of life as the basis for the formation of the culture of a citizen and future specialist;

  • apply legal acts, technical regulations regulating professional activities, and analyze acts of legislation in relevant legal relations;

  • possess business communication skills, comply with the conditions for the formation of a favorable moral and psychological climate in the team, participate in planning the activities of the unit and apply effective communication methods;

  • use the language resources of the Russian and Belarusian languages ​​in practical activities;

  • use communication skills (perception and understanding of speech by ear, speaking, reading, writing) in a foreign language in the field of professional communication;

  • comply with legislation in the field of protecting the population and territories from emergency situations, safety measures at home and everyday work;

  • comply with labor protection requirements, fire safety requirements and environmental protection requirements, conduct labor safety briefings and training in safe work methods and techniques;

  • master methods for studying the surface and volumetric properties of solids, measure electrical and electrophysical parameters of active elements;

  • use the electrophysical parameters of semiconductors in the practical implementation of integrated structures;

  • calculate the parameters and characteristics of functional microelectronics elements, use them to implement practical problems;

  • carry out economic calculations of indicators for analyzing the effectiveness of the use and implementation of proposed solutions to professional problems, understand the basics of entrepreneurial activity;

  • use mathematical methods and algorithms to solve professional problems;

  • carry out the construction of drawings and diagrams, various spatial figures on a plane in accordance with the requirements of technical regulations;

  • identify and classify conditions and factors that create the danger of information security violations, comply with information security requirements (TR CU 2013/027);

  • apply normative and technical regulations governing the scope of standardization, apply conformity assessment schemes used for mandatory certification of equipment, materials and micro- and nanoelectronics products;

  • master methods of statistical processing of test results at various stages of the technological process;

  • apply physical laws, rules for calculating electrical circuits of direct and alternating current, analyze electrical circuits with different types of connection of elements and in different operating modes;

  • select materials in accordance with their purpose and use, examine the structure and determine the dislocation density on the surface of a semiconductor wafer, determine the main parameters of electronic materials;

  • master the principles of operation of optoelectronic semiconductor devices, apply the principles of constructing digital circuits, develop and analyze the parameters of electronic circuits;

  • determine the metrological characteristics of measuring instruments, apply methods, methods and devices for measuring parameters of direct and alternating current circuits, process and analyze measurement results;

  • apply the principles of constructing circuits of analog and digital circuitry when developing electronic devices, develop circuits of digital and analog devices based on integrated circuits of varying degrees of integration;

  • use information technology, computer technology and software in professional activities;

  • apply basic methods of algorithmization, methods and means of obtaining, storing, and processing information when solving professional problems;

  • perform graphic work using computer-aided design systems, develop models of elements of integrated circuits and functional microelectronics devices, simulate technological processes for the production of microelectronic devices and nanoelectronic structures;

  • participate in the creation of new micro- and nanoelectronics products, the introduction of new technological equipment and advanced technologies;

  • perform basic calculations of elements of hybrid integrated circuits, perform basic calculations of elements of semiconductor integrated circuits;

  • own software for setting equipment operating modes that provide the specified parameters of technological processes;

  • ensure the efficient operation of technological equipment and participate in its testing, maintain the operating mode of the equipment in accordance with the technological documentation;

  • use the operations of technological processes in the production of integrated circuits to create elements with given parameters, take into account the influence of technological modes and methods of controlling technological processes when creating integrated structures;

  • conduct a systematic analysis of the results of operational control, identify the causes of defects, participate in the development and implementation of measures to prevent technological losses and the production of low-quality micro- and nanoelectronics products;

  • carry out the development and implementation of measures to reduce material and labor intensity of work, make proposals for technically sound standards for the use of production resources;

  • participate in experimental and technological work to verify and test developed micro- and nanoelectronics products;

  • use various testing algorithms to assess the quality of microelectronic devices, participate in activities to improve the quality of micro- and nanoelectronics products;

  • select nano-sized structures and nanostructured materials for creating electronic products; determine modes of nanotechnological processes;

  • determine the physical and chemical properties of nano-sized structures and nanostructured materials, master the features of the production technology of nanostructures and use them to solve professional problems;

  • measure the characteristics and parameters of devices based on quantum effects and use them in practical implementation, characterize the structure and properties of nanoelectronic structures;

  • comply with labor laws;

  • perform work in one or more worker professions in accordance with Issue 20 of the ETKS.

Syllabus


Syllabus

During the training the following modules of the state component will be studied:

n/p

Name of modules, subjects, practice

Total

including

for laboratory and practical classes

for course design

1.

Module “Communicative Culture”

280

200

1.1

History of Belarusian statehood

54

12

1.2

Law basics

54

12

1.3

Communication techniques and team building basics

72

72

1.4

Belarusian language (professional vocabulary)

20

20

1.5

Foreign language (professional vocabulary)

80

80

2.

Module "Life Safety"

122

20

2.1

Protection of the population and territories from emergency situations

22

4

2.2

Labor protection

60

14

2.3

Environmental protection and energy saving

40

2

3.

Module "Economics and Organization of Production"

100

28

3.1

Fundamentals of economics of organization and entrepreneurial activity

100

28

16

4.

Module "General technical"

462

208

4.1

Mathematics in professional activity

90

40

4.2

Engineering graphics

90

90

4.3

Information Security Basics

36

8

4.4

Standardization and certification

50

10

4.5

Theoretical foundations of electrical engineering

100

30

4.6

Electronic materials and components

96

30

5.

Module “Physical foundations of electrical engineering”

170

36

5.1

Solid state physics

100

20

5.2

Functional microelectronics

70

16

6.

Module "Circuit Engineering"

470

258

6.1

Fundamentals of Microelectronics

120

30

20

6.2

Electrical measurements

96

42

6.3

Educational practice “Electrical measuring”

72

72

6.4

Educational practice “Electroradio installation”

72

72

6.5

Analog and digital circuitry

110

42

7.

Module "Information technologies and programming"

322

232

7.1

Information Technology

50

40

7.2

Fundamentals of algorithmization and programming

130

70

7.3

Computer-aided design systems

70

50

7.4

Educational practice “Computer information processing”

72

72

8.

Module “Technology for the production of microelectronics products”

1048

672

8.1

Design of microelectronic devices

126

32

20

8.2

Equipment for the production of microelectronic devices

110

40

8.3

Microelectronic device production technology

176

40

20

8.4

Testing and quality control of microelectronic devices

96

20

8.5

Training practice “To obtain worker qualifications”

540

540

9.

Nanoelectronics module

156

28

9.1

Nanoelectronic technologies and nanomaterials

92

12

9.2

Nanoelectronics and devices based on quantum effects

64

16

10.

Module "Industrial practice"

432

432

10.1

Technological

288

288

10.2

Pre-diploma

144

144

The educational process ensures that a specialist is qualified as a Technician-Technologist and at least one worker profession in accordance with issue 20 of the ETKS.

The final certification is carried out in the form of defending a diploma project.