Electronic engineers design, test and control the production of electrical equipment such as:

• electric motors;
• radar and navigation systems;
• communication systems;
• equipment for the production of electricity.

Income in Russia and other countries

As of 2017, the average salary in electronics Of Russia is 30,000 rubles.

The highest average salary level in Moscow is 50,000-110,000 rubles.

In St. Petersburg, Snezhnogorsk, Novosibirsk, Smolensk, electronics engineers receive a monthly salary of 40,000 rubles.

The smallest income indicator for electronics engineers in Russia is 10-20 thousand rubles.

The profession of electronics and nanoelectronics is in demand in Ukraine.

Average salaries in the country are 7-10 thousand UAH. per month.

The largest proposals for the work of an electronics engineer in Vinnitsa, Kiev, Kharkov, Odessa, Dnipro, Zaporozhye.

There are vacancies in which salaries of UAH 18,000 or more are offered.

Experts with education in electronics work in different fields.

For an example of radio engineering-electronics in Kazakhstan has a salary from 90 to 300 thousand tenge, and a specialist in information technology and telecommunications receives average salary 120,000 tenge

According to data from the Headhunter job search site, the highest salary in this profession in Kazakhstan is 500,000 tenge. per month.

In Belarus, according to information from the resource belmeta, the monthly income figures for electronic engineers are 300-2500 Belarusian rubles.

A less rare profession associated with electronics is an instrumentation and automation engineer for physical installations.

Such professionals, depending on the category, receive salaries in the range of 300-2000 Belarusian rubles. rub .

Most of the vacancies are posted in the cities: Minsk, Brest, Gomel, Mogilev

Pay in America and Great Britain

The Bureau of Labor Statistics reports that as of 2016 in United States electronics engineers received an annual salary of $ 96,000.

Average hourly wage amounted to $ 46.28.

In the United States, electrical and electronic engineers must have a bachelor's degree.

Employers appreciate practical experience: internships or participation in engineering programs.

Starting Salaries for Electronic Engineers in Great Britain for 2017 are £ 21,000 to £ 25,000.

With experience and working in a managerial position, you can earn between £ 28,000 and £ 40,000.

The senior engineer has a profit between £ 40,000 and £ 65,000, with chartered engineers earning at the top of that scale.

Training and salaries for young professionals

Technical training and education can be obtained at universities or colleges.

Many electronics engineers have received secondary vocational education, and this does not prevent them from occupying leadership positions.

After several years of work, wages increase by 2-3 times.

A beginner electronics engineer can count on a salary of up to 20,000 rubles.

There are more and more opportunities to work abroad.

Young promising electronics are in demand not only in their native country.

Graduated Engineers can apply for European Engineering (EUR ING) status to gain professional recognition in other European countries.

Many applicants are attracted by electronics and popular in recent times nanoelectronics with the possibility of self-realization.

Young people should decide during their studies who to work with.

The size of the salary and the prestige of the workplace will depend on this in the future.

It is better to start an internship already during training.

You can gain experience and make useful contacts and acquaintances for a career.

Career and choosing a well-paid job

Electronic engineer jobs can be found in a wide variety of fields as electronics are used in many things, including:

• medical instruments;
• mobile phones;
• nanotechnology;
• radio and satellite communications;
• robotics;
• military electronics;
• computers;
• production automated lines;
• Automotive industry.

Row large companies are regularly employed and often provide overseas job opportunities.

These include:

• BAE Systems;
• Philips;
• Siemens;
• Sony;
• Thales.

Employment can also be found in many businesses in Russia:

• NPO Energomash;
• Power and Telecommunication Systems;
• Liotech-Innovations, etc.

Direction "Electronics and Nanoelectronics"

Nanotechnology is a thriving interdisciplinary scientific and technical direction based on the advanced achievements of physics, chemistry, biology, materials science, microelectronics.

Nanotechnology is understood as a set of techniques and methods that provide the ability to create and modify objects in which at least one of the sizes lies in the range of 1-100 nanometers (nm) (1 nm is one billionth of a meter). At the same time, the scope of application of nanostructures, nanomaterials, devices and devices based on them is unusually wide - from super-strong fabrics and coatings to electronic storage devices of super-large (terabit) capacity and basic elements quantum computers, from highly efficient catalysts and filters to local diagnostics for various diseases and targeted delivery drugs at the cellular level.

The main feature of training students in the Nanotechnology in Electronics profile at MIET is a combination of fundamental natural science and modern engineering training. Compared to graduates of classical universities, graduates of this profile are more adapted to solving specific practical tasks... Compared to technical universities, more time is devoted to the study of fundamental disciplines. Special profile disciplines include:

• Probe microscopy methods;
• Physical chemistry of nanostructured materials;
• Nanoelectronics;
• Computer modeling of semiconductor nanostructures;
• Experimental research methods;
• Functional micro- and nanoelectronics;
• Elements and devices of nanoelectronics.

Region professional activity bachelors in the direction of training "Electronics and nanoelectronics" - theoretical and experimental research, mathematical and computer modeling, design, construction, production technology, use and operation of materials, components, electronic devices, devices, vacuum, plasma, solid-state, microwave, optical, micro- and nanoelectronics for various functional purposes.

Objects of professional activity bachelors directions are: materials, components, electronic devices, devices, installations, methods of their research, design and construction, production processes, diagnostic and technological equipment, mathematical models, algorithms for solving typical problems, modern software and Information Support modeling and design processes for electronics and nanoelectronic products.

Training and production practice and execution of bachelor graduation qualification works occur at the following enterprises: JSC Angstrem, JSC NIIME and Mikron, NPO Orion, JSC Nanotechnology - MDT; in research centers: Solid State Department of the Physical Institute of the Russian Academy of Sciences, Physico-technological Institute of the Russian Academy of Sciences, FGUP "NIIFP im. F.V. Lukin ”, REC FIAN and MIET“ Quantum Devices and Nanotechnologies ”, REC MIET“ Probe Microscopy and Nanotechnology ”, REC MIET“ Nanotechnologies in Electronics ”; v research laboratories of MIET: Research Laboratory of Superconducting Electronics, Research Laboratory of Electron Microscopy, Research Laboratory of Radiation Methods, Technologies and Analysis.

The bachelor's degree is considered as a preparatory stage for admission to the master's degree. At the same time, the bachelor's graduate work is a thorough review of a scientific problem, the development of which is expected in the master's program with elements of independent research. The overwhelming majority of students continue their education in the magistracy, and many continue in graduate school.

Graduates of the department work in leading Russian and world high-tech companies, at innovative enterprises, continue their scientific careers at universities, institutes of the Russian Academy of Sciences, create their own small science-intensive firms.

In the course of training on the profile of training bachelors "Nanotechnology in electronics", students develop the following special competencies:

• in the field of experimental methods of research and diagnostics of nanomaterials and nanostructures: knowledge of modern experimental methods of analysis of physical and chemical properties nanostructures and nanomaterials, skills in researching the parameters and characteristics of devices and electronic devices and skills in planning and conducting experimental research in order to modernize or create new devices, materials, components, processes and methods based on nanotechnology;
• in the field of micro- and nanoelectronics: knowledge of modern technological processes and routes for the creation of devices and electronic devices and possession of the main modern methods and technologies for creating nanostructures and nanomaterials for electronics;
• in the development and design of element base and nanoelectronic devices: skills in design, calculation and construction of electronic devices and devices at the circuit and element level using systems computer-aided design and computer facilities;
• in the area of physical and mathematical modeling of nanomaterials, nanostructures and nanoelectronic elements: skills in the development of physical and mathematical models of nanostructures, nanomaterials and devices based on them and modeling in order to improve their parameters and characteristics, the use of commercial and development of new software products focused on solving scientific, design and technological problems in the field of nanotechnology and its applications in electronics;
• universal competencies of an engineer and a researcher: broad erudition in the field of modern advances in nanotechnology, skills in performing bibliographic searches using modern information technologies, systematization and generalization scientific and technical information on the topic of research, analysis of the condition scientific and technical problems, formulation terms of reference, setting the goal and objectives of the research based on the selection and study of literary and patent sources, the ability to prepare research results for publication in scientific press, as well as the ability to compose a review, abstract, report and report.

The profile of training bachelors "Nanotechnology in Electronics" is for those who love to study, dream of having their say in science and believe that the key to success is in work and talent.

- adjuster technological equipment;

- a customizer of electronic devices;

- operator-adjuster of electrochemical machines with numerical control;

- an electromechanic for the repair and maintenance of electronic medical equipment;

- electrician-schematic engineer.

Sphere of professional activity

- industry;

- service.

Classification of the profession

Type of profession by subject of labor: the subject of labor is a variety of machines and mechanisms, therefore the profession belongs to the type "Man - Technique".

Profession class: performing (algorithmic); by the nature of the work, the profession involves the implementation of the same type of procedures, the implementation of standard tasks according to the model, with strict adherence to the rules, standards, instructions.

Additional type of profession: the profession is associated with work with sign information: numbers, formulas and tables, drawings, diagrams, etc. - can be attributed to the type "Man - Sign system".

Description of the profession

Collector electronic systems carries out assembly of piezoresisers and products based on piezoelectric elements on semi-automatic devices, devices and manually, ensuring the strength of installation and reliability of contacts. It assembles units of semiconductor devices using rolling, pressing and welding. Carries out the installation of leads in the holes of the bushings and boards, the installation of microcircuit substrates in the fixture and the application of epoxy glue points to the gluing points. Prepares parts for work: checks for compliance with the accompanying sheet, degreases, makes broaching and soldering of leads. Applies contacts to the piezoresonator plate by firing, makes a paste for firing contacts. Marks piezoelectric plates and resonators. Bonds bimorph piezoelectric elements with parallel and serial connection plates. It orientates the plates according to the location of the etching line, checked on special equipment. Carries out drying of semiconductor devices and microcircuits in thermostats, conveyor ovens. Determines the quality of parts and assemblies entering the assembly. Checks the build quality with measuring instruments. Sets up the equipment and instruments used in the assembly. It assembles units of microcircuits and quantum generators of various types, assembles experimental microcircuits. It assembles indicators of complex design using optical devices, assembles analog multifaceted complex-figured indicators and experimental indicators, assembles and assembles piezoelectric quartz sensors and their assemblies. It assembles and installs microminiature, precision and frameless piezoresonators of complex types, assembles miniature filter and oscillator resonators with increased requirements for mechanical stress. Defines the gap in the indicator, the thickness of the film coatings. Selects the optimal processing modes, fine-tuning the processing mode parameters on the serviced equipment.

Requirements for the individual characteristics of a specialist

To professionally important qualities relate:

- high visual-motor coordination;

- spatial imagination;

- RAM;

- accuracy;

- muscle-joint sensitivity;

- resistance to monotony.

TO personal qualities relate :

- accuracy;

- attentiveness;

- purposefulness;

- Ability to make decisions independently;

- responsibility, patience, perseverance;

- a propensity for intellectual activities.

Medical contraindications

Training requirements

The assembler of electronic systems (specialist in electronic devices and devices) should know:

- basic information about the device of the serviced equipment;

- purpose and conditions of use of devices, assembly and measuring tools;

- types and purpose of quartz holders, piezoresonators and other electronic products.

The assembler of electronic systems (specialist in electronic devices and devices) must be able to:

- to carry out assembly, installation and disassembly of electronic devices and devices;

- carry out configuration, adjustment and testing of electronic devices and devices;

- analyze electrical circuits of electronic devices and devices;

- choose measuring instruments and equipment for testing electronic devices and devices;

- adjust and adjust electronic devices and devices;

- to carry out tests of electronic devices and devices;

- conduct Maintenance and repair of electronic devices and devices;

- to operate electronic devices and devices;

- draw up algorithms for diagnosing electronic devices and devices;

- to repair electronic devices and devices;

- participate in the development of electronic devices and devices;

- participate in the development of design and technological documentation electronic devices and devices;

- draw up electrical circuits and calculate the parameters of electronic devices and devices;

- apply specialized software when performing a technical assignment;

- to search for and analyze the causes of marriage and take measures to eliminate them.

Manufacture of electronic devices

Kind of activity

Create, create something new, design

Analyze and organize text information, make calculations

Monitor, check, evaluate

Work according to technology, in accordance with the requirements and rules

Short description

Computer, mobile phone, Appliances and other electronic devices - all these things make our life more comfortable. They allow you to spend less time on routine duties such as washing dishes or cooking, work with large amounts of information faster and more efficiently, communicate and even travel the world without leaving your home. The development and operation of electronic devices is electronic engineer .

Electronic engineer NSdesigns electronic circuits collects and tests electronic components responsible for the operation of electronic devices and devices. An electronic engineer is employed in a wide variety of areas in the production of electronic equipment. For example, a technician can design electronic circuits for areas such as telecommunications(e.g. components of mobile phones), aerospace navigation(for example, artificial satellite control systems, aircraft navigation systems), ship control systems(for example, radars) and so on.

The electronic engineer also provides uninterrupted high-performance work electronic equipment, its correct technical operation, is engaged in repairs. The specialist prepares devices for operation, monitors the reliability of electronic components of equipment, conducts tests in order to timely detect faults and eliminate them. In addition, the electronic engineer plans and develops modifications to electronic devices in order to increase their functionality.

Where to study

Directions of study:

• Informatics and Computer Engineering (09.00.00)
• Information Security (10.00.00)
• Electronics, radio engineering and communication systems (11.00.00)
• Photonics, instrumentation, optical and biotechnical systems and technologies (12.00.00)

Universities:

09.05.01 - Application and operation of automated systems
special purpose

• All-Russian Academy of Missile Forces named after V.I. Peter the Great (VARVSN)
• National Research Nuclear University MEPhI (NRNU MEPhI) Faculty of Cybernetics and information security

05/10/07 - Counteraction to technical intelligence

• Russian FSB Academy (AFSB) Operational and technical faculty

11.03.01 - Radio engineering

• Faculty of Microdevices and Technical Cybernetics
• Moscow Technical University of Communications and Informatics (MTUCI) Faculty of Radio and Television
• Radio engineering faculty

11.03.03 - Design and Technology of Electronic Means

• Moscow Aviation Institute (national research university) (MAI) Russian State Technological University named after K.E. Tsiolkovsky (MATI) Institute of Aerospace Structures, Technologies and Control Systems
• Moscow State Technical University N.E.Bauman (MSTU) Faculty of Informatics and Control Systems
• Moskovsky State University information technology, radio engineering and electronics (MIREA) Institute of Radio Engineering and Telecommunication Systems
• National Research University MIET (MIET) Faculty of Intelligent Technical Systems

11.03.04 - Electronics and nanoelectronics

• Russian State Geological Prospecting University. Sergo Ordzhonikidze (MGRI RGGRU) Faculty of Geophysics
• Faculty of Engineering Technologies
• Moscow State University of Information Technologies, Radio Engineering and Electronics (MIREA) Institute of Electronics
• National Research Technological University "MISiS" (MISiS) Institute for New Materials and Nanotechnologies
• National Research University MIET (MIET) Faculty of Electronics and computer technology
• Moscow Power Engineering Institute (Technical University) (MPEI) Institute of Radio Engineering and Electronics

11.05.01 - Electronic systems and complexes

• Moscow State University of Information Technologies, Radio Engineering and Electronics (MIREA) Institute of Radio Engineering and Telecommunication Systems
• Moscow Aviation Institute (National Research University) (MAI) Faculty "Radioelectronics aircraft"," Radiovtuz MAI "
• Moscow State Technical University N.E.Bauman (MSTU)
• Moscow Power Engineering Institute (Technical University) (MPEI) Radio engineering faculty

12.05.01 - Electronic and optoelectronic devices and systems
special purpose

• Moscow State Technical University N.E.Bauman (MSTU) Faculty "Electronics and laser technology"
• Moscow State University of Information Technologies, Radio Engineering and Electronics (MIREA) Institute of Electronics
• Moscow State University of Geodesy and Cartography (MIIGAiK) Faculty of Optical Information Systems and Technologies

Where to work

• Enterprises engaged in the production of electronic equipment and technology
• Service centres
• Electronic equipment repair workshops

Dream companies: *

• Explay
• Gresso
• Group "Angstrem"

* Information based on job search site rankings

Description

The curriculum of future specialists in electronic devices and devices combines fundamental technical and technological training with the applied mastery of the capabilities of modern electronic devices and devices. Basic engineering training includes the study of engineering graphics, electrical engineering, materials science, electrical radio measurements. The main applied specificity of the specialty is to study the technology of assembly and adjustment of electronic devices and devices. Methods of quality assessment and quality management, as well as methods of standard and certification tests are also studied.

Who to work with

The broad profile of the education received in the specialty facilitates the adaptation of technicians to the needs modern market labor, and also makes it possible to solve technological, design, research problems, as well as successfully operate in the field of small and medium-sized businesses. As the shortage of specialists with a basic engineering education grows, who would have applied knowledge and are ready to practical activities in the field of operation of electronic devices and devices, the specialty is quickly becoming one of the most popular among applicants and employers.