G5 Microelectronics Energy Efficiency and Electronic Protection- bachelor
G5 Electronics, electronic communications, instrumentation and radio engineering
Microelectronics Energy Efficiency and Electronic ProtectionBachelor
Specialty G5 “Electronics, Electronic Communications, Instrumentation and Radio Engineering”, Educational Program – “Microelectronics of Energy Efficiency and Electronic Protection” (IKM, NTU “KPI”), is focused on providing the necessary knowledge and skills for the development and use of new materials, elements and micro- and nanoelectronic systems for electronics of built-in systems and solar energy, electronic protection elements against electromagnetic obstacles based on physical approaches and methods.
The educational program of the current year is available on the site of the quality assurance department of NTU “KPI”
The archive of educational programs is available on the site of the quality assurance department of NTU “KPI”
Characteristics of the educational program
The main focus of the educational program. The educational and professional program is aimed at providing modern theoretical and practical knowledge for the formation of competences for the development, research and use of new materials and devices of micro- and nanoelectronics for solar energy and built-in systems, development, development, research and use on the basis of materials of micro- and nanoelectric systems of electronics protection of electronic protection of electronic protection of inductive protection of electronic protection.
Features of the program. The emphasis is on the study of physical processes that provide the operation of micro and nanoelectronic devices, the introduction of modern principles of projection and methods of research of individual devices and built-in systems on the basis of micro- and nanoelectronic structures. Particular attention is paid to electronic protection, including methods and principles of protection of built -in systems from electromagnetic obstacles.
Structural and logical scheme of EP
EP educational components (sylabus)
| REQUIRED EDUCATIONAL COMPONENTS | |
| General preparation | |
| GP 1 | The history and culture of Ukraine |
| GP 2 | Ukrainian language (professional direction) |
| GP 3 | Ecology |
| GP 4 | Foreign language |
| GP 5 | Philosophy |
| GP 6 | Science of law |
| GP 7 | History of Science and Technology |
| GP 8 | Higher Mathematics Part 1 |
| GP 9 | Higher Mathematics Part 2 |
| GP 10 | Higher Mathematics Part 3 |
| GP 11 | Higher Mathematics Part 4 |
| GP 12 | Physics of Part 1 |
| GP 13 | Physics of Part 2 |
| GP 14 | Physics of Part 3 |
| GP 15 | Physical education |
Special (professional) preparation | |
| SP 1 | Introduction by specialty. Reaching practice |
| SP 2 | The basics of protection of electronic devices |
| SP 3 | Information technologies |
| SP 4 | Engineering and Commuther Graphics |
| SP 5 | Object-oriented programming |
| SP 6 | Optoelectronic materials and devices |
| SP 7 | Mathematical packages of applications |
| SP 8 | Analog and Digital Schemetechnics |
| SP 9 | Quantum electronics |
| SP 10 | Electric and Electronic Circle Theory |
| SP 11 | Electronic protection |
| SP 12 | Developing devices based on microcontrollers |
| SP 13 | Microprocessor technique |
| SP 14 | The basics of nanoelectronics |
| SP 15 | Mathematical Methods of Artificial Intelligence |
| SP 16 | Automated Electronic Devices Design |
| SP 17 | Fundamentals of Professional Safety and Human Health |
| SP 18 | Micro-, Nanoelectronics and Solar Power Materials |
| SP 19 | Physical methods of studying materials and devices of solar energy |
| SP 20 | Project work |
| PRACTICAL PREPARATION | |
| PP 1 | Production practice |
| PP 2 | Practice |
| Attestation | |
| SELECTIVE EDUCATIONAL COMPONENTS | |
| 4.1 Educational components of free choice of student professional preparation to the list | |
| ECFP 1 | EC FC PP 1 |
| ECFP 2 | EC FC PP 2 |
| ECFP 3 | EC FC PP 3 |
| ECFP 4 | EC FC PP 4 |
| ECFP 5 | EC FC PP 5 |
| ECFP 6 | EC FC PP 6 |
| ECFP 7 | EC FC PP 7 |
| ECFP 8 | EC FC PP 8 |
| ECFP 9 | EC FC PP 9 |
| ECFP 10 | EC FC PP 10 |
| ECFP 11 | EC FC PP 11 |
4.2 Educational components of a student’s free choice from a university catalog | |
| ECFG 1 | EC FC GP 1 |
| ECFG 2 | EC FC GP 2 |
| ECFG 3 | EC FC GP 3 |
ECFP 1 | Object-oriented programming Part 2 |
ECFP 1 | Electromagnetic systems |
ECFP 1 | Hardware and software tools |
ECFP 2 | Organization of databases |
ECFP 2 | Computing methods |
ECFP 2 | Chemistry of materials and phase transformations |
ECFP 2 | Probability theory |
ECFP 2 | The basics of web technology |
ECFP 2 | The crystalline structure of a solid |
ECFP 2 | Methods of optimization of functions |
ECFP 2 | System of symbolic mathematics |
ECFP 3 | Crystal solar elements |
ECFP 3 | Computer networks and distributed calculations |
ECFP 3 | Electronic signal measurement devices |
ECFP 4 | Non -destructive control methods |
ECFP 4 | Measurement and processing of experiment results |
ECFP 4 | Methods of mathematical physics |
ECFP 5 | Technologies of thin films |
ECFP 5 | Numerical methods in physics |
ECFP 5 | Semiconductors and dielectrics |
ECFP 6 | Methods of structural analysis Part 1 |
ECFP 6 | Vacuum equipment and technology |
ECFP 6 | Systems of transformation and accumulation of energy |
ECFP 7 | Defective electronics in semiconductors |
ECFP 7 | Generation and signal generation devices |
ECFP 8 | Methods of structural analysis Part 2 |
ECFP 8 | Programmed micro- and nanosystems |
ECFP 9 | Physical bases of nanotechnology |
ECFP 9 | Fundamentals of information theory |
ECFP 9 | Enterprise economy |
ECFP 10 | Signal and images processing |
ECFP 10 | Signal reception devices |
ECFP 10 | Micro-, Nanoelectronics and Helioenergy Part 2 |
ECFP 11 | Technological bases of electronics |
ECFP 11 | Radiation stability of materials |
ECFP 11 | Spectral and optical analysis |