Fundamentals of nanoelectronics

Years: 
IV
Semesters: 
VII
Credits: 
4.00

The goal of a course: formation of the basics knowledge on physical fundamentals and processes, directions of progress, principles and methods of the modern nanoelectronics, physical properties and technology of the systems with reduced dimensions: semiconductor structure with 2-dimentional electron gas, quantum wires and dots, quantum-sized and ballistic effects, which are observed in such systems.
Physical fundamentals of nanoelectronics:

Microwaave technique 1. Microwave devices

Years: 
IV
Semesters: 
VII
Credits: 
4.50

Course “Microwave devices-1" is a part of general program for Bachelors of Electronics. It provides second and third parts of the course "Microwave techniques". The purpose of this course is to familiarize students with vacuum and solid state microwave devices, study their principle of operation, and their basic design rules in the key areas of their use. Among the considered vacuum devices there are such as klystron, backward wave oscillator, traveling-wave tube, magnetrons, amplitron, devices with emission modulation, autophase and parametric devices.

Microwave engineering 2. Microwave circuits

Years: 
IV
Semesters: 
VIII
Credits: 
9.00

Course objective is the study of physical processes in the microwave components and circuits, mastery of the electronic circuit design of microwave circuits, including circuits with distributed parameters.
Contents of educational material
1. Circuits with distributed parameters under harmonic stimuli
1.1 Long lines
1.2 Long lines equations
1.3 Solution of long lines equations
1.4 Line’s input impedance
1.5 Wave processes in transmission lines
1.6 Matching of the transmission line
1.7 Conditions of undistorted transmission in the line

Applied Biophysics 2

Years: 
V
Semesters: 
IX
X
Credits: 
9.00

"Applied Biophysics - 2" discipline consists of two parts: "The interaction of biological objects with physical fields" and "Simulation of biophysical processes", and given to masters of electronics.

Biomedical Computer Systems

Years: 
V
Semesters: 
IX
Credits: 
3.50

The aims of discipline "Biomedical Computer Systems" are: to study the principles of biomedical computer systems, to gain experience of using them in practice as well as to acquire the skills of their design. In particular, this course also enables the students to develop proper understanding of the mathematical methods used in modern biomedical computer systems and to apply these methods in practical work. This differs from the other numerous courses, which focus on the surface studying of different user’s interfaces of biomedical computer systems.

Design of microelectronic devices

Years: 
V
Semesters: 
IX
Credits: 
8.50

The purpose of discipline is to develop a systematic approach to circuit design of electronic devices, ability to navigate in a variety of advanced design techniques, to choose suitable components and techniques to solve applied problems.

The object of study is the advanced circuit design techniques of electronic devices and modern element base electronics.

The objects of study are algorithms for designing functional units and structural design of electronic devices.

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