Electronics and microcircuit engineering
Course: Cybersecurity
Structural unit: Faculty of information Technology
Title
Electronics and microcircuit engineering
Code
ОК 11
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
4 Semester
Number of ECTS credits allocated
6
Learning outcomes
Organize one's own professional activity, choose optimal methods and ways of solving complex specialized tasks and practical problems in professional activity, evaluate their effectiveness; analyze, argue, make decisions when solving complex specialized tasks and practical problems in professional activity, which are characterized by complexity and incomplete determination of conditions, be responsible for the decisions made; to adapt in the conditions of frequent changes in the technologies of professional activity, to predict the final result; detect dangerous signals of technical means; measure the parameters of dangerous and interfering signals during the instrumental control of information protection processes and determine the effectiveness of information protection against leakage through technical channels in accordance with the requirements of regulatory documents of the technical information protection system;
Form of study
Distance form
Prerequisites and co-requisites
Know methods of signal analysis and their main characteristics; basic processes occurring as a result of the interaction of electrical components/devices; directions of electronics development; operating principles and characteristics of elementary measuring devices; technical means of displaying information. Be able to choose the operating modes of power supply devices, measuring devices and the component base of electric circuits; calculate the basic circuits of analog and pulse devices; synthesize elementary combinational circuits; solve the problems of researching the characteristics of electronic elements and devices; work with control and measuring equipment in the process of experimental research. Possess basic skills in using mathematical methods in information systems and operate with knowledge and skills in the field of physics, discrete mathematics, and computer technology.
Course content
The study of the discipline "Electronics and microcircuit engineering" is necessary for students to form a system of theoretical knowledge in electrical engineering and electronics and to acquire practical skills in solving organizational and technical problems related to electrical engineering and electronics, taking into account advanced domestic and foreign experience in the operation, maintenance and repair of computers of computer technology. Studying the discipline "Electronics and microcircuit engineering" allows applicants to acquire knowledge and skills that will create a theoretical and practical foundation necessary for the analysis and construction of computer networks and information protection systems.
Recommended or required reading and other learning resources/tools
1. Tolyupa S.V., Brailovskyi M.M., Nakonechnyi V.S., Saiko V.G. Microprocessor systems on microcontrollers. Tutorial. – K: Taras Shevchenko KNU, 2022.
2. Matvienko M.P., Rosen V.P. Computer circuit engineering: a study guide. - Lira-K Publishing House. - 2019. P. 264.
3. Matvienko M.P. Computer logic. Textbook. - Publishing House Lira-K. - 2019. P. 288.
4. Microprocessor devices in information protection systems. Study guide / V. A. Shvets, T. V. Meleshko, V. V. Shestakova - K.: NAU, 2018. - 221 p.
5. Tolyupa S.V., Trush O.V., Component base of technical information protection systems: study guide. - k.: Logos, 2014. – 145 p.
6. Kolontaevskyi Y.P., Soskov A.G., Electronics and microcircuit engineering: Textbook. 2nd edition / Under the editorship A.G. Soskova. - K.: Karavela, 2009. - 416 p.
Planned learning activities and teaching methods
Lectures, practicals, laboratory classes, independent work
Assessment methods and criteria
The results of the educational activities of the winners are evaluated on a 100-point scale. The condition for receiving a positive overall grade for the discipline is to obtain at least 60% of the maximum possible number of points. To be admitted to the exam, the applicant must score at least 36 points for the current semester's work.
The candidate can obtain a maximum of 40 points in the exam, but the exam score cannot be less than 24 points to obtain an overall positive rating for the course. If the applicant scored less than 24 points on the exam, the points received are not added to the semester grade (regardless of the number of points received during the semester), in the examination information (in the column "points for the exam"), "0" is put, and in the column "resulting grade" is transferred only the number of points received during the semester. In case of controversial issues, after the exam results are published, an interview may be held to finalize the exam grade.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Faculty of information Technology
Departments
The following departments are involved in teaching the above discipline
Faculty of information Technology