Syllabus

Ternopil Ivan Puluj National Technical University

Каф. біотехнічних систем

ANALOG CIRCUIT ENGINEERING

syllabus

1. Educational programs for which discipline is mandatory:

# Educational stage Broad field Major Educational program Course(s) Semester(s)
1 bachelor's 16. Хімічна та біоінженерія 163. Біомедична інженерія (бакалавр) 2 4

2. The course is offered as elective for all levels of higher education and all educational programs.

3. Information about the author of the course

Full name Тимків Павло Олександрович
Academic degree Cand. Sc.
Academic title Assoc. Prof.
Link to the teacher`s page on the official website of the department
Е-mail (in the domain tntu.edu.ua)

4. Information about the course

Study hours structure Lectures: 36
Practical classes: 0
Laboratory classes: 36

Amount of hours for individual work: 40
ECTS credits: 5
Teaching language english
Form of final examination exam
Link to an electronic course on the e-learning platform of the university https://dl.tntu.edu.ua/bounce.php?course=5535

5. Program of discipline

Description of academic discipline, its goals, subject of study and learning outcomes

Purpose: to prepare students in the field of research and analysis of analog circuits, taking into account the development of the elemental base, as well as acquiring skills in working with the hardware part of electronic systems, understanding the principles of their work and the interaction of their constituents.
The main objectives of the course are the study of the principle of operation, functional and circuit technical basis, design, performance characteristics of various components that are part of the structure of modern analog devices.

The place of academic discipline in the structural and logical scheme of study according to the educational program

Prerequisites. List of disciplines, or knowledge and skills, possession of which students needed (training requirements) for successful discipline assimilation

Higher Mathematics, Physics

Contents of the academic discipline

Lectures (titles/topics)

Theme 1. The purpose and main tasks of the discipline. Passive RC and RLC circles. Low pass filter. High pass filter. Sharp path
Theme 2. Diodes. Bipolar transistors and circuits based on them. Characteristics and parameters in the mode of small signals. Scheme with a common emitter. Scheme with a common base. Scheme with a common collector.
Topic 3. Transistor as a source of stable current. Darlington Scheme Differential amplifier. Noise transistor. Boundary options.
Theme 4. Field transistors and circuits based on it. Classification. Characteristics and parameters in the mode of small signals. Limit electrical parameters. Basic schematics of inclusion.
Theme 5. Field transistor as a source of stable current. Differential amplifier. Field transistor as controllable resistance.
Theme 6. Operational amplifier. Basic schematics. Opera Amplifier Properties. The principle of negative feedback.
Theme 7. Non-inverting Amplifier. Inverting amplifier
Theme 8. The internal structure of the operational amplifier. Substantive provisions. The simplest schematics of operational amplifiers.
Theme 9. Correction of frequency characteristic. Measurement of the parameters of the operational amplifier.

Laboratory classes (topics)

1. The amplifier cascade on the transistor
2. DC amplifiers
3. Analog circuits for operational amplifiers
4. Pulse circuits on operational amplifiers

Learning materials and resources

1. U.Titts K. Shank. Semiconductor Circuit Design: Reference Guide. Per with him. - M .: Mir, 1982. - 512 p.
2. Yavorsky B.I. Basics of radio electronics. Teaching Pencil, Ch.1,2,3.
Additional
3. Alexander A.G. Optimal and adaptive systems. - M .: Higher school, 1989.
4. Basharin S.A. Theoretical Foundations of Electrical Engineering: Theory of Electrical Circuits and the Magnetic Field. Study manual for a student. higher studying routine. - Moscow: Publishing Center "Akademiya", 2004. - 304 pp.
5. Bellman R. Mathematical Methods in Medicine. - Moscow: Mir, 1987.
6. White L.N. An Analysis of Mathematical Models in Immunology. - Moscow: Nauka, 1988.
7. VERLAN AF, Moskaluk S.С. Mathematical modeling of continuous dynamical systems. - Kiev: Science. thought, 1988
8. Vasiliev VA, Romanovsky Yu.M., Yakhno VG Autowave processes. - M .: Nauka, 1977.

6. Policies and assessment process of the academic discipline

Assessment methods and rating system of learning results assessment

Module 1 – 40 points:
10 points – test,
30 points – lab works.
Module 2 – 35 points:
10 points – test,
25 points – lab works.
Form of final control – examination - max 25 points


Table of assessment scores:

Assessment scale
VNZ
(100 points)
National
(4 points)
ECTS
90-100 Excellent А
82-89 Good B
75-81 C
67-74 Fair D
60-66 E
35-59 Poor FX
1-34 F
Approved by the department
(protocol №
on «
»
y.).