BSc in Computer Engineering / Бакалавр в Області Комп'ютерної Інженерії

Course Details

Course Information Package

Course Unit Title

ELECTRONICS II

Course Unit Code

AELE337

Course Unit Details

Number of ECTS credits allocated

Learning Outcomes of the course unit

By the end of the course, the students should be able to:

Outline the characteristics and describe the operation of the differential amplifier and the operational amplifier.
Analyse the operation and characteristics of operational amplifier circuits such as the inverting and non-inverting amplifier, the summing, difference, and comparators
Employ operational amplifiers in the design of instrumentation and data acquisition circuits such as data converters, instrumentation amplifiers, isolation amplifiers, as well as analog multiplexers.
Use operational amplifiers and logic gates to design, astable and monostable multivibrators, as well as square waveform generators.
Perform experiments on simulating, constructing and testing electronic circuits based on operational amplifiers. Use programmable analog technology to implement typical analog electronics circuits.

Mode of Delivery

Face-to-face

Prerequisites

AELE237

Co-requisites

NONE

Recommended optional program components

NONE

Course Contents

• Basic Operational Amplifier Circuits: Inverting and non-inverting amplifier, voltage follower, comparators, summing and difference amplifier. Frequency response, gain-bandwidth product and cascaded amplifier analysis. Programmable Analog Technology and Field Programmable Analogue Arrays.

• Instrumentation Circuits: Data Converters, Anolog-to-Digital and Digital-to-Analog basics and characteristics, data converter circuits. Instrumentation amplifier, Isolation amplifier and the trans-conductance amplifier. Analogue multiplexers, digital potentiometers and digital volume control.

• Square Waveform and Pulse Generators: Types and characteristics of oscillators and square waveform generators. Feedback RC square wave generators using op-amps, Schmitt trigger and logic gates. Crystal square wave generators. Lookup table based complex waveform generators. Monostable multivibrators, one-shot circuits and applications. The 555 timer as a monostable, square waveform generator, and PWM oscillator.

Recommended and/or required reading:

Textbooks

A. P. Godse, U.A. Bakashi, “Linear and Digital IC Applications”, Technical Publications, 2008

References

Thomas Floyd, Electronic Devices, Pearson Education, 9th Ed., 2014.

Planned learning activities and teaching methods

The taught part of the course is delivered to the students by means of lectures, conducted with the help of computer presentations. Lecture notes and presentations are available through the web for students to use in combination with the textbooks. Lectures are supplemented with individual student assignments. The students familiarize with EDA tools for simulating electronic circuits. The circuits are built and tested in the laboratory.

Assessment methods and criteria

Assignments	20%
Tests	20%
Laboratory work	20%
Final Exam	40%

Language of instruction

English

Work placement(s)

Друк E-mail