Electronics Engineering
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DepartmentFaculty of Electronics
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Program code6121EX043
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Field of studyEngineering
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QualificationBachelor of Engineering Sciences
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Duration0.5
Fun fact
From a glowing light bulb to life-saving medical equipment and electronic systems that protect our environment, electronics is everywhere.
Imagine wearing a smart jacket — clothing with embedded computers that respond to your body and environment. Electronics engineering makes such ideas possible.
About
Programme Objective
The Electronics Engineering programme provides students with both fundamental knowledge and practical skills in electrical and electronics engineering. Students learn to:
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Design and manage projects in electronics engineering.
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Creatively and critically solve challenges in electronics, building integrated systems and controllers for medicine, aviation, and transport.
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Ensure safety, energy efficiency, and sustainability in developed solutions.
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Understand the impact of electronics technologies on society and the environment.
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Maintain professional competence through lifelong learning.
Main Study Modules
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Design of Electronic Devices
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Chip Design and Technologies
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Microconnection Devices
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Analog Electronics
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Signals and Systems Theory
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Microprocessors
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What will I be able to do?
• Work with modern equipment used in electronics engineering and plan/perform essential engineering tasks
• Combine theoretical and applied knowledge to find and implement creative solutions
• Design electronic devices, integrated systems, and chips using automated design methods
• Apply IT to engineering: program computers, microcontrollers, and embedded systems
• Create systems linking computers and databases, controllable via web browsers and smartphones
• Implement various electronic systems in real-world applications
• Launch their own startups or spin-off companies. -
What are my career opportunities?
• Working in electronics companies designing and manufacturing electronic and computer equipment
• Working in IT companies designing and implementing advanced electronic systems
• Establishing their own businesses by creating startups or spin-off companies.
Study subjects
2 Semester
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ELESB16723 15 credits
Professional Practice
Module aim
Aim is to familiarize with the companies designing and (or) using computer based electronic systems or electronic devices, their structure and business activities, analyse the designed systems or devices, acquire the new knowledge, cognitions, special and general abilities, designs the latest computer based electronic systems or electronic devices.
Module description
The subject is focused on the familiarization with the companies designing, applying or using computer based electronic systems or electronic devices. Structure analysis of the company or its department, analysis of the main department functions, activities, industrial relations and products. Students perform a detail analysis of the computer based electronic systems or electronic devices and innovative systems technologies that are designed and used in the company or its department. Also the student should perform an individual practical work by performing a problem based task given by the head of the company or department. The results of the practice are presented by preparing an individual report on practice results and public presentation with generalization of the results and final conclusions.
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ELESB16402 6 credits
Signals and Circuits 1
Module aim
To provide basic knowledge of linear circuits, to develop the ability to analyze, design and apply linear circuits in order to process simple forms signals and to be able to select the solutions reasonably by working independently or in a group.
Module description
Interfaces of applications of superposition priciple with frequency characteristics of circuits, frequency characteristics of bipolar and quadripolar, frequency characteristics of RR, RC and RL, circuits which are connected in cascade, features of resonant circuits, quadripolars and their empty running, short operation and general parameters, electrical filters, circuits of distributed parameters. Students must complete all scheduled laboratory work. Students must attend at least 80% of the practical exercises (practical work) and at least half of the lectures according to the semester Lecture schedule.
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ELESB16602 6 credits
Digital Signal Processing
Module aim
The aim is to acquire knowledge on the fundamentals of DSP, to assure abilities to design and implement digital filters and analyse discrete-time signals in time and frequency domains using approaches, and algorithms of DSP by means of computer.
Module description
In this subject the fundamentals, approaches, methods and algorithms of digital signal processing are presented. The abilities to program digital signal processing (DSP) algorithms using MATLAB software and qualified application of it are acquired in this subject. Facilities to combine theoretical and practical elements of the discrete time systems are assured during the time, spend in laboratory. Lecture schedule.Individual study of the literature during the preparation to the exam and laboratory tasks acquires cognitive abilities to work individually and apply DSP theory in practical situations. Abilities to work independently and responsibly are acquired thoroughly schedule own work tasks and time. Students must complete all scheduled laboratory work. Students must attend at least 80% of the course laboratory and at least half of the lectures according to the semester schedule.
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ELESB16406 3 credits
Electronics Practicum
Module aim
To learn practical understanding of semiconductor devices, to made measurements of modern electronic devices and filters and resonant circuits, to learn how to calculate circuits parameters and characteristics and how to use circuits modelling software.
Module description
Introduction to the subject matter of the issues. Provides practical information about: semiconductor diodes; bipolar transistors; field effect transistors and thyristor devices. Also, students are practically acquainted with the simplest signal filters and resonant circuits. The presentation of the home work about in practicum discussed electronic devices and filters and resonant circuits and their measured and calculated characteristics are made in the end. Students must complete all scheduled laboratory work.
Students must complete at least 80% of the course laboratory according to the semester Lecture schedule.
Statistics
| Metric | Value |
|---|---|
| Enrolled students | 4 |
| Enrolled to FT | 0 |