Course details
Microelectronics in English
MPA-MEN FEKT MPA-MEN Acad. year 2025/2026 Winter semester 3 credits
Basic terminology of the university life. Reading mathematical symbols and expressions.
Terminology of basic electricity, circuits, fields, signals, laws and theorems.
Fundamentals of semiconductor physics, PN junction. Diodes and transistors. Analog integrated circuits. Digital integrated circuits. Semiconductor memories. Microprocessors.
Technology of microelectronics, materials, structures.
State of art and perspectives of microelectronics.
Microelectronics terminology at conferences, presentations, discussions, examinations, in publications and report writing.
Guarantor
Language of instruction
Completion
Time span
- 26 hrs lectures
Department
Learning objectives
The aim of the subject is a professional language preparation of students for a study in English or a service abroad with the emphasis on the professional accuracy of English terminology in electronics and microelectronics. The subject is set for the students having basic knowledge of English grammar and spoken English.
Students with the basic knowledge of English will get further knowledge of precise English terminology in electronics and microelectronics needed for a continuation of their study in English or for a work abroad. In addition to the professional terminology the students will learn the behaviour in basic situations of university or working life.¨
Students who complete the course successfully should be able to:
- explain precise English terminology in electronics and microelectronics,
- discuss and explain basic subjects of electrical engineering (electric circuits, electric current, electrical conductors) and on subjects in his/her field of study on the basis of the acquired professional vocabulary,
- read or to write down basic mathematical expressions and processes (addition, subtraction, multiplication, division, brackets, decimal numbers, fractions, powers, roots, equations),
- describe electronic system properties and to verbalize graphs, charts and trends,
- describe technical functions and applications and explain how electronic technology works,
- describe common materials and alloys and to describe their properties,
- describe electronics component properties and features,
- describe various types of technical problems and causes of faults,
- discuss technical requirements of new products (needs analysis in technical contexts) and to assess the feasibility of proposed technical solutions,
- solve the behaviour in basic situations of university or working life.
Prerequisite knowledge and skills
Secondary school level knowledge and intermediate level of English are required.
Study literature
- Herbst,L.: Monolithic Integrated Circuits, Clarendon Press, Oxford, 1985
- Boylestad,R.-Nashelsky,L.: Electronic Devices and Circuit Theory, Prentice-Hall Inc, 1992
Fundamental literature
- Sedra,A. Smith,K.: Microelectronic Circuits - 8th edition, Oxford University Press, 2019, ISBN: 978-0190853464
Syllabus of lectures
Reading of mathematical symbols and expressions.
Terminology of basic electricity, circuits, fields, signals, laws and theorems.
Fundamentals of semiconductor physics, PN junction.
Passive components, diodes and transistors.
Analogue integrated circuits.
Analogue integrated circuits.
Digital integrated circuits.
Semiconductor memories. Microprocessors.
Microelectronic materials and structures.
Fabrication of integrated circuits
Fabrication of integrated circuits
State of art and perspectives of microelectronics.
Microelectronics terminology at conferences, presentations, discussions, examinations, in publications and report writing.
Progress assessment
Up to 30 points for the activity during the semester.
Up to 70 points for exam.
The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.
Course inclusion in study plans
- Programme MIT-EN (in English), any year of study, Elective