Laboratory of Electronics 2
Data is displayed for academic year: 2023./2024.
Laboratory exercises
Course Description
The purpose of this course is to give the students the practical knowledge about representative RF power circuits and applications and good understanding of methods and techniques in CMOS digital circuits design. The course offers a hands-on experience about the concepts that are taught in Radio-Frequency Electronics and Digital Microelectronic Circuits.
Study Programmes
University graduate
[FER2-HR] Electronics - profile
(2. semester)
General Competencies
The students get practical knowledge about common RF power circuits and oscillators, ability to analyse, model, design and implement adequate RF power amplifiers and oscillators. They should get acquainted with CAD tools for layout and electrical simulation of CMOS microelectronic circuit and should adopt the practical skills in layout design, circuit extraction and CMOS circuit verification needed for analysing and designing digital microelectronic circuits.
Learning Outcomes
- distinguish the role of individual layers of technological structure in the realization of CMOS circuits
- design the layout of CMOS digital circuit
- simulate circuits in a specific CMOS technology
- verify the operation of CMOS digital circuit
- experimental testing of oscillator circuits
- oscillator circuit tuning
- experimental testing of RF power amplifier circuits
- RF power amplifier circuits circuit tuning
Forms of Teaching
Lectures
lectures
Laboratory Worklaboratory exercises
Consultationsconsultations
Grading Method
Continuous Assessment | Exam | |||||
---|---|---|---|---|---|---|
Type | Threshold | Percent of Grade | Threshold | Percent of Grade | ||
Laboratory Exercises | 0 % | 90 % | 0 % | 0 % | ||
Homeworks | 0 % | 10 % | 0 % | 0 % |
Week by Week Schedule
- Computer aids for microelectronic circuit layout design
- CMOS layout drawing
- Computer aids for circuit analysis
- CMOS inverter
- Complementary NAND gate
- CMOS pass-transistor
- Static synchronous SR latch
- Midterm
- Static RAM cell
- Testing RF power amplifier using spectrum analyzer
- Testing RF power amplifier operating conditions
- Tunnel-diode oscillator
- Oscillator frequency stability
- Frequency shift keying
- Frequency multipliers
Literature
N. Majurec, R. Nađ, A. Šarolić, G. Šišul (2003.), Paradigme visokofrekvencijske elektronike, modulacija i modulatora, Graphis, Zagreb
J.M. Rabaey, A. Chandrakasan, B. Nikolić (2003.), Digital Integrated Circuits - A Design Perspective, 2nd ed., Prentice Hall
For students
General
ID 35235
Summer semester
3 ECTS
L0 English Level
L1 e-Learning
15 Lectures
0 Seminar
0 Exercises
30 Laboratory exercises
0 Project laboratory
0 Physical education excercises
Grading System
87 Excellent
75 Very Good
62 Good
50 Sufficient