Advanced Electronic Systems

Learning Outcomes

  1. Connect system power requirements to real electronic circuits and devices
  2. Evaluate which realistic electronic circuit is the optimal solution for a particular application.
  3. Design a practical electronic system solution.

Forms of Teaching

Lectures

Exercises

Independent assignments

Laboratory

Week by Week Schedule

  1. Parameters of real operational amplifiers, Operational amplifier noise model
  2. Types of operational amplifiers, Operational amplifier power supply techniques, Cases and cooling of operational amplifiers
  3. Operational amplifier PCB layout design, Operational amplifier frequency behaviour
  4. Stability of operational amplifier, Negative and positive feedback
  5. Frequency analysis of compound amplifiers, Low noise amplifiers
  6. Low power amplifiers, Low offset amplifiers, High input impedance amplifiers
  7. Power amplifiers, High speed amplifiers, Comparators
  8. Midterm exam
  9. Circuits with non-linear transfer function, Logarithmic amplifiers, Multipliers
  10. Phase Locked Loop (PLL), Comparators
  11. Reference voltage sources, Reference current sources
  12. Power supply PCB layout for reference sources, Cascaded amplifiers; Capacitive-coupled and dc-coupled amplifiers
  13. Darlington transistor amplifiers, Classification of power amplifiers
  14. Class A and class B power amplifier, Class B crossover distortion; Class AB power amplifier
  15. Final exam

Study Programmes

University graduate
Audio Technologies and Electroacoustics (profile)
Free Elective Courses (3. semester)
Communication and Space Technologies (profile)
Free Elective Courses (3. semester)
Computational Modelling in Engineering (profile)
Free Elective Courses (3. semester)
Computer Engineering (profile)
Free Elective Courses (3. semester)
Computer Science (profile)
Free Elective Courses (3. semester)
Control Systems and Robotics (profile)
Free Elective Courses (3. semester)
Data Science (profile)
Free Elective Courses (3. semester)
Electrical Power Engineering (profile)
Free Elective Courses (3. semester)
Electric Machines, Drives and Automation (profile)
Free Elective Courses (3. semester)
Electronic and Computer Engineering (profile)
Free Elective Courses (3. semester)
Electronics (profile)
(3. semester)
Information and Communication Engineering (profile)
Free Elective Courses (3. semester)
Network Science (profile)
Free Elective Courses (3. semester)
Software Engineering and Information Systems (profile)
Free Elective Courses (3. semester)

Literature

(.), System Application Guide, ADI,
(.), OP Amp Applications, ADI,
(.), Op Amps for Everyone, TI,

For students

General

ID 222498
  Winter semester
5 ECTS
L0 English Level
L1 e-Learning
45 Lectures
6 Exercises
12 Laboratory exercises

Grading System

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Acceptable