|
Lecturer(s)
|
|
|
|
Course content
|
1. Introduction, optical, radio and communication spectrum 2. Amplifiers, amplifiers with operational amplifiers 3. Application of JFET and MOSFET transistors 4. Oscillators, generators of optical pulses 5. Optoelectronic transmitters 6. Optoelectronic receivers, detectors 7. Transimpedance amplifier with PIN diode 8. Optical waveguides 9. Optical waveguide communication systems 10.Intensity, phase, polarization and frequency modulation and demodulation 11.Application of optical waveguide communication systems, sensors
|
|
Learning activities and teaching methods
|
|
Lecture
|
|
Learning outcomes
|
The aim of the completion of the course is to gain the ability to apply theoretical knowledge of the physics of optoelectronic components for the design of optoelectronic circuits of current technology elements.
The course is aimed at gaining the ability to apply theoretical knowledge to the design of optoelectronic circuits from the current technologically current elements.
|
|
Prerequisites
|
Basic knowledge of electricity and magnetism and physics of electronic circuits.
|
|
Assessment methods and criteria
|
Oral exam
Knowledge of a defined syllabus of the subject.
|
|
Recommended literature
|
-
Mišek, J.; Kučera, L.; Kortán, J. (1988). Polovodičové zdroje optického záření. SNTL.
-
Novotný, K.; Martan, T.; Šístek, J. Systémy pro optické komunikace. ČVUT.
-
Schrofel, Novotný. (1986). Optické vlnovody. SNTL/ALFA, Praha.
-
Vobecký, J.; Záhlava, V. (2005). Elektronika. Grada Publishing, Praha.
-
Žalud, V. (2000). Moderní radioelektronika. BEN, Praha.
|