Optoelectronics II

Prerequisite:

Safety in Electrical Engineering 2 (X17BP2)

Lecturer:

Tutor:

Supervisor:

Department of Microelectronics

Synopsis:

The subject treats the properties of the optoelectronic devices especially radiation sources, detectors and optical receivers, optical waveguides and their application. . The optical integrated circuits and measuring methods for optoelectronics are discussed, too. The subject studies application all types of optical sensors and optical communication.

Requirements:

Syllabus of lectures:

1. Sources of radiation for optoelectronic applications

2. Detectors of radiation for optoelectronic applications

3. Optical devices for optoelectronic applications

4. Principles of optoelectronic sensors. Amplitude sensors

5. Interferometric fibre sensors

6. Spectral sensors and analyzers. Polarimetric sensors

7. Distributed fibre sensors. Sensor systems

8. Transmission of information using optical frequencies, transmission environment

9. Conception of transmission line with optical fibre waveguide

10. Components of transmission line and their properties

11. Transmission lines with special properties

12. Optoelectronic systems for graphical record

13. Optical memories. Optical signal and picture processors

14. Optoelectronic sensors of position and pictures. Holografical interferometry

Syllabus of tutorials:

1. S: Calcuation of the optical detectors properties

2. S: Calcuation of the radiation sources properties

3. L: Laser diode threshould current

4. L: Radiation sources spectral characteristics

5. L: Light detectors spectral characteristics

6. L: Transfer properties of the optron for the digital signal transmition

7. L: Transfer properties of the optron for the analogue signal transmition

8. L: Radiation characteristics of the radiation sources

9. L: Fibre optics sensors

10. L: Diagnostic of the fiber optical waveguides

11. S: Design and analysis of the optical receiver

12. S: Line for optical communication

13. S: Optoelectronic sensors

14. Final grading

Study Objective:

Study materials:

[1] Senior, J.: Optical Fiber Communication. Prentice Hall, New York 1992

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Elektronika-inženýrský blok (compulsory course)
• Elektronika-inženýrský blok (compulsory course)