| Course code |
02 38 6086 01 |
| ECTS credits |
3 |
| Course name in language of instruction |
Photonics and Optical Fiber Technology |
| Course name in Polish |
Photonics and Optical Fiber Technology |
| Course name in English |
Photonics and Optical Fiber Technology |
| Language of instruction |
English |
Type of classes
Teaching hours per semester |
|
Lecture |
Tutorials |
Laboratory |
Project |
Seminar |
Other |
E-learn. |
| Contact hours |
5 |
|
30 |
|
|
20 |
|
| Distance learning |
No |
No |
No |
No |
No |
No |
No |
| Weighted grades |
0.75 |
|
0.25 |
|
|
0 |
|
|
| Unit running the course |
Katedra Przyrządów Półprzewodnikowych i Optoelektronicznych |
| Course coordinator |
dr inż. Bartłomiej Guzowski |
| Course instructors |
dr inż. Bartłomiej Guzowski |
| Prerequisites |
Physics, Basics of electronics |
| Course learning outcomes |
- The student is able to calculate the optical power budget by referring to the appropriate standards.
- The student is able to characterize optical networks by referring to the appropriate standards.
- The student is able to select and configure optical fiber active and passive elements based on the theoretical knowledge gained during the lecture and practical knowledge gained during the laboratory exercises.
|
| Assessment methods |
Discussion, final report and reports on laboratory exercises.
|
| Programme learning outcomes |
- In-depth knowledge and comprehension of complex concepts and phenomena in the field of electronics and telecommunications, methods and theories explaining the dependences between them, as well as main development trends in electronics and telecommunications; knowledge of the fundamentals of life cycle of electronic and telecommunication devices and systems.
- Ability to apply the engineering knowledge to design according to specific needs, and to critically analyse and to judge operation of electronic and telecommunication devices and systems, with consideration of non-technical factors; ability to formulate and to test hypotheses related to simple research problems in electronics and telecommunications.
|
| Grading policies |
Lecture - final report positively assessed
Laboratory - all exercise reports must be passed |
| Course content |
LECTURE
Basic passive and active elements of the optical network. Optical fibers types according to the mode structures, basic parameters of optical fibers. Calculation of the optical power budget and principles of designing optical networks. Basics of fiber optic measurement
LABORATORY
The lab activities include exercises to illustrate the lecture.
Study and characterization of single and multimode optical fibers
Optical power budget calculation
Design of optical fiber networks
Characterization of optical networks
OTHER:
Familiarization with the equipment in the laboratory, consultations. |
| Basic reference materials |
- „Fiber Optic Measurement Techniques” Hui, O`Sullivan, Elsevier Academic Press 2009
- Optoelektronika. B. Ziętek 2011
- Optical Communications Essentials. Gerd Keiser 2003
- Optical Fiber Communications: Principles and Practice. John M. Senior. Prentice Hall 2009
|
| Other reference materials |
- Handbook of optics. Bass et al. McGraw Hill 2009
- Introduction to Fiber Optics. Crisp Elliott, 2005
|
Course workload
|
| Type of classes |
Teaching hours |
| Lecture |
5 |
| Laboratory |
30 |
| Other |
20 |
| Student self-work |
20 |
| SUM : |
75 |
|
| Comments |
|
| Updated on |
2024-09-16 14:31:00 |