Department of Electronic & Electrical Engineering, Unit Catalogue 2009/10 |
EE40130: Optical devices and communications systems |
 Credits:
| 6 |
| Level:
| Masters |
| Period: | Semester 1 |
| Assessment:
| EX 100% |
| Supplementary Assessment: | Like-for-like reassessment (where allowed by programme regulations) |
| Requisites:
| |
| Description: | Aims: To describe the fundamentals of optical (fibre) communications systems and key components. Learning Outcomes: After completing the unit the student should have a clear understanding of: * the characteristics of the optical fibre; * the basic principles of operation of optical communications systems and components; * the design rules for (i) a high capacity trunk optical network, (ii) a metropolitan area fibre network and (iii) an optical local area network. Skills: Intellectual skills: basic maths, electromagnetic waves and semiconductor devices. Content: Overview of optical communications systems and basic components. Semiconductor lasers: principles of operation; Fabry-Perot resonator. Qualitative review of optoelectronic sources: LEDs, Superluminescent LEDs, designs for monochromatic sources (DFB laser), Gain curve. Structures for single wavelength operation. Modulation response of lasers. Coupling of input signal to optical fibre. Optical Transmitters: requirements for stable pulsed laser operation, relaxation oscillations, chirp, use of optical modulators. Optical Receivers: principles of photodiode operation, requirements for high speed photodetection, optical design of PIN photodiodes, signal-to-noise performance of photo-receivers, simple relationship between bit error rate and receiver signal-to-noise performance. Performance of Optical Fibre Links: power budget, fibre dispersion and timing budget, effect of chirp and polarisation on system bandwidth, requirements of (i) high data rate links, (ii) wavelength division multiplexing, (iii) optical networks. |