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Department of Electronic & Electrical Engineering, Unit Catalogue 2011/12


EE40130: Optical devices and communications systems

Click here for further information Credits: 6
Click here for further information Level: Masters UG & PG (FHEQ level 7)
Click here for further information Period: Semester 1
Click here for further information Assessment: EX 100%
Click here for further information Supplementary Assessment: Like-for-like reassessment (where allowed by programme regulations)
Click here for further information Requisites:
Click here for further information 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.
Click here for further informationProgramme availability:

EE40130 is Compulsory on the following programmes:

Department of Electronic & Electrical Engineering
  • UEEE-AFM05 : MEng (hons) Electronic and Communication Engineering (Full-time) - Year 4
  • UEEE-AKM05 : MEng (hons) Electronic and Communication Engineering (Full-time with Thick Sandwich Placement) - Year 5

EE40130 is Optional on the following programmes:

Department of Electronic & Electrical Engineering
  • UEEE-AFM07 : MEng (hons) Computers Electronics and Communications (Full-time) - Year 4
  • UEEE-AKM07 : MEng (hons) Computers Electronics and Communications (Full-time with Thick Sandwich Placement) - Year 5
  • UEEE-AFM01 : MEng (hons) Electrical and Electronic Engineering (Full-time) - Year 4
  • UEEE-AKM01 : MEng (hons) Electrical and Electronic Engineering (Full-time with Thick Sandwich Placement) - Year 5
  • UEEE-AFM14 : MEng (hons) Electronic Engineering with Space Science & Technology (Full-time) - Year 4
  • UEEE-AKM14 : MEng (hons) Electronic Engineering with Space Science & Technology (Full-time with Thick Sandwich Placement) - Year 5
  • TEEE-AFM03 : MSc Digital Communications (Full-time) - Year 1
  • TEEE-AFM02 : MSc Wireless Systems (Full-time) - Year 1
  • TEEE-AFC08 : PG Cert Digital Communications (Full-time) - Year 1
  • TEEE-AFC06 : PG Cert Wireless Systems (Full-time) - Year 1
  • TEEE-AFL07 : PG Dip Digital Communications (Full-time) - Year 1
  • TEEE-AFL05 : PG Dip Wireless Systems (Full-time) - Year 1

NB. Programmes and units are subject to change at any time, in accordance with normal University procedures.