Credits

Periods

Exam Hrs.

Sessional Marks

Exam Marks

Total Marks

Theory

Tutorial

Lab

4

3

1

3

30

70

100

Propagation: in Fibers:

Elementary discussion of propagation in fibers

Attenuation in Optical Fibers

E M wave propagation in step-Index Fibers

E M wave propagation in graded-Index Fibers.

Optical Fibers and Associated Components:

Fiber Properties

Splices, connectors, Couplers, and Gratings.

Transmitting and Receiving Devices:

Injection laser Characteristics

LED structures, Characteristics and modulation

Optical Transmitters, Receivers and Fiber-optic Link Design:

Concepts of Fiber-Optic Networks and wavelength – Division Multiplexing:

 

Books:

For syllabus items 2,4 and 5

An Introduction to Fiber Optic Systems by John Powers, 2nd Edition, Irwin, l997.

For syllabus item 1

Optical Communication Systems by John Gowar, PHI l994

For syllabus item 3

Optical Fiber Communications, Principles and Practice by John M. Senior, Second Edition, PHI l996.

tejus mahiECE 4.2 SyllabusECE,ECE Syllabus,Fiber-optic Communications Syllabus
  Credits Periods Exam Hrs. Sessional Marks Exam Marks Total Marks Theory Tutorial Lab 4 3 1 - 3 30 70 100 Propagation: in Fibers: Elementary discussion of propagation in fibers Attenuation in Optical Fibers E M wave propagation in step-Index Fibers E M wave propagation in graded-Index Fibers. Optical Fibers and Associated Components: Fiber Properties Splices, connectors, Couplers, and Gratings. Transmitting and Receiving Devices: Injection laser Characteristics LED structures, Characteristics and modulation Optical Transmitters, Receivers and Fiber-optic...