To understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors X X X X

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1 EC0304 Program outcomes c)graduate will ability to design conduct experiment analyze and interpret data d)graduate will ability to design a system, component or process as per needs and j) Graduate will develop confidence for self education and ability for life Course designed by Program 1 outcome 2 Category 3 Broad area (for P category) OPTICAL COMMUNICATION & NETWORKS Prerequisite : NIL basic elements of optical fiber transmission link, fiber modes configurations and structures Program instructional objectives various optical source materials, LED structures, quantum efficiency, Laser diodes To understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration X X X X L T P C fiber optical network components, variety of networking aspects, FDDI, SONET/SDH and operational principles WDM X X X X X X X X X X Department of Electronics & Communication Engineering a b c d e f g h i j k X X X Basic Engineering General Professional Sciences Sciences and (G) Subjects(P) (B) Technical Arts(E) Communication X Signal Processing X Electronics VLSI Embedded 4 5 Staff responsible for preparing the syllabus date of preparation Mrs.Shanthi Prince, Mrs.Neelaveni Ammal Mrs.J.Manula December

2 Mapping of Program Educational Objectives Vs Program Outcomes Program Educational objectives Program Outcomes 1) To prepare students to compete for a successful career in their chosen profession through global education standards. 2) To enable the students to aptly apply their acquired knowledge in basic sciences and mathematics in solving engineering problems. 3) To produce skillful graduates to analyze, design and develop a system/compone nt/process for the required needs under the realistic constraints. 4) To train the students to approach ethically any multidisciplinary engineering challenges with economic, environmental and social contexts 5) To create an awareness among the students about the need for life to succeed in their professional career. c)graduate will ability to design conduct experiment analyze and interpret data X X d) Graduates will ability to design a system, component or process as per needs and s X X X j) Graduate will develop confidence for self education and ability for life X 2

3 SRM University Department of Electronics and Communication Engineering Course Code : EC0304 Course Title : Optical Communication & networks INSTRUCTIONAL OBJECTIVE PROGRAM OUTCOME EVIDENCE basic elements of optical fiber transmission link, fiber modes configurations and structures To understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors various optical source materials, LED structures, quantum efficiency, Laser diodes fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration fiber optical network components, variety of networking aspects, FDDI, SONET/SDH and operational principles WDM C) Graduate will ability to design conduct experiment analyze and interpret data D) Graduate will ability to design a system, component or process as per needs and J) Graduate will develop confidence for self education and ability for life C) Graduate will ability to design conduct experiment analyze and interpret data D) Graduate will ability to design a system, component or process as per needs and J) Graduate will develop confidence for self education and ability for life C) Graduate will ability to design conduct experiment analyze and interpret data D) Graduate will ability to design a system, component or process as per needs and J) Graduate will develop confidence for self education and ability for life C) Graduate will ability to design conduct experiment analyze and interpret data D) Graduate will ability to design a system, component or process as per needs and J) Graduate will develop confidence for self education and ability for life D) Graduate will ability to design a system, component or process as per needs and J) Graduate will develop confidence for self education and ability for life 3

4 EC0304 Prerequisite: Nil OPTICAL COMMUNICATION & NETWORKS L T P C PURPOSE To introduce the students to various optical fiber modes, configurations and various signal degradation factors associated with optical fiber and to study about various optical sources and optical detectors and their use in the optical communication system. INSTRUCTIONAL OBJECTIVES 1. basic elements of optical fiber transmission link, fiber modes configurations and structures 2. To understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors 3. various optical source materials, LED structures, quantum efficiency, Laser diodes 4. fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration 5. fiber optical network components, variety of networking aspects, FDDI, SONET/SDH and operational principles WDM INTRODUCTION OF OPTICAL FIBERS 9 Basic principles of optical fiber communications - Step Index and Graded Index fiber structure - Modes and Configurations - Mode theory for circular waveguides - Linearly Polarized modes - Single mode fibers. OPTICAL SOURCES AND RECEIVERS 9 Optical Sources: - Light source materials - LED -Structure - Quantum efficiency - Modulation. Laser Diode - Modes and threshold condition - Structures and Radiation Pattern - Modulation. Optical detectors: - Physical principles - PIN and APD diodes - Photo detector noise - SNR - Detector response time. OPTICAL COMMUNICATION SYSTEMS AND DESIGN 9 Transmitter module: Signal formats - Electronic driving circuit - Modulation circuit. Receiver Module: Optical front end - Quantizer - Decision circuit. Optical Link Design: Point-to-point links - System considerations - Link Power budget - Rise time budget. NETWORK COMPONENTS 9 4

5 Principle and Operation of couplers, Isolators, Circulators, Fabry Perot Filters, Mach-Zehnder Interferometer, EDFA, Semiconductor Optical Amplifier and Transceivers. OPTICAL NETWORKS 9 Network Topologies - FDDI Networks: - Frame and Token formats - Network operation. SONET/SDH: - Optical s - SONET frame structure - SONET layers - SONET/SDH networks. Operational principles of WDM - Broadcast and Select WDM networks - Single hop networks - Wavelength routed networks - Optical CDMA. TEXT BOOKS: TOTAL Communication" McGraw -Hill International, Singapore, 3rd edition, Rajiv Ramaswami, Kumar N. Sivaranjan, Networks A practical perspective", 2nd edition, Elsevier, 2004 REFERENCE BOOKS: 1. Djafar K. Mynbaev, Lowell L. Scheiner, "-Optic Communications Technology", 1st edition, Pearson Education, John Powers, "An Introduction to optic Systems", 2nd edition, Irwin- McGraw Hill, J.Gowar, Communication System", 2nd edition, Prentice Hall of India,

6 SRM UNIVERSITY FACULTY OF ENGINEERING AND TECHNOLOGY SCHOOL OF ELECTRONICS AND ELECTRICAL ENGINEERING DEPARTMENT OF ECE COURSE PLAN Course Code : EC0304 Course Title : OPTICAL COMMUNICATION & NETWORKS Semester : VI Course Time : JANUARY APRIL 2011 Location : S.R.M.E.C Faculty Details Sec. Name Office Office hour Mail id A Mrs.. S. Kirthiga TP 1203A Mon-1 st, Tue 3 rd Fri 6 th & 7 th kirthigas@ktr.srmuniv.ac.in B Mr. M. Aravindan TP 1106A C Mr. S. Manikandaswamy TP 1106A D Mrs. B. Selvapriya TP 1006A E Mrs. M. Valarmathi TP 12S5 F Dr. Shanthi Prince TP 10S7 Required Text Books: Wed- 2 nd, Thu 4 th aravindanm@ktr.srmuniv.ac.in Fri 6 th & 7 th Mon 6 th & 7 th Tue 3 rd, Thu smanikandaswamy@ktr.srmuniv.ac.in 4 th Mon 1 st & 4 th Wed- 1 st, Thu selvapriya@ktr.srmuniv.ac.in 5 th Mon 4 th, Tue 1 st valarmathim@ktr.srmuniv.ac.in Thu 1 st & 6 th Wed 1 st & 2 nd Fri 5 th & 6 th shanthiprince@ktr.srmuniv.ac.in 1) Communication" McGraw -Hill International, Singapore, 3rd edition, ) Rajiv Ramaswami, Kumar N. Sivaranjan, Networks A practical perspective", 2nd edition, Elsevier, ) John Powers, "An Introduction to optic Systems", 2nd edition, Irwin-McGraw Hill, ) J.Gowar, Communication System", 2nd edition, Prentice Hall of India, 2001 Web Resources : 1. web.mit.edu Prerequisite : NIL 6

7 Objectives : 1. basic elements of optical fiber transmission link, fiber modes configurations and structures 2. To understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors 3. various optical source materials, LED structures, quantum efficiency, Laser diodes 4. fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration 5. fiber optical network components, variety of networking aspects, FDDI, SONET/SDH and operational principles WDM Assessment Details Cycle Test I : 10 Marks Surprise Test I : 5 Marks Cycle Test II : 10 Marks Model Exam : 20 Marks Attendance : 5 Marks Test Schedule S.No. DATE TEST PORTIONS DURATION 1 4 th week of Feb 11 Cycle Test-1 Session Periods 2 1 st week ofapr 11 Cycle Test-2 Session Periods 3 1 st week of May 11 Model Test Session Hrs Outcomes Instructional Objective 1. basic elements of optical fiber transmission link, fiber modes configurations and structures 2. To understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors 3. various optical source materials, LED structures, quantum efficiency, Laser diodes 4. fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration 5. fiber optical network components, variety of networking aspects, FDDI, SONET/SDH and operational principles WDM Program outcome c) Graduate will ability to design conduct experiment analyze and interpret data d) Graduate will ability to design a system, component or process as per needs and j) Graduate will develop confidence for self education and ability for life. 7

8 Detailed Session Plan INTRODUCTION OF OPTICAL FIBERS Basic principles of optical fiber communications - Step Index and Graded Index fiber structure - Modes and Configurations - Mode theory for circular waveguides - Linearly Polarized modes - Single mode fibers Session No. Topics to be covered Text book ter no & no Instructional Objective Program Outcome Basic principles of optical fiber communications Step Index fiber structure Graded Index fiber structure attenuation and dispersion Overview of modes and key modal concepts Wave equation for Step-Index fibers and modes in Stepindex fibers Linearly Polarized modes Single mode fibers Problems similar to example problems in chapter 2 relevant to theory covered Communication" ter ter 2 basic elements of optical fiber transmission link, fiber modes configurations and structures c - Graduate will ability to design conduct experiment analyze and interpret data d - Graduate will ability to design a system, component or process as per needs and j - Graduate will develop confidence for self education and ability for life long learning OPTICAL SOURCES AND RECEIVERS: Optical Sources: - Light source materials - LED -Structure - Quantum efficiency - Modulation. Laser Diode - Modes and threshold condition - Structures and Radiation Pattern - Modulation. Optical detectors: - Physical principles - PIN and APD diodes - Photo detector noise - SNR - Detector response time. Session No. Topics to be covered Text book ter no & no Instructional Objective Program Outcome 10 Light source materials To c - Graduate will 8

9 LED Structure, Quantum efficiency - Modulation Laser Diode, Modes and threshold condition Structures and Radiation Pattern - Modulation Problems related to LED and Laser diodessimilar to Example problems Ex4.3,4.4,4.5, PIN Photodiode 16 APD diodes Photo detector noise SNR - Detector response time Problems related to Photodetectors similar to Example problems Ex.6.1, 6.2, 6.3, 6.4, 6.5, 6.6, 6.7, Communication" McGraw -Hill International, Singapore, 3rd edition, , , , 6.3 no: understand the different kind of losses, signal distortion in optical wave guides and other signal degradation factors ability to design conduct experiment analyze and interpret data d - Graduate will ability to design a system, component or process as per needs and j - Graduate will develop confidence for self education and ability for life OPTICAL COMMUNICATION SYSTEMS AND DESIGN: Transmitter module: Signal formats - Electronic driving circuit - Modulation circuit. Receiver Module: Optical front end - Quantizer - Decision circuit. Optical Link Design: Point-to-point links - System considerations - Link Power budget - Rise time budget Sessi on No Topics to be covered Transmitter module: Signal formats - Electronic driving circuit - Modulation circuit. Electronic driving circuit - Modulation circuit. Receiver Module: Optical front end - Text book John Powers An Introduction to Optic Systems ter no & no Instructional Objective various optical source materials, LED structures, quantum efficiency, Program Outcome c - Graduate will ability to design conduct experiment analyze and interpret data d - Graduate will ability to design a system, component or process as per needs and 9

10 Quantizer - Decision circuit Quantizer - Decision circuit Optical Link Design: Point-to-point links - System considerations - Link Power budget 26 Rise time budget 27 Problems related to optical link design similar to example problems in EX.8.1,8.2,8.3,8.4 Communication" McGraw -Hill International, Singapore, 3rd edition, Laser diodes fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration j - Graduate will develop confidence for self education and ability for life long learning NETWORK COMPONENTS: Principle and Operation of couplers, Isolators, Circulators, Fabry Perot Filters, Mach-Zehnder Interferometer, EDFA, Semiconductor Optical Amplifier and Transceivers Session No. Topics to be covered Text book ter no & no Instructional Objective Program Outcome Principle and Operation of couplers Principle and Operation of couplers Isolators, Circulators 31 Fabry Perot Filters EDFA Mach-Zehnder Interferometer Rajiv Ramaswami, Kumar N. Sivaranjan, Networks A practical perspective", 3 no: no: no: no: no: no: 126 various optical source materials, LED structures, quantum efficiency, Laser diodes fiber optical receivers such as PIN APD diodes, noise performance in photo detector, receiver operation and configuration c - Graduate will ability to design conduct experiment analyze and interpret data d - Graduate will ability to design a system, component or process as per needs and j - Graduate will develop confidence for self education and ability for life long learning 10

11 34 EDFA 35 Semiconductor Optical Amplifier 36 Transceivers no: no: no: OPTICAL NETWORKS: Network Topologies - FDDI Networks: - Frame and Token formats - Network operation. SONET/SDH: - Optical s - SONET frame structure - SONET layers - SONET/SDH networks. Operational principles of WDM - Broadcast and Select WDM networks - Single hop networks - Wavelength routed networks - Optical CDMA Sessi on No. Topics to be covered Text book ter no & no Instructional Objective Program Outcome Network Topologies FDDI Networks: - Frame and Token formats - Network operation SONET/SDH: - Optical s - SONET frame structure 40 SONET layers SONET/SDH networks Operational principles of WDM John Powers An Introduction to Optic Systems Communicati on", Rajiv Ramaswami, Kumar N. Sivaranjan, Networks A practical perspective", Communicati on", Communicati 8 no no: fiber optical network components, variety of networking aspects, FDDI, SONET/SDH and operational principles WDM d - Graduate will ability to design a system, component or process as per needs and j - Graduate will develop confidence for self education and ability for life 11

12 43 44 Broadcast and Select WDM networks - Single hop networks Wavelength routed networks 45 Optical CDMA on", Communicati on", Communicati on", Communicati on",

Academic Course Description. EC1022 Microwave and Optical Communications Sixth Semester, (even semester)

Academic Course Description. EC1022 Microwave and Optical Communications Sixth Semester, (even semester) Academic Course Description EC1022 Microwave and Optical Communications SRM University Faculty of Engineering and Technology Department of Electronics and Communication Engineering EC1022 Microwave and