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    DWDM Training – Dense Wavelength Division Multiplexing

    DWDM training provides an overview of Dense Wavelength Division Multiplexing (DWDM) network planning, architecture, design, protocols, testing and implementation.

    • ✔ Course Duration : 2 Days
    • ✔ Training Options : Live Online / Self-Paced / Classroom
    • ✔ Certification Pass : Guaranteed


    Professionals Trained


    Countries And Counting


    Corporates Served

    20+ hrs




    DWDM training provides an overview of Dense Wavelength Division Multiplexing (DWDM) network planning, architecture, design, protocols, testing and implementation.

    What you will Learn

    • Understand the basics of optical communications
    • Understand the basics of DWDM
    • Explain basic DWDM Network Designs and Engineering
    • Identify various optical communication principles as well as communication methodologies in an optical fiber
    • Learn how to analyze optical links based on power budget
    • Classify and design DWDM networks based on size and performance
    • Understand and basic design nodal architectures for different classification of DWDM networks
    • Learn how to utilize different parameters in DWDM networks and optical systems



      Learning Objectives:

      • Fiber Optics
      • Fiber Losses
      • Dispersion in Fiber
      • Nonlinearities
      • Window of Operations
      • Fiber Types
      • Optical amplifiers
      • Light sources and transmitters
      • Photodiodes and receivers
      • Optical communication systems
      • The Physics of Optical components
      • Light-Matter and Light-Matter-Light

      Learning Objectives:

      • Standard Single Mode Fiber
      • Dispersion Shifted Fiber (DSF)
      • Dispersion-compensating fiber (DCF)
      • Non-Zero Dispersion Shifted Fiber (NZ-DSF
      • Positive Dispersion SMF
      • Dispersion Compensation Unit (DCU)

      Learning Objectives:

      • Optical Networking and DWDM
      • Optical Network Breakthroughs
      • Special Fibers
      • S, C and L Bands
      • Optical Components
      • Optical Spectral Filters and Gratings
      • Optical Demultiplexers
      • The Erbium-Doped Fiber Amplifier (EDFA)
      • The Tunable Laser Diode Operating at 1550 nm
      • In-Fiber Bragg Grating
      • Light Sources
      • Optical Cross-Connects
      • Optical Add-Drop Multiplexers
      • DWDM and SONET

      Learning Objectives:

      • DWDM Anatomy
      • DWDM Impairments
      • Multiwavelength Transmitters
      • Multichannel Receivers
      • DWDM Optical Amplifiers
      • Wavelength Converters
      • Modal Effects
      • Scattering Effects
      • Miscellaneous Effects

      Learning Objectives:

      • Spectrum
      • Availability, Occupancy, Efficiency
      • Bandwidth & Distance Limitations
      • Noise, Dispersion, Non-linearities

      Learning Objectives:

      • Wavelength Adapter (or transponder)
      • Wavelength Converter
      • Precision Wavelength Transmitters (ITU wavelength)

      Learning Objectives:

      • Optical Filters
      • Optical Couplers
      • Optical Power Attenuators
      • Polarizer and Rotators
      • Optical Isolators and Circulators
      • Optical Multiplexers and Demultiplexers
      • Optical Cross Connects (OCXs)
      • Optical Add Drop Multiplexers
      • Optical Equalizers
      • Light Sources
      • Laser Beams
      • Modulators
      • Photodetectors and Receivers
      • Optical Amplifiers
      • Wavelength Convertors
      • Optical Phase-Locked Loops
      • Ring Resonators
      • Optical Attenuators
      • Optical SNR

      Learning Objectives:

      • Channel spacing of 100GHz and 50GHz
      • DWDM Demux
      • Mux / Demux Technology
      • Thin film filters
      • Fiber Bragg gratings
      • Diffraction gratings
      • Arrayed waveguide gratings
      • Fused biconic tapered devices
      • Inter-leaver devices

      Learning Objectives:

      • A Typical Optical Amplifier
      • Doped Fiber Amplifiers
      • Erbium Doped Fiber Amplifiers (EDFA)
      • Raman Fiber Amplifiers
      • Semiconductor Optical Amplifiers (SOA)

      Learning Objectives:

      • Optical Systems and Components Analysis
      • Optical Transmitters: Lasers
      • Modulation: Direct and External
      • Optical Receivers: Photodetecters
      • Couplers and Circulators
      • Cavities and Filter
      • Complex Components: Transponders
      • Optical Switches
      • Mechanical Switches
      • Acousto-Optical Switches
      • Micro-mechanical switches (MEMS)
      • Electro-Optical and Thermo-Optical Switches
      • Bubble Technology
      • Liquid Crystal Switches
      • Hologram-based Switches
      • Factors That Affect System Design
      • Effect of Chromatic Dispersion

      Learning Objectives:

      • Engineering a DWDM link
      • Power Budget Design
      • What are the factors?
      • Digital Modulation Formats
      • Fiber Impairments
      • Loss
      • Dispersion
      • Nonlinear Effects (SPM, XPM, FWM, Raman)
      • Polarization Dependent Effects (PDL and PMD)

      Learning Objectives:

      • Component conformance tests
      • Parameter tests on optical fibers
      • System installation tests
      • System optimization tests
      • System acceptance tests


      You can enroll for this classroom training online. Payments can be made using any of the following options and receipt of the same will be issued to the candidate automatically via email.
      1. Online ,By deposit the mildain bank account
      2. Pay by cash team training center location

      Highly qualified and certified instructors with 20+ years of experience deliver more than 200+ classroom training.

      Contact us using the form on the right of any page on the mildaintrainings website, or select the Live Chat link. Our customer service representatives will be able to give you more details.

      You will never miss a lecture at Mildaintrainigs! You can choose either of the two options: View the recorded session of the class available in your LMS. You can attend the missed session, in any other live batch.

      We have a limited number of participants in a live session to maintain the Quality Standards. So, unfortunately, participation in a live class without enrollment is not possible. However, you can go through the sample class recording and it would give you a clear insight about how are the classes conducted, quality of instructors and the level of interaction in a class.

      Yes, the access to the course material will be available for lifetime once you have enrolled into the course.

      Just give us a CALL at +91 8447121833 OR email at info@mildaintrainings.com


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