FTTx/FTTH networks and PON technology - all for beginners from Udemy

The course aims to train new network technicians and engineers or to improve and update the different network models, new technologies and how to make our ODN scalable for the different PON families and for all services.

The different models of FTTX networks (FTTX – FTTB – FTTC – FTTN) will be shown, and the entire PON family including the latest technologies in the approval stage.

MODULE 1 - WDM technologies are detailed and explained

Light and wavelength.

The electromagnetic spectrum and infrared light.

Concepts and characteristics of

Optical Attenuation.

Splitters.

· Theory of optical transmission:

Explains how optical transmission works

Fundamentals of signal digitization.

How optical transmission works.

Optical Transmission Media, Fiber Optic.

Chromatic dispersion.

· We know the Materials:

The materials and elements involved in optical links are presented and described.

Optical fibre wires.

Arc fusion splicer.

Mechanical splices.

Connectors and couplers.

MODULE 2 -

FTTx family (

FTTx network structure.

FTTx networks with Balanced splitter.

FTTx networks with unbalanced splitter.

Protected FTTx networks (1:1 and 1+1) Partial and complete protection.

ODN Components.

· PON technology:

We know PON technology, how it transmits and how it labels and links services in the point multipoint network.

History of Technology until the current 50G-PON..

PON technology communication method.

How TDM and TDMA work.

GEM encapsulation protocol.

PON frame structure.

Service configuration model over PON.

Analysis of capacities and concurrencies.

Interoperability and coexistence.

· HFC versus FTTH:

Complete detail of advantages and disadvantages of both networks, design, construction, maintenance and growth.

Advantages and disadvantages of HFC and FTTH Design.

Advantages and disadvantages of HFC and FTTH Deployment and Growth.

Advantages and disadvantages of Maintenance in HFC and FTTH networks.

MODULE 3 -

Type of Network (underground, aerial or hybrid).

Type of services.

Depending on the density of the region.

Type of FTTx Network to use (

Network Penetration (Total or Deferred).

Growth Plan.

HUB Technology (

· Network Topologies:

We analyze all possible FTTx network topologies

Balanced and Unbalanced network topology.

Calculation of links in both networks.

Topologies for residential services.

Topologies with MDUs.

Topology including corporate services.

· Delayed network penetration:

Detail of the different deployment and design models with partial penetration, deployment design and 100% growth.

· MDUs:

Detail of how the connection and internal distribution of these sites is carried out.

Building design models.

Complex design model.

· Considerations of Aerial networks:

The importance of surveying and recognizing obstacles to generate a real design

Obstructions of Electrical elements - Electrical Network.

Other obstructions to the pass of cables, posters, roofs and balconies.

Avenues, Roads and Routes or Highways, definition of intersections and natural limits of the network.

Distance between support posts.

Specific case of over-dated wiring (Example Salta/Capital/Argentina).

What's inside

Learning objectives

How an optical transmission network works.
The different models of fttx networks, concepts and recommendations for the best design.
Historical and new generation pon technologies.

How a pon network works, protocols, packages and service model.
Fttx network interoperability.
Materials science in optical networks.

How an optical transmission network works.
The different models of fttx networks, concepts and recommendations for the best design.
Historical and new generation pon technologies.
How a pon network works, protocols, packages and service model.
Fttx network interoperability.
Materials science in optical networks.

Syllabus

Optical Transmission theory

Introduction

Optical Theory

Optical Transmission Theory

Knowing Fiber Optical Cables

Questionnaire Module 1

Questionnaire 2 Modulo 1

FTTx Network and PON Technology

Questionnaire 2 Module 3

Knowing FTTx Networks

XPON Technologies

FTTH versus HFC

Questionnaire 1 Module 2

Questionnaire 2 Module 2

Questionnaire 3 Module 2

FTTx Network Models

Network Topologies

Deferred Penetration

MDUs Models

Considerations for aerial Networks

Questionnaire 1 Module 3

Questionnaire 3 Module 3

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Covers WDM technologies, which are essential for understanding how data is transmitted over optical fibers in modern communication networks

Explores the advantages and disadvantages of HFC versus FTTH networks, offering insights into deployment, growth, and maintenance considerations

Details network topologies, including balanced and unbalanced configurations, which is helpful for designing efficient and reliable FTTx networks

Examines considerations for aerial networks, including obstacle recognition and distance between support posts, which is crucial for practical deployments

Includes a discussion of 50G-PON, which is a cutting-edge technology that may not be widely deployed yet, but is important for future-proofing network designs

Features questionnaires at the end of each module, which allows learners to test their knowledge and reinforce key concepts

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in FTTx/FTTH networks and PON technology - all for beginners with these activities:

Review Optical Transmission Fundamentals

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Solidify your understanding of optical transmission principles before diving into FTTx networks. This will provide a strong foundation for understanding how data is transmitted over fiber.

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Review basic concepts of light and wavelength.
Study the principles of optical signal transmission.
Practice problems related to optical attenuation and dispersion.

Read 'Understanding Fiber Optics' by Jeff Hecht

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Gain a deeper understanding of fiber optic technology. This book provides a comprehensive overview of the subject, complementing the course material.

View Melania on Amazon

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Obtain a copy of 'Understanding Fiber Optics' by Jeff Hecht.
Read the chapters related to fiber optic principles and network architectures.
Take notes on key concepts and definitions.

Follow online tutorials on PON configuration

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Learn practical skills in configuring PON equipment. This will help you apply the theoretical knowledge gained in the course.

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Search for online tutorials on configuring OLTs and ONUs.
Follow the tutorials step-by-step, practicing the configuration commands.
Document the configuration process and troubleshoot any issues encountered.

Four other activities

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Create a diagram of a typical FTTx network

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Visualize the architecture of an FTTx network. This will help you understand the different components and their relationships.

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Research different FTTx network topologies.
Create a diagram using a drawing tool or presentation software.
Label all the key components, such as OLT, ONU, splitters, and fiber cables.
Write a brief description of each component's function.

Design a PON network for a small community

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Apply your knowledge to a practical design scenario. This will help you solidify your understanding of FTTx network planning and deployment.

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Gather requirements for the community, such as the number of subscribers and bandwidth needs.
Select appropriate PON technology and network topology.
Design the network layout, including the location of OLTs, ONUs, and splitters.
Calculate the link budget and ensure that the signal strength meets the required levels.
Document the design and justify your choices.

Read 'FTTx Networks: Technology and Deployment' by John N. Senior

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Expand your knowledge of FTTx deployment strategies. This book provides a comprehensive overview of the practical aspects of deploying FTTx networks.

View Putting Knowledge to Work on Amazon

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Obtain a copy of 'FTTx Networks: Technology and Deployment' by John N. Senior.
Read the chapters related to network design, planning, and implementation.
Take notes on key considerations for deploying FTTx networks.

Prepare a presentation on 50G-PON technology

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Deepen your understanding of the latest PON technology. This will help you stay up-to-date with the advancements in the field.

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Research 50G-PON technology and its advantages over previous generations.
Prepare a presentation outlining the key features and benefits of 50G-PON.
Include diagrams and illustrations to explain the technology.
Practice the presentation and be prepared to answer questions.

Career center

Learners who complete FTTx/FTTH networks and PON technology - all for beginners will develop knowledge and skills that may be useful to these careers:

Network Technician

A Network Technician installs, maintains, and repairs network infrastructure, including fiber optic systems. This course directly trains new network technicians on how FTTx networks operate, including different models and PON technology. It also covers optical transmission theory and materials science, which are crucial elements for this technician. The course also details different FTTx network topologies and how to perform network penetration. This course helps those seeking a job as network technician to understand the nuances of modern fiber optic networks.

See salaries and explore the career path for Network Technician

Fiber Optic Technician

Fiber Optic Technicians specialize in the installation, maintenance, and repair of fiber optic cables and systems. This course provides a thorough foundation in optical transmission theory, materials used in fiber optics, and the different models of FTTx networks including PON technology. The course's detailed exploration of optical fiber wires, fusion splicers, and connectors is directly applicable to the daily work of a Fiber Optic Technician. This course is especially helpful because it focuses on the specific technologies and materials that Fiber Optic Technicians need to know.

See salaries and explore the career path for Fiber Optic Technician

Optical Network Designer

An Optical Network Designer plans and designs the architecture of optical networks such as FTTx and PON. This course offers a complete overview of FTTx network models and PON technology, which is fundamental for optical network design. The course's detailed exploration of network topologies, including balanced and unbalanced networks, is particularly helpful for this role. This course helps optical network designers to make informed decisions about network deployment and configuration, and should be considered essential to their professional development.

See salaries and explore the career path for Optical Network Designer

Network Engineer

A Network Engineer plans, designs, and oversees the implementation of network systems, including fiber optic networks. This course helps build a foundation in FTTx and PON technologies, which are crucial for the operation of modern networks. Network engineers need to understand network topologies, signal transmission, and material selection, all of which are presented in this course. This course is ideal for aspiring network engineers because it provides a deep dive into the technologies they will be working with on a daily basis.

See salaries and explore the career path for Network Engineer

Telecommunications Engineer

A Telecommunications Engineer designs and manages telecommunications systems that use fiber optic infrastructure. This course's comprehensive overview of FTTx and PON technologies is vital for a telecommunications engineer, covering WDM technologies, optical transmission, and network topologies. The course’s focus on FTTx network models, including balanced and unbalanced splitters, is also useful for this role. Telecommunications engineers should take this course because it provides a deep understanding of the technology they will rely on in their career.

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Field Service Technician

Field Service Technicians install, maintain and repair equipment at customer sites. For those working with fiber optic networks, this course provides critical insights into FTTx networks and PON technology, including various network designs and components. The course's hands-on approach to materials science, splicing, and connectors is very relevant to the practical aspects of the role. This course may be useful to field service technicians who want to expand their knowledge of fiber optic networks.

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Cable Splicer

A Cable Splicer joins and repairs fiber optic cables. This course provides an important understanding of optical fibers, the various elements involved in optical links, and the use of arc fusion splicers and mechanical splices, all of which are vital to the role. The course also provides a foundation in optical theory, which will help with understanding the materials used. Cable splicers may find this course useful for enhancing their understanding of the work they do.

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Installation Technician

An Installation Technician sets up and configures equipment for tech systems. This course covers a variety of topics such as the different models of FTTx networks, PON technology, and materials used in fiber optics. The course also discusses how to connect and configure network components, which are all relevant to the role of an installation technician. This course may be useful for those installation technicians who want to be competent in the installation of fiber optic networks.

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Project Manager

A Project Manager oversees projects, and it can be especially useful to understand technology when the project manages technicians and engineers. This course provides a good understanding of FTTx networks and PON technology, giving project managers insight into the complexities of fiber optic projects. The course covers network topologies, design considerations, and the differences between HFC and FTTH networks. This course may be valuable in helping project managers better understand the technical details of projects they manage.

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Systems Integrator

A Systems Integrator works on combining different IT systems to work as a whole, and this can include networking infrastructure. This course is helpful in detailing how FTTx and PON networks function, allowing better integration with other systems. It includes discussion of FTTx network models, PON communication methods, and network topologies. A systems integrator may find the course useful in understanding how fiber optic networks are designed and how to connect them with other network components.

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Network Support Specialist

A Network Support Specialist troubleshoots and resolves network issues. This course helps build a knowledge of FTTx networks and PON technology, which is useful because these are common components of modern networks. The course also covers optical transmission theory and materials, which can help a support specialist understand the causes of network problems. This course may be useful for those network support specialists that want to expand their understanding of fiber optic infrastructure.

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Technical Sales Representative

A Technical Sales Representative sells technologically complex solutions to clients. This course is helpful because it provides a comprehensive overview of the technologies that underpin fiber optic networks. The course covers the different models of FTTx networks, PON technologies, and the materials used in optical links, all of which allows a technical sales representative to better communicate the value of their products or services. This course may be useful for those selling solutions in this space.

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Technical Writer

A Technical Writer creates documentation for technical products and services. This course can be useful in gaining a better understanding of FTTx networks and PON technology, allowing a technical writer to better comprehend and explain these systems. The course covers a variety of topics, including network models, optical transmission, and material science. This course may be valuable for technical writers who work in the telecommunications industry.

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IT Consultant

An IT Consultant provides guidance on how to use technology to meet business objectives. This course helps build a solid understanding of FTTx and PON technologies, which is helpful in advising clients on network infrastructure. The course's discussion of network topologies, service models, and the benefits of different technologies, such as FTTH versus HFC, are all valuable in an advisory role. An IT Consultant may find the course useful in providing more complete telecommunications solutions.

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Data Analyst

A data analyst analyzes data to find patterns and trends. While this course focuses on fiber optic technology, an understanding of it can be useful in a data analyst role that may deal with network performance data.The course covers the structure of FTTx and PON networks, which may help with better analysis of network data. A data analyst may find the course useful if they deal with telecommunications or network performance data.

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FTTx/FTTH networks and PON technology - all for beginners

What's inside

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