Fiber Optic Technician Diploma in Swat, Mardan, Sawabi and Peshawar
2 years ago Learning Peshawar 340 views Reference: 32548Location: Peshawar
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Fiber Optic Technician Course in Islamabad, Rawalpindi, Lahore, Faisalabad, Swat, Sawabi, Mardan, Peshawar, Karachi and Pakistan
This course will aim to introduce students to the fundamentals of fiber optic communications, which constitute the backbone of the internet. The course will start with a refresher on the operation of key components needed for an effective fiber optic communication system, and then show how these components interact at a system level. Finally, the course will conclude with outlook for future research in extending the capabilities of these networks to higher bandwidths and quantum-secured communications.
Passive Optical Network, known as PON, rely on fiber optic cables to deliver video, data and voice signals. Gigabit PON (GPON) networks are currently the leading form of Passive Optical Networks (PONs). Compared to the standard copper wire in most distribution networks, GPON networks are 95% more energy efficient – they use economical light signalization over fiber optic cable, as opposed to electrical signals over copper and coaxial cable. In addition to efficiency, Gigabyte Passive Optical Networks provide a low cost solution to adding new users by using optical splitters, which makes it easy to add and manage new customers, making GPON networks very desirable in populated areas.
This PON training is comprehensive and in-depth, so that you may get started with this PON technology as soon as possible. This course is designed to provide you with necessary functional knowledge possible in shortest possible time. GPON is a point-to-multipoint access network. Its main characteristic is the use of passive splitters in the fiber distribution network, enabling one single feeding fiber from the provider to serve multiple homes and small businesses.
GPON has a downstream capacity of 2.488 Gb/s and an upstream capacity of 1.244 Gbp/s that is shared among users. Encryption is used to keep each user’s data secured and private from other users. Although there are other technologies that could provide fiber to the home, passive optical networks (PONs) like GPON are generally considered the strongest candidate for widespread deployments. igabyte Passive Optical Network, known as GPON, rely on fiber optic cables to deliver video, data and voice signals. GPON networks are currently the leading form of Passive Optical Networks (PONs), and offer up to a 1:64 ratio on a single optical fiber, meaning, a single fiber from the OLT can deliver video, data and voice signals to up to 64 end users (or residences). GPON Network Components – Features & Advantages – A single fiber from the OLT can deliver video, data and voice signals to hundreds of end users, and understanding a GPON Network is easier than you think. Take a closer look at how a GPON OLT device deployed in a typical GPON network delivers services to end users by way of a GPON ONT installed inside the home.
COURSE BENEFIT
How to implement fiber optic technology.
How to explore fiber structure and use colour coding to identify fiber cores.
How to implement fiber optic health and safety on site
How to strip fiber cables
How to practically identify fiber types & limitations
How to interpret fiber cable specifications
How to manage fiber optic closures
How to fusion splice fiber cores
How to minimize fiber optic insertion & return losses
Using optical sources to plan fiber datalinks
How to identify fiber optic connectors & their specifications
How to standardly manage fiber cables in data centre
How to test fiber cables using FOA references
How to use a visual fault locator (VFL) to test fiber cables stripping interpreting
How to use a fiber optic microscope to test fiber connectors
How to use an optical light test set (light source & power meter) to test fiber cables
How to design Fiber To The Home (FTTH) Networks
How to analyze standardly optical link budget for projects
How test and commission fiber cables with Optical Time Domain Reflectometer [OTDR]
COURSE OUTLINE
Health & safety
Optical fiber, the hazards, laser radiation
Fiber Optical transmission theory
Basic concepts of light, light transmission through optical fiber, elements in optical links, features & construction, advantages & disadvantages
System attenuation Micro bending, temperature & alignment, Fresnel reflection, numerical aperture, concentricity & eccentricity
Fiber Optic Cable types & specification
Fiber cables for specific applications, cable construction, OM1, OM2, OM3, OS1, specification & management
Optical passive connectors
APC, ultra/super PC, single mode & multimode connectors
Tooling & fiber preparation
Hand tools, microscopes, polishing tools, stripping & cleaning
Fiber connectors & termination
ST, SC & S.F.F connectors, epoxy, pre-filled & anerobic termination, common usage, termination procedures, ‘pigtail’ splicing
Fiber installation techniques
Cable & hardware, fibre cable joint enclosures
Cable & fiber preparation, various organization trays
Fusion splicing:
Different fusion splicers; ‘V’ groove, semi & fully automatic Fiber testing & fault-finding
Optical Time Domain Reflectometer (OTDR) Testing, result interpretation, system requirements
Introductory OTDR Testing
Advanced OTDR Testing Course
OTDR Trace Analysis