Telecom Training & Consultancy Experts
How fiber optic network planning can meet the day to day demand for high-speed networks. Fiber optic network planning refers to the specialized processes leading to a successful installation and operation of a fiber optic network. It includes determining the type of communication systems which will be carried over the network, the geographic layout (premises, campus, outside plant (OSP, etc.), the transmission equipment required and the fiber network over which it will operate, power loss budget etc. OSP Design includes planning, development and documentation of workable and/or buildable OSP cabling systems
Route survey is carried out prior to designing the OFC network to obtain the following essential data like right of way demarcation, soil strata, existing Underground utilities, Road / Rail / Bridge / River / Canal Crossings, BOQ estimation, any other criticalities.
This course is for any executive involved in Optical fiber network survey, planning and infrastructure design or management. It has been designed to ensure that the fiber professional understands not only the technology available now but also for new and emerging technologies. The choice of route, infrastructure and components are critical to ensure economic viability of a project and the same is true for future up-gradation also. The course includes typical case study to provide in-depth understanding of the role of the project manager from planning software design table to the field executives.
The course is suitable for a professional having thorough understanding of Optical fiber cable for long distance network and working experience in Fiber to The Home (FTTH) technology.
Upon completion of this training, you will be able to:
Fiber network planning is important in designing network. Route planning is used to decide the route to take from one place to another.
Extensive route survey is carried out prior to designing the OFC network to obtain the following essential data. Right of Way demarcation, Soil strata, Existing Underground utilities, Road / Rail / Bridge / River / Canal Crossings, BOQ Estimation, any other criticalities.
Students will prove their competence in the following:
This course is for anyone involved in fiber optic communications from those specifying and designing through to actual installation. It has been designed to ensure that the student understands the emerging and ever increasing market for fiber optic communications, how fiber transmission 'works' and all the components involved.
The workshop will have a thrust on learning Fiber optic basics and its various industry applications leading towards the evolution of long distance communication.
Fiber Optics And Industry Fiber Optics .
Information Carrying Capacity, Bps, Baud Rate & Wavelength Division Multiplexing.
The Decibel, Optical Power Loss, Loss Budget
Wide Bandwidth, The Laser Source -Transmission Rates, System Speeds.
Loss Of Information, -Repeater Spacing, Fiber Security , Nuclear Hardness, Weight And Size Comparisons.
Electromagnetic Spectrum, Light Particle Waves, Led, Laser Light Sources, Colours Of Light. Light Rays, Reflection, Refraction, Prism, Fresnel Reflections -Index Of Refraction, Common Indices, Angles Of Light Transmission
Characteristics Of Light Propagation -Fiber Sizing Core And Cladding Diameters, Fiber Classifications, Modes, Overfilled, Under Filled Fibers, Modal Dispersion -Refractive Index Profiles, Step And Graded Index Fiber, Single Mode Fiber
Spectral Width, Light Scattering, Optical Energy Absorption, Micro Bends
Fiber Tensile Strength, Bend Radius, Fiber & Laser Safety -Cable Packaging, Parts of The Cable, Strength Members, Simplex, Duplex Cables, Multi-fiber Cables.
Cable Lengths, Cable Specifications, Tolerances, -Colour Coding, Installation And Static Loading, Hybrid Cables
Dos and Donts while working with fibers.
This course is designed to give participants a detailed insight on the Fundamentals of FTTH. Throughout the course, participants will start by learning the basics of each FTTH starting from an introduction to architectural principles of Access Networks including the different Topologies, site types, Fiber Termination Points and any factor influencing infrastructure deployment. This course is very extensive on “practice”. Participants will be able to practice ONTs setup and configuration, identify deviations for troubleshooting and understand how bandwidth is allocated and consumed. Moreover; participants will learn how to provision services and their assurance (Quality of Experience).
The workshop will have a thrust on learning FTTH basics, terminology and its setting up and implementation.
In order to gain the Skills required for carrying out the following activities, trainees will get to learn:-
The workshop will have a thrust on facing multifarious challenges, involving everything from strategic planning to final operations in FTTH projects. FTTH has been proven to be the shining star of the NGA (Next Generation Access) family, and provides an excellent platform for high or ultra-high speed access technologies.
History of optical fiber, Optical fiber construction, Optical fiber characteristics, including but not limited to: attenuation, return loss, reflection loss, scattering, absorption, refractive index
Key aspects of Mechanical and Fusion Splicing including methodology and Health & Safety, Factors affecting splice quality,Preparation of cables for splicing, Risks to heath during splicing, Hazard minimisation/Use of PPE, Performing the splice, Protecting the splice
Use of Calibrated Light Source, Use of Fiber Optic Light Power Meter,Optical Attenuator and its applications, OTDR and it’s working principles
Understand FTTH Standards including IEC, ITU, GR as applicable to the local National environment GEPON, GPON, BPON, APON.
Options available for installation, new components developed to facilitate FTTx installations, Multi-dwelling units, Heights and Aerial Installations, Air Blown Fiber Blowing, Micro ducts, boundary joints, straight joints, branch joints, boundary connections, ETP terminations.
Connector care, Inspection instructions, Damp cleaning, Use of optical loss test sets, Use of an OTDR, Clip-on fibre identifier, 1310/1490/1550 selective power meter with through mode,
Optical Distribution Frames, Street cabinets, Connectors, Patch cords and Pigtails, Optical splitters, Optical Line Terminal, Optical Network Termination.
Deployment planning guidelines, Site control and installation operation planning, General management considerations, General considerations about constructions and equipment, General considerations related to safety, General considerations about cabling methods
In-home wiring issues, Ethernet wiring issues, Cable fault locating
safety information applicable to Optical fiber cable installation
Programme may be targeted for ITI Certified and Diploma Holders.
Good analytical skills, adaptation to new technologies, attention to details, problem solving skills and fair communication skills are required for the role.
IoT installation and service technician is responsible for on-site installation and configuration of IoT devices (nodes), setup of communication links between nodes and controller (gateway) and further to central servers or devices through external communication links on Wi-Fi, 3G/4G networks on GSM/CDMA. The technician also undertakes first level of DI/DR.
IoT installation and service technician is responsible for on-site installation of IoT devices, their configuration and establishing device communication as per the required protocol.
This course is designed to give participants a detailed insight on Routing & Switching Training and the course is designed to develop your expertise in installing, configuring, operating and troubleshooting midsize routing and switching networks. The course is aligned with Cisco routers and exams also it will raise your awareness of programming networks and VPNs, virtualization, interaction of cloud-based resources and your ability to prioritize and manage critical network traffic.
This course is designed to impart knowledge about detailed knowledge of Computer Networks, various protocols used in Communication, Managing and configuring Cisco Switches and Routers and various WAN technologies.
The workshop will have a thrust on learning Routing & Switching in CISCO Router along with terminology and its setting up and implementation.
Optical Connectors, Couplers and Distribution Frames is designed for people looking to work with communication Fiber Optics. The student participants will be able to visualize and understand the fundamental concepts and practical aspects of different type of optical connectors, couplers or adopters and fiber distribution frames. Why connectors needed? Basic parts and advantages. The Optical Distribution Frame products deliver the crucial elements of fiber cable management. Applications include Central offices, Data centers, Switching Centers, Cell Sites and more.
Upon completion of this training, you will be able to:
There are many occasions when it is necessary to connect a fiber optic cable to another item. It may be that the fiber optic cable needs to be connected to another cable, or to an electronic interface device where the optical signal is converted to an electrical signal or to a light source.
There is so many parts involved to make a connector. The ferrule, Connector body. Coupling device, Cable.
Fiber optic connectors (fiber optic connectors) come in a variety of formats. These different fiber optic connectors may be used in slightly different applications or under different circumstances, as each type has its own capabilities. FC, SC, ST, LC, MTRJ, E2000, MTP, etc.
There are many different types of fiber optic connector, so choosing the correct one can be confusing. Choosing the right type of fiber optic connector depends on the equipment and type of optical fiber you are installing.
A number of events can damage fiber optic connectors. Unprotected connector ends can experience damage by impact, airborne dust particles, or excess humidity or moisture.
With proper cleaning and polishing increases the life of the connector and minimize the losses.
As the growth of installed fiber optic, the management of optical transmission networks becomes more difficult. Basic functional requirements of any fiber distribution management system: terminations, splicing, slack storage, and housing of passive optical components.
Programme may also be targeted for Faculty as FDP or as workshop for the students of Diploma & above.
At the end the Programme ,the faculty will get exposed for mtce. & operation of optical Fibre Networks and get triggered with ideas enabling them to pursue their Field exposure.
The student participants will be able to visualize and understand the fundamental concepts and practical aspects of Optical Fibre Network mtce. & opretion field.Credible environment will be created for them to get expertise to complete the course with practical exposures.
The workshop will have a thrust on Fibre optic and its application using different Optical fibre cables and various industry applications leading towards the evolution of Fibre technology.
The concepts of basics of telecommunication and building blocks of telecom network, different multiplexing techniques, different types of Transport Network & Differentiate the different components of transmission network
To understand Fiber-Optic Applications, Basic optical fiber communication system, the Structure of an Optical Fiber & Principle of Operation – Theory.
Multimode and single mode step-index and graded-index fibers. Identify the two basic types of single mode step-index fibers. Outdoor cable and Indoor cable applications
To know about Refraction, Polarization, Attenuation, Dispersion, Bandwidth, Optical bands.
To Identify the different tools required for preparation for optical fiber able, Understand the functions of different tools, Understand the use of different instruments for testing of OFC.
To understand the planning of fiber optic network, carry preliminary survey of OF route select the suitable route carry out the detailed survey.
Know the soil classification, develop installation work plan and identify dependencies if any, determine the statutory permissions required and the relevant authorities involved, liaise with authorities and obtain relevant clearances/ municipal approvals, Understand the trenching, Understand the laying/construction practices, Back Filling and Dressing of the Trench
Know the importance of cable handling techniques, Understand cable placing techniques, Carry out Cable pulling and cable blowing, Use the figure-of-eight technique for cable pulling & Install the different types of indicator.
Understand the Different types of splicing methods, Preparing cable for splicing, identify the appropriate fibers to be joined based on color coding, and sequence, ensure clean environment for splicing operations, ensure cables are stripped off their protective coating, at areas where splicing has to be performed as per the standard process, Carrying out splicing operations, ensure appropriate splice protectors like heat shrink splice protectors are utilized to protect the splice
To know about the Use of different types of connectors, Understand the importance of FDF, Understand the use of splice closure.
Understand the Operation of OTDR, Use of OTDR in fault localization, Carryout the Testing of the splice through OTDR, Measure the cable length and total loss, Detect break point, Carryout the test using Power Meter
Condition based maintenance, Maintenance aspects of Optical Fibers, Preventive and corrective maintenance, Restoration method and procedure
Ensure cable id/ make and drum numbers are recorded for future fault localization, ensure OTDR finding are documented & summary of tests are shared with appropriate teams, obtain sign-off from the projects team and communicate status to NOC for cable integration, ensure that documents are available to all appropriate authorities to inspect
To understand the different safety precautions, Eye safety Bare fiber safety, General Health and safety rules
Fundamental theory of optical time-domain reflectometry, Specifications, Parameters, Set Up
OTDR, Power Meter, Light Source, Visual Fault Locator
Two Point method, LSA method
Pulse Width, Wavelength, Index of Refraction, Distance range, Averaging time
Connector and Splice Loss,Reflectance
Analysing, saving and Comparing traces
Functions and advantages