course | Advanced Fiber Optic Networks Installation & Design in Power System Applications
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EEC-1902 | Advanced Fiber Optic Networks Installation & Design in Power System Applications
Course Sector : Electrical Engineering
| Duration | Date from | Date to | Course Venue | Course fees | Book a course |
|---|---|---|---|---|---|
| 5 Days | 2025-05-26 | 2025-05-30 | Abu Dhabi | $4,250 | Book now |
| 5 Days | 2025-09-15 | 2025-09-19 | Dubai | $4,250 | Book now |
| 5 Days | 2025-12-29 | 2026-01-02 | Dubai | $4,250 | Book now |
Course Introduction
Fiber Optic Network
Fiber Optic Network Design refers to the specialized processes leading to a successful Installation and Operation of a Fiber Optic Network. It includes determining first, 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. Designing a fiber optic network usually also requires interfacing to other networks which and may be connected over copper cabling and wireless.
Course objective
- Knowledge of Network Topologies
- Understanding the International Standards TIA & ISO
- Understanding the Fiber Optic Specifications
- Choose the proper and Cost Effective Components
- Preparing Fiber Optic Plant Documentations in Power Project
- Preparing Plant Link Loss Budget Analysis and Calculation
- Studying True Examples of Power Applications
- Determine Effective Bandwidth & Bite Rate of Multimode Fiber
- Preparing the Fiber Cable end and Terminating the Fiber Optic Cables
- Also Splice the Fiber Optic Cables
Course Outline | DAY 01
Module (01) Optical Physics
- 1.1 Reflection
- 1.2 Refraction
- 1.3 Interference
- 1.4 Attenuation
- 1.5 Dispersion
- 1.6 Refractive Index
- 1.7 Numerical Aperture
- 1.8 Cone of Acceptance
- 1.9 Special Width
Module (02) Link Characteristics
- 2.1 Premises
- 2.2 Metro
- 2.3 Long Haul
Module (03) SM Fiber Optic Standards
- 3.1 TIA
- 3.2 ISO
Course Outline | Day 02
Module (04) Loss Types and Loss Budget Calculation
- 4.1 Fiber Insertion Loss
- 4.2 Fiber Reflection Loss
- 4.3 Splice Loss
- 4.4 Termination Loss
Module (05) Power Budget Calculation
- 5.1 Transmitter Power
- 5.2 Receiver Sensitivity
- 5.3 Power Budget
Module (06) MM Fiber Bite Rate Calculation
- 6.1 OM1 6.2 OM2
- 6.3 OM3 6.4 OM4
Course Outline | Day 03
Module (07) Fiber Optic Cable Types & Applications
- 7.1 Indoor Cables
- 7.2 Underground Cables
- 7.3 Aerial Cables
- 7.4 Sub-Marine Cables
Module (08) Fiber Optic Cable Types & Specifications
- 8.1 Environmental Specifications
- 8.2 Mechanical Specifications
- 8.3 Optical Specifications
Module (09) Optical Transceiver used in Power System
- 9.1 Media Converter
- 9.2 SFP
- 9.3 Built-in Optical Port
Module (10) Optics
- 10.1 Lasers & LED
- 10.2 Optical Detectors
- 10.3 Optical Amplifier
- 10.4 Optical Switches
Course Outline | Day 04
Module (11) Fiber Optic Project
- 11.1 Site Survey
- 11.2 Network Design
- 11.3 Installation
- 11.4 As Built
Module (12) Fiber Optic Design
- 12.1 Basic Layout for the Network
- 12.2 Documentations
- 12.3 Planning the Networks
- 12.4 Choose the Components
- 12.5 Preparing the Bill of Quantities (BOQ)
- 12.6 Design Review
- 12.7 Cost Calculation
- 12.8 Define Testing Requirements
- 12.9 Writing Specifications for the Cable Plant
- 12.10 The Right of Way
- Module (13) Fiber Optic Installation
- 13.1 Cable Pulling
- 13.2 Direct Buried
- 13.3 Cable Air Blowing
Module (14) Fiber Optic Splicing & Termination
- 14.1 Fiber Optic Mechanical Termination
- 14.2 Fiber Fusion Splicing
Course Outline | Day 05
Module (15) Fiber Optic Testing
- 15.1 Loss Testing
- 15.2 VFL
- 15.3 OTDR
- 15.4 Identifier
- 15.5 Inspection Microscope
- 15.6 Guideline of Testing & Troubleshooting
Module (16) Fiber Optic in Advanced Power Applications
- 16.1 Power Control
- 16.2 SCADA System
- 16.3 Overhead Lines
- 16.4 Underground Power System
- 16.5 Submarine Power System
- 16.6 Protective Relaying Systems
- 16.7 ARC Protection Relay
- 16.8 Transformer Heat Monitoring
- 16.9 Power Cables Real Time Thermal Monitoring
- 16.10 Distributed Temperature Sensing
- Module (17) Fiber Optic in Other Applications
- 17.1 Oil & Gas
- 17.2 Telecommunication
- 17.3 IT
- 17.4 Industry
- 17.5 FTTX
BOOST’s Professional Attendance Certificate “BPAC”
BPAC is always given to the delegates after completing the training course,and depends on their attendance of the program at a rate of no less than 80%,besides their active participation and engagement during the program sessions.
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