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FIBER OPTIC SYSTEM

Training Syllabus:
FIBER OPTIC SYSTEM

TRAINING OBJECTIVES :
1. Measuring fiber characteristics
2. Verifying and troubleshooting with lost test set and OTDR
3. Building, testing and repairing connectors and splices
4. Selecting the appropriate fibers and cables to meet your needs
5. Identifying and working around fiber-optic installation problems
6. Predicting design performance and verifying after the actual installation
7. Making sense of OTDR traces

IN THIS TRAINING, YOU WILL LEARN HOW TO :
1. Implement fiber-optic technologies within your organization
2. Match your fiber-optic system to your communications needs
3. Test, troubleshoot, maintain and upgrade fiber-optic systems
4. Perform acceptance and maintenance tests using a loss set and OTDR
5. Fabricate fiber-optic splices and connectors
6. Ensure that design specifications will work in the “real world”

WHO SHOULD ATTEND THIS TRAINING? :
Technicians, installers, supervisors, engineers, designers and contractors

PREREQUISITES :
The experience in telecommunications environment is the prerequisite those who seek this course program. In this course, you gain the practical skills and confidence to implement fiber-optic technologies in your organization. Through extensive hands-on exercises, you learn to build, test, troubleshoot and maintain fiber-optic systems

TRAINING MATERIAL OUTLINE:

1. Fiber Types and Materials
• How fibers guide light
• Differentiating between core and cladding
• Index of refraction
• Light rays and light waves
• Singlemode fiber (SMF) and multimode fiber (MMF)
• How SMF and MMF are different
• Choosing fiber based upon your communication needs
• Trading ease of use for highest performance
• Planning for the future
2. Specifying Fibers
• Loss and attenuation of fibers
• Understanding how loss is measured
• Inherent loss factors: scattering and absorption
• The effect of light color on loss
• Using a loss test set
• Budgeting the loss
• Bandwidth: the capacity for information
• Causes of distortion
• Dispersion
• Modes
• When bandwidth is an issue
• Physical sizes of fiber
• Why fibers have different sizes
• The impact of numerical aperture
• Dealing with manufacturing tolerances
3. Using Fiber Optic Transmitters and receivers
• Light sources
• 1st, 2nd and 3rd “windows”
• LEDs vs. lasers
• Wavelength division multiplexing
• Detecting light with photodiodes
• Wavelength agility
• How to factor in speed
• What to look for in test instrumentation
• Responsivity : the calibration factor
4. Designing Cable Plants
• Indoor cable
• Structural issues: connection, identification and installation
• Abiding by the fire code
• Why tight buffer is common
• Outdoor cable
• Underground vs. aerial cable
• Loose tube
• Ribbon
• Slotted core
• Avoiding moisture contamination

• Benefiting from structured cabling options
• Surveying structured cabling standards
• Vendor interpretations
5. Verifying Cable Installations: Testing Tips and Techniques
• Acceptance testing
• Testing continuity: the first step
• Examining cable plant loss
• Locating mismatch problems
• Troubleshooting fiber systems
• Knowing when to troubleshoot
• Common steps to identify the problem
• Sources of difficulty you should know
6. OTDR : Optical Time Domain Reflectometer
• Testing fiber paths with OTDR
• Using the OTDR before, during and after cable
• installation
• Safety concerns
• Interpreting OTDR traces
• Capabilities and limitations of OTDR
• Relying on your own interpretation
7. Selection Connectors and Splices
• Quality factors
• Throughput and return loss
• Cost differentials
• Durability
• Fresnell reflection and index matching
• Mechanical and fusion splices
• When to consider fusion splicing
• Pros and cons of mechanical splicing
• Identifying different types of connectors (ST, SC, FC, SMA, Biconic, D4, Non-ontact and physical contact/PC)
8. Building Connectors and Splices
• Practical fiber termination
• Installing ST connectors
• Joining fibers with mechanical splices
• Tuning splices
• Repairing connectors
9. Cutting Edge Technologies
• Advanced fiber-optic components
• Fiber couplers
• Optical amplifiers
• Wavelength Division Multiplexers (WDM)
• Advantages of specialty fibers

VENUE : Kagum Group Hotel Bandung (Golden Flower, Banana Inn, Serela, Gino Feruci), Amaroossa Hotel, Noor Hotel, Grand Setiabudi Hotel, dll

TRAINING DURATION : 3 days

TRAINING TIME :

Januari 2024Februari 2024Maret 2024April 2024
3 – 5 Januari 20245 – 7 Februari 20244 – 6 Maret 20241 – 3 April 2024
8 – 10 Januari 202412 – 14 Februari 202412 – 14 Maret 202422 – 24 April 2024
15 – 17 Januari 202419 – 21 Februari 202418 – 20 Maret 202429 April – 1 Mei 2024
22 – 24 Januari 202426 – 28 Februari 202425 – 27 Maret 2024
29 – 31 Januari 2024
Mei 2024Juni 2024Juli 2024Agustus 2024
6 – 8 Mei 20243 – 5 Juni 20241 – 3 Juli 20245 – 7 Agustus 2024
13 – 15 Mei 202410 – 12 Juni 20248 – 10 Juli 202412 – 14 Agustus 2024
20 – 22 Mei 202419 – 21 Juni 202415 – 17 Juli 202419 – 21 Agustus 2024
27 – 29 Mei 202424 – 26 Juni 202422 – 24 Juli 202426 – 28 Agustus 2024
29 – 31 Juli 2024
September 2024Oktober 2024November 2024Desember 2024
2 – 4 September 20241 – 3 Oktober 20244 – 6 November 20242 – 4 Desember 2024
9 – 11 September 20247 – 9 Oktober 202411 – 13 November 20249 – 11 Desember 2024
16 – 18 September 202414 – 16 Oktober 202418 – 20 November 202416 – 18 Desember 2024
23 – 25 September 202421 – 23 Oktober 202425 – 27 November 202426 – 28 Desember 2024
28 – 30 Oktober 2024

INVESTMENT PRICE/PERSON :
1. Rp 6.500.000/person (full fare) or
2. Rp 6.250.000/person (early bird, payment 1 week before training) or
3. Rp 5.950.000/person (if there are 3 or more participants from the same company)

FACILITIES FOR PARTICIPANTS:
1. Training Module
2. Flash disk contains training material
3. Certificate
4. Stationeries: NoteBook and Ballpoint
5. T-Shirt
6. Backpack
7. Training Photo
8. Training room with full AC facilities and multimedia
9. Once lunch and twice coffeebreak every day of training
10. Qualified instructor