The document discusses Huawei's training for Dialog Regional Engineering Staff on optical fiber network projects. It covers Huawei's experience with turnkey optical fiber projects, construction methods for deploying cable infrastructure, fiber and cable types, network planning processes, field surveys, design planning, and construction steps. The training agenda includes topics such as optical fiber cable installation, technical concerns, and project management. Case studies of Huawei projects in various countries are also presented.
Data cables provide the medium to make connections between devices in modern fixed telecommunications networks. Physically, data cables are transmission lines that carry information in the form of electromagnetic signals from one node in a network to another, where the information needs to be demodulated, stored, forwarded, retrieved, processed, and/or interpreted. An important challenge in the networked world is to figure out which data cables best solve the data transfer problems at hand.
The presentation examines three common data cable formats: Twisted-pair wires, optical fibres, and coaxial cables. We will examine the physical and information-carrying properties of each cable type, practical installation and use considerations, and the conditions under which application of a given cable type is most appropriate. A very basic understanding of telecommunications concepts such as bandwidth, signal-to-noise ratio, and modulation is helpful, but not necessary, to follow the presentation.
Drivers for FTTx
Why fiber
Fiber feeds everything
Flavors of FTTX
Nuts and bolts – the components
Installation techniques
Network design configurations
Machines & Tool
FTTx Roll out /Delivery Mechanism
Outside Plant Fiber Optic Cable
Fibre entering in Building design
Aerial Cable Construction Tool
Spicing Machines & Other Tools
Structured Cabling Technologies for NetworkingTharindu Kumara
Structured cabling is building or campus telecommunications cabling infrastructure that consists of a number of standardized smaller elements (hence structured) called subsystems.(wikipedia)
Data cables provide the medium to make connections between devices in modern fixed telecommunications networks. Physically, data cables are transmission lines that carry information in the form of electromagnetic signals from one node in a network to another, where the information needs to be demodulated, stored, forwarded, retrieved, processed, and/or interpreted. An important challenge in the networked world is to figure out which data cables best solve the data transfer problems at hand.
The presentation examines three common data cable formats: Twisted-pair wires, optical fibres, and coaxial cables. We will examine the physical and information-carrying properties of each cable type, practical installation and use considerations, and the conditions under which application of a given cable type is most appropriate. A very basic understanding of telecommunications concepts such as bandwidth, signal-to-noise ratio, and modulation is helpful, but not necessary, to follow the presentation.
Drivers for FTTx
Why fiber
Fiber feeds everything
Flavors of FTTX
Nuts and bolts – the components
Installation techniques
Network design configurations
Machines & Tool
FTTx Roll out /Delivery Mechanism
Outside Plant Fiber Optic Cable
Fibre entering in Building design
Aerial Cable Construction Tool
Spicing Machines & Other Tools
Structured Cabling Technologies for NetworkingTharindu Kumara
Structured cabling is building or campus telecommunications cabling infrastructure that consists of a number of standardized smaller elements (hence structured) called subsystems.(wikipedia)
Presented by Mark Boxer & Jeff Bush of OFS
Agenda:
• Why Fiber?
• Fiber Feeds Everything
• Nuts and Bolts -The Components
• Installation Techniques
• Network Architectures and Planning
These are sample slides taken from my 4 days long "GPON-FTTx" training course. This course has over 380 slides and it is a great source of learning about various topics related to GPON & FTTx. There are tons of exercises and real-world examples provided in teaching material.
Passive infrastructure of FTTH networks: an overviewLuc De Heyn
Presentation of the FTTH Council webinar on September 2014. A general introduction to FTTH passive infrastructure and a view on the latest trends.
Speaker: Raf Meersman, CEO of Comsof
More info on planning & design of FTTH infrastructure: http://www.fiberplanit.com
Optical fiber Communication training reporthuzaifa027
This is the complete report of my summer training done in optical fiber installation and technician. You will find all the stuff related to optical fiber installation.
10 STAGES OF FIBER OPTICS PROJECT IMPLEMENTATIONimtfiber
HOW TO CARRY OUT SUCCESSFUL FIBER OPTIC PROJECT STAGE BY STAGE. THE OUTSIDE PLANT PROJECT OF FIBER OPTICS CABLING TECHNIQUES WHICH INCLUDE PROJECT PLANNING TO PROJECT EXECUTION
Real Fibre optic FTTH FTTX network design, engineering & planning software fo...van den Dool Dick
ITS-NetDesign™
Our Fibre optic FTTH / FTTX network design, engineering & planning software for Autocad® is an important member of our suite of software solutions & planning tools.
Simply: design, engineer & plan FTTH / FTTX optical fibre networks.
Advanced modelling of P2P & GPON networks.
Real network design & engineering software for Autocad®.
Faster and more flexible than any GIS.
Software details, engine, installation, usage, customization, examples, LISP programming
Presented by Mark Boxer & Jeff Bush of OFS
Agenda:
• Why Fiber?
• Fiber Feeds Everything
• Nuts and Bolts -The Components
• Installation Techniques
• Network Architectures and Planning
These are sample slides taken from my 4 days long "GPON-FTTx" training course. This course has over 380 slides and it is a great source of learning about various topics related to GPON & FTTx. There are tons of exercises and real-world examples provided in teaching material.
Passive infrastructure of FTTH networks: an overviewLuc De Heyn
Presentation of the FTTH Council webinar on September 2014. A general introduction to FTTH passive infrastructure and a view on the latest trends.
Speaker: Raf Meersman, CEO of Comsof
More info on planning & design of FTTH infrastructure: http://www.fiberplanit.com
Optical fiber Communication training reporthuzaifa027
This is the complete report of my summer training done in optical fiber installation and technician. You will find all the stuff related to optical fiber installation.
10 STAGES OF FIBER OPTICS PROJECT IMPLEMENTATIONimtfiber
HOW TO CARRY OUT SUCCESSFUL FIBER OPTIC PROJECT STAGE BY STAGE. THE OUTSIDE PLANT PROJECT OF FIBER OPTICS CABLING TECHNIQUES WHICH INCLUDE PROJECT PLANNING TO PROJECT EXECUTION
Real Fibre optic FTTH FTTX network design, engineering & planning software fo...van den Dool Dick
ITS-NetDesign™
Our Fibre optic FTTH / FTTX network design, engineering & planning software for Autocad® is an important member of our suite of software solutions & planning tools.
Simply: design, engineer & plan FTTH / FTTX optical fibre networks.
Advanced modelling of P2P & GPON networks.
Real network design & engineering software for Autocad®.
Faster and more flexible than any GIS.
Software details, engine, installation, usage, customization, examples, LISP programming
New technologies options include WDM-PON, VDLS2 bonding, G.fast, and more. In addition, there are new compression techniques and noise mitigation that extend the life of existing networks.
Which approaches are practical, necessary and beneficial and what factors determine the best path to take?
Bunang Fibre Optics is a 100% black owned company, is the subsidiary of Bunang Holdings (PTY) LTD established in 2014.
Bunang Fibre Optics is a specialist distributor of Radio Frequency (RF). Fibre Optic Communications components, Sub System & Accessories. The company is committed to client satisfactory and exceptional service levels to communications industries in Africa.
1. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Huawei Training for Dialog Regional
Engineering Staff
OSP Training
March 13, 2012
Prepared by: F. M. A.Junkeer
2. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Index
Page 2
2
Construction & Erection of Concrete poles/
Cable Installation
3 OSP Technical Concern
4 Huawei OSP Project Managment
1
Huawei OSP Turnkey Project Experience & Introduction
to Dialog OFN Project
3. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Dialog Huawei HDPE OFC (micro cable)
Page 3
Solution: one 8-way HDPE bundle Micro duct
Length: 140KM
Duration:11months
Max progress :25 km/month
After the excavation, a 7-way bundle micro duct
had been laid into the trench, and after the laying
of the micro duct, a 48 core micro cable had been
blowing into the micro duct. Because the total
diameter of the micro duct is less than 45mm, so
the excavation width is only 300mm.
4. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
ADSS FOC for Sudan National Electricity Corporation
Page 4
How NEC Benefited
Huawei Solution
Challenges Faced by NEC
Install FOC along existing electricity cables
Cross the main road inside the capital
Cross the main bridge over River Nile inside the capital
Adopt ADSS FOC to avoid electromagnetism interfere
Drill PVC pipe to cross road and lay LDPE pipe to protect FOC
Install steel pipe beside the bridge and lay LDPE pipe to protect FOC
Save the cost of erecting new poles;
No need to get the right of the way;
Build WAN FOC to form its own telecommunication network in
the capital
5. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Syria Telecommunication Optical Access Network(OAN)
Page 5
How STE Benefited
Huawei Solution
Challenges Faced by STE
Provide voice/video and internet access to more than 100 small villages
distributing all over the Syria;
The total length of O.F. is over 1100Km. Unlike backbone O.F. project,
this 1100Km distribute in 7 big province and over 80 small sections/areas.
Need to install 38 OLTs and 242 ONUs in a very short time;
Their rival Syriatel is very strong and fast development.
Professional end-to-end service solution
Professional delivery management team
Customized network technology consultant, network evaluation &
optimization including technology support, products & route maintenance
O.F. access insure the enough bandwidth and later expansion.
The project is finished 6 months ahead the deadline;
After optimizing the route and fine management, decreased the road surface
breaking and route length.
Ahead their rival Syriatel occupy the rural market.
6. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
MTN Nigeria Transmission Project
Page 6
How MTN Benefited
Huawei Solution
Challenges Faced in this project
3200km cable route with complicated landscapes cause many special
crossing methods and protections;
The raining season is a bad factor for project implementation in Nigeria;
A lot of community and government issues ,about 80% interruptions come
from this item;
Varieties of advanced equipments and techniques for different terrains
Fast track method to overcome the raining season
More than 2000 labors work at the same time
Good relationship with the relevant government department.
Fast implementation brings more benefit to MTN.
Rich experience and different solution for different terrains save cost for
MTN;
Full TK service save project management cost for MTN.
7. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Some of Last Five Years OSP Projects
Project Country Operator
Route
Length
Project Type Start Date
End
Date
Cote d'lvoire MTN Metro Ring Project Cote d'lvoire MTN 137 Km Duct/direct bury Apr-08 Dec-08
Malawi MTL backbone project Malawi MTL 1100 Km Duct/direct bury Apr-08 Dec-09
Senegal E-government backbone project Senegal Governmen
t 630 Km Duct/direct bury Dec-07 Nov-08
Kenya CCK national backbone project Kenya CCK 1112 Km Duct Nov-07 Nov-08
Zambia Zamtel National backbone project Zambia ZAMTEL 3800 Km Duct/direct bury Oct-07 Feb-09
Pakistan PTCL 1465 TURNKEY Pakistan PTCL 300 Km Duct Oct-07 Jun-08
Zambia Zamtel Lusaka Metro project Zambia ZAMTEL 100 Km Duct Aug-07 Dec-07
Cote d'lvoire MTN Fiber Transmission Project Cote d'lvoire MTN 1136 Km Duct/direct bury Apr-07 Dec-07
Kazakhstan Kar-Tel optical transmission project Kazakhstan Kar-Tel 840 Km Duct Mar-07 Nov-07
Ghana E-government backbone project Ghana Governmen
t 526 Km Duct/direct bury Feb-07 Nov-07
Ghana MTN backbone project Ghana MTN 606 Km Duct/direct bury Feb-07 Nov-07
Uganda E-government&National backbone
project Uganda Governmen
t 197 Km Duct Dec-06 Sep-07
Thailand CAT DWDM project Thailand CAT 7200 Km Aerial Oct-06 Dec-07
Angola MST National Optical backbone project Angola MSTelcom 110 Km Duct Aug-06 Dec-07
Pakistan PTCL OFAN TURNKEY Pakistan PTCL 1200 Km Duct Jan-05 Apr-08
Nigeria MTN National backbone project Nigeria MTN 3000 Km Duct/direct bury Nov-04 Feb-07
Page 7
More than 30,000 Km on time end-to-end Turnkey delivery experiences worldwide!
8. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Dialog Broadband
Island wide Optical
fibrer Network
Phase 2B
•Routes Under SIERRA
Construction.
1. Katugastota-Hunnas
2. Dambulla-Anuradapura
3. Anuradapura-Jaffna
• Routes under Access
Engineering
1. Peliyagoda-Negamabo
2. Matara-Hambantota
3. Wattegama-Dambulla
Page 8
9. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 9
INTORDUCTION
To cater the ever increasing demand for Bandwidth and to achieve a “high reliable core network”, Dialog decided to expand its Optical Fibre network.
Hence new fibre routes and nodes were identified according to the existing and predicted capacity requirements as well as the identified strategic potentials.
This decision drove Dialog for the option of releasing a Request for Proposal (RFP) to look for bidders who propose solutions for the requirement.
This section covers the technical requirements and expectations of the project.
General Scope
The scope of this document is to describe the Technical Requirements & Specifications that the Bidders shall fulfil with the aim to
provide a complete end to end solution for the implementation of Optical Fibre Network as a turnkey project.
TECHNICAL REQUIREMENTS SPECIFICATION (TRS)
The TRS specifies the technical requirements to be fulfilled in order to implement a complete end-to-end solution
for the Optical Fibre Network.
Following will be key points for the bidders to adhere from the beginning of the project.
•This is an extension of Dialog’s existing Optical Fibre Network (OFN). Hence all the components and solutions proposed by bidders
will be assessed for the compatibility with the existing network and same will be treated as a must.
•The base of the cable network will be aerial and the solution should be designed in a manner that the cable implementation to be
aerial as much as possible. The scenario to choose the other options is described under the civil construction module.
•Dialog reserves the right to suggest the successful bidder/s to change and propose any of the network / project components described
under TRS. Bidders are expected to take this challenge from the beginning.
•Dialog will decide and change its priorities on implementation with respect to the fibre routes even while at the implementation
phase.
13. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Index
Page 13
2
Construction & erection of concrete poles/
Optical cable Installation/E to E net work solution
3 OSP Technical Concern
4 Huawei OSP Project Management
1
Huawei OSP Turnkey Project Experience &
Introduction to Dialog OFN Project
14. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
E2E OSP Network Solution
Page 14
The end-to-end deployment process leads to fast implementation and roll-
out on time, within budget, to the required quality and a quick return on
customer investments. It is also our key measure of success.
For that, Huawei has developed an end-to-end delivery process to ensure
on-time completion of projects. Customer can concentrate on their core
businesses while Huawei takes care of building the infrastructure.
Phase 3 Phase 4Phase 2
End to End
Project Deployment
Project
Initiation
Bidding
Contract
Signing
Manufacturing,
Delivery &
Engineering
Preparation
Maintenance
Service
Implementation,
Testing and
Acceptance
Phase 6
Pre-Sales Post-Sales
Phase 1 Phase 5
Training
Service
Professional
Service
Phase
7
Phase
8
Service Support
Project Management
16. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Infrastructure (Construction Method)
Page 16
Underground
Duct systems
Direct buried
systems
Aerial cabling
systems
Mainly used for urban installation
Used when ever there is existing poles because
of fast installation and easy accessible for
maintenance
Used for suburban installation
17. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Comparison of Construction Methods
Method Advantages Disadvantages Usage
Underground
Conduit
System
Out of sight, adaptable for
future expansion, easy cable
placement and removal, long
lifetime, protected from most
natural disasters and low
maintenance expense.
High initial cost compared to
other systems.
Mainly used in urban areas.
Direct buried
system
Out of sight, long lifetime,
protected from most natural
disasters.
Capacity cannot be increased,
and maintenance expense is high.
Mainly use in rural areas.
Aerial Cable Low cost, fast installation, easy
maintenance and adaptable for
future expansion.
High risk to damage caused by
natural disasters, accidents or
intentional activities.
Suitable when exiting poles are
available.
Page 17
18. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Cable Type
Page 18
Figure 1; Cable Design for Duct Fibre Figure 2; Cable Design for Direct Buried Fibre
Figure 3; Cable Design for Aerial Fire Figure 4; Cable Design for Aerial Fire
19. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Fiber Type
Page 19
Single optical fiber's characteristic
G.652 optical fiber
(SMF)
G.653 optical fiber
(DSF)
G.654 optical fiber
(WSF)
G.655 optical fiber
(NZ-DSF)
The most mature single mode optical fiber, the
minimum attenuation is in different window with
the minimum dispersion
An inter grade type single mode optical fiber,
through shifting optical fiber cutoff wavelength, to
gain the lowest attenuation
An inter grade type single mode optical fiber , the
zero-dispersion point shift to the minimum
attenuation window
Another mature single optical fiber, the minimum
attenuation is in same window with low
dispersion
20. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Field Survey and ROW
Collect existing data, maps and drawings for the site to be surveyed.
Survey the geographical area that needs services to identify the most
economical and suitable route based on demand, MH/HH locations,
identify obstructions along the routes and the soil types.
Inside building survey for space planning
and equipment layout. Includes
OSP/ISP Reports and Drawings.
Identifying material quantities (BOQ).
Coordination for the approval of necessary
OSP right of way and permits.
21. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Detail Design and planning
Detailed Network Design construction drawings.
Special cases solutions.
Needed Material quantities.
Cable assignment
Tools and Equipment.
Etc.
Page 21
22. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Construction
Page 22
Route detailed
survey and
design
Trenching
Installation
of Ducts and
Manholes
Backfilling,
Reinstatement
Duct Mandrel Testing
Duct Pressure
Testing
Fibre Splicing
Fibre Cable
Installation
Terminating
and Testing
Site
preparation
Equipment
Installation
Equipment
Testing
Equipment Integration,
& Commissioning
Route detailed
survey and
design
Equipment work
Acquisitions
Underground Fibre ROW and
acquisition
Aerial Fibre
Permission
from
RDA/MC/PS
New pole
installation
Lighting protection
Cable Work
Bracket
installation
23. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Underground Cables in Duct
In this method the cables are placed in
underground Duct with manholes or
handholes between the Duct sections.
There are different types of Duct that can
be used according to requirements.
• 110 mm PVC ducts with sub-ducts installed
into them.
• 55 mm PVC ducts.
• HDPE pipes
Page 23
24. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Direct Buried Cables
Page 24
This type of construction is usually
applied on non-urban areas where there
are no existing manholes & conduits.
Normal burial depth is 1.5m with warning
tapes placed on equal distance to
ground level. Concrete encasement can
be applied where there are external
threats perceive such as soil erosion or
soil condition with high moisture content.
25. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 25
Aerial Cables/Concrete Poles
Aerial cables are installed on Concrete
poles. Dialog used 8 m poles mainly, 9 m
poles used in road crossings. 5.6 m poles
used in Hunnas, because of the difficulty in
transportation & handling.
26. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Concrete pole specification/design
The length of the poles which are connected to aerial cables shall be 8.0
meters.
The buried depth shall be one-fifth of pole length as per standard. In
exceptional cases, where it is technically impossible to keep the above
standard, based on DIALOG approval, the depth may be permissible up to
one-sixth of pole length. The buried depth of poles used for mounting
distribution points shall be always one-fifth of the pole length.
The poles shall in line with Sri Lanka Standard 363:1975 relating to
reinforced concrete poles for Telecommunication Lines,
Page 26
27. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Concrete Pole specification/design
Cement
All cement used for concrete poles shall be Portland Cement and in accordance with BS
12 or equivalent. The cement shall be stocked in such a manner as to afford easy access
for inspection. Cement shall be kept dry at all times prior to use in order to prevent
deterioration.
Fine Aggregate
The fine aggregate for concrete shall consist of natural river sand or equivalent material.
Coarse Aggregate
The coarse aggregate for concrete shall consist of gravels and/or crushed stones
having hard, strong and durable pieces free from adherent coatings such as mud or
other foreign materials. The coarse aggregate shall be graded between a maximum
sieve size of 19 mm and a minimum size corresponding to 5 mm sieve size. It must be
free from dirt, floury stone dust, earth or any similar materials.
Water
Clean, fresh water which is free from inorganic or organic matter in solution or in
suspension in such amounts that may impair the strength and durability of the concrete
shall be used during both mixing and maturing.
Page 27
•Fine Aggregate
28. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Placing and curing of concrete
The concrete shall be used as soon as
possible after being mixed and no material
which has developed an initial set shall be
used in the work. Each mould shall be filled
with concrete in one continuous operation.
After the material has been placed in the
moulds it shall be compacted and shall not be
disturbed during the period of setting. After
placing, concrete shall be protected, during
setting and in the first stage of hardening from
shocks, running of surface water and the
harmful effects of sunshine and drying winds.
The concrete shall be prevented from drying
out for at least 7 days.
Page 28
30. Reinforcement
Page 30
Reinforcement shall be cleaned and free from
loose Mill scale, loose rust, mud, oil, grease
and any other Coating which could reduce the
bond between the concrete And the steel. A
slight film of rust shall not be regarded
As harmful, but the steel shall not be visibly
pitted by rust.
Longitudinal reinforcing bars shall
where possible be continuous
throughout the length of the pole, but may
contain not more than one lap in each bar
line, subject to the following conditions.
32. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Pole testing
Type test
Unless otherwise specified with the enquiry or
order, a written statement that the number of
poles specified in Table 2-19, identical in all
essential features of design with those provided,
have passed the type test shall be deemed to be
sufficient evidence that the poles comply with
the requirements of this specification. The
statement shall give all tests and state the age
of the poles when tested. The poles selected for
the test shall be tested in accordance with
Clause 2.10.9 The permanent set after removal
of a test load of 60 percent of the minimum
ultimate load specified in Table 2-18 shall not
exceed 10 percent of the deflection at the test
load. The hair cracks produced in testing shall
clearly close up on removal of the test load
specified above.
Page 32
40. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Special Construction Cases
Rivers and Canal Crossing:
Cables are installed in a 4 inch galvanized steel pipe for extra
protection attached to the side of the bridges when ever
bridges are available.
For small canals the optical fiber cable shall be buried under
the canal.
HDD technology can also be applied.
Page 40
42. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Special Implementation Cases
Crossing Main Roads and Railways:
The cables are installed in a 4 inch galvanized steel pipe for
extra protection.
In places were trenching will not be allowed, boring methods
(HDD) under road are used.
Page 42
45. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
DUCTS:
The material to be supplied is Permanently Lubricated High Density Polyethylene (PLB
HDPE) duct for use as under-ground cable conduit for optical fiber cables, suitable for cable
installation by blowing technique
The ducts shall be suitable for both open cut laying as well as HDD (Horizontal Deviation
Drilling) method.
Specification of Permanently Lubricated High Density
Polyethylene Ducts (PLB HDPE Ducts)
The PLB HDPE duct shall consist of two concentric layers, the outer layer
being HDPE co-extruded with an inner layer of solid permanent lubricant, to
reduce internal coefficient of friction (CF). The lubricant shall be of solid layer
of uniform thickness so formulated to provide a permanent, low friction
boundary layer between the inner surface of the duct and the optical fibre
cable. The lubricant shall be clearly visible in cross section, concentric with the
outer layer.
Page 45
The ducts shall be suitable for both open cut laying as well as HDD (Horizontal Deviation Drilling) method.
46. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Dimension of the duct shall be as under:
Outer diameter : 40mm+0.4 mm
Wall thickness : 3.5mm±0.2mm
Nominal inner diameter : 33mm
Lubricate inner layer thickness : 0.35mm
Identification marking on the surface of the duct
At every 02 meter along the length followings shall be marked
“Dialog identification” interleaved with
‘Manufacturer name and date of manufacture’.
In addition sequential length marking in every one (01) meter shall be provided.
The PLB HDPE duct shall be supplied in a continuous length in coil form, suitable for shipping and
handling purpose together with all necessary accessories needed for the proper duct installation.
The inner layer (solid lubricant) shall be white in colour
The duct supplier shall be able to supply ducts in different colours and all the accessories related. The
bidder shall provide all the details of the duct supplier including the company profile together with it’s
financial strength, manufacturing capacity, the full range of ducts & accessories with their detailed
specifications. Some of the standard accessories are listed below.
Page 46
1.The duct supplier shall be able to supply ducts in different colours and all the accessories related. The bidder shall provide all the de1.The duct supplier shall be able to supply ducts in different colours and all the accessories related. The bidder shall provide all the de
47. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
– Plastic Coupler
– Split couplers
– Mandrel
– Pressure testing attachments
– End Plug
– Cable Sealing Plug
– Identification Tags
Ducts installed shall be in different colours (Other than Black colour) to be able
to identify easily.
Page 47
51. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Air Blowing and Compacting
Page 51
Air Blowing Compacting
52. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Splicing ,Testing and Acceptance
Page 52
All fiber will be joined by means of the
fusion splice technique.
The jointing point will be contained and
organized in splicing box.
The optical cable will be spliced with
pigtails in the equipment room and
terminated on the ODF.
The optical cable will be tested by
OTDR in double direction to get overall
attenuation and splicing loss.
Splicing
Termination
Test
53. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
END TO END LOSS MEASUREMENTS BY OPTICAL POWER METER & SOURCE Form No :
ISLANDWIDE OPTICAL FIBER BACKBONE NETWORK PROECT
Road KURUNEGAL-KANDY Sector Date 31/12/2011
Site Sheet No 1 OF 2
Section
From : KULUGAMMANA DIALOG SITE To : HUNNAS DIALOG SITE
(1) Representative Calibration Value of the Power Meter
Description P1/ dB P2/ dB E=P1-P2 (dB) Remarks No of Cores 60
1st -5 -5.24 -0.24 Actual Distance 33.25
2nd -5 -5.16 -0.16 OTDR Distance 33.62
3rd -5 -5.24 -0.24 No of Splicing 20
Rep. Calibration
Value = Sum
(P1-P2)/3 -5 -5.21333 -0.21333 Wave Length 1550
cw
(2) Optical loss of End to End.
Core No P in (1) P out (2)
Rep. Calib.
Value "E" (3)
Optical Loss (1)-
(2)-(3)
Core No P in (1) P out (2)
Rep. Calib. Value
"E" (3)
Optical Loss (1)-
(2)-(3)
37 -5 -19.56 -0.2133 -14.3467 67 -5 -18.95 -0.2133 14.1633
38 -5 -18.86 -0.2133 -13.6467 68 -5 -19.28 -0.2133 14.4933
39 -5 -18.99 -0.2133 -13.7767 69 -5 dis -0.2133 #VALUE!
40 -5 -21.42 -0.2133 -16.2067 70 -5 -21.71 -0.2133 16.9233
41 -5 -19.22 -0.2133 -14.0067 71 -5 -19.61 -0.2133 14.8233
42 -5 -19.25 -0.2133 -14.0367 72 -5 -19.34 -0.2133 14.5533
43 -5 -18.53 -0.2133 -13.3167 73 -5 -20.2 -0.2133 15.4133
44 -5 -18.76 -0.2133 -13.5467 74 -5 -22.25 -0.2133 -20.28
45 -5 -40.88 -0.2133 -35.6667 75 -5 -18.71 -0.2133 13.92
46 -5 -21.48 -0.2133 -16.2667 76 -5 -18.12 -0.2133 13.3333
47 -5 -19.36 -0.2133 -14.1467 77 -5 -19.22 -0.2133 14.4333
48 -5 -19.37 -0.2133 -14.1567 78 -5 -33.35 -0.2133 28.5633
49 -5 -19.46 -0.2133 14.6733 79 -5 -18.96 -0.2133 14.17
50 -5 -19.11 -0.2133 14.32 80 -5 -27.87 -0.2133 23.0833
51 -5 -20.93 -0.2133 16.1433 81 -5 -42.07 -0.2133 37.2833
52 -5 -20.28 -0.2133 15.4933 82 -5 -34.54 -0.2133 29.7533
53 -5 -20.55 -0.2133 15.7633 83 -5 -19.01 -0.2133 14.2233
54 -5 -20.35 -0.2133 15.5633 84 -5 -23.35 -0.2133 18.56
55 -5 -19.25 -0.2133 14.4633 85 -5 -19.3 -0.2133 14.51
56 -5 dis -0.2133 #VALUE! 86 -5 -18.89 -0.2133 14.1033
57 -5 -21.65 -0.2133 16.8633 87 -5 -20.46 -0.2133 15.6733
58 -5 -19.47 -0.2133 14.6833 88 -5 -19.15 -0.2133 14.3633
59 -5 -19.73 -0.2133 14.94 89 -5 -18.58 -0.2133 13.7933
60 -5 -19.83 -0.2133 15.0433 90 -5 -29.54 -0.2133 24.7533
61 -5 -19.42 -0.2133 14.6333 91 -5 -19.13 -0.2133 14.3433
62 -5 -19.06 -0.2133 14.2733 92 -5 -20.55 -0.2133 15.7633
63 -5 -19.02 -0.2133 14.2333 93 -5 -19.95 -0.2133 15.1633
64 -5 -18.85 -0.2133 14.06 94 -5 -19.96 -0.2133 15.1733
65 -5 -18.85 -0.2133 14.0633 95 -5 -19.71 -0.2133 14.9233
66 -5 -20 -0.2133 15.2133 96 -5 -19.28 -0.2133 14.4933
AcceptanceCriteria: 3.For G655 (NZDSF) link loss measurement at 1310nm is not applicable.
1 Average Splice loss (both directions) for G655 at 1550nm fiber 0.1 dB 5.Acceptable link loss (0.25 x Fiber length in KM) + 0.1x No. of splices+
2 Attenuation co-ef limits for G655&G652 connectors loss (2 each x 0.5dB) = ………………..dB.
At 1310nm 0.40 dB/km 0.21*33.65+0.1*20+4*0.5 = 11.0665dB
At 1550nm 0.25 dB/km 0.4*33.65+0.1*20+4*0.5 = 17.46 dB
TESTED & SUBMITTED BY ACCEPTED BY
CONTRACTOR DIALOG
NAME
DESIGNATION
SIGNATURE
DATE
Page 53
54. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Maintenance
Maintenance services ensure that outside plant cable paths are
clear of obstructions and external threats and communication
cables are kept in the optimum condition through:
Preventive maintenance.
Scheduled testing for network performance.
Equipment and spare parts management.
Cable faults localization.
Troubleshooting and emergency response.
Transmission loss allocation.
Techniques for improvement/reliability.
Control/updating of plant records
Page 54
55. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Index
Page 55
2 End to End OSP Network Solution
3 OSP Technical Concern
4 Huawei OSP Project Management
1 Huawei OSP Turnkey Project Case
56. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
INSTALLATION AND CONSTRUCTION STANDARD
Installation/construction of Aerial OF cable for National Backbone Optical Fiber Network shall be carried
out according to the Specifications provided below. Other installation/construction details which are not
specified in this Part shall be proposed by Huawei, for the approval of DIALOG. All installation and
construction standard method statements should be submitted to satisfy these requirements in Technical
Proposal.
Huawei shall be solely responsible for any claims or damages arising out of the execution of the work.
Huawei shall obtain all the necessary permissions for excavation of roads from authorities concerned prior
to construction. DIALOG will co-operate with and assist Huawei to obtain the necessary permission.
AERIAL CABLE INSTALLATION STANDARD
Aerial cable shall be suspended on the roadside of the pole and new cable shall be suspended underneath
the existing cable on pole line where possible. The aerial cable shall be suspended on the same side of
each pole.
The aerial cable shall be suspended at 50 cm from the top of each pole.
The minimum clearance from ground to the lowest point in the span of cable shall be at least 4.5 m along
roads and 5.5 m at road crossing. The minimum clearance from foliage and trees shall not be less than
1.75 m.
Sags of aerial cable shall not exceed 0.8 m under the worst conditions expected.
Page 56
•The minimum clearance from ground to the lowest point in the span of cable shall be at least 4.5 m along roads and 5.5 m at road crossing. The min
57. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Aerial OFC
OPGW ADSS ADL/ADW
Page 57
Aerial Optical Fiber Type:
OPGW (Optical Ground Wire)
ADL/ADW (All Dielectric Lash)
ADSS (All Dielectric Self Supporting )
Replacing with existing wire
Can be install on tower
Install on
existing wire
Comparison between Aerial OFC
58. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Page 58
Installation situations
OPGW:
Replaces with shield wire (top of
tower)
ADSS :
It depends on power of electrical
field of line
ADL / ADW:
This cables installs on shield or
phase conductor
Comparison between OPGW and ADSS
59. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Comparison between OPGW and ADSS
Page 59
Figure 2; Cable Design of OPGW Figure 2; Cable Design of ADSS
60. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential
Comparison between OPGW and ADSS
Page 60
Proposal: ADSS is recommended for installation on existing electric pole, but the
existing electric pole and wire height should be considered.
Advantage Disadvantage
ADSS ADSS cable has higher tensile strength. It is
applicable for long span. The overall thermal
expansion coefficient of ADSS is very low, so
the effect of temperature on ADSS sag is small.
ADSS is made of non-metallic materials, can
be installed and maintained on live-line
situation. The feature is convenient and safe
for installation and maintenance.
Anti-track material makes ADSS be able to be
used in strong electric fields.
ADSS cable has good features, such as small
diameter, light weight, and small load affection
on poles or towers.
Installed position is under existing electric cable,
the safety distance between cable and ground need
to be considered.
OPGW Strong Physical feature, can support long span
installation (more than 250m).
Suitable for new installation power
transmission system to save construction cost.
Vibration caused by wind, hurricane, ice thickness,
Unsteady operation caused by temperature,
possible thunder attack, short circuit.
For existing power line system, the power supply
must be break off
61. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 61
Comparison between G.652D and G.655
Type
Attenuation(dB/km)
1550nm
Dispersion(ps/nm.km)
1550nm
Window(nm)
PMD
1550nm
G.652 0.17-0.25 17-20 1310/1550 <0.2
G.655 0.19-0.25 1-6 1550 <0.2
G.655(TWRS) 0.19-0.25 1-6 1310/1550 <0.2
G.656 0.19-0.25 8 1550 <0.2
Proposal : G.652D is recommended.
Advantage Disadvantage
G.655 lower dispersion, and it need fewer
DCM
(Before DCM is high cost, using G.655
save the cost of DCM. But now the DCM
price is lower down, and it is not a
significant advantage)
Can not be used for 1310 nm laser.
Significant non-linear effect (SPM, FWM),
not suitable for DWDM system(80*40G e.g)
Higher Price
62. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 62
Comparison between Direct Buried/HDPE/Microduct
Land Cable Installation Method
Direct Buried Duct
PVC DuctConcrete Duct HDPE Duct Micro Duct
63. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 63
Maintenance
Advantage of HDPE Duct Solution
Replacement
• Upgrade capacity
The cable can be
replaced with new
type of OFC
Balance of CAPEX and OPEX
•According to the traditional solution, compared with duct OFC, the direct buried
OFC for the national backbone has low CAPEX, but OPEX is extremely higher.
• Maintenance
• Trouble shooting
• Repair
No need to
excavate again
and again
Expansion
•Expansion
capacity
No need to dig
and lay another
D.B. OFC
Comparison between Direct Buried/HDPE/Microduct
64. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 64
Construction Process
Survey &
Design
D.B.
HDPE Duct
PVC Duct
Trenching
Duct &
Manhole Backfill
Cable
Installation
Repeating
Section Test
New Cable
Installation
Existing Duct
Treatment
N/a N/a
Pulling
•Different steps: Duct & manhole
•Different installation methodology: laying, blowing, pulling
The distance between the manholes increases to around
1000m compare with 100m in the traditional PVC duct
solution after the popularize of HDPE pipe and cable blowing
technique. The cost of manhole reduces.
Expansion Process
•No expansion capacity for D.B.
•Cable blowing technique makes
the maintenance and upgrade
more rapidly
Micro pipes can be blowing into
the HDPE pipe to use the duct
system more adequately
Blowing
Pulling
Laying
Blowing
Assembly
Laying
Comparison between Direct Buried/HDPE/Microduct
65. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 65
Solutions Cost of Material Cost of Service
OFC and
joint box
Duct and
manhole
Excavatio
n
Backfill Duct
installation
Manhole
installation
OFC
installation
D.B. High Low (joint pit) Low Low 0 0 Low
40/33 HDPE Low Low Low Low Low Low Low*
110 PVC Low High High High High High High
•Choose the cable blowing methodology
The cost of HDPE pipe solution is quite lower than the traditional
PVC solution. The additional cost of construction is mainly about
the pipe and manhole compare with D.B. solution.
Advantage of HDPE pipe solution: obviously the OFC services
have higher reliability and cost performance. The outside plant part
is more convenient to maintain, and provided with expansion and
upgrade capacity.
Comparison between Direct Buried/HDPE/Microduct
66. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 66
Comparison between Direct Buried/HDPE/Microduct
Microduct Solution: Projection Duct + Microduct + Microcable
Protection Duct :HDPE duct with dimension from 32mm to 63mm (outer diameter)
Microduct :HDPE duct with dimension less than 16mm (outer diameter)
Microcable: Cable suitable for blowing installation in microduct, cable diameter is 3.0 ~ 10.5 mm.
67. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 67
Comparison between Direct Buried/HDPE/Microduct
Microduct Overview
Microduct Bundles
Microduct
Note: Microduct Bundles is normally used for point to point solution, it’s not easy for branching.
70. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 70
Comparison between Direct Buried/HDPE/Microduct
Tools and Accessories
Microduct Blowing Machine Microcable Blowing Machine
Air Compressor Microcable Coilpanel
Splicing Box
Splicing Box
71. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 71
Comparison between Direct Buried/HDPE/Microduct
Blowing Installation method
72. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 72
Comparison between Direct Buried/HDPE/Microduct
Blowing Installation method
73. HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 73
Comparison between Direct Buried/HDPE/Microduct
Advantage Disadvantage
Microdu
ct
Reduce the initial investment, and
easy for expansion.
Easy to upgrade the fiber cable type.
Fully utilize the existing duct
resource
Easy for branching.
Reduce manhole / handhole
quantities.
High requirement for the protection in
handhole and manhole.
Special tools needed for
implementation and maintainence.
Additional cost for microduct
The advantage is good for access
network and FTTx senario, but for
backbone network, it not obvious.
Proposal: HDPE with blowing installation method solution is proposed.
Depend on the requirement of SMC, Microduct & Microcable or conventional
cable can be considered to be installed inside HDPE duct.
Microduct vs. Traditional HDPE Duct