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Table of contentsTitle PageIntroduction
Telecommunication spaces
General specifications
Safety and other considerations
Temperature and humidity
Main telecom room
Clustered buildings
Mobile Service Room
Floor telecom closets
Roof-top mobile-service room
Home consolidation cabinets
Office consolidation cabinets
Office consolidation cabinets (commercial shell and core)
Electro-mechanical
Pathway
General specifications
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IntroductionWe are pleased to issue this document on Telecommunications Infrastructure Standardsfor Buildings to:
introduce the new design guidelines for in-building fiber infrastructure to enable propertydevelopers to deliver high-quality, future-proof telecommunications and multimedia
services to their tenants assist property developers through a “No Objection Certificate” (Building NOC) process
that includes design drawing validation, material samples checking and site inspectionsduring implementation
The new design guideline in this document is based on our prior experience of offering qualitytelecommunications services across key developments in UAE.
We advise our clients to use qualified and certified professionals in all aspects of the applicationand implementation of these design guidelines during building construction.
Developers are encouraged to engage with us at an early stage so that any process and / ordesign issues may be resolved. If property developers or tenants have special requirements thatmay not be covered by these guidelines it is necessary to engage with our design teams at anearly stage of development planning, to enable seamless delivery of premium
telecommunications services at launch.We look forward to feedback from developers as it helps us understand your issues andincorporate valid suggestions in future designs.
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This document covers the following building types:
single villa and villa complexes residential towers and groups of residential towers commercial towers and groups of commercial towers shopping malls groups of shops and retail outlets hospitals, hotels and other bulk service applications warehouses and sheds
The document is structured to cover all aspects of infrastructure for:
telecommunication spaces pathways electro-mechanical cables duct entry
All telecom spaces, pathways, ducts and cabling system specified in this document are for the
exclusive use of du.
The contents of this document are subject to revision without notice due to continued progress in
methodology, design and manufacturing and for the purpose of regulatory compliance.
There are separate documents that cover developing outside plant (OSP) for master plans. Please
contact us on [email protected] if you require more information about these areas.
mailto:[email protected]:[email protected]:[email protected]:[email protected]
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Telecommunication SpacesGeneral specifications
A number of telecom rooms will be required in a building depending on its characteristics. Thefollowing room types are required and the details of these rooms shown below:
main telecom room
mobile-service room roof-top mobile-service room floor telecom closet
In multi-storey buildings the telecom rooms should be vertically aligned and linked by a sharedcontainment system. This containment system must not reduce the minimum requested space.
All telecom rooms must be dedicated to the use of du. The rooms must be easily accessible to dupersonnel 24 hours a day and secured from unauthorized entry.
Telecom rooms must not be in close proximity to any sources of the following:
heat moisture corrosive atmospheric or environmental conditions high voltages radio frequency interference (RFI) electro-magnetic interference (EMI)
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All telecom spaces and pathways must be pest controlled using best available practices. It should benoted that rodents often gnaw cables resulting in damage and the potential for service disruption.
Hence, special attention should be given to preventing rodents from entering telecom spaces andpathways. This could involve the installation of covers to cable trays; if this is the case these coversmust be removable to allow for the installation of additional cables.
The walls, floor, and ceiling should be painted and treated with anti-dust and anti-static coating tominimize dust and static electricity. Walls and ceilings shall receive primer and finish coat of light colorpaint.
In order to move equipment into and out of telecom rooms, all entrances must not be smaller than
900mm x 2100mm (WxH)
Safety and other considerations
All telecom rooms must comply with municipality and national authority standards and regulations,such as those issued by civil defense and utility companies. Notwithstanding this, it is expectedthat the following will be provided:
all telecom spaces should be fitted with smoke detectors connected to the building managementsystem
all telecom spaces should be fitted with normal and emergency lighting all containment openings to telecom spaces must be sealed with a regulation fire retardant
material all doors to telecom rooms must be of solid wood core or steel construction, fire retardant with a
minimum rating of 2 hours. all doors to telecom rooms must be outward opening with an automatic door closer system fitted
on the hinged edge all doors to telecom rooms must be labeled. the room must be free from contaminants and pollutants.
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required in the building (more than G+10) the 1 st mobile service landing room can be shared with theMTR. The minimum room dimension should be 4mx4mx3m (WxDxH) depending on the functions andfeatures of the building. The room specifications are detailed in Table-1 and Appendix_1_Figure-5 to 9.
If the architectural design limits the room sharing, then two dedicated rooms with minimum sizes of 3mx3 m x 3m (WXDXH) each must be provided. The room specifications are detailed in Table-2 and
Appendix_1_Figure-1 to 3, 18. Refer to appendix_1_Figure-14 to 16 for Rack elevation layouts details.
The 3 m clearance height specified is the minimum finished clearance after taking into accountallowances for raised floors (if used), overhead cable trays and any other obstructions such aslighting fixtures and beams. In areas where overhead trays are used, a minimum headroom access of300mm is required above the tray.
Depending on the telecom room usage, a “raised floor” might be required inside the MTR having activeequipment, particularly commercial or mixed used buildings. A minimum of 300mm height above the basefloor of the room should be provided. Tile Cutting details are specified in appendix_1_Figure-25. In othercases involving residential buildings, raised floor is not mandatory, and will be further advised during theNOC stage.
The floor level of the room must be constructed at the same level as the outside access or corridor. If thiscannot be met, then a suitable ramped entry with an anti-slip surface must be provided. A threshold stepof 100mm must also be provided inside the room under the raised floor to prevent any ingress of waterfrom outside the room.
The door of the main telecom room must have outward opening with size not smaller than 900mmx 2100mm (WxH). The door should be labeled
‘
Main Telecom Room‟ “ ت ا ص ي ل س ي ر ل ر ل
All cables in the main telecom room must be properly routed to the desired destinations. For this purpose,
an adequately sized cable tray system must be installed to maintain the connectivity as described in Appendix_1_Figure-20 to 21.
Clustered buildings group of towers:
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Floor Telecom Closet
A floor telecom closet must be provided on each floor of all multi-storey buildings. The floor telecom closetis required to provide a flexible point for the installation, pulling and maintenance of telecom cables. FTCmust have a minimum dimension of 2m x 1m x 3 m (WXDXH).
The floor telecom closet should be provided with two outward opening doors with a minimum totalopening of 1500mm x 2100mm (WxH). The door should be labeled (Floor Telecom Closet ت ا م د ة خ ر جي ق ب ا ط ل ت ا )ص
In the case of a multi-storey villas, townhouses, G+1 warehouses or small retail shops, floor distributionboxes will be required with a minimum size of 300 x 300 x 150 mm (WxHxD), as an alternative to replaceFTC.
In high rise buildings which usually exceed 30 floors, proper planning and consideration must be given tothe FTC space and dimension, which might be increased. It is highly advisable to seek du advice and payclose attention during NOC stage to understand the concept of high rise building infrastructure design.
Refer to Table-4,5 and Appendix_1_Figure-4 for the complete detailed layouts of FTC.
Roof-top Mobile-service room (up to G+10)
Roof-top mobile-service rooms must be provided on the roof of all multi-tenant buildings up to G+10 andaccess must be provided to the building riser system.
The door dimension must be 900mm x 2100mm (WxH) and opening outwards and should be labeled‘
Roof Telecom Room’
ح ط س ل ى ك ع ر م ل ف ا ه ل ت ا م د ر خ The roof-top mobile room must have a minimum.غdistributed floor load rating of 10 kN/m2
An opening must be provided with a dimension of 600mm x 400mm (WxH), 500mm below the roomceiling in walls facing the building ‟s roof-top area.
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wall mount or flushed mount installation at 1.2 meter high measured from the finishedfloor level up to the bottom edge of the cabinet.
fitted with RJ45 UTP patch panel and cable management fitted with 2-core fiber terminal box fitted with dual 13A switched socket power outlet fed from a dedicated circuit breaker on
the domestic supply sufficient cable entries to accommodate the incoming fiber optic and UTP cables located in an accessible area close to the entrance; avoiding areas such as kitchen,
laundry room or bedroom adequate ventilation with ambient temperature maintained at 20°C - 30°C. adequate safe working space around the location with ambient lighting
not close to sources of water or heat and any electrical distribution or bus bars. labeled with villa or flat number
A layout of a typical home consolidation cabinet is provided in Appendix_1_Figure-11 to 13
For 2 bedroom apartments or above and small villas:
minimum internal dimensions 860mm x 600mm x 150 mm (HxWxD) which is suitable tosupport up to 24-ports UTP connections.
wall mount or flushed mount installation at 1.2 meter high measured from the finishedfloor level up to the bottom edge of the cabinet.
fitted with RJ45 UTP patch panel and cable management fitted with 2-core fiber terminal box fitted with dual 13A switched socket power outlet fed from a dedicated circuit breaker on
the domestic supply sufficient cable entries to accommodate the incoming fiber optic and UTP cables located in an accessible area close to the entrance; avoiding areas such as kitchen,
laundry room or bedroom adequate ventilation with ambient temperature maintained at 20°C - 30°C. adequate safe working space around the location with ambient lighting not close to sources of water or heat and any electrical distribution or bus bars. labeled with villa or flat number
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to the desired destination through appropriate cable trays containments. In such scenario, the buildingtenants will need to discuss the requirements with du at the time of fit-out.
Refer to appendix_1_Figure-4 for the floor telecom closet detailed layouts.
Electro-Mechanical
Main Telecom Room:
For Active MTR, the following requirements need to be provided.
SMDB inside the room fed from essential power supply (with generator back up) for fixedequipment. Refer to the single line diagram in appendix_1_Figure_27
2 nos. 13A twin sockets fed from the essential power supply with dedicated 20A circuit breaker. AC & DC earth bars connected to the dedicated earth pits with resistance less than 1ohm. Dedicated A/C system (ducted split FCU) with duty & standby units with proper interlocking, to
maintain the room temp. at 20+/-3 deg. Cel Heat dissipation can be considered at 300 Watts/sq.mtr.+3kW per rack. Room should be provided with adequate lighting and comply with the fire and safety requirements
like smoke detector, fire alarm, emergency light etc. as per local authority standards. Any watersprinklers to be avoided.
2 nos. handheld CO2 cylinder extinguishers to be provided inside the room. Add 1x63A TP isolator fed with dedicated feeder from essential power supply (with generator
back up) for GSM equipment – if MTR is shared between du fixed and Mobile services. Heat dissipation to be Increased by 8kW for GSM equipment- if MTR is shared between du Fixed
and mobile services
For Passive MTR, the following requirements need to be provided.
2 nos. 13A twin sockets fed from the essential power supply with dedicated 20A circuit breaker. One earth bar connected to the telecom earth pit with resistance less than 1ohm. Room must be provided with adequate lighting.
Room should be provided with air conditioning system to maintain the room temp at 20+/-3 deg
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Adequate lighting and 1x13A twin socket fed from the normal building supply with dedicated 20Acircuit breaker.
Room should comply with the fire and safety requirements like smoke detector, fire alarm,emergency light etc. as per local authority standards. Any water sprinklers to be avoided.
1x handheld CO2 cylinder extinguisher
Refer to Appendix_1_Figure-10 for the complete detailed room layouts.
PathwaysGeneral specifications
The following requirements must be applied to all containment systems: the containment system must be designed so that installed cables do not exceed the minimum
specified bend radius all metal containment parts must be free from sharp edges and earth bonded telecom riser openings must be sealed with a suitable fire retardant material cable trays must be easily accessible in common areas to facilitate any future provision of
additional cables any cable trays that are in areas accessible to the public and less than 4.8m above the floor must
be covered containment systems must not run through areas exposed to excessive heat, moisture, corrosive
atmospheric or environmental conditions, high voltages, radio frequency interference (RFI) or
electro-magnetic interference (EMI) for all containment systems a minimum separation must be maintained from sources of
electromagnetic interference. the building developer may want to consider redundant containment systems, particularly in
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Note : above cable trays requirements to be finalized during NOC stage.
Vertical Containment - within homes
In case of multi-floor apartments / villas, the UTP cables between the floors must run through 50mmdiameter PVC conduits via junction / pull boxes located on each floor. The junction / pull boxes must havea minimum dimension of 300mm x 300mm x 150mm (WxHxD). The slab opening for these conduits mustbe in a suitable and accessible location in every floor. It is recommended that all vertical conduit runs bealigned to ease the installation of cables.
Horizontal Containment – multi-storey / multi-tenant buildings
Floor telecom closet to consolidation points
The horizontal containment for routing cables from the floor telecom closets to consolidation points on theserved floor can use a number of systems (cable trays, conduits, etc.). The solution will depend on thecharacteristics of the building type. Conduits must only be used when the consolidation point locationsare permanent, the cable density is low and the flexibility to modify the routing is not required.Specification for the size of this containment is given in Appendix_1_Figure-20 to 21
Note : Intermediate PVC junction / pull boxes with minimum size of 300mm x 300mm x 150 mm (HxWxD)must be provided on individual runs that exceed 30m. PVC junction /pull boxes must also be providedwhere an individual conduit run has a sharp change in direction.
The cable tray minimum dimensions are described below:
one 200mm x 50mm (WxH) cable tray with Heavy Duty Return Flange (HDRF) as a mainroute from floor telecom closet to main corridors and then branches to each consolidationcabinet through cable trays of 50mm x 50mm (WxH)
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Cluster of buildings – groups of towers
Where a building consists of a group of towers (on a common shared podium) all of the requirements of asingle tower still apply. In addition, cable trays must be provided linking the main telecom rooms of alltowers, exact requirement to be finalized during NOC stage.
One cable tray with the following dimension must be provided:
300 x 100 (WxH) with Heavy Duty Return Flanged (HDRF)
These trays should be readily accessible in common areas to facilitate any future provision of additionalcables. However, if these trays are in an area accessible to the public and are less than 4.8m above the
floor then the trays should be covered. For more details, refer to Appendix_1_Figure-22.
CablesGeneral specifications
Specifications of all the cables to be used must be submitted to du for approval during the NOC stage.This must also include test reports showing that the performance of the cabling system meets definedrequirements. Cable test must be performed using power meter and OTDR tests, whichever is applicable.Details for cable labeling are included in Appendix_2.
Fiber Optic Cables
The quantity of fiber optic cables that must be provided and installed from the main telecom room to theconsolidation points or FTC depends on the characteristics of the building.
Drop Fiber Cable
indoor rated drop fiber
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OSP Fiber Cable
outdoor rated single mode compliant with ITU-T G.652D loose tube inner construction or Ribbon type for high density cables Fiber optic coloring code shall be in accordance to EIA/TIA-598
Fiber Optic Cables Requirements – from main telecom room to consolidation points (direct fiber)
2 core (individual pair) fiber optic cables will be required from Main Telecom Room up to each apartment,
retail shop, and pre-defined office. It is recommended to apply direct fiber installation up to G+30 only tomaintain cable management inside the FTC and MTR.
The fiber cables must be provided from the main telecom room to each consolidation point and should beof continuous lengths free from joints, branches or patching. By default, all the fiber cables should passthrough the floor telecom closet.
The fiber cables should be labeled at both ends with a unique reference for the consolidation point servedand the room or area of origin. Labeling details are included in Appendix_2.
All fiber optic cables should be terminated inside the Main Telecom Room and inside the unit CP cabinet.Refer to appendix_1_figure-19.
Fiber Optic Cables Requirements – from main telecom room to FTC (multicore fiber)
For high rise buildings exceeding G+30, a FTC must be selected for every 10 floors. Multicore fiber cablemust be installed in a mini ODF inside the FTC, where the number of fiber core will depend on thenumber of units in each served floor. 2 fiber cores per unit should be considered as the basic foundationof multicore fiber calculation.
If there are unused fiber cores, these must be left un-terminated and coiled properly inside the mini ODFand the MTR ODF Refer to appendix 1 figure-26
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2 single mode fiber pair cables must be provided from the main telecom room to the roof-top mobile-
service rooms. 10m of spare fiber must be left neatly coiled.
CAT6 Copper cables – from consolidation points to tenant outlets
To deliver services from the consolidation points to the building outlets, unshielded twisted pair (UTP)copper cables must be provided. The complete design of this service is the responsibility of the buildingdeveloper. However, the following minimum requirements must be followed for the efficient and effectiveprovision of services:
the cables must conform to a minimum of CAT6 specification (Category 6, 100 Ohm, 4pair 24 AWG as specified in ANSI/TIA/EIA 568-B.2 Addendum 1)
the wiring must be in a‘
star ’
topology fanning out from the consolidation point. dual RJ45 outlets with spring load sliding shutters must be provided wherever service is
required (all outlets should comply with the performance specifications as detailed in ANSI/TIA/EIA 568-B.2 Addendum 6)
each socket in the dual RJ45 outlet must be wired back to the consolidation point
outlets must not be cascaded or looped and there must be no splitting of cable pairs the maximum cable length from consolidation point to outlet must not exceed 90m at the consolidation point the cables should be terminated on an RJ45 patch panel and
labeled with the socket and outlet served in each outlet the cable must be terminated to maintain the twists in each pair up to within
5mm of the termination proper strain relief should be provided at the terminated ends of the cable the components of the CAT6 system must be from the same supplier or at least
compatible to insure maximum performance design should incorporate built-in flexibility to meet the growing needs of the occupants the CAT6 cabling system must be tested using an appropriate field test instrument for
li i h ANSI/TIA/EIA 568 B 2 C 6 ( i l if hi h ifi i
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Bulk Service Application
This kind of service solution usually applies to buildings that are having their own IT network and system
operator, such as hotels, hospitals, schools, universities, banks, airports, warehouses, workshops and
other similar establishments. Sharing the client server or IT room with du can be one solution to deliver
the services simply and quickly which is convenient to both du and the client. In such case of room
sharing, free space inside the client room needs to be provided and reserved for du usage. Free space
could be either „rack unit space‟ in an existing client rack or a „ floor space ‟ inside the room to
accommodate a floor mounted rack dedicated for du.
Letter from the client should be submitted during the building NOC stage confirming the bulk service
request with detailed information on the required telecom services.
The consultant is advised to approach du prior to the Building NOC submission to be able to assess and
decide if sharing the space with the client is the best approach or a dedicated du room is technically
recommended for some reason or another.
In case that a dedicated room is required by du, the room specifications as mentioned in the telecom
spaces section must be followed. The final du requirements including space, containment, cabling and
power will be finalized during the NOC stage.
Cable connectivity between du and the client rack or room must conform to the cabling standard of du, as
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final requirement will be finalized during the NOC stage. The business consolidation cabinet must be in a
secured location. It is the responsibility of the building developer / consultant to coordinate with du at the
NOC stage for any special or non-standard requirement.
Entry Ducts The building developer must provide lead-in ducts from the main telecom room to the plot boundary. Theexact connection points at the plot boundary will depend on whether the du network already reaches theplot.
Option 1 – du duct network already exists
The building developer will be responsible to connect to the du ducting system.
The operator will identify the location and quantity of their lead-in ducts.
Option 2 – du duct network is still to be built
The building developer will be responsible to extend the lead-in duct to 1m outside the plotboundary.
The building developer is responsible for locating and clearly identifying lead-in ducts.
In both cases the building developer will be responsible for the maintenance and repair of lead-in ducts.The lead-in ducts will be for the exclusive use of du. The quantity and size of these ducts for different kindof developments is detailed in Table-7. Refer to the Appendix_1_Figure-23 to 24.
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In case of combined plots, two entry locations are still required for primary and secondary networkconnections; this will be advised by du at the design stage.
Lead-In ducts - complex of villas
In the case of a complex of villas the building developer must connect the lead-in ducts to each villa in thecomplex. The lead-in duct size must not be reduced until the branching point for an individual villa.
Lead-In ducts – group of buildings
In cases where the building developer wishes to share lead-in ducts between a group of buildings (not ona common shared podium), then the design needs must be discussed with du at the design stage.
Lead-In ducts - building entry
Where lead-in ducts cannot be routed directly into the main telecom room, Hot-Dip Galvanized (HDG)slotted steel cable trays must be provided as an alternative. These trays must be easily accessible in
common areas to facilitate any future provision of additional cables. However, if these trays are in an areaaccessible to the public and are less that 4.8m above the floor then the trays must be covered.
A cable tray of minimum dimensions 300mm x 100mm (WxH) with Heavy Duty Return Flange (HDRF) willbe required for each pair of D54 entry duct pipes.
Lead-In ducts – entry box
Entry boxes are required to install telecom cables through the lead-in duct. The type and size of entry/pullboxes will depend on the characteristics of the building development. The details for entry boxes areincluded in the text below and summarized in Table-7. The quantity and location of the entry boxes willdepend on the route from the main telecom room to the network
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Responsibility MatrixItem No. Item description
Building’sowner
1 Lead-in ducts
2 Manholes outside the building/villa boundaries (including cover)
3 Pull box inside the building/villa boundaries (including the cover)
4 OSP fiber optic cables for buildings connections (including supply & termination)
5 OSP fiber optic cables for villas connections (including supply & termination)
6 Fiber optic cables supply between du Main Telecom Rooms (cluster of buildings)
7 Fiber optic cables pulling between du Main Telecom Rooms (cluster of buildings)
8 Fiber optic cables supply from du Main Telecom Room up to the CP cabinet
9 Fiber optic cables pulling from du Main Telecom Room up to the CP cabinet
10 Fiber optic cables termination & testing inside MTR, CP & FTC (if required inside FTC)
11 Horizontal cabling work inside the unit
12Fiber optic termination components such as the floor mount and wall mount high densityfiber panel, FDH, optical patch panel, mini ODF, micro ODF, connectors, adaptors and racks
13 Fiber optic splitter supply and installation
14 Patch cords supply
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LOCATION MAP
GPS Coordinates- ( Latitude: 25.124348° Longitude: 55.409880°)
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3m.
3 m .
2 x handheld CO2cylinder
extinguishers
Smoke Detectorconnected to BMS
NOTES:
Main Telecom
d u
F i b e r
E n
t r y c a
b l e
8 0 0 x
8 0 0
m m
R A C K 2
8 0 0 x
8 0 0
m m
R A C K 1
13A twin socket fed from utility powewith dedicated circuit breaker
Containment System Under theRaised Floor
A C C l e a n e a r t
h b a r
Building Riser
Raised Floor
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4m.
4 m .
A C C l e a n e a r t
h b a r
D C C l e a n e
a r t
h b a r
13A twin socket fed from utility powerwith dedicated circuit breaker
Smoke Detectorconnected to BMS
NOTES:
B u
i l d i n g R
i s e r
d uF i b
er
Containment System Under Raised Floor
800x800mm
RACK 2
800x800mm
RACK 1
800x800mm
RACK 2
800x800mm
RACK 1
S M D B
Active Component RacksPassive Component Racks
Refer to s
This Space is reservedfor du - UPS and
Batteries
2 x
3 2 AT
f ed
2 x
e
High Density Floor Mount ODF Racks forBuilding Fibers
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2m.
1 m
.
Building Riser
Smoke Detectorconnected to
BMS2 x handheld CO2 cylinder
extinguishers
150 mm opening
13A twin socket fed from utilitypower with dedicated circuit breakerMini - ODF
Appendix 1 - Figure 4
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4m.
4 m .
6 0 0 x
6 0 0
mm
2 G R
a c k
D C
S y s t em
600x600mm
3G Rack
600x600mm
4G Rack
8 0 0 x
8 0 0
m m
R A C K 2
8 0 0 x
8 0 0
m m
R A C K 1
A C C l e a n e a r
t h b a r
D C C l e a n e a r
t h b a r
2 xe
63A Three Pbuildin
13A twin socket fed from utility powerwith dedicated circuit breaker
13A twi
1 3 A
u t i l i t y
Smoke Detector connected to BMS
B u
i l d i n g R
i s e r
d uF i b
er
Containment System at high Level
High Density Floor Mount ODF racks
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4m.
4 m .
6 0 0 x
6 0 0
mm
2 G R
a c k
D C
S y s t em
600x600mm
3G Rack
600x600mm
4G Rack
A C C l e a n e a r t
h b a r
D C C l e a n e a r t
h b a r
2
63A Three Pbuildin
13A twin socket fed from utility powerwith dedicated circuit breaker
13A twin
1 3 A
u t i l it
Smoke Detector connected to BMS
B u
i l d i n g
R i s e r
d uF i b
Containment System at high Level
W a l
l M o u n
t O D F
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AC Clean earth bar
Building Riser
du Fiber Entry cable
Containment System underRaised Floor
DC Clean earth bar
S M D B
2 x handheldCO2 cylinder
extinguishers
5m.
63A Three Phase Isolator fed from
essential building power (for GSMEquipments)
600x600mm
4G Rack
6 0 0 x
6 0 0
m m
2 G
R a c
k
600x600mm3G Rack
DCSystem
Smoke Detectorconnected to BMS
2 x
3 2 AT h r e
ePh
a s eI s ol a
t or
f e d f r om S MDB- d
u ( F i x
e d
E q ui pm
en
t s )
800x800mm
RACK 2
800x800mm
RACK 1
800x800mm
Ac tiveRack
This Space isreserved for
UPS and
Batteries
High Density Floor MountODF racks 13A twin socket fed from
utility power with dedicatedcircuit breaker
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AC Clean earth bar
13A twin socket fed fromutility power with dedicated
circuit breaker
DC Clean earth bar
S M D B
4m.
63A Three Phase Isolator fed fromessential building power (for GSM
Equipments)
600x600mm
4G Rack
6 0 0 x
6 0 0
m m
2 G
R a c
k
600x600mm3G Rack
DCSystem
800x800mm
Ac tiveRACK
Smoke Detectorconnected to BMS
2 x 32A Three Phase Isolatorfed from SMDB-du (Fixed
Equipment)
High Density Floor Mount ODF racks
Containment System underRaised Floor
du Fiber Entry cable 800x800mm
RACK 1
This Space isreserved for
UPS andBatteries
2
xh an
d h
eld
C O2
c yl i n
d e
ex
t i n g ui sh
er
BuildingRiser
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Building Riser
du Fiber Entry cable
Active Component Racks
5m.
6 0 0 x
6 0 0
m m
2 G
R a c
k
Smoke Detector
connected to BMS
Passive Component Racks
600x600mm
4G Rack
600x600mm3G Rack
DCSystem
AC Clean earth bar
DC Clean earth bar
2 x handheldCO2 cylinder
extinguishers
S M D B
800x800
mmRACK 1
800x800
mmRACK 2
800x800
mmRACK 3
800x800
mmRACK 4
13A twin socket fed from utilitypower with dedicated circuit
breaker
2 x 32A Three Phasfed from SMDB-du
Equipm
T h i s S p a c e
i s r e s e r v e d
f o r
U P S a n
d B a t
t e r i e s
Containment System underRaised Floor
High Density Floor MountODF racks
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42
403938
34353637
33
020304050607080910
1314
161718192021222324252627
29303132
11
12
28
15
41
01i Patch
Fiber
10
B A
11
B A
12
B A
7
B A
8
B A
9
B A
4
B A
5
B A
6
B A
1
B A
2
B A
3
B A
Fiber Patch Panel – Supply andinstallation by du
Building FiberTermination
Area20 U – 24 U
This Area isReserved for the
Installation ofSplitters by du
18 U
Vertical rings
Raised Floor Tiles
42
403938
34353637
33
020304050607080910
1314
161718192021222324252627
29303132
11
12
28
15
41
01
Building FiberTermination
Area20 U – 24 U
This Area isReserved for the
Installation ofSplitters by du
18 U
RACK-2
Space Reserved for du
RACK-1
Appendix 1 - F
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Ring
Ring
Ring
Opening for Fiber Cablesfrom Building Riser
Du Fiber Entry Cables
S p
l i c i n g T r a y
S p
l i c i n g T r a y
S p
l i c i n g T r a y
S p
l i c i n g T r a y
Ring
Ring
Ring
Wall Mount ODF
Perforated door
Cable Tray at High Level For Building Fiber Cables
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12cm (W)
9 c m
( H )
2 . 5 c m
( D )
2 Core Fiber Cable EntOption -1
2 Core Fiber Cable Entry tothe Access Terminal Box
Option-3
2 Core Fiber Cable Entry tothe Access Terminal Box
Option-2
2 Core Fiber LC/APC Adapter
Minimum 1 meter Pigtail insi
Terminate the end of the pigtai
Terminate the end of the pigtail
1 2
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Unit -01 Unit -03 Unit-05 Unit-7Unit -06 Unit -04 Unit-02Unit -X1
Unit -01 Unit -03 Unit-05 Unit-7Unit -06 Unit -04 Unit-02Unit -X1
Unit -01 Unit -03 Unit-05 Unit-7Unit -06 Unit -04 Unit-02Unit -X1
Unit -01 Unit -03 Unit-05 Unit-7Unit -06 Unit -04 Unit-02Unit -X1
Ground Floor
1 st Floor
5 th Floor
10 th Floor
20 th Floor
30 th Floor
Roof Floor
Combined MTR and MobileService Room for Fixed and GSM
services
FTCROOM
300mm Cable Tray for GSM Cables500mm Cable Tray for Building Fiber Cables
Unit -01 Unit -03 Unit-05 Unit-7Unit -06 Unit -04 Unit-02Unit -X1
50mm Cable Tray
Schematic diagram with Combined MTR and Mobile Service roomsBuilding Type – Residential /Commercial/Mixed Use
Mobile Service Room at Every 10th
Floor
Roof TopGSM room
200mm Cable Tray forHorizontal Distribution
200mm Cable Tray forHorizontal Distribution
FTCROOM
FTCROOM
FTCROOM
FTCROOM
Mobile Service Room at Every 10 th Floor
Mobile Service Room at Every 10 th Floor
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Building1
Building
6
Bu
BuBuilding3
Building2
MainMTR
MTR MTR
MTR
Plot Limit
P l o t L i m i t
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Entry Box60x60x80cm
Ground Level
PLOT LIMITPLOT LIMIT2W D
2W D56 ducts from VillaEntry box to Villa Cabinet
Single Villas infrastructure - Schematic diagram
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Villa 01 Villa 02
JRC12
JRC12
Duc
Villa 03 Villa 04 Villa 05 Villa 06Villa 07 Villa 08 Villa 09 Villa 10 Villa 11 Villa 1
2W D56 ducts from each villa Entry box to Manhole- JRC 12
2W D54 ducts between manholes
2W D54 ducts between manholes
PLOT LIMIT
P L O T L I M I T
Entry Box
Lead in du
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300mm (W) x 300mm (H)Opening for Cables Entry
600mm (W)
6 0 0 m
m ( H )
Tile Cutting Layout for 600mm X 600mm Tile
150mm 150mm
Appendix 1 - Figure 25
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32A TPMCCB
32A TPMCCB
32A TPMCCB
32A TPMCCB
spaces32A TPMCCB
63A TP Iso.
ESMDB-MTRSupplied by building
contractor
Essential DB
ATS
1 2 3
3 x spares
32A TPIsolator
32A TPIsolator
4Cx 10mm2 XLPE/SWA + 1CX10 ECC
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A p p e n
d i
x
-
F i
g u r e
2 8
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A p p e
n d i
x
-
f i
g u r e
3 2
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A p p e n
d i
x
-
F i
g u r e
3 3
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Labeling Scheme for 2 core SM Fiber cables using ferrule (during Cable pulling)
Labeling Scheme for Cabinets inside apartments/offices/reception/retail shops etc..
Floor number/name -Unit number/name Example – F1-ACP12
Labeling Scheme for Cat 6 cables inside Units using ferrule (during Cable pulling)
Labeling Scheme for Cat 6 RJ45 Patch Panel Number-Port numbe
Example PP1 P 1
2 Core SM Fiber Cables at MTR side 2 Core SM Fiber Cables at U
F02-ACP04-C01Example for apartments Example for offices Example for Retail Shops
FL03-OCP05-C01FL02-ACP04-C02 FL03-OCP05-C02
GR-RCP01-C01GR-RCP01-C02
Example for Reception Example for BMS roomGR-REP-C01GR-REP-C02
B1-BMS-C01B1-BMS-C02
MTR/FTR number-core numMTR01-C1MTR01-C2
Example-
Labeling Scheme for 2 Core Fiber Terminal BoxRack number-ODF number-ODF row/slot number-core numbersExample - RK2-ODF1-R1-C1,2Example - RK2-ODF1-S1-C3,4
Note – Always Terminate the end of the pigtail-1 to Core-1 of SM fiber Cable
Labeling Scheme for 2 core adapter inside Fiber Ter
Vertical Orientation 12 Horizontal Or
Labeling Scheme for 2 core SM Fiber cables after terminating inside Fiber ODF/patch Panel
Floor number/name-unit number/name-ODF core number Example - FL10 -ACP012-ODF 95,96 Example - FL01 -ACP04
Floor number/name-unit number/name-core number
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Combined Telecommunication Room Sizes-For Fixed and Mobile Services
Table No -1
Note: Provide 3 m (L) x 3 m (B) x 3 m (H) GSM room for every 10 th floor starting from the lowest basement.
Table No -2
Number of unitsMTR Size in Meter
(L X B X H)Residential
MTR Size in Meter(L X B X H)
Commercial/Mixed Use Up to 300 units 3 x 3 X 3 3 x 4 x 3
300 to 600 units 3 x 3 X 3 3 x 4 x 3
600 to 1200 units 4 x 4 x 3 4 x 4 x 3
More than 1200
units
Will be Advised at NOC Stage Will be advised at NOC Stage
Note: Requirements of wall mount ODF inside FTRs will be advised at NOC stage
Number of unitsCombined MTR and GSM
Sizes in Meter(L X B X H)
Residential
Combined MTR and GSM Sizes inMeter
(L X B X H)Commercial / mixed Use
Up to 300 units 4 x 4 x 3 4 x 4 x 3
300 to 600 units 4 x 4 x 3 4 x 4 x 3
600 to 1200 units 4 x 5 x 3
(Only for GPON Solution)
5 x 5 x 3
More than 1200units
Will be Advised at NOCStage
Will be Advised at NOC Stage
Fiber Cables Termination details inside MTR and FTC for Residentail/Commercial
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Fiber Cables Termination details inside MTR and FTC for Residentail/CommercialBuildings – Table-4
Number of CommercialUnits
Racks required toTerminate Building Fiber
Cables Inside MTR
Wall Mount ODF Indoor HighMulticore Fiber
Cables(to connect wall
Mount ODFsand MTR)
Fiber Patch Paneland ODF Core
quantity(angled adapter
Type)
Racks Units required toTerminate Building FiberCables in each 42 U Rack
Up to 150 Units(G+15)
One Number of 42 U 800X800, 19 inch Free standing
Rack required
Not Required Not required 4 Number of 96Core Fiber PatchPanel required
20 U to 24 U
150 to 300 Units(G+16 to G+30)
Two Number of 42 U 800X800, 19 inch Free standing
Rack required
Not Required Not Required 7 Number of 96Core Fiber PatchPanel required
20 U to 24 U in eachRack
300 to 600 Units(G+31 to G+60 Floors)
Minimum one number ofHigh density rack required
Install wall
mount mini ODFat every 10 th
Floor(Starting from
30 th Floor)
Install and
TerminateIndoor
Multicore FiberCables
Use High density
angled adapterFiber patch Panels
42 U
600 to 1200 Units(Towers)
(G+61 to G+120 Floors)
Minimum two number ofHigh density rack required
Install wallmount mini ODF
at every 10 th Floor
(Starting from
30th
Floor)
Install andTerminate
IndoorMulticore Fiber
Cables
Use High densityangled adapter
Fiber patch Panels2 X 42 U
For above 1200 Units(For above G+120)
The requirements will advised at NOC stage
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Fiber Cables Termination details inside MTR and FTC Mixed Use Buildings – Table-5
Number ofCommercial
Units
Racks required toTerminate
Building FiberCables Inside
MTR
Wall MountODF
IndoorMulticore
Fiber Cables(to connectwall MountODFs and
MTR)
Fiber PatchPanel andODF Corequantity(angledadapter
Type)
Racks Unitsrequired toTerminate
Building FiberCables in each
42 U Rack
Up to 150 Units(Considering 50%
Units to beResidential and50% Units to be
Commercial)
One Number of42 U 800 X
800mm requiredfor Residential
UnitsOne Number of
42 U 800 X800mm requiredfor Commercial
Units
NotRequired
Notrequired
2 Numberof 96 CoreFiber Patch
Panelrequired ineach rack
20 U to 24 U ineach Rack
150 to 300 Units(Considering 50%
Units to beResidential and50% Units to be
Commercial)
One Number of42 U 800 X
800mm requiredfor Residential
UnitsOne Number of
42 U 800 X
800mm requiredfor Commercial
Units
NotRequired
NotRequired
4 Numberof 96 CoreFiber Patch
Panelrequired ineach rack
20 U to 24 U ineach Rack
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Configuration specification for Wall mount ODF to hold Sub Racks for Optical Splitters
Number of
Units(Apartments,
Retails)
Number of
Building FiberCore Spliced
inside of WallMount ODF
Requirement
of 2:32Splitter Unit
Requirement
of 2:16Splitter unit
Requirement of
2:2 Splitter Unit
Feeder Port/Cores
required to terminateEntry Cables for 2:32
splitter Ratio Scenario
Feeder Ports/Cores
required to terminateEntry Cables for 2:16
splitter Ratio Scenario
Up to 150Residential
Units
300 Cores 5 10 1 12 Cores 24 Cores
Up to 300Residential
Units
600 Cores 10 19 1 24 Cores 48 Cores
Up to 600Residential
Units
1200 Cores 19 38 1 48 Cores 76 Cores
Note - Consultants and Contractors are advice to coordinate with du at NOC stage for the exact Splitter Ratio scenario and for the exact Splitter Size
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Single Villa Complex of Villa(15 to 100) For Multi-tenant Buildings shopping Mall Warehouse and Shed Bulk Service
Ducts 2 xD56 (50mm)2 xD56 (50mm) per Villa
2xD54(100mm) for plot Entry
2 XD54(100mm) PrimaryRoute and 2 XD54(100mm)
Secondary Route
2 XD54(100mm) PrimaryRoute and 2 XD54(100mm)
Secondary Route
2 xD56 (50mm) perWarehouse 2xD54(100mm)
plot Entry
2 XD54(100mm) PrimaryRoute and 2XD54(100mm)
Secondary Route
Entry Box600mm x600mm
X800mm(LXBxD)per Villa600mm x600mm
X800mm(LXBxD)per VillaNot Required Not Required
600mm x600mmX800mm(LXBxD)per
WarehouseNot Required
Manhole Not RequiredJRC 12 for every 12 Villas + JRC
12 for plot EntryJRC 12 JRC 12
JRC 12 for every 12 Villas +JRC 12 for plot Entry
JRC 12
TABLE 7 - OSP TABLE