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GPON installation in high rise buildings via Fiber Tree system
In this document we would like to demonstrate a GPON application and installation example on a high rise building by using Canovate fiber tree system. Polat Tower is a commercial &residential complex of 40 floors, and on each floor we have 8 customers. Thus there is appx 320 FTTH subscribers in this building. Fibertree solution has been chosen as preferred solution due to its advantages in terms of reduced installation time, ease of installation and minimized amount of fiber cable&accessories.
Less riser cables and termination boxes (lower CAPEX)Faster installation time Lower installation costEase of installationEase of maintenanceIdeal for narrow and densely populated shafts
Fibertree Advantages
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1U 24 Port Feeder Patch Panel
OLT Device
2U 48 Port Distribution ODF
2U 5x1:8 Splitter Module
1:8 Splitter ODB Box
2 Port Customer Termination Box
2 Port Drop Cable
Basement
Shaft
Customer Premise
Branching Kit
48 Core Fiber Tree Cable
1U 24 Port Feeder Patch Panel
1U 24 Port Feeder Patch Panel
OLT Device
2U 48 Port Distribution ODF
2U 5x1:8 Splitter Module
Outdoor Feeder Cable
Splice Point
Basement
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Pigtail0,9mm
Pigtail0,9mm
Patchcord2mm
Patchcord2mm
Patchcord2mm
OLT 2U 5x1:8 Splitter Module
Splice Point 1:8 SplitterAdapter
Connector Connector
Adapter
Connector
Adapter
Pigtail0,9mm 48 Core Fiber Tree Cable
Patchcord2mm
Splice Point
Connector
Adapter
2U 72 Port Distribution ODF
Functional Block Diagram
We have a 12U wallmount rack at the main telecom room on the basement of the building. The incoming outdoor fiber cable of 24 core is spliced via a 24 port feeder patcpanel and connected to the OLT device to provide GPON fiber connectivity in this tower. We use a 2U Splitter Module with 5 pieces of 1:8 SC/UPC splitters to provide connectiv-ity for each 40 floors (5x 8). The interconnection between these splitters and the special flexible 48 core fiber tree cable is done by the 2U 48 port customer distribution ODF.
Shaft of the Building
Cable Protection Tube
1:8 Splitter ODB Box
1:8 Splitter ODB Box Drop Cable
Branching Kit on the Shaft
Branching Kit
48 Core (12x4) Fiber Tree Cable
Drop Cable
1:8 Splitter
48 Core Fiber Tree Cable
Splice Point Splice Point
1:8 Splitter ODB BoxBranching Kit
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Functional Block Diagram
48 core fiber tree cable is installed alongside the entire shaft of the tower. On each 40 floors we installed a brancing kit on the shaft. We made a small cut on the 48 (12x4) core fiber tree cable and take a single core on each floor. This single core is protected inside the brancing kit, pulled out and directed via a cable protection tube to the 1:8 SC/PC Splitter ODB box, which is placed on the shaft . Thus we can provide connectivity for up to 8 subscribers on each floor from a single fiber core.
Customer Premise2 Port Customer Termination Box
2 Port Customer Termination Box
Fiber Patch Cord
Copper LAN Patch Cord
2 Port Drop Cable
ONU
Drop CableFiber Patch Cord
2mm Copper LAN Patch Cord
1:8 Splitter
Outer Sheath
Steel Wire Rope 0,50mm
Optical Fiber
Splice Point Splice Point
1:8 Splitter ODB Box2 Port Customer Termination Box
Pigtail0,9mm
Adapter
ConnectorONU
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On the customer side we have 2 port customer termination boxes to provide fiber connectivity. 2 port bend insensitive drop cables are used to enable the connection between the 1:8 SC/PC splitter ODB on the shaft area and the 2 port cus-tomer termination box inside the customer premises. 2 port customer box is connected via patchcords to ONU devices to bring fiber connectivity inside the customer premises.
Functional Block Diagram
In this document we would like to demonstrate a GPON application and installation example on a low rise building by using Canovate fiber tree system. This building is a residential complex of 8 floors, and on each floor we have 2 customers. Thus there is 16 FTTH subscribers in this building. Fibertree solution has been chosen as preferred solution due to its advantages in terms of reduced installation time, ease of installation and minimized amount of fiber ca-ble&accessories.
GPON installation in low rise buildings via Fiber Tree system
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2x1:8 ODB Box
2 Port Customer Termination Box
Individual Cable with Protection Tube
Branching Kit
24 Core Fiber Tree Cable
Basement
Shaft
Customer Premise
Basement
2x 1:8 Splitter ODB Box
24 (12x2) Core Fiber Tree Cable
1:8 SplitterFeeder Cable
24 Port Fiber Tree Cable
1:8 Splitter
Feeder Cable
Splice Point Splice Point
2x 1:8 Splitter ODB Box
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We have a 2X 1:8 SC/PC splitter ODB box at the the basement of the building. The incoming outdoor fiber cable of 4 core is spliced to the inputs of 2x 1:8 splitters in this box and the outputs of these splitters are connected the special flexi-ble 24 (12x2) core fiber tree cable.
Functional Block Diagram
Shaft of the Building and Customer Premise2 Port Customer Termination Box
2 Port Customer Termination Box
Fiber Patch Cord
Copper LAN Patch Cord
ONU
Individual Fiber Tree Cable with Protection Tube
Fiber Patch Cord2mm Copper LAN Patch Cord
Splice Point
2 Port Customer Termination Box
Pigtail0,9mm
Adapter
ConnectorONU
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Individual Fiber Tree Cable with Protection Tube
24 Core Fiber Tree Cable
Branching Kit
Branching Kit
Branching Kit on the Shaft
24 core fiber tree cable is installed alongside the entire shaft of the tower. On each 8 floors we installed a brancing kit on the shaft. We made a small cut on the 24 core fiber tree cable and take a single core on each floor. This single core is protected inside the brancing kit, pulled out and directed via a cable protection tube to the 2 port customer termination boxes to provide fiber connectivity at the customer premises. The 2 port customer box is connected via patchcords to ONU devices to bring fiber con-nectivity inside the customer premises.
Functional Block Diagram