FIBER TO THE BUILDING (FTTB) NETWORK PLANNING USING GPON
Optical fiber can transfer data or information with high speed and a large <br /> <br /> bandwidth. Because of that, optical fibre can give a triple play service which <br /> <br /> includes home telephone service, internet service, and cable TV service. <br /> <br /...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/22681 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Optical fiber can transfer data or information with high speed and a large <br />
<br />
bandwidth. Because of that, optical fibre can give a triple play service which <br />
<br />
includes home telephone service, internet service, and cable TV service. <br />
<br />
A network using optical fiber is called FTTx (fiber to the x). One of the FTTx <br />
<br />
architectures is FTTB (fiber to the building) which is an optical fiber network <br />
<br />
dedicated for high rise building (HRB). In the installment of optical fiber network, <br />
<br />
a thorough planning is needed. <br />
<br />
In this final project, a planning for an FTTB network will be deployed using <br />
<br />
Gigabit Passive Optical Network (GPON) technology. The planning is done by <br />
<br />
learning about the location and the site plan of the apartment that will be installed <br />
<br />
with an optical fiber network then choosing the right devices that will be used <br />
<br />
along with the needed amount. The planning will be continued by making the <br />
<br />
appropriate network configuration design. The last step is making the necessary <br />
<br />
calculation and analysis of the network capacity, the link power budget, and the <br />
<br />
rise time budget in order to find whether the network is up to the standard and <br />
<br />
ready to be used. <br />
<br />
The network uses 25 ODP devices, 141 ONT devices, and 59 spares. The <br />
<br />
maximum capacity of the network can be used to serve 145 users/core with bit <br />
<br />
rate up to 1.659 Gbps. The power margin is 1.748 dB for upstream and 1.927 for <br />
<br />
downstream. The total loss including its tolerance factor is 25.252 dB for <br />
<br />
upstream and 25.073 dB for downstream. The rise time budget is 0.25 ns for <br />
<br />
upstream and 0.2522 ns for downstream. <br />
<br />
Network planning has fulfilled the quality standard with link power budget below <br />
<br />
-28 dBm and power margin above 0 (zero). Also, the rise time budget doesn’t <br />
<br />
exceed 70% of one bit periode of NRZ. <br />
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