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![Page 1: Graduate Engineer Lunch & Learn Edmonton, 2011 The Evolution of FTTH Technology Jonathan Hnit, P.Eng August 25 th, 2011.](https://reader035.fdocuments.net/reader035/viewer/2022070409/56649e9d5503460f94b9e518/html5/thumbnails/1.jpg)
Graduate EngineerLunch & LearnEdmonton, 2011
The Evolution of FTTH Technology
Jonathan Hnit, P.Eng
August 25th, 2011
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Outline
Fibre Optics
Why FTTH?
GPON Overview
FTTH Evolution NG-PON1 (10G) NG-PON2 (40G & beyond)
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Fibre Optics
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Optical Data Transmission
Optical: relating to light
Laser can be used to transmit a beam of light.
Optical receiver can detect a beam of light.
By pointing a laser at an optical receiver, I can transmit a signal to it.
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ReceiverTransmitter
Optical Transceivers
Transceiver
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Digital Signaling
Two states: Laser OFF = “0” Laser ON = “1”
Each “1” or “0” in a transmission is called a bit
Bits are the building blocks for larger pieces of information Letter ‘A’ = “1000001” Letter ‘B’ = “1000010”
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Data Rates
Bandwidth: the amount of data we can transmit in a given time period.
BW is measured in bps (bits per second)
Low Bandwidth
High Bandwidth
vs
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Sample Data Rates
Data Signal Data Rate Bits Per Second Time required to count that high
Voice (phone) 64 Kbps 64,000 18 hours
Music (CD Quality) 320 Kbps 320,000 89 hours
SD TV 2.2 Mbps 2,200,000 25 days
HD TV 5.6 Mbps 5,600,000 65 days
Internet Connection 15.0 Mbps 15,000,000 174 days
GPON port 2.5 Gbps 2,500,000,000 79 years
Fibre uplink 10.0 Gbps 10,000,000,000 317 years
Note: K = Kilo = Thousand = 1000x bps M = Mega = Million = 1,000,000x bps G = Giga = Billion = 1,000,000,000x bps
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Fibre Optic Cable
Glass tube capable of bending light
Can direct a laser beam through a fibre optic cable to a receiver
Fibre has a max bending radius, if you bend it too far, the light escapes out the sides
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Fibre Optic Transmission System
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Why FTTH?
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Access Network
Network to deliver services (TV, phone, internet) from a Central Office to our customers
Central Office
customer
customer
DSL modem
DSL modemDSLAM
101010
101010
Copper
Copper
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Limits of Copper
Bandwidth Limitations ADSL2+ 15Mbps VDSL2 40 Mbps VDSL2 with bonding
70Mbps VDSL2 with bonding & vectoring
100Mbps
Distance Limitations ADSL2+ 1400m from CO VDSL2 600m from CO
Maintenance Copper cable lasts ~20 years Requires replacement
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Ongoing Bandwidth Drivers
10Kb
100Kb
1Mb
10Mb
100Mb
1990 1995 2000 2005 2010 2015
Bandwidth Usage Projections1Gb
Historical BW growth is ~1.4x per year
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FTTH – Fibre to the Home
Uses fibre instead of copper to deliver services to the home
Higher Bandwidths 2.5Gbps shared by 32 customers (72+
Mbps)
Longer Reach 20km between CO and customer’s home
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GPON – Gigabit Passive Optical Network
Breakdown of key-words in GPON:
Gigabit – Dealing with high Bandwidths (2.5Gbps per PON port) Passive – No power required between Central Office and the
customer’s home Optical – Data transmitted using light Network – Access network between the Central Office and the
customer’s home
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GPON – Gigabit Passive Optical Network
Central Office
customer
customer
DSL modem
DSL modemDSLAM
Drop Copper
Drop Copper
Feeder Copper
Feeder Copper
OLT
ONT
ONT
Splitter(1:32)
Feeder Fibre
Drop Fibre
Drop Fibre
Current: Electrical signals over copper
GPON: Optical signals over fibre
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GPON Overview
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Bi-Directional Transmission
Splitter(1:32)
ONT customer
ONT customer
OLT
Central Office
2.5Gbps @1490nm
1.25Gbps @1310nm
OLT transmits downstream on a single feeder fibre 2.5Gbps @ 1490nm
ONT transmits upstream on the same fibre 1.25Gbps @ 1310nm
Drop Fibre
Drop Fibre
Feeder Fibre
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OLT – Optical Line Terminal
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Splitter
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Optical Network Terminal
• Optical to Electrical conversion
• Integrated ATA for voice service
• 8 hour battery backup via UPS
4x GE ports
2x POTS ports
UPS Power
1x PON port
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Downstream Transmission - Broadcast
Signal is split 32 ways at the splitter
Each ONT receives the exact same frames
ONT discards the frames that are not addressed to it
OLT uses continuous mode optics
ONT Customer A
ONT Customer B
OLT
Central Office
B A BA
BA
B
AB
ASplitter(1:32)
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Upstream Transmission - TDMA
If both ONTs transmit at the same time, their signals interfere with each other when they reach the splitter…
Splitter(1:32)
ONT Customer A
ONT Customer B
OLT
Central Office
B
AA
B
A
B
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Upstream Transmission - TDMA
ONT Customer A
ONT Customer B
OLT
Central Office
B
AA
B
A
B
ONTs use TDMA to take turns transmitting upstream
OLT broadcasts a BWmap to all ONTs
BWmap assigns each ONT a different timeslot in which to transmit
ONT use burst mode optics
Splitter(1:32)
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PON Evolution
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PON Standards Roadmap
2005 2010 2015
GPON
EPON
2.5 Gbps
1.0 Gbps
10 Gbps
40+ Gbps
XG-PON
10G-EPON
NG-PON
Co-existenceCo-existence
NG-PON2• WDM PON ?• 40G TDM
PON ?
Component R&D
Disruptiv
e
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XG-PON
Approved by ITU-T in early 2010
10Gbps downstream @ 1577nm
2.5Gbps upstream @ 1270nm
Co-existence with GPON
Split ratio of up to 1:256
Successful field trials of XG-PON completed in 2010
XG-PON demo systems available today
XG-PON commercial systems expected early 2012
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XG-PON Addition
OLT
ONUcustomer
ONU customer
Feeder Fibre
Drop Fibre
Drop Fibre
2.5Gbps @1490nm
1.25Gbps @1310nm
Splitter(1:32)WDM1r
XG-PON
10.0Gbps @1577nm2.5Gbps @1270nm
XG-ONU
customer
Drop Fibre
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NG-PON2 – TWDM-PON Selected
OLT
Central Office
Feeder Fibre
ONU - Blue
ONU - RedAWG
TR-Blue
TR-Red
AWG
ONU - Blue
ONU - Red
Splitter
Splitter
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ONU Evolution
Simple Complex
Mini ONUs Integrated RG/ONUs
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Questions?