Introduction: The In-building Challenge Edgar Aker Director of Marketing and Product Management EMEA Milan (Italy) – February 8 th , 2011 www.draka.com/communications
Introduction: The In-building ChallengeEdgar AkerDirector of Marketing and Product Management EMEA
Milan (Italy) – February 8th, 2011www.draka.com/communications
Create Customer Value through Innovation
Drivers & Key trends ….in FTTH and Home Networks
FTTH & Home NetworksEvolution, technologies and Optic Fiber2
1
3 Cabling: Cat. & Optical Fiber Technology, standardization & applications
4 Summarizing … so what does this mean?
Introduction: The in-building challenge
Drivers & Trends: “Global consumer trends”
Communication
Medical: e-Health
Education:
e-Learning
Entertainment
Hobbies
Government:
e-Gov
Professional:
TeleWorking
“It’s an incomplete puzzle”
Introduction: The in-building challenge
Drivers & Trends: “Global consumer trends”
Communication
Medical: e-Health
Education:
e-Learning
Entertainment
Hobbies
Government:
e-Gov
Professional:
TeleWorking
“It’s an incomplete puzzle”
Entertainment:• On-line Gaming (No.1)
• TV –on-demand
• Digital Television
• On-line gambling
• Music
• Videos
Introduction: The in-building challenge
Drivers & Trends: “Global consumer trends”
Medical: e-Health
Education:
e-Learning
Entertainment
Hobbies
Government:
e-Gov
Professional:
TeleWorking
Communication
“It’s an incomplete puzzle”
Communication:• Triple-play access
• Multiple HDTV channels
• Internet TV
• High speed internet (up-& download)
• Video telephony(Skype etc.)
• Live- multimedia sessions
Introduction: The in-building challenge
Drivers & Trends: Consumers expectancy
Home
Consumer
Smart-grid
HDTV
GreenCarbon footprint
Triple Play
Low costs Easiness of installation
Easiness of use
Bandwidth…and quality of service
Ultra-high bandwidth
ARPU
Introduction: The in-building challenge
Trends & Drivers: Consumers expectancy
“Consumers expect (and
already rely on) uninterrupted,
high quality, always available
services.”
To summarize:
(1) Uninterrupted
(2) High quality (Bandwidth? QoS)
(3) Always available
What does this mean for your network?
Introduction: The in-building challenge
FTTH & Home Network: What is what?
Distinguish two parts:
1) Fiber-to-the-Home:
“Next generation access”
Driven by telecom operators
2) Fiber-in-the-Home:
“Home Network”
Driven by consumers / services
Home gateway being then the frontier
between the telecom network and the
private home network
INV
ESTMEN
T COSTS
FUTU
RE PROV
ING
Introduction: The in-building challenge
FTTH & Home Network: FTTH NGA Evolution
Technology Frequency available
Downstream capacity
V.90 modem 56 kbps
ADSL2+ 2.2MHz 12 Mbps
VDSL2 (Europe) 12MHz 52 Mbps
DOCSIS3.0 32 MHz (4 channels)
160 Mbps
Wi-Fi / WiMAX
LTE 20MHz 300Mbps
satellite Ka band
GPON 2.5 Gbps 64 users shared
Ethernet 1 Gbps dedicated
Source:
FTTH Council Business Guide 2.0
Legacy Copper Networks
Wireless Networks
Next Generation Access
Fiber-to-the-Home Networks
Introduction: The in-building challenge
FTTH & Home Network: Home network evolution
2004 2010 2012 > 2016
30 % of home connected to HDTV
services have more than one HDTV1)
in the home
Presently recommended by
standards (copper, CATx
cables)
HN1 HN4HN2 HN3
1) Consumer electronics association, USA, 2007 - Structured wiring
IS THE NETWORK PROVIDING THE SERVICE YOU NEED?
Introduction: The in-building challenge
An update on Structured Cabling: The technology
AWG23 Al-laminated plastic foil,Unrestricted compatibility to all usual market components
Sheath: Protective elementsFlame and fire barriersNon-toxicLow smoke emission
copper braid, tinned, (ca. 65 % coverage)Best suppression of noise and EM interferences
patented wrapping of two pairs each(6F S/FTP)Maximum Channel separationexcellent ACR Performance
Introduction: The in-building challenge
An update on Structured Cabling: Issues
Potential for future transmission:• 10Base-T; 100Base-T; 1000Base-T;
10GBase-T; ISDN; TPDDI; ATM; CATV;
• Broadband Video, SOHO-Cabling
EN50173-1; ISO/IEC11801
Cat.5e U/UTP, F/UTP, SF/UTP
Cat.6 U/UTP, U/FTP, S/FTP
Cat.6a F/FTP
Cat.7 S/FTP
U/UTP:Unshielded Twisted Pair
F/UTP:Foil/ Unshielded Twisted Pair, Drain
wire
SF/UTP:Screened (copper braid, tinned) + Foil
Shielded/ Unshielded Twisted Pair,
Drain wire
S/FTP:Screened (copper braid, tinned) / Foil
Shielded Twisted Pair
Introduction: The in-building challenge
An update on Structured Cabling: Standardization
Optical Multimode Fibers• OM1: Standard 62.5 μm fibres
• OM1 HiCap™: 62.5 μm enhanced
fibres; 1300 nm optimised
• OM2: Standard 50 μm fibres
• OM2 HiCap™: 50 μm enhanced fibres;
1300 nm optimised
• OM3 MaxCap™: enhanced 50 μm
fibres, 850 nm optimised
• MaxCap™ 300
• MaxCap™ 550
Optical Single Mode Fibers• ESMF: Enhanced Single Mode Fibres
• BIF: Bend Insensitive Fibers
10GBASE-fibre TypesISO/IEC11801
Introduction: The in-building challenge
An update on Optic fibers: The technology
Optical fibers are made of
glass protected by polymer
coatings• Glass: the core
and the cladding– Overall diameter: 125 µm
• Polymer: the primary and
the secondary coatings– Overall diameter: 250 µm
Core (glass)
Cladding (glass)
Note: in this presentation optical fiber will refer to these
type of fiber based on extremely pure silica glass; when other types will be
addressed, their specific name will be used
Colored coating (plastic)
∅ = 0.008 mm (single mode)
∅ = 0.050 or 0.0625 (multimode)
Bend Insensitive Fibers (BIFs):
The best choice for Fiber-to-the-Home
Introduction: The in-building challenge
An update on Optic fibers: Bending is an issue
G.657 (2009)
Access cabling
G.652.D compliant All bands 1260-1625nm
Access end-to-end
Building cabling
Not G.652.D compliant1310 / 1550 / 1625nm
Restricted distances
A1 B2
A2 B310 mm
7.5 mm 5 mm
Sketch of structure version #2 (11/2009)
Introduction: The in-building challenge
An update on Optic fibers: Standardization
G.657.A2
Introduction: The in-building challenge
An update on Optic fibers: Standardization
Introduction: The in-building challenge
Summarizing
Consumers expect:
1. Uninterrupted
services
2. High quality services
(e.g. Bandwidth/QoS)
3. Always available
services
Distinguish networks:
• Fiber-to-the-Home
• Fiber-in-the-Home
Home network;
Multiple solutions to meetthe consumer expectations: WiFi, Copper, POF, Optic Fiber
Fiber-to-the-Home; “Telecom operators see fiber as the ultimate solutions”, and several hybrid scenarios from different legacy situations to ultimately reach FTTH
Thank you for your attentionwww.draka.com/communications