Aurora’s Fiber Deep GEPON Alloptic’s Expansion Passive ... · Corning Cable Systems invented...
Transcript of Aurora’s Fiber Deep GEPON Alloptic’s Expansion Passive ... · Corning Cable Systems invented...
Corning Cable Systems invented the OptiTap™ Connector, the key product driving anentire industry to embrace preconnectorized FTTx solutions. This basic building blockof successful FTTx deployments is a critical component of preconnectorized terminals.Authentic OptiTap Connector drop ports reduce signal loss by up to 33 percent and cutterminal installation time in half. And, we didn’t stop after creatingthe industry standard. When we applied this technology to ourOptiSheath™ MultiPort Terminal, we added state-of-the-art weldingtechnology to seal it completely and implemented 100 percentflash-testing in the factory for unmatched reliability.
All terminals are not created equal.www.corning.com/nosubs/CED
FTTx Innovation ... It’s in our DNA.
© 2007 Corning Cable Systems LLC / EV-01641©2007 Scientific Atlanta, a Cisco Company. All rights reserved.
DOCSIS-PONFuture-Facing FTTH Network for MSOs
• Deploys seamlessly within cable operator’s existing HFC plant
• Meets FTTH mandates for Master Planned Communities
• Leverages existing DOCSIS back office and CPE investment
• Supports legacy and new build initiatives
• Uses standard PON components - economies of scale
Learn more atwww.scientificatlanta.com/DPON
MicroNodeTM
www.alloptic.com
Imagine the Possibilities…
Distributed Fiber-to-the-Home is Here Today!
Get your guide to ADC’s MSO Market Solutions or speak with one of our representatives by contacting us today.
ADC offers an extensive portfolio of productsand services for cable operators, including:
• RF signal management with exclusive “make before break” pad technology
• FTTX solutions• Digital audio and digital video patching• DC power solutions• Professional services for cable network planning,
deployment and maintenance
Call 1.800.366.3891 or visit ww.adc.com
MSO SOLUTIONS
CED®
6041 South Syracuse Way, Suite 310, Greenwood Village, CO 80111©CED Magazine. August 2007.www.cedmagazine.com • 973-920-7000 • Fax 973-920-7738CED® is a registered trademark of Advantage Business Media.CED® is not responsible for any errors or omissions in this chart.All rights reserved. Reproduction without written permission is prohibited.
Overview:
FTTH may be a service provider requirement
Master Planned Communities (MPCs) are mandating FTTH solutions
Telecos and munis are enjoying the majorityof the MPC FTTH business
Cable MSOs need a manageable FTTH solution
A DOCSIS-based FTTH soloution for the MSOs– MSOs can leverage existing back office and CPE investments
Requires standard HFC-like optics and back office equipment
Creates a “future-proof” outside plant PON standard to competewith FSAN
Driven from a 32/split PON infrastructure to leverage low-coststandard PON equipment
DOCSIS management and provisioning
Migratable to next-generation solutions with ONT changes
Recommendation:
CMTS
Analogoptics 1550
1310
32-waysplitter DOCSIS
PONONT
(1)
(32)
Scientific Atlanta’s D-PON Products (MSO FTTH)
Hitachi’s AMN 1220 Deployment FlexibilityHitachi Telecom (USA), Inc., provides high-performance fiber-to-the-premises (FTTP) solutionsthat deliver gigabit-rate services to subscribers over optical fiber. The company’s AMN1220 ITU-Tstandards-based GPON product family supports the economical delivery of RF/IP video,VoIP/POTS voice, and high-speed data services. Solutions are available for single/multi-familyresidential and small/medium business applications.
Advantages of the Hitachi GPON family include:All video channels received at headend in native IP format Basic channels converted to RF for delivery to subscribers’ existing cable-ready TVs Premium services, including HD, interactive VoD delivered via IP
Hitachi was the first GPON vendor to place a system into commercial service (Bandon, Oregon,2006), and was the first vendor to be granted USDA Rural Utilities Service (RUS) acceptance for afull-rate GPON system (May 2007).
Fiber-to-the-Business
Fiber-to-the-Tower
Fiber-to-the-Home
Multidwellingunits
Single familyhomes
CWDM Mux Terminal
Headend
LCP Cabinet
Pedestal withMultiPort Terminal
Fiber Service Terminal
WirelessConsolidation Point
Feeder Cables
Distribution Cables
Drop Cables
Local Convergence Point
© Corning Cable Systems 2007
Passive Optical Network/CWDM
Corning’s Passive Optical Network/CWDMCorning Cable Systems' passive optical solutions provide total connectivity from the headend tothe customer premises for advanced MSO architectures. Implementing Corning Cable Systems'passive optical network (PON) and/or course wavelength division multiplexing (CWDM) designsresults in increased performance and reduced costs. Preconnectorized solutions offer increasedperformance and reliability through the use of factory-installed and -tested connectivity.Preconnectorized assemblies also reduce deployment time and labor required, while increasingmanaged accessibility of maintenance resources to the plant. Costs are further reduced throughinitial construction labor, faster maintenance and lower ongoing operational expenditures.Whether deploying fiber-to-the-home, wireless backhaul or fiber-to-the business networks,Corning Cable Systems' preconnectorized solutions are the new standard for today's advancedcommunication networks.
Alloptic’s Expansion PassiveOptical NetworkAlloptic offers an unmatched PON solution for the cable TVindustry. Alloptic’s PON solution allows the operator theflexibility of deploying a distributed fiber-to-the-home solutionfor DOCSIS PON functionality, allowing the operation of a fullGigabit Ethernet PON over the same facilities. Alloptic providesyou the flexibility to leverage the economics of both DPON andGEPON on the same infrastructure.
Aurora’s Fiber Deep GEPONAurora Networks’ flexible NC4000 series Optical Node platforms support Ring-in-ring, Dual-ring Star/Bus,and Fiber Deep architectures. By simply inserting a GE4132M PON module in any NC4000 series node,operators may deliver up to 1000 Mbps to each customer. In a 5G Node configuration, 4 Gbps of datathroughput and a 1 GHz video passband serve 256 homes passed with optical path protection using onlytwo (primary and secondary) fibers.
1550 nmLaser
Transmitter
CMTSReturnPath
Receiver
Core Network
FTTx OLT
1590nm
Optical DistributionNetwork
Customer PremisesHeadend
EDFA
WDM
Splitter
ONT1310nm
Optical Port
1310nmUpstream
IP VideoData, VoIP
TDM VoiceTDM Business
1590nm
Video/RF Feed
1490nm
1490mnDownstream
MicroNode
Business Tower
Corporate Office
A passive optical network (PON) is a network architecture that has the advantage of using unpowered (“passive”) network elements. Asingle fiber in this point to multipoint system can be used to bring service to a number of subscribers – 32 is a typical number.
The characteristic elements of a PON are passive splitters, an optical line terminal (OLT) at the service provider’s central office or node, andoptical network terminals (ONTs), sometimes called optical network units (ONUs), at or near subscribers’ premises.
PON was originally conceived of as a fiber-to-the-premises (FTTP) architecture, but it is possible to pull ONTs back away from the home andend up with a fiber-to-the-curb implementation.
Further, HFC networks can be evolved to various PON implementations. One version of cable PON incorporates a DOCSIS implementation
on EPON, and another puts an RF overlay on EPON, taking RF signals and translating them for transport on a PON network.
There are multiple versions of PON technology, but the following are among the most widely known: BPON (broadband PON) is the most common today. It supports wave division multiplexing (WDM).GPON (gigabit PON) is a follow-on to the BPON standard. It features higher data transmission rates, offers improved security, and supports a
choice of Layer 2 protocols, including Ethernet. EPON (Ethernet PON), sometimes called GEPON (Gigabit Ethernet PON), is a newer standard designed specifically to support Ethernet
The Scientific Atlanta Docsis PON solution leverages the DOCSIScontrol plane in its native form for ease of adoption in theorganizations and back office of the MSO. Today, MSOs arerequired to deploy a Telco centric solution (B, E, G-PON) tocompete in large scale deployments in FTTH markets. Bymaintaining the native DOCSIS environment of the MSO, existingback office equipment and technician training can be leveraged,saving the MSO significant capital costs. The DOCSIS PONsolution provides the MSO with a complete HFC-like solution in aFTTH network with a standard 32-home passed PON structure,leveraging economies of scale of the passives the telcos enjoy. Fullcapability of 78-channel analog and 75 QAM-channel loading ismaintained in small 128-home serve groups.