Passive Optical Network and LTE, AsGa s Point of View
Destaques Históricos Fundação 1989 Fabricação Componentes Optoeletrônicos Manufatura Placas Eletrônicas 1989 1995 2000 2005 2011 Re- Fundação 1994 De Componentes para Equipamentos Criação AsGa Sistemas Software para telecom Escritórios Argentina México Início AsGa Wireless Exportação Início AG Minas Gerais Radio Digital 2
Destaques Históricos Fundação 1989 Lançamento SDH-STM1 1989 1995 2000 2005 PDH-Ng MMO 16E1 Ng 2011 MMO4E1s Fiber Optic Modem Contrato SSX Sistema de Supervisão de Infrastruture Radio Digital 400M/1,5GHz Conversor Media 2012 FutureCom LighBolt 10G Ethernet Switches DWDM G.PON convergent aggregation plataform 3
Agenda GPON for Mobile Backhaul LTE, and LTE Requirements What is GPON? Discussion on Clock distribution Network Topologies and service delivery optimization Further discussion Conclusion
LTE Main features
LTE Features
GPON is Fiber optimization! Time Division Multiplex Access GPON is not FTTH...Only
LTE Deployment strategy Overlap 3g cells 1st phase LTE today supports mobile broadband data only, with no inherent voice component it s packet switched only, with no support for circuit switching to carry 2G/3G voice. As LTE handsets become available, they will be using 2G or 3G radio support for voice, via circuitswitched fallback (CSFB). In 2012, LTE is expected to have the capability to carry voice over IP packets using the VoLTE standard.
LTE Deployment strategy 1st phase: Overlap LTE to current 3G network
Then improve coverage The need to deploy Micros and Pico-cells and Femtocells on poles, buildings, places with no line of sight, requires wired network, mainly fiber, for the backhaul Needs are not only one Bandwidth requirement can vary, depending on cell size or type
PON AsGa s point of view Solutions currently used are expensive and not right for new generation of network New generation require better quality, more bandwidth, no dark spots. To feed dark spots, wired solutions are needed, since line of sight is required for wireless. G.PON, has been excellent option for FTTH, but not for solutions that requires synchronism To further reduce and optimize cost, same network can be used to offer service for medium large subscriber Brazil has large number of Condominium Condominios Residenciais 4 Play can be offered using Convergent Platform
Save energy and room at concentration site : G.PON for mobile Backhaul - PROS One G.PON port serves up to 32 (or 64) remote points Optimum network: Three network is very efficient and reduce cost Synergy with new broad band networks (FTTH) Process, cables, tools can be shared Synchronism: G.PON is TDM, so can be very efficient for TDM transport and clock distribution, natively. Transparent 1588-V2 clock can be added when phase alignment is required Small size, low power consuptions ONT
G.PON for mobile Backhaul - CONs Bandwidth may not be enough for LTE Only average of 40Mb/s per port ( With 64 splits) Synchronism: Solution currently on the marked does not use TDM native G.PON frame to offer clock distribution.
G.PON for mobile Backhaul Bandwidth may not be enough for LTE Only average of 40Mb/s per port Proposed Solution can use TDM-PON + WDM-PON to provide more than 30Gb/s into a single fiber. TDM-PON (2,5G) will soon evolve to XG-PON (10G) and can coexist sharing same fiber infrastructure Proposed solution can use 10GE WDM today. Number of splits can be reduced (8 or 16) Dynamic Bandwidth Allocation can be used to optimize user experience
G.PON for mobile Backhaul Synchronism: Solution currently on the market does not use TDM native G.PON frame to offer clock distribution. Proposed solution will make use of TDM G.PON ITU standards and use SyncE to deliver synchronism to base stations Synchronism at OLT can be taken from local 2MHz/Mb/s existing legacy clock. No need for PTN or special network capabilities to distribute synchronism. When and where E1 is necessary, emulation will be used. Common clock option can be used, instead of adaptative clock recovery IEEE 1588-2002 support will be implemented, as Transparent clock, reporting latency in the GPON domain.
G.PON Backhaul e Business Product Concept: OLT: Low port density: serving 64 sites with 8 splits, 256 sites with 32 splits or 512 sites with 64 splits, 6 x GE ports, 4 x 10GE ports Option to have 16E1s or 2xSTM1 ports ONTs: 2 x E1 and 8 x E1, to G.PON CPE, following 984.X 3 FE + 1 sync - GE Port, Clock (syncronysm) SyncE ( and 15588-V2 TC support)
G.PON OLT Main features of the OLT: Can be deployed Into outdoor Cabinets 8 ports G.PON 6 ports GE, 2 combo ports 4 Ports STM-1/4 4 ports 10GE, 1 port for Syncronysm IN 2 rack unit, 19 100W power consumption Redundant power supply AC and DC power SFP compatible ports including the G.PON ports
Current Sync Solution
Proposed IEEE 1588-2002
1588-V2 synchronism distribution
Problems for 1588-V2 Symmetricom Slide
One possible solution Proposal: GPON: Synchronism taken from existing network can be used to LTE Dados Clock ONT OLT
Rules are Same used For conventional TDM Networks Synchronism Chain
Clock IN/OUT at OLT Synchronism Equipment Clock Circuit Clock Line At OLT clock Can be selected From existing Clock source, or from 10G Interfaces GPON Circuit Ethernet Switch 10G PHYs 1 to N clock distribution!
Clock IN/OUT at ONT Synchronism At ONT clock Recovered from PON side is delivered to Ethernet Interface Optical TROs Clock Circuit Fiber GPON Circuit SyncE Ethernet PHY
ONT Converging 2G, 3G, LTE And Business legacy Main features of the 2E1 ONT: Interface G.PON Class B+, C 20Km distance 64 splits Ethernet 4 Interfaces RJ45 FE 1 Interface RJ45 GE TDM 2 interfaces E1 G.703 connectors BNC or IEC Synchronism 1 Interface for clock OUT 2Mhz/2Mbps Alarms Collect up to 4 environment alarms
ONT Housing Options 2E1: Wall and Pole mounting options
Main features of the ONT 4-8E1: Interface G.PON Class B+, C 20Km distance 64 splits Ethernet 4 Interfaces RJ45 FE 1 Interface RJ45 GE TDM 4 interfaces E1 G.703 connectors BNC or IEC Or 8 E1 interfaces, connectors DB17 Syncronysm Interface for clock OUT 2Mhz/2Mbps Alarms Collect up to 4 environmental alarms ONT
Cost effective Network topology Network Topology
Network Topologies Legacy TDM(STM1) Trafic 3G (10G) Trafic LTE (10G) Split 1 to 2 or more at the tower 8 x E1s, Ethernet, 2/3G 2xGE, synce, 1588, LTE Split 1:4 or 1:8 Can be done at concentration or in the network 8 PON ports is equivalent 32 Concentration ports Total split 8 or 16
Network Topologies Legacy TDM(STM1) Trafic 3G (10G) Trafic LTE (10G) Split 1 to 2 or more At the tower 8 x E1s, Ethernet, 2/3G 2xGE, synce, 1588, LTE Split 1:2 in the network, at several points (8 for example) 8 PON ports is equivalent 32 Concentration ports 16 total split Redundancy path possible
Topologies
Topologies Redundancy
Network optimization and control 3G core 2G core MetroEthernet 4G core SDH Legacy Packet Transport Network, Quality, latency assured
Services for Horizontal Condos Quad-Play: Analog Video (Overlay) Broadband Mobile Land Line
Services for Horizontal Condos Services Provided: IPTV Digital and Analog video (Overlay) Internet Broadband In addition: Provide better 3G coverage (If needed) LTE coverage
Services for Business Services Provided: IPTV Digital and Analog video (Overlay) Internet Broadband In addition: Legacy ( E1s V.35) Small cells ( 3G & LTE) Convergent Aggregation Box
PON Evolution Otimizing Fiber use and reducing cost further
Future How it will be?? PON Evolution
Standard 984.5 EB
WDM-PON AsGa proposal: Aggregate more capacity creating colored planes WDM-PON plus TDM-PON G.PON, XG-PON and WDM-PON can coexist Reduce cost per bit of the backhaul and access Optimize fiber access network Evolve smoothly from 1 to 10G
Concepts of WDM-PON OLTs Equipamentos para o escritório central ODN Gabinetes Outdoor ONT- SFU ONT- Multiusuarios
Concepts WDM-PON
Concepts WDM- Multiservices
G.PON + WDM-PON DS: 1490nm G.PON 1530-1550 US: 1300nm G.PON 1560-1560nm Video 1555nm WDM-PON Possible Topology Penalty : 1,5 a 2dBs G.PON G.PON DS:2,5G US:1G XGPON US: 1577 DS: 1280 G.PON WDM.PON DS:16G US:16G total bandwidth of 40G
Thank you Obrigado... Francisco C. Prince prince@asgaacesso.com