Session #2 - CommScope Solutions for the Edge Network...Compact Node (CommScope ADN1) New (Gen3) Low...
Transcript of Session #2 - CommScope Solutions for the Edge Network...Compact Node (CommScope ADN1) New (Gen3) Low...
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CommScope Solutions for the Edge NetworkCommScope Virtual Workshop
Confidential
May 20th, 2020
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CommScope Reference Architectures
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CommScope Solution Overview:Centralised Access Architecture
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential2
CommScope E6000
IP Packets over Ethernet Data IP Packets over DOCSIS QAMMPEG Packets over Video QAM
Internet
Back-office services
Video SPTS Feed
CommScope AgileMaxRFoG
CommScopeRFoG ONU
Optical HE Network
D3.1 CPE
CommScope HFC Node
STB
Broadcast & VoD
TV
Analog Optics for HFC networks
CommScope CH3000
ServAssure™ NXT AnalyzeAlarm Central
CommScope 1.2GHz Amps
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CommScope Solution Overview:R-PHY with Virtualized MAC Core
IPv6 Grandmaster Clock Source
coax
InternetBack-office
services
IP Packets over Ethernet IP Packets inside L2VPN Tunnel over Ethernet Data IP Packets over DOCSIS QAMMPEG Packets over Video QAM
Vid
eo M
PTS
STB
Pre-encrypted video stream
Broadcast & VoD
vManager Clients
NC2000Node with 1x1 RPD
TV
@ Subscriber
CIN Network
VUE
vManager
ServAssure™ NXT AnalyzeAlarm Central
D3.1 CPE
vCore
ICX7850
CommScope 1.2GHz Amps
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential3
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CommScope Solution Overview:RMD with Virtualized Management Plane
IPv6 Grandmaster Clock Source (*)
InternetBack-office
services
IP Packets over Ethernet Data IP Packets over DOCSIS QAMMPEG Packets over Video QAM
Pre-encrypted video stream
vManager Clients
CIN Network
VUE
vManager
ServAssure™ NXT AnalyzeAlarm Central
ICX7850
coaxTV
STB
Broadcast & VoD
@ Subscriber
2x2 RMD
NC4000Node with RMD
D3.1 CPE
IP Packets over Ethernet and inside L2VPN Tunnel over Ethernet
CommScope 1.2GHz Amps
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential4
(*) Note:
• CommScope’s RMD solution will support both asynchronous and synchronous video mode support for RMD.
• Asynchronous video mode does not require PTP 1588v2 for RMD
Vid
eo M
PTS
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CommScope Solution Overview:R-OLT with Virtualized Management Plane
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IP Packets over Ethernet Data and Video IP Packets
STBIPTV
TV
@ Subscriber
CIN Network
R-OLT
ARRIS NC4000R-OLT Node
Ethernet Optics from CIN in Hub to R-OLT Device
PON ONU CPE
PON Splitter
X32
ICX7850
xPON to ONU
InternetBack-office
services
Pre-encrypted video stream
vManager Clients
vManager
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Headend optics
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CH3000 Chassis Platform
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential7
CH3000 Chassis Platform
FEATURES
• Fits all active and passive modules
• Front and/or back loading
• Blind mate connections
• AC and/or DC powering
• Local/Remote monitoring management,
including:– Nodes– VHubs
Headend and Hub Solutions
UNIVERSAL FLEXIBLE POWERFUL RELIABLE
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MWL Forward Transmitter Evolution (CH3000)
2010
SINGLE Density
1 TX per slot
4 TX/RU
12 W per TX
AT3545G
2013
DOUBLE Density
4 TX in 2 slots
8 TX/RU
10 W per TX
HT3540H
QUAD Density
8 TX in 2 slots
16 TX/RU
6 W per TX
HT3580H
2018
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential8
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BEFORE: Single Density Transmitters and Digital Return Receivers
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Std EIA Rack, 42 Rack Units (RU)
• Rack 1 – 168 AT3545G• Rack 2 – 168 AT3545G• Rack 3 – 112 AT3545G• Rack 3 – 56 DR3002• Rack 4 – 168 DR3002
448 1x1 Nodes supported• Total US + DS Segments – 448• Total RU – 168• Total Maximum power use: 10,472W• Includes Fwd path Optical muxing Back
plates and CX3002 Ethernet
1x1 Nodes
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Now: Quad Density Transmitters and Digital Return Receivers
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• Rack 1 – 448 HT3583H
• Rack 1 – 52 DR3450N
• Rack 2 – 60 DR3450N
448 1x1 Nodes supported
• Total US + DS Segments – 448
• Total RU – 57
• Integrated Muxing not shown
• Total Maximum power use: 5023W
• Includes Forward path Optical muxing Back plates and CX3002 Ethernet
1x1 Nodes
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Now: Quad Density Transmitters and Digital Return Receivers
Rack 1 – 448 HT3583H
Rack 1 – 52 DR3450N
Rack 2 – 60 DR3450N
448 1x1 Nodes supported
Total US + DS Segments – 448
Total RU – 57
Integrated Muxing not shown
Total Maximum power use: 5023W
Includes Forward path Optical muxing Back plates and CX3002 Ethernet
1x1 Nodes
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1.218 GHz HT3562H Series Transmitters
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High Performance Double Density Full Spectrum MWL Transmitter
• Full Spectrum Transmitters with 46 to 1218 MHz passband, up to 30 Analog RF channels
• High Performance Externally Modulated technology
• Up to 40 Wavelengths on DWDM ITU grid
• Features— 11.5 dBm Optical output power— RF level control: Manual or AGC— Up to 3 dB Internal Electronic Slope Adjustment to compensate for headend combining
and cable loss at high frequency, especially when loading extends to 1.218 GHz— Highest rack density and lowest power consumption for ExMod Technology: 24 TX/3RU including
redundant power supplies and muxing!
• Double density back plates— Separate BC and NC RF inputs in TX module— Back plate options with F connectors
• For combining at the CH3000: 1x4 BC splitter/amp and 4 individual NC inputs• For combining prior to CH3000: 4 BC inputs, 4 NC inputs, • Option for Optical Muxes in the back plate for Greater rack space savings!
HT3562H Double Density
Form Factor
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CommScope 204 MHz Digital Return- In Development
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• Introducing a new Quad Receiver for the CH3000 platform
• Use existing Backplate that supports 4x receiver cards (48 returns in 3RU)
• New Pluggable optical receiver SFPs, 10 Gbps
• Introducing a new Digital Transmitter for the NC4000 and NC2000 nodes
• Follow the multi-mode model of the current DT4250 Universal VHub
• Pluggable SFP Optics for maximum flexibility , 10 Gbps
• User Selectable modes to support both 5-85MHz return and 5-204MHz to offer an upgrade path
• Support for 204/258 MHz split
• “1-fer” and “2-fer” operational modes (1 or 2 RFs channels per Wavelength)
• Support for 5‐100 MHz mode ( currently used for 5-85 MHz) and 5-204 MHz modes
GA target Q3 2020 with initial phase “1-fer” modes
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Evolution of the Cable Edge Network
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CommScope DAAA Topology (Aggregator)
NodeAggregator
withRxD
Headend/Data Center
Terminating nodewithout RxD
Ruckus ICX CIN Switch
E6000 CCAP Core (MAC)
Management
Video Core (VUE)
Terminating nodewithout RxD
Terminating nodewithout RxD
Terminating nodewithout RxD
Optimized for Low-to-Medium Density Fiber Deep deployments
Data Core (vCore)
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential15
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CommScope 1.X GHz Nodes
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OM4120
• Module compatibility (NC)
• Multi-architecture compatibility & scalability
• HFC and Fiber Deep• xPON via XE4202M• R-PHY via RPD (1x1 or 2x2)
with HFC Overlay• Roadmap includes 2x2 RMD
• 1.2 GHz – HFC 4x4 (S4)• Standard output
• 1.2 GHz – FD 1x2/2x2 (H4/H5)• High & Very High output
NC4000
• Module compatibility (NC)
• Multi-architecture compatibility & scalability
• HFC and Fiber Deep• xPON via XE4202M• R-PHY via RPD (1x1)
• 1.2 GHz – HFC & FD 2x2• High output
NC2000
• Module compatibility (OM)
• Multi-architecture compatibility & scalability
• HFC and Fiber Deep• xPON via FLM• R-PHY via RPD
• 1.2 GHz – HFC 4x4• Standard output
• 1.2 GHz – FD 1x2 & 2x2• Very High output
OM6000
• Module compatibility (OM)
• Multi-architecture compatibility & scalability
• HFC and Fiber Deep• xPON via FLM or XE4202M • R-PHY via RPD (1x1 or 2x2)• Roadmap includes 2x2 RMD
• 1.2 GHz – HFC 4x4• Standard output
• 1.2 GHz – FD 1x2/2x2• High output
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E6000n NC2000 - 1x1 RPD
1x1 for NC2000 node:• Full 1.2GHz and 204MHz spectrum capable• RPD R-PHY module with support for a single upstream
and downstream SG (i.e 1x1 segmentation)• 1.2 GHz RF Amplifier
• Up to 2x2 [email protected]/22dB tilt
Capability:• 1.2GHz downstream upper edge
• Up to 6 x 192MHz (OFDM or SC-QAM)• Up to 158 Annex B or 120 Annex A SC-QAM (up to
1002MHz)• 54/88/108/258 lower edge
• 42/65/85/204 MHz upstream split• Up to 2 OFDMA @ 96MHz per upstream• Up to 12 ATDMA (up to 85MHz) per upstream
• DOCSIS 2.0/3.0/3.1 and Broadcast/Narrowcast video• Dual SFP+ cage
• Daisy chain, Ring Topology, Link RedundancyNC2000 + E6000n (1x1 RPD)
NC2000 1x1 Remote-PHY Device
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential17
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E6000n RD1322 - 2x2 RPD
2x2 for NC4000/S4 and OM41x0 nodes:• 1.2GHz downstream upper edge
• Up to 6 x 192MHz (OFDM or SC-QAM) per downstream• Supports full-spectrum narrowcast (data + video)• Up to 158 Annex B SC-QAM (54-1002MHz)• 54/88/108/258 lower edge
• 42/65/85/204 MHz upstream split• Up to 2 OFDMA @ 96MHz per upstream• Up to 8 ATDMA (up to 85MHz) per upstream
• DOCSIS 2.0/3.0/3.1 and Broadcast/Narrowcast video• Native support for SCTE 55-1/55-2 STB OOB• Optional Rx/Tx modules for HFC overlay
• Single Rx/Tx per node (identical spectrum on all 4 legs)• 54-750MHz forward Rx• 5-65MHz return path Tx
Retrofit available for previously deployed NC4/OM4 nodes requires lid and power supply upgrade
NC4000 + RD1322 (2x2 RPD) OM4120 + RD1322 (2x2 RPD)
RD1322 2x2 Remote-PHY Device
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential18
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200MHz digital return for NC nodes
Universal module
• 1-fer and 2-fer modes
• Example 2 x 200MHz or 2 x 100MHz
• Uses 10G SFP
NC2000 already supports 200MHz
NC4000 will support 200MHz
• New lid motherboard for NC4000 to improve isolation
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential19
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CommScope Compact Cabinet Node
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Compact Node (CommScope ADN1) New (Gen3) Low Power RxD
Cabinet mount form factor (cable entry at bottom, 1x fiber (in lid), 2x RF (in base)):• Environmentals: IP65, -40C to +60C ambient• Target dimensions: 277x287x177mm (NC2000:
459x279x160 mm)• Single Hybrid, can be split to dual output if power budget
allows• Output level: 60dBmV @ 1218 MHz, 22dB slope (same as
NC2000)• Electronic Setup and controllable diplex filter• Local (220V AC) power option (local battery backup
capability being investigated)• Maximum power consumption:
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Benefits of the CommScope RMD Program
• An End-to-End Product Suite (Nodes, Amps, CMs) Guaranteed to Work
• An Experienced DOCSIS® Design/Support Team in a Stable Company that will bethere with you as part of the Cable Industry… We are in it for the Long Run
• A Long-term Product Roadmap with a Clear Path to the Future of RMDs (DOCSIS 4.0 & Beyond)
• A Novel RMD Design Blending ASIC + FPGA
✓ Low-power with the use of High-Performance Broadcom ASICs
✓ Ability to add novel Future Features with the Flexibility of a Xilinx FPGA-based MAC
✓ Choosing FPGA enables use of proven CommScope software for RPD, DOCSIS MAC, and Data Forwarding
• A Powerful Combination of E6000® MAC Software & E6000n™ RPD
✓ E6000 MAC Software Application offers:
➢ Stability due to Field Hardening
➢ Stability due to Industry-Leading Software Testing Capability (automation, multiple scaling labs)
➢ Feature Richness (DOCSIS 3.1 plus many more features added over many years)
✓ E6000n RPD offers:
➢ Stability due to Field Hardening with a similar Gen 1 Design
• Novel & Useful Features that Differentiate Us from the Others (e.g., CommScope RF Steering Matrix)
© 2020 CommScope, Inc. | Confidential for Vodafone. Roadmap subject to Change without Notice.21
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E6000n RD2322 – 2x2 Remote PHY & MACPHY Device (RxD)Software Capabilities
• E6000n RD2322 Rel. 1.0 Software Basis• MAC: E6000 CCAP Core (eCore) Rel. 9.0• PHY: E6000n RD1322 (2x2 RPD) Rel. 1.0
• Feature Highlights for E6000n RD2322 Rel. 1.0• Remote MACPHY Device (RMD) functionality• Layer 3 Converged Interconnect Network (CIN)
• Control/Management Plane – IPv4• Data Plane – IPv4 or IPv6• MPEG Video – DEPI Tunnels over IPv6
• Secure Boot• MACsec• 802.1x Authentication & Authorization• Each DS-SG: 128 SC-QAMs (48 DOCSIS) + 2x 192 MHz OFDM• Each US-SG: 12 SC-QAMs + 2x 96 MHz OFDMA• 20 years of advanced features ported forward & adapted from legacy ARRIS/CommScope CMTS/CCAP
platforms, including – Legal Intercept, Integrated Upstream Agility (IUA), data & modem load balancing, DOCSIS 3.1 DS data profiles & US IUCs, and hundreds more
© 2020 CommScope, Inc. | Confidential for Vodafone. Roadmap subject to Change without Notice.22
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MB120 1.2 GHz Mini-Bridger Overview
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential23
• Support for 1218 MHz Downstream bandwidth
• Expanded Upstream bandwidth option of 204 MHz
• Increased gain to allow for RF module drop-in to existing 750 MHz and greater spacings
• Gallium Nitride (GaN) technology
• Compatible with legacy power supply grid by maintaining present DC power consumption
• No need to redesign power boundaries
• Mechanically compatible with existing MB750SH/MB860/MB100 housings
• Two active outputs (splittable to 3)
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BLE120 1.2 GHz Line Extender Overview
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential24
• DOCSIS 3.1 support with 1218 MHz downstream bandwidth
• Expanded upstream bandwidth option of 204 MHz
Diplex options include:
• 42/54 MHz
• 65/85 MHz
• 85/102 MHz
• 204/258 MHz
• Increased gain to allow for RF module drop-in to existing 750 MHz spacings
• Gallium nitride (GaN) technology
• Mechanically compatible with existing BLE-75SH/BLE87/BLE100 housings
• New housing platform kit
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Outdoor Line Passives
SSP-*S
Outdoor Taps
FFT*-*S
Indoor Line Passives
CSVxGD
RF Passives for D4.0
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential25
• Bandwidth: 5 – 1800MHz
• Nickel plated zinc housing
• Soldered back plate for maximum RF shielding
• 6kv ring wave surge protection on all ports
• Machined “F” port threads
• Available now
• Removable face plates
• Power passing (5/8" ports)
• Support for extended spectrum to 1.8GHz
• Face plate upgrade: to 1.65GHz with existing housings: 1H 2021
• Housing upgrade: to 1.8GHz: 1H 2022
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E6000r Remote PHY Shelf
19” Rack-Mountable shelf, 2RU height, 10.4” (265mm) deep
Temperature-hardened -20oC to +65oC, front-to-back cooling with hot swappable fans, extended humidity range, ready for outdoor cabinet installation
Front connections for RF, SFP+, power
Dual redundant, load-sharing AC or DC Power Supply Units (PSUs)
Hosts 3 x E6000n Shelf RPD modules
• 9 x F connectors providing a total of 3 DS-SG x 6 US-SG
• Full spectrum DOCSIS 3.0/3.1
• RPDs managed via the CCAP Core
Same firmware as 1x1 RPD
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential26
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E6000r High Density R-PHY Shelf
1RU height shelf, 19” rack-mountable and stackable
Datacenter environment 0oC to +50oC
6 hot swappable fans providing front to back cooling
AC or DC Power Supply Units, dual redundant and load-sharing
Hosts 8 x HD Shelf RPDs (1x2 DS:US)
• 24 x F connectors at the back, providing up to a total of 8 DS-SG x 16 US-SG
• 2 x SFP+ cages per RPD
• Full spectrum DOCSIS 3.0/3.1
• RPDs managed via the CCAP Core
Local console port
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential27
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High Density R-PHY Shelf – Use Cases
• Head-ends and hub sites, especially where power space and cooling is a challenge• MAC Core located at a remote site
• Replacement of legacy CMTS infrastructure, • Overcomes channel density limitations and adds DOCSIS® 3.1 and R-PHY capability
• Adds local serving group capability to MAC Core only products• HD R-PHY Shelf and MAC Core in the same location
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential28
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Cost-Effective High Performance CIN Switching – ICX
Optimized for DAA High Performance Cost-Effective
• Pre-integrated, end-to-end DAA solution
• MACsec Security to the R-PHY
• Scale-out network architecture
• Automated deployment• Better value for money• Common platform for all
architectures
• Standards-based• Multi-vendor interoperability• Open management & control• Cost-Effective Merchant-
Silicon• Lifetime Warranty
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential29
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ICX7850 IP CIN Switches
Fully integrated with CommScope RPDs
S-Leaf supports 10G MACsec for hardware secure links to R-PHY and R-MACPHY
Flexible L2/L3 table profiles for deployment flexibilities
Supports ARRIS DWDM optics (same as ones in nodes)
General availability: Now!
ICX7850-48F/48FSLeaf / S-Leaf (Edge switching)
48-ports, 10GE downlinks (+MACsec)
Up to 8-ports, 40 or 100GE uplinks
ICX7850-32QSpine (Core switching)
32-ports, 40 or 100GE ports
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential30
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CommScope 10G PON solution overview
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10G EPON DAA OLT Deployment Scenarios
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Optical Splitters
... ...N x 10G EPON (Up to 6)
NC/NH4000 R-OLT Modules
N x 10Gb Ethernet (DWDM)DistributedAccess Single Fiber
vOLT Manager
MgmtPlane
(Legacy)
vCM Manager
vCMsMgmtPlane
(Future)
OLT Manager
... ...N x 10G EPON (Up to 8)
Cabinet/MDU OLT Shelf
OLT Manager
N x 10Gb Ethernet (DWDM)Dense DistributedAccess
Single Fiber
vOLT Manager
MgmtPlane
(Legacy)
vCM Manager
vCMsMgmtPlane
(Future)
OLT Manager
Gigabit & Multi-Gigabit
Subscribers
OLT Manager
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Commscope 10G EPON R-OLT XE4202M
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential33
• 2x10G Ethernet NSI ports per module– Uplink to CIN/S-Leaf switch/router– Multi-wavelength DWDM SFP+
optics
• 2x10G EPON ports per module– Subscriber PON XFP ports support
10G EPON and EPON – 10G/10G and 10G/1G 10G EPON– 1G/1G and 2G/1G Turbo EPON
• Three slot wide module for VHUB or Node– 10G EPON VHUB (up to three R-
OLTs)– RFoG with 10G EPON for an RFPON
VHUB– Existing or new RF Node
• Virtualized OLT Manager with DPoE v2.0– Utilize current DOCSIS management
systems for provisioning– Scalable to 200 R-OLTs– Manage R-OLT/ONUs like CMTS/CMs
XE4202M
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R-OLT Manager
vOLT Manager
MgmtPlane
(Legacy)
vCM Manager
vCMs
OLT Manager
MgmtPlane
(Future)
Software Only SolutionCentralized & Scalable ManagementManage R-OLT/ONU like CMTS/CM
SDN Controller/vManager
Supports evolution to SDN & virtualization
Push models for telemetry collection
and monitoring
Netconf/Yang, Kafka, FluentD,
RestConf, OpenFlow
DOCSIS Backoffice and OSSs
Integration with conventional DOCSIS OSS/BSS systems
Utilizes familiar DOCSIS interfaces and protocols
CLI, SNMP, SYSLOG,
TFTP, DHCP, TACACS,
NTP/TOD, SSHv2
ONUR-OLT
ONUR-OLT
ONUR-OLT
Core Routers
S-LeafCIN
Network
vOLT: R-OLT Onboarding, Monitoring and ManagementvCM: ONU Registration, Service Flow Provisioning, Monitoring
Full R-OLT/ONU System Management
Management Data Path: TLS for secure access
R-OLT: JSON / TCP ONU: DPoE v2.0 Tunnels
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential34
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10G EPON R-OLT Module Deployment Options
© 2020 CommScope, Inc. | CommScope Restricted–Highly Confidential35
Nodes NC4000 RF Node NH4000 VHUB
NH4000 VHUB with RFoG
NH4600 DAA VHUB
NH2000 VHUB
Deployment Model
Mixed RF and EPON
10G EPON Only RFoG and 10G EPON
10G EPON Only 10G EPON Only
Available R-OLT Slots
3 9 6 9 6
R-OLT Modules 1 1, 2 or 3 1 or 2 1, 2 or 3 1 or 2
PON Serving Groups
Up to 2 x 10G EPON SGs
Up to 6 x 10G EPON SGs
Up to 4 x 10G EPON SGs
Up to 6 x 10G EPON SGs
Up to 4 x 10G EPON SGs
10GE Uplinks 2 Up to 6 2 or 4 Up to 6 2 or 4
Subs per Node* (Max with 1x128 split)
256 Subs 768 Subs 512 Subs 768 Subs 512 Subs
Timing Now Now Now Now Now
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CommScope 10G AnyPON R-OLT Shelf XE6268S
© 2019 CommScope, Inc. | CommScope Restricted–Highly Confidential36
• 2x100G Ethernet– NSI or Daisy Chain
• 6x10G Ethernet NSI ports per shelf– Uplink to CIN/S-Leaf
switch/router– Multi-wavelength DWDM
SFP+ optics
• 8x10G PON ports per module– Subscriber PON SFP+
ports support 10G EPON and EPON
– 1G/1G and 2G/1G Turbo EPON
– Also Support XGS and GPON
• Rack mounted 1RU Compact R-OLT Shelf (COLT)– Dense configuration for
multiple applications– Designed for installation in
CommScope cabinet systems
– Redundant Power Supply, AC and DC options
• Virtualized OLT Manager– Can build off of current
DPoE 2.0 management systems for provisioning
– GPON provision via EMS, GUI and NBI
– Scalable to 50 shelves
XE6268S
Future Product
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Thank You