PTP 810 Training Package
BPG, 14 MAGGIO 2012 LUCA ROCCO
Agenda • • • • • • • •
PTP810 Overview Modular Architecture - Hardware Introduction Key features Configurations and Network Topology Radio Performance LINKPlanner BOM list creation Installation
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Introduce PTP810
PTP810 Summary •
Frequency: – ODU-A : FCC/ETSI 6 – 38 GHz – ODU-B: FCC/IC 11, 18 ,23 GHz – All Indoor IRFU: FCC/IC 6/11 GHz (Q3, 2012)
•
MMU (Modular Modem Unit) – Modular Design, 1U high shelf – Configuration:
Native Eth + TDM
√
XPIC
√
1+0, 2+0 (East/East or East/West), XPIC, 1+1, Spatial and Frequency Diversity Ring, Tree
Link aggregation
√
– Native Ethernet and Native TDM, Examples:
ACM
√
L2 Switch
√
E1/T1 Cross Switch
√
QoS
√
Capacity by License key
√
2 x FE + 32 x E1/T1 4 x FE/GE + 1 GE(SFP) + 18 E1/T1 + STM-1 2 x FE + 63 E1/T1
– Integrated with Wireless Manager (WM), common NMS for complete Cambium Network Radio solutions
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PTP810 Shipment Schedule M-3 Date
R-01-00
R-01-10
R-01-20
R01-30
June 15th
Aug 31st
Mid of Q4
Q1, 2013
ODU-A ETSI/FCC 6 – 38 GHz
Y
ODU-B FCC 11/18/23 GHz
Y
QPSK-256 QAM (Fixed Mode)
Y
XPIC
Y
2+0 Link Aggregation
Y
Build-in Ethernet L2 Switch
Y
Build-in E1/T1 Crosspoint Switch
Y
Spatial Diversity & Frequency Diversity
Y
IRFU all indoor FCC 6/11 GHz
Y
21xE1/T1 Expansion I/O
Y
ACM
Y
STM-1 , MUX/DEMUX Support
Y
XPIC 2+2, 4+0, protected Ring
Y
Advanced Gig-E Support (Sync-E, 1588v2,header compression, G.8031, G.8032) Cambium Networks Proprietory Restricted
Y
Available Capacity in Release 01-00
PTP 810 MMU Modules
Maximum Number of E1/T1s
Maximum Ethernet Throughput Capacity
Standard
16
100 Mbps
Standard + Expansion I/O
32
100 Mbps
GigE
2
328 / 672* Mbps
GigE + Expansion I/O
18
328 / 672* Mbps
* XPIC is required to support maximum throughput Cambium Networks Proprietory Restricted
Modular Modem Unit (MMU) Second Power Supply Module
Power Supply Module
Controller Module
Master I/O Module
16 x E1/T1 Expansion Module
STM-1 Optical Mini I/O Module
Second Modem Module
Modem Module
• Modular based architecture with great flexibility Minimum CAPEX • Scalable configuration provide optimized cost saving for end user • Hybrid backhaul support TDM and Ethernet, smooth migration to all IP backhaul • Data Auxiliary channels, support Data Orderwire • Alarm port Cambium Networks Proprietory Restricted
Example: Standard “Baseline” Module Controller Status Alarm LED NMS Port Power/Fault LED
Modem Status LED
ODU -48 VDC 100 BaseT 14 x E1/T1 Connector Eth 2 x E1/T1 Cambium Networks Proprietory Restricted
Master I/O Modules
Master I/O Module Standard
2xFE + 16xE1/T1
Standard Plus
2xFE + 16xE1/T1 + MUX/DEMUX
GigE
4xGigE + 1xGigE (SFP) + 2xE1/T1
Super PDH
2xFE + 42xE1/T1
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Expansion I/O Modules Expansion Module
16xE1/T1 21 xE1/T1 2 x STM 1 Electrical , Pass Through 2 x STM 1 Optical /OC-3 , Pass Through 2 x STM 1 Electrical , 2xMUX/DEMUX 2 x STM 1 Optical /OC-3 , 2xMUX/DEMUX Cambium Networks Proprietory Restricted
Mini I/O Modules
Mini I/O Module STM-1 Electrical
2xSTM-1 Optical /OC-3
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PTP810 MMU Baseline Configuration Single modem
Dual modem
Upgrade Kit available from Single modem to Dual modem C000081H001A
PTP810 MMU dual modem upgrade kit, Power Supply Module + Modem Module
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PTP810 Standard Configuration
• Consists of Chassis/Backplane + 4 Modules – Power Supply Module (optional for redundancy) – Controller Module – Standard I/O Module 2xFE + 16 E1/T1, Data Orderwire
– Modem Module (could be two for 1+1, 2+0, XPIC, etc) – Support Flexible payload options 1 ~ 100 Mbps Scalable Eth 1 ~ 16 x E1/T1: 2 x E1/T1 (RJ-48C), 14 x E1/T1 (Molex 60-pin high density Examples o 100 Mbps Eth + 2 E1 + NMS channel o 80 Mbps Eth + 8 E1 + NMS channel o 50 Mbps Eth + 16 E1 + NMS channel Cambium Networks Proprietory Restricted
PTP810 Standard PTP810 MMU Standard, 2xFE + 16xE1/T1
PTP810 MMU Standard + Expansion I/O, 2xFE + 32xE1/T1
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PTP810 Standard Dual Modem PTP810 MMU Standard Dual Modem, 2xFE + 16xE1/T1
PTP810 MMU Standard Dual Modem + Expansion I/O , 2xFE + 32xE1/T1
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PTP810 GigE Configuration
• Consists of Chassis/Backplane + 4 Modules – Power Supply Module (optional for redundancy) – Controller Module – GigE I/O Module 4xGigE + 1 SFP slot + 2 E1/T1 + Data Orderwire
– Modem Module (could be two for 1+1, 2+0, XPIC, etc) – Support Jumbo Frame 9728 bytes Cambium Networks Proprietory Restricted
PTP810 GigE PTP810 MMU GigE, 4xGigE + 1xGigE SFP + 2xE1/T1
PTP810 MMU GigE + Expansion I/O , 4xGigE + 1xGigE SFP + 18xE1/T1
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PTP810 GigE Dual Modem PTP810 MMU GigE Dual Modem, 4xGigE + 1xGigE SFP + 2xE1/T1
PTP810 MMU GigE Dual Modem + Expansion I/O , 4xGigE + 1xGigE SFP + 18xE1/T1
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Smooth migration from hybrid to IP backhaul Great flexibility to best fit customer’s needs TDM + Eth All IP Configurable by end user
Link Capacity
N x E1/T1
Mbps Eth
Radio Interface Cambium Networks Proprietory Restricted
Controlled by License key
PTP810 Proposition PTP 810
Remote Site Aggregation Site
Intern et Backbone
Future Proof Platform fit for all: • Eth + TDM • • Protected / Non-protected link • • Ring & Tree, add/drop TDM • Fit both aggregation and last mile • connection • Enhanced QoS to prioritize mixed traffic • class
Super PDH, Hybrid and All IP backhaul by one platform Full traffic mix in single MMU: Eth, E1/T1, STM-1 Eth Traffic optimization with embedded L2 Switch TDM traffic drop/add with embedded E1/T1 cross switch
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Reduction on CAPEX and OPEX • Embedded L-2 Switch – Optimized for Eth traffic – Save for external switch
• Embedded E1/T1 cross Switch – Save for external MUX/DEMUX – Less cabling
• XPIC ready – Maximum spectrum efficiency – Saving on licensing cost Cambium Networks Proprietory Restricted
PTP810 Hardware Overview
PTP810: Link Overview Network Operations Center (NOC)
Building 1
Building 2 PBX
PBX
Modem B ank M odem Bank
LAN
•
Contents of Link – – – –
•
Physical Connection Logical Connection
Payload: E1/T1 (2 – 64), STM-1(1-2), Ethernet (scalable 1-360Mbps) Data Orderwire NMS – Network Management System Traffic Radio Overhead (e.g Adaptive Power Control)
Point-to-Point – Useful for Ethernet bridge, E1/T1 extension, STM-1 extension. – Both MMU are managed from the NOC via NMS. Cambium Networks Proprietory Restricted
LAN
Key components of MMU • Architecture: Modular Design • Major Components: – Power Supply – Network Processor – Modem – Switch/Framing & I/O Processing – I/O Processing Cambium Networks Proprietory Restricted
Modular Design 2xSTM-1 Expansion Module Fiber SFP
•
The MMU modules:
21 x E1/T1 Expansion Module Electrical
Second Power Supply Module
Controller Module
Power Supply Module
Master I/O Module
16 x E1/T1 Expansion Module
Unified Modem and STM-1 Optical IF/Telemetry Module Mini I/O Module
GigE Master I/O Module
42x E1/T1 Master I/O Module
STM-1 Electrical Mini I/O Module
Advanced GigE Master I/O Module
= Standard Modules
Second Unified Modem and IF/Telemetry Module
= Optional Upgrades
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Modules •
The MMU is made up modules that provide the major functions
Power Supply Module
Power Supply
Controller Module
Network Processor
Modem Module
Modem
Standard, 2xFE+16xE1/T1 Master I/O Module GigE , 4xGigE + 1xGigE SFP + 2 E1/T1 Master I/O Module Standard Plus, 2xFE+16xE1/T1+STM-1 MUX/DEMUX Master I/O Module Super PDH,2XFE+42xE1/T1 Master I/O Module 16xE1/T1 Expansion I/O Module 21xE1/T1 Expansion I/O Module 2xSTM-1 Electrical, Pass Through, Expansion I/O Module 2xSTM-1 Optical/OC-3, Pass Through, Expansion I/O Module 2xSTM-1 Electrical, 2xMUX/DEMUX, Expansion I/O Module 2xSTM-1 Optical/OC-3, 2xMUX/DEMXU, Expansion I/O Module STM-1 Optical / OC-3 Mini I/O Module STM-1 Electrical Mini I/O Module
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Switch/Framing, I/O Processing
I/O Processing
I/O Processing
Power Supply Module Power Cable Connector
Power Supply Module
Power/Fault LED
•
• •
•
Power Input 2
Requires isolated input of –48 VDC ± 10% – Recommended power input is –40 to –60 VDC at 2 Amps – Total required power is dependent on option cards and configuration (1+0, 1+1) Supplies the ODU with all required power The MMU can house 2 power supplies for redundancy. It is highly recommend to have two power supply module for dual modem setup. No on/off switch
• • •
• •
1
Phoenix Contact Provided with MMU for construction of power cable Screw clamp terminals – Accommodate 24 AWG – 12 AGW wire – 18 AWG is recommended for cables under 10 ft Pin 2 (labeled –V) to –48 VDC Pin 1 (labeled RET) to power supply return, Pin 1 is connected to unit chassis ground internally
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Controller Module Controller Module
Status LED
•
NMS Ethernet
NMS – 10/100Base-TX RJ-45 modular local port connectors – Port 1 Access to Network Management System (SNMP) and GUI – Port 2 Access to Network Management System (SNMP) Used for consecutive point networks
ALARM/Serial Interface •
• •
Reserved For future
Ground Lug
Alarms/Serial – DB-15HD female connector – 2 Form-C relay alarm outputs Rated load: 1A @ 24 VDC Can be configured to emulate TTL alarm outputs – 2 TTL alarm outputs – 4 TTL alarm inputs – Serial Console USB - Reserved Ground Lug – Ground connection for MMU – One of two possible ground locations
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Controller Module: NMS Network Management System Connectors
Controller Card Processor
NMS Port 1
SNMP Agent Telnet Server CLI
Modem 1 Framer Modem 2
Web Server
SSH Server Spanning Tree
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System Monitor/Control Logic
NMS Port 2
Layer 2 Ethernet Switch
Controller: Serial/Alarm Port Serial Port/Alarm Connector
Controller Card Processor Serial Data
Serial/Alarm Port
TTL Alarm Outputs x2
Form C Relay Form C Relay
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System Monitor/Control Logic
TTL Alarm Inputs x4
CLI
Modem Module
ODU Connection
Status LED
XPIC Interface
• • • •
7 MHz to 56 MHz bandwidths Supports QPSK – 256 QAM Modulation Fixed Modulation and Adaptive Coding and Modulation (ACM) Spectrum Efficiency Modes / Improved Phase Noise Tracking using Pilot symbols to support higher modulation on narrower channel. • Support XPIC, no Pilot symbols
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Modem Module • The modem performs – – – – –
Forward-error-correction (FEC) encoding/decoding PSK/QAM modulation and demodulation Carrier Recovery Timing Recovery Equalization
• The IF chain – Transmit: 350 MHz carrier – Receive: 140 MHz carrier
• PTP810 MMU Dual Modem baseline houses 2 Modem module to support both 1+1 or 2+0 operation Cambium Networks Proprietory Restricted
Standard Master I/O Module
Status Not Used LED •
•
User Ethernet Data
Not Used
User Payload Data: Ethernet – 100Base-TX RJ-45 modular local port connectors – Port 1: Fast Ethernet interface – Port 2: Used for consecutive point networks E1/T1 Channels – 2 E1/T1 (RJ-48C) interface connections – Single Molex 60-pin connector containing 14 E1/T1 connections – T1: 100 Ω Balanced, E1: 120 Ω Balanced – 331x E1/T1 Crosspoint Switch
Data 2x Orderwire E1/T1 •
•
14 x E1/T1
Ground Lug
Data Orderwire – RJ-45 modular port connector – RS-422 up to 64 kbps – RS-232 up to 19.2kbps Ground Lug – Ground connection for MMU – One of two possible ground locations
East/West Modem Links - 126xE1 each STM-1 Mux/Demux – 63xE1 Front Panel 16xE1 Expansion I/O – 16xE1, 21xE1 or 63xE1
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Standard Plus Master I/O Module
Status LED
Not Used
User Ethernet Data
Not Used
Data 2x Orderwire E1/T1
14 x E1/T1
Ground Lug
• Same features as Standard Master I/O Module. In addition, also support for STM-1 Mux/Demux
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Super PDH Master I/O Module
Status LED •
•
Not Used
User Ethernet Data
Not Used
Data Orderwire
User Payload Data: Ethernet – 100Base-TX RJ-45 modular local port connectors – Port 1: Fast Ethernet interface – Port 2: Used for consecutive point networks E1/T1 Channels – 3 x Molex 60-pin connector containing 14 E1/T1 connections – T1: 100 Ω Balanced, E1: 120 Ω Balanced – 294x E1/T1 Crosspoint Switch
•
•
14 x E1/T1
14 x E1/T1
14 x E1/T1
Ground Lug
Data Orderwire – RJ-45 modular port connector – RS-422 up to 64 kbps – RS-232 up to 19.2kbps Ground Lug – Ground connection for MMU – One of two possible ground locations
East/West Modem Links - 126xE1 each Front Panel 42xE1 Expansion I/O – 16xE1, 21xE1 or 126xE1 (2xSTM -1)
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GigE Master I/O Module
Status LED
• •
•
Not Used
User SFP Module
User Ethernet Data
Support for STM-1 Mux/Demux, or Jumbo Frames up to 9728 bytes User Payload Data: Ethernet – 4 x 10/1001000Base-TX RJ-45 modular local port connectors – 1 x SFP Slot (1000Base-TX, 1000Base-SX, 1000Base-LX) E1/T1 Channels – 2 E1/T1 (RJ-48C) interface connections – T1: 100 Ω Balanced, E1: 120 Ω Balanced – 317x E1/T1 Crosspoint Switch
Not Used •
•
Data Orderwire
2x E1/T1
Ground Lug
Data Orderwire – RJ-45 modular port connector – RS-422 up to 64 kbps – RS-232 up to 19.2kbps Ground Lug – Ground connection for MMU – One of two possible ground locations
East/West Modem Links - 126xE1/T1 each STM-1 Mux/Demux – 63xE1/T1 Front Panel 2xE1/T1 Expansion I/O – 16xE1/T1 , 21xE1/T1 or 126xE1/T1 (2xSTM-1)
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SFP Plug-in Modules •
Support the same SFP modules as PTP800 – 01010430001 SFP SX Gig-E Optical Pluggable Module - 850 nm – 01010431001 SFP LX Gig-E Optical Pluggable Module - 1310 nm
•
Other SFP modules supported: – 850nm: Avago AFBR-5715LZ Finisar FTLF8519P2BNL ZyXEL SFP-SX
– 1300/1310nm Avago AFCT-5715LZ Finisar FTLF1319P1BTL ZyXEL SFP-LX-10
– 1550nm Sumito SCP6F74-GL
– 1000Base-T (direct) Avago ABCU-5710RZ Finisar FCLR-8521-3
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Master IO: Ethernet Payload
Ethernet Payload Connectors (standard I/O shown) Controller Card Processor
Enet Port 1
‌ Enet Port n
Layer 2 Ethernet Switch
Modem 1 Framer Modem 2
Spanning Tree
Standard I/O: Standard Plus I/O: Super PDH I/O: Gig-E I/O:
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n=2 n=2 n=2 n=5 (4xRJ-45, 1xSFP)
Master IO: E1/T1 Payload
16xE1/T1 Connectors ( standard I/O shown)
E1/T1 P1 LIU
Crosspoint Switch
E1/T1 Pn
Modem 1 Framer Modem 2
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Standard I/O: Standard Plus I/O: Super PDH I/O: Gig-E I/O:
n=16 n=16 n = 42 n=2
Master IO: Auxiliary
Data Orderwire Connectors (standard module shown)
Data O/W
Modem Framer
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PTP810 : VoIP Solution •
The MMU supports Voice Orderwire using a Voice over IP (VoIP) handset. • Selectively dial any location on the NMS network. • Large selection of handsets available. • Customers have access to a much wider array of features. • VoIP handsets can be used to make calls to the Public Switched Telephone Network (PSTN) • Requires use of a VoIP service provider. • The MMU supports a wide variety of VoIP handsets and PoE (Power over Ethernet) power injectors. • For locations that only have -48 VDC power available, use PoE capable handset and a PoE power injector. • has validated the following for use with the MMU.
Installation Example
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Expansion I/O and Mini I/O (Optional) • Optional Expansion I/O Modules: – – – –
Additional 16 x E1/T1 Additional 21 x E1/T1 2 x STM-1 Electrical or Optical/OC-3 (pass Through) 2 x STM-1 Electrical or Optical/OC-3 (MUX/DEMUX)
• Mini I/O capabilities – 1 x STM-1 Electrical or Optical/OC-3
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16 x E1/T1 Expansion I/O Module
Status LED
•
2x E1/T1
14 x E1/T1
E1/T1 Channels – 2 E1/T1 (RJ-48C) interface connections – Single Molex 60-pin connector containing 14 E1/T1 connections – T1: 100 Ω Balanced – E1: 120 Ω Balanced
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21 x E1/T1 Expansion I/O Module
Status LED
•
14 x E1/T1
E1/T1 Channels – Two Molex 60-pin connector One containing 14 E1/T1 connections One containing 7 E1/T1 connections – T1: 100 Ω Balanced – E1: 120 Ω Balanced
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7x E1/T1
2xSTM-1 Expansion I/O Module
STM-1 Optical/OC-3
•
STM-1 Electrical – BNC connectors – 75 Ohm BNC Coax
– STM-1 SFP – SFP MSA Compliant
•
OC-3/STM-1 Optical – OC-3 type SC connectors – Single Mode, SC Duplex Fiber 1310 nm – ITU-T Rec. G.957 S-1.1
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STM-1 Mux/Demux
STM-1 Port
LIU
Mux/ Demux
E1 – 1 E1 – 2 E1 – 3 E1 – 63
• STM-1 Mux/Demux – – – –
Provides for a STM-1 Terminal Mux/Demux capability Can Mux/Demux up to 63 x E1 from an STM-1 signal Performance monitoring via WebGUI and SNMP Only the front-panel STM-1 signal may be routed to the STM-1 Mux/Demux E1s to be aggregated across multiple MMU nodes must be transmitted over the air as E1s with the final MMU performing the STM-1 Mux/Demux Cambium Networks Proprietory Restricted
Mini I/O Module STM-1 Optical/OC-3
STM-1 Electrical
•
OC-3/STM-1 Optical – OC-3 type SC connectors – Single Mode, SC Duplex Fiber 1310 nm
•
STM-1 Electrical – BNC connectors – 75 Ohm BNC Coax
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Mini IO: STM-1 Payload
STM-1 Connector
STM-1 Port
Framer
Modem
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STM-1 Mux/Demux
STM-1 Connector
E1 P1 LIU
Crosspoint Switch
Mux/ Demux
E1 P16
Modem 1 Framer Modem 2 STM-1 Port Cambium Networks Proprietory Restricted
LIU
Crosspoint switch provides any-toany routing of E1s between frontpanel ports, east link, west link, and STM-1 Mux/Demux.
E1/T1 14 to 1 Shielded Cable • Break out individual lines from MMU High Density Connector
Part Number N000081L001A
Description PTP810 14 to 1 Shielded E1/T1 cables, Bare Wire 10ft
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MMU XPIC Cable Part Number • N000081L004 XPIC Cable (23cm / 9 inch) Key Features • Link XPIC data between modems • High performance shielded Cat 6 cable
The XPIC cable allows horizontal and vertically polarized data to be interconnected between modem modules. One cable is needed for each MMU • Supports • XPIC 2+0 configuration • cable between east/west modem as shown in above picture
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Standard single modem Configuration •
• •
• •
Consists of Chassis/Backplane + 4 modules: – 1 x Power Supply Module – 1 x Controller Module – 1 x Standard I/O Module – 1 x Modem Module Dependent on available bandwidth: can adjust for operating bandwidth Payload Options (hardware is always available in this configuration) – 100BaseTX Ethernet: scalable (from 1 – 100 Mbps) – 1-16 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density) Data ORW (64 kbps) Use Software License capacity Keys to create any combination – Some examples: • 30 Mbps Fast Ethernet + 16xE1 + NMS channel • 50 Mbps Fast Ethernet + 8xE1 + NMS channel • 100 Mbps Fast Ethernet + 4xE1 + NMS channel
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Standard dual modem Configuration •
• •
• •
•
Consists of Chassis/Backplane + 6 modules: – 2 x Power Supply Module – 1 x Controller Module – 1 x Standard I/O Module – 2 x Modem Module Dependent on available bandwidth: can adjust for operating bandwidth Payload Options (hardware is always available in this configuration) – 100BaseTX Ethernet: scalable (from 1 – 100 Mbps) – 1-16 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density) Data ORW (64 kbps) Since there are 2 x Modem Modules, there are other configurations – Configure for 2+0 (repeater or east/west configuration) – Configure for 1+1 redundancy The second Power Supply Module supplies power redundancy
Cambium Networks Proprietory Restricted
Field Upgrades Examples •
Example 1: upgrade existing Standard configuration to support more E1/T1s • Purchasing 16 E1/T1 Expansion I/O Module
•
Example 2: upgrade existing Standard configuration to support STM-1 • Purchasing STM-1 Opt/Elec Mini IO Option Module
•
Example 3: Upgrade from 1+0 to 1+1 configuration • Purchasing dual modem upgrade kit • Or purchase the modular card separately: – Qty1 Modem Module – Qty1 Power Supply Module
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Standard Plus single modem Configuration with Expansion I/O •
Consists of Chassis/Backplane + 5 modules: – – – – –
• •
1 x Power Supply Module 1 x Controller Module 1 x Standard I/O Module 1 x 16 E1/T1 Expansion I/O Module 1 x Modem Module
Dependent on available bandwidth: can adjust for operating bandwidth Payload Options (hardware is always available in this configuration) – 100BaseTX Ethernet: scalable (from 1 – 100 Mbps) – 1-16 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density) – 17-32 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density)
• •
Data ORW (64 kbps) Use Software capacity License Key to create any combination – Some examples: • 50 Mbps Fast Ethernet + 21 E1 + NMS channel • 100 Mbps Fast Ethernet + 32 E1 + NMS channel
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Standard dual modem Configuration with Expansion I/O •
Consists of Chassis/Backplane + 7 modules: – – – – –
• •
2 x Power Supply Module 1 x Controller Module 1 x Standard I/O Module 1 x 16 E1/T1 Expansion I/O Module 2 x Modem Module
Dependent on available bandwidth: can adjust for operating bandwidth Payload Options (hardware is always available in this configuration) – 100BaseTX Ethernet: scalable (from 1 – 100 Mbps) – 1-16 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density) – 17-32 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density)
• •
Data ORW (64 kbps) Since there are 2 x Modem Modules, there are other configurations – Configure for 2+0 (repeater or east/west configuration) – Configure for 1+1 redundancy
•
The second Power Supply Module supplies power redundancy
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Standard single modem Configuration with Mini I/O •
Consists of Chassis/Backplane + 5 modules: – – – – –
• •
1 x Power Supply Module 1 x Controller Module 1 x Standard I/O Module 1 x Modem Module 1 x STM-1 Optical or Electrical Mini IO Module
Dependent on available bandwidth: can adjust for operating bandwidth Payload Options (hardware is always available in this configuration) – 100BaseTX Ethernet: scalable (from 1 – 100 Mbps) – 1-16 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density) – STM-1 Optical or Electrical (depends on option selected)
• •
Data ORW (64 kbps) Use Software License Key tool to create any combination (assuming available bandwidth) – Some examples: • STM-1 + 1 Mbps scaled Fast Ethernet • STM-1 + E1
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Standard dual modem Configuration with Mini I/O •
Consists of Chassis/Backplane + 7 modules: – – – – –
• •
2 x Power Supply Module 1 x Controller Module 1 x Standard I/O Module 2 x Modem Module 1 x STM-1 Optical or Electrical Mini IO Module
Dependent on available bandwidth: can adjust for operating bandwidth Payload Options (hardware is always available in this configuration) – 100BaseTX Ethernet: scalable (from 1 – 100 Mbps) – 1-16 x E1/T1: 2 x E1 (RJ-48C), 14xE1 (Molex 60-pin high density) – STM-1 Optical or Electrical (depends on option selected)
• •
Data ORW (64 kbps) Since there are 2 x Modem Modules, there are other configurations – Configure for 2+0 (repeater or east/west configuration) – Configure for 1+1 redundancy
•
The second Power Supply Module supplies power redundancy
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PTP810 Key Features
XPIC • The PTP810 supports XPIC (Cross-Polar Interference Correction) , up to 700 Mbps on a single 56 MHz channel. • Supported in 64/128/256 QAM at channel bandwidth 28MHz or above. • Data is transmitted simultaneously on both horizontal and vertical polarizations in the same channel. • XPIC supported in 2+0 (non-protected) and 2+2 (protected) configurations. Cambium Networks Proprietory Restricted
XPIC Configuration • •
Two ODUs on each side of the link transmitting on horizontal and vertical polarizations. Two Modems are used in each PTP810 and they are linked together by an XPIC cable. H Polarization
ODU
ODU
ODU
ODU V Polarization
Cambium Networks Proprietory Restricted
Adaptive Coding and Modulation (ACM) • ACM help ensure the link is maintained, at a reduced capacity, during degraded link performance due to weather or other anomalous conditions. • Support three operation modes, configurable by end customer. • Both directions of the link always work at the same ACM mode. • Traffic outage during ACM switching, typical 100 ms or less. Cambium Networks Proprietory Restricted
Adaptive Power Control • The MMU provides Adaptive Power Control capability to reduce interference in densely deployed networks. • The Adaptive Power Control algorithm lowers the Tx Power to between the 1E-6 and 1E-12 BER rate level. If SNR or signal-level decreases, the Tx Power is increased to maintain the 1E-6 BER. • Alarms are raised if maximum Tx Power is reached • Trending graphs in the Web GUI show Tx Power, RSL, and SNR over the last 24 hours. Raw data is available for last 72 hours via SNMP.
Cambium Networks Proprietory Restricted
Ethernet Packet Size Support Master IO Module
Packet Size (Bytes)
Notes
Standard I/O
2048
Standard Plus
2048
Super PDH
2048
Gig-E I/O configured to support STM-1 Mux/Demux
4000
When used with Mux/Demux or SNCP-Like
Gig-E I/O configured to support Jumbo Frame
9728
When not used with Mux/Demux or SNCPLike
Cambium Networks Proprietory Restricted
Ethernet VLANs Ethernet TAG Based VLAN Support (IEEE 802.1Q) Feature
Description
Static VLAN Table (User Configured)
Allows user defined forwarding groups to control packet forwarding between ports and RF links based upon VLAN ID.
VLAN Tagging/Detagging
Allows VLAN tagging of ingress packets based upon port and detagging of packets upon egress
Double Tagging (Q-in-Q)
Allows VLAN stacking (extra VLAN TAG) of ingress packets. – Allows service providers to segregate customer traffic regardless of VLAN tags on customer traffic
Multiple Spanning Tree
Allows VLANs to have independent Spanning-Trees.
• Port Based VLANs • Provides for Port-Based VLANs to segregate overall bandwidth into two independent Ethernet networks. May be used to isolate voice and data traffic. • Port based VLANs are supported, but not user-configurable as they are used to implement 155FE and Port-based VLAN modes Cambium Networks Proprietory Restricted 65
Ethernet QoS • QoS is implemented using weighted priority queues. Incoming packets are assigned to a priority queue based on one or more of the following criteria (see Master IO Module QoS Capabilities): – Incoming Port: port based priority allows assignment to a priority queue based upon the port the packet arrived on – 802.1Q VLAN Tag Priority: packets are assigned to a priority queue based upon the priority tag field in the VLAG TAG – IPv4 TOS: packets are assigned to a priority queue based upon the TOS field in the IPv4 header – DiffServ: packets are assigned to a priority queue based upon the value of the DS field of the IPv4 header (the DS field is the re-defined IPv4 TOS field) Cambium Networks Proprietory Restricted
Ethernet QoS Port Priority 802.1Q VLAN Tag Priority
Priority Resolution
Priority Queue 1 Priority Queue 2 Priority Queue 3 Priority Queue 4
IPv4 TOS DiffServ
• QoS is implemented using weighted priority queues (WFQ), Strict Priority Scheme or Pre-empt with WFQ*, based on one or more of the criteria. – – – –
Port Priority 802.1Q VLAN Tag IPv4 TOS DifferServ
* - Depends on Master I/O modules type Cambium Networks Proprietory Restricted
Bridging and VLAN standards • The MMU supports – 802.1D-2004 Section 9: Encoding of Bridge Protocol Data Units Section 14 Bridge Management (partial support via GUI and proprietary MIB) Section 16 Bridge Performance Section 17 Rapid Spanning Tree Protocol
– 802.1Q-2005 Section 9 Tagged Frame Format o Standard or standard plus: packets sizes up to 2048 bytes o Gig-E: packet sizes up to 9728 bytes
Sections 13 & 14 Multiple Spanning Tree Protocol Cambium Networks Proprietory Restricted
Ethernet Monitoring • Ethernet Statistics – Cumulative and per seconds statistics:
Tx Packets Tx Bytes Tx Errors Rx Packets Rx Bytes Rx Errors
• Link Loss Forwarding – The MMU may be configured to disable front-panel Ethernet ports in the event of an RF link outage. This may be used to “notify” external networking equipment of an outage. Cambium Networks Proprietory Restricted
Ethernet Buffering • Standard, standard plus and Super PDH I/O module: – Layer 2 Ethernet switch contains 64 Kbytes of buffer – Blocks are dynamically allocated
• Gig-E – Layer 2 Ethernet switch contains 128 Kbytes of buffer – Divided into 512 blocks of 256 bytes – Blocks are dynamically allocated Cambium Networks Proprietory Restricted
PTP810 Gigabit Ethernet LACP • The Gig-E MMU supports IEEE 802.3ad - LACP on the front-panel ports.
Ethernet Switch
SDIDU 1+0
ODU
ODU
LACP/ EtherChannel
SDIDU 1+0
Ethernet Switch
LACP/ EtherChannel
Cambium Networks Proprietory Restricted
NMS Support • The MMU supports SNMP for network management – SNMPv1, SNMPv2, and SNMPv3 – SNMP Traps
• The MMU supports industry standard MIBs in addition to proprietary MIBs – – – – –
RFC-1213 (MIB-II) RFC-2863 (The Interfaces Group MIB) RFC-3635 (Ethernet-like Interface) RFC-2558 (SONET/SDH Interface) RFC-3985 (DS1, E1, DS2, and E2 Interface)
• The MMU does not support routing for NMS traffic. Cambium Networks Proprietory Restricted
NMS Support: Additional Features • The MMU supports remote logging of alarms and messages to a Syslog server as specified in RFC3164 – Per RFC3164: "In its most simplistic terms, the syslog protocol provides a transport to allow a machine to send event notification messages across IP networks to event message collectors - also known as syslog servers."
• Email notifications
Cambium Networks Proprietory Restricted
MAC Addresses • MMU supports two MAC addresses – NMS – Payload
• Internal Ethernet switches – Can learn up to 1024 different MAC addresses
Cambium Networks Proprietory Restricted
PTP 810 Radio Performance
Supported Frequency
Cambium Networks Proprietory Restricted
MMU Configuration
Cambium Networks Proprietory Restricted
E1 Latency Performance One Way E1 Latency (ms) Modulation 7 MHz
14 MHz
28 MHz
40 MHz
56 MHz
QPSK
4.05
2.17
1.22
0.98
0.74
16QAM
2.19
1.24
0.75
0.61
0.51
32QAM
1.83
1.05
0.65
0.55
0.45
64QAM
1.55
0.89
0.57
0.51
0.42
128QAM
1.36
0.81
0.53
0.45
0.40
256QAM
1.22
0.72
0.50
0.42
0.38
Cambium Networks Proprietory Restricted
T1 Latency Performance
Cambium Networks Proprietory Restricted
Ethernet Latency • Standard and Enhanced Master I/O Card: Frame Size (bytes)
Latency (msec) 10Mbps Data Rate
50Mbps Data Rate
100Mbps Data Rate
64
3.18
0.73
0.385
128
3.24
0.76
0.405
256
3.38
0.81
0.446
512
3.64
0.91
0.527
1024
4.18
1.12
0.689
1280
4.44
1.22
0.770
1518
4.68
1.31
0.846
2048
5.22
1.52
1.019
Cambium Networks Proprietory Restricted
Ethernet Latency • Gigabit Master I/O Card Throughput (Mbps)
Minimum Latency (msec) (64 bytes)
Maximum Latency (msec) (1518 bytes)
10
3.29
4.60
50
0.72
1.09
100
0.42
0.68
150
0.26
0.37
200
0.19
0.28
250
0.16
0.24
300
0.13
0.21
Cambium Networks Proprietory Restricted
Maximum Transmit Power
Cambium Networks Proprietory Restricted
PTP810 Configuration and Network Topology
1+1 PROTECTION – NON-DIVERSITY
Connected to West Modem
Connected to West Modem
MMU
MMU
Connected to East Modem
Connected to East Modem
1+1 WITHOUT DIVERSITY • Protects the power supply, ODU and modem cards • Provides hitless receive switching and hot standby • Antenna can be shared, or redundant antennas are supported
Cambium Networks Proprietory Restricted
1+1 PROTECTION – Spatial DIVERSITY
Connected to East Modem
Connected to East Modem
MMU
MMU
Connected to West Modem
Connected to West Modem
1+1 WITH SPATIAL DIVERSITY • Spatial diversity – one transmitter and two receivers are active (Hot Standby); provides hitless receive switching
Cambium Networks Proprietory Restricted
1+1 PROTECTION – Frequency DIVERSITY f1 Connected to West Modem
Connected to West Modem
f2 MMU
MMU
Connected to East Modem
Connected to East Modem
1+1 WITH FREQUENCY DIVERSITY • Frequency diversity – two frequencies are used and both radios are active; supports hitless receive and transmit switching
Cambium Networks Proprietory Restricted
2+0 EAST-EAST CONFIGURATION
Connected to West Modem
Connected to West Modem
MMU
MMU
Connected to East Modem
Connected to East Modem
2+0 FOR LINK AGGREGATION • Both ODUs transmit and receive in the same direction • Can achieve up to 700 Mbps Ethernet throughput using 256 QAM at 56 MHz channel width with XPIC
Cambium Networks Proprietory Restricted
2+0 EAST/WEST CONFIGURATION Connected to West Modem
Connected to East Modem
MMU
Connected to East Modem
Connected to East Modem
1+0 Ring
MMU
MMU
1+0 Ribbon MMU
Connected to West Modem
Connected to West Modem
MMU
Connected to East Modem
Connected to East Modem
Connected to West Modem
Connected to West Modem
Connected to East Modem
Connected to West Modem
MMU
MMU
• Support 1+0 Ring Configuration • Support 1+0 Ribbon (Daisy Chain) Configuration • Each MMU connects to two ODUs. • One ODU transmits-receives in one direction and the other transmits-receives in the other direction Cambium Networks Proprietory Restricted
PTP LINKPlanner for PTP810
PTP LINKPlanner •
PREDICT PERFORMANCE Path Profile
•
BEFORE PURCHASE Easy, fast link calculations
Multiple links simultaneously Detailed Reporting
Configuration Info
Wireless Network Views Time-Saving BOM Performance Info
Cambium Networks Proprietory Restricted
Release Plan • Support PTP810 link performance plan (released) • Support PTP810 BOM list creation (End of May) • Support IRFU link Plan (Aug, 2012)
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Lab Demo • Lab Demo for PTP810 link planning – Link budget – Engineering report, etc.
Cambium Networks Proprietory Restricted
Shipment in 01-00 (M3 - June 15th 2012) • Both ends can be different Master I/O P/N
Description
Qty MSRP (US$)
C000081M001A C000081M008A C000081M003A C000081M005A
PTP810 MMU PTP810 MMU PTP810 MMU PTP810 MMU
Standard, 2xFE + 16xE1/T1 GigE, 4xGigE + 1xGigE SFP + 2xE1/T1 Standard Dual Modem, 2xFE + 16xE1/T1 GigE Dual Modem, 4xGigE + 1xGigE SFP + 2xE1/T1
1 1 1 1
$ $ $ $
N000081H005A C000081H002A N000081H015A N000081H004A N000081H016A N000081H012A
PTP810 MMU PTP810 MMU PTP810 MMU PTP810 MMU PTP810 MMU PTP810 MMU
Control Module Modem Module Power Supply Module Chassis Standard Master I/O module GigE Master I/O module
1 1 1 1 1 1
$ 1,000.00 $ 2,000.00 $ 500.00 $ 500.00 $ 1,500.00 $ 2,500.00
N000081H006A PTP810 MMU Expansion I/O: 16xE1/T1
1
$ 1,250.00
C000081H001A PTP810 MMU Dual Modem upgrade kit, Power Supply Module + Modem Module
1
Cambium Networks Proprietory Restricted
2,750.00 3,750.00 4,250.00 5,250.00
$ 2,500.00
Shipment in 03-00 (Q4 – 2012)
P/N Description C000081M009A PTP810 MMU C000081M002A PTP810 MMU PTP810 MMU C000081M004A 1 Mux/Demux C000081M010A PTP810 MMU
Standard Plus, 2xFE + 16E1/T1, STM-1 Mux/Demux Super PDH, 2xFE + 42xE1/T1 Standard Plus Dual Modem, 2xFE + 16E1/T1, STMSuper PDH Dual Modem, 2xFE + 42xE1/T1
N000081H017A N000081H003A N000081H011A N000081H008A
PTP810 MMU Standard Plus Master I/O module PTP810 MMU Super PDH Master I/O module PTP810 MMU Expansion I/O: 21xE1/T1 PTP810 MMU Expansion I/O: 2xSTM-1 Electrical, Pass Through PTP810 MMU Expansion I/O: 2xSTM-1 Optical/OC-3, Pass N000081H010A Through N000081H007A PTP810 MMU Expansion I/O: 2xSTM-1 Electrical, 2xMux/Demux PTP810 MMU Expansion I/O: 2xSTM-1 Optical/OC-3, N000081H009A 2xMux/Demux N000081H014A PTP810 MMU Mini I/O: STM-1 Optical/OC-3 N000081H013A PTP810 MMU Mini I/O: STM-1 Electrical
Cambium Networks Proprietory Restricted
Qty 1 1
MSRP (US$) $ 3,250.00 $ 4,750.00
1 1
$ $
4,750.00 6,500.00
1 1 1 1
$ $ $ $
2,000.00 3,000.00 1,500.00 2,000.00
1 1
$ $
2,250.00 3,000.00
1
$
3,250.00
1 1
$ $
1,750.00 1,500.00
PTP810 Licensing • Features controlled by software license key – XPIC require XPIC authorization keys. The key is generated by using the S/N of the MMU chassis. Each XPIC link need two keys. The key is issued per unit based.
• Capacity is controlled by software license key • PTP810 also support Time-based licensing for capacity control. • We only support such feature per requirement, please contact Allen.yu@cambiumnetoworks.com if you need it. • When time based license expire, the Ethernet capacity will set to 25% of the capacity key issued with Time base control.
Cambium Networks Proprietory Restricted
Capacity Licensing •
The PTP810 MMU is shipped with 10 Mbps key as default from factory, means the MMU can support following channel plan: • •
•
ETSI: 7 MHz, QPSK FCC: 10 MHz, QPSK
PTP810 share the same Capacity licensing P/N as PTP800, but the way how it works is very different. P/N Description Qty MSRP (US$) PTP800/PTP810 Modem Capacity CAP - 20 Mbps (per Unit) WB3538 1 $ 125.00 PTP800/PTP810 Modem Capacity CAP - 30 Mbps (per Unit) WB3539 1 $ 250.00 PTP800/PTP810 Modem Capacity CAP - 40 Mbps (per Unit) WB3540 1 $ 375.00 PTP800/PTP810 Modem Capacity CAP - 50 Mbps (per Unit) WB3541 1 $ 500.00 PTP800/PTP810 Modem Capacity CAP 100 Mbps (per Unit) WB3542 1 $ 1,000.00 PTP800/PTP810 Modem Capacity CAP - 150 Mbps (per Unit) WB3543 1 $ 1,250.00 PTP800/PTP810 Modem Capacity CAP - 200 Mbps (per Unit) WB3544 1 $ 1,500.00 PTP800/PTP810 Modem Capacity CAP - 300 Mbps (per Unit) WB3545 1 $ 1,750.00 PTP800/PTP810 Modem Capacity CAP - 400 Mbps (per Unit) WB3546 1 $ 2,000.00 $ 3,000.00 N000081K001A PTP810 Modem Capacity CAP - 600 Mbps (per Unit) 1 PTP800/PTP810 Modem Capacity CAP upgrade from 20 -> 30 Mbps key (per Unit) 250.00 WB3547 1 $ PTP800/PTP810 Modem Capacity CAP upgrade from 30 -> 40 Mbps key (per Unit) 250.00 WB3548 1 $ PTP800/PTP810 Modem Capacity CAP upgrade from 40 -> 50 Mbps key (per Unit) $ 500.00 WB3549 1 PTP800/PTP810 Modem Capacity CAP upgrade from 50 -> 100 Mbps key (per Unit) 750.00 WB3550 1 $ PTP800/PTP810 Modem Capacity CAP upgrade from 100 -> 150 Mbps key (per Unit) 750.00 WB3551 1 $ PTP800/PTP810 Modem Capacity CAP upgrade from 150 -> 200 Mbps key (per Unit) 750.00 WB3552 1 $ PTP800/PTP810 Modem Capacity CAP upgrade from 200 -> 300 Mbps key (per Unit) 1,000.00 WB3553 1 $ PTP800/PTP810 Modem Capacity CAP upgrade from 300 -> 400 Mbps Key (per Unit) 1 $ 1,000.00 WB3554 $ 1,500.00 N000081K003A PTP810 Modem Capacity CAP upgrade from 400 -> 600 Mbps Key (per Unit) 1
Cambium Networks Proprietory Restricted
PTP810 Capacity Control •
PTP800 CMU capacity is controlled by the threshold on user Ethernet port. The PTP810 MMU capacity is controlled by enable a list of mode file, which defines supported Channel bandwidth and Modulation Mode.
•
For example, a 100 Mbps key will enable MMU to support – ETSI:
7 MHz @ QPSK to 128 QAM 14 MHz @ QPSK to 128 QAM 28 MHz @ QPSK to 64 QAM 40 MHz @ QPSK to 16 QAM 56 MHz @ QPSK
– FCC:
10 MHz @ QPSK to 128 QAM 20 MHz @ QPSK to 128 QAM 30 MHz @ QPSK to 32 QAM 40 MHz @ QPSK to 16 QAM 50 MHz @ QPSK 80 MHz @ QPSK
Cambium Networks Proprietory Restricted
Three types of Authorized Code • “Standard” – allow 1+0 or 1+1 configuration – Total Capacity = Eth Capacity + TDM Capacity
• “2+0”- allow 1+0 Ring/Ribbon or 2+0 East/East link aggregation (non-XPIC) – Total capacity = 2 x Maximum [(Eth Capacity + TDM Capacity of Modem East ) or (Eth Capacity + TDM Capacity of Modem West)]
• “XPIC”- allow XPIC – Each link can operate with different channel side and modulation mode. – Total capacity = Eth Capacity + TDM Capacity Cambium Networks Proprietory Restricted
Throughput vs. Capacity Key Mapping ETSI Channel Size (ETSI)
Modulation
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
Maximum Ethernet throughput (Mbps)
Maximum Number of E1 supported
7 MHz
QPSK 16 QAM 32 QAM 64 QAM 128 QAM
10 Mbps 20 Mbps 20 Mbps 30 Mbps 40 Mbps
10.0 20.0 24.6 30.0 35.5
9.0 19.0 24.0 29.0 34.0
4 9 11 14 16
Channel Size (ETSI)
Modulation
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
Maximum Ethernet throughput (Mbps)
13.75/ 14 MHz
QPSK 16 QAM 32 QAM 64 QAM 128 QAM
20 Mbps 40 Mbps 50 Mbps 50 Mbps 50 Mbps
20.0 40.2 49.8 60.9 71.9
19.0 39.0 48.0 59.0 70.0
Modulation
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
QPSK
40 Mbps
16 QAM 32 QAM
Channel Size (ETSI)
27.5/ 28/ 29.65/ 30 MHz
Maximum Ethernet throughput (Mbps)
Maximum Number of E1 supported 9 18 23 29 34
Maximum Number of E1 supported
100 Mbps
40.5 81.3
39.0 79.0
19 39
100 Mbps
102.7
100.0
50
64 QAM
100 Mbps
122.9
120.0
59
128 QAM
150 Mbps
139.0
136.0
70
256 QAM
150 Mbps
164.0
160.0
81
Cambium Networks Proprietory Restricted
Throughput vs. Capacity Key Mapping ETSI Maximum Link throughput (Mbps) (Eth + E1/T1) 55.4 106.9 139.3 163.9 196.3 229.4
Maximum Ethernet throughput (Mbps)
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
Maximum Ethernet throughput (Mbps)
100 Mbps 150 Mbps 200 Mbps 300 Mbps 300 Mbps 300 Mbps
81.3 155.2 204.5 253.2 294.2 335.1
79.0 152.0 200.0 248.0 288.0 328.0
Channel Size (ETSI)
Modulation
Minimum required Capacity Key
40 MHz
QPSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM
50 Mbps 100 Mbps 150 Mbps 150 Mbps 200 Mbps 200 Mbps
Channel Size (ETSI)
Modulation
55/ 56/ 60 MHz
QPSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM
Cambium Networks Proprietory Restricted
53.0 104.0 136.0 160.0 192.0 224.0
Maximum Number of E1 supported 26 53 68 81 96 110
Maximum Number of E1 supported 39 75 101 123 126 126
Throughput vs. Capacity Key Mapping XPIC - ETSI Modulation
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
Maximum Ethernet throughput (Mbps)
64 QAM 128 QAM
200 Mbps 300 Mbps
245.6 294.1
256.0 288.0
120 146
256 QAM
300 Mbps
343.8
336.0
168
Modulation
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
Maximum Ethernet throughput (Mbps)
64 QAM
300 Mbps
343.4
336.0
168
128 QAM
400 Mbps
409.4
400.0
198
256 QAM
400 Mbps
474.4
464.0
205
Channel Size (ETSI)
Modulation
Minimum required Capacity Key
Maximum Link throughput (Mbps) (Eth + E1/T1)
Maximum Ethernet throughput (Mbps)
55/ 56/ 60 MHz
64 QAM 128 QAM 256 QAM
600 Mbps 600 Mbps 600 Mbps
506.3 588.0 687.4
496.0 576.0 672.0
Channel Size (ETSI) 27.5/ 28/ 29.5/ 30 MHz
Channel Size (ETSI)
40 MHz
Cambium Networks Proprietory Restricted
Maximum Number of E1 supported
Maximum Number of E1 supported
Maximum Number of E1 supported 205 205 205
Capacity Key Planning Tool • phn-2781 - PTP 810 01-00 E1/T1 Planning Tool http://zuk44srv03.ea.mot.com/wdoc/d/2781/
• Lab Demo
Cambium Networks Proprietory Restricted
Selling licensed microwave
License-Exempt (Unlicensed) • Benefits – Time To Market No Coordination required Product available off the shelf
– Low Cost Hardware CAN be less expensive Typically no minimum antenna size No licensing/coordination fees
– Flexible Link Can be relocated at any time
– Near and Non-LOS capability PTP600/500 provide connectivity where licensed won’t work Multi-path fading and reflections are minimized by features like iOFDM/MIMO
104
Cambium Networks Confidential Information
License-Exempt (Unlicensed) • Disadvantages – No Formal Coordination There is no Governing body to mitigate interference should it occur Interference environment can change over time and adversely affect link performance
– Low Cost Low cost solutions in LE bands reduce the barrier to entry, creating more noise Lower cost gear typically uses larger channels, and are not spectrally efficient
– Unpredictable Performance 300 Mbps capacity links can be reduced to 120 Mbps due to noise Link capacity may vary over time making it challenging to count on a throughput
– TDD in order to maximize channel combinations Degradation over distance and technical limitations on distance (CN industry leaders) TDD introduces more delay as you are using the same channel to Tx and Rx
105
Cambium Networks Confidential Information
Licensed Bands (6,7, 8,13, 15. 26, 28, 32, 38 GHz ETSI) • Benefits – Coordinated Channels Channels are regionally coordinated (varies) to minimize the interference Recourse for dealing with interference (varies in regions)
– FDD
Given extensive # of channels, Full duplex FDD is common Reduced latency (<115 microseconds common) No throughput degradation over distance due to switching time delays Can Tx and Rx simultaneously on two channels
– Tx Power Increase (varies by region) License links can often times operate at higher Tx Power than LE Links (ie 5.8 ETSI – EIRP 32.5 vs 6 GHz ETSI 60+ depending on dish)
– Predictable Performance ACM becomes tool for mitigating environmental fades that can be better predicted 106
Cambium Networks Confidential Information
Licensed Bands (6,7, 8,13, 15. 26, 28, 32, 38 GHz ETSI) • Disadvantages – Time to Deploy Since channels have to be coordinated regionally can take weeks/months In some countries, coordination not flushed out...spectrum analysis still required
– LOS Only Single carrier radio does not allow for near and NON LOS Paths must be more carefully planned for things like reflections and multipath
– Rain attenuation Frequencies above 11 GHz are subject to attenuation from rain (higher=more att) Atmospheric conditions DRASTICALLY change the max distances in licensed bands
– System Cost Typically Higher Coordination, licenses, antennas and transmission line (Coax/Waveguide)
– Sparing Multiple sub-band options can create challenges with sparing 107
Cambium Networks Confidential Information
Licensed System Configurations • Split Mount (PTP800/810) – ODU (RF Head) Mounted Outdoors/Modem in Closet No transmission line loss between dish and radio Minimize weather impact on connectors with slip-fit Coax cable used for IF o Lower cost than waveguide o Longer distances allowed than Cat 5 o More rugged than Cat 5 (All outdoor installations)
In case of PTP810 more interface options available than outdoor
– Downside OPEX is increased over all indoor CAPEX is increased over all outdoor More space required in cabinet than all outdoor
108
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Licensed System Configurations • All Indoor (800i/810i) – RF Head and Modem both located in Cabinet
No Components exposed to the elements Field replaceable Tx/Rx module No tower climb required to replace/repair RF Higher Power Tx to overcome waveguide loss 800i Chassis designed for easy protection (1+1/Ring) “Traditional” Microwave – Looks like NEC. Aviat,, Alcatel Rack mounted RF Head
– Downside
109
Increased cost (Radio, Waveguide, Dishes, Sparing) Tower load increased (waveguide, dishes) 2RU required inside rack for mounting DC Power source required for indoor unit
Cambium Networks Confidential Information
Licensed System Configurations • All Outdoor (SAF/DW/Exalt) – Radio/Modem outdoors
Ethernet Cable provides power and connectivity to radio Low Cost units No rack space required Simple installation Lower power consumption typical
– Downside Maximum Risk for Customer with all components exposed to elements Ethernet cable has distance limitations of 100m No Protection on T-1’s, and external switch typically req to protect Ethernet Tower climb required for any troubleshooting
110
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Native TDM Radios • Legacy Microwave provides Switch-Circuit Interface – E1 – E3
• Designed for voice circuits – Short duration-fixed connections – Capacity used whether carrying traffic or not – Latency and cost added to convert to IP
• Point to point in nature – Challenging to protect – Requires a 3rd party switch
111
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Native IP Radios (800/DW) • • • •
Ideal for converged services Data can be queued and prioritized for voice Packets are re-sent if they don’t arrive first try Increased flexibility and more efficient use of capacity • Higher capacities available (GigE) • Legacy TDM interfaces require 3rd party box – Pseudowire = increased overhead and latency – Adds cost and complexity to link – Provides enhanced flexibility for protection
112
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Hybrid (810/Ceragon/Exalt) • Combines both native TDM and native IP into same radio • No additional box required for TDM • Low latency E1’s that have no additional overhead • Migration from TDM to IP is slow, and Hybrid is ideal solution – As circuits are migrated, capacity becomes avail in IP
• 810 Offers Superior Protection on E1’s – Since protection is done in single chassis, no external box required for E1 protection (Exalt/Ceragon)
113
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Hybrid Cont • Cross connects done virtually in backplane on 810 – Reduces cabling complexity in cabinets – Add/Drop Inserts done without having physical cross-connects
• Bottom Line: Meets today’s requirements for TDM support, while offering seamless migration path to IP as required...At a competitive price point! 114
Cambium Networks Confidential Information
Microwave Systems Overview
115
Value Proposition PTP810
•
• •
•
116
PTP800
Future Proof Platform: Super PDH, Hybrid and All IP backhaul by one platform Support XPIC and physical link aggregation Eth traffic optimization with embedded L2 Switch, TDM traffic drop/add with embedded E1/T1 cross switch Protected / Non-protected link, Ring & Tree, fit both aggregation and last mile connection
• • •
• •
Ethernet Only backhaul Hitless and Error less ACM with Adaptive Transmit power Easy to use, compact modem, plug-in and play, remove rack mount dependency FIPS-140-2 comply with AES encryption Fully integrated with Motorola UEM and meet all Information Assurance (IA) requirement.
Cambium Networks Confidential Information
Eth / TDM Capacity Eth (Mbps) PTP800
800
PTP810 – Standard 600
PTP810 – GigE PTP810 – Super PDH
400
Note: To reach maximum Capacity on PTP810, XPIC is required.
200 100 50
TDM No TDM 117
16/32xE1/T1
63xE1/T1
2xE1/T1+3xSTM1 (23xE1/T1+ 1xSTM1)
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16xE1/T1+3xSTM1 (37xE1/T1+ 1xSTM1)
Feature Comparison â&#x20AC;&#x201C; PTP800 lead PTP810
PTP800
ACM
Limited to 3 levels, with hit for 100 ms during switch.
Up to 8 levels, hitless and Errorless. Support Adaptive Power ACM with ODU-B or IRFU
Queues to serve QoS
Up to 4 Queues
Up to 8 Queues
Asymmetrical Capacity licensing
Not supported
Support
In-Band and Out-of-Band Management
Partially, only support Out-of-band
Support both
FIPS-140-2
No
Yes
128 & 256 bit AES for both NMS and User Traffic
Partially, only AES 128 bit for NMS
Yes
UEM integration for Fault Management
No
Yes
Easy to use
Need to understand how to configure a radio properly
Plug and play, easy to configure
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Feature Comparison â&#x20AC;&#x201C; PTP810 lead PTP810
PTP800
TDM support
Native TDM support for E1/T1, STM-1 / OC-3
Not Support, required external TDM Multiplexer
Build-in E1/T1 cross-point Switch
Easy to support PDH/SDH E1/T1 add/drop
Not support
Build-in Ethernet L2 Switch
Multiple Eth ports Support protected Eth Ring with RSTP
Not support
XPIC
Support
Not Support
Link Aggregation
Support up to 700 Mbps with physical link aggregation with XPIC, Support 4+0 link, up to 1.3 Gbps
Need external switch to do Eth aggregation
Lower cost for 1+1 setup
Redundant ODU, redundant Power supply and modem module. Digital frame module shared with single capacity key
Full redundancy for both ODU and CMU, required two capacity keys, required external Switch for 1+1 setup
QoS
Support port based QoS, with different data Scheme
Only support Strict Priority (SP)
Protected PDH Ring
Proprietary and SNCP like (50 ms switch time)
No support
119
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Common Configurations • 1+0 – Non Protected • 1+1 – Protected (MHSB) – Non Diverse – Spatial Diversity, Frequency Diversity
• 2+0 – Non Protected Link Aggregation – XPIC – Most Common – Ring
• 2+2 – Protected High Capacity
120
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1+0 Non Protected (800/810)
• • • • • • 121
Spur Links – Not Mission Critical 1 Tx/Rx no hardware protection (CMU/ODU/Dish/Key) 1 Channel/1 Polarity Required 350 Mbps Max. Depending on channel size Low Cost often times wins No Spatial Diversity option in PTP800 Cambium Networks Confidential Information
1+1 Protected (PTP800)
• • • • • 122
Critical Paths - <50ms switch time during failure scenario to secondary paths 2 Tx/Rx Full hardware protection (2CMU/2ODU/1Dish/2Keys/Coupler/External switch) 1 Channel/1 Polarity Required (only 1 Tx active) 350 Mbps Max. Depending on channel size Spatial Diversity option available (second dish/External Switch required) Cambium Networks Confidential Information
1+1 PROTECTION (PTP810)
West Modem East Modem
West Modem East Modem MMU
MMU
1+1 WITHOUT DIVERSITY • Protects the power supply, ODU and modem cards • Provides hitless receive switching and hot standby • Antenna can be shared, or redundant antennas are supported • Redundant on ODU, modem, power supply, share framer/digital I/O module 123
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1+1 PROTECTION – Spatial DIVERSITY (PTP810)
Connected to East Modem
Connected to East Modem
MMU
MMU
Connected to West Modem
Connected to West Modem
1+1 WITH SPATIAL DIVERSITY • Spatial diversity – one transmitter and two receivers are active (Hot Standby); provides hitless receive switching
124
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1+1 PROTECTION – Frequency DIVERSITY (PTP810) f1 Connected to West Modem
Connected to West Modem
f2 MMU
MMU
Connected to East Modem
Connected to East Modem
1+1 WITH FREQUENCY DIVERSITY • Frequency diversity – two frequencies are used and both radios are active; supports hitless receive and transmit switching
125
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Ring Protection (800) • Highest availability (system wide) – Outages limited to one site • 2 Tx/Rx Full hardware protection (2CMU/2ODU/2Dish/2Keys/External switch) • 2 Channels Required (2 Tx active) • 350 Mbps Max. Per path Depending on channel size • Spatial Diversity option requires second kit • Proprietary switch protocols such as EAPS minimize switching times during re-route 126
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Ring CONFIGURATION (PTP810) Connected to West Modem
Connected to East Modem
MMU
Connected to East Modem
Connected to East Modem
MMU
MMU
MMU
Connected to West Modem
Connected to West Modem
1+0 Ring
Connected to East Modem
Connected to West Modem MMU
• Support 1+0 Ring Configuration • Each MMU connects to two ODUs. • One ODU transmits-receives in one direction and the other transmits-receives in the other direction
127
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2+0 Link Aggregation (800) • Maximum Capacity (700 Mbps) • 2 Tx/Rx Full hardware protection (2CMU/2ODU/1 DP Dish/2Keys/Coupler/External switch) • 2 Channels Required (2 Tx active) • XPIC not supported, required two channels. • LAG – Link Aggregation required to combine links
128
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2+0 EAST-EAST CONFIGURATION (PTP810)
Connected to West Modem
Connected to West Modem
MMU
MMU
Connected to East Modem
Connected to East Modem
2+0 FOR LINK AGGREGATION • Both ODUs transmit and receive in the same direction • Support XPIC, single channel on both V and H polarization. • Can achieve up to 700 Mbps Ethernet throughput using 256 QAM at 56 MHz channel width with XPIC 129
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PROTECTED PDH RING (PTP810)
MMU
PDH RING
MMU
• Data flow in active ring (blue) • Protected ring is idle (red) • Link outage – the protected ring comes into service MMU MMU
130
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SNCP-Like PROTECTED E1/T1 (PTP810)
MMU
SNCP-LIKE • Ring protection for E1/T1based Sub-Network Connection Protection (SNCP)
Working Path MMU
• Supports interoperability between PTP 810 and thirdparty equipment
MMU
Protected Path
• For both wired and wireless network segments MMU
131
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When to Choose PTP800 or PTP810 Vs.
132
Portfolio Positioning PTP810 Packet PDH+SDH
Hybrid backhauling TDM + Ethernet
PTP800 Packet
133
Packet Backhauling Ethernet Only
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PTP800 When to Use • PTP800 is NOT being replaced by 810! • 800 has hitless ACM not available in 810, resulting in higher availability in some cases (ideal for IP apps) • Ease of deployment • GUI common with 600/500 • If a switch is required for other applications, and full hardware redundancy is preferred • Cost for a 1+0 link is less than 810 in IP only apps
134
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PTP810 When to Use • 810 offers interface options CN has never had • Where hybrid TDM/IP interfaces are required • Cost for protection 1+1/2+0 links are reduced in 810 – Only one MMU vs 2CMU’s/1 license key/no switch required – No RAD/Extreme box to deliver E1’s over IP
• When XPIC is required for Link Aggregation – One channel for 2 links – Built in switch for LAG
• When ring protection is required and cost is a concern (no switch required for basic rings) 135
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Considerations • 810 exponentially increases the complexity of design and support • 800 is going to outperform 810 on a basic 1+0 IP link • 810 opens new opportunities with TDM networks CN has never been able to compete for! • 810 is not missing any key features in the licensed space • Add-drop, virtual cross-connects, native E1’s, XPIC, Link Aggregation, 1+1, SD, FD, build-in L2 switch, E1/T1 add/drop … It’s all there 136
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Competition
137
Competitors analysis Feature Ceragon
High
Ericsson
NEC
Aviat Alcatel-Lucent
Huawei Dragonwave PTP810 Ceilo
SAF
Exalt PTP800
Low
MNI
Low 138
High
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Price
Selling Point against Competitors •
New entrance players (such as Exalt, Ceilo, Proxim, Trango, etc) are more IP centric, don’t have a comparable feature for TDM support like PTP810.
•
Vendors who carry “PTP810-like” product. We have pushed the PTP810 to a higher level while few vendors did this. For example, 256 QAM on narrower bandwidth, higher Tx power, better documentation. We can’t change the product, but we did better on details.
•
Compare with Ceragon IP-10, PTP810 has a better cost structure to support 1+1 protected system or 2+0, 4+0 multi-carrier system due to PTP810 modular architecture and our capacity license structure.
•
NSN was one of the bigger “PTP810-like” supplier. The integration with Dragonwave is unclear, which could mean opportunity to Cambium.
•
Other “PTP810-like” supplier includes: SAF, Intracom, WNI, Alcoma, Cablefree, Ceilo, Gigabeam, Moselyes. Check their customer base and opportunity may be there !!!
139
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How to effectively sell Licensed Microwave • Relationship, relationship, relationship !!! • Sell a system solution rather than a microwave link – Network design, planning, ordering, services – Licensed and unlicensed, access and backhaul portfolio
140
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Thank You