8/10/2019 106966785 Microwave Portfolio http://slidepdf.com/reader/full/106966785-microwave-portfolio 1/65 1 © Nokia Siemens Networks Company Confidential NSN Microwave Portfolio MWT Product Line Management May 2011
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1 © Nokia Siemens Networks Company Confidential
NSN MicrowavePortfolio
MWT Product Line Management
May 2011
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2 © Nokia Siemens Networks
Agenda
• NSN Microwave Portfolio
• First mile and aggregation network: FlexiPacket Microwave
• Backbone network: SRT1F
• Network Management: NetViewer and NetAct
• Solution Portfolio for packet backhaul
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3 © Nokia Siemens Networks
Agenda
NSN Microwave Portfolio
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Cell site First mile Aggregation Backbone Service Core
Applications
Any BTS
2G, 3G, iHSPA,LTE, WiMAX
Any MWR
Nodal MWR
Standalone MWR / ODU
NSN provides a complete Microwave portfolio
Complementary to fiber in
backbone transport
One solution for trunk
connections: SDH + ETH
SRT 1F
Packet MW solution from access to
aggregation, from 3.5GHz to E-band
FlexiPacket MultiRadio
FlexiPacket Microwave
Packet
&Hybrid
FlexiPacket FirstMile
FM200
FTIB, FTFB, FTLB
FlexiPacket Hub
FPH800
ANSI
&ETSI
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ONE Transport ONE Network Management
Core
•MWR Trunk•Fiber-based transport
•NG Metro
•DWDM
Access & Aggregation
• All MWR catalogue•Fiber-based transport
•NG Metro
•DWDM
NetViewer + other EMS
NetAct Transport
• All-in-one element/networkmanagement solution for thee2e transport network
Key advantages:
• Visibility of all MWR and fiberbased transport networkcomponents of e2e service path
• Fault, performance, inventorymanagement for the entiretransport network
• e2e provisioning for thecomplete transport network
• One single point of integrationinto NM/SM/Umbrella systemtrough NetAct for transport
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Agenda
First mile and aggregation network: FlexiPacketMicrowave
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Access Aggregation Service CoreApplications
Any BTS 2G, 3G, iHSPA,LTE, WiMAX
FlexiPacket MicrowaveOverview of system components
FlexiPacket Microwave
• Zero footprint Carrier Ethernet• 4- 1024 QAM, ACM, 1.0 Gbit/s• Smooth hybrid to full IP evolution (dual mode platform) FlexiPacket
MultiRadio
FlexiPacket FirstMile
FirstMile 200
FTIB, FTFB, FTLB
FlexiPacket Hub
FlexiPacket Hub 800
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2G3G
FlexiPacket MultiRadio• From 6 to 42GHz, 1.0 Gbps
capacity• Full System in a single ODU• Standard GE CET interface• Hitless ACM• Best-in-class throughput and
System gain• HSBY, XPIC, frequency and space
diversity, Load sharing
FlexiPacket MicrowaveOverview of system components
FlexiPacket FirstMile 200
• Tail and chain site optimized• Single board• 1+0, 1+1 HSBy• 4xFE/GbE, 2xGbE SFP, 8E1
PWE
FlexiPacket Hub 800
• Up to 12 directions, plug-inmodular device
• 12xFE/GbE, 2xGbE/STM-1 SFP,48E1 PWE, FlexBus i/f
WiFi HotSpot
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FlexiPacket MultiRadioHybrid, full packet and CET in one product
FlexiPacket MultiRadio can be configured as full packet or hybrid via softwareupgrades
In hybrid mode FlexiPacket MultiRadio processes and transports both TDM andethernet traffic natively (no pseudowire emulation is performed)
In full packet mode, TDM traffic is converted into ethernet packets withpseudowire. All traffic is therefore processed and transmitted via ethernet
services
3GEthernet
E1/T1
Ethernet
RNC
2G BSCHybrid scenario Full Packet scenario
Ethernet RNC
2G BSC
3G
FlexiPacket MultiRadio, one HW platform for Packet and Hybrid solution
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FlexiPacket FirstMile 200
• 8Gbps switching
capacity (full-duplex)
• 2 ports with embedded
power for FlexiPacket
MultiRadio
• Less than 1RU Size: 3,2
cm H x 44,2 cm W x 21 cm
• Weight: 1 kg
• Synchronous Ethernet
• Up to 4 FlexiPacket MultiRadio, 1+1 Hot Stand-by
• Up to 6 x 10/100/1000 Copper Ports, up to 2 x 100/1000
SFP Ports
• Up to 8 x E1/T1 User Ports
• Y.1731 & IEEE802.1ag
• Delay and Jitter measurements
• Statistics and Alarm collections
• Clocking options: Synchronous Ethernet
DC input
4 x 10/100/1000
BaseT electrical
ports
2 SFP
ports
Out Of Band localand remote
management)
8 E1 ports
Dry contact (two
input and two
output
Memory
Key
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FlexiPacket Hub 800Layout and traffic ports
•Card 2x Flexbus (connection to NSN BTS)
•Card 16xE1
•Card 4xGbE (El.)
•Power injector card for PoE
DC inputLocal managementDry contacts
4x10/100/1000 Base -T
2x100/1000 Base –X (SFP)
•GbE or STM-1
16 E1/T1
Plug-in units • High density Ethernet
– Main Board 4 x 100/1000BaseT
– Main Board 2x SFP
• High density TDM
– Up to 48 E1 per system: 16 E1 in Main Board,16 E1 line card
– 2xSTM-1 interfaces in Main Board
• Other interfaces
– Local management: LCT port (10/100BaseT),LMP port (UART)
– DCN port (10/100BaseT),
– 2 in and 2 out dry contacts
– 2 x DC input -48V
– Memory key (config backup/restore)
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FlexiPacket Hub 800Main Features
Carrier Ethernet Switch
• 20Gb/s switching throughput• L2 bridging
• E-Line, E-LAN MEF services
• Hard QoS (8 queues,Policing, Shaping,WRED)
• Ethernet OAM 802.1ag and ITU-T Y.1731
Resiliency/Traffic Protection
• Network protection
– RSTP/MSTP
– G.8031
– G.8032
– TDM traffic protection via SNCP-like
• IDU 1+1 protection
• Interface protection
– LAG
– MSP/APS 1+1 on STM-1
Synchronization
•System clock source from physical i/f or ToPslave
•ToP 1588v2 slave
•SynchE from/to all ports
•SSM
Multiservice platform
• CESOP
• SATOP
• MLPPP termination
• Ethernet over SDH (GFP)
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FlexiPacket MultiRadio
– Cable Interface
– Power Supply – Antenna
– AGC
– Grounding Point
– ODU-ODU connector
ODU-ODU
connection
IDU-ODU
connection Mechanics for
SRAL XD
antenna
mounting
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FlexiPacket MultiRadioBest-in-class features
Best Radio
and Modem
Performance
Highest throughput with Ethernet header compression, XPIC,
overhead compressionHighest radio performances with digital pre-distortion and LDPC
coding
Highest spectral efficiency: 256 QAM in all channel spacings
Future proof: capable of evolving to 1024 QAM
In-house modem design using best-in-class customizedcomponents
Full-featured
Carrier Ethernet
Platform
8 classes of traffic (8 queues) + WRED congestion avoidance
UNI MEF interface
E-line, E-LAN MEF servicesSLA enforcement including policing and shaping
Packet fragmentation technique bringing latency to zero
L2 OAM ITU-T Y.1731 (PM) / IEEE 802.1ag (connectivity FM)
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FlexiPacket MultiRadioBest-in-class features
3.5/6/7/8/10.5/11/13/15/18/23/26/28/32/38/42GHzFull coverage
of bands
Direct connection of ODU to:
• BTS
• third-party switches/routers
Direct interconnection between ODU‟s: first in the market tosupport zero footprint with XPIC and N+0, N+1 configurations
Zero footprint
solutions
Hybrid, full packet and CET in one product
Change from hybrid to full packet via SW
All-in-one
platform
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The Zero Footprint FlexiPacket MultiRadioA Brand New Equipment Concept
NSN unique benefits in Full-Packet
Backhaul, combining Flexi BTS and fully
Outdoor FlexiPacket MultiRadio
FlexiPacket Microwave
• Zero-footprint cell site solution, directEthernet connection of Microwave to BTS,up to -25% OPEX savings
• Green design, reduced space and powerconsumption, no air conditioning
• Future proof site solution, softwareprogrammable microwave capacity upto1.2Gb/s in 56MHz
• Carrier Ethernet MEF interface from ODU (UNI I/F). No need for dedicated Indoor Unit
• Synchronization through Ethernet (IEEE1588, Synchronous Ethernet)
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FlexiPacket MultiRadio – Green Product
Power Consumption: 35W for a full 1+0 system (VDC range: from -28V to -54V)
Cold 1+1 HSBy, 50% power consumption reduction on Stand-by unit• ACM throughput driven, 20% power consumption reduction with no traffic
• New RF boards, 10% power consumption reduction
• FirstMile reduces power consumption of about 50% with respect to equivalentlegacy IDUs
• FlexiPacket Hub 800 is state of the art power consumption (45W equipped w mainboard and 2 expansion slots)
OPEX reduction via constant step up of network‟s
energy efficiency
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FlexiPacket MultiRadioBest-in-class radio features
Adaptive Code Modulation
Modulation Levels:
4,16,32,64,128,256,512,1024QAM
All channel bandwidths:
3,5/7/14/28/56/112 MHz
Wide range of frequency bands;3.5/6/7/8/10.5/11/13/15/18/23/26/28/32/38/42GHz
Enhanced mo-demodulation techniques
Digital Pre-distortion and LDPC coding
Zero footprint/full outdoor with:
1+1HSBy protection
2+0 XPIC with load sharing
1+1 hitless FD/SD
2+0/3+0/4+0 FD with load sharing
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Adaptive Code Modulation
Supports of 4, 16, 32, 64, 128, 256, 512, 1024 QAM
Counteracts fading up to 100dB/s
Hitless switch
Switching Criteria based on Mean Square Error (MSE) estimation for both
upshift and downshift Hysteresis to avoid continuous modulation variations
Performance monitoring: FlexiPacket MultiRadio provides, for eachmeasurement interval (15m or 24h), the time spent in each ACM profile
ACM can be activated / deactivated via NMS and LCT
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FlexiPacket MultiRadio Ethernet
State of the art Ethernet Features
Hardest Quality of Service
8 queues scheduler CIR/EIR based
Packet fragmentation techniques
Enhanced techniques for congestion avoidance
Proprietary highly-efficient overhead compression
UNI interface
CET demarcation (SLA reference point)
Dual token policing
VLAN tag manipulation
L2 OAM
Fault management and performance monitoring
according 802.1ag, Y-1731
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FlexiPacket MultiRadio QoS architecture
Classification
IDU
Side
QoS classification based on:
IEEE 802.1p VLAN priority field (S-/B-)VLAN ID field
IPv4 DSCP field
IPv6 traffic class field
Source and destination MAC
Eth type
MPLS EXP field
IP address/subnet
Multiple Classification criteria user
selectable
QoS
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Extended Classification rules
FlexiPacket MultiRadio support full set of rules for L2 and L3
packet classification: Source MAC address (B-SA for tunnels)
Destination MAC address (B-DA for tunnels)
VLAN ID (802.1Q)
VLAN P (802.1p)
S-VLAN ID (802.1ad)
S-VLAN P
B-VID (802.1ah)
IPv4 TOS
IPv6 TC
MPLS EXP field (Traffic Class)
Ethernet type
IP address/subnet
Multiple classification criteria user configurable
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FlexiPacket MultiRadio QoS architecture
Congestion
avoidance
FlexiPacket MultiRadio implements the WRED
algorithm for congestion avoidance
Configurable thresholds to determine the
probability that a packet can be drop
„Yellow‟ packets are dropped before any „green‟
one
QoS
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FlexiPacket Congestion avoidance and QoS
Best Effort traffic
Best effort
QoS profile 2
QoS profile 1
QoS profile 3
QoS profile 0
QoS profile 4
QoS profile 5
QoS differentiation
By using QoS applications/subscribers are treated differently and monitored separately
Even in events of congestion, the congestion avoidance feature preserves the service
quality of the most valuable servicesFlexiPacket Microwave implements up to 8 Classes of Services and WRED
In case of congestion packets arerandomly discarded. This is limiting theoverbooking factor that can be applied.
Congestion has equal impact on allusers and data services
In case of congestion packets arediscarded on priority bases
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FlexiPacket MultiRadio QoS architecture
Egress scheduling
Radio
Side
Scheduling Algorithms:Strict priority queuing (SPQ)
In Strict Priority Queuing strategy, the active egress queues are served in descending
order of priority, from the highest to the lowest: each queue is served till it is completely
empty.
Weighted fair queuing (WFQ)
In Weighted Fair Queuing strategy the bandwidth available is shared among all
active queues proportionally to the specific weights associated to each queue.
These weights permit defining the amount of traffic that will be scheduled out for
each queue.
Example
Two SP and six WFQ
Two queues are served according to the SPQ strategy and 6 queues are served
according to the WFQ strategy.
QoS
W F Q S
P
2SP-6WFQ
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Header compression mechanism
FPMR header compression mechanism is based on
compression rule descriptor tables. Copies of compression ruletables are stored in both sender and receiver of packets.Entries in the compression tables provides the necessaryinformation to compress and expand the header of well-knownpackets.
Re cei ve r n o d e
C o m p r e s s i o n
r u l e t a b l e s
COMPRESSOR DECOMPRESSOR
E x p a n s i o n
r u l e t a b l e s
PACKETCOMPRESSED
PACKET
PACKET
d e s c r i p t o r
T r a sm i t t e r n o d e
SERVICE_ID
Priori t y T y p e P P S
descriptor
Re cei ve r n o d e
C o m p r e s s i o n
r u l e t a b l e s
COMPRESSOR DECOMPRESSOR
E x p a n s i o n
r u l e t a b l e s
PACKETCOMPRESSED
PACKET
PACKET
d e s c r i p t o r
T r a sm i t t e r n o d e Re cei ve r n o d e
C o m p r e s s i o n
r u l e t a b l e s
COMPRESSOR DECOMPRESSOR
E x p a n s i o n
r u l e t a b l e s
PACKETCOMPRESSED
PACKET
PACKET
d e s c r i p t o r
T r a sm i t t e r n o d e
SERVICE_ID
Priori t y T y p e P P S
SERVICE_ID
Priori t y T y p e P P S
descriptor
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Scheduler – Packet fragmentation
The performance in terms of jitter of FlexiPacket MultiRadio are enhancedsignificantly by means of packet fragmentation.
In packet fragmentation a low priority packet transmission is suspendedwhen a higher priority packet arrives. The lower priority packet transmissionrestarts when no high priority packets are waiting for transmission.
T0 T1 T2 T3 T4
T4 – T3
Frames incoming time
Without fragmentation
With fragmentation
Time
A
B
C
D
D A B C
Packets assigned to “B-type” queues
Packets assigned to “W-type” queues
D1 C1 B1 A B2 C2 D2
Priority 1 highest
Priority 2
Priority 3
Priority 4 lowest
UNI t f t i t
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FlexiPacketODU
E1
1588
master
BSC
RNC
E1
UNI at zero footprint
UNI
UNI
UNI at the ODU, services mapping, bandwidth profile assignment, CoS assignment
E2E path provisioning up to the ODU with Path Manager
E2E service performance monitoring, L2 OAM ITU-T Y.1731 (performance
management) / IEEE 802.1ag
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Microwave Radio Service availability
1+1 HotStandby (CCM based)
1+1 HotStandby (Port rapid shut down)
1+1 FD
1+1 SD
2+0/3+0/4+0 Load sharing
FP MR
FlexiPacket MultiRadio can be protected using several configuration schemes.
1+1 HotStandBy provides only HW protection, other schemes counteract radio
propagation anomalies introducing improvements in the radio link availability.
Radio Link availability
improvementHigh priority traffic
preservation
Basic ODU Hardware
protection
Connection for XPIC,
diversity and load
sharing
GEth
GEth
Ethernet gear
(FP IDU / 3rd party equip, …)
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30 © Nokia Siemens Networks
Powering
-48V DCEth
Direct Power
power
module
Ful ly outdoo r site/
Roof top site
A wide set of installation solutions
Eth
Powering viaEthernet cable
P+E
Indoor device
OR
Power in jector
Indoor - Outdoor
installation
Typical power consumption 35 W
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Powering and installation ScenarioPowering via Ethernet cable - Power Injector
Powering via
Ethernet cable
Power
Injector
P+E Data (Eth OUT)
Power Injector (if indoor
device doesn’t support
embedded P+E Interface)
Eth-LAN vs Indoor
device (i.e. Switch)
DC PSU Cable vs Power
distribution and PSU DC
Voltage source
-48V DC
Eth LAN data (Eth IN)
Two types of Power Injector
- Indoor 4 IN/OUT
-IP 20 compliant
-compliant to ETSI Class 3.2 (-5°C † +45°C)
-fits ETSI rack and 19" rack
-2/3 standard unit high
-Outdoor 1 IN/OUT
-ETSI Class 4.1 extended range (-40°C † +55°C)
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Outdoor Power Injector
•Monolithic outdoor architecture IP55
•Environment compliant to ETSI Class 4.1extended range (-40°C ÷ +55°C)
•3 ports: DC input, 10/100/1000BaseT on RJ45interface, 10/100/1000 Base_T + direct -48VDCoutputs on RJ45 interface
•DC input -48VDC ± 20%
•Power output >60 W
•Sourge protection on output port (5kV)
•MTBF >400 Kh (theoretical, 25°C, maximumload)
Power injector for outdoor installation supporting one FlexiPacket MultiRadio
DC
Cable In/OutEth
Cables
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Security features
FlexiPacket MultiRadio is delivered without any security features andmanagement layer being based on the following protocols:
http, FTP, SNMPv2 or SNMPv3, Telnet
All protocols work without encryption
Encryption protocols are installed with a dedicated SW pack; their activationis through a dedicated license
When security features are enabled, the FlexiPacket MultiRadio stops to
work without encryption, and this means also: https, SFTP, SNMPv3 encrypted, SSH take place of above protocols
Encryption protocol is the same for all https, SFTP, SNMPv3, SSH
Two encryption protocols are supported, SHA1 and SHA2; and for thisreason there are two licenses for security
SHA1 pack license SHA2 pack license
NOTE: MD5 protocol is not implemented for NSN policy (not secure)
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Synchronous EthernetTiming over Packet
Two key methods for Packet backhaul synchronization:Timing over Packet vs Synchronous Ethernet
Standardized (IEEE1588-2008) exchange ofsynchronization information between master
and slave
Suitable for Layer 2 or Layer 3 networks
Can be used on a packet backhaul to provide
frequency and phase sync
For Freq Sync, intermediate nodes only
need to forward the ToP messagesaccording to the selected QoS class
For Phase Sync, on path support is
required to achieve the tight accuracy
requirement (Transparent or Boundary
clocks in the intermediate nodes)
Standardized synchronization accordingITU-T G.8261/2/4
Synchronous Ethernet operates on Physical
Layer (Layer 1) and has to be supported on
each hop along the connection.
Not affected by network load and
impairments
Alternative (not competing) orcomplementing technology to IEEE1588-
2008
Can be used on a packet backhaul to
provide Frequency Sync
PacketNetwork
RNC
1588
master
IEEE1588v2 PTP Point to point optical GE
3G BTS
PRC
Connection via Microwave
3G BTS
Both key technologies for synchronization in
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Both key technologies for synchronization inpacket networks supported in NSN MBH portfolio
10G
RNC
1G
2MSynchronous Ethernet
• Standardized (ITU-T G.8261/G.8262)
• Alternative (not competing)
technology to 1588-2008• Implemented on Flexi BTS and
all of our Carrier EthernetTransport platforms includingFlexiPacket MultiRadio,FlexiPacket FirstMile,FlexiPacket Hub
IEEE1588-2008 (ToP)
•Standardized and accepted asthe industry‟s way forward forpacket based synchronization
• NSN First to market with ourpartner Symmetricom
• FlexiBTS inbuilt slave clocks
• Slave clock in FlexiPacket Hubif not supported in co-located
BTS
Flexi WCDMA
BTS
RNC
RNC
site node
Timing packets (unicast)2MHz
/2Mbps
GPS
2M
1588
master
Packet
PRC
S h i i Fl iP k M l iR di
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Synchronization on FlexiPacket MultiRadio
The system can be configured to work in 2 different
modes: without synchronization from an external source
(Free-run mode)
to propagate the synchronization (Synchronous
Ethernet acc. ITU-T G.8261/62) from local site to
remote site or viceversa.
FlexiPacket Radio can operate either as Master or as
Slave synchronization element.
In the Master configuration the FlexiPacket
MultiRadio retrieves the synchronism from the
Radio side and propagates it to the GigabitEthernet interface.
In the Slave configuration the FlexiPacket
MultiRadio takes synchronism from the Gigabit
Ethernet interface, and propagates it to the radio
link.
GE
M Synch
source
GE
SSynch
source
Master configuration
Slave configuration
FlexiPacket
MultiRadio
B t i l Eth t th h t
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Best-in-class Ethernet throughput
Up to 540Mb /s per carrier
Up to 660Mb /s per carrier
Ethernet throughput
7 MHz 11,4 - 14,3 Mbit/s 22,8 - 28,7 Mbit/s 28,6 - 36,0 Mbit/s 34,3 - 43,2 Mbit/s 40,1 - 50,4 Mbit/s 45,8 - 57,6 Mbit/s 49,5 - 62,2 Mbit/s 53,4 - 67,2 Mbit/s
13,75/14 MHz 23,0 - 28,9 Mbit/s 46,0 - 57,9 Mbit/s 57,6 - 72,4 Mbit/s 69,1 - 86,9 Mbit/s 80,6 - 101,4 Mbit/s 92,2 - 116,0 Mbit/s 99,6 - 125,2 Mbit/s 107,5 - 135,2 Mbit/s
27,5/28 MHz 45,9 - 57,8 Mbit/s 92,0 - 115,7 Mbit/s 115,1 - 144,7 Mbit/s 138,1 - 173,7 Mbit/s 161,1 - 202,7 Mbit/s 184,2 - 231,6 Mbit/s 198,9 - 250,2 Mbit/s 214,8 - 270,2 Mbit/s
55/56 MHz 92,0 - 115,7 Mbit/s 184,2 - 231,6 Mbit/s 230,2 - 289,6 Mbit/s 276,3 - 347,5 Mbit/s 322,4 - 405,5 Mbit/s 368,4 - 463,4 Mbit/s 397,9 - 500,5 Mbit/s 429,8 - 540,6 Mbit/s
Ethernet throughput w overhead compression
7 MHz 13,9 - 17,4 Mbit/s 27,9 - 35,1 Mbit/s 34,9 - 43,9 Mbit/s 41,9 - 52,7 Mbit/s 48,9 - 61,5 Mbit/s 55,9 - 70,3 Mbit/s 60,4 - 75,9 Mbit/s 65,2 - 82,0 Mbit/s
13,75/14 MHz 28,0 - 35,2 Mbit/s 56,2 - 70,6 Mbit/s 70,2 - 88,3 Mbit/s 84,3 - 106,0 Mbit/s 98,4 - 123,7 Mbit/s 112,5 - 141,5 Mbit/s 121,5 - 152,8 Mbit/s 131,2 - 165,0 Mbit/s
27,5/28 MHz 56,1 - 70,5 Mbit/s 112,3 - 141,2 Mbit/s 140,4 - 176,6 Mbit/s 168,5 - 211,9 Mbit/s 196,6 - 247,3 Mbit/s 224,7 - 282,6 Mbit/s 242,6 - 305,2 Mbit/s 262,1 - 329,6 Mbit/s
55/56 MHz 112,3 - 141,2 Mbit/s 224,7 - 282,6 Mbit/s 280,9 - 353,3 Mbit/s 337,1 - 424,0 Mbit/s 393,3 - 494,7 Mbit/s 449,5 - 565,4 Mbit/s 485,5 - 610,6 Mbit/s 524,3 - 659,5 Mbit/s
128 QAM 256 QAM 512 QAM 1024 QAM4 QAM 16 QAM 32 QAM 64 QAM
4 QAM 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 512 QAM 1024 QAM
Fl i P k t Mi
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Flexi Packet MicrowaveBest-in-class System Gain
Higher system gain means higher availability, smaller antennas, longer hops
80
82
84
86
88
90
92
94
96
7GHz 15GHz 18GHz 23GHz
Frequency Band
System Gain Comparison - dB
FlexiPacket
Competitor A
Competitor B
Competitor C
All values are @ 28MHz, 128QAM, BER 10-6
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T ffi E i i G t d
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Traffic Engineering – Guaranteed userexperience
2G
3G
3G
2G3G
2G
3G
Tail Site 2G+3G
Chain Site 2G+3G
Tail Site 3G
MW Hub Site
•End to End Service for Ethernet traffic and
TDM traffic
•Configurable traffic profile (Committed andPeak data Rate)
•Traffic provisioning and monitoring
Aggregation
BSCRNC
SAEGW
UNI
UNI
UNI UNI
FlexiPacket Microwave supports Carrier Ethernet Services according to MEF
Traffic in each service is engineered to guarantee given quality and performance
Services are easily provisioned by pointing and clicking
Performances are monitored for each service, providing full control of the network
Fl iP k t R di E b d
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FlexiPacket Radio E-band• All Outdoor
• 5xGb Ethernet (1electrical +4xSFP) + 2xSonet/SDH withfree capacity allocation
• Up to 1200 Mbps throughput
• 250/1000 MHz channelbandwidth
• Adaptive Data Rate andModulation (BPSK/QPSK)
• tuneable channelization withinentire 70/80 GHz band
• built-in Gigabit Ethernet Layer
2 switch
2xSDH 4xGbEth(el./opt.)
GbEth(el.)
Part of FlexiPacket family:
• use same IDU and BS solution
• integrated in NetViewer management system
A d
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Agenda
Backbone network: SRT1F
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Regional Subnetworks
Ring closure
Back up to the Fiber
STM-4 / 16 Ring
Regional /National
Radio Backbones
Main common requirements:
High capacity (up 16xSTM-1)
Maximum compactness
Flexibility
Reliability
Low CAPEX / OPEX
MWR Trunk ApplicationsTraditional SDH transport
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MWR Trunk ApplicationsEthernet transport
SRT1F
Multi-reach DWDM IP Core and Edge Routers, Multi-Service
Routers for RAN/Mobile Packet coreTrunk Radio-SRT1F
Core Network (ring and chain topology)
Last aggregation layer (ring and chain topology)
CHAIN
RING
SRT 1F Key Points Fully Indoor Architecture (16 carriers)
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SRT 1F Key PointsProduct Positioning
Fully Indoor Architecture (16 carriers)
Fully outdoor version planned
Up to 5xGbps in one rack Protected!
Up to 256QAM with LDPC coding
28/40/56 MHz operation
STM-1, STM-4, GigaEthernet interfaces
4 – 13 GHz Operation (Multi-Band available)
Up to 15+1 ACAP/ACCP/CCDP
Up to 2x(7+1) ACAP/ACCP/CCDP/East-West
XPIC Co-channel
SD with BB combiner (3dB gain)
High Power: +35dBm with ATPC
80W/carrier power consumption
ATPC & RTPC/MTPC up to 20dB, 1dB step
Fully integrated into NetViewer/NetAct
• Native SDH + Native Eth
• SDH system
Classic
Hybrid
Packet
Universal backplane
Flexi-shelf
• every configuration (ACAP, ACCP,
CCDP, N+1 or N+2, single or double
terminal) in the same HW rack
1800mm
• 2200mm rack available as option
• 8 antenna ports per rack
• up to 16 TRs in a row!
• plug-in RF filters (no filter cables)
• all cards are hot swap
• all cards and i/f can be protected
• universal BB card for STM-1 el/opt
via SFP
• universal transceiver unit: HP, XPIC,
SD upgradeable via SW, native TDM
or native ETH via SW selection
• universal controller card: single
protection or double protection or
double direction upgradeable via SW
• Native Eth only
SRT 1F Technical Key Points
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SRT 1F Technical Key PointsNative IP transportation over the air
Main Features:
Native IP: Ethernet traffic directly mapped over the air (no EoSDH)
SW capacity upgrade: modulation upgradeable from 4QAM to 256QAM
for pay-as-you-grow approach for the Eth capacity on air up to
400Mbps/28MHz with XPIC
ready for adaptive code modulation
SW upgradeability to XPIC (X-Polar Interf Canceller for CC operation)
SW upgradeability to HP (High Power) version
BEST FLEXIBILITY and SPECTRUM EFFICIENCY in
MW TRUNK RADIO MARKET !!
SRT 1F E l ti t d C i Eth t
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SRT 1F Evolution towards Carrier Ethernet
Native IP handling for SRT1F is conceived in fullcompatibility with FlexiPacket proposition to match full
consistency across the access and trunk product lines:
Carrier Ethernet transportation
Hard QoS and OAM (802.1ag, Y.1731, …)
STP, RSTP, MSTP
Gap compression / header compression
Adaptive modulation 4QAM-to-256QAM
SynchE and ToP IEEE 1588
System Architecture
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System ArchitectureFlexi-shelf: Universal sub-rack
Branching Section: It can house up to 8x wg on rack top,
to allow 2 directions with 2 polarizations and SD in same rack.RF Filters are plug-in type and with self-supporting SMA back
planned connector. Completely accessible from rack front. H
& V circuits, main and SD circuits, are separated from each
other.
1 8 0 0 m m
TRMD Section: It can house up to 16x TRMD on a row,
flexibly used as 15+1 or 16+0 or N+1/M+1, single direction or
double direction (East+West), ACAP, ACCP or CCDP. Also Multi-
band supported. TRMD is universal unit covering native SDH,
native IP, ACAP, ACCP, CCDP with XPIC, NP or HP, SD or not,
4QAM to 256QAM, all via SW setting on same HW TRMD.
BB Section: It can house up to 16x BB intf on a row, and up
to 2 cards for GE ML or STM-4. It houses one single universal
MCF/controller to support any configuration. Such singleMCF/controller can be selected as single RPS or double RPS
or double direction just by SW upgrade, no HW change.
Optionally, one AUX card can be equipped to add 64kbps user
channels to the auxiliary channels already available.
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Efficient ACCP and CCDP operation
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Efficient ACCP and CCDP operation
Efficient ACCP and CCDP operation: SRT1F has best-in-class narrow band RF
filters that allows adjacent channels to work in same polarization without any RX
threshold degradation (system gain up to 110.5dB @ 6UGHz, A/A’, BER10-6).
This feature is crucial in high capacity hops, where it is necessary to use CCDP
operation over many channels, and keep high system gain to assure trunk level
performances.
Also, this feature assures enough flexibility to sustain changes in planning from
original ACAP scenario to future eventual expansion to ACCP or CCDP scenarios,
because such upgrade can be done without any HW change (RF filters are same for
ACAP, ACCP, CCDP and XPIC can be enabled via SW).
SRT1F transceiver is unique and universal HW for ACAP, ACCP, CCDP
with XPIC SW upgradeable (pay as you grow) without any HW change
2x(7+1)
CCDP
P1 W12W11 W13
1 2 4 6 8753V(H)
P2 W22 W23
H(V)
W21
W14 W16W15 W17
W24 W26 W27W25
Best in class TX Output Power
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Best-in-class TX Output Power
Best in class TX output power: SRT1F Flexi-shelf TX Power can boost up to 35
dBm by means of SW upgrade on the TX module, to cope with very long haul cases
or where antenna size should not be bigger than the max diameter allowed.
Further, to fine-tune the TX power to the real need and save energy, ATPC and also
RTPC/MTPC with 20dB range and 1dB step are fulfilled by SRT1F.
The following table shows the Tx power @ point A’ of SRT1F Flexi-shelf.
TX Power SRT1F NP SRT1F HP +2dB boost
4 GHz 30 dBm 33 dBm 33 -> 35 dBm
4U GHz 29 dBm 32 dBm 32 -> 34 dBm
5 GHz 30 dBm 33 dBm 33 -> 35 dBm
6L GHz 30 dBm 32 dBm 32 -> 34 dBm
6U GHz 30 dBm 33 dBm 33 -> 35 dBm
7L GHz 29 dBm 32 dBm 32 -> 34 dBm
7U GHz 29 dBm 32 dBm 32 -> 34 dBm
8 GHz 29 dBm 32 dBm 32 -> 34 dBm
11 GHz 26 dBm 29 dBm 29 -> 31 dBm
13 GHz 24 dBm 27 dBm 27 -> 29 dBm
Best-in-class RX threshold
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Best-in-class RX threshold
Best in class RX threshold: SRT1F Flexi-shelf implements powerful LDPC coding
allowing best receiver sensitivity performances in the market, at any BER reference.
The following table shows the Rx threshold @ point A of SRT1F Flexi-shelf.
RX Threshold SRT1F BER10-3 SRT1F BER 10-6 SRT1F BER 10-10
4 GHz -76.5 dBm -75.5 dBm -74.5 dBm
4U GHz -73 dBm -72 dBm -71 dBm
5 GHz -76.5 dBm -75.5 dBm -74.5 dBm
6L GHz -73 dBm -72 dBm -71 dBm
6U GHz -76.5 dBm -75.5 dBm -74.5 dBm
7L GHz -73 dBm -72 dBm -71 dBm
7U GHz -73 dBm -72 dBm -71 dBm
8 GHz -73 dBm -72 dBm -71 dBm
11 GHz -75.5 dBm -74.5 dBm -73.5 dBm
13 GHz -70.5 dBm -69.5 dBm -68.5 dBm
Wide band tunability
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Wide band tunability
wide band tunability: SRT1F transceiver can be tuned in all the half-band at all the
bands from 4 to 8GHz, thus simplifying installation, commissioning and maintenance
sparelog activities.
Flexibility in channel tuning is a must in high capacity trunk applications, where
several channels are in use and to be covered by the equipment.
Tunability SRT1F
4 GHz 2 subbands
4U GHz 2 subbands
5 GHz 2 subbands
6L GHz 2 subbands
6U GHz 2 subbands
7L GHz 2 subbands
7U GHz 2 subbands8 GHz 2 subbands
11 GHz 4 subbands
13 GHz 4 subbands
Flexible branching
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Flexible branching
Flexible branching: RF Branching circuit is already mounted in factory and no filter
mount nor connection is required in field. However, branching modifications and
upgrades may be required in field after the original installation. The design of SRT1F
branching is intrinsically flexible, because the RF branching filters and circulators arelocated in a dedicated section of the rack, and directly accessible from rack front
without transceivers removal. Further, TX, RX and RX SD branching chains are totally
separated, thus allowing (for instance) upgrade to SD without any traffic interruption.
Further, Vertical pol and Horizontal pol are totally separated, thus allowing (for
instance) expansion on the second polarization without any traffic interruption. Also a
simple channel change can be done by just replacing the RF filter, without removing
the transceiver unit.
Circulators
Filters
SRT1F
RF Plug-in Filter of
SRT1F Flexi-shelf To transceiver
via backplane
To antenna
circulator
Once the filter is plugged in the
branching frame, the connection with
transceiver is done via backplane
Best-in-class compactness and versatility
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Best-in-class compactness and versatility
Best-in-class compactness and versatility: SRT1F can house up to 16 transceivers
in a Universal Flexi-shelf covering any type of configuration, ACAP, ACCP or CCDP,
single or double direction East/West. All can be housed in just one SRT1F rack, thus
saving footprint and also reducing number of power cables needed.
Also, SRT1F 2x(7+1) is a single NE (1 controller/MCF card), in both cases of single
direction and double direction East/West.
SRT1F
Flexi-shelf
16xSTM-1
single-rack!
1:1 power
cabling
1 controller
= 1 NE!
1x ground
rack
old SRT1F K-shelf family
7+1 2x(3+1)ST 2x(3+1)DT
Exp ST Exp DT
universal
Easy installation and maintenance
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Easy installation and maintenance
Easy installation and maintenance: all MWR trunk equipment generally require Link
Analyzer and Spectrum Analyzer to make line-up and commissioning in field. Also It
requires SW license for LCT to carry out installation and commissioning.
SRT1F Flexi-shelf implements automatic on-click digital equalization of delay related
to SD path, delay compensation from the protection line, and amplitude/group delay
adaptation of the IF-IF response.
SRT1F implements WebLCT functionality, where the LCT is embedded inside the
MCF/Controller, in conjunction with an HTTP server, so that it can be accessed by user
without any need of a specific SW tool, just using any standard HTTP browser, and
without any need of SW license for LCT.
SRT1F provides many auxiliary channels to increase serviceability (up to 2x2Mbps
wayside per each STM-1 and 3x64kbps per each terminal) and the support of 16
external alarms to monitor station equipment and 8 remote controls to send commands
to station equipment from NetViewer management center.
SRT1F implements SNMP protocol for the supervision management, with possibilityof MIB integration into 3rd party TMN from customer as stand-alone or via NetViewer.
SRT1F supports on-click performance monitoring from NetViewer for all NE’s via
XML file and stored in the NetViewer database, together with logs, events, inventory
SRT1F supports IP DCN, thus optimizing simplicity and efficiency of the DCN design
Optimum sparelog concept
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Optimum sparelog concept
optimum sparelog concept: SRT1F has got optimum sparelog concept, because
MODEM, IF, RF, XPIC, SD are integrate into a single, tunable transceiver unit, so that in
case of failure, there is no need for trobleshooting tests to check the problem, instead
just replace the transceiver unit with a spare one.
Basically only two parts are traffic affecting, and both can be protected:
Transceiver unit (1:N)
BB interface (1:1)
SRT1F MTBF is estimated about 10 times better than the competition
F1 ... F7 F8
Designed for operation for various environments
Very few returns from field
Low Power Consumption
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Low Power Consumption
Low power consumption: Typical SRT1F power consumption is about 80W/STM-1, in
the High Power version, meaning max 1280W for a 2x(7+1)CCDP terminal. Power
saving upto 25% can be achieved using ATPC functionality.
Designed for “green” trunk applications.
It means big improvement with respect to other MW trunk products available in the
market, making 20% to 50% of total savings.
It means lot of power saving when deploying SRT1F!
OPEX saving on AC Power supply:
up to 50% reduction of KWH
CAPEX saving on Photovolt System:
Reduce the number and size ofneeded solar cells
Low Power Ecologica l
Consumption:
up to 50% less than
competitors
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ONE Transport ONE Network Management
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ONE Transport ONE Network Management
Core
•MWR Trunk
•Fiber-based transport
•NG Metro
•DWDM
Access & Aggregation
• All MWR catalogue
•Fiber-based transport
•NG Metro
•DWDM
NetViewer + other EMS
NetAct Transport
• All-in-one element/networkmanagement solution for the
e2e transport network
Key advantages:
Visibility of all MWR and fiberbased transport networkcomponents of the e2e service
path
Fault, performance, inventorymanagement for the entiretransport network
E2E provisioning for the entiretransport network
One single point of integrationinto NM/SM/Umbrella systemtrough NetAct for Transport
NetAct Transport provides true E-2-E management
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NetAct Transport provides true E 2 E managementfor the complete transport network
E M L
N M L
3rd-pEMS
other IP
NetAct TransportE-2-E management of any transport technology
CoreAggregation/MetroAccess/1stMile
Eth
E1
A-8100
FPH FPH
Eth
FlexiPacket
Optical transport
Juniper
MX/BX/EXA-2200
A-4100
A-8100
Cisco
7600
FlexiNT
DynaNet
ConnMaster
hiX-56xx
Tellabs
8600
hiT70xx hiT7300/7500 Adva
CiscoJuniper
M-/T-Series
Cisco
MWR
End-to-end QoS Solution
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End to end QoS Solution
• Automatic path detectionand configuration
• CAC calculation andservice activationaccordingthe individual needs(SLAs)
• Service monitoring/connection supervision
(802.1ag, Y1731, 802.3ah)
E2E Eth OAM E2E QoS
E2E provisioning E2E synchronization over packet
Nb
Nb
RNC
Nb
Nb
RNC
QoS Marking
QoS Marking
E2e Connection provisioning:
• End point
• Committed / Peak rate
• Classes of services
• Connection admission control
NE configuration NE configuration
Policing
Policing
Connection Admission Control
QoS enforcement
Priority queuing
Bandwidth reserved for guaranteed traffic
(CIR, EIR, latency control … )
Congestion control (overbooking)
E2E provisioning
E2e provisioning and surveillance
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p gwith NetViewer/Path Manager
• Support of FlexiPacketMWR (IDU and ODU)
• Circuit Emulation(TDMoE protocol mgmt)
• E2E VLAN management
• E2E bandwidth mgmt(QoS and policing)
• Layer 2 bridging mgmt
NetViewer with Path Manager
E2E connectionprovisioning
QoS and policingE2E Connection
Surveillance
Aggregation
Eth/E1
Eth/E1
Eth/E1
Eth/E1
Cell Sites Controller Sites
Agenda
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Agenda
Solution Portfolio for packet backhaul
Solution portfolio for packet backhaul
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p p
RNC Site Solution, Cell Site GatewayMobile Packet Backbone Connectivity Cell Site
Gateways
RNC SiteSolution
Mobile Aggregation
Best Partners for Highest Customer Satisfaction
RNC Site Solution ,Mobile Packet Backbone Connectivity