Ceragon in a Nutshell
Ceragon in a Nutshell
Proprietary and Confidential
Ceragon FibeAir Family
2
Carrier Ethernet Switch TDM Cross Connect
Native2 RadioEthernet + TDM
ACM Ch-STM1/OC3
Terminal Mux
E1/T1FastEthernet
GigabitEthernet
10-500Mbps, 7-56MHz
OA&M Service Management Security
RFU (6-38GHz)
XPIC
MultiRadio
SD/FD
Proprietary and Confidential
High power(e.g. Smaller antennas – reduced cost)
RFUs
FibeAir RFU-HP FibeAir RFU-HS FibeAir RFU-P FibeAir RFU-C FibeAir RFU-D
Standard power
3
Proprietary and Confidential
Cable TV
ISPs
CERAGON MAST - Mobile Architecture for Service Transport
4
PDH
IP DSLAM
PSTN
xDSLSubscribers
Fixed Networks
Cellular Backhaul Rural Access
SDH/SONET RING
IP/ETH Customer Network
Proprietary and Confidential
CERAGON MAST - Mobile Architecture for Service Transport
5
Complete end-to-end network architecture, powering operators with a highly efficient, scalable and cost-optimized solution for scaling up their networks
Regardless of transport technology or the service being carried MAST offers a complete set of tools to ensure high QoS & full OA&M functionality across entire networks
• Allows risk-free migration to IP/Ethernet• Simplifies fixed and mobile network designs • Giving operators a single point of contact for all the transport, networking and service delivery needs• A true end-to-end, service-oriented package
MAST allows customers to design highly scalable, flexible and future-proof networks in a simple and cost efficient manner
Proprietary and Confidential
FibeAir IP-10R1 – Main features
• Unique Adaptive Coding & Modulation (ACM)
• Enhanced radio efficiency and capacity for Ethernet traffic • Integrated Carrier Ethernet switching functionality
• Enhanced QoS for differentiated services
• Supported configurations
• 1+0
• 1+1 HSB – Fully-redundant!
• Nodal solution with ring
• Extensive and secure management solution
6
Proprietary and Confidential
IP-10R1 Integrated Carrier Ethernet switch
3 modes for Ethernet switching:
• Metro switch – Carrier Ethernet switching is enabled
• Managed Switch – 802.1 L2 switch
• Smart pipe – Carrier Ethernet switching is disabled
• Only a single Ethernet interface is enabled for user traffic
• The unit operates as a point-to-point Ethernet MW radio
IP-10
Radio interface
IP-10
Radio interface
Smart pipe modeMetro/Managed switch mode
Ethernet
User
Interfaces
Ethernet
User
Interface
Carrier EthernetSwitch
Extensive Carrier Ethernet feature-set
eliminates the need for external switches7
Proprietary and Confidential
IP-10R1 radio capacity - ETSI
ACMPoint
Modulation# of E1s
Ethernet Capacity (Mbps)
1 QPSK 16 38 - 54
2 8 PSK 16 53 - 76
3 16 QAM 16 77 - 110
4 32 QAM 16 103 - 148
5 64 QAM 16 127 - 182
6 128 QAM 16 156 - 223
7 256 QAM 16 167 - 239
8 256 QAM 16 183 - 262
ACMPoint
Modulation# of E1s
Ethernet Capacity (Mbps)
1 QPSK 16 76 - 109
2 8 PSK 16 114 - 163
3 16 QAM 16 151 - 217
4 32 QAM 16 202 - 288
5 64 QAM 16 251 - 358
6 128 QAM 16 301 - 430
7 256 QAM 16 350 - 501
8 256 QAM 16 372 - 531
7MHz
ACMPoint
Modulation# of E1s
Ethernet Capacity (Mbps)
1 QPSK 16 56 - 80
2 8 PSK 16 82 - 117
3 16 QAM 16 122 - 174
4 32 QAM 16 153 - 219
5 64 QAM 16 188 - 269
6 128 QAM 16 214 - 305
7 256 QAM 16 239 - 342
8 256 QAM 16 262 - 374
ACMPoint
Modulation# of E1s
Ethernet Capacity (Mbps)
1 QPSK 4 9.5 – 13.5
2 8 PSK 6 14 – 20
3 16 QAM 8 19 – 28
4 32 QAM 10 24 – 34
5 64 QAM 12 28 – 40
6 128 QAM 13 32 – 46
7 256 QAM 16 38 – 54
8 256 QAM 16 42 – 60
ACMPoint
Modulation# of E1s
Ethernet Capacity (Mbps)
1 QPSK 8 20 - 29
2 8 PSK 12 29 - 41
3 16 QAM 16 42 - 60
4 32 QAM 16 49 – 70
5 64 QAM 16 57 – 82
6 128 QAM 16 69 - 98
7 256 QAM 16 81 - 115
8 256 QAM 16 87 - 125
14MHz
28MHz 40MHz 56MHz
8
Proprietary and Confidential
Wireless Carrier Ethernet Ring Example configuration (1+0 ring)
(up to 500Mbps)
N x GE/FE
Integrated EthernetSwitching
N x GE/FE
N x GE/FE
N x GE/FE
WirelessCarrier Ethernet
Ring
9
Proprietary and Confidential
Native2 Microwave Radio Technology
• At the heart of the IP-10 solution is Ceragon's market-leading Native2 microwave technology.
• With this technology, the microwave carrier supports native IP/Ethernet traffic together with optional native PDH.
• Neither traffic type is mapped over the other, while both dynamically share the same overall bandwidth.
• This unique approach allows you to plan and build optimal all-IP or hybrid TDM-IP backhaul networks which make it ideal for any RAN (Radio Access Network)
• In addition, Native2 ensures:
• Very low link latency of <0.15 msecs @ 400 Mbps.
• Very low overhead mapping for both ETH & TDM traffic
• High precision native TDM synchronization distribution
10
Proprietary and Confidential
CoreSite
HubSite
Tail site FibeAir IP-10 NG-SDH
MSPP
RNC
Ethernet services are transported natively over Carrier Ethernet based MW radio links.
Ethernet services are transported natively over Carrier Ethernet based MW radio links.
NG-SDH/SONET MSPP node acts as gateway between the Carrier Ethernet and NG-SDH/SONET based networks.
NG-SDH/SONET MSPP node acts as gateway between the Carrier Ethernet and NG-SDH/SONET based networks.
Ethernet services are mapped over SDH/SONET
Ethernet services are mapped over SDH/SONET
Native Ethernet
Carrier Ethernet (MW links) SDH/SONET (Hybrid Fiber/MW)
FibeAir IP-10
NG-SDHMSPP
Ethernet over SDH/SONET
NG-SDH/SONET complementary solution Carrier Ethernet at the access, NG-SDH/SONET at the aggregation
FE/GEGE
GE
SDH/SONET MW links are used where fiber connections not available
SDH/SONET MW links are used where fiber connections not available
11
Proprietary and Confidential
CoreSite
HubSite
Tail site FibeAir IP-10
RNC
Both Ethernet and E1/T1 services are mapped over MPLS using pseudo-wires or routed using IP
Both Ethernet and E1/T1 services are mapped over MPLS using pseudo-wires or routed using IP
Native Ethernet
Carrier Ethernet (MW links)
FibeAir IP-10
FE/GE
GE
GE
High-capacity “IP/MPLS-aware" Ethernet MW radio is used where fiber connections not available
High-capacity “IP/MPLS-aware" Ethernet MW radio is used where fiber connections not available
IP/MPLS complementary solution Carrier Ethernet at the access, IP/MPLS at the aggregation
MPLSRouter
IP/MPLS (Hybrid Fiber/MW)
MPLSRouter
Ethernet PWs or IP routing
IP/MPLS edge router acts as gateway between the Carrier Ethernet and IP/MPLS based networks.
IP/MPLS edge router acts as gateway between the Carrier Ethernet and IP/MPLS based networks.
Ethernet services are transported natively over Carrier Ethernet based MW radio links.
Ethernet services are transported natively over Carrier Ethernet based MW radio links.
12
Proprietary and Confidential
IP-10R1 integrated QoS support - overview
• 4 CoS/priority queues per switch port
• Advanced CoS/priority classification basedon L2/L3 header fields: • Source Port
• VLAN 802.1p
• VLAN ID
• IPv4 DSCP/TOS, IPv6 TC
• Highest priority to BPDUs
• Advanced ingress traffic rate-limitingper CoS/priority
• Flexible scheduling scheme per port• Strict priority (SP)
• Weighted Round Robin (WRR)
• Hybrid – any combination of SP & WRR
• Shaping per port
W1 - Highest priority
W2
W3
W4 – lowest priority
Scheduling departures
Classify Arrivals
Priority Queues
Support differentiated Ethernet services
with SLA assurance
13
Proprietary and Confidential
IEEE 802.1ag CFM (Connectivity Fault Management)
Proprietary and Confidential
FibeAir IP-10G IDU: A Nodal Solution
15
STM Rings
Cellular traffic (TDM)
Proprietary and Confidential
FibeAir IP-10G IDU: A Nodal Solution
16
Proprietary and Confidential
IP-10F IDU
17
Craft Terminal
(DB9)
External Alarms(DB9)
16 x E1s(optional)
5 x FE Electrical
(RJ45)
ProtectionInterface
(RJ45)
RFU interface(N-Type)
Power-48V DC
Fans drawer
GND
Proprietary and Confidential
Typical Native2 network with IP-10 G & F-Series
18
IP-10 F-Series
IP-10 G-Series
IP-10 G-Series with XPIC
4 E1s 25M Eth
1+0
(22 E1,50M)
1+1
F
GX
GX
GX
G
G
G
G
G
GX
GX
GX
G
G
G
G
G
G
F F F F
F
F
FF
GX
1+11+1
F
F
1+0
1+1
1+0
1+0
F
F
F
F
F
F
F
F
F
1+0
1+0
1+0
1+0
1+0
1+0
2+0
2+0
2+0
2+01+0
F
Native2 1+0 Ring
(Up to 44 E1
or 100M Eth)
Native2 1+0 Ring
(Up to 75 E1
or 500Mbps Eth)
Native2 2+0 Ring
(Up to 150 E1
or 1Gbps Eth)
1+0F
(22 E1,50M)
(22 E1,50M)
(44 E1,100M) (44 E1,
100M)
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth
4 E1s 25M Eth4 E1s
25M Eth
(22 E1,50M)
(22 E1,50M)
(22 E1,50M)
4 E1s 25M Eth
4 E1s 25M Eth
F
Terminal configuration
Nodal configuration
Proprietary and Confidential
IP-10G VS. IP-10F
19
Feature F-Series G-Series
Supported radio configurations 1+0, 1+1 HSB, 1+1 SD
1+0, 1+1 HSB, 1+1 SD,
2+0 with XPIC
2+2 HSB with XPIC
XPIC option - Yes
Max radio capacity 100 Mbps 500Mbps 1Gbps using 2+0/XPIC
Multi-radio support - Yes
# of Ethernet interfaces 5 x FE RJ-45 5 x FE RJ-45+2 x GE combo (RJ-45/SFP)
Full Carrier Ethernet switching feature-set including ring protection Yes Yes
# of E1/T1 integrated IDU interfaces option 16 E1, None 16 E1, 16T1, None
# of E1/T1s per radio carrier 44 E1s 75 E1s / 84 T1s
T-Card slot (additional 16 E1/T1 interfaces or STM1/OC3 Mux) - Yes
Nodal/XC/SNCP support Yes Yes
Sync unit option Yes Yes
V.11/RS232 User Channel option - 2 x Async V.11/RS232 or1 x Sync V.11
Proprietary and Confidential
Outdoor Enclosures – Solution Benefits
Full Outdoor solution:
• Dust and weather proof
• Compact size reduces the cost of leasing or purchasing rack space.
• Ideal for Greenfield areas, at solar-powered sites, and at repeater sites adjacent to highways.
• One-man installation and shorter cabling reduce installation costs.
• Environment-friendly: Greener deployments, saving on power and air-conditioning costs.
20
Proprietary and Confidential
TypicalMicrowave Radio
IP10Microwave Radio
Required Capacity155-200Mbps
TWO radio links or
56MHz channel bandwidth
ONE radio link using
28MHz channel bandwidth
Required Capacity70-100Mbps
28MHz Channel Bandwidth
14MHz Channel Bandwidth
The operator saves CAPEX and free-up valuable frequency resources
Higher Spectral-EfficiencyWhat’s in it for The Operator?
21
Proprietary and Confidential
Higher Spectral-Efficiency is not enough…
22
should always be coupled with
Radio Type Ant. Diameter Length Modulation Capacity
Typical System Gain 1.80 m 30 Km 16QAM 32 x E1s
Typical System Gain 1.80 m 21 Km 128QAM STM-1/OC-3
Typical System Gain 3.00 m 30 Km 128QAM STM-1/OC-3
High System Gain 1.80 m 30 km 128QAM STM-1/OC-3High System Gain
Spectral Efficiency
System Gain
Proprietary and Confidential23
Ceragon’s Management Overview
IP-10 FibeAir
Proprietary and Confidential
“Tree Topology”
24
Thank [email protected]