012 - Introduction - V1.5

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


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

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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


CERAGON MAST - Mobile Architecture for Service Transport

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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


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

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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


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


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


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


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


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

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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

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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

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CoreSite

HubSite

Tail site FibeAir IP-10 NG-SDH

MSPP

RNC

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

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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.



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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

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IEEE 802.1ag CFM (Connectivity Fault Management)


FibeAir IP-10G IDU: A Nodal Solution

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STM Rings

Cellular traffic (TDM)


FibeAir IP-10G IDU: A Nodal Solution

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IP-10F IDU

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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


Typical Native2 network with IP-10 G & F-Series

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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


IP-10G VS. IP-10F

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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


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.

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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?

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Higher Spectral-Efficiency is not enough…

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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


“Tree Topology”

24

Thank [email protected]

012 - Introduction - V1.5

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Transcript of 012 - Introduction - V1.5