Ceragon FA4800 User Manual

FibeAir 70 PRODUCT DESCRIPTION May 2011 | Ver. 10.0 4Gon www.4Gon.co.uk [email protected] Tel: +44 (0)1245 808295 Fax: +44 (0)1245

Page 10 6.8.1 MD Commands 185 6.8.2 MD Attributes 185 6.9 Maintenance Association 188 6.9.1 MA Commands 188 6.9.2 MA Attributes 188 6.1

Page 100 5.2.1.3 Clear Reset selected attributes of the device using the Clear command: clear eth {<eth-list> | all} [{info | descri

Page 101 5.2.2.3 MAC Address Description The address of the interface at its protocol sub-layer. CLI Attribute Name mac-addr SNMP Object ID

Page 102 Default N/A Dependencies If the Administrative Status attribute (admin) is in the Down state, then the operational attribute should al

Page 103 5.2.2.8 State Trap Description An integer that indicates whether linkUp/linkDown traps should be generated for this interface. CLI At

Page 104 5.2.2.11 Ethernet Type Description This object identifier represents the operational type of MAU that the administrator has assigned.

Page 105 10hd dot3MauType10BaseTHD (1.3.6.1.2.1.26.4.10) 10fd dot3MauType10BaseTFD (1.3.6.1.2.1.26.4.11) 100hd dot3MauType100BaseTXHD (1.3.6.

Page 106 5.2.2.15 Loopback Timeout Description Loopback timeout, expressed in seconds CLI Attribute Name loopback-timeout SNMP Object ID N/A

Page 107 Table 5-1 Statistics for the Eth Object CLI Name Description SNMP Object ID Incoming Octets in-octets The total number of octe

5.3 Bridge The Bridge object provides access to the Bridge parameters.The Bridge object corresponds to the Bridge MIB described in IEEE80215.3.1 B

Page 109 5.3.2 Bridge Attributes 5.3.2.1 Component ID Description The component identifier is used to distinguish between the multiple virtua

Page 11 7 FibeAir 70 Diagnostics 229 7.1 Diagnostics Tools 229 7.2 The Troubleshooting and Diagnostics Process 229 7.3 FibeAir 70 ODU LEDs

5.4 Bridging Port The Bridging Port object provides access to portThe Bridging Port object corresponds to the Bridge MIB (RFCExtensions (RFC-4363)

Page 111 [admit untagged | tagged | all] [filter enabled | disabled] When the Provider Bridge feature is disabled, use the following syn

Page 112 5.4.2 Bridging Port Attributes 5.4.2.1 Component ID Description The component identifier is used to distinguish between the multiple

Page 113 Description The port-level VLAN ID that is assigned to untagged frames or Priority-Tagged frames received on the port. CLI Attribute N

Page 114 Dependencies If ingress filtering is enabled on the same port, then accepting untagged frames only is not compatible, since the combin

Page 115 5.5 VLAN Common The VLAN Common object provides general information about VLAN bridges that are active in the network. Use this object

Page 116 5.5.2.3 Maximum VLAN ID Description The maximum IEEE 802.1Q VLAN-ID that this device supports. CLI Attribute Name max-vid SNMP Objec

5.6 VLAN Table The VLAN Table object enables the management of VLANs by the CLI. VLAN definitions are stored in a table containing static configur

Page 118 When the Provider Bridge feature is enabled, use the following syntax: clear vlan {<comp-id-list> | all} {<vid-list> | all

Page 119 5.6.2 VLAN Table Attributes 5.6.2.1 Component Identifier Description The component identifier is used to distinguish between multipl

Page 12 TABLE OF FIGURES FIGURE 1-1 FIBEAIR 70 SYSTEM 13 FIGURE 2-1 FIBEAIR 70 MOUNTING ASSEMBLY DETAILS 20 FIGURE 2-2 FIBEAIR 70 CONNECTION

Page 120 5.6.2.4 Untagged Ports Set Description The set of ports that should transmit egress packets for this VLAN as untagged. This set is al

Page 121 5.6.2.7 Per-VLAN Outgoing Packets Description The number of valid frames transmitted by this port to its segment from the local forwa

Page 122 5.6.3.1 Description Description A textual string containing information about the interface. This string should include the name of

Page 123 5.6.3.5 Administrative Status Description The desired state of the interface. CLI Attribute Name N/A SNMP Object ID ifAdminStatus (

Page 124 5.6.3.9 State Trap Description Indicates whether linkUp/linkDown traps should be generated for this interface. CLI Attribute Name N/

Page 125 5.6.3.13 Alias Description This object is an 'alias' name for the interface as specified by a network manager, and provides

Page 126 5.7 C-VLAN Registration An element of the C-VID registration table accessed by PB C-VLAN component, Customer Edge Port bridge port num

Page 127 5.7.1.3 Clear Delete C-VLAN Registration entries using the Clear command: clear cvlan-reg {<c-comp-id-list> | all} {<ext-br

Page 128 5.7.2.3 S-VID Description The S-VID of this C-VLAN Registration entry. This value will be added to the C-tagged frames of the C-VID.

Page 129 5.8 PEP Virtual Port The PEP Virtual Port object specifies components of the PEP Table, which is used to configure ingress port filter

Page 13 1 Introduction to the FibeAir 70 System The FibeAir 70 is member of Ceragon FibeAir family of wireless products, featuring carrier grad

Page 130 [{all | <bridge-port-list>} [{all | <s-vid>} [{info | cpvid | prio | admit | filter}]]]]. 5.8.1.3 Clear Dele

Page 131 5.8.2 PEP Virtual Port Attributes 5.8.2.1 Bridge Port Description The bridge port for the PEP Virtual Port entry. CLI Attribute Name

Page 132 5.8.2.4 PEP Default User Priority Description An integer range 0-7 to be used for untagged frames received at the Provider Edge Port.

Page 133 5.9 S-VID Translation Table The S-VID Translation Table object is used to configure the VID Translation Table, which maintains a bi-di

Page 134 5.9.1.2 Clear Delete S-VID Translation Table entries and clear their associated statistics using the Clear command: clear svid-xlat {

Page 135 5.9.2 VID Translation Table Attributes 5.9.2.1 Bridge Port Description The bridge port for the VID Translation Table entry. CLI Attr

Page 136 5.9.2.3 Relay S-VID Description The translated S-VID delivered (received) over the EISS from a CNP or PNP. CLI Attribute Name relay-

Page 137 5.10 Forwarding Data Base (FDB) The FDB object enables access to general parameters of the FDB Address Table, which specifies configur

Page 138 5.10.2.2 FDB ID Description The identity of this Forwarding Database. The system maintains 64 permanent instances of the FDB object.

Page 139 5.10.2.5 Dynamic Count Description The current number of dynamic entries in this Forwarding Database. The value of this object is inc

Page 14 1.1 System Applications For Mobile Operators To meet growing subscriber demand, providers are constantly seeking additional network ca

Page 140 5.11 FDB Address Table The FDB Address Table object contains information about unicast entries for which the device has forwarding and

Page 141 clear fdb-table {s1 | all} {<fdb-id-list> | all} {<mac-addr> | all} Note that deleting an FDB Address Table entry wil

Page 142 5.11.2 FDB Address Table Attributes 5.11.2.1 Bridge Component ID Description The component identifier is used to distinguish between

Page 143 5.11.2.4 FDB Port Description The bridge port from which the MAC address has been learned. CLI Attribute Name port SNMP Object ID i

5.12 IP The IP object is a table that maintains addressing information relevant to an entity's interfaces. This table is useCurrently, only o

Page 145 5.12.1.2 Show Display IP entries using the Show command: show ip [<ip-addr> [{route | mask | vlan}]] 5.12.1.3 Clear Delete IP

Page 146 5.12.2 IP Attributes 5.12.2.1 IP Index CLI Only object Description The index to the IP addres table SNMP Object ID N/A SNMP Syntax

Page 147 CLI Syntax ip address in the form X.X.X.X where X is a decimal number from 0 to 255 (for example 10.0.15.74) Access NA Default 0.0.0

Page 148 5.13 ARP The ARP object is a translation table that is used for mapping between IP addresses and physical addresses. This object corr

Page 149 5.13.2 ARP Attributes 5.13.2.1 ARP Interface Description The index value that uniquely identifies the interface for this entry. The

Page 15 Among key features of the FibeAir 70 systems is: • Provides aggregated Gigabit-per-second data rates utilizing the newly allocated E-ba

Page 150 5.14 RF The RF object corresponds to definitions in the private Ceragon SNMP MIB (1.3.6.1.4.1.31926.1). 5.14.1 RF Commands 5.14.1.1

Page 151 5.14.2 RF Attributes 5.14.2.1 Number of Channels Description The maximum allowed bandwidth, expressed in MHz. CLI Attribute Name nu

Page 152 Dependencies None 5.14.2.5 Mode Selector Description Specifies the current RF device operating mode. The available modes are: adapti

Page 153 5.14.2.7 CINR Interval Description The interval used to determine the value for CINR, expressed in milliseconds. CLI Attribute Name

Page 154 Dependencies None 5.14.2.11 RX State Description An integer that specifies the current state of the RF receive link. CLI Attribute N

Page 155 This object is accessible via SNMP Only Description Average carrier to interference noise ratio [-6..30] SNMP Object ID rfAverageCinr

Page 156 Wherein: mod Modulation type. {QPSK, QAM16, QAM64} scnum The number of subchannels [1..4] rep Repetition {1, 2, 4} fec FEC {0.5, 0.67,

Page 157 Table 5-2 summarizes and describes all RF object statistics. Table 5-2 Statistics for the RF Object CLI Name Description SNMP

Page 158 Table 5-3 Statistics History for the RF Object usrHistoryObjectIndex usrHistoryObjectVariable 1 rfInOctets (1.3.6.1.4.1.31926.2.2.

Page 159 6 Performing Advanced CLI Operations This chapter describes the advanced use of the FibeAir 70 Command Line Interface (CLI) client. Pr

Page 16 1.5 Technical Specifications FibeAir 70 – Product Highlights Operational Data throughput Up to 70 Mbps Frequency Band 71-76 GHz Accor

6.1 Configuration FilesThe FibeAir 70 System supports the use of stored network configurations. Generally, a stored configuration is automatically

Page 161 6.2 Rollback Operations The FibeAir 70 system supports rolling back of network configurations. A rollback is a safety measure to preve

Page 162 In response, the System will display the requested rollback values. 6.3 Software Upgrade The FibeAir 70 system supports switching in

Page 163 The software version is followed by the creation date and time of the version. The first digit of the version number represents the maj

Page 164 If no accept sw is entered before the accept-timeout-sec period ends (See Section 6.3.1.3), then the System will Reset and wake up wit

Page 165 Since, currently there is no DNS; the location is specified as IP Address in the dotted notation. ftp://liberty:[email protected]/m

Page 166 Command Purpose del <url> works only for flash; available only for root, admin and super; 6.4.3.2 Displaying the List of Stored

Page 167 FA-70>dir flash: Num Size Date Time Name ---------------------------------------- 1 2 02.03.2011 14:59:3

Page 168 6.5.2 Running Scripts Execute scripts using the Run command: run script <script-filename> In response, the System will execute

Page 169 6.5.5 Deleting Scripts Delete scripts from flash:scripts using the Del command: FA-70>del flash:scripts/DemoScript.txt 4Gon

2 Installing the This chapter describes how to install and perform the basic setup for outdoor units (ODUs) in a Topics covered here include:• Prep

Page 170 6.6 System Event and Alarm Handling The FibeAir 70 system supports logging history of standard network events and alarms. Hint: For

Page 171 In response, all active System logs are cleared. 4Gon www.4Gon.co.uk [email protected] Tel: +44 (0)1245 808295 Fax: +44 (0)1245 8

Page 172 6.7 Physical Inventory The FibeAir 70 objects described here correspond to the Entity MIB defined in RFC 4133. The tables implemented

Page 173 6.7.2 Physical Inventory Attributes 6.7.2.1 Inventory Index Description The index for the table entry. CLI Attribute Name none. SNM

Page 174 6.7.2.4 Class Description An indication of the general hardware type of the physical entity. If no appropriate standard registration

Page 175 6.7.2.6 Physical Name Description The textual name of the physical entity. The value of this object should be the name of the compon

Page 176 6.7.2.7 Physical Hardware Revision Description The vendor-specific hardware revision string for the physical entity. The preferred v

Page 177 CLI Syntax character string Access RO CLI Commands show inventory <ph-idx-range> sw-rev 6.7.2.10 Physical Serial Number Descr

Page 178 6.7.2.12 Physical Model Name Description The vendor-specific model name identifier string associated with this physical component. T

Page 179 6.7.3 Physical Inventory Assignments Hierarchy Figure 6-2 shows all physical inventory entities and their relationship. Figure 6-2

• Install the FibeAir 70cabling are ready for operation and are easily accessed.• Install the FibeAir 70available. Typically, the grounding conne

Page 180 6.7.3.2 Antenna Attribute Value Inventory Index 2 Descriptor “Ceragon Antenna” Contained In 1 Class other Parent Relative Positio

Page 181 Model Name empty Field Replaceable Unit Indicator not-replaceable 6.7.3.4 Base Band Board Attribute Value Inventory Index 4 Descri

Page 182 Software Revision empty Serial Number empty Manufacturer Name “Ceragon” Model Name empty Field Replaceable Unit Indicator not-repl

Page 183 Name “CPLD” Hardware Revision empty Firmware Revision <to be read in runtime> Software Revision empty Serial Number empty Ma

Page 184 Contained In 4 Class module Parent Relative Position 5 Name “Boot” Hardware Revision empty Firmware Revision empty Software Revis

6.8 Maintenance Domain6.8.1 MD Commands Note: MD CLI commands are available only when the feature is enabled. 6.8.1.1 Set set cfm-md <md-id

Page 186 6.8.2.2 Name Description Each Maintenance Domain has a unique name. This facilitates easy identification of administrative responsibi

Page 187 6.8.2.5 MHF Creation Description Enumerated value indicating whether the management entity can create MHFs (MIP Half Function) for th

6.9 Maintenance Association6.9.1 MA Commands Note: MA CLI commands are available only when the feature is enabled 6.9.1.1 Set set cfm-ma <md-

Page 189 6.9.2.2 MA Index Description Index of the Maintenance Association table (dot1agCfmMdMaNextIndex) needs to be inspected to find an ava

Page 19 2.3 System Installation 2.3.1 Required Tools Ensure that you have the following tools with you when performing the FibeAir 70 installa

Page 190 6.9.2.5 Interval Description The interval to be used between CCM transmissions by all MEPs in the MA. SNMP Object ID 1.3.111.2.802.1

6.10 Component Maintenance Association6.10.1 MA-COMP CommandsNote: MA-COMP CLI commands are available only when the Bridge feature is enabled. 6.

Page 192 6.10.2.3 MA Index This is the same attribute as the one described in Section 6.9.2.2. 4Gon www.4Gon.co.uk [email protected] Tel:

Page 193 6.10.2.4 Service Selector Description Service Selector identifier to which the MP is attached, or 0, if none. The type of the Service

6.11 Maintenance End Point6.11.1 MEP Commands Note: MEP CLI commands are available only when the feature is enabled. 6.11.1.1 Set set cfm-mep &

Page 195 6.11.2.3 MEPID Description An integer that is unique for all the Maintenance End Points (MEPs) in the same Maintenance Association th

Page 196 6.11.2.5 Direction Description The direction in which the MEP is facing on the Bridge Port. SNMP Object ID 1.3.111.2.802.1.1.8.1.7.1

Page 197 6.11.2.8 CCI Description If set to True, the MEP will generate CCM messages. SNMP Object ID 1.3.111.2.802.1.1.8.1.7.1.1.7 (dot1agCf

Page 198 6.11.2.11 Alarm Time Description The time that a defect must be present before a fault alarm is issued SNMP Object ID 1.3.111.2.802.

Page 199 6.11.2.14 LBM Destination MEPID Description The Maintenance Association End Point Identifier of another MEP in the same Maintenance A

Page 2 Trademarks Ceragon, the Ceragon logo and FibeAir 70™ are all trademarks of Ceragon Ltd. All other product names and trademarks me

Page 20 2.3.3 Mounting the FibeAir 70 Figure 2-1 shows details of the FibeAir 70 Mounting Assembly. 1. Unit Mounting Bolts 6. Azimuth Adj

Page 200 6.11.2.17 LBM Data TLV Description An arbitrary amount of data to be included in the Data TLV, if the Data TLV is selected to be sent

Page 201 6.11.2.20 LTM Destination MAC Address Description A unicast destination MAC address specifying the target MAC Address Field to be tra

Page 202 6.11.2.23 LTM Transmit TTL Description The TTL field indicates the number of hops remaining to the LTM. Decremented by 1 by each Link

Page 203 6.11.2.25 Transmit LTM Status Description A Boolean flag set to True by the Bridge Port to indicate that another LTM may be transmitt

Page 204 6.11.3.3 Highest Priority Defect Description The highest priority defect that has been present since the MEPs Fault notification Gene

Page 205 6.11.3.7 LBM Transmit Result Description Indicates the result of the operation. SNMP Object ID 1.3.111.2.802.1.1.8.1.7.1.1.34 (dot1a

Page 206 Access RO 6.11.3.12 Transmit LBR Counter Description Total number of Loopback Replies transmitted. SNMP Object ID 1.3.111.2.802.1.1

Page 207 CLI Attribute Name ltm-tx-sn CLI Syntax Integer Access RO 4Gon www.4Gon.co.uk [email protected] Tel: +44 (0)1245 808295 Fax: +

Page 208 6.12 Received CCM Presentation 6.12.1 Parsing and Displaying CCM Messages The following information is displayed per CCM message sto

Page 209 6.12.2.3 MEPID This is the same attribute as the one described in Section 6.11.2.3. An entry cannot be created if a corresponding MEP

Page 21 If needed, change the ODU polarity position to match the orientation of the remote pair ODU by removing the Quick Release Plate, chang

6.13 Peer MEP Create6.13.1 Peer MEP Create CommandsNote: Peer MEP Create CLI commands are availabProvider Bridge feature is enabled. 6.13.1.1 Set

Page 211 6.13.2.3 Peer MEPID Description Integer identifying a specific Peer Maintenance Association End Point. SNMP Object ID dot1agCfmMaMep

6.14 Peer MEP DB 6.14.1 Peer MEP DB CommandsNote: Peer MEP DB CLI commands are available only when the Provider Bridge feature is enabled. 6.14.1

Page 213 6.14.2.5 Peer MEP State Description The operational state of the remote MEP IFF State machines. This state machine monitors the recep

Page 214 6.14.2.8 Remote Defect Indication Description State of the RDI bit in the last received CCM. On corresponds to True. SNMP Object ID

Page 215 6.14.2.11 Peer Chassis ID Subtype Description This object specifies the format of the Chassis ID received in the last CCM. SNMP Objec

Page 216 6.14.2.14 Management Address Description The TAddress that can be used to access the SNMP agent of the system transmitting the CCM,

6.15 LTR DB 6.15.1.1 LTR Storage OverviewThe LTRs that arrive are stored on per 6-3. The LTRs are stored in the ascending sequence number order an

Page 218 It is possible to specify more than one SN in the command by designating indexed objects (See Section 0 4.9.6.1). 6.15.3 LTR DB Attri

Page 219 6.15.3.6 LTR Forwarded Indicator Description Indicates if a LTM was forwarded by the responding MP, as returned in the 'FwdYes&a

Page 22 Connect the opposite end of the Grounding Cable to the earth connection, typically located on the mounting pole. In case earth connectio

Page 220 6.15.3.10 LTR Management Address Domain Description The TDomain that identifies the type and format of the related dot1agCfmMepDbManA

Page 221 6.15.3.13 LTR Ingress MAC Address Description MAC address returned in the ingress MAC address field. If the dot1agCfmLtrIngress objec

Page 222 CLI Commands show cfm ltr-db <md-idx> <ma_idx> <mepid> {<SN>} | all 6.15.3.17 LTR Egress MAC Address Descript

Page 223 CLI Syntax {on | off} Access RO CLI Commands show ltr-db <md-idx> <ma_idx> <mepid> {<SN>} | all 6.15.3.21 LT

Page 224 6.16 Outgoing Queues 6.16.1 Outgoing Queues Commands 6.16.1.1 Show Display the Queue statistics using Show command: show out-queue {

Page 225 6.16.2 Outgoing Queue Attributes 6.16.2.1 Interface Name Description Interface name SNMP Object ID TBD CLI Syntax {eth0 | eth1 | e

Page 226 6.17 Incoming Queues Currently Incoming Queues are defined only for rf. However, the design should take into account the possibility t

Page 227 6.17.2 Incoming Queues Attributes 6.17.2.1 Interface Name Description Interface name SNMP Object ID TBD CLI Syntax rf (currently o

Page 228 6.17.2.5 Lost Frame Counter Description The counter of the per-Q lost rx frames SNMP Object ID TBD CLI Syntax lost 0..264 Access R

Page 229 7 FibeAir 70 Diagnostics The FibeAir 70 System’s highly reliable and easy-to-use radio link features a wide range of built-in indicato

Page 23 Cable Preparation Before inserting a cable connector into the ODU, it must first be enclosed in a protective All-Weather Shell, supplied

Page 230 Define the problem as either a customer-impact type (for example, loss of element management, or no Ethernet services over the link) or

Page 231 7.3 FibeAir 70 ODU LEDs The following table lists the possible status of all LEDs, together with a description for purposes of diagnos

Page 232 7.4 FibeAir 70 System Alarms and Events The following table lists all System Alarms and Events, together with their severity, possible

Page 233 Indication Classification and Severity Explanation Probable Cause Corrective Actions Cold Start Event The ODU is re-initializating

Page 234 Indication Classification and Severity Explanation Probable Cause Corrective Actions Change FibeAir 70 system has changed. 4Gon

Page 235 Local_Site>show rf statistics rf in-octets : 32535265564 rf in-idle-octets : 29775780985 rf in-good-octets

Page 236 The RF transmission quality indicators are rf in-errored-pkts and rf in-lost-pkts. The advancement of these statistics indicates that t

Page 237 7.5.2 VLAN Statistics Statistics counters of each FibeAir 70 component are displayed per VLAN: FA-70>>show vlan all all statisti

Page 238 7.5.3 Ethernet Statistics Statistics counters are displayed per Ethernet port. FA-70>show eth all statistics eth eth0 elapsed-time

7.6 FibeAir 70 System LoopbacksThe FibeAir 70 radio uses Ethernet and RF loopbacks designed to enable fault isolation and Ethernet service perform

Caution: Removing Connectors from the To avoid accidental damage to the connector, always use the following order to remove cable connections from

Page 240 When testing a link from one side (Local), External Line loopback should be applied on the Local unit. Loopback can be applied separate

Page 241 The Ethernet traffic from the Customer’s end-equipment or Ethernet analyzer is looped at the Ethernet interface of the remote ODU, enab

2.3.6 Antenna ODU AlignmentTwo alignment stages (that is, course and fine alon both local and remote critical for achieving the strongest receive s

Page 26 Before using the DVM, set its output to millivolts. Dividing the RSSI millivolt output by 10 will provide the actual receive signal st

Page 27 Figure 2-5 Installed FibeAir 70 Unit 2.3.7 Initial System Setup Disconnect the DVM from the FibeAir 70 ODU by removing the probes fro

Page 28 3 FibeAir 70 Configuration This chapter presents the FibeAir 70 ODU configuration steps for link setup. It describes the initial config

Page 29 3.1.3 Default IP Address The FibeAir 70 ODU supports up to four IP addresses that can be on different subnets and associated to differe

Page 3 Safety and Regulatory Notices The following are mandatory notices for installation and operation of FibeAir 70, 70GHz Wireless Backhaul Lin

Page 30 3.1.5 Default Ethernet Interface Configuration Many FibeAir 70 interface configuration items are hardcoded. However, the following item

Page 31 3.2 ODU Setup using the web-EMS This section provides information on the configuration steps of the ODU be carried out after antennas a

Page 32 3.2.2 Quick Configuration 3.2.2.1 System Information Set ODU’s system information parameters: • Name • Date • Time Click “Apply” t

Page 33 Set ODU’s IP attributes for one of the 4 available IPs: • IP Address • IP Mask • Route (static route) • Destination (static route) •

Page 34 3.2.2.3 Radio Set ODU’s radio parameters and check radio status: • Frequency [MHz] • Channel-width [MHz] • Role - Master or

Page 35 3.2.2.4 Ethernet Ports Set Eth1 and Eth2 ports configuration: • Admin (port enable) Up or Down • Auto-negotiation Enable or Disab

Page 36 3.2.3.2 Inventory Check the Inventory list of the ODU, including the sub-parts and their information. 3.2.3.3 IP Set ODU’s IP at

Page 37 3.2.3.4 SNMP Set SNMP managers trap destination: destination IP address, port number and community. Up to 5 managers can be defined. C

Page 38 3.2.4 Bridge Use the Bridge section to set VLANs and ports configuration. Networking configuration, including bridge management model,

Page 39 3.2.6 Radio Use the Radio section to set and check radio parameters and statistics: 3.2.6.1 Radio Set ODU’s radio parameters: •

About this DocumentThis document is the Installation and User ManualAudience This document assumes a working knowledge of wireless backhaul platforms

Page 40 Check ODU’s status: • Operational Status – Up or Down (radio link status) • Tx and Rx State – indicates Tx and Rx chains status • RSS

Page 41 3.2.6.3 RF Statistics Check RF statistics counters to identify radio errors: • Current – real time statistics counters since last clea

Page 42 3.2.7 Ethernet Interface Configuration Click the ODU’s Ethernet interfaces to configure and monitor the status of the Ethernet

Page 43 3.2.7.4 Loopback Set loopback timeout (in seconds) and loopback mode: Disabled,Internal,Internal-mac-swap,External,External-mac-swap.

Page 44 3.2.8.2 Scripts The ODU supports running scripts. A script is a list of commands that runs locally on the ODU. Script output is display

Page 45 Click “Add” to add a user and assign it to one of the user types: Type Default Password Access Rights user N/A Read only ac

3.3 ODU Setup using the CLIThis section provides information on the antennas alignment using the Command Line Interface (CLI). Initial configuratio

Page 47 • Time To check the System settings: 3.3.3 IP Set ODU’s IP attributes for one of the 4 available IPs: • IP Address • IP

Page 48 To check the IP settings: 3.3.4 RF Set ODU’s RF parameters: • Frequency [MHz] • Channel-width [MHz] • Role – Master or Slav

Page 49 To check the available supported modulations: Check ODU’s status: Check RF statistics counters to identify radio errors

Page 5 TABLE OF CONTENTS 1 Introduction to the FibeAir 70 System 13 1.1 System Applications 14 1.2 Main Features 14 1.3 Functional Descrip

Page 50 Local_Site>show rf statistics rf in-octets : 32535265564 rf in-idle-octets : 29775780985

Page 51 3.3.5 Ethernet Interfaces The FibeAir 70 system consists of 4 Ethernet interfaces: • Host – management interface • Eth0 – radio inte

Page 52 3.3.6 Save and Reset Save the new configuration using the copy command: Saving the running (currently active) configuration will make

Page 53 4 FibeAir 70 Network Configuration This chapter presents the FibeAir 70 bridge management model and describes the initial procedures fo

Figure 4-1 Generic Model of the Each component acts as a virtual bridge. A component can have both external and internal ports. An external po

Page 55 4.2 Default Bridge Configuration The default bridge configuration (by license) is Provider Bridge disabled. This configuration allows

Page 56 • When a packet is transmitted out of the port, VID=1 is removed (untagged on all ports). • All traffic (and management data) is trans

Page 57 Configure the following VLAN attributes: • VID – VLAN ID (or IDs) • FDB ID – enter 1 (in Provider Bridge configuration, up to 64 FDBs

Page 58 Click “Edit” to edit the port and to change the PVID: 4.3.3 VLAN Statistics To check the VLAN statistics: 4Gon ww

Page 59 4.4 Bridge Configuration using the CLI In order to configure and monitor VLANs using the CLI, Provider Bridge license should be set to

Page 6 3.2 ODU Setup using the web-EMS 31 3.2.1 Connecting to the ODU 31 3.2.2 Quick Configuration 32 3.2.3 System 35 3.2.4 Bridge 38 3

4.5 FibeAir 70 Network Configuration ExamplesThis section provides examples of basic useful when creating your local Note: The following configur

Page 61 set vlan c4 100 egress eth2,s1 untagged eth2 set vlan c2 100 egress eth0,s1 untagged none Assign VID=100 to port ETH2 and Host towards

Page 62 Confirming the VLAN Configuration Enter the following command to confirm the new VLAN configuration: FA-70>show vlan all all componen

Page 63 Examining VLAN Statistics In the event of VLAN performance problems, ODU transmission can be monitored using the show vlan statistics co

Page 64 Note that customer Ethernet services from port ETH1 that arrive with different VLAN IDs and priorities will be transferred as-is. 4.5.3

Page 65 set ip ip-addr 10.0.0.51 route 10.0.0.1 Remove the default C-component c2 and attach the interface ETH0 to the S-component: clear bridge

Page 66 set vlan c3 111 egress eth1, s1 set vlan s1 111 fdb-id 5 egress c1, eth0, eth2 Configure bridge port management: set bridge-port c1 s1 a

Page 67 set bridge-port s1 c1 pvid 111 prio 6 Map Management C-VLAN to the Management S-VLAN: set cvlan-reg c3 eth1 111 svid 111 Configure Servi

Page 68 EH 5 Configuration Configure RF: set rf role master frequency 74000 mode adaptive Configure the IP address: set ip ip-addr 10.0.0.55 rou

Page 69 Configure Service VLANs: set vlan s1 2000 fdb-id 11 egress eth2, eth0 set vlan s1 1000 fdb-id 10 egress eth1, eth0 EH 7 Configuration Co

Page 7 4.6.1 Physical Installation Verification 73 4.6.2 RF Link Test 74 4.6.3 Link Errors Test 74 4.6.4 Ethernet Services Test 74 4.6.5

Page 70 Configure the IP address: set ip ip-addr 10.0.0.58 route 10.0.0.1 Remove C-components C2 and C4 and attach the interface ETH0 and ETH2 t

Page 71 set vlan c3 111 egress eth1, s1 set vlan s1 111 fdb-id 5 egress c1, c3, eth0 Configure bridge port management: set bridge-port c1 s1 adm

Page 72 Map Management C-VLAN to the Management S-VLAN: set cvlan-reg c3 eth1 111 svid 111 Configure Customer VLANs: set vlan c4 200-203 egress

Page 73 The commissioning and acceptance procedure verifies the correct installation and the proper, safe, and robust operation of the FibeAir 7

Page 74 4.6.2 RF Link Test This inspection verifies the RF link status, in accordance with Chapters 2 and 3 of this manual. • RF LED is gree

Page 75 4.7 FibeAir 70 Commissioning and Acceptance Form Customer Details Customer Project/link name Physical Installation Verification

Page 76 RF Link Tests Expected RSSI dBm dBm Measured RSSI dBm dBm Measured CINR dB dB Green “RF” led Yes No Y

Page 77 This chapter describes how to use the FibeAir 70 Command Line Interface (CLI) client to configure and maintain FibeAir 70 devices on you

4.9 CLI Command SyntaxAfter invoking the CLI, the User inputs commands to the CLI. Each CLI command is submitted to the FibeAir 70returned. Each co

Page 79 4.9.2 Common Syntax Rules This document uses the following notation conventions when presenting CLI usage examples. These syntax conven

Page 8 5.4 Bridging Port 110 5.4.1 Bridging Port Commands 110 5.4.2 Bridging Port Attributes 112 5.5 VLAN Common 115 5.5.1 VLAN Common C

Page 80 Convention Meaning <ext-bridge-port-list> A comma-separated list of external port names, e.g., host, eth0, eth1, eth2. Any combin

Page 81 4.9.4 CLI Command Types The CLI uses a limited number of commands to create, maintain and monitor a FibeAir 70 configuration. To perfor

4.9.4.2 Show CommandsThe Show command is used to display the current characteristics and other values for a chosen object. The generic form the Sho

Line-by-line per attribute displays the objects in the form:<object-name> <object-Note that multiple <objectThe Table display method pr

Reset System Resetting the System reboots and reloads the currently saved SysFA-70>reset system Reset System is used for power up and is require

Page 85 CLI Name Referenced Object eth0 The wireless port eth1 Wired Ethernet port eth2 Wired Ethernet port host Internal CPU s1 S-compone

Page 86 Note that not every combination of keywords is valid. For example, the command bridge-port c1, c2 host is invalid, because two different

Page 87 More specifically: object 2, 9, 23-25 means the collection of double indexed objects: {2, 23}, {2, 24}, {2, 25}, {9, 23}, {9, 24}, {9, 2

Page 88 4.10 Viewing the CLI Command History The FibeAir 70 CLI maintains a history of the 100 most recent commands that were entered by the Us

Page 89 4.11 Invoking CLI Help and Auto completion The FibeAir 70 CLI assists the User both actively and passively, using the following means:

Page 9 5.14 RF 150 5.14.1 RF Commands 150 5.14.2 RF Attributes 151 6 Performing Advanced CLI Operations 159 6.1 Configuration Files 160

Page 90 <string> <tab> Automatically completes a specific command name. For example: FA-70> set vl <tab> FA-70> set vlan

Page 91 4.12 CLI Error Messages FibeAir 70 CLI issues three types of error messages: • %Ambiguous command. This error occurs when the command

4.13 Viewing the FibeAir 70The FibeAir 70 CLI enables viewing of standard operational and performance statistics for various objects in the System

Page 93 5 CLI Managed Object Reference This chapter describes all FibeAir 70 System objects that can be created, modified, displayed or deleted

Page 94 5.1 System The System object provides access to general operating parameters of the device. The System object corresponds to the System

Page 95 5.1.2 System Attributes 5.1.2.1 System Description Description A text string describing the entity. This value generally includes the

Page 96 5.1.2.3 System Up Time Description The length of time that has passed since the network management portion of the system was last re-i

Page 97 5.1.2.6 System Location Description The physical location of this node (e.g., 'telephone closet, 3rd floor' CLI Attribute Nam

Page 98 5.1.2.9 System Date and Time Description The host's local date and time of day. CLI Attribute Name date, time SNMP Object ID hr

5.2 Eth The Eth object provides access to Ethernet networkThe Eth object corresponds to the Interface MIB2 described in RFC5.2.1 Eth Commands Not