INSTALLATION     27/153 30-CRA 119 1170/1 Uen B    

SmartEdge 600 Router Hardware Guide 

Release 6.4

© Ericsson AB 2010. All rights reserved. No part of this document may be reproduced in any form without the written permission of the copyright owner.

Disclaimer

The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any error or damage of any kind resulting from the use of this document.

Trademark List

SmartEdge is a registered trademark of Telefonaktiebolaget LM Ericsson.
NetOp is a trademark of Telefonaktiebolaget LM Ericsson.

Contents

1Site Preparation
1.1Agency Compliance Information
1.2Electrical Specifications
1.3Electrical Power Connections
1.4Environmental Requirements
1.5Physical Specifications
1.6Select the Rack
1.7Select the Installation Method
1.8Equipment and Personal Safety Warnings
1.9DC Power Source Warnings
1.10Access During Initial Startup and Reload Operations
1.11Access During Normal Operations
1.12Management Access Options
1.13Gathering Cables and Tools
1.14Management Access Cables
1.15External Timing Cables
1.16Line Card Cable Specifications
1.17Transceiver-Based SONET/SDH Line Card Cables
1.1810/100 Ethernet and Fast Ethernet–Gigabit Ethernet Cables

2

Installing the Hardware
2.1Install the Chassis Mounting Brackets
2.2Install the Chassis
2.3Install the Cable Management Brackets
2.4Connect Power and Ground Cables
2.5Optional AC Power Shelf
2.6Card Slots
2.7Install Cards
2.8Connections for Management Access
2.9Connections for External Timing Cables
2.10Connections for Line Card Cables
2.11Connect and Route Cables
2.12Power On and Off the System

3

Hardware Control and Troubleshooting
3.1Hardware Status
3.2CLI Commands for Hardware Control
3.3CLI Commands for Hardware Troubleshooting
3.4Values for CLI Input Arguments
3.5Output Fields for the show chassis Command
3.6Output Fields for the show disk Command
3.7Output Fields for the show hardware Command
3.8Output Fields for the show port Command
3.9Output Fields for the show port transceiver Command
3.10Troubleshoot with System and Card LEDs
3.11Troubleshoot with System Power and Alarm LEDs
3.12Troubleshoot with Card Status LEDs
3.13Troubleshoot with On-Demand Diagnostics
3.14Obtaining Assistance

4

Servicing Hardware
4.1Adding a Second Controller Card
4.2Replacing a Controller Card
4.3Replacing a Transceiver
4.4Cleaning Optical Connectors
4.5Replacing the Fan Tray
4.6Replacing the Air Filter
4.7Remove and Replace an AC Power Module

5

System Overview
5.1Specification Summary
5.2Line Card Interfaces
5.3Packet Mesh Architecture
5.4Redundancy
5.5Alarms
5.6System Status
5.7SmartEdge 600 Chassis

6

Card Descriptions
6.1Controller Cards
6.28-Port ATM OC-3c/STM-1c Card
6.34-Port ATM OC-3c/STM-1c Card
6.42-Port ATM OC-12c/STM-4c Card
6.51-Port Enhanced ATM OC-12c/STM-4c Card
6.68-Port POS OC-3c/STM-1c Card
6.74-Port POS OC-12c/STM-4c Card
6.84-Port POS OC-48c/STM-16c Card
6.91-Port OC-192c/STM-64c Card
6.1012-Port 10/100 Ethernet Card
6.1160-Port Fast Ethernet Card
6.124-Port Gigabit Ethernet Card
6.134-Port Advanced Gigabit Ethernet Card
6.144-Port Gigabit Ethernet 3 Card
6.1510-Port Gigabit Ethernet 1020 Card
6.1620-Port Gigabit Ethernet 1020 Card
6.175-Port Gigabit Ethernet Card
6.1820-Port Gigabit Ethernet Card
6.1910-Port Gigabit Ethernet DDR Card
6.201-Port 10 Gigabit Ethernet Card
6.214-Port 10 Gigabit Ethernet DDR Card
6.221-Port 10 Gigabit Ethernet/OC-192c DDR Card

7

Advanced Services Engine
7.1LEDs
7.2Provisioning and Configuring the ASE Card
7.3ASE Operational Commands
7.4Operating Status

8

SmartEdge Storage Engine
8.1Hard Disk Drive Description
8.2Specifications and LEDs
8.3Provision and Configure the SSE Card
8.4SSE Operational Commands
8.5Operating Status


1   Site Preparation

Select the installation site for the SmartEdge® 600 router, considering maintenance, electrical, and ventilation requirements. In addition, consider current and future cabling requirements.

1.1   Agency Compliance Information

Table 1    Agency Compliance Standards

Product Safety

Emissions

Immunity

NEBS Level 3

UL 60950


CSA 22.2 No. 60950


IEC60950


EN60950


AS/NZS 60950

FCC part 15, Class A


ETSI EN300 386


CISPR 22 Class A


VCCI Class A


EN55022, Class A


AS/NZA 3548 Class A

EN61000-4-2


EN61000-4-3


EN61000-4-4


EN61000-4-5


EN61000-4-6


ETSI EN300 386

GR-63-CORE


GR-1089-CORE


 Caution! 
Risk of equipment damage. The intrabuilding ports of the line cards are suitable for connection to intrabuilding or unexposed wiring or cabling only. These ports must not be metallically connected to interfaces that connect to the outside plant (OSP) or its wiring. These interfaces are designed for use in intrabuilding interfaces only (Type 2 or Type 4 ports as described in GR-1089-CORE, Issue 4) and require isolation from the exposed OSP cabling. The addition of primary protectors is not sufficient protection to connect these interfaces metallically to OSP wiring.
Note:  
The SmartEdge 600 router is suitable for installation in Network Telecommunications Facilities and as part of the Common Bonding Network (CBN).

1.2   Electrical Specifications

Table 2    DC Electrical Specifications

Requirement

Value

Input voltage, nominal

–48.0 VDC

Input voltage range

–40.0 VDC to –57.5 VDC(1)

Total input power, maximum

2736 VA

Input current rating per feed

57 ADC@–48 VDC

Source DC power requirement

Sufficient to supply the rated input current Local codes apply

Number of input feeds

Two: One from battery plant A and one from battery plant B

(1)  The low-voltage alarm on the chassis is raised when the input voltage drops below -33Vdc. The power monitoring circuit has a wide tolerance of -33Vdc to -38Vdc, so input voltage within this range may not raise the low-voltage alarm.


Table 3    AC (Optional) Electrical Specifications

Requirement

Value

Input voltage, nominal

200 to 240 VAC

Input voltage range

175 VAC to 275 VAC

Input power, maximum

3120 VA

Input current rating

15.6A maximum @ 200 to 240 VAC

Input line frequency, nominal

50 to 60 Hz

Input line frequency, range

47 to 63 Hz

Source AC power requirement

20A, IEC-320

Number of input feeds

Two independent branch circuits

Table 4    Operating and Inrush Current for Line Cards at –48 VDC

Component

Operating Current

Inrush Current(1)

ATM OC-3c/STM-1c (8-port)


ATM OC-3c/STM-1c (4-port)


Enhanced ATM OC-12c/STM-4c IR (1-port)

2.98


1.88


1.80

0.55


4.96


4.98

POS OC-3c/STM-1c (8-port)


POS OC-12c/STM-4c (4-port)


POS OC-48c/STM-16c (4-port)


OC-192c/STM-64c (1-port)

2.11


2.16


3.25


2.72

1.10


1.10


1.10


10.52 (max duration is 28 ms)

10/100 Ethernet (12-port)


Fast Ethernet–Gigabit Ethernet (60-port FE, 2-port GE)


Gigabit Ethernet (4-port)


Advanced Gigabit Ethernet (4-port)


Gigabit Ethernet 3 (4-port)


Gigabit Ethernet 1020 (10-port)


Gigabit Ethernet 1020 (20-port)(2)


Gigabit Ethernet (5-port)


Gigabit Ethernet (20-port) TX-SFP2


Gigabit Ethernet DDR (10-port)


10 Gigabit Ethernet (1-port)


10 Gigabit Ethernet DDR (4-port)


10 Gigabit Ethernet/OC-192c DDR (1-port)

1.44


2.80


1.56


1.56


2.24


2.95


3.70


2.30


6.25


2.00


2.72


6.25


2.00

4.20


0.62 (max duration is 28 ms)


4.04


4.04


4.00 (max duration is 20 µs)


14.20 (max duration is 20 µs)


12.40 (max duration is 20 µs)


1.34 (max duration is 20 µs)


1.50


0.64


10.52 (max duration is 20 µs)


1.00


0.79

(1)  Inrush current occurs during power on or during the installation of a component in a powered-on chassis. Unless noted, maximum duration is 4 ms.

(2)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


Note:  
The conventions of "traffic card" and "line card" have been used interchangeably in various SmartEdge documentation.

Inrush current occurs during power on or during the installation of a component in a powered-on chassis. Unless noted, maximum duration is 4 ms.

Table 5    Operating and Inrush Current for Chassis Components at –48 VDC

Component

Operating Current

Inrush Current

Controllers

XCRP4 (active or standby)

2.21

0.52 for 25 ms

ASE

Advanced Services Engine

2.68

1.20 for 120 ms

SSE

SmartEdge Storage Engine

2.8

0.86 for 48 ms

Chassis

Fan tray (nominal speed)


Fan tray (high speed)

2.20


5.40

6.60 for 3 ms


6.60 for 3 ms

1.3   Electrical Power Connections

Note:  
The SmartEdge 600 is to be installed in a restricted access area (dedicated equipment rooms, equipment closets, or other restricted-access area) and in accordance with Articles 110-26 and 110-27 of the National Electric Code, ANSI/NFPA 70, or in accordance with the applicable code in the country of installation.

The SmartEdge 600 chassis power architecture has connectors for a single power zone.

Primary sources are designated as A sources; backup sources are B sources. For a fully redundant power configuration, both sources must be connected.

Each power connection must be able to supply a minimum of 75 amperes. DC power connections require copper wire of a size suitable for the installation in accordance with the National Electrical Code (in the United States) or applicable local jurisdiction (outside the United States) installation requirements. An external fuse panel, either a stand-alone unit or incorporated in a DC power supply system, or a circuit breaker panel is required for power-on and power-off control. A DC-powered system uses –48 VDC power and is powered from a fuse panel, which can be damaged by overloaded circuits.


 Caution! 
Risk of equipment damage. Ensure that the fuses in the external fuse panel are suitably rated for the installation in accordance with the National Electrical Code (in the United States) or applicable local jurisdiction (outside the United States) installation requirements.

1.3.1   AC Power Option

You can supply power to the SmartEdge 600 by means of an optional AC Power Shelf (BMK 907 058/1). It requires a 200-240VAC power source. It has two power modules (BMK 905 76/1) and a split power bus for redundancy. Each power module is capable of delivering 2725 Watts.

The AC Power Shelf has a status port for use in monitoring warnings and errors.

1.4   Environmental Requirements

The installation area for the SmartEdge 600 hardware must allow the following clearances:

Table 6    Environmental Requirements

Specification

Value

Cooling

Forced air (fan cooled)

Operating temperature, nominal

41° to 104°F (5° to 40°C)

Operating temperature, short term(1)

23° to 131°F (–5° to 55°C)

Storage temperature

-38° to 150°F (–40° to 70°C)

Operating relative humidity

5 to 95% RH (noncondensing)

Storage relative humidity

5 to 95% RH (noncondensing)

Operating altitude

0 to 10,000 ft (3,048m)

Earthquake

Telcordia 63-CORE Zone 4-compliant

Thermal dissipation, maximum

2,736 watts (9,336 BTU/hour)

(1)  Short term refers to a period of time not more than 96 consecutive hours and a total of not more than 15 days in one year (360 hours in any given year, but no more than 15 occurrences during that year).


1.5   Physical Specifications

Figure 1   SmartEdge 600 Chassis Dimensions

Chassis depth dimension includes the front cable tray and the power safety cover.

Table 7    SmartEdge 600 Chassis Physical Specifications

Mechanical Specification

Value

SmartEdge 600 chassis dimensions

12.2 inches (310.0 mm) height


17.3 inches (439.4 mm) width


16.6 inches (421.6 mm) depth(1)

Chassis weight

48.7 lb (22.1 kg) all card slots empty, ready for installation


94 lb (42.6 kg) with all slots filled

Chassis mounting

19- or 23-inch rack

Total slots

8

Line card slots

6

Common equipment slots

2

Card dimensions

9.75 inches (247.7 mm) height


12.73 inches (323.3 mm) depth

(1)  Includes rear safety cover.


Table 8    SmartEdge 600 Connections

Card Connections

Connector Type

ATM OC-12c/STM-4c IR (1-port)


ATM OC-3c/STM-1c (4-port)


ATM OC-3c/STM-1c (8-port)

LC, front chassis access


LC, front chassis access


LC, front chassis access

10/100 Ethernet (12-port)


Fast Ethernet–Gigabit Ethernet (60-port FE, 2-port GE)


Gigabit Ethernet (4-port)


Advanced Gigabit Ethernet (4-port)


Gigabit Ethernet 3 (4-port)


Gigabit Ethernet 1020 (10-port)


Gigabit Ethernet 1020 (20-port)(1)


Gigabit Ethernet (5-port)


Gigabit Ethernet (20-port) (1)


Gigabit Ethernet DDR (10-port)


10 Gigabit Ethernet (1-port)


10 Gigabit Ethernet DDR (4-port)


10 Gigabit Ethernet/OC-192c DDR (1-port)

RJ-45, front chassis access


MRJ21 (FE ports), RJ-45 (GE ports), front chassis access(2)


MRJ21 (FE ports), RJ-45 (GE ports), front chassis access (2)


SC or RJ-45, front chassis access(3)


LC, front chassis access


LC, front chassis access


LC, front chassis access


LC, front chassis access


LC, front chassis access


LC, front chassis access


LC, front chassis access


LC, front chassis access


LC, front chassis access

OC-192c/STM-64c (1-port)


OC-48c/STM-16c (4-port)

LC, front chassis access


LC, front chassis access

Management workstation (LAN)


Craft console (RS-232)


External Timing, Primary and Secondary (DS-1 or E1)


Modem, SL7 and SL8 (RS-232)(4)


Alarm (4)


Status/Ctl (4)


Power and chassis ground

RJ-45, front chassis access


DB-9, front chassis access


DB-9, rear chassis access


DB-25, rear chassis access


DB-25, rear chassis access


DB-37, rear chassis access


1/4-20 threaded holes on 0.625-inch (1.59 cm) centers, rear chassis access

Advanced Services Engine

RJ-45, front chassis access

(1)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.

(2)  The front panel has 5 MRJ21 connectors, each supporting 12 FE ports; a breakout cable, which uses RJ-45 connectors for the individual ports, is available from Ericsson.

(3)  Connector type is determined by the gigabit interface converter (GBIC) version installed in the port.

(4)  The SmartEdge OS does not support this connection.


1.6   Select the Rack

You can mount the SmartEdge 600 chassis in a standard 19- or 23-inch rack. Brackets for the 23-inch rack are not shipped with the chassis but are available in the bracket spares kit (NTM 101 1517/1).


 Caution! 
Risk of equipment damage. Never install the chassis in a rack that has not been stabilized by being bolted to the floor and to the ceiling and always select a mounting position that is suitable to the type of rack in which the chassis is being installed.

The SmartEdge 600 chassis requires 7 RUs—1.75 inches (4.50 cm). The optional AC shelf at the bottom of the rack requires 1 RU; a stand-alone external fuse panel requires 1 RU.

Note:  
Ericsson does not supply fuse panels.

Figure 2   SmartEdge 600 Chassis in 42-RU Rack

Regardless of rack width and height, the SmartEdge 600 chassis can be mounted only in the flush position.

1.7   Select the Installation Method

The SmartEdge 600 chassis is heavy, as much as 48.7 lb (22.1 kg) when all slots have cards installed, and somewhat unwieldy. When planning the installation, consideration must be given to how the chassis can best be installed at the site you have chosen.

Two possible installation scenarios are to:

1.8   Equipment and Personal Safety Warnings


 Warning! 
Risk of electrical shock. Always remove the fuses in the fuse panel for all power sources to the chassis before connecting the power cables to the chassis. After the power cables are connected to the chassis and the fuse panel, the system is fully powered on; there is no power switch.

 Warning! 
Risk of electrical shock. This equipment must be connected to a protective ground in accordance with the instructions provided in this guide. Improper grounding can result in an electrical shock.

 Warning! 
Risk of electrical shock. Only qualified personnel are allowed to service the system. There are mechanical and electrical shock hazards present throughout the system if one or more of the cards is removed.

 Caution! 
Risk of severe damage to your eyes. Do not stare into the connector or directly view the laser beam emerging from the connector. Keep the connectors covered until you are ready to connect the fiber-optic cables. All versions of the optical cards are Class 1 products, which use lasers to convert electrical signals to optical signals that can damage your eyes.

 Warning! 
Risk of personal injury. Disconnect the telecommunications network cables before removing the card to which they are connected. This equipment does not provide safety isolation between any port that is connected to a digital network termination point and any other port to which terminal equipment may be connected.

1.9   DC Power Source Warnings


 Warning! 
Risk of electrical shock. A readily accessible disconnection device, such as a fuse in a fuse panel, must be provided in the fixed wiring for each DC power source. It must be suitable for the rated voltage and current specified. Because a system is fully powered on after all power connections are made, it can cause shock if a power cable is disconnected from the chassis.

 Warning! 
Risk of electrical shock. Disconnect all telecommunications network lines before disconnecting the unit from the ground point. Safe operation of this equipment requires connection to a ground point.

 Warning! 
Risk of electrical shock. DC power sources can cause severe injury. The DC power sources must be installed only in restricted access areas (dedicated equipment rooms, equipment closets, or the like) in accordance with Articles 110-17, 110-26, and 110-27 of the National Electric Code, ANSI/NFPA 70. Connect the chassis to a –48 VDC source that is reliably connected to earth.

1.10   Access During Initial Startup and Reload Operations

During the initial startup, only the operable console port is the one labeled ENET MGMT on the XCRP4 Controller card. During a reload operation, the management port is disabled until the initial stage of the reload is complete; all messages displayed during the reload are sent to the console port.

You access the SmartEdge 600 router with a terminal connected to the console port, either directly or through a terminal server.

For information about configuring cards, ports, and circuits, see configuration documents located at https://ebusiness.ericsson.net.

1.11   Access During Normal Operations

After you have configured the management port, you can use one or more of the following options to provide management access:

For redundancy, we recommend using two different methods (for example, a remote workstation and a remote console terminal with a connection to a terminal server). Further, if the configuration of the SmartEdge 600 router includes redundant controller cards, you should use the same means of access to connect each controller card, so that consistent management access, despite a failure, is guaranteed.

1.12   Management Access Options

Table 9    Options for Management Access

Option

Equipment Requirements

Ethernet port connection to a local management workstation

A PC or workstation with support for SSH and Telnet. Shielded Ethernet crossover cable.

Ethernet port connection to a remote management workstation

A PC or workstation with support for SSH and Telnet. Shielded Ethernet straight cable (shipped with the system). Router or bridge.

Craft 2 port connection to a local console terminal

Local terminal—choose one of the following options:


  • ASCII/VT100 console terminal or equivalent that runs at 9600 bits per second, 8 data bits, no parity, 1 stop bit.

  • PC or workstation in the same configuration as the ASCII/VT100 terminal.


Terminal server.


Craft console cable (shipped with the system).

Craft 2 port connection to a remote console terminal

Local terminal—choose one of the following options:


  • ASCII/VT100 console terminal or equivalent that runs at 9600 bits per second, 8 data bits, no parity, 1 stop bit.

  • PC or workstation in the same configuration as the ASCII/VT100 terminal.


A modem that runs at 56 kbps (maximum), 8 data bits, no parity, 1 stop bit, or terminal server.


Modem or terminal server cable.

1.13   Gathering Cables and Tools

You need cables for the following connections:

If you intend to build your own cables, see Management Access Cables for cable and connector specifications.

Table 10    Tools Needed for SmartEdge 600 Hardware Installation

Tool

Purpose

Heavy-duty cart

Transport chassis and system equipment from the receiving area to the installation site.

Power lifter

Optional (depending on installation scenario). Position the chassis in the rack.

#1 Phillips screwdriver

Remove and install the fan tray and cable tray; remove and install the cards. The screwdriver needs a 0.1875-inch barrel that is 5 to 6 inches long to install and remove the cable tray.

#2 or #3 Phillips screwdriver(1)

Attach the mounting brackets to the chassis and air ramp. Install the chassis and air ramp in the rack.

7/16-inch torque wrench

Connect the chassis ground cables.

Cable crimping tool(2)

Secure barrel or open lugs to the DC power and chassis ground cables.(3)

(1)  Depending on the screws that you use to install the chassis in a rack, a #3 Phillips screwdriver might be more appropriate than the #2 screwdriver.

(2)  The OUR840 manufactured by Burndy Tooling (recommended) or equivalent.

(3)  When barrel lugs are not provided, other options are available to secure the conductors.


1.14   Management Access Cables

A management access cable connects a console terminal, management workstation, or modem to a port on a controller card or the chassis.

Table 11    Cable Specifications for Management Access Cables

Name

Description

System Connectors

Cable Connector

Maximum Length(1)

Craft console cable

RS-232

DB-9 female

DB-9 male

35.0ft - 10.7m

Ethernet crossover cable

Category 5 shielded twisted-pair

RJ-45 female

RJ-45 male

328.1ft - 100.0m

Ethernet straight cable

Category 5 shielded twisted-pair

RJ-45 female

RJ-45 male

328.1ft - 100.0

(1)  The maximum cable length for RS-232 cables is for any baud rate.


1.14.1   Craft Console Cable

This cable connects a local Craft console to the Craft 2 port on a controller card. The cable is constructed as a straight-through connection between a DB-9 male connector at the system end and a DB-9 female connector at the computer terminal end.

Table 12    Craft Console Cable Pin Assignments

Signal Name(1)

Signal Function

Notes

DCD (input)

Received Line Signal Detector

Not used

TXD (output)

Transmitted Data

SmartEdge 600 output

RXD (input)

Received Data

SmartEdge 600 input

DSR (input)

DCE Ready

Not used

Signal Ground

DTR (output)

DTE Ready

Not used

CTS (input)

Clear to Send

Not used

RTS (output)

Request to Send

Not used

RI (input)

Ring Indicator

Not used

(1)  The direction, input or output, is with respect to the controller card: input describes data flowing into the controller card; output describes data being transmitted by the controller card.


1.14.2   Ethernet Crossover Cable

This shielded cable connects the Ethernet port on a PC to the Ethernet port on a controller card. Both ends of the cable are terminated in standard RJ-45 eight-pin modular plugs.

Table 13    Ethernet Crossover Cable Pin Assignments

Other End

   

Signal Name

Pin

Notes

Tx (+)

3

Tx (–)

6

Rx (+)

1

No connection

No connection

Rx (–)

2

No connection

No connection

1.14.3   Ethernet Straight Cable

This shielded cable connects the Ethernet port on a controller card to a LAN hub. Both ends of the cable are terminated in standard RJ-45 eight-pin modular plugs.

Table 14    Ethernet Straight Cable Pin Assignments

Signal Name

Notes

Tx (+)

Tx (–)

Rx (+)

No connection

No connection

Rx (–)

No connection

No connection

1.15   External Timing Cables

An external timing cable provides a connection from an external synchronization source, such as a building integrated timing supply (BITS) or synchronization supply unit (SSU), to the SmartEdge 600 router. Using two cables you can connect the SmartEdge 600 router to primary and secondary inputs on the external equipment.

Table 15    Cable Specification for External Timing Cable

Interface

Description

Chassis Connectors(1)

Cable Connector

External Timing

Shielded twisted-pair

DB-9 female

DB-9 male

(1)  The chassis connectors are on the rear of the chassis.


A cable consists of two individually shielded, twisted-wire pairs: one pair for the synchronization input and another pair for the synchronization output.

Note:  
The XCRP4 Controller card can receive timing data only.

The nominal impedance of the DS-1 wire pairs is 100 ohms; that of the E1 wire pairs is 120 ohms.

One end of the cable is terminated with a DB-9 male connector; the other end of the cable is left unterminated for attachment to the wire wrap posts of the external equipment. Both of the DB-9 connectors (PRIMARY and SECONDARY) on the rear panel of the SmartEdge 600 router have identical pin assignments.

Note:  
An adapter, available as an option, provides wire wrap pins to allow you to attach a cable without a connector.

To bring a signal from external equipment into the SmartEdge 600 router:

Table 16    External Timing Cable Pin Assignments

Signal Name(1)

Color

Notes

Shield

Bare Wire

Frame ground connection

External equipment input (+)

White

Twisted pair with pin 6

No connection

External equipment output (+)

White

Twisted pair with pin 9

Shield

Bare Wire

Frame ground connection

External equipment input (–)

Blue

Twisted pair with pin 2

No connection

No connection

External equipment output (–)

Orange

Twisted pair with pin 4

(1)  The direction, input or output, is with respect to the controller card: input describes data flowing into the controller card; output describes data being transmitted by the controller card.


1.16   Line Card Cable Specifications

Table 17    Cable Specifications for Line Cards

Card Type

Description

Card End

Cable End

Maximum Distance

ATM OC-12c/STM-4c

Single-mode fiber

LC female

LC male

9.3mi - 15.0km

ATM OC-3c/STM-1c SR-0

Multimode fiber

LC female

LC male

1.2mi - 2.0km

ATM OC-3c/STM-1c IR-1

Single-mode fiber

LC female

LC male

9.3mi - 15.0km

Advanced Services Engine

Category 5 shielded twisted-pair

RJ-45 female

RJ-45 male

328.1ft - 100.0m

10/100 Ethernet

Category 5 shielded twisted-pair Ethernet straight or crossover(1)

RJ-45 female

RJ-45 male

328.1ft - 100.0m

FE–GE: 10/100 ports

Category 5 UTP braid shielded #24 AWG solid jacket, with copper braid, tin shielded for each port

MRJ21 female

RJ-45 modular plug, shielded, male

328.1ft - 100.0m

FE–GE: 100/1000 ports

Category 5 shielded twisted-pair

RJ-45 female

RJ-45 male

328.1ft - 100.0m

(1)  See cable options for a 10/100 Ethernet line card table to determine which cable, straight or crossover, is suitable; the cable must be grounded at both ends.


1.16.1   Transceiver-Based Gigabit Ethernet Line Card Cables

Table 18    Cable Specifications for Transceiver-Based Gigabit Ethernet Line Cards

Transceiver

Description

Card End(1)

Cable End

Maximum Distance

SX GBIC transceiver

Multimode fiber 62.5/125 µm

SC female

SC male

1,804.4ft - 550.0m

Multimode fiber 50/125 µm

SC female

SC male

656.2ft - 200.0m

 

TX transceiver

4-pair, Category 5 shielded twisted-pair(2)

RJ-45

RJ-45

328.1ft - 100.0m

LX GBIC transceiver

Single-mode fiber 9/125 µm

SC female

SC male

6.2mi - 10.0km

LX70 GBIC transceiver

Single-mode fiber 9/125 µm

SC female

SC male

43.5mi - 70.0km

SX SFP transceiver

Multimode fiber 62.5/125 µm

LC female

LC male

1,640.4ft - 500.0m

Multimode fiber 50/125 µm

LC female

LC male

656.2ft - 200.0m

 

LX SFP transceiver

Single-mode fiber 9/125 µm

LC female

LC male

6.2mi - 10.0km

ZX SFP transceiver

Single-mode fiber 9/125 µm

LC female

LC male

49.7mi - 80.0km(3)

SR/SW XFP transceiver

Multimode fiber 50/125 µm

LC female

LC male

984.4ft - 300.0m

LR/LW XFP transceiver

Single-mode fiber 9/125 µm

LC female

LC male

6.2mi - 10.0km

ER XFP transceiver

Single-mode fiber 9/125 µm

LC female

LC male

24.9mi - 40.0km

ZR XFP transceiver(4) (5)

Single-mode fiber 9/125 µm

LC female

LC male

49.7mi - 80.0km

DWDM transceiver(6)

Single-mode fiber 9/125 µm

LC female

LC male

49.7mi - 80.0km

(1)  The SC connectors on the card are type SC/PC; cable and card connectors must match.

(2)  To comply with GR-1089 intrabuilding lightning surge requirements, intrabuilding wiring must be shielded, and the shield for the wiring must be grounded at both ends.

(3)  When the port level lossless flow control is enabled, the distance reach is limited to 43.5 mi (70.0 km).

(4)  The ZR XFP transceiver is a multi-rate device and can be used in the 10GE line card and the SONET OC-192c/STM-64c LR line card.

(5)  Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

(6)  DWDM XFP transceivers support only ITU channels 35, 36, 37, 53, and 54; see ITU DWDM Transmit Frequencies and Wavelengths table in Chapter 6 for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.


1.17   Transceiver-Based SONET/SDH Line Card Cables

Table 19    Cable Specifications for the SONET/SDH Line Cards

Transceiver Type

Description

Card Connector(1)

Cable Connector

Maximum Distance

SR / MM

Multimode fiber 62.5/125 µm

LC female

LC male

1,640.4 ft - 500.0 m(2)


1.2 mi - 2.0 km

SR / SM(3)

Single-mode fiber 9/125 µm

LC, FC, or SC female

LC, FC, or SC male

1.2 mi - 2.0 km

IR / SM (3)

Single-mode fiber 9/125 µm

LC female

LC male

9.3 mi - 15.0 km

IR-2 / SM (with XFP transceiver)

Single-mode fiber 9/125 µm

LC female

LC male

24.9 mi - 40.0 km

LR-1 / SM

Single-mode fiber 9/125 µm

LC female

LC male

24.9 mi - 40.0 km

LR-2 / SM

Single-mode fiber 9/125 µm

LC female

LC male

49.7 mi - 80.0 km

(1)  The SC connectors on the card are type SC/PC; cable and card connectors must match.

(2)  For SFP-OC12-MM transceiver, the maximum distance is 500 meters.

(3)  Use part number RDH90159/1 (SFP-ATM-OC3-SR-IR) when ordering the SFP transceivers with OC-3 SR-0 or OC-3 IR-1 functionality.


1.18   10/100 Ethernet and Fast Ethernet–Gigabit Ethernet Cables

The choice of an Ethernet straight or crossover cable for a port on the 10/100 Ethernet card depends on the equipment to which it is being connected.

Table 20    Cable Options for a 10/100 Ethernet Line Card

Configuration

Cable Type

Port is connected to a router.

Straight

Port is connected to a switch.

Crossover

Port is connected to a 10/100 Ethernet port in another SmartEdge router.

Crossover

Note:  
The 10/100 Ethernet line card wiring is cross-connected like a switch or hub; this condition is denoted with the label “X” by each port.

1.18.1   10/100 Ethernet Crossover Cable Pin Assignments

Both ends of this shielded and grounded cable are terminated in standard RJ-45 eight-pin modular plugs.

Table 21    10/100 Ethernet Crossover Cable Pin Assignments

Signal Name

Pin

Notes

Rx (+)

3

Rx (–)

6

Tx (+)

1

Termination network

Termination network

Tx (–)

2

Termination network

Termination network

1.18.2   10/100 Ethernet Straight Cable Pin Assignments

Both ends of this shielded and grounded cable are terminated in standard RJ-45 eight-pin modular plugs.

Table 22    10/100 Ethernet Straight Cable Pin Assignments

Signal Name

Notes

Rx (+)

Rx (–)

Tx (+)

Termination network

Termination network

Tx (–)

Termination network

Termination network

1.18.3   Fast Ethernet Breakout Cable Pin Assignments

Table 23    Fast Ethernet Breakout Cable Pin Assignments

Port

MRJ21 Pins

RJ-45 Pins

Colors

1

1 2 13 14

1 2 3 6

White/Blue Blue/White White/Orange Orange/White

2

3 4 15 16

1 2 3 6

White/Green Green/White White/Brown Brown/White

3

25 26 37 28

1 2 3 6

White/Gray Gray/White Red/Blue Blue/Red

4

27 28 39 40

1 2 3 6

Red/Orange Orange/Red Red/Green Green/Red

5

5 6 17 18

1 2 3 6

Red/Brown Brown/Red Red/Gray Gray/Red

6

7 8 19 20

1 2 3 6

Black/Blue Blue/Black Black/Orange Orange/Black

7

29 30 41 42

1 2 3 6

Black/Green Green/Black Black/Brown Brown/Black

8

31 32 43 44

1 2 3 6

Black/Gray Gray/Black Yellow/Blue Blue/Yellow

9

9 10 21 22

1 2 3 6

Yellow/Orange Orange/Yellow Yellow/Green Green/Yellow

10

11 12 23 24

1 2 3 6

Yellow/Brown Brown/Yellow Yellow/Gray Gray/Yellow

11

33 34 45 46

1 2 3 6

Violet/Blue2 Blue/Violet Violet/Orange Orange/Violet

12

35 36 47 48

1 2 3 6

Violet/Green2 Green/Violet Violet/Brown Brown/Violet

2   Installing the Hardware


 Stop! 
The SmartEdge 600 router is to be installed in a restricted access area (dedicated equipment rooms, equipment closets, or other restricted-access area) and in accordance with Articles 110-26 and 110-27 of the National Electric Code, ANSI/NFPA 70, or in accordance with the applicable code in the country of installation.

Figure 3   Fully Loaded 42 RU Rack Configuration

Decide where in the rack to position the chassis based on component stackup:

2.1   Install the Chassis Mounting Brackets

Figure 4   Installing Chassis Brackets for Flush Mount Position


 Caution! 
Risk of equipment damage. Always use the number and type of screws specified in the instructions.

To install brackets:

  1. Position a mounting bracket against one side of the chassis, lining up the screw holes in the bracket with the screw holes in the side of the chassis.
  2. Using a Phillips screwdriver, attach the bracket to the chassis with the screws provided with the mounting bracket; tighten to a maximum torque of 15.0 inch-lbs (1.7 Newton-meters).
  3. Repeat steps 1 and 2 to attach the second bracket to the other side of the chassis.

2.2   Install the Chassis


 Warning! 
Risk of personal injury. Do not lift or move the chassis without the aid of another trained person A fully loaded chassis can weigh as much as 94 lb (42.6 kg) and can cause injury if one person attempts to lift or move it. Always follow the procedures at this installation site for safely lifting heavy objects.

Install the chassis in the rack:

  1. With another installation engineer, lift the chassis to the position selected in the rack.
  2. Line up the screw holes in the mounting brackets with the screw holes in the rack.
  3. With one engineer holding the chassis in place, use the Phillips screwdriver to secure the shelf to the rack using fasteners of the type compatible with the rack. Tighten the fasteners to the vendor recommended torque level.

2.3   Install the Cable Management Brackets

Figure 5   Installing the Cable Management Brackets

To install the left-side bracket, align it with the screw holes at the left side of the rack and secure it to the rack with the two captive fasteners; tighten to a maximum torque of 8.0 inch-lbs (0.9 Newton-meters).

For additional cable management, you can install another cable management bracket at the right side of the chassis.

Note:  
When you install a ride-side cable management bracket, the air filter access will be limited only to removal from the rear of the chassis.

2.4   Connect Power and Ground Cables

Note:  
Use only copper American wire gauge (AWG) cables for power and ground connections.

The chassis ground terminal is located at the bottom-right corner of the back panel. The ground cables must be of a size suitable for the installation, and must be installed in accordance with the National Electrical Code (in the United States), or the applicable local jurisdiction (outside the United States) installation requirements.

Connect a chassis ground cable:

  1. Using a crimping tool, attach a two-hole lug to one end of the ground cable.
    Note:  
    Bare connectors and all grounding surfaces must be brought to a bright finish and coated with an antioxidant before crimp connections are made.

    Note:  
    The size of the ground cable, if installed in a Central Office, must be 6 - 8 AWG, or greater. If the connector cannot handle this, the ground cable must be the same AWG as the power conductors.

  2. Secure the connection with a pair of bolts and split washers, which are supplied in the Installation Kit. Tighten the bolts to a maximum torque of 15.0 inch-lbs (1.7 Newton-meters).
  3. Connect the other end of the cable to an appropriate ground point.
Note:  
To properly secure power and ground connections, use star washers for anti-rotation and thread-forming screws with paint-piercing washers, where applicable.

2.4.1   Connect DC Power Sources

The SmartEdge 600 chassis has two terminal blocks on the rear of the chassis labeled BATTERY A and BATTERY B for A-side and B-side DC power cables, which provides full power redundancy. Each terminal block has a pair of 1/4-20 studs.

The A- and B-side power cables connect to separate A-side and B-side connectors on the external fuse panel or circuit breaker panel.

The terminal studs are labeled RETURN and -48V. Each power cable must be of a size suitable for the installation and installed in accordance with the National Electrical Code (in the United States) or applicable local jurisdiction (outside the United States) installation requirements.

Note:  
The SmartEdge 600 chassis has an isolated DC return (DC-I). The –48V return terminal for each power source is not connected to either frame ground (primary or backup).

The following DC power source warnings and cautions apply when connecting DC power sources:


 Warning! 
Risk of electrical shock. The DC power sources must be installed only in restricted access areas (dedicated equipment rooms, equipment closets, or the like) in accordance with Articles 110-17, 110-26, and 110-27 of the National Electric Code, ANSI/NFPA 70. Connect the chassis to a –48 VDC source that is reliably connected to earth.

 Warning! 
Risk of electrical shock. A readily accessible disconnect device, such as a fuse in a fuse panel, must be provided in the fixed wiring for each DC power source. It must be suitable for the rated voltage and current specified. The system is fully powered on after all power connections are made, it can cause shock if a power cable is disconnected from the chassis.

 Warning! 
Risk of electrical shock. Disconnect all telecommunications network lines before disconnecting the unit from the ground point. Safe operation of this equipment requires connection to a ground point.

 Warning! 
Risk of electrical shock. This equipment uses –48 VDC power, which can cause shock if inadequate power sources are connected to it. Verify that the power sources for the system and DC power cables meet the specifications provided in Chapter 1.

 Warning! 
Risk of electrical shock. Always remove the fuses for both the A-side and B-side power sources in the fuse panel before connecting the power cables to the chassis. After the power cables are connected to the chassis and the fuse panel, the system is fully powered on; there is no power switch.

 Warning! 
Risk of electrical shock. This equipment must be connected to a protective ground in accordance with the instructions provided in this guide. Improper grounding can result in an electrical shock.

 Caution! 
Risk of equipment damage. A DC-powered system uses –48 VDC power, is powered from a fuse panel, and can be damaged by overloaded circuits. To reduce the risk, ensure that the fuses in the external fuse panel are suitably rated for the installation in accordance with the National Electrical Code (in the United States) or applicable local jurisdiction (outside the United States) installation requirements.

 Caution! 
Risk of equipment damage. You can permanently damage the chassis if you attempt to apply DC power to it and the DC power plugs are not installed in the connectors on the rear of the chassis. To reduce the risk, ensure that the plugs are installed as described in the following procedure.

2.4.1.1   Connect Power Cables

Figure 6   DC Power Connections

Connect the power cables:

  1. Using a crimping tool, attach a two-hole lug to one end of each power cable.
  2. For the BATTERY A connection, secure the connection of the red cable to RETURN with a pair of lug nuts and the black cable to -48V; tighten to a maximum torque of 15.0 inch-lbs (1.7 Newton-meters).
  3. For the BATTERY B connection, secure the connection of the red cable to RETURN with a pair of lug nuts and the black cable to -48V; tighten to a maximum torque of 15.0 inch-lbs (1.7 Newton-meters).
  4. Use the provided metal loops in the chassis to dress the cables with tie wraps.
  5. Note:  
    The dressing of the DC jumper cables must allow for servicing the push-through air filter and the fan tray from the rear of the chassis.

  6. Install the safety cover.

2.5   Optional AC Power Shelf

The optional AC power shelf provides slots for two AC power modules, which allows a SmartEdge 600 router to be installed at a site for which DC power sources are not available. AC power shelf connects to the SmartEdge 600 chassis with two pairs of DC jumper cables using connectors on the rear of the AC power shelf.


 Warning! 
Risk of personal injury. Do not attempt to access any component inside the AC power shelf; there are no user-serviceable components inside it.
Table 24    Order Numbers

BMG907058/1

Four-slot, one rack unit (RU) AC power shelf

BMK90576/1

2725 Watt AC power module unit with AC power cord

NTM1011728/1

Spare cable kit—Includes one interconnect data cable, one set of DC jumper cables, and two AC power cords with North American plugs.


 Warning! 
Risk of electrical shock. Do not disconnect the power cables to the chassis until you have first de-energized the DC power supplies, and then removed the fuses for both the A- and B-side power sources in the fuse panel. With the power cables connected to the chassis and the fuse panel, the system is fully powered on, and you can incur electrical shock when you remove the cables from the chassis connectors.

2.5.1   Install the AC Power Shelf

Figure 7   Positioning an AC Power Shelf

Install the AC power shelf:

  1. Position the shelf directly below the chassis so the screw holes in the shelf mounting brackets align with the screw holes in the rack just below the chassis.
  2. On a 19" wide rack, use the Phillips screwdriver to secure the shelf to the rack using the fasteners of the type compatible with the rack. Tighten the fasteners to the vendor recommended torque level.

2.5.1.1   Install the Ground Bracket

Figure 8   Ground Bracket

Install the ground bracket between the shelf and the chassis:

  1. On the chassis, remove the chassis ground lug at the lower-center rear of the chassis.
  2. Stack the ground bracket under the chassis ground lug and reattach it using the existing hardware; tighten to a maximum torque of 15.0 inch-lbs (1.7 Newton-meters).
  3. On the AC power shelf, use the Phillips screwdriver to secure the bracket to the available mounting position using the hardware provided.

2.5.1.2   Install AC Power Modules

Figure 9   AC Power Modules

Install AC power modules in the shelf:

  1. Open the front ejector (fan cover) of the power module by squeezing the latch spring and pulling open the ejector.
  2. Insert a module into one of the two center slots (2 and 3) in the shelf.
    Note:  
    AC power modules operate only from the two center slots of the AC power shelf.

  3. Push the module in until the right side of the ejector engages the receptacle slot in the shelf wall.
  4. Push closed the ejector lever until the module spring latch locks on the ejector to seat the module.
  5. Insert the second module into the other center slot and repeat steps 3 and 4.

2.5.1.3   Connect the AC Power Shelf to the Chassis

Figure 10   AC Power Connections


 Warning! 
Do not connect the AC power cords to the building outlets until you have completed the installation. If you connect the other end of the AC power cord to a building outlet, you power on the system; there is no ON/OFF switch on the AC power shelf.

Connect the shelf to the chassis:

  1. Unpack the two 6AWG red and two black DC jumper cables.
  2. Flip open the touch-safe lug landing cover on the left-side terminal block.
  3. Attach the short pair of red and black DC jumper cables to the left-side terminals—red cable to the top terminal (+) and black cable to the bottom one (-).
  4. Secure each connection with a pair of 1/4-20 lug nuts; tighten to a maximum torque of 62.0 inch-lbs (7 Newton-meters).
  5. Snap the cover shut.
  6. Attach the remaining ends to the bottom (BATTERY B) terminal block of the chassis—red cable to the top terminal (RETURN) and black to bottom one (-48V).
  7. Secure the connections with pairs of lock washers and lug nuts; tighten to a maximum torque of 62.0 inch-lbs (7 Newton-meters).
  8. Use the provided metal loops on the chassis to dress the cables with tie wraps.
    Note:  
    Dress the DC jumper cables so the push-through air filter and fan tray can be serviced from the rear of the chassis.

  9. Repeat this procedure for the right-side self connections using the long pair of DC jumper cables.
  10. Install the safety cover.
  11. Connect the control cable from J1 (right-side flat connector) on the shelf to the chassis connector labeled AC STATUS/CTL.

  12. Insert the AC power cords for each power module into connectors 2 and 3 on the shelf.

  13. Power on the chassis by connecting the AC power cords to separate 220 VAC building outlets, each of which must be for a circuit rated at 20A with a 20A circuit breaker.
    Note:  
    The AC power cords ship with North American plugs installed. If you are connecting to another type of service, simply remove the plugs and replace them with the appropriate plugs.

  14. Check the status LEDs located on the alarm card at the front of the chassis and the AC input power and DC output power LEDs on the front of each installed power module.

If you encounter problems installing the AC power shelf, contact your local technical support representative.

2.6   Card Slots

Figure 11   SmartEdge 600 Card Slots

Table 25    Slot Assignments for SmartEdge 600 Cards

Card

Slots Available

Controller

7, 8

ATM OC-12c/STM-4c


ATM OC-3c/STM-1c (any version)

1 to 6

10/100 Ethernet


Fast Ethernet–Gigabit Ethernet

1 to 6

20-port Gigabit Ethernet 1020(1)


Transceiver-based Gigabit Ethernet (any other version)

1 to 5


1 to 6

OC-192c/STM-64c

1 to 6

Advanced Services Engine

1 to 6

SmartEdge Storage Engine

1 to 6

(1)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


2.7   Install Cards

Figure 12   Installing Cards


 Warning! 
Risk of personal injury. Only qualified personnel must install and service the system and its components. To avoid injury, do not attempt to access any component inside the chassis.

 Caution! 
Risk of electrostatic discharge (ESD) damage. Always use an ESD wrist or ankle strap when handling the card. Do not attach the wrist strap to a painted surface. Avoid touching the card, components, or any connector pins.

 Caution! 
Risk of severe damage to your eyes. All versions of the optical cards are Class 1 products, which use lasers to convert electrical signals to optical signals that can damage your eyes. To reduce the risk when handling these optical cards, keep the connectors covered until you are ready to connect the fiber-optic cables. When you remove a cover, do not stare into the connector or directly view the laser beam emerging from the connector.

Install cards:

  1. Put on an ESD wrist strap, and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located on the front of the fan and alarm unit.
  2. Select the slot for the card.
  3. Remove the card from its antistatic bag. Save the bag for later use.
  4. Align the card with the card guides at the right and left sides of the slot.

     Caution! 
    Risk of equipment damage. If you feel any resistance, or hear the card touching the components on the card installed in the adjacent slot at the left, do not force the card into the slot. Ensure that the card is perpendicular to the slot. If you feel any resistance, slightly lift the bottom edge of the front panel until it can slide easily into the slot.
  5. Position the ejector levers away from the front panel and then carefully slide the card into the slot. The ejector levers rotate as the latching mechanisms engage the walls of the slot and the connectors on the card are inserted into the connectors on the backplane.
  6. Push on the ejector levers until they are parallel with the front panel; this action fully seats the connectors with the backplane.
  7. Secure the card in the chassis by tightening the screw at the top and bottom of the front panel. Use a Phillips screwdriver to tighten each screw to a maximum torque of 5.0 inch-lbs (0.6 Newton-meters).
  8. Repeat steps 2 to 7 for each card to be installed.

2.7.1   Install Blank Cards


 Caution! 
Risk of equipment damage. High temperature can damage router cards. Insert a blank card in each empty slot.

When all cards have been installed, insert a blank card into every empty slot, and tighten the captive screws at the top and bottom of the front panel.

2.7.2   Install Transceivers


 Caution! 
Risk of severe damage to your eyes. Do not stare into the connector or directly view the laser beam emerging from the connector. All versions of the optical cards are Class 1 products, which use lasers to convert electrical signals to optical signals that can damage your eyes. Keep the connectors covered until you are ready to connect the fiber-optic cables.

Install Transceivers

Figure 13   Installing a GBIC Transceiver

Figure 14   Installing an SFP Transceiver

Figure 15   Installing an XFP Transceiver

Gigabit Ethernet ports require a gigabit interface converter (GBIC), a small form-factor pluggable (SFP), or a 10-Gbps SFP (XFP) transceiver in each port; the port on an OC-192c/STM-64c card also requires an XFP transceiver.

Table 26    Transceiver Types for Line Cards

Line Card

Transceiver(1)

Supported Versions

Gigabit Ethernet (4-port)

GBIC

SX, LX, LX70, TX

Advanced Gigabit Ethernet (4-port)

GBIC

SX, LX, LX70, TX

ATM OC-3c/STM-1c (4-port)

GBIC

IR

Enhanced ATM OC-12c/STM-4c (1-port)

GBIC

IR

ATM OC-3c/STM-1c (8-port)

SFP

SR-0, IR-1

ATM OC-12c/STM-1c (2-port)

SFP

SR-0, R-1

POS OC-3c/STM-1c (8-port)

SFP

SR-0, IR-1

POS OC-12c/STM-4c (4-port)

SFP

SR-0, IR-1

POS OC-48c/STM-16c (4-port)

SFP

SR-1, IR-1, LR-2

Gigabit Ethernet 3 (4-port)

SFP

SX, LX, TX, ZX, BX-D-20, BX-U-20, CWDMnnnn, DWDMnn

Gigabit Ethernet 1020 (10-port)

SFP

SX, LX, TX, ZX, BX-D-20, BX-U-20, CWDMnnnn, DWDMnn

Gigabit Ethernet 1020 (20-port)(2)

SFP

SX, LX, TX, ZX, BX-D-20, BX-U-20, CWDMnnnn, DWDMnn

Gigabit Ethernet (5-port)

SFP

SX, LX, TX, ZX, BX-D-20, BX-U-20, CWDMnnnn, DWDMnn

Gigabit Ethernet (20-port) (2)

SFP

SX, LX, TX, ZX, BX-D-20, BX-U-20, CWDMnnnn, DWDMnn

Gigabit Ethernet DDR (10-port)

SFP

SX, LX, ZX, TX, BX-D-20, BX-U-20, CWDMnnnn, DWDMnn

10 Gigabit Ethernet (1-port)

XFP

SR, LR, ER, ZR, DWDMnn

10 Gigabit Ethernet DDR (4-port)

XFP

SR, LR, ER, ZR, DWDMnn, OTN-DWDMITUnn

10 Gigabit Ethernet/OC-192c DDR (1-port)

XFP

SR/SW, LR/LW, ER/EW, ZR/ZW, DWDMnn, OTN-DWDMITUnn, SR-1, IR-2, LR-2

SONET OC-192c/STM-64c (1-port)

XFP

SR-1, IR-2, LR-2

(1)  If the transceiver has not been qualified for use in the line card, the system displays a warning message.

(2)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.



 Stop! 
Risk of data loss. Install only transceivers approved by Ericsson. Transceivers that have not been properly tested with SmartEdge line cards can corrupt the system.

To install a transceiver of any type:

  1. Put on an antistatic wrist strap and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located on the front of the fan tray.

     Stop! 
    Risk of ESD damage. Always use an ESD wrist or ankle strap when handling any transceiver. Avoid touching its connector pins.
  2. Ensure that the latching mechanism is closed.
  3. With the transceiver connectors aligned with the RX and TX labels on the front panel of the line card (as shown in Figure 14 or Figure 15), slide the transceiver into the opening for the port until the rear connector is seated and the locking mechanism snaps into place.

    The labels for the TX and RX connectors vary by vendor. An arrow, which can be incised on the case, usually indicates the traffic direction.

  4. Remove the dust cover if you are installing an optical transceiver.

GBIC transceivers are supported only on ports the first and second versions of the Gigabit Ethernet line cards. SFP transceivers are supported only on ports on GE3 and GE1020 line cards. XFP transceivers are supported only on ports on 10GE line cards.

Note:  
Transceivers are hot-swappable; you can replace any transceiver without removing the Gigabit Ethernet card. However, you must shut down the port before performing the replacement procedure.

To remove a transceiver of any type:

  1. Shut down all activities on the port with the transceiver you want to replace. See related documentation at https://ebusiness.ericsson.net.
  2. Put on an antistatic wrist strap and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located on the front of the fan tray.

     Stop! 
    Risk of damage to fiber-optic cables. Never stop on a cable; never twist it when connecting it to or disconnecting it from a line card.
  3. Label and disconnect any cables attached to the transceiver you want to replace.

     Stop! 
    Risk of ESD damage. Transceivers contain electrostatic-sensitive devices. To reduce the risk of ESD damage, always use an ESD wrist or ankle trap when handling any transceiver. Avoid touching its connector pins.
  4. Release the latching mechanism:
    1. If the transceiver has a wire handle, unlatch it, and rotate it 90° to 180°.
    2. If the transceiver has latching tabs, squeeze and hold the tabs.
  5. Withdraw the transceiver from its port and insert a dust cover over the optical connectors.

2.7.3   Install CF Cards

Figure 16   Installing an External Storage Device

Each controller card has an external slot on the front panel in which you can install an optional Type I external storage device.

If you install an external storage device in the active controller card, the standby controller card, if installed, must also have an external storage device installed; however, the device types need not match. The XCRP4 controller card supports Type I devices only.

To install an external storage device:

  1. If you are installing the device in an XCRP4 controller card, open the door that covers the CF Type 1 slot until it “snaps” open.
  2. Hold the device so that its pin-hole side faces the slot in the controller front panel.
  3. Horizontally align the device as close to the bottom edge of the slot as possible and perpendicular to it.
  4. Slowly insert the device in the slot. If the device does not engage the connectors with approximately 0.5 inches (1.27 cm) of the device outside the slot, do not continue. Remove the device and repeat this step. Do not force the device into its slot. Check for one of the following conditions:

    Misaligned—Check the position and alignment as described in Step 3.

    Upside down—Remove the device and rotate it 180° and try again.

    Damaged—Remove the device and discard it. Do not use it in any other equipment.

    Damaged slot connectors—Replace the controller card.

  5. If you are installing the device in a controller card, close the door.

2.8   Connections for Management Access

Connecting a console terminal or management workstation to the SmartEdge 600 router is often a two-stage process. Initially the console terminal is connected to the Craft port (also referred to as the console port) to configure the Ethernet port (also referred to as the management port).

Configuring the management port and modifying the configuration of the console port is described in relevant documents at https://ebusiness.ericsson.net.

2.8.1   Management Workstation

Figure 17   Connections for a Management Workstation

A management workstation is connected to the SmartEdge 600 router using the Ethernet port on the front of a controller card. This type of connection provides access to the SmartEdge OS command-line interface (CLI) after you have configured the port.

Two types of connections are supported:

Neither type of connection is suitable during a reload operation, because the Ethernet port is disabled until the reload is complete.

2.8.2   Local or Remote Console Terminal

Figure 18   Connections for a Local or Remote Console

A local or remote console terminal is connected to the SmartEdge 600 router using the Craft port on the front of a controller card. This type of connection provides access to the operating system CLI, either directly or through a terminal server.

A null modem is needed when connecting this cable to a modem; it is not needed when connecting it to a PC or terminal server.

This port is always available; all system messages are directed to this port during a power on or reload operation.

Note:  
When you first power on the system, the active controller card is in slot 6. Thereafter, the slot changes whenever a switchover occurs.

2.9   Connections for External Timing Cables

Figure 19   Connections for External Timing Cables

An external timing cable provides a connection from an external synchronization source, such as a building integrated timing supply (BITS) or synchronization supply unit (SSU), to your system. Each cable consists of two individually shielded, twisted wire pairs: one pair for the synchronization input and another pair for the synchronization output.

The controller cards can receive timing data only.

Two connections are possible: one from a primary source and one from a secondary source. Either connection can provide timing for the entire chassis (input), regardless of the configuration of the controller cards.

An adapter, available as an option, provides wire wrap pins to allow you to attach a cable without a connector.

Note:  
The operating system does not support the status and control port.

2.10   Connections for Line Card Cables

All line card cables are connected to the front panels of the cards.

Table 27    Port Data for Line Cards

Line Card Type and Card Description

Physical Ports

Low-Density Version

Low-Density Port Numbers

Enhanced ATM OC-12c/STM-4c IR (1-port)


ATM OC-3c/STM-1c (4-port)


ATM OC-3c/STM-1c (8-port)

1


4


8

No


Yes


No


1, 3


10/100 Ethernet (12-port)


Fast Ethernet–Gigabit Ethernet (60-port FE, 2-port GE)


Gigabit Ethernet (4-port)


Advanced Gigabit Ethernet (4-port)


Gigabit Ethernet 3 (4-port)


Gigabit Ethernet 1020 (10-port)


Gigabit Ethernet 1020 (20-port)(1)


Gigabit Ethernet (5-port)


Gigabit Ethernet (20-port) (1)


10 Gigabit Ethernet (1-port)


10 Gigabit Ethernet (4-port)

12


60, 2


4


4


4


10


20


5


20


1


4

No


No


Yes


Yes


No


No


No


No


No


No


No


-


1, 3


1, 3








OC-192c/STM-64c (1-port)


OC-48c/STM-16c (4-port)

1


4

No


No


(1)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


2.11   Connect and Route Cables

Figure 20   Cable Routing

Cable connections are made with standard cables.


 Caution! 
Risk of severe damage to your eyes. All versions of the optical cards are Class 1 products, which use lasers to convert electrical signals to optical signals that can damage your eyes. Keep the connectors covered until you are ready to connect the fiber-optic cables. When you remove a cover, do not stare into the connector or directly view the laser beam emerging from the connector.

 Caution! 
Risk of damage to fiber-optic cables. These cables are fragile and are easily damaged when bent. Never step on a cable. Never twist it when connecting it to or disconnecting it from a line card.

Connect and route the cables:

  1. Put on an antistatic wrist strap, and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located in the lower right corner of the air intake panel on the front of the chassis.
  2. Connect and route the management access cables, depending on the type of management access you have selected. To connect and route the cables:
    1. Thread the system ends of the cables through the lowest opening in the cable management bracket at the right side of the card slot.
    2. Insert each cable in the appropriate connector on the card.
    3. Tie-wrap the cables from each controller card to form a bundle, and then tie each bundle to the rack.
  3. Starting with the line card installed in slot 6, connect and route the line card cables:
    1. Thread the system ends of the cables through an opening in the cable management bracket at the right side of the card slot. Select an opening that provides space for all cables to be connected to this card.
    2. Insert each cable in the appropriate connector on the card.
    3. Tie-wrap the cables to form a bundle, and then tie each bundle to the rack.
  4. Connect and route the breakout cables for the FE–GE line cards:
    1. Thread the MRJ21 connector end of a breakout cable through the cable management bracket at the right side of the card slot.
    2. Attach the breakout cable to the right-most connector to be cabled on an FE–GE line card. Position the connector so that the incised label “KEY” on the connector is on the bottom side of the connector as you face the chassis; see Figure 21.

       Caution! 
      Risk of equipment damage. The cable connector is keyed to ensure that you insert it with the correct orientation into the front panel connector. However, it is possible to force an incorrectly positioned cable connector into the connector on the front panel. To reduce the risk of overriding the key, ensure that the incised “KEY” label is on the left side of the connector.
    3. Tighten the captive screws without letting the front panel support the weight of the cable.

       Caution! 
      Risk of equipment damage. A breakout cable for the 60 10/100 ports on the FE–GE line cards is made of AWG #24 wire and includes individual cables for 12 ports; when connected to the FE–GE front panel, the cable weight can cause the front panel to be separated from the FE–GE printed circuit board. To reduce the risk, never allow the front panel to support the weight of the cable; support the cable and immediately route it before you connect another cable.
    4. Tie-wrap the breakout cable to the rack so that it supports the weight of the cable.
    5. Continue to connect and route the breakout cables for the other MRJ21 connectors on the card.
    6. Connect and route the cables for the GE ports on the FE–GE card as described in Step 3

       Caution! 
      Risk of equipment damage. You can damage the GE port cables if you thread them through the same opening in the cable management bracket that contains the breakout cables. To reduce the risk, use a different opening in the cable management bracket for the GE port cables.

Figure 21   Connecting an FE–GE Breakout Cable

2.12   Power On and Off the System


 Caution! 
Risk of equipment damage. Ensure that the fuses in the external fuse panel are suitably rated for the installation in accordance with the National Electrical Code (in the United States) or applicable local jurisdiction (outside the United States) installation requirements.

Power on a SmartEdge 600 router by inserting the fuses in the external fuse panel. The power LEDs on the front of the chassis light, depending on the power connections you have made, to signify that power is being supplied.

Figure 22   SmartEdge 600 Status LEDs

Table 28    SmartEdge 600 Status LEDs

Label

Activity

Color

Description

A, B

On

Green

The –48 VDC power source (primary or backup) is present:


  • A—Primary source

  • B—Backup source

Off

None

The –48 VDC power source (primary or backup) is absent.

 

FAN

On

Red

A failure condition exists in the fan tray.(1)

Off

None

The fan tray is fully functional.

 

(1)  The failure can be the result of either a nonfunctional fan or malfunctioning fan controller card; the failure condition can be detected by the power-on or ODD tests.


During the power-on sequence for a SmartEdge 600 router, the line cards are held in low-power mode until the operating system determines which slot has the active controller card. After the active controller card (and the standby controller card, if it is installed) are initialized, the operating system initializes the configured line cards starting with the lowest-numbered slot. If a line card is not configured, no power is allocated to it.

If the chassis power capacity is exceeded before all configured cards are initialized, the remaining cards are left in low-power mode. You must manually unconfigure one of the initialized line cards (using the no form of the card command in global configuration mode) before the operating system can initialize these power-denied cards. Because the power capacity check is always performed when line cards are configured from the CLI (using the card command or the port command in global configuration mode), no cards are denied power during the power-on sequence unless mismatched controller cards are installed.

If the active and standby controller versions are different, the operating system allocates power for both controller cards, initializes them, and issues a controller mismatch alarm.

The operating system always reserves enough power during system configuration so that if the system has only a single controller card installed, it is always possible to install a standby controller card of the same type at a later time.

To power off the system, remove all fuses in the fuse panel.

2.12.1   Power-On Diagnostics

Power-on diagnostics verify the correct operation of the controller cards, backplane, fan tray, and each installed line card during a power-on or reload sequence of the SmartEdge 600 router. These tests also run whenever a controller or line card is installed in a running system. The power-on diagnostics for each component consist of a series of tests, each of which can indicate a component failure.

During each test, the power-on diagnostics display results and status. If an error occurs during the testing of a card, the test lights the FAIL LED on the failing card but does not stop the loading of the operating system. A failure on the backplane or fan tray causes the FAN LED on the fan tray to light.

The maximum test time is 130 seconds: 60 seconds for a controller card, 10 seconds for the backplane and fan tray, and 5 seconds for each installed line card. If the system has two controller cards, the controller tests run in parallel.

To display results from power-on diagnostics, enter one of the following commands in any mode:

show diag pod component

show diag pod component detail

Table 29    Components Tested by POD

Component

Component Argument Values

Backplane

backplane

Controller card

card 7


card 8

Fan tray

fan tray

Line card

card n (slot number 1 to 6)

The detail keyword allows you to determine which test the component has failed.

In general, if a component fails to pass its power-on diagnostic tests, you need to replace it or make arrangements for its replacement. Contact your technical support representative for more information about the results of a failed test.

Power-on diagnostics are enabled by default in the operating system. If they have been disabled, you can enable them with the diag pod command in global configuration mode.

3   Hardware Control and Troubleshooting

The operating system command-line interface (CLI) includes commands that display hardware configuration and status information, allow hardware troubleshooting, and provide hardware control and recovery. You enter all commands through the management port or the console port on the active controller card. When the system is powered on or reloaded, the active controller card is in slot 7.

The modes in which you enter commands are as follows:

3.1   Hardware Status

The CLI commands listed in Table 30 display status information, such as power, temperature, ports, and alarms for the fan tray and individual cards and ports. Required characters and keywords are shown in bold; arguments for which you must supply a value are shown in italics. You can enter show commands in any mode.

For descriptions of the output for any CLI command, see related documentation at https://ebusiness.ericsson.net.

Table 30    CLI Commands for Hardware Status

Task or Information Needed

CLI Command

Comments

Status of power, temperature for all installed units

show hardware


show hardware detail

 

Status for all ports

show port


show port detail


show port counters


show port perf-monitor

 

Status of a specific port, including alarms

show port detailslot/port

 

Status of SFP and XFP transceivers

show port transceiver

 

Status of the SmartEdge Service Engine (SSE) card

show administrators


show chassis


show chassis power


show configuration


show configuration sse


show disk sse


show disk sse counters


show hardware


show sse {group | partition}


show sse counters


show system alarm sse

These show commands display a variety of information about the SSE card. The information contains software version information, system uptime, task information, configuration information, and current state of the card.

Status of all alarms at system, slot, port, and transceiver level

show system alarm

 

Status of alarms for specific slot, port, or transceiver

show system alarm all

When reporting alarms and warnings of the transceivers, the SFP transceivers must be compliant to SFF-8472 and the XFP transceivers must be compliant to INF-8077i.

The show system alarm all command reports the status of alarms for specific transceiver or SNMP trap system alarm, Transceiver alarm reporting (including corresponding SNMP traps) is disabled by default.

Status of alarms for specific transceiver or SNMP trap

system alarm

Transceiver alarm reporting (including corresponding SNMP traps) is disabled by default.

Status of the ASE card

show tech-support ase

Helps your technical support representative resolve issues on the ASE card. The command shows software version information, system uptime, task information, configuration information, and current state of each line card.

3.2   CLI Commands for Hardware Control

Required characters and keywords for commands are shown in bold; arguments for which you must supply a value are shown in italic.

Table 31    CLI Commands for Hardware Configuration and Control

Task or Information Needed

CLI Command

Comments

Shut down, restart hardware(1)

   

Shut down (disable) a port

port port-typeslot/port


shutdown

The shutdown command disables the port, but does not clear counters; use theclear port counters command to clear the counters for a specific port.

Restart the system (reload the controller)

reload

The reload command does not reset the hardware.

Restart a line card (reload its software)

reload card slot

 

Reload the SSE disk

reload disk slot_number_disk_num

 

Restart (enable) a port

port port-typeslot/port


no shutdown

 

Hardware data—Version, slot number, port number, physical layer interface, speed, mode, counters

Summary information

show chassis


show hardware


show port

 

Detailed information

show hardware fantraydetail


show hardware card slot slot detail


show port detail slot/port

 

Configuration data—Slots, ports

Summary information for each slot

show chassis

 

Current configuration information for all SSE groups

show configuration sse

 

Summary information for each SSE hard disk drive

show disk sse slot

 

Summary information for all SSE hard disk drive counters

show disk sse counters slot disk_num

 

Summary information for each installed line card

show port

 

Summary information for each installed transceiver

show port transceiver

 

Configuration for a specific port

show portslot/port detail

Use the all keyword to display data for all ports that are not installed.

Summary information for each installed SSE card

show sse { group [ group_name ] | partition [ partition_name ] }

 

Summary information for all SSE counters

show sse counters

 

Summary information for all SSE group and partition alarms

show system alarm sse{ group [ group_id ] | partition [ partition_id ] }

 

Shut down an SSE HD

shutdown disk disk_id

 

Summary information for all transceiver alarms

system alarm transceiver

When reporting alarms and warnings, the SFP transceivers must be compliant to SFF-8472 and the XFP transceivers must be compliant to INF-8077i.

(1)  Because the SmartEdge OS software synchronizes all write operations to the file system, you can power down the system without issuing the shutdown command.


3.3   CLI Commands for Hardware Troubleshooting

Required characters and keywords for commands are shown in bold; arguments for which you must supply a value are shown in italic.

Table 32    CLI Commands for Hardware Troubleshooting

Task or Information Needed

CLI Command

Comments

Clear counters for a port

clear port counters slot/port

The clear port counters command does not disable the port; use the shutdown command to disable the port.

Enable loopback on an ATM, an FE, or a GE port

port port-type slot/port


loopback loopback-type

No loopback type is specified for FE and GE ports.

Disable loopback on an ATM, an FE, or a GE port

port port-type slot/port


noloopback

 
Table 33    Loopback Types

Loopback Type

Description

No loopback type is specified for Ethernet and Gigabit Ethernet ports.

internal(1)

Loops the transmit line to the receive line; ATM OC and POS ports.

line

Loops the receive line to the transmit line; ATM OC and POS ports.

(1)  The internal keyword for all ports, except a port on a second-generation ATM OC card, causes all transmitted traffic to be looped back and not sent to the remote site; instead, the remote site receives a LOS. For a port on a second-generation ATM OC card, the port software injects an alarm indication signal-line (AIS-L), and then resumes transmitting traffic.


3.4   Values for CLI Input Arguments

Values for input arguments that are shown in bold must be entered in the specified format.

Table 34    Values for CLI Input Arguments

Argument

Range of Values/Description

Restrictions

loopback-type

See the table of loopback types and the ports to which they apply.

 

port

1 to 26.

The Ethernet management port is always port 1 in slot 1.

port-type

  • atm—ATM OC port.

  • ethernet—FE or GE port (any version).

 

slot

1—Slot in which the Ethernet management port is configured.


2—Slot for all native ports.

 
Table 35    Port Types

Port Type

Description

atm

ATM OC-3 or ATM OC-12 port

pos

OC-192c/STM-64c, POS OC-3c/STM-1c, POS OC-12c/STM-4c, and POS OC-48c/STM-16c

ethernet

Ethernet or Gigabit Ethernet port (any version)

3.5   Output Fields for the show chassis Command

Table 36    Output Fields for the show chassis Command

Field

Description

Current platform is

Chassis type: SE600.

Slot

slot—Slot number for this unit.

Configured type

Slot is configured for one of the following card types:


  • traffic-card-type—Line card is configured.(1)

  • xcrp—Controller card of any type or controller carrier card is configured.

  • ase—Advanced Services Engine.

  • sse—SmartEdge Storage Engine.

  • none—Slot is not preconfigured.

Installed type

Slot has card installed:


  • carrier—I/O carrier card; always reported for slot 2.

  • traffic-card-type—Line card is installed.

  • xcrp—Controller card of any type or controller carrier card is installed.

  • ase—Advanced Services Engine.

  • sse—SmartEdge Storage Engine.

  • none—Slot is empty.

  • unknown—Controller card is installed but not initialized.

Initialized

State of card:


  • No—PPAs have not been initialized for this card.

  • Yes—PPAs have been initialized for this card.

Flags

Status of card:(2) (3)


  • A—Active Crossconnet.

  • B—Standby Crossconnect.

  • C—All Segmentation And Reassembly Controllers (SARCs) Ready.

  • D—Default Line Card.(4)

  • E—Egress Packet Processing ASIC (EPPA) Ready.

  • G—Upgrading Field Programmable Gate Array (FPGA).

  • H—Card Admin State Shut Down.(5)

  • I—Ingress Packet Processing ASIC (IPPA) Ready.

  • M—FPGA Mismatch.(6)

  • N—SONET EU Enabled.

  • O—Card Admin State ODD.(7)

  • P1—ASP1 Ready.

  • P2—ASP2 Ready

  • R—Line card Ready.

  • S—Segmented Packet Processing ASIC (SPPA) Ready.

  • U—Card PPAs/ASP UP.

  • W—Warm Reboot.

  • X—XCRP Mismatch.

(1)  A line card is configured with the card command (in global configuration mode); it might not be installed.

(2)  A line card cannot be up (U flag) without being ready (R flag), but it can be ready without being up.

(3)  A line card is ready (R flag) when the card has been initialized and the code for the PPAs has been downloaded; it is up (U flag) when the PPAs on the card are registered with the requisite NetBSD process

(4)  The default line card processes packets sent to it from the active controller card. For a description of the functions of the default line card, see related documentation at https://ebusiness.ericsson.net.

(5)  A line card is administratively shut down with the shutdown command (in card configuration mode).

(6)  The version of the FPGA that is installed on this line card and the version that is shipped with this release of the SmartEdge OS do not match; you must update the FPGA on this line card for it to successfully initialize. To upgrade the FPGAs on this line card, see the Release Notes for the release that is installed on this SmartEdge router.

(7)  A line card is placed in the ODD state with the on-demand diagnostic command (in card configuration mode).


Table 37    Line, Services, and Controller Card Types

Card Type(1)

Description

atm-oc3e-8-port

ATM OC-3c/STM-1c card (8-port)

atm-oc3-4-port

ATM OC-3c/STM-1c card (4-port)

atm-oc12e-2-port

ATM OC-12c/STM-4c card (2-port)

atm-oc12e-1-port

Enhanced ATM OC-12c/STM-4c card (1-port)

oc3e-8-port

POS OC-3c/STM-1c card (8-port)

oc12e-4-port

POS OC-12c/STM-4c card (4-port)

oc48e-4-port

POS OC-48c/STM-16c card (4-port)

oc192-1-port

OC-192c/STM-64c card (1-port)

ether-12-port

10/100 Ethernet card (12-port)

fege-60-2-port

Fast Ethernet–Gigabit Ethernet card (60-port FE, 2-port GE)

ge-4-port

Gigabit Ethernet card (4-port)

gigaether-4-port(2)

Advanced Gigabit Ethernet card (4-port)

ge3-4-port

Gigabit Ethernet 3 (GE3) card (4-port)

ge-10-port

Gigabit Ethernet 1020 (GE1020) card (10-port)

ge-20-port(3)

Gigabit Ethernet 1020 (GE1020) card (20-port)

ge-5-port

Gigabit Ethernet (5-port)

ge4-20-port (3)

Gigabit Ethernet (20-port)

ge2-10-port

Gigabit Ethernet (GE) DDR card (10-port)

10ge-1-port

10 Gigabit Ethernet (10GE) card (1-port)

10ge-4-port

10 Gigabit Ethernet (10GE) DDR card (4-port)

10ge-oc192-1-port

10 Gigabit Ethernet (10GE) / OC-192c/STM-64c DDR card (1-port)

ase

Advanced Services Engine

sse

SmartEdge Storage Engine

xcrp4-base

XCRP4 Controller card with a software-configurable interface to external timing equipment (BITS or SSU) and 8 GB of memory

(1)  The same card type is also displayed for the low-density version of a line card.

(2)  For the second version of the GE card, the show hardware command (in any mode) with the detail keyword displays gigaether-4-port-adv as the card type.

(3)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


3.6   Output Fields for the show disk Command

Table 38    Output Fields for the show disk Command

Field

Description

Location

Location of the storage device:


  • internal—Internal-storage device (compact-flash card) typically installed in a slot

  • external—External-storage device installed in an external slot

512-blocks(1)

Size of the file system in 512-byte blocks:


  • 362,526—192-MB internal compact-flash card, root file system

  • 484,079—256-MB internal compact-flash card, root file system

  • 968,158—512-MB internal compact-flash card, root file system

  • 1,021,244—1-GB mass-storage device, /md file system(2)

Used

Number of blocks in use

Avail

Number of blocks available

Capacity

Percentage of blocks used in the file system, calculated using the number of usable blocks (Used + Avail)(3) (4)

Mounted on

Device on which the file system is mounted:


  • /—Internal compact-flash card

  • /md—Mass-storage device in the external slot

(1)  The size of the root file system includes the sizes of the /flash file system and the p0 and p1 partitions on the internal-storage device.

(2)  The size of the /md file system does not include the partition for SmartEdge OS core dumps on the external storage device; the partition for core dumps is approximately 500 MB.

(3)  The number of usable 512-byte blocks (the sum of the Used and Avail fields) on a storage device is approximately 95% of the number of 512-byte blocks.

(4)  The capacity of an external storage device can decrease slightly over time if sectors are marked as unusable (cannot be read or written).


3.7   Output Fields for the show hardware Command

This command displays information only for those units that are installed in the chassis.

Table 39    Output Fields for the show hardware Command

Field

Description

Fan(s) Status

  • Failed—At least one fan is not working.

  • Normal—All fans are working.

Power Supply A1 Status


Power Supply A2 Status


Power Supply B1 Status


Power Supply B2 Status

  • No Power—Power has failed, is disconnected, or is not installed.

  • Normal—Power is being supplied by this power supply.

Active Alarms

Alarm conditions for this unit:


  • NONE—No alarm conditions exist.

  • condition—Alarm condition is in effect.


For a complete list of conditions that can cause an alarm, see the Troubleshoot with System Power and Alarm LEDs section.

Slot

  • slot—Slot number for this unit.

  • N/A—No slot number for this unit.

Type

Unit:


  • backplane—Backplane.

  • traffic-card-type—Line card is configured.(1)

  • fan tray—Fan tray is installed.

  • unknown—Card is inserted but not initialized.

Mfg Date

dd/mm/yyyy—Date unit was manufactured.

Voltage

  • N/A—Voltage is not applicable for this unit.

  • NOT OK—Voltage for this card is outside its operating range.

  • OK—Voltage for this card is within its operating range.

Temperature

  • Cold—Temperature is colder than normal.

  • Normal—Temperature is within normal operating range for this unit.

  • Hot—Temperature is hotter than normal.

  • Extreme—Temperature is much hotter than normal.

  • N/A—Temperature does not apply to this unit.


Table 42 lists descriptions of each temperature condition.


Table 43 lists temperature ranges for card types.

(1)  A line card is configured with the card command (in global configuration mode); it might not be installed.


This command displays information only for those units that are installed in the chassis, and in most cases, displays only the fields that are applicable to the type of card.

Table 40    Product Code for SmartEdge 600 Chassis

Product Code

Chassis Model

H1

SmartEdge 600 chassis.

Table 41    Output Fields for the show hardware Command with the detail Keyword

Field

Description

Active Alarms(1)

Alarm conditions for this unit:


  • NONE—No alarm conditions exist.

  • condition—Alarm condition is in effect.


For a complete list of conditions that can cause an alarm, see the Troubleshoot with System Power and Alarm LEDs section.

Card Status

For line cards only:


  • FPGA mismatch—Card needs an FPGA upgrade.

  • FPGA upgrade—FPGA upgrade has been started.

  • HW detected—Card is detected and being initialized.

  • HW failure—Card has experienced a failure.

  • HW initialized—Card is initialized and ready.

Chassis Entitlement

Type of chassis for which this card is intended:


  • All—Card is entitled in every chassis.

  • List of chassis, separated by slashes (/)—Listed chassis only.

Chassis Type

SE600—SmartEdge 600 chassis.

DimFpga rev DimFpga file rev

Dim FPGA revision and file revision; N/A or not displayed if not applicable for this card.

EEPROM id/ver

nnnn/n—Version of the unit EEPROM.

EPPA memory

nnn MB—Size of ingress and egress PPA memory.

Fan Tray Status

  • Present—Fan tray is installed.

  • Not Present—Fan tray is not installed or not working.

Fan(s) Status

  • Failed—At least one fan is not working.

  • Normal—All fans are working.

FlipFpga rev

FLIP FPGA revision and file revision; N/A or not displayed if not applicable for this line card.

ForteFpga rev

Forte FPGA revision and file revision; applicable to XCRP only. This FPGA controls power on/reset for all devices.

Hardware Rev

n—Hardware revision level for this unit; single digit.

HubFpga rev


HubFpga file rev

Hub FPGA revision and file revision; N/A or not displayed if not applicable for this card.

IPPA memory

nnn MB—Size of ingress and egress PPA memory.

ITU ch

International Telecommunications Union (ITU) channel number (corresponds to the wavelength displayed in the Wavelength field); not displayed if not applicable for the transceiver installed in this port.

LEDs

State of Fail, Active, Standby, and Sync LEDs:


  • Blink—ODD test is in progress.

  • On—LED is lit.

  • Off—LED is not lit.


Sync LED is for controller cards only.

LimFpga rev

LIM FPGA revision and file revision; N/A or not displayed if not applicable for this line card.

MAC Address

nn:nn:nn:nn:nn:nn—Medium access control (MAC) address of the system (stored in the EEPROM); displayed using the backplane keyword only.

MaxFpga rev

Max FPGA revision and file revision; applicable to XCRP controller card only. This FPGA controls access to the CPU bus.

Memory

Memory for which this controller card is entitled:


  • Max—All memory on the controller card is enabled.

  • nnnn MB—Size in MB of enabled memory.

Mfg Date

dd/mm/yyyy—Date this unit was manufactured.

MinnowCPLD Ver

Minnow CPLD revision; applicable to the SmartEdge 100 chassis slot 1 only.

ODD Status

Status of the on-demand diagnostics (ODD) tests:


  • Aborted—The session was terminated by the user or by the standby controller card being removed.

  • Incomplete—At least one of the requested tests could not be run.

  • In-progress—Session is currently in progress.

  • Not available—No session of the ODD has been run for this unit.

  • Passed—All tests have passed.

  • n Failure(s)—One or more tests have failed.

OpusFpga rev

Opus FPGA revision and file revision; applicable to XCRP only. This FPGA manages peripherals such as the front panel LEDs and the CRAFT ports.

POD Status

Status of the power-on diagnostics (POD) tests:


  • Success—Unit passed all POD tests.

  • Failure—Unit failed one or more POD tests.

Port

n—Port number if hardware data is port specific; not displayed if not applicable for this card.

Ports Entitled

List of ports that are entitled on this line card:


  • n1, n2, n3,...—Entitled ports.

  • All—All physical ports on the line card are entitled.

Power Supply A1 Status


Power Supply A2 Status


Power Supply B1 Status


Power Supply B2 Status

Status of the power supply modules:


  • No Power—Power has failed, is disconnected, or is not installed.

  • Normal—Power is being supplied by this power supply.

RedbackApproved

State of transceiver testing for this SFP optical transceiver in SmartEdge routers:


  • No—Not tested.

  • Yes—Tested.

RxPwrMin[dbm](2)


RxPwrMax[dbm]

-nn.nn—Receiver sensitivity (minimum) and overload level (maximum) for the version of the SFP transceiver installed in this port.

S3Fpga rev

S3 FPGA revision and file revision; applicable to XCRP only. This FPGA manages the control and phase alignment of the Stratum-3 PLL.

SAR Image Type

ATM mode currently loaded on the applicable ATM OC line cards:(3)


  • atm priority—ATM priority mode.

  • ip-priority—IP priority mode.

  • vc-fair—Virtual circuit (VC) fairness mode.

  • hsvc-fair—Hierarchical shaping virtual circuit (HSVC) fairness mode.

SAR Image Version

n.n.n.n—Version of the image.

SARC memory

nnn MB—Size of segmentation and reassembly controller (SARC) memory; applicable to ATM line cards only.

SARC status

Status of the segmentation and reassembly controller (SARC):


  • OK—SARC is ready.

  • Not Ready—SARC is not ready.

  • Unknown—Unable to read SARC status.

SCC id

ID for the system communication controller (SCC) ASIC on a controller card; the SCC controls and communicates with the line cards.

Serial No

nnnnnnnnnnnnnn—Unique identifier for this unit; 14 alphanumeric characters.

SFP / Media type

SFP Transceivers—Ethernet line cards:


  • FX / MM—Short reach transceiver, multimode fiber.

  • LX10 / SM—Long reach transceiver, single-mode fiber.

  • SX / MM—Short reach transceiver, multimode fiber.

  • LX / SM—Long reach transceiver, single-mode fiber.

  • ZX / SM—Extended long reach transceiver, single-mode fiber.

  • BX / SM—Bidirectional transceiver, single-mode fiber.

  • T / Cat5—Copper-based transceiver.

  • CWDM / SM—Coarse wavelength-division multiplexing (CWDM) transceiver, single-mode fiber.

  • DWDM / SM—Dense wavelength-division multiplexing (DWDM) transceiver, single-mode fiber.

SFP transceivers—SONET/SDH OC-n (OC-48c/STM-16c, OC-12c/STM-4c, and OC-3c/STM-1c) cards:


  • SR / MM—Short reach transceiver, multimode fiber.

  • SR / SM—Short reach transceiver, single-mode fiber.

  • IR / SM—Intermediate reach transceiver, single-mode fiber.

  • LR / SM—Long reach transceiver, single-mode fiber.

SFP Serial No

nnnnnnnnnn—Unique identifier for this transceiver; 10 alphanumeric characters.

Slot

  • slot—Slot number for this unit.

  • N/A—No slot number for this unit.

SlipFpga file rev

SLIP FPGA revision; applicable to the SmartEdge 100 I/O carrier card functions only (slot 1).

SpiFpga file rev

System Packet Interface File revision.

SpiFpga rev

System Packet Interface Fpga.

SXC id

ID of the SONET cross-connect (SXC) ASIC on a controller card; the SXC cross-connects traffic between some line cards.

SysFpga rev

System FPGA revision and file revision; N/A or not displayed if not applicable for this line card.

Temperature

Temperature condition and actual temperature reading in degrees Celsius:


  • Cold—Temperature is colder than normal.

  • Normal—Temperature is within normal operating range for this unit.

  • Hot—Temperature is hotter than normal.

  • Extreme—Temperature is much hotter than normal.

  • N/A—Temperature does not apply to this unit.


Table 42 lists descriptions of each temperature condition.


Table 43 lists temperature ranges for card types.

TxPwrMin[dbm] (2)


TxPwrMax[dbm]

-nn.nn—Transmitter optical output power (minimum and maximum) for the version of the SFP transceiver installed in this port.

Type

Unit:


  • backplane—Backplane.

  • card type—Card is installed.

  • fan tray—Fan tray is installed.

Voltage

Readings for voltage sources 1.5V, 1.8V, 2.6V, and 3.3V along with the percentage over or under the nominal value.

Wavelength (2)

Center wavelength for the version of the SFP optical transceiver installed in this port:


  • 0.00 [nm]—Wavelength is not reported by this transceiver.

  • nnnn.nn [nm]—Wavelength for this transceiver version.


See Transceivers for SmartEdge and SM Family Line Cards for wavelength data for each type of transceiver and its versions.

XFP / Media type

10-Gbps SFP (XFP) transceivers—10-GE and SONET OC-192 line cards:


  • SR / SM—Short reach transceiver, single-mode fiber.

  • SW / SM—Short reach transceiver, single-mode fiber.

  • SR / MM—Short reach transceiver, multimode fiber.

  • IR / SM—Intermediate reach transceiver, single-mode fiber.

  • LR / SM—Long reach transceiver, single-mode fiber.

  • LW / SM—Long reach transceiver, single-mode fiber.

  • ER / SM—Extended long reach transceiver, single-mode fiber.

  • EW / SM—Extended long reach transceiver, single-mode fiber.

  • ZR / SM—Extreme reach transceiver, single-mode fiber.(4)

  • ZW / SM—Extreme reach transceiver, single-mode fiber. (4)

  • DWDM / SM—Dense wavelength-division multiplexing (DWDM) transceiver, single-mode fiber.(5)

  • 10000Base-DWDM—OTN-DWDMITU transceiver, single-mode fiber.(6)

(1)  Alarm severities conform to the definitions provided in Generic Requirements, GR-474-CORE, Issue 1, December 1997, Network Maintenance: Alarm and Control for Network Elements.

(2)  Measured or reported values meet or exceed the transceiver specifications that are documented in Transceivers for SmartEdge and SM Family Line Cards.

(3)  The 8-port ATM OC-3c/STM-1c (atm-oc3e-8-port) line card only supports the “vc-fair" and "hsvc-fair" atm modes.

(4)  Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

(5)  In Releases 6.1.4 and 6.1.5, 10GE DWDM XFP transceivers support only ITU channels 35,36,37,53,and 54.

(6)  In Release 6.4.1, OTN-DWDMITU XFP transceivers support only ITU channels 35,36,37,53,and 54.


Table 42    Definitions of Temperature Conditions

Condition

Description

COLD

Expected when the system first powers up in a cool or well air-conditioned environment.

NORMAL

Normal operating temperature.

HOT

The card is running above normal operating temperature. The lifespan of the card will likely be reduced if this condition persists. The ambient temperature of the room could be too hot, or the chassis air filter or fans might need cleaning or replacing.


When the card temperature is greater than TEMP_HOT for longer than 5 minutes, the system generates a minor alarm; if the condition persists longer than one hour, it generates a major alarm.

EXTREME

The card is running well above normal operating temperature. The lifespan of the card will be reduced if this condition persists. The ambient temperature of the room is likely too hot, or the chassis air filter or fans might need cleaning or replacing.


When the card temperature reaches TEMP_EXTREME, the system generates a major alarm.

N/A

Temperature does not apply to this unit, or this unit does not have a built-in temperature sensor.

Table 43    Temperature Ranges for Card Types

Card Type

Temperature Ranges

atm-oc3e-8-port


atm-oc12e-2-port


oc3e-8-port


oc12e-4-port


oc48e-4-port

COLD 20°C


NORMAL = 20 - 71°C


HOT = 72 - 93°C


EXTREME 94°C

atm-oc3-4-port


atm-oc12e-1-port


ether-12-port


ge-4-port


gigaether-4-port

COLD 20°C


NORMAL = 21 - 70°C


HOT = 71- 80°C


EXTREME 81°C

oc192-1-port


ge-10-port


ge-20-port(1)


ge3-4-port


ge-5-port


ge2-10-port


10ge-1-port


10ge-oc192-1-port

COLD 20°C


NORMAL = 21 - 84°C


HOT = 85 - 94°C


EXTREME 95°C

fege-60-2-port

COLD 20°C


NORMAL = 21 - 89°C


HOT = 90 - 103°C


EXTREME 104°C

ge4-20-port TX-SFP7


10ge-4-port

COLD 20°C


NORMAL = 21 - 85°C


HOT = 86 - 103°C


EXTREME 104°C

ase

COLD 20°C


NORMAL = 21 - 70°C


HOT = 71- 76°C


EXTREME 77°C

sse

COLD 20°C


NORMAL = 21 - 75°C


HOT = 76- 80°C


EXTREME 81°C

xc4

COLD 20°C


NORMAL = 21 - 90°C


HOT = 91- 100°C


EXTREME 100°C

(1)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


The system displays the actual temperature reading in degrees Celsius with the show hardware command (in any mode) with the detail keyword.

3.8   Output Fields for the show port Command

Table 44    Output Fields for the show port Command

Field

Value/Description

Slot/Port

slot/port—Slot and port numbers for this port.

Type

port-type

State

Port status (combination of the Admin state and Line state fields):


  • Down—Port has been configured to be Up, but is not working.

  • Down - not entitled—Port is on the low-density version of the line card and is not available.

  • No card—Port has been configured, but the card is not installed.

  • Unconfigured—Port is not configured and down.

  • Up—Port is working (active).

Table 45    Port Types

Port Type

Description

atm

ATM OC-12c/STM-4c or ATM OC-3c/STM-1c

pos

OC-192c/STM-64c, POS OC-48c/STM-16c, POS OC-12c/STM-4c, or POS OC-3c/STM-1c

ethernet

Ethernet or GE port (any version)

transceiver

SFP or XFP transceivers port

Not all fields apply to all types of ports; in most cases this command displays only the fields that are applicable to the type of port. The “Type” and “Slot/Port” field names are not displayed in the output.

Table 46    Output Fields for the show port Command with the detail Keyword

Field

Value/Description

Header

Type

port-type or channel-type.

Slot/Port

slot/port—Slot and port numbers for this port.

State

Port status (combination of the and fields) for a line card:


  • Down—Port has been configured to be up, but is not working.

  • Down—not entitled—Port is on the low-density version of the line card and is not available.

  • No card—Port has been configured, but the card is not installed.

  • Unconfigured—Port is not configured and down.

  • Up—Port is working (active).

Port Parameters (in alphabetical order)

Active Alarms

  • getting LOS—Alarm is present.

  • getting ATM LCD—Alarm is present.

  • N/A—Not applicable to this type of port.

  • NONE—No alarms are present.


For a complete list of conditions that can cause an alarm, see the Troubleshoot with System Power and Alarm LEDs section.

Admin state

State of the port as a result of an operator command:


  • Down—Port is not working.

  • Unconfigured—Port is not configured and down.

  • Up—Port is working (active).

APS Group Name

Automatic Protection Switching group name.

ATM MTU size

nnnnn bytes—Size of the hardware maximum transmission unit (MTU) (not configurable).

ATM Payload Scramble

Condition of scrambling for ATM port (on or off).

Auto negotiation

Two-part string for the setting and state fields. Possible values for the setting field are:


  • enabled

  • disabled

Possible values for the state field are:


  • negotiating—Ethernet drivers are in the process of auto-negotiating with the remote peer

  • success—Auto-negotiation was successful

  • fail—Auto-negotiation failed

  • force—Auto-negotiation failed and the port is in forced mode

  • unknown—This is an error state

The possible combinations of the setting and state fields are:


  • disabled-unknown

  • disabled-negotiating

  • disabled-success

  • disabled-force

  • enabled-unknown

  • enabled-negotiating

  • enabled-success

  • enabled-fail

Bandwidth

nnnnnn kbps—Speed of SONET/SDH port.


nnn.nn Mbps—Effective speed of ATM port.

Cable Length

nnn—Configured length and type (short or long, depending on configured length).

CCOD Mode

State of CCOD mode port listening:


on—Port listening mode is enabled.


off—Port listening mode is disabled.

Clock Source(1)

State of source of the transmit clock:


global-reference—system clock on the active controller card.(2)


local—local clock located on the line card (onboard clock).(3)


loop—receive clock derived from the incoming signal on the port.


card-reference—clock source that has been specified for the line cards.

Crc

Configured value of the cyclic redundancy check for a SONET/SDH port (16 or 32).

Dampening Count

n—Number of instances this link-dampened port went down and came up within the limits set by the link-dampening command. This count is reset only when the port is removed from the configuration with the no form of the port command (in ATM OC or port configuration mode).

Description

Configured description.

Diag Monitor

  • No—SFP cannot monitor its faults nor report power readings

  • Yes—SFP can monitor its faults and report power readings

DSU Bandwidth

nn.nn Mbps—Bandwidth of configured data service unit (DSU).

DSU Mode

digital-link—Configured vendor of DSU.

DSU Scramble

DSU scramble condition (on or off).

Duplex Mode

  • full—Port condition, Ethernet or Gigabit Ethernet (any version).

  • half—Port condition,10/100 Ethernet only.

Encapsulation

The encapsulation for this port:


  • 802.1q

  • atm

  • cisco-hdlc

  • ethernet

  • frame-relay

  • ppp

FEAC code received

Far end alarm condition (of the remote system):


  • Service affecting (SA) equipment failed.

  • Nonservice affecting (NSA) equipment failed.

  • Common equipment failed.

  • N/A or NONE—No alarm condition received.

Flow control

Condition of flow control for Gigabit Ethernet port, any version, (on or off).

Framing

Configured framing for the port:


  • c-bit

  • g751

  • m23

  • ESF

  • SF

  • sdh (an option of ATM OC, POS, and WAN-PHY ports)

  • sonet (an option of ATM OC, POS, and WAN-PHY ports)

Idle Character

Configured idle character (flags or marks).

Keepalive

State of keepalive timer:


  • Not Set—Keepalive timer is not configured.

  • Set (n sec)—Keepalive timer is set for n seconds.

Line SD BER

10E-5 to 10E-9—Signal degrade bit error rate for SONET/SDH port.

Line SF BER

10E-3 to 10E-5—Signal fail bit error rate for SONET/SDH port.

Line state

Physical state of the line:


  • Down—Port has been configured to be up, but is not working.

  • Down— not entitled—Port is on the low-density version of the line card and is not available.

  • No card—Port has been configured, but the card is not installed.

  • Unconfigured—Port is not configured and down.

  • Up—Port is working (active).

Link Dampening

For ATM, Ethernet, and POS ports only. Status of link dampening:


  • enabled—Link dampening is enabled.

  • disabled—Link dampening is disabled.

Link up delay

nnnnn msec—Configured or default value (in milliseconds) for the delay time for down-to-up transitions.

Link down delay

nnnnn msec—Configured or default value (in milliseconds) for the delay time for up-to-down transitions.

Link Distance

For Gigabit Ethernet ports with single-mode fiber (SMF) transceivers (LX or LX70) only. Distance supported by the installed transceiver:


  • n—Distance supported by the transceiver.

  • N/A—No transceiver installed or transceiver does not report the distance supported.

Loopback

Type of loopback:


  • internal—Loops transmit to receive to test the port.

  • line—Loops receive to transmit to test the connection.

  • none, off—Loopback is not enabled.

MAC address

nn:nn:nn:nn:nn:nn—Medium access control address for this port.

Media type

Physical interface:

  • 100Base-TX—10/100 Ethernet or Ethernet management port (at either 10 or 100 Mbps).

  • 1000Base-LX—Long reach SFP or Gigabit interface converter (GBIC) transceiver.

  • 1000Base-LX70—Extended reach GBIC transceiver.

  • 1000Base-SX—Short reach SFP or GBIC transceiver.

  • 1000Base-T—Copper-based SFP, or GBIC transceiver or GE port on an FE-GE line card.

  • 1000Base-SR—Short reach SFP transceiver.

  • 1000Base-IR—Intermediate reach SFP transceiver.

  • 1000Base-LR—Long reach SFP transceiver.

  • 1000Base-CWDM—Coarse wavelength-division multiplexing (CWDM) SFP transceiver.

  • 1000Base-DWDM—Dense wavelength-division multiplexing (DWDM) SFP transceiver.

  • 10GE-SR (Displays 10000Base-SR)—Short reach XFP transceiver (10GE or OC-192c/STM-64c port).

  • 10GE-SW (Displays 10000Base-SW).

  • 10GE-SR+10GE-SW (Displays 10000Base-SR for LAN-PHY) or 10000Base-SW for WAN-PHY.)

  • 10GE-IR—Intermediate reach XFP transceiver (OC-192c/STM-64c port).

  • 10GE-LR (Displays 10000Base-LR.)—Long reach XFP transceiver (10GE or OC-192c/STM-64c port).

  • 10GE-LW (Displays 10000Base-LW).*

  • 10GE-LR+10GE-LW (Displays 10000Base-LR for LAN-PHY) or 10000Base-LW for WAN-PHY.)

  • 10GE-ER (Displays 10000Base-ER.)—Extended reach XFP transceiver (10GE port).

  • 10GE-EW (Displays 10000Base-EW).

  • 10GE-ER+10GE-EW (Displays 10000Base-ER for LAN-PHY) or 10000Base-EW for WAN-PHY.)

  • 10GE-ZR (Displays 10000Base-ZR for LAN-PHY) or 10000Base-ZW for WAN-PHY.)—Extreme reach XFP transceiver (10GE or OC-192c/STM-64c port).

  • 10GE-DWDM (Displays 10000Base-DWDM)—Dense-wavelength-division-multiplexing (DWDM) XFP transceiver.

  • No GBIC—GBIC transceiver is not installed in this GE port.

  • No transceiver—XFP transceiver is not installed in this 10GE or OC-192c/STM-64c port.

  • Sonet OCn —SONET/SDH OC-n (OC-3c/STM-1c, OC-12c/STM-4c, or OC-48c/STM-16c) port.

  • unknown—Unknown type of transceiver is installed in this Gigabit Ethernet port.

Mini-RJ21 Connector

Ports n1-n2—Range of port numbers for this connector on an FE-GE line card.

MTU size

nnnn Bytes—Configured size of the MTU for the port.

NAS Port Type

  • Configured network access server (NAS) port type for an ATM OC, Ethernet, Gigabit Ethernet, or POS port only. For a list of NAS port types, see related documentation at https://ebusiness.ericsson.net.

  • blank—Not configured or not applicable to this port.

Optical Transport(4)

  • otu2e—An OTN XFP is inserted.

  • NONE—No optical transport

Over Subscription Rate

Configured value for over subscription:


  • nnnn%

  • Unlimited

QoS Rate Maximum(5)

QoS port-rate limiting value:(6)


  • 50 to 149 Mbps.

  • Payload line-rate (150 Mbps).

Path Alarms

  • N/A—Not applicable to this type of port.

  • NONE—No alarms are present.


For a complete list of conditions that can cause an alarm, see the Troubleshoot with System Power and Alarm LEDs section.

Path Trace Length

The maximum size that the TX path trace message can be set to.

Physical Layer(7)

  • lan-phy

  • wan-phy

PPPoE PADO Delay

State of PADO delay:


  • Not set—PADO delay is not configured.

  • Set (n sec)—PADO delay is configured for n seconds.

Rx path-trace

Received path trace data.

Report Only Alarms

State of alarm reporting for an ATM OC port:


  • Path alarms (report only): Payload label mismatch (PLM)

  • Path alarms (report only): Path unequipped (UNEQ)


Alarm is reported, but the port is not shut down.

Scramble

Status of X^43 + 1 payload scrambling for a POS port (on or off).

Speed

  • nnn Mbps—Speed of the 10/100 Ethernet port.

  • nn Gbps—Speed of the Gigabit Ethernet port (any version).

  • auto—Speed of the 10/100 Ethernet port has been determined by sensing the line.

Support Lossless Large MTU

Status of this FE port on an FE-GE line card with regard to guaranteed lossless flow control for jumbo frames:


  • Disabled—Port supports this feature but is not enabled for it.

  • Enabled—Port is enabled for this feature.

  • Not Configurable—Port does not support this feature.

  • Shutdown—Port is a member of a port group that is enabled for this feature and has been shut down because it does not support it.

Temperature

SFP Transceiver temperature

Tx C2 byte Rx C2 byte

Value of the C2 byte:


  • ATM OC ports—0x13.

  • POS ports—0x16 or 0xcf.

Tx Fault Rx Fault

Fault status for the transmit or receive side of the SFP transceiver installed in this port:


  • LowPwrWarning—Measured power has dropped below the level needed by the transceiver to maintain connectivity without errors.

  • NoFault—No power fault has occurred.

  • PwrFault—Measured power is outside the range displayed in the PwrMin and PwrMax fields by the show hardware command (in any mode) with the detail keyword.

Tx National bit Rx National bit

Value of the national bit (bit 12 of set 1) in the E3 frame:


  • Enabled

  • Disabled

Tx path-trace

Transmitted path trace data.

Tx Pwr measured [dbm](8) Rx Pwr measured [dbm]


Rx Pwr measured [dbm]

Current receiver sensitivity and transmitter output power for the SFP transceiver installed in this port.

Undampened line state

  • Up—Port is working (active).

  • Down—Port has been configured to be up, but is not working.

Vcc Measured

SFP Transceiver Vcc

Wavelength (8)

Center wavelength for the version of the SFP optical transceiver installed in this port:


  • 0.00 [nm]—Wavelength is not reported by this transceiver.

  • nnnn.nn [nm], ITU ch nn—Wavelength and International Telecommunications Union (ITU) channel number (if applicable) for this transceiver version.


For wavelength data for each type of transceiver and its versions, see Transceivers for SmartEdge and SM Family Line Cards for the SmartEdge OS.

Yellow Alarm Detection

Yellow alarm detection condition (on or off).

Yellow Alarm Generation

Yellow alarm generation condition (on or off).

(1)  Changes to the clock source setting will not cause LOF on the 8-port ATM OC-3c/STM-1c.

(2)  This is the default card clock source on the 8-port ATM OC-3c/STM-1c card.

(3)  This is the default card clock source on previous ATM cards, except for the 8-port OC-3c/STM-1c card.

(4)  This field is only applicable for the 10G LAN-PHY port type.

(5)  Only supported in hsvc-fair mode on the 8-port ATM OC-3c/STM-1c (atm-oc3e-8-port) line card. When executed in vc-fair mode, an error message occurs if executed with any value other than 150 Mbps.

(6)  When Payload line-rate (150 Mbps) is selected, the actual line-rate received is 149.76 Mbps.

(7)  This field is only applicable for the line cards that support WAN-PHY mode.

(8)  Measured or reported values meet or exceed the transceiver specifications that are documented in Transceivers for SmartEdge and SM Family Line Cards.


3.9   Output Fields for the show port transceiver Command

Not all fields apply to all types of ports; in most cases this command displays only the fields that are applicable to the type of port. The “Type” and “Slot/Port” field names are not displayed in the output.

Table 47    Output Fields for the show port Command with the transceiver Keyword - for SFP or XFP Transceiver Port Data

State

Description

SFP / Media type

SFP Transceivers—Ethernet line cards:


  • FX / MM—Short reach transceiver, multimode fiber.

  • LX10 / SM—Long reach transceiver, single-mode fiber.

  • SX / MM—Short reach transceiver, multimode fiber.

  • LX / SM—Long reach transceiver, single-mode fiber.

  • ZX / SM—Extended long reach transceiver, single-mode fiber.

  • T / Cat5—Copper-based transceiver.

  • CWDM / SM—Coarse wavelength-division multiplexing (CWDM) transceiver, single-mode fiber.

  • DWDM / SM—Dense wavelength-division multiplexing (DWDM) transceiver, single-mode fiber.

SFP transceivers—SONET OC-n (OC-3c/STM-1c, OC-12c/STM-4c, and OC-48c/STM-16c) cards:


  • SR / SM—Short reach transceiver, single-mode fiber.

  • SR / MM—Short reach transceiver, multimode fiber.

  • IR / SM—Intermediate reach transceiver, single-mode fiber.

  • LR / SM—Long reach transceiver, single-mode fiber.

XFP / Media type

10-Gbps SFP (XFP) transceivers—OC-192 and 10-Gig Ethernet line cards:


  • SR or SW / SM—Short reach transceiver, single-mode fiber.

  • SR / MM—Short reach transceiver, multimode fiber.

  • IR / SM—Intermediate reach transceiver, single-mode fiber.

  • LR or LW / SM—Long reach transceiver, single-mode fiber.

  • ER or EW / SM—Extended long reach transceiver, single-mode fiber.

  • ZR or ZW / SM—Extreme reach transceiver, single-mode fiber.(1)

  • DWDM / SM—Dense wavelength-division multiplexing (DWDM) transceiver, single-mode fiber.(2)

Redback Approved

State of transceiver testing for transceiver in SmartEdge routers:


  • No—Not tested.

  • Yes—Tested.

Diagnostic Monitoring

Whether the installed transceiver supports diagnostic monitoring compliant to SFF-8472 for SFPs or INF-8077i for XFPs.

Serial Number

nnnnnnnnnnnnnn—Unique identifier for this transceiver.

Wavelength

Center wavelength for the version of the optical transceiver installed in this port:


  • 0.00 [nm]—Wavelength is not reported by this transceiver.

  • nnnn.nn [nm]—Wavelength for this transceiver version.

Tx Pwr [dbm](3)

Transmitter optical output power (measured, minimum, and maximum limits) for the version of the transceiver installed in this port.

Additional Features

  • OTN—An OTN XFP is inserted in the port.

  • None—No additional feature.

Power Level

  • Normal—Powered on.

  • Low—Standby or when the XFP is inserted into a non-OTN support port.

Rx Pwr [dbm]

Receiver sensitivity (measured, minimum, and maximum limits) for the version of the transceiver installed in this port.

Temperature [C]

Temperature (measured, minimum, and maximum limits) in degrees Centigrade.

Laser bias current [mA]

Magnitude of the laser bias power setting current (measured, minimum and maximum limits), in milliamperes (mA).


The laser bias provides direct modulation of laser diodes and allows the user to monitor the “health” of the laser.

Vcc [V]

Magnitude of the supply voltage to the transceiver (measured, minimum, and maximum limits), in Volts (V).

AUX1 +3.3V Supply Voltage [V](4) (for XFP transceivers only)

Auxiliary measurement 1 for XFP transceivers—defined in Byte 222 Page 01h in INF-8077i.

AUX2 N/A (4) (for XFP transceivers only)

Auxiliary measurement 2 for XFP transceivers—defined in Byte 222 Page 01h in INF-8077i.

Active Alarms

Transceiver alarm conditions for specified port/slot:


  • NONE—No alarm conditions exist

  • Condition—Alarm condition is in effect.

(1)  Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

(2)  In Releases 6.1.4 and 6.1.5, DWDM XFP transceivers support only ITU channels 35,36,37,53,and 54.

(3)  See the Troubleshoot with System Power and Alarm LEDs section for the lists of alarms and warnings supported by the SFP and XFP transceivers.

(4)  See the “XFP Transceivers Measurements and Threshold Values” table for a list of auxiliary input types monitored by each auxiliary A/D channel of the XFP transceivers.


Table 48    XFP Transceivers Measurements and Threshold Values

Field

Range

Auxiliary monitoring not implemented

0000b

APD bias voltage (16-bit value is Voltage in units of 10 mV)

0001b

Reserved

0010b

TEC current (mA) (16-bit value is Current in units of 100 uA)

0011b

Laser temperature (same encoding as module temperature)

0100b

Laser wavelength

0101b

+5V Supply voltage

0110b

+3.3V Supply voltage

0111b

+1.8V Supply voltage

1000b

-5.2V Supply voltage (absolute value encoded as primary voltage monitor)

1001b

+5V Supply current (16-bit Value is Current in 100 uA)

1010b

+3.3V Supply current (16-bit Value is Current in 100 uA)

1101b

+1.8V Supply current (16-bit Value is Current in 100 uA)

1110b

-5.2V Supply current (16-bit Value is Current in 100 uA)

1111b

Table 49    XFP Auxiliary Measurements Displayed by the show port Command with the detail Keyword

Field

Range

Auxiliary monitoring not implemented

0000b

APD bias voltage (16-bit value is Voltage in units of 10 mV)

0001b

Reserved

0010b

TEC current (mA) (16-bit value is Current in units of 100 uA)

0011b

Laser temperature (same encoding as module temperature)

0100b

Laser wavelength

0101b

+5V Supply voltage

0110b

+3.3V Supply voltage

0111b

+1.8V Supply voltage

1000b

-5.2V Supply voltage (absolute value encoded as primary voltage monitor)

1001b

+5V Supply current (16-bit Value is Current in 100 uA)

1010b

+3.3V Supply current (16-bit Value is Current in 100 uA)

1101b

+1.8V Supply current (16-bit Value is Current in 100 uA)

1110b

-5.2V Supply current (16-bit Value is Current in 100 uA)

1111b

3.10   Troubleshoot with System and Card LEDs

To ensure that the system LEDs are working, press the alarm cutoff (ACO) button for more than three seconds to light all working LEDs on the fan tray. The LEDs remain lit as long as the ACO button is pressed.

3.11   Troubleshoot with System Power and Alarm LEDs

In most cases, the overall status of a SmartEdge 600 system is indicated by the two sets of LEDs located on the front of the fan and alarm unit. If you are experiencing hardware problems, check the LEDs to determine the possible cause and solution. Table 3-20 lists the problems that are indicated by the system power and alarm LEDs.

Table 50    Common Terms

Term

Description

controller card

Refers to the Cross-Connect Route Processor (XCRP) Controller card (XCRP4).

Gigabit Ethernet

Applies to any Ethernet line card that supports a port speed of 1 Gbps or greater; unless explicitly stated, the speed of any Gigabit Ethernet port is 1 Gbps.

Table 51    Definitions of Terms

Term

Definition

ADM

Add-drop multiplexer

AU-n

Administrative unit, level n

BER

Bit error rate

BIP

Bit Interleaved Parity

BTC

Bridging Transmission Convergence

circuit pack

Any traffic or controller card

DCC

Data communications channel

FEAC

Far end alarm condition

PLCP

Physical Layer Convergence Protocol

TU-n

Tributary unit, level n

VC-n

Virtual container, level n


 Caution! 
Risk of equipment damage. Ensure that the fuses in the external fuse panel are suitably rated for the installation in accordance with the National Electrical Code (in the United States) or applicable local jurisdiction (outside the United States) installation requirements.
Table 52    Problems Indicated by Power and Alarm LEDs

Term

Definition

FAN (red) is on.

One or more fans are not operating.


Replace the fan and alarm unit.

PWR A or PWR B (green) is off.

No power is present at the A-side or B-side power input; perform the following checks or actions:


  • Remove and check the fuse for the A-side or B-side DC power source at the external fuse panel. Replace the fuse, if necessary.

  • Remove the fuse for the A-side or B-side power source at the external fuse panel; then check the connections for the A-side or B-side power source at the external fuse panel. Correct any loose connections, and replace the fuse.

  • Remove the fuses for both power sources at the external fuse panel; then remove the cover that shields the power filters and check the connections for the power cables at the A- or B-side power filter. Correct any loose connections, replace the cover, and then replace the fuses.

MAJOR (red) is on.

One or more line cards are not operable (in low-power mode), resulting from a mismatched pair of controller cards (the standby controller card is not the same version as the active controller card).


Remove the standby controller card; if available, install a standby controller card of the same version as the active controller card.

3.11.1   Chassis Alarms

Table 53    Chassis Alarms

Description

Severity

Probable Cause

Service Affecting

Chassis power capacity exceeded

Major

MisMatchedControllerCard

Yes

Chassis power failure—Side A1

Minor

PowerProblem

No

Chassis power failure—Side A2

Minor

PowerProblem

No

Chassis power failure—Side B1

Minor

PowerProblem

No

Chassis power failure—Side B2

Minor

PowerProblem

No

Fan tray communication failure

Major

CoolingFanFailure

Yes

Fan tray controller failure

Major

ReplaceableUnitProblem

Yes

Fan tray controller overheat

Major

ReplaceableUnitProblem

Yes

Fan tray failure detected

Minor

ReplaceableUnitProblem

No

Fan tray filter replacement

Major

ReplaceableUnitProblem

Yes

Fan tray fuse failure

Major

ReplaceableUnitProblem

Yes

Fan tray missing

Major

ReplaceableUnitMissing

Yes

Fan tray reset occurred

Warning

Reinitialized

Yes

Fan unit failure

Minor

CoolingFanFailure

No

Local alarm cutoff activated

Minor

OperationNotification

No

Mesh diagnostic failure

Major

ReplaceableUnitFailure

Yes

Multiple fan failure

Major

ReplaceableUnitProblem

Yes

Remote alarm cutoff activated

Minor

OperationNotification

No

3.11.2   Line Card Alarms

Table 54    Line Card Alarms

Description

Severity

Probable Cause

Service Affecting

BTC interface error detected

Major

ReplaceableUnitProblem

Yes

BTC not ready

Major

ReplaceableUnitProblem

Yes

Circuit pack backplane degrade

Minor

BackplaneFailure

No

Circuit pack backplane failure

Major

BackplaneFailure

Yes

Circuit pack card code mismatch

Minor

ReplaceableUnitTypeMismatch

No

Circuit pack failure

Critical

ReplaceableUnitProblem

Yes

Circuit pack mismatch

Critical

ReplaceableUnitTypeMismatch

Yes

Circuit pack missing

Critical

ReplaceableUnitMissing

Yes

Circuit pack overheating

Major

LineCardProblem

Yes

Circuit pack power-on diagnostic failed

Major

ReplaceableUnitProblem

Yes

Circuit pack reset completed

Warning

OperationNotification

Yes

Diagnostic fail

Major

ReplaceableUnitProblem

Yes

Loss of backplane clock

Major

ReplaceableUnitProblem

Yes

Software download completed

Warning

OperationNotification

Yes

Software download failed

Warning

OperationFailure

Yes

Synchronization failure

Critical

TimingProblem

Yes

Voltage failure detected

Major

ReplaceableUnitProblem

Yes

3.11.3   Controller Card Alarms

Table 55    Controller Card Alarms

Description

Severity

Probable Cause

Service Affecting

Backup fail: peer dead(1)

Major

ReplaceableUnitProblem

Yes

Controller auto switch completed (1)

Major

OperationNotification

Yes

Controller code mismatch

Major

ReplaceableUnitTypeMismatch

Yes

Controller exerciser switch failed (1)

Major

OperationFailure

Yes

Controller fail

Critical

ReplaceableUnitProblem

Yes

Controller forced switch requested (1)

Major

OperationNotification

Yes

Controller manual switch requested (1)

Major

OperationNotification

Yes

Controller missing (1)

Critical

ReplaceableUnitMissing

Yes

Controller overheating

Major

ReplaceableUnitProblem

Yes

Controller power-on diagnostic failed

Major

ReplaceableUnitProblem

Yes

Controller switch completed (1)

Major

OperationNotification

Yes

Controller switch failed (1)

Major

OperationFailure

Yes

Controller temperature critical

Major

ReplaceableUnitProblem

Yes

Controller temperature hot

Minor

ReplaceableUnitProblem

Yes

Controller type mismatch

Major

ReplaceableUnitTypeMismatch

Yes

Diagnostic test fail

Major

ReplaceableUnitProblem

Yes

Local backplane inventory fail

Major

ReplaceableUnitProblem

Yes

Local fan tray inventory fail

Major

ReplaceableUnitProblem

Yes

Local inventory fail

Major

ReplaceableUnitProblem

Yes

Nonvolatile memory fail

Major

CorruptData

Yes

Peer controller card type incompatible (1)

Major

ReplaceableUnitProblem

Yes

Peer inventory fail (1)

Major

ReplaceableUnitProblem

Yes

Peer shared format mismatch (1)

Major

ReplaceableUnitProblem

Yes

Peer Sonet/Sdh mode incompatible (1)

Major

ReplaceableUnitProblem

Yes

Real-time clock failure

Major

RealTimeClockFailure

Yes

Redundancy link fail

Major

OperationFail

Yes

(1)  This alarm is suppressed if the system has a single controller card and has been configured using the system alarm command (in global configuration mode) with the >redundancy suppress construct.


3.11.4   SSE Card Alarms

Table 56    SSE Card Alarms

Description

Severity

Probable Cause

Service Affecting

NFS server service down

Major

reinitialized

Yes

Disk type mismatch

Warning

replaceableUnitTypeMismatch

No

CPU Crash

Critical

processorProblem

Yes

3.11.5   SSE Disk Alarms

Table 57    SSE Disk Alarms

Description

Severity

Probable Cause

Service Affecting

Hard disk health degraded

Minor

replaceableUnitProblem

No

Hard disk failed

Major

diskFailure

Yes

Hard disk missing

Major

replaceableUnitMissing

Yes

Hard disk not supported

Major

replaceableUnitTypeMismatch

Yes

Hard disk out of service

Minor

diskFailure

No

Hard disk voltage failure

Major

diskFailure

Yes

Hard disk overheating: extremely hot

Major

diskFailure

Yes

Hard disk overheating: temperature hot

Minor

diskFailure

No

Hard disk reading test failure

Major

diskFailure

Yes

Hard disk power-on diagnostic failed

Major

diskFailure

Yes

3.11.6   SSE Group Alarms

Table 58    SSE Group Alarms

Description

Severity

Probable Cause

Service Affecting

SSE group manual switch in progress

Major

operationNotification

Yes

SSE group auto switch in progress

Major

configurationOrCustomisationError

Yes

SSE group switch completed

Warning

configurationOrCustomisationError

No

SSE group switch failed

Major

operationNotification

Yes

SSE group auto switch waiting to restore

Minor

configurationOrCustomisationError

No

SSE group not operational

Major

databaseInconsistency

Yes

SSE group block device failed

Major

operationFailure

Yes

3.11.7   SSE Group Partition Alarms

Table 59    SSE Group Partition Alarms

Description

Severity

Probable Cause

Service Affecting

SSE group partition not operational

Major

databaseInconsistency

Yes

SSE group partition sync in progress

Minor

configurationOrCustomisationError

No

SSE group partition data sync failed

Major

operationFailure

Yes

SSE group partition full

Major

operationNotification

Yes

SSE group partition low space

Minor

operationNotification

No

SSE group partition not operational at standby

Major

databaseInconsistency

Yes

3.11.8   Optical Port Alarms

The tables in this section apply to all Asynchronous Transfer Mode (ATM) OC and Packet over SONET/SDH (POS) cards.

If a major or critical alarm occurs on a POS or an ATM port and that port is a member of an Automatic Protection Switching (APS) group, either as a protected or a working port, the alarm is downgraded to a minor alarm because the service is protected by the redundant port.

For configuration and management information for APS ports and groups, see related documentation at https://ebusiness.ericsson.net. The severity levels in the table are the default levels, not the degraded levels.

Table 60    Optical Port Alarms—Physical Layer

Description

Severity

Probable Cause

Service Affecting

Port facility loopback enabled

Minor

OperationNotification

No

Port terminal loopback enabled

Minor

OperationNotification

No

Receive laser failure

Critical

DemodulationFailure

Yes

Table 61    Optical Port Alarms—Section/Regenerator Section Layer

Description

Severity

Probable Cause

Service Affecting

Loss of frame

Critical

LossOfFrame

Yes

Loss of signal

Critical

LossOfSignal

Yes

Table 62    Optical Port Alarms—Line/Multiplex Section Layer

Description

Severity

Probable Cause

Service Affecting

Line alarm indication signal (AIS-L)

Minor

AIS

No

Line remote failure indication (RFI-L)

Minor

FarEndReceiverFailure

No

Line signal degrade (BER)

Major

DegradedSignal

Yes

Line signal failure (BER)

Major

ExcessiveBER

Yes

Lockout protection requested

Major

OperationNotification

Yes

Lockout working requested

Major

OperationNotification

Yes

Loss of clock

Major

LossOfTimingSource

Yes

Port auto switch completed

Major

OperationNotification

Yes

Port channel mismatch

Major

ApsChannelMatchFailure

Yes

Port diagnostic failed

Major

ReplaceableUnitProblem

Yes

Port far-end protection line failure

Major

ApsChannelProcessingFailure

Yes

Port fault oscillations detected

Critical

DegradedSignal

Yes

Port forced switch requested

Major

OperationNotification

Yes

Port manual switch request

Major

OperationNotification

Yes

Port mode mismatch

Major

ApsModeMismatch

Yes

Port payload loopback enabled

Minor

OperationNotification

No

Port protection switch byte failure

Major

ApsByteFailure

Yes

Port switch completed

Major

OperationNotification

Yes

Port switch failed

Major

OperationFailure

Yes

Port switch lockout requested

Major

OperationNotification

Yes

Port switch protection path failure

Major

OperationFailure

Yes

Port switch waiting to restore

Minor

OperationNotification

No

Table 63    SFP Transceiver Alarms

Description

Severity

Probable Cause

Service Affecting

Transceiver receive power–high

Major

Replaceable Unit Problem

Yes

Transceiver receive power–low

Major

Replaceable Unit Problem

Yes

Transceiver TX power–high

Major

Replaceable Unit Problem

Yes

Transceiver TX power–low

Major

Replaceable Unit Problem

Yes

Transceiver temperature–high

Major

Replaceable Unit Problem

Yes

Transceiver temperature–low

Major

Replaceable Unit Problem

Yes

Transceiver bias current–high

Major

Replaceable Unit Problem

Yes

Transceiver bias current–low

Major

Replaceable Unit Problem

Yes

Transceiver receive power–high warning

Minor

Replaceable Unit Problem

No

Transceiver receive power–low warning

Minor

Replaceable Unit Problem

No

Transceiver TX power–high warning

Minor

Replaceable Unit Problem

No

Transceiver TX power–low warning

Minor

Replaceable Unit Problem

No

Transceiver temperature–high warning

Minor

Replaceable Unit Problem

No

Transceiver temperature–low warning

Minor

Replaceable Unit Problem

No

Transceiver bias current–high warning

Minor

Replaceable Unit Problem

No

Transceiver bias current–low warning

Minor

Replaceable Unit Problem

No

Transceiver voltage–high

Major

Replaceable Unit Problem

Yes

Transceiver voltage–low

Major

Replaceable Unit Problem

Yes

Transceiver voltage–high warning

Minor

Replaceable Unit Problem

No

Transceiver voltage–low warning

Minor

Replaceable Unit Problem

No

Table 64    XFP Transceiver Alarms

Description

Severity

Probable Cause

Service Affecting

Transceiver receive power–high

Major

Replaceable Unit Problem

Yes

Transceiver receive power–low

Major

Replaceable Unit Problem

Yes

Transceiver TX power–high

Major

Replaceable Unit Problem

Yes

Transceiver TX power–low

Major

Replaceable Unit Problem

Yes

Transceiver temperature–high

Major

Replaceable Unit Problem

Yes

Transceiver temperature–low

Major

Replaceable Unit Problem

Yes

Transceiver bias current–high

Major

Replaceable Unit Problem

Yes

Transceiver bias current–low

Major

Replaceable Unit Problem

Yes

Transceiver receive power–high warning

Minor

Replaceable Unit Problem

No

Transceiver receive power–low warning

Minor

Replaceable Unit Problem

No

Transceiver TX power–high warning

Minor

Replaceable Unit Problem

No

Transceiver TX power–low warning

Minor

Replaceable Unit Problem

No

Transceiver temperature–high warning

Minor

Replaceable Unit Problem

No

Transceiver temperature–low warning

Minor

Replaceable Unit Problem

No

Transceiver bias current–high warning

Minor

Replaceable Unit Problem

No

Transceiver bias current–low warning

Minor

Replaceable Unit Problem

No

Transceiver AUX1–high

Major

Replaceable Unit Problem

Yes

Transceiver AUX1–low

Major

Replaceable Unit Problem

Yes

Transceiver AUX2–high

Major

Replaceable Unit Problem

Yes

Transceiver AUX2–low

Major

Replaceable Unit Problem

Yes

Transceiver AUX1–high warning

Minor

Replaceable Unit Problem

No

Transceiver AUX1–low warning

Minor

Replaceable Unit Problem

No

Transceiver AUX2–high warning

Minor

Replaceable Unit Problem

No

Transceiver AUX2–low warning

Minor

Replaceable Unit Problem

No

Transceiver L-VCC5–high

Major

Replaceable Unit Problem

Yes

Transceiver L-VCC5–low

Major

Replaceable Unit Problem

Yes

Transceiver L-VCC3–high

Major

Replaceable Unit Problem

Yes

Transceiver L-VCC3–low

Major

Replaceable Unit Problem

Yes

Transceiver L-VCC2–high

Major

Replaceable Unit Problem

Yes

Transceiver L-VCC2–low

Major

Replaceable Unit Problem

Yes

Transceiver L-VCC5–high warning

Minor

Replaceable Unit Problem

No

Transceiver L-VCC5–low warning

Minor

Replaceable Unit Problem

No

Transceiver L-VCC3–high warning

Minor

Replaceable Unit Problem

No

Transceiver L-VCC3–low warning

Minor

Replaceable Unit Problem

No

Transceiver L-VCC2–high warning

Minor

Replaceable Unit Problem

No

Transceiver L-VCC2–low warning

Minor

Replaceable Unit Problem

No

3.11.9   Ethernet Port Alarms

Table 65    Ethernet Port Alarms

Description

Severity

Probable Cause

Service Affecting

Excessive collisions detected

Major

LinkFailure

Yes

Excessive speed 100M detected

Major

ConfigurationMismatch

Yes

Link down

Major

LinkFailure

Yes

Over subscription detected

Major

ConfigurationMismatch

Yes

Port diagnostic failed

Major

ReplaceableUnitProblem

Yes

Port terminal loopback enabled

Minor

OperatorNotification

No

Under subscription detected

Minor

ConfigurationMismatch

No

3.11.10   Gigabit Ethernet Port Alarms

Table 66    Gigabit Ethernet Port Alarms

Description

Severity

Probable Cause

Service Affecting

Link down

Major

LinkFailure

Yes

Link flooded

Major

LinkFailure

Yes

Port diagnostic failed

Major

ReplaceableUnitProblem

Yes

Port terminal loopback enabled

Minor

OperatorNotification

No

Receive loss of signal (LOS)

Critical

LossOfSignal

Yes

3.12   Troubleshoot with Card Status LEDs

The equipment and facility LEDs on each card display the status of individual cards and their ports. See Card Descriptions for definitions of equipment and facility LEDs.

If you are experiencing hardware problems, check the LEDs to determine the possible problem and solution.

Table 67    Problems Indicated by Card Status LEDs

Problem

Solution

FAIL (red) is on.

The card has failed. Replace the card.

ACTIVE (green) is off.

Perform the following checks or actions:


Check the STDBY LED:


  • If the STDBY LED is on, this is a normal condition.

  • If the STDBY LED is off, check the FAIL LED.

Check the FAIL LED:


  • If the FAIL LED is on, replace the card.

  • If the FAIL LED is off, check the FAIL LED.

LOS (yellow) is on.

The port is experiencing a loss of signal. Check the cable connections and correct them if necessary.

SYNC (green) is off.

This condition is normal if no external timing cable is installed. Otherwise, all external timing signals have failed; the system is running with the onboard controller clock. Check the cable connections and correct them if necessary.

EXTERNAL TIMING LOS PRI (yellow) is on.

The signal is not present or an external timing source has not been configured. Check the cable connection; to check the configuration, see related documentation at https://ebusiness.ericsson.net.

EXTERNAL TIMING LOS SEC (yellow) is on.

The signal is not present or an external timing source has not been configured. Check the cable connection; to check the configuration, see related documentation at https://ebusiness.ericsson.net.

Note:  
Ethernet and GE cards do not have STDBY LEDs.

3.13   Troubleshoot with On-Demand Diagnostics

You initiate an on-demand diagnostic (ODD) session (one or more tests) from the SmartEdge OS command-line interface (CLI). These tests diagnose the standby controller card and line cards. You can also run tests on more than one card simultaneously. The following guidelines apply to the on-demand testing of traffic and controller cards:

Four levels of tests are supported; not all cards support all levels of tests. Table 68 lists these levels, the types of tests performed, and the components for which the tests are supported.

Table 68    ODD Tests

Level

Components

Tests

1

All

Duplicates the tests of the power-on diagnostics; runs in 5 to 10 seconds.

2

Standby controller card, line cards only

Includes level 1 tests; tests all onboard active components in the line interface module (LIM) of the board, including memory, registers, PPA DIMMs and SRAM, PPA and other onboard processors; runs in 5 to 10 minutes.

3

Line cards only

Includes level 2 tests; tests and verifies the card data paths for the entire card with internal loopbacks; runs in 10 to 15 minutes.

4

Line cards only

Includes level 3 tests; tests the entire card using external loopbacks; must be run on site with external loopback cables installed; runs in 10 to 15 minutes.

A session log stores the latest results for each card in main memory and also on the internal-storage device for low-level software; a history file stores the results for each session for the last 100 sessions on that internal-storage device.

You can display partial test results while the tests are in progress; a notification message is displayed when the session is completed. To view the results, use the show diag command with the on-demand keyword in any mode. You can display the latest results for a card from the log or the results for one or more sessions from the history file.

If you are connected to the system using the Ethernet management port, you must enter the terminal monitor command (in exec mode) before you start the test session so that the system displays the completion message. For more information about the terminal monitor command, see related documentation at https://ebusiness.ericsson.net.

3.13.1   Initiate ODD Session

Table 69    Parameters for an ODD Session

Parameter

Description

card card-type slot

Line card in the specified slot to be tested; see the “Card Types and Slots for the card Command” table for argument values.

standby

Tests the standby controller card.

level level

Level at which the test is to be initiated. The levels are 1 to 4.

loop loop-num

Number of times to repeat the diagnostic test.

Table 70    Card Types and Slots for the card Command

Type of Line Card and Description

card-type Keyword

slot Argument Range

ATM OC-3c/STM-1c (8-port)

atm-oc3e-8-port

1 to 6 and 9 to 14

ATM OC-3c/STM-1c IR (4-port)

atm-oc3-4-port

1 to 6 and 9 to 14

ATM OC-12c/STM-4c (2-port)

atm-oc12e-2-port

1 to 6 and 9 to 14

Enhanced ATM OC-12c/STM-4c IR (1-port)

atm-oc12e-1-port

1 to 6 and 9 to 14

POS OC-3c/STM-1c (8-port)(1)

oc3e-8-port

1 to 6 and 9 to 14

POS OC-12c/STM-4c (4-port)

oc12e-4-port

1 to 6 and 9 to 14

POS OC-48c/STM-16c (4-port)

oc48e-4-port

1 to 6 and 9 to 14

OC-192c/STM-64c (1-port)

oc192-1-port

1 to 6 and 9 to 14

10/100 Ethernet (12-port)

ether-12-port

1 to 6 and 9 to 14

Fast Ethernet–Gigabit Ethernet (60-port FE, 2-port-GE)

fege-60-2-port

1 to 6 and 9 to 14

Gigabit Ethernet (4-port)

ge-4-port

1 to 6 and 9 to 14

Advanced Gigabit Ethernet (4-port)

gigaether-4-port

1 to 6 and 9 to 14

Gigabit Ethernet 3 (4-port)

ge3-4-port

1 to 6 and 9 to 14

Gigabit Ethernet 1020 (10-port)

ge-10-port

1 to 6 and 9 to 14

Gigabit Ethernet 1020 (20-port)(2)

ge-20-port

1 to 6 and 9 to 14

Gigabit Ethernet (5-port)

ge-5-port

1 to 6 and 9 to 14

Gigabit Ethernet (20-port) (2)

ge4-20-port

1 to 6 and 9 to 14

Gigabit Ethernet DDR (10-port)

ge2-10-port

1 to 6 and 9 to 14

10 Gigabit Ethernet (1-port)

10ge-1-port

1 to 6 and 9 to 14

10 Gigabit Ethernet DDR (4-port)

10ge-4-port

1 to 6 and 9 to 14

10 Gigabit Ethernet/OC-192c DDR (1-port)

10ge-oc192-1-port

1 to 6 and 9 to 14

Advanced Services Engine

ase

1 to 6 and 9 to 14

SmartEdge Storage Engine

sse

1 to 6 and 9 to 14

(1)  Use part number RDH90159/1 (SFP-ATM-OC3-SR-IR) when ordering the SFP transceivers with OC-3 SR-0 or OC-3 IR-1 functionality.

(2)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


To initiate an ODD session:

  1. If you are testing a line card, change its state to ODD; otherwise, proceed to step 2.
  2. To prepare a line card for an ODD session, perform the tasks listed in Table 71; Table 70 lists values for the card-type and slot arguments.
Table 71    Prepare a Line Card for an ODD Session

Task

Command

Notes

Access global configuration mode.

configure

Enter this command in exec mode.

Specify the card to be tested and access card configuration mode.

card

Specify the card type and slot number.

Save the state of the ports and circuits on the card and put it in the out-of-service state.

shutdown

If there are cross-connected circuits configured on any of the ports on an ATM or Ethernet card, this command disables the cross-connections and saves their state.

Put the card in the ODD state.

on-demand-diagnostic

 

Commit the previous commands to the database and return to exec mode.

end

You must enter this command to place the card in the ODD state.

  1. To test one or more components, enter one of the commands listed in Table 72; all commands are entered in exec mode. Table 69 lists the values for the level-num and loop-num arguments. The arguments slot, slot1, slot2, and slotn are chassis slot numbers for the line cards to be tested.
Table 72    Test Components

Task

Command

Test a line card.

diag on-demand card slot level level loop loop-num

Test the standby controller card.

diag on-demand standby level level loop loop-num

Table 73 lists the alarm conditions, alarm status, FAIL LED status, status of other LEDs, ODD history, log, and status for a card after an ODD session during which the card failed one or more tests; and the affect on these indicators by the clear diag command (in exec mode), a reload of the system, the replacement, reload, or change of state of the card, or an ODD session that the card passed successfully.

Table 73    ODD and LED Conditions for a Card

State of Indicator After

Clear Log(1)

Clear History

Replace Card(2)

Reload System

Reload Card or Change State—ODD to OSS

Successful ODD Session

Alarm conditions

On

On

Cleared

Cleared

On

Cleared

Alarm status

On

On

Cleared

Cleared

On

Cleared

FAIL LED

On

On

Cleared

Cleared

On

Cleared

LED status

Unchanged

Unchanged

N/A (2)

N/A (2)

N/A (2)

See Table 75

ODD history

Unchanged

Cleared

Unchanged

Unchanged

Unchanged

History file is updated

ODD log

Cleared

Unchanged

Unchanged

Unchanged

Unchanged

Log is updated

ODD status

Failed

Failed

Not available

Not available

Failed

No failures were detected

(1)  You can clear the ODD log or history using theclear diag command (in exec mode).

(2)  Replacing a card or reloading the system causes the power-on diagnostics to run; the LED status reflects the results of the power-on diagnostic tests. You cannot reload a card if it is in the ODD state.


To view the results, see Results from an ODD Session.

3.13.2   Return Line Card to the In-Service State

After testing a line card, you must return it to the in-service state. To return the line card to the in-service state from the ODD state, you must enter the no form of the on-demand diagnostic and shutdown commands.

Table 74    Return a Line Card to the In-Service State

Task

Command

Notes

Access global configuration mode.

configure

Enter this command in exec mode.

Specify the card that was tested and access card configuration mode.

card

Specify the card type and slot number.

Remove the card from the ODD state and put it in the out-of-service state.

no on-demand-diagnostic

 

Return the card to the in-service state; restore any cross-connections.

no shutdown

This command restores any cross-connections to their state at the time of the shutdown.

Commit the previous commands to the database and return to exec mode.

end

 
Note:  
If you intend to reload the card, using the reload card in exec mode, you must first remove the card from the ODD state.

3.13.3   Results from an ODD Session

Table 75    LED States During and After an ODD Session

Card State

State of LEDs

Out of service (shutdown command)

FAIL, ACTIVE, and STDBY LEDs are off.

ODD (on-demand-diagnostic command)

FAIL, ACTIVE, and STDBY LEDs are off.

Session in progress

FAIL, ACTIVE, and STDBY LEDs blink.

End of session with one or more failures

FAIL LED is on; ACTIVE, and STDBY LEDs are turned off until card is returned to the in-service state.

End of terminated session

FAIL, ACTIVE, and STDBY LEDs are turned off until the card is returned to the in-service state.

End of successful session

FAIL, ACTIVE, and STDBY LEDs are turned off until the card is returned to the in-service state.

To display the results from one or more ODD sessions, perform one of the tasks listed in Table 76; all commands are entered in any mode.

Table 76    Display Results from ODD Sessions

Task

Command

Display results for all components from the last initiated session.

show diag on-demand

Display results for a line card.

show diag on-demand card slot

Display results for the standby controller card.

show diag on-demand standby

Display results for the last n sessions. The latest session is displayed first. Up to 100 sessions can be listed.

show diag on-demandhistory n

Table 77    Status Descriptions for an ODD Session

Session Status

Description

Aborted

Session was terminated by the user or by the standby controller card being removed.

Incomplete

At least one of the requested tests could not be run.

In-Progress

Session is currently in progress.

n Failures

Session was completed with a number of test failures.

Passed

All tests passed.

Table 78    Status Descriptions for a Test

Test Status

Description

Aborted

Test was started but terminated by the standby controller card being removed.

Failed

Test ran and failed.

Not Run

Test has not yet run (initial state).

Passed

Test ran successfully.

Running

Test is currently in progress.

Skipped

Test could not be run; for example, the part revision is earlier than the required minimum version or no file found.

In general, if a unit fails to pass a test, you should replace it or make arrangements for its replacement. Contact your local technical support representative for more information about the results of a failed test.

If the version of the Sys FPGA on a line card is not 0x7 or later, the voltage check, temperature check, and bus tests cannot be run; they are skipped, and the session status is reported as “Incomplete”. To resolve the problem, enter the show hardware command (in any mode) with the card and detail keywords to display the FPGA version in the SysFpga field. To upgrade this FPGA to the latest version, contact your local technical representative or the Ericsson TAC.

3.13.4   Clear Results from ODD Sessions

To clear the results from one or more ODD sessions, perform one of the tasks listed in Table 79; enter all commands in exec mode.

Table 79    Clear Results from ODD Sessions

Task

Command

Clear the results from the last initiated session.

clear diag on-demand

Clear the latest results for all components tested.

clear diag on-demandall

Clear the latest results for a line card.

clear diag on-demandcard slot

Clear the latest results for the standby controller card.

clear diag on-demandstandby

3.13.5   ODD Examples

The following example shows how to initiate a session on the standby controller card and display results:

[local]Redback#diag on-demand standby level 2 loop 4
[local]Redback#show diag on-demand standby

The following example shows how to initiate a session on the Ethernet card in slot 3, display results, and return the card to the in-service state:

!Place the card in ODD state
[local]Redback#configure
[local]Redback(config)#card ether-12-port 3
[local]Redback(config-card)#shutdown
[local]Redback(config-card)#on-demand-diagnostic
[local]Redback(config-card)#end

!Run an ODD session
[local]Redback#diag on-demand card 3 level 3 loop 5
!Display results
[local]Redback#show diag on-demand card 3
!Return the card to the in-service state
[local]Redback#configure
[local]Redback(config)#card ether-12-port 3
[local]Redback(config-card)#no on-demand-diagnostic
[local]Redback(config-card)#no shutdown
[local]Redback(config-card)#end

3.14   Obtaining Assistance

If you cannot determine the nature of the problem by using the information in this chapter, contact your local technical support representative. To help diagnose the problem when you communicate with your representative, ensure that you include the following information in your problem report (if communicating by fax or e-mail):

4   Servicing Hardware

After you replace a system card or change its physical configuration, you must enter commands from the command-line interface (CLI) to restore the card to normal operations.

The design of the SmartEdge 600 router permits you to install and replace all cards without powering off the system.


 Caution! 
Risk of equipment malfunction. If you install or replace a card in a running system and the system is not fully operational, you can cause the system to malfunction.

Make sure the system is fully operational before proceeding with installation or replacement procedures:


 Stop! 
Risk of electrostatic discharge (ESD) damage. Always use an ESD wrist or ankle strap when handling the card. Do not attach the wrist strap to a painted surface. Avoid touching the card, components, or any connector pins.

Figure 23   Removing a Card from the SmartEdge 600 Chassis

Figure 24   Replacing a Card in the SmartEdge 600 Chassis


 Caution! 
Risk of equipment damage. Never attempt to repair parts or cards yourself; always replace any defective card with a card supplied by your technical representative.
Table 80    Tools Needed for Installation and Replacement Procedures

Tool

Purpose

#1 Phillips screwdriver

Remove and install the fan tray, cards. The screwdriver needs a 4.5-inch (11.5-cm) shaft to reach the screws that secure the fan tray in the chassis.

Trompeter tool

Remove and install DS-3 or E3 cables.

4.1   Adding a Second Controller Card

The second controller card must be the same type and have the same memory size as the current controller card; you can check the Common Language Equipment Identifier (CLEI) codes to ensure that they are identical.


 Caution! 
Risk of data loss. Always ensure that the controller cards are identical before you install a second controller card.

To add a second controller card:

  1. Put on an antistatic wrist strap, and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located on the front of the fan tray.
  2. Loosen the captive screws and remove the blank card that is installed in slot 7 or 8.
  3. Install the card.
  4. If the first controller card includes a CF card, install a CF card in the controller card you have just installed. To install the CF card, see Install CF Cards.
  5. Verify the operational status: the FAIL LED must not be lit.
  6. Generally, duplicate the cable connections of the active controller card on the standby controller card and route the cables accordingly.

After you have installed the card, the system ensures that both controller cards are running the same release of the system software, and downloads the release on the active controller card to the new standby controller card, if necessary.

4.2   Replacing a Controller Card

If the system configuration includes a single controller card, you will disrupt traffic when you remove the card.

If you are replacing one of a pair of controller cards, the replacement controller card must be the same type and have the same memory size as the current controller card; you can check the CLEI codes to ensure that they are identical.


 Stop! 
Risk of data loss. Verify that the card being removed is not the active controller (that is, the STDBY LED is lit). Controller cards are hot swappable, but if the system configuration includes redundant controller cards, you can disrupt traffic if you remove the active controller card.

To replace a controller card:

  1. For dual controller cards, ensure that the system is fully operational: the standby controller must be fully synchronized with the active controller card. Use the show redundancy command to display the status of the standby controller.
  2. For duel controller cards, upgrade the active controller to run the latest release of the system software.
  3. For a controller card with a CF card installed, dismount the device by entering the following command in exec mode:

    unmount /md

    Removing the controller card with its CF card without first entering the unmount /md command can permanently damage the device and cause the kernel to crash.


     Stop! 
    Risk of data loss. Do not enter the unmount /md command while the CF ACTIVE LED is blinking. You can lose data that is being transferred to the CF card if you enter the unmount /md command before the data transfer operation is complete. When the operation is complete, the LED is turned off.
  4. Put on an antistatic wrist strap, and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located on the front of the fan tray.
  5. Label and disconnect any cables from the front of the controller card being removed.
  6. Remove the current card.
  7. Install the card.
  8. If a CF card was installed in the previous controller card, remove the device from its slot and install it in the new controller card; perform the procedure in Install CF Cards.
  9. Verify the operational status: the FAIL LED must not be lit.
  10. Reconnect the cables you previously disconnected.

If you have replaced one of a pair of controller cards, the system ensures that both controller cards are running the same release of the system software and downloads the release on the active controller to the new standby controller, if necessary.

4.2.1   Removing a CF Card

Removing the CF card without first entering the unmount /md command can permanently damage the CF card and cause the kernel to crash. To reduce the risk, always enter the unmount /md command before removing a CF card.

For more information about the unmount command, see the command list located at https://ebusiness.ericsson.net.


 Stop! 
Risk of data loss. Do not enter the unmount /md command while the CF ACTIVE LED is blinking. You can lose data that is being transferred to the CF card if you enter the unmount /md command before the data transfer operation is complete. When the operation is complete, the LED is turned off.

To remove a CF card:

  1. Enter the following command in exec mode: unmount /md
  2. If you are removing the CF card in an XCRP4 Controller card:
    1. Open the door that covers the CF Type 1 slot until it “snaps” open. This action begins unmounting the file system on the CF card. The CF Active LED blinks during the unmounting process.
    2. Wait until the CF Active LED stops blinking. It is now safe to remove the CF card.
      Note:  
      If the system cannot successfully unmount the file system on the CF card, the CF Active LED stops blinking and is unlit. You must enter the unmount command (in exec mode) to unmount the file system on the card.

  3. Press the ejection button that is inside the CF slot twice (first to cause the button to protrude from within its recess and second to disengage the CF card from its connectors.

  1. Grasp the CF card and pull gently and slowly until the CF card is disengaged from the internal pins.
  2. Close the door.
  3. Installing a CF Card

Figure 25   Installing a CF Card

Each controller card has an external slot on the front panel in which you can install an optional Type I CF card. The XCRP4 Controller card supports Type I CF card only.

If a CF card is installed in the active controller card, the standby controller card, if installed, must also have a CF card installed.

To install a CF card, see Install CF Cards.

4.3   Replacing a Transceiver

Transceivers are hot-swappable; you can replace any transceiver without removing the Gigabit Ethernet card. However, you must shut down the port before performing the replacement procedure.


 Caution! 
Risk of severe damage to your eyes. Do not stare into the connector or directly view the laser beam emerging from the connector. All versions of the optical cards are Class 1 products, which use lasers to convert electrical signals to optical signals that can damage your eyes. Keep the connectors covered until you are ready to connect the fiber-optic cables.

 Stop! 
Risk of data loss. Install only the transceivers approved by Ericsson. You can corrupt the system if you attempt to install transceivers have not been tested with supported line cards.

 Stop! 
Risk of ESD damage. Always use an ESD wrist or ankle strap when handling a transceiver. Transceivers contain electrostatic sensitive devices. Avoid touching its connector pins.

Figure 26   GBIC Transceiver

Figure 27   SFP Transceiver

Figure 28   XFP Transceiver

To remove a transceiver of any type:

  1. Shut down all activity on the port with the transceiver you want to replace. See protocol-specific configuration documents located at https://ebusiness.ericsson.net.
  2. Put on an antistatic wrist strap, and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface; an ESD convenience jack is located on the front of the fan tray.

     Caution! 
    Risk of damage to fiber-optic cables. Never step on a cable or twist it when connecting it to or disconnecting it from an line card.
  3. Label and disconnect any cables attached to the transceiver you want to replace.
  4. Release the latching mechanism:
    1. If the transceiver has a wire handle, unlatch it, and rotate it 90° to 180°.
    2. If the transceiver has latching tabs, squeeze and hold the tabs.
  5. Withdraw the transceiver from its port and insert a dust cover over the optical connectors.

To install a transceiver of any type:

  1. Put on an antistatic wrist strap, and attach it to an appropriate grounded surface; an ESD convenience jack. Do not attach the wrist strap to a painted surface.
  2. Ensure that the latching mechanism is closed.
  3. With the transceiver connectors aligned with the RX and TX labels on the front panel of the line card slide the transceiver into the opening for the port until the rear connector is seated and the locking mechanism snaps into place. The labels for the TX and RX connectors vary by vendor. An arrow, which can be incised on the case, usually indicates the traffic direction.
  4. Remove the dust cover if you are installing an optical transceiver.

4.4   Cleaning Optical Connectors

Clean fiber-optic components are a requirement for quality connections between fiber-optic equipment. For more information, see Inspection and Cleaning Procedures for Fiber-Optic Connections.

This document is located at https://ebusiness.ericsson.net.

4.5   Replacing the Fan Tray

Figure 29   Replacing the Fan Tray

You do not have to power off the system to remove the fan tray. The SmartEdge 600 router can operate without the fans for up to three minutes.


 Caution! 
Risk of equipment damage. Always replace the fan tray or air filter within three minutes of its removal. A working fan tray and air filter are required by the SmartEdge 600 chassis for it to operate without overheating system components.

To replace the fan tray:

  1. Put on an antistatic wrist strap, and attach it to an appropriate grounded surface. Do not attach the wrist strap to a painted surface.
  2. Rotate the locking lever down to the unlocked position.
  3. Remove the fan tray.
  4. Install the new fan tray from the front or rear of the chassis.
  5. Rotate the locking lever up to the locked position.
  6. Check the LED on the front of the fan tray; the ENGAGED LED should be lit.
  7. Check the LEDs on the alarm card; the FAN FAIL LED should not be lit.
  8. Replace the air filter and update the service date; see Replacing the Air Filter.
    Note:  
    If you do not replace the air filter and then update the service date, the service date stored in the fan tray will not be valid for the air filter.

4.6   Replacing the Air Filter

Figure 30   Air Filter

The SmartEdge 600 router has a built-in air filter that is used with the fan tray to cool the system. The filter is mounted at the right side of the chassis. We recommend that you change this filter every six months (or more often, if required) to ensure the correct airflow through the chassis.


 Caution! 
Risk of equipment damage. Always replace the fan tray or air filter within three minutes of its removal. A working fan tray and air filter are required by the SmartEdge 600 chassis for it to operate without overheating system components.

To replace the air filter:

  1. Remove the current filter by attaching the correct hook or loop side of the new filter to the old one and then pushing it out, toward front or rear. Hook and loop fasteners along the edges of the filter will keep the old filter suspended until you remove it.

     Caution! 
    Risk of equipment damage. During air filter replacement avoid contamination entering the chassis.
  2. For single-sided access (front or rear), attach the correct hook or loop side of the new filter to the old one and then use the new filter to pull out the old one.
    Note:  
    If a cable management bracket is stalled on the right side of the chassis, you must remove the air filter from the rear.

  3. Insert the replacement filter by pushing it into place.
  4. Update the service date for the air filter; either enter the following command in exec mode or ask the system administrator to do so:

    service air-filter

The system updates the service date in the EEPROM of the fan tray, according to the service interval configured by the system administrator.

4.7   Remove and Replace an AC Power Module

Figure 31   Removing an AC Power Module

To remove an AC power module:

  1. Open the front ejector (fan cover) of the power module by squeezing the latch spring and pulling open the ejector.
  2. Slide the module from the shelf.

To replace the AC power module:

  1. Open the front ejector (fan cover) of the power module by squeezing the latch spring and pulling open the ejector.

Figure 32   Inserting an AC Power Module

  1. Insert a module into one of the two center slots (2 and 3) in the shelf.
  2. Push the module in until the right side of the ejector engages the receptacle slot in the shelf wall.
  3. Push closed the ejector lever until the module spring latch locks on the ejector to seat the module.

5   System Overview

The SmartEdge 600 router is a carrier-class product with an architecture that supports packetized traffic. It can be used as an edge aggregation router and simultaneously as a broadband remote access server (BRAS) to directly connect customers to the network. It supports a variety of interfaces and vital services, such as routing protocols, quality of service (QoS), and inbound and outbound access control lists (ACLs).

5.1   Specification Summary

Table 81    General Specifications

Specification

Value

Synchronization

  • Line timing mode (various line cards)

  • Internal timing mode

  • External timing mode

Protection type

  • Power: independent dual-feed

  • XCRP4 Controller: 1:1

  • External timing: 1:1

Operations connections

  • Management workstation (ENET): 10/100Base-T

  • Console terminal (Craft): RS-232

  • Alarms: audible and visual: critical, major, minor, ACO

5.2   Line Card Interfaces

The SmartEdge 600 router supports the following interfaces:

5.3   Packet Mesh Architecture

The SmartEdge 600 router implements a grid of cross connections in its backplane that allows any line card to communicate directly to any other line card in the chassis. Each line card uses a combination of a Packet Mesh ASIC (PMA) and Packet Processing ASICs (PPAs) to perform this function.

5.4   Redundancy

Redundancy features include:

5.5   Alarms

System alarms include:

Pressing the ACO button silences an audible alarm and lights the ACO LED; pressing the button again turns off the ACO LED. Support for the ACO button depends on the release of the operating system.

5.6   System Status

The system status LEDs are located on the fan tray:

5.7   SmartEdge 600 Chassis

The SmartEdge 600 chassis is NEBS compliant and designed for mounting in a standard 19- or 23-inch rack.

5.7.1   Chassis Card Cage

The SmartEdge 600 chassis has a card cage with 14 slots. Two slots are dedicated to the controller cards and 12 slots are available for a flexible combination of line cards.

All cards are installed at the front of the chassis. A cable tray provides the means to route the cables from the front of the chassis to the external equipment.

The rear of the chassis has connectors for alarm outputs, status inputs, dual external timing inputs for synchronization, and dual RS-232 ports for local connections.

Note:  
The operating system does not support the alarm, status, and RS-232 dial-up modem ports.

Electrostatic discharge (ESD) jacks are located on both the front and the rear of the chassis.

5.7.2   Chassis Cooling

Cooling for the chassis is provided by the fan tray installed directly above the card slots. Six fans provide the needed airflow from the bottom of the chassis to the top with exhaust at the rear of the chassis. An air filter is installed below the card cage.

A single fan failure does not impact the operation of the system; however, to prevent overheating, the unit must be replaced as soon as possible.


 Caution! 
Risk of equipment damage. Every slot must have a controller, line, or blank card installed in it. SmartEdge 600 cards can be damaged by lack of cooling when the chassis has empty slots.

5.7.3   Chassis Power

The SmartEdge 600 router power architecture has one power zone with primary (A) and backup (B) sources. For a fully redundant power configuration, both sources must be connected.

6   Card Descriptions

The SmartEdge 600 router supports XCRP4 Controller card and the following line cards.

Table 82    SmartEdge Family Cards

Card Type and Card Description

Physical Ports

Low-Density Version

Low-Density Port Numbers

ATM OC-3c/STM-1c (8-port)


ATM OC-3c/STM-1c (4-port)


ATM OC-12c/STM-4c (2-port)


Enhanced ATM OC-12c/STM-4c IR (1-port)

8


4


2


1

No


No


No


Yes




1, 3

POS OC-3c/STM-1c (8-port)


POS OC-12c/STM-4c (4-port)


POS OC-48c/STM-16c (4-port)


OC-192c/STM-64c (1-port)

1


4


4


8

No


No


No


No




10/100 Ethernet (12-port)


Fast Ethernet–Gigabit Ethernet (60-port FE, 2-port GE)


Gigabit Ethernet (4-port)


Advanced Gigabit Ethernet (4-port)


Gigabit Ethernet 3 (4-port)


Gigabit Ethernet 1020 (10-port)


Gigabit Ethernet 1020 (20-port)(1)


Gigabit Ethernet (5-port)


Gigabit Ethernet (20-port) (1)


Gigabit Ethernet DDR (10-port)


10 Gigabit Ethernet (1-port)


10 Gigabit Ethernet DDR (4-port)


10 Gigabit Ethernet/OC-192c DDR (1-port)

12


60, 2


4


4


4


10


20


5


20


10


1


4


1

No


No


Yes


Yes


No


No


No


No


No


No


No


No


No



1, 3


1, 3










ase

4

N/A

N/A

sse

N/A

N/A

N/A

(1)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 and 20-port GE line cards.


Gigabit Ethernet applies to any Ethernet line card that supports a port speed of 1 Gbps or greater; unless explicitly stated, the speed of any Gigabit Ethernet port is 1 Gbps.

A few line cards have a low-density version on which a limited number of ports are enabled through software entitlement.

Each pair of facility LEDs on the transceiver-based Gigabit Ethernet cards indicates status for its associated port.

These transceivers are described in Transceivers for SmartEdge and SM Family Line Cards.

6.1   Controller Cards

The controller card type designation for the SmartEdge 600 router is XCRP4. Controller cards are installed in slots 7 and 8 in the router

The XCRP4 Controller card supports applications that require high volumes of traffic; it also supports more subscribers than the other controller cards. The interface to BITS or SSU equipment does not support the transmission of timing data to the external equipment.

The controller card is responsible for:

Table 83    XCRP4 Controller Card Features

Feature

XCRP4

Processors

Four processors with shared memory that run independently and perform different functions

Control processor functions

  • SONET/SDH software

  • SmartEdge OS software

  • NetOp EMS software

  • External timing (synchronization) software

Main memory (total)

8 GB DDR-II SDRAM

NVRAM

512 KB DRAM with battery backup

Internal timing

SONET minimum clock (±20.0 ppm in freerun mode, normal mode only)

Real-time clock

Yes, synchronized with NTP server

External timing implementation(1)

Software selectable

Internal storage for system images and files

2 GB

External storage for core dumps and system files

1 GB (NEBS certified)

External ports

1 DB-9 (CRAFT)


1 10/100/1000 Ethernet(2)

(1)  The SmartEdge OS does not support the transmission of data to the external equipment.

(2)  Support for 1 Gbps depends on the release of the SmartEdge OS.


6.1.1   Controller Card LEDs

Figure 33   LEDs on Controller Cards

Each controller card has:

Table 84    Equipment LEDs on Controller Cards

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the controller card.(1)

Blinking

Red

Standby controller is being synchronized with the active controller.(2)

Off

None

No failure exists on the controller card.

ACTIVE

On

Green

This controller card is the active controller.

Off

None

This controller card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

This controller card is the standby controller for the system.

Off

None

This controller card is either the active controller for the system (the ACTIVE LED is on) or has failed (the FAIL LED is on).

CF

On

Green

  • The slot is empty, and it is safe to insert a CF card.

  • The file system on the installed CF card is not mounted, and it is safe to remove the CF card.

Blinking

Green

A CF card is installed in the slot, and the SmartEdge OS is mounting or unmounting the file system.

Off

None

A CF card is installed, the file system is mounted, and the SmartEdge OS might be transferring data to or from the CF card.

Off

None

No read or write operation on the external storage device is in progress.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  The synchronization process is not affected by line card installation and removal; the active controller, and hence the system, continues to be responsive to traffic forwarding and continues to detect and notify the administrator of any faults that occur while the standby controller is being synchronized.


When you first power on the system, the active controller card is in slot 7. Thereafter, the slot changes whenever a switchover occurs. Check the status of the ACTIVE LED or use the show chassis command (in any mode) to determine the slot number.


 Stop! 
Risk of data loss. Do not remove a CF card from its slot while the CF ACTIVE LED is blinking; you can lose data that is being transferred to the device if you enter the unmount /md command (in exec mode) before the data transfer operation is complete. To reduce the risk, you must wait until the CF ACTIVE LED is off; then enter the unmount /md command to prepare the device for removal.

 Stop! 
Risk of equipment failure. Always enter the unmount /md command before removing a CF card. Removing the CF card from its slot without first entering the unmount /md command (in exec mode) can permanently damage the device and cause the kernel to crash.
Table 85    Facility LEDs on Controller Cards

Label

Activity

Color

Description

LINK/ACTIVITY


LINK/ACT

On

Green

The link is present and active.

Blinking

Green

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

SPEED

On

Green

The link is operating at 1 Gbps (XCRP4 only)

On

Yellow

The link is operating at 100 Mbps.

Off

None

The link is operating at 10 Mbps.

Table 86    Synchronization and External Timing LEDs on Controller Cards

Label

Activity

Color

Description

SYNC

On

Green

At least one of the selected synchronization references is in good condition and is providing reference.

Off

None

The selected synchronization reference is external, and all external references have failed. The timing is being internally generated.

EXTERNAL TIMING LOS PRI

On

Yellow

The primary input signal from the external equipment has been configured (provisioned), but is not present.

Off

None

The primary input signal has not yet been configured or has been configured and is present.

EXTERNAL TIMING LOS SEC

On

Yellow

The secondary input signal from the external equipment has been configured but is not present.

Off

None

The secondary input signal has not yet been configured or has been configured and is present.

6.1.2   Supporting Information

The following sections provide information about functional components of the XCRP4 Controller card.

6.1.2.1   Processors

The XCRP4 Controller card has four processors: one processor runs the low-level software and the other three processors run the BRAS and routing software. Support for more than one processor to run the BRAS and routing software depends on the release of the SmartEdge OS.

6.1.2.2   Main Memory

Synchronous Dynamic Random Access Memory (SDRAM) is used by the SmartEdge OS shared databases that are accessed by the line cards. In a chassis with two controller cards, both cards must have the same memory configuration

6.1.2.3   NVRAM with Battery

The NVRAM battery on the XCRP4 Controller card is rechargeable; it is recharged from the power supplied to the SmartEdge router during normal operations. The battery typically lasts more than two years when fully charged and without benefit of being recharged by being powered on.

6.1.2.4   System Clock

The internal clock on an XCRP4 Controller card is a SONET minimum clock (SMC) at ±20.0 ppm in free-run and normal modes only. The system clock performs timing functions for system hardware, regardless of the source of its timing data. Using the SmartEdge OS, you can specify external equipment (external timing mode), the received clock of a line card (line timing mode), or the internal clock on the controller card (internal mode) as the source for the system clock. The real-time clock (RTC) on the XCRP4 Controller cards is initialized before the system is shipped. It is not affected by power failures, system shutdown, or reload. The RTC uses the NVRAM battery. By default, the source of the transmit clock for the ports on a line card is its onboard clock. Depending on the type of line card, the transmit clock for a port on a line card can use instead the receive clock derived from an incoming signal to the port or system clock. Because a port does not interface to the source of the system clock directly, line card synchronization is independent of the type of external timing equipment and the version of the controller card installed in the chassis.

6.1.2.5   External Timing Connection

Figure 34   External Timing Cables Connections

An external timing cable provides a connection from an external synchronization source, such as a building integrated timing supply (BITS) or synchronization supply unit (SSU), to the SmartEdge router. Each cable consists of two individually shielded, twisted wire pairs: one pair for the synchronization input and another pair for the synchronization output.

Note:  
For the XCRP4 Controller card, the type of interface is software selectable. The SmartEdge OS does not support transmission of data to another SmartEdge router or any other external equipment.

The external timing interfaces allow operation of the system clock to be independent of the type of external equipment and the framing of the external line.

Two connections are possible: one from a primary source and one from a secondary source. Either connection can provide timing for the entire chassis (input), regardless of the configuration of the controller cards. See Figure 34 for the location of the connectors for these cables.

An adapter, available as an option, provides wire wrap pins to allow you to attach a cable without a connector. Support for the other ports depends on the release of the operating system.

6.1.2.6   Internal Storage for SmartEdge OS files

A controller card has one or two CF cards (Type I), which store SmartEdge OS images and files. SmartEdge OS storage is organized into three partitions: p0, p1, and /flash. The p0 and p1 partitions each store a system image and its files; the memory on a controller card can be loaded from either partition. The third partition, /flash, stores SmartEdge OS configuration files and other system- and user-created data files. The capacity of the CF cards can vary; the CF cards installed in the active and standby controller cards need not have the same capacity.

6.1.2.7   Optional CF Card


 Caution! 
Risk of data loss. Use only the CF cards provided by Ericsson. You can corrupt the system if you attempt to install a CF card not obtained from Ericsson because these items have not been tested with the SmartEdge router.

A controller card has an external slot on the front panel in which you can install an optional Type I CF card. The XCRP4 Controller card supports Type I CF cards only. When installed (the system is shipped with the slot empty), the CF card captures crash dumps and provides an alternate source for loading SmartEdge OS software, if it is not possible to download it over the network. If a CF card is installed in the active controller card, the standby controller card, if installed, must also have a CF card installed.

6.1.2.8   Ports for System Management Access

The XCRP4 Controller card has a single Craft port, labeled CRAFT. The CRAFT 2 port is the only enabled Each port has a DB-9 connector and provides an RS-232 connection to a local console terminal, a terminal server, or a modem. The Craft port provides access to the SmartEdge OS CLI for configuring and monitoring tasks; it is enabled on both the active and standby controller cards. All controller cards have a single Ethernet port with an RJ-45 connector that runs at 100 Mbps and provides a connection to an Ethernet device such as a switch or hub. This port provides access to the SmartEdge OS CLI from either a local or remote management workstation for configuring and monitoring tasks. Using this port, the system can also communicate with a remote workstation that is running the NetOp EMS software. Support for 1-Gbps speed of the port on the XCRP4 Controller card depends on the release of the SmartEdge OS. The Ethernet management port on the standby controller card is disabled unless the card becomes the active controller card.

6.1.2.9   Monitoring Temperature and Voltage

Temperature is monitored at both air inlet and air outlet locations on a controller card; an over-temperature interrupt signals the SmartEdge OS when the temperature rises above safe operating conditions. Voltages are also monitored and reported to the SmartEdge OS. Administrators can display both temperature and voltage data using commands in the SmartEdge OS CLI.

6.1.2.10   Fully Redundant Configuration

When two controller cards are installed in the SmartEdge 600 chassis, one functions as the active controller and the other card functions as the standby controller, providing full redundancy for high-reliability networking requirements. If a controller card fails, the redundant card automatically becomes the active controller, thereby avoiding any unnecessary service disruption in the network. If you upgrade the active controller card with a new software release, the active controller upgrades the standby controller. Redundancy extends to the console connections on the controller cards: the console ports can each be connected to a terminal server, and the Ethernet management ports can be connected to the same Ethernet hub with individual cables. The software automatically switches to the external timing secondary source should the primary source fail. If both sources fail, the active controller card uses an internal timing source.

6.2   8-Port ATM OC-3c/STM-1c Card

The 8-port ATM OC-3c/STM-1c card is designed as a subscriber-facing module and a network uplink module.

This PPA2-based, third-generation ATM OC-3c/STM-1c card has an increased minimum memory capacity of 1 GB. It also has increased circuit density of 24K with eight CoS queues, or 32K with two or four CoS queues. The 2-port card provides improved performance and supports more ATM VPs and PVCs than the 4-port card.

For information about ATM VPs and PVC support, see related documentation at https://ebusiness.ericsson.net.

This card uses the vc-fair and hsvc-fair SAR images. The vc-fair SAR image provides functionality consistent with PPA1-based ATM cards, but at a higher scale and without VC sparseness issues. The hsvc-fair image supports hierarchical and nonhierarchical shaping, port rate limiting, and VC fairness under congestion. Both vc-fair and hsvc-fair SAR images support statistics.

The SAR devices support two, four, or eight distinct CoS queues for each ATM PVC, allowing a mix of priority- and class-based queuing for each ATM PVC.

When configuring the EPD threshold in hsvc-fair mode, the value used should not exceed 500.

Note:  
The number configured for the threshold has an acceptable range of 2 to 10000; however, in the case of hsvc-fair mode, it should not be configured greater than 500. If it is configured above 500, poor performance can result.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP optical transceivers are supported on any of the ports:

Note:  
Use part number RDH90159/1 (SFP-ATM-OC3-SR-IR) when ordering the SFP transceivers with OC-3 SR-0 or OC-3 IR-1 functionality.

Table 87    8-Port ATM OC-3c/STM-1c Card Specifications

Specification

SR-0(1)

IR-1 (1)

General

Number of ports(2)

8

8

Speed

155 Mbps

155 Mbps

Protection

None

None

Interface

SR-0

SONET OC-3 IR-1/SDH STM I-1

Link power budget(3)

10.0 dB

12.0 dB

Nominal wavelength

1310 nm

1310 nm

Connector type

LC

LC

Cable type

MMF

SMF

Transceiver type

SFP

SFP

Compliance

SFF-8472 and INF-8074i


ANSI-T1.105.06 SR-0

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

Transmitter

Optical output power

–14.0 dBm (max)


–20.0 dBm (min)

–8.0 dBm (max)


–15.0 dBm (min)

Center wavelength range

1270 to 1360 nm

1270 to 1360 nm

Extinction ratio

10.0 dB (min)

8.2 dB (min)

Spectral width (RMS)

7.7 nm (max)

4.0 nm (max)

Receiver

Wavelength range(4)

1260 to 1360 nm

1270 to 1580 nm

Sensitivity

–29.0 dBm

–28.0 dBm

Overload level

–14.0 dBm

–8.0 dBm

(1)  Use part number RDH90159/1 (SFP-ATM-OC3-SR-IR) when ordering the SFP transceivers with OC-3 SR-0 or OC-3 IR-1 functionality.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); the power penalty is 1.0 dB.

(4)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


6.2.1   Status LEDs

Figure 35   Status LEDs on 8-Port ATM OC-3c/STM-1c Card

Table 88    Equipment LEDs on 8-Port ATM OC-3c/STM-1c Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card configured as a protection port.(2)

Off

None

None of the ports on this card configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 89    Facility LEDs on 8-Port ATM OC-3c/STM-1c Card

Label

Activity

Color

Description

LINK

On

Green

Signal is present and within specifications.

Blinking

Green

Signal is present and within specifications; receiving or transmitting packets (not idle cells).

Off

None

Port is not configured, no signal is present, or signal is not within specifications.

LOC

On

Yellow

Local port is in an alarm state, such as a loss of frame (LOF).

Off

None

Local port is in a normal state.

REM

On

Yellow

Remote port cannot obtain synchronization or has a defect or failure, such as an alarm indication signal (AIS).

Off

None

Remote port is in a normal state.

6.3   4-Port ATM OC-3c/STM-1c Card

The 4-port ATM OC-3c/STM-1c Intermediate (IR) card is a low-density version which provides two ports that are enabled through software entitlement. This second-generation ATM OC-3c/STM1-1c card has an increased memory for each port and offers higher performance and support for more ATM virtual paths (VPs) and PVCs than an earlier version of the card.

The card uses two SAR devices, which perform the reassembly function on the incoming ATM cell stream from the physical device and the segmentation function to create the corresponding outgoing ATM cell stream. The SAR devices support two, four, or eight distinct CoS queues for each ATM PVC, allowing a mix of priority- and class-based queuing for each PVC.

For information about ATM VPs and PVC support, see related documentation at https://ebusiness.ericsson.net.

The hardware provides HEC framing for each port; the transmit clock can be derived either from the active controller card or from the onboard local oscillator.

This card occupies a single slot in the chassis and has an SFF transceiver soldered in each port.

Table 90    4-Port ATM OC-3c/STM-1c IR Card Specifications

Specification

IR

General

Number of ports(1)

4 or 2 (low-density version)

Speed

155 Mbps

Protection

1+1 APS—Bidirectional or unidirectional; revertive or nonrevertive switching

Interface

Telcordia IR-1, SDH/STM-1 S-1.1

Link power budget(2)

12 dB

Nominal wavelength

1310 nm

Connector type

LC

Cable type

SMF

Transceiver type

SFF(3)

Compliance

Telcordia GR-253, ANSI T1.102, ITU G.957

Transmitter

Optical output power

–8.0 dBm (max)


–15.0 dBm (min)

Center wavelength range

1261 to 1360 nm

Extinction ratio

8.2 dB (min)

Spectral width (RMS)

7.7 nm (max)

Receiver

Wavelength range

1270 to 1565 nm

Minimum sensitivity

–28.0 dBm

Overload level

–8.0 dBm (min)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); the power penalty is 1.

(3)  The SFF transceiver is soldered to the board an is not removable.


6.3.1   Status LEDs

Figure 36   Status LEDs on 4-Port ATM OC-3c/STM-1c IR Card

Table 91    Equipment LEDs on 4-Port ATM OC-3c/STM-1c IR Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card has been configured as a protection port.(2)

Off

None

None of the ports on this card has been configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 92    Facility LEDs on 4-Port ATM OC-3c/STM-1c IR Card

Label

Activity

Color

Description

LINK

On

Green

Signal is present and within specifications.

Blinking

Green

Signal is present and within specifications; receiving or transmitting packets (not idle cells).

Off

None

Port is not configured, no signal is present, or signal is not within specifications.

LOC

On

Yellow

Local port is in an alarm state, such as a loss of frame (LOF).

Off

None

Local port is in a normal state.

REM

On

Yellow

Remote port cannot obtain synchronization, or has a defect or failure, such as an alarm indication signal (AIS).

Off

None

Remote port is in a normal state.

6.4   2-Port ATM OC-12c/STM-4c Card

The 2-port ATM OC-12c/STM-4c card is designed as a subscriber-facing module and a network uplink module.

This PPA2-based, third-generation ATM OC-12c/STM-4c card has an increased minimum memory capacity of 1 GB. It also has increased circuit density of 24K with eight CoS queues, or 32K with two or four CoS queues. The 2-port card provides improved performance and supports more ATM VPs and PVCs than the 1-port card.

For information about ATM VPs and PVC support, see related documentation at https://ebusiness.ericsson.net.

This card uses the vc-fair and hsvc-fair SAR images. The vc-fair SAR image provides functionality consistent with PPA1-based ATM cards, but at a higher scale and without VC sparseness issues. The hsvc-fair image supports hierarchical and nonhierarchical shaping, port rate limiting, and VC fairness under congestion. Both vc-fair and hsvc-fair SAR images support statistics.

The SAR devices support two, four, or eight distinct CoS queues for each ATM PVC, allowing a mix of priority- and class-based queuing for each PVC.

When configuring the EPD threshold in hsvc-fair mode, the value used should not exceed 500.

Note:  
The number configured for the threshold has an acceptable range of 2 to 10000; however, in the case of hsvc-fair mode, it should not be configured greater than 500. If it is configured above 500, poor performance can result.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP transceivers are supported on the card ports:

Table 93    2–Port ATM OC-12c/STM-4c Line Card Specifications

Specification

SR-0

IR-1

General

Number of ports(1)

2

2

Speed

622.08 Mbps

622.08 Mbps

Protection (facility)(2)

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

Interface

SR-0

SONET OC-12 IR-1/SDH STM I-4

Link power budget

4.0 dB(3)

12.0 dB(4)

Nominal wavelength

1310 nm

1310 nm

Connector type

LC

LC

Cable type

MMF

SMF

Transceiver type

SFP

SFP

Compliance

SFF-8472 and INF-8074i


ANSI-T1.105.06 SR-0

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

Transmitter

Optical output power

–14.0 dBm (max)


–20.0 dBm (min)

–8.0 dBm (max)


–15.0 dBm (min)

Path penalty

Center wavelength range

1270 to 1380 nm

1270 to 1360 nm

Extinction ratio

10.0 dB (min)

8.2 dB (min)

Side-mode suppression radio

30.0 dB (min)

Spectral width

200.0 nm (max)

2.5 nm (max)(5)

Receiver

Wavelength range

1270 to 1580 nm

1270 to 1580 nm

Sensitivity

–26.0 dBm

–28.0 dBm

Overload level

–14.0 dBm

0.0 dBm

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  Protection features for various types of cards and ports depend on the release of the SmartEdge OS; the system supports a mix of protected and unprotected ports.

(3)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); power penalty is 2.0 dB.

(4)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); power penalty is 1.0 dB.

(5)  Measured 20 dB down from center wavelength.


6.4.1   Status LEDs

Figure 37   LEDs on 2-Port ATM OC-12c/STM-4c Line Card

Table 94    Equipment LEDs on 2-Port ATM OC-12c/STM-4c Line Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card configured as a protection port.(2)

Off

None

None of the ports on this card configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 95    Facility LEDs on 2-Port ATM OC-12c/STM-4c Line Card

Label

Activity

Color

Description

LINK

On

Green

Signal is present and within specifications.

Blinking

Green

Signal is present and within specifications; receiving or transmitting packets (not idle cells).

Off

None

Port is not configured, no signal is present, or signal is not within specifications.

LOC

On

Yellow

Local port is in an alarm state, such as a loss of frame (LOF).

Off

None

Local port is in a normal state.

REM

On

Yellow

Remote port cannot obtain synchronization or has a defect or failure, such as an alarm indication signal (AIS).

Off

None

Remote port is in a normal state.

6.5   1-Port Enhanced ATM OC-12c/STM-4c Card

The 1-port Enhanced ATM OC-12c/STM-4c Intermediate Reach (IR) card supports one SONET or SDH SMF port, which operates at 622 Mbps, and can be used either as an optical line or optical trunk interface.

This second-generation ATM OC-12c/STM-4c card can support subscriber circuits and uses two SAR devices. The ingress SAR performs the reassembly function on the incoming ATM cell stream from the physical device. The egress SAR performs the segmentation function to create the corresponding outgoing ATM cell stream.

The hardware provides header error control (HEC) framing for the port. The transmit clock can be derived either from the active controller card or from the onboard local oscillator.

This card supports up to 16,000 ATM permanent virtual circuits (PVCs).

The SAR devices also support enhanced queuing and shaping functions for more granular control over traffic management with two, four, or eight distinct CoS queues for each ATM PVC and allow a mix of priority- and class-based queuing for each PVC. These additional capabilities allow the card to support subscriber circuits.

For information about ATM PVC and traffic management support, see related documentation at https://ebusiness.ericsson.net.

This card occupies a single slot in the chassis and has an SFF transceiver soldered in the port.

Table 96    1-Port Enhanced ATM OC-12c/STM-4c IR Card Specifications

Specification

IR-1

General

Number of ports(1)

1

Speed

622.08 Mbps

Protection (facility)

1+1 APS—Bidirectional or unidirectional; revertive or nonrevertive switching

Interface type

Telcordia IR-1, SDH/STM-4 S-4.1

Link power budget(2)

12.0 dB

Nominal wavelength

1310 nm

Connector type

LC

Cable type

SMF

Transceiver type

SFF(3)

Compliance

Telcordia GR-253


TU G.957

Transmitter

Optical output power

–8.0 dBm (max)


–15.0 dBm (min)

Center wavelength range

1274 to 1356 nm

Extinction ratio

8.2 dB (min)

Spectral width (RMS)

2.5 nm (max)(4)

Receiver

Wavelength range

1270 to 1360 nm

Minimum sensitivity

–28.0 dBm

Overload level

0.0 dBm

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); the power penalty is 1.0 dB.

(3)  The SFF transceiver is soldered to the board an is not removable.

(4)  Measured 20 dB down from center wavelength.


6.5.1   Status LEDs

Figure 38   Status LEDs on 1-Port Enhanced ATM OC-12c/STM-4c IR Card

Table 97    Equipment LEDs on 1-Port Enhanced ATM OC-12c/STM-4c IR Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card has been configured as a protection port.(2)

Off

None

None of the ports on this card has been configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 98    Facility LEDs on 1-Port Enhanced ATM OC-12c/STM-4c IR Card

Label

Activity

Color

Description

LINK

On

Green

Signal is present and within specifications.

Blinking

Green

Signal is present and within specifications; receiving or transmitting packets (not idle cells).

Off

None

Port is not configured, no signal is present, or signal is not within specifications.

LOC

On

Yellow

Local port is in an alarm state, such as a loss of frame (LOF).

Off

None

Local port is in a normal state.

REM

On

Yellow

Remote port cannot obtain synchronization or has a defect or failure, such as an alarm indication signal (AIS).

Off

None

Remote port is in a normal state.

6.6   8-Port POS OC-3c/STM-1c Card

The 8-port POS OC-3c/STM-1c card is designed to be used as a subscriber-facing module and as well as a network uplink module. This card is a PPA2-based card and has a minimum memory capacity of 1 GB.

This POS OC-3c/STM-1c card supports the Point-to-Point Protocol (PPP), high-level data-link control (HDLC), Frame Relay (FR) encapsulations, Modified Deficit Round Robin (MDRR), and POS Link Aggregation Group (LAG) features.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP transceivers are supported on any of the ports:

Note:  
Use part number RDH90159/1 (SFP-ATM-OC3-SR-IR) when ordering the SFP transceivers with OC-3 SR-0 or OC-3 IR-1 functionality.

Table 99    8-Port POS OC-3c/STM-1c Card Specifications

Specification

SR-0(1)

IR-1 (1)

General

Number of ports(2)

8

8

Speed

155.52 Mbps

155.52 Mbps

Protection (facility)(3)

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

Interface

SR-0

SONET OC-3 IR-1 / SDH STM I-1

Link power budget

10.0 dB(4)

13.0 dB(5)

Nominal wavelength

1310 nm

1310 nm

Connector type

LC

LC

Cable type

MMF

SMF

Transceiver type

SFP

SFP

Compliance

SFF-8472 and INF-8074i


ANSI-T1.105.06 SR-0

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

Transmitter

Optical output power

–14.0 dBm (max)


–20.0 dBm (min)

–8.0 dBm (max)


–15.0 dBm (min)

Center wavelength range

1270 to 1360 nm

1270 to 1360 nm

Extinction ratio

10.0 dB (min)

8.2 dB (min)

Spectral width

7.7 nm (max)

4.0 nm (max)

Receiver

Wavelength range

1260 to 1360 nm

1270 to 1580 nm

Sensitivity

–29.0 dBm

–28.0 dBm

Overload level

–14.0 dBm

–8.0 dBm

(1)  Use part number RDH90159/1 (SFP-ATM-OC3-SR-IR) when ordering the SFP transceivers with OC-3 SR-0 or OC-3 IR-1 functionality.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  Protection features for various types of cards and ports depend on the release of the SmartEdge OS; the system supports a mix of protected and unprotected ports.

(4)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); power penalty is 1.0 dB.

(5)  The link power budget is calculated using (minimum output power) – (minimum sensitivity).


6.6.1   Status LEDs

Figure 39   Status LEDs on 8-Port POS OC-3c/STM-1c Card

Table 100    Equipment LEDs on 8-Port POS OC-3c/STM-1c Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card has been configured as a protection port.(2)

Off

None

None of the ports on this card has been configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 101    Facility LED on 8-Port POS OC-3c/STM-1c Card

Label

Activity

Color

Description

LOS

On

Yellow

This port has been configured and enabled, but is experiencing an LOS.

Off

None

This port is in one of the following states:


  • Has been configured (provisioned) and enabled, and is receiving or transmitting traffic.

  • Has been configured, but is currently disabled.

  • Has not yet been configured.

6.7   4-Port POS OC-12c/STM-4c Card

The 4-port POS OC-12c/STM-4c card functions as a network uplink module in edge routing and BRAS applications. This PPA2-based card has an increased minimum memory capacity of 1 GB and supports PPP, HDLC, FR encapsulations, MDRR, and POS LAG features.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP transceivers are supported on the card ports:

Table 102    4-Port POS OC-12c/STM-4c Card Specifications

Specification

SR-0

IR-1

General

Number of ports(1)

4

4

Speed

622.08 Mbps

622.08 Mbps

Protection (facility)(2)

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

Interface

SONET OC-12 SR -0 / SDH STM S-4

SONET OC-12 IR-1 / SDH STM I-4

Link power budget(3)

7.0 dB

12.0 dB

Nominal wavelength

1310 nm

1310 nm

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

Transmitter

Optical output power

–8.0 dBm (max)


–15.0 dBm (min)

–8.0 dBm (max)


–15.0 dBm (min)

Path penalty

Center wavelength range

1270 to 1360 nm

1270 to 1360 nm

Extinction ratio

8.2 dB (min)

8.2 dB (min)

Side-mode suppression radio

30.0 dB (min)

Spectral width

3.0 nm (max) (RMS)

2.5 nm (max)(4)

Receiver

Wavelength range

1270 to 1580 nm

1270 to 1580 nm

Sensitivity

–23.0 dBm

–28.0 dBm

Overload level

0.0 dBm

0.0 dBm

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  Protection features for various types of cards and ports depend on the release of the SmartEdge OS; the system supports a mix of protected and unprotected ports.

(3)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); power penalty is 1.0 dB.

(4)  Measured 20 dB down from center wavelength.


6.7.1   Status LEDs

Figure 40   Status LEDs on 4-Port POS OC-12c/STM-4c Card

Table 103    Equipment LEDs on 4-Port POS OC-12c/STM-4c Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card has been configured as a protection port.(2)

Off

None

None of the ports on this card has been configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 104    Facility LED on 4-Port POS OC-12c/STM-4c Card

Label

Activity

Color

Description

LOS

On

Yellow

This port has been configured and enabled, but is experiencing an LOS.

Off

None

This port is in one of the following states:


  • Has been configured (provisioned) and enabled, and is receiving or transmitting traffic.

  • Has been configured, but is currently disabled.

  • Has not yet been configured.

6.8   4-Port POS OC-48c/STM-16c Card

The 4-port POS OC-48c/STM-16c card functions as a network uplink module in edge routing and BRAS applications. This PPA2-based card has an increased minimum memory capacity of 1 GB.

This POS OC-48c/STM-16c card supports PPP, HDLC, FR encapsulations, MDRR, and POS LAG features.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP transceivers are supported on the card ports:

Table 105    4-Port POS OC-48c/STM-16c Card Specifications

Specification

SR-1

IR-1

LR-2

General

Number of ports(1)

4

4

4

Speed

2488.32 Mbps

2488.32 Mbps

2488.32 Mbps

Protection (facility)(2) (3)

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

  • None

  • 1+1 APS: Bidirectional; revertive or nonrevertive switching

Interface

SONET OC-48 SR-1 / SDH STM S-16

SONET OC-48 IR-1 / SDH STM I-16

SONET OC-48 LR-2 / SDH STM L-16.2

Link power budget(4)

7.0 dB

12.0 dB

25.0 dB

Nominal wavelength

1310 nm

1310 nm

1550 nm

Connector type

LC

LC

LC

Cable type

SMF

SMF

SMF

Transceiver type

SFP

SFP

SFP

Compliance

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

SFF-8472 and INF-8074i


Telcordia GR-253


ITU G.957

Transmitter

Optical output power

–3.0 dBm (max)


–10.0 dBm (min)

0.0 dBm (max)


–5.0 dBm (min)

3.0 dBm (max)


–2.0 dBm (min)

Path penalty

2.0 dB (max)

Center wavelength range

1270 to 1360 nm

1270 to 1360 nm

1500 to 1580 nm

Extinction ratio

8.2 dB (min)

8.2 dB (min)

8.2 dB (min)

Side-mode suppression radio

30.0 dB (min)

30.0 dB (min)

Spectral width

4.0 nm (max) (RMS)

1.0 nm (max)(5)

1.0 nm (max) (5)

Receiver

Wavelength range

1270 to 1580 nm

1270 to 1580 nm

1500 to 1580 nm

Sensitivity

–18.0 dBm

–18.0 dBm

–28.0 dBm

Overload level

–3.0 dBm

0.0 dBm

–9.0 dBm

Optical reflectance

–14.0 dB (max)

–27.0 dB (max)

–27.0 dB (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  Protection features for various types of cards and ports depend on the release of the SmartEdge OS; the system supports a mix of protected and unprotected ports.

(3)  POS APS is not supported on the 4-port POS OC-48c/STM-16c card.

(4)  The link power budget is calculated using (minimum output power) – (minimum sensitivity) – (optical path power penalty); power penalty is 1.0 dB.

(5)  Measured 20 dB down from center wavelength.


6.8.1   Status LEDs

Figure 41   Status LEDs on 4-Port POS OC-48c/STM-16c Card

Table 106    Equipment LEDs on 4-Port POS OC-48c/STM-16c Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card has been configured as a protection port.(2)

Off

None

None of the ports on this card has been configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 107    Facility LED on 4-Port POS OC-48c/STM-16c Card

Label

Activity

Color

Description

LOS

On

Yellow

This port has been configured and enabled, but is experiencing an LOS.

Off

None

This port is in one of the following states:


  • Has been configured (provisioned) and enabled, and is receiving or transmitting traffic.

  • Has been configured, but is currently disabled.

  • Has not yet been configured.

6.9   1-Port OC-192c/STM-64c Card

The 1-port OC-192c/STM-64c card provides a single 9.953-Gbps SONET/SDH port and can be used as either an optical line or optical trunk interface.

The OC-192c/STM-64c card supports PPP, HDLC, and FR encapsulations. It also supports a frame size of up to 9,600 bytes.

This card occupies a single slot in the chassis and requires an XFP transceiver for the port.

The following 10-Gbps XFP transceivers are supported on the card port:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 108    1-Port OC-192c/STM-64c Card Specifications

Specification

SR-1

IR-2

LR-2

Number of ports(1)

1

1

1

Speed

9.953 Gbps

9.953 Gbps

9.953 Gbps

Interface

SR-1/I-64.1

IR-2/S-64.2b

LR-2/P1L1-2D2

Connector type

LC

LC

LC

Cable type

SMF

SMF

SMF

Transceiver type

XFP

XFP

XFP

Compliance

Telcordia GR-253 SR-1


GR-1377-CORE


ITU-T G.691 I-64.1

Telcordia GR-253 IR-2


GR-1377-CORE


ITU-T G.691 S-64.2b

Telcordia GR-253 LR-2


GR-1377-CORE


ITU-T G.691 P1L1-2D2

Transmitter

Optical output power

–6.0 dBm (min)


–1.0 dBm (max)

–1.5 dBm (min)


2.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Path penalty

1.0 dB

2.0 dB

2.0 dB

Center wavelength range

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Extinction ratio

6.0 dB (min)

8.2 dB (min)

8.2 dB (min)

Center wavelength

1310 nm

1310 nm

1550 nm

Spectral width(2)

1.0 nm (max)

1.0 nm (max)

1.0 nm (max)

Side-mode suppression ratio

30.0 dB (min)

30.0 dB (min)

30.0 dB (min)

Receiver

Wavelength range

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Sensitivity

–11.0 dBm (min)

–14.0 dBm (min)

–24.0 dBm (min)

Overload level

0.5 dBm (max)(3)

–1.0 dBm (max)

–7.0 dBm (max)

Optical reflectance

–14.0 dB

–27.0 dB

–27.0 dB

(1)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  Measured 20 dB down from the central wavelength peak.

(3)  The receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 1.0 dB, unless otherwise noted.


6.9.1   Status LEDs

Figure 42   Status LEDs on 1-Port OC-192c/STM-64c Card

Table 109    Equipment LEDs on 1-Port OC-192c/STM-64c Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

At least one of the ports on this card has been configured as a protection port.(2)

Off

None

None of the ports on this card has been configured as a protection port.

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.

(2)  Protection for cards and ports depends on the release of the SmartEdge OS.


Table 110    Facility LED on 1-Port OC-192c/STM-64c Card

Label

Activity

Color

Description

LOS

On

Yellow

This port has been configured and enabled, but is experiencing a LOS.

Off

None

This port is in one of the following states:


  • Has been configured (provisioned) and enabled, and is receiving or transmitting traffic.

  • Has been configured, but is currently disabled.

  • Has not yet been configured.

6.10   12-Port 10/100 Ethernet Card

The 12-port 10/100 Ethernet card provides 12 copper-based 10Base-T or 100Base-TX ports with individually selectable speeds of 10 Mbps or 100 Mbps.

This card is the same size as all other SmartEdge line cards and occupies a single slot in the chassis.

Table 111    12-Port 10/100 Ethernet Card Specifications

Specification

10/100

Number of ports

12

Speed

10 or 100 Mbps (user selectable, auto-sensing)

Protection

None

Protocol

10 Mbps: 10Base-T


100 Mbps: 100Base-TX

Line code

10 Mbps: Manchester coding


100 Mbps: MLT-3

Flow control negotiation

No

Interface

Electrical

Impedance

100 ohms

Connector type

RJ-45

Cable type(1)

2 pair, Category 5 shielded-twisted pair

Compliance

IEEE 802.3, 802.3u

(1)  The shielded cable must be grounded at both ends.


6.10.1   Status LEDs

Figure 43   Status LEDs on 12-Port 10/100 Ethernet Card

Table 112    Equipment LEDs on 12-Port 10/100TX Ethernet Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 113    Facility LEDs on 12-Port 10/100TX Ethernet Card

Label

Activity

Color

Description

LNK

On

Green

The link is up.

Blinking

Green

The link is up and active.

Off

None

The link is down.

SPD

On

Yellow

The link is operating at 100 Mbps.

Off

None

The link is operating at 10 Mbps.

6.11   60-Port Fast Ethernet Card

The 60-port Fast Ethernet (FE) card, which provides 60 FE ports and two Gigabit Ethernet (GE) ports, is also referred to as the FE–GE card. The FE ports are copper-based 10Base-T or 100Base-TX with selectable speeds of 10 Mbps or 100 Mbps, and the GE ports are copper-based 1000Base-TX with selectable speeds of 100 or 1000 Mbps.

This card is the same size as all other SmartEdge line cards and occupies a single slot in the chassis.

Table 114    60-Port Fast Ethernet Card Specifications

Specification

Value

Number of ports

60 10/100; 2 10/1000

Speed

10, 100, or 1000 Mbps (user selectable, 100 Mbps is auto-sensing)

Protection

None

Protocol

10 Mbps: 10Base-T


100 Mbps: 100Base-TX


1000 Mbps: 1000Base-TX

Line code

10 Mbps: Manchester coding


100 Mbps: MLT-3


1000 Mbps: PAM-5

Flow control negotiation

Yes

Interface

Electrical

Impedance

100 ohms

Connector type

MRJ21(1), RJ-45

Cable type(2)

2 pair, Category 5 shielded-twisted pair

Compliance

IEEE 802.3, 802.3u

(1)  In addition to RJ-45 connectors for the GE ports, the FE–GE card has 5 MRJ21 connectors, each of which supports 12 FE ports; the MRJ21 breakout cable has RJ-45 connectors for the individual ports.

(2)  The shielded cable must be grounded at both ends.


6.11.1   Status LEDs

Figure 44   Status LEDs on 60-Port Fast Ethernet Card

Table 115    Equipment LEDs on 60-Port Fast Ethernet Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 116    Facility LEDs for 10/100 Ports on 60-Port Fast Ethernet Card

Label

Activity

Color

Description

01 – 12

On

Yellow

This port is operating at 10 Mbps; the link is up.

Blinking

Yellow

This port is operating at 10 Mbps; the link is up and active.

On

Green

This port is operating at 100 Mbps; the link is up.

Blinking

Green

This port is operating at 100 Mbps; the link is up and active.

Off

None

This port is not configured (no link), no activity exists, or the link is down.

01 – 12


13 – 24


25 – 36


37 – 48


49 – 60

On

Green

The connector for these ports is selected (using the push button at the bottom of the front panel).

Off

None

The connector for these ports is not selected.

Because of the number of 10/100 ports on the 60-port Fast Ethernet card, facility LEDs on those ports are organized differently. Each 10/100 port is identified by two LEDs:

Table 117    Facility LEDs for 100/1000 Ports on 60-Port Fast Ethernet Card

Label

Activity

Color

Description

LNK ACT

On

Green

The link is present and active.

On

Blinking

The link is transmitting and receiving frames.

Off

None

The link has no active frame.

SPD

On

Yellow

The link is operating at 100 Mbps.

On

Green

The link is operating at 1000 Mbps.

Off

None

The link is operating at 10 Mbps.

6.12   4-Port Gigabit Ethernet Card

The 4-port Gigabit Ethernet card is the first version of the Gigabit Ethernet card. This 4-port GE card provides two out of four optical Ethernet ports and supports 256 MB for each Packet Processing ASIC (PPA) on the card.

This card occupies a single slot in the chassis and requires a separate GBIC transceiver for each port:

The following GBIC transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 118    4-Port Gigabit Ethernet Card Specifications

Specification

SX

LX

LX70

TX(1)

Number of ports(2)

2

2

2

2

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Protection

None

None

None

None

Interface

1000Base-SX

1000Base-LX

1000Base-LX70

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(3)

Yes

Yes

Yes

Yes

Connector type(4)

SC

SC

SC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

GBIC

GBIC

GBIC

GBIC

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


–4.0 dBm (max)

–9.5 dBm (min)


–3.0 dBm (max)

0.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1285 to 1340 nm

1540 to 1560 nm

Extinction ratio

9.5 dB

9.0 dB

10.0 dB

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)

0.85 nm (max)

2.50 nm (max)

0.20 nm (max)

Receiver

Wavelength range

770 to 860 nm

1270 to 1565 nm

1200 to 1550 nm

Sensitivity

–17.0 dBm (min)

–20.0 dBm (min)

–22.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  The TX GBIC transceiver does not comply with the Network Equipment Building Standards (NEBS) electrostatic discharge (ESD) requirement.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  The SC connectors on the transceiver are type SC/PC; cable and transceiver connectors must match.


6.12.1   Status LEDs

Figure 45   Status LEDs on 4-Port Gigabit Ethernet Card

Table 119    Equipment LEDs on 4-Port Gigabit Ethernet Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 120    Facility LEDs on 4-Port Gigabit Ethernet Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.13   4-Port Advanced Gigabit Ethernet Card

The 4-port Advanced Gigabit Ethernet card is the second version of the Gigabit Ethernet card. This GE card provides four optical Ethernet ports and supports 512 MB for each PPA.

This card occupies a single slot in the chassis and requires a separate GBIC transceiver for each port.

The following GBIC transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 121    4-Port Advanced Gigabit Ethernet Card Specifications

Specification

SX

LX

LX70

TX(1)

Number of ports(2)

2 or 4

2 or 4

2 or 4

2 or 4

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Protection

None

None

None

None

Interface

1000Base-SX

1000Base-LX

1000Base-LX70

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(3)

Yes

Yes

Yes

Yes

Connector type(4)

SC

SC

SC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

GBIC

GBIC

GBIC

GBIC

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


–4.0 dBm (max)

–9.5 dBm (min)


–3.0 dBm (max)

0.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1285 to 1340 nm

1540 to 1560 nm

Extinction ratio

9.5 dB

9.0 dB

10.0 dB

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)

0.85 nm (max)

2.50 nm (max)

0.20 nm (max)

Receiver

Wavelength range

770 to 860 nm

1270 to 1565 nm

1200 to 1550 nm

Sensitivity

–17.0 dBm (min)

–20.0 dBm (min)

–22.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  The TX GBIC transceiver does not comply with the Network Equipment Building Standards (NEBS) electrostatic discharge (ESD) requirement.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  The SC connectors on the transceiver are type SC/PC; cable and transceiver connectors must match.


6.13.1   Status LEDs

Figure 46   Status LEDs on 4-Port Advanced Gigabit Ethernet Card

Table 122    Equipment LEDs on 4-Port Advanced Gigabit Ethernet Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 123    Facility LEDs on 4-Port Advanced Gigabit Ethernet Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.14   4-Port Gigabit Ethernet 3 Card

The 4-port Gigabit Ethernet 3 Card (GE3) card is designed for traffic management. This PPA2-based, third-generation GE card has an increased minimum memory capacity of 1 GB. It can also process data internally at a much higher rate than the PPAs on the first and second generations of the GE card.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP optical transceivers are supported on the card ports:

Table 124    4-Port GE3 Card Specifications — 1000Base SX, LX, ZX, and TX

Specification

SX

LX

ZX

TX

Number of ports(1)

4

4

4

4

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Interface

1000Base-SX

1000Base-LX

1000Base-ZX

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(2)

Yes

Yes

Yes

Yes

Connector type

LC

LC

LC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

SFP

SFP

SFP

SFP

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


0.0 dBm (max)

–11.0 dBm (min)


–3.0 dBm (max)

–3.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1270 to 1355 nm

1540 to 1560 nm

Extinction ratio

9.0 dB (min)

9.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)(3)

0.85 nm (max)

4.00 nm (max)

1.00 nm (max)(4)

Receiver

Wavelength range(5)

770 to 860 nm

1265 to 1600 nm

1260 to 1620 nm

Sensitivity

–17.0 dBm (min)

–19.0 dBm (min)

–23.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(3)  Root mean square (RMS) value.

(4)  Measured 20 dB down from the center wavelength peak.

(5)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 125    4-Port GE3 Card Specifications — 1000Base BX-D-20 and BX-U-20

Specification(1)

BX-D-20

BX-U-20

Number of ports(2)

4

4

Speed

1 Gbps

1 Gbps

Interface

1000Base-BX-D-20

1000Base-BX-U-20

Line code

8B/10B

8B/10B

Flow control negotiation(3)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

IEEE 802.3 and 802.3ah

IEEE 802.3 and 802.3ah

Transmitter

Optical output power

–7.0 dBm (min)


0.0 dBm (max)

–7.0 dBm (min)


0.0 dBm (max)

Extinction ratio

6.0 dB (min)

6.0 dB (min)

Center wavelength

1490 nm

1310 nm

Spectral width (RMS)

1.00 nm (max)(4)

3.50 nm (max)

Receiver

Center wavelength

1310 nm

1490 nm

Sensitivity

–18.7 dBm (max)

–18.7 dBm (max)

Overload level

0.0 dBm (min)

0.0 dBm (min)

(1)  The Bi-Directional SFP transceivers must be used in pairs, one BX-D-20 and one BX-U-20; otherwise, the links will not work.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Measured 20 dB down from the center wavelength peak.


Table 126    4-Port GE3 Card Specifications — 1000Base CWDM and DWDM

Specification

CWDM

DWDM

Number of ports(1)

4

4

Speed

1 Gbps

1 Gbps

Interface

1000Base-CWDMnnnn(2)

1000Base-DWDMITUnn(3)

Line code

8B/10B

8B/10B

Flow control negotiation(4)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

ITU-T G.694.2

ITU-T G.694.1

Transmitter

Optical output power

–2.0 dBm (min)


5.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Center wavelength range

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Extinction ratio

9.0 dB (min)

8.2 dB (min)

Center wavelength

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Spectral width

1.00 nm (max)(5)

0.30 nm (max)

Receiver

Wavelength range(6)

1260 to 1620 nm

1260 to 1620 nm

Sensitivity

–23.0 dBm (min)

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

–9.0 dBm (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  CWDM nominal wavelengths are 1471, 1491, 1511, 1531, 1551, 1571, 1591, and 1611; specified in ITU G.694.2.

(3)  The range of 1000Base DWDM ITU channels is 17 to 60; see the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(4)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(5)  Measured 20 dB down from the center wavelength peak.

(6)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 127    ITU DWDM Frequencies and Wavelengths

ITU(1)(2)(3)(4)

Frequency (THz)

Wavelength (nm)

 

ITU

Frequency (THz)

Wavelength (nm)

17

191.7

1563.86

 

40

194.0

1545.32

18

191.8

1563.05

 

41

194.1

1544.53

19

191.9

1562.23

 

42

194.2

1543.73

20

192.0

1561.42

 

43

194.3

1542.94

21

192.1

1560.61

 

44

194.4

1542.14

22

192.2

1559.79

 

45

194.5

1541.35

23

192.3

1558.98

 

46

194.6

1540.56

24

192.4

1558.17

 

47

194.7

1539.77

25

192.5

1557.36

 

48

194.8

1538.98

26

192.6

1556.55

 

49

194.9

1538.19

27

192.7

1555.75

 

50

195.0

1537.40

28

192.8

1554.94

 

51

195.1

1536.61

29

192.9

1554.13

 

52

195.2

1535.82

30

193.0

1553.33

 

53

195.3

1535.04

31

193.1

1552.52

 

54

195.4

1534.25

32

193.2

1551.72

 

55

195.5

1533.47

33

193.3

1550.92

 

56

195.6

1532.68

34

193.4

1550.12

 

57

195.7

1531.90

35

193.5

1549.32

 

58

195.8

1531.12

36

193.6

1548.51

 

59

195.9

1530.33

37

193.7

1547.72

 

60

196.0

1529.55

38

193.8

1546.92

 

61

196.1

1528.77

39

193.9

1546.12

       

(1)  The ranges of DWDM ITU channels are application specific.

(2)  The range of GE-DWDM ITU channels is 17 to 60.

(3)  In Release 6.1.4 and later, 10GE-DWDM XFPs support only ITU channels 35, 36, 37, 53, and 55.

(4)  In Release 6.4.1 and later, OTN-DWDM XFPs support only ITU channels 35, 36, 37, 53, and 55.


6.14.1   Status LEDs

Figure 47   Status LEDs on 4-Port GE3 Card

Table 128    Equipment LEDs on 4-Port GE3 Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 129    Facility LEDs on 4-Port GE3 Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.15   10-Port Gigabit Ethernet 1020 Card

The 10-port Gigabit Ethernet 1020 (GE1020) card is designed for traffic management. This PPA2-based card has an increased minimum memory capacity of 1 GB and can process data internally to match the speed of the ports.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP optical transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 130    10-Port Gigabit Ethernet 1020 Card Specifications — 1000Base SX, LX, ZX, and TX

Specification

SX

LX

ZX

TX

Number of ports(1)

10

10

10

10(2)

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Protection

None

None

None

None

Interface

1000Base-SX

1000Base-LX

1000Base-ZX

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(3)

Yes

Yes

Yes

Yes

Connector type

LC

LC

LC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

SFP

SFP

SFP

SFP

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


0.0 dBm (max)

–11.0 dBm (min)


–3.0 dBm (max)

–3.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1270 to 1355 nm

1540 to 1560 nm

Extinction ratio

9.0 dB (min)

9.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)(4)

0.85 nm (max)

4.00 nm (max)

1.00 nm (max)(5)

Receiver

Wavelength range(6)

770 to 860 nm

1265 to 1600 nm

1260 to 1620 nm

Sensitivity

–17.0 dBm (min)

–19.0 dBm (min)

–23.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  A maximum of 10 SFP-TX transceivers can be inserted into a 20-port Gigabit Ethernet card.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Root mean square (RMS) value.

(5)  Measured 20 dB down from the center wavelength peak.

(6)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 131    10-Port Gigabit Ethernet 1020 Card Specifications — 1000Base BX-D-20 and BX-U-20

Specification(1)

BX-D-20

BX-U-20

Number of ports(2)

10

10

Speed

1 Gbps

1 Gbps

Interface

1000Base-BX-D-20

1000Base-BX-U-20

Line code

8B/10B

8B/10B

Flow control negotiation(3)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

IEEE 802.3 and 802.3ah

IEEE 802.3 and 802.3ah

Transmitter

Optical output power

–7.0 dBm (min)


0.0 dBm (max)

–7.0 dBm (min)


0.0 dBm (max)

Extinction ratio

6.0 dB (min)

6.0 dB (min)

Center wavelength

1490 nm

1310 nm

Spectral width (RMS)

1.00 nm (max)(4)

3.50 nm (max)

Receiver

Center wavelength

1310 nm

1490 nm

Sensitivity

–18.7 dBm (max)

–18.7 dBm (max)

Overload level

0.0 dBm (min)

0.0 dBm (min)

(1)  The Bi-Directional SFP transceivers must be used in pairs, one BX-D-20 and one BX-U-20; otherwise, the links will not work.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Measured 20 dB down from the center wavelength peak.


Table 132    10-Port Gigabit Ethernet 1020 Card Specifications — 1000Base CWDM and DWDM

Specification

CWDM

DWDM

Number of ports(1)

10

10

Speed

1 Gbps

1 Gbps

Protection

None

None

Interface

1000Base-CWDMnnnn(2)

1000Base-DWDMITUnn(3)

Line code

8B/10B

8B/10B

Flow control negotiation(4)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

ITU-T G.694.2

ITU-T G.694.1

Transmitter

Optical output power

–2.0 dBm (min)


5.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Center wavelength range

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Extinction ratio

9.0 dB (min)

8.2 dB (min)

Center wavelength

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Spectral width

1.00 nm (max)(5)

0.30 nm (max)

Receiver

Wavelength range(6)

1260 to 1620 nm

1260 to 1620 nm

Sensitivity

–23.0 dBm (min)

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

–9.0 dBm (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  CWDM nominal wavelengths are 1471, 1491, 1511, 1531, 1551, 1571, 1591, and 1611; specified in ITU G.694.2.

(3)  The range of 1000Base DWDM ITU channels is 17 to 60; see the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(4)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(5)  Measured 20 dB down from the center wavelength peak.

(6)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


6.15.1   Status LEDs

Figure 48   Status LEDs on 10-Port Gigabit Ethernet 1020 Card

Table 133    Equipment LEDs on 10-Port Gigabit Ethernet 1020 Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 134    Facility LEDs on 10-Port Gigabit Ethernet 1020 Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.16   20-Port Gigabit Ethernet 1020 Card

The 20-port Gigabit Ethernet 1020 (GE1020) card is designed for traffic management. This PPA2-based card has an increased minimum memory capacity of 1 GB and can process data internally to match the speed of the ports.

This card is bigger than all other SmartEdge line cards and occupies two adjacent slots in the chassis.

The following SFP optical transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 135    20-Port Gigabit Ethernet 1020 Card Specifications — 1000Base SX, LX, ZX, and TX

Specification

SX

LX

ZX

TX(1)

Number of ports(2)

20

20

20

20

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Interface

1000Base-SX

1000Base-LX

1000Base-ZX

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(3)

Yes

Yes

Yes

Yes

Connector type

LC

LC

LC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type(4)

SFP

SFP

SFP

SFP

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


0.0 dBm (max)

–11.0 dBm (min)


–3.0 dBm (max)

–3.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1270 to 1355 nm

1540 to 1560 nm

Extinction ratio

9.0 dB (min)

9.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)(5)

0.85 nm (max)

4.00 nm (max)

1.00 nm (max)(6)

Receiver

Wavelength range(7)

770 to 860 nm

1265 to 1600 nm

1260 to 1620 nm

Sensitivity

–17.0 dBm (min)

–19.0 dBm (min)

–23.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE1020 line card.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  The 20-port GE1020 card requires two adjacent slots for the SFP transceivers.

(5)  Root mean square (RMS) value.

(6)  Measured 20 dB down from the center wavelength peak.

(7)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 136    20-Port Gigabit Ethernet 1020 Card Specifications — 1000Base BX-D-20 and BX-U-20

Specification(1)

BX-D-20

BX-U-20

Number of ports(2)

20

20

Speed

1 Gbps

1 Gbps

Interface

1000Base-BX-D-20

1000Base-BX-U-20

Line code

8B/10B

8B/10B

Flow control negotiation(3)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

IEEE 802.3 and 802.3ah

IEEE 802.3 and 802.3ah

Transmitter

Optical output power

–7.0 dBm (min)


0.0 dBm (max)

–7.0 dBm (min)


0.0 dBm (max)

Extinction ratio

6.0 dB (min)

6.0 dB (min)

Center wavelength

1490 nm

1310 nm

Spectral width (RMS)

1.00 nm (max)(4)

3.50 nm (max)

Receiver

Center wavelength

1310 nm

1490 nm

Sensitivity

–18.7 dBm (max)

–18.7 dBm (max)

Overload level

0.0 dBm (min)

0.0 dBm (min)

(1)  The Bi-Directional SFP transceivers must be used in pairs, one BX-D-20 and one BX-U-20; otherwise, the links will not work.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Measured 20 dB down from the center wavelength peak.


Table 137    20-Port Gigabit Ethernet 1020 Card Specifications — 1000Base CWDM and DWDM

Specification

CWDM

DWDM

Number of ports(1)

20

20

Speed

1 Gbps

1 Gbps

Interface

1000Base-CWDMnnnn(2)

1000Base-DWDMITUnn(3)

Line code

8B/10B

8B/10B

Flow control negotiation(4)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type(5)

SFP

SFP

Compliance

ITU-T G.694.2

ITU-T G.694.1

Transmitter

Optical output power

–2.0 dBm (min)


5.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Center wavelength range

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Extinction ratio

9.0 dB (min)

8.2 dB (min)

Center wavelength

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Spectral width

1.00 nm (max)(6)

0.30 nm (max)

Receiver

Wavelength range(7)

1260 to 1620 nm

1260 to 1620 nm

Sensitivity

–23.0 dBm (min)

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

–9.0 dBm (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  CWDM nominal wavelengths are 1471, 1491, 1511, 1531, 1551, 1571, 1591, and 1611; specified in ITU G.694.2.

(3)  The range of 1000Base DWDM ITU channels is 17 to 60; see the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(4)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(5)  The 20-port GE1020 card requires two adjacent slots for the SFP transceivers.

(6)  Measured 20 dB down from the center wavelength peak.

(7)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


6.16.1   Status LEDs

Figure 49   Status LEDs on 20-Port Gigabit Ethernet 1020 Card

Table 138    Equipment LEDs on 20-Port Gigabit Ethernet 1020 Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 139    Facility LEDs on 20-Port Gigabit Ethernet 1020 Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.17   5-Port Gigabit Ethernet Card

The 5-port Gigabit Ethernet card is designed for traffic management. This PPA2-based, third-generation GE card has an increased minimum memory capacity of 1 GB. It can also process data internally at a much higher rate than the PPAs on the first and second generations of the GE card.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP optical transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 140    5-Port Gigabit Ethernet Card Specifications — 1000Base SX, LX, ZX, and TX

Specification

SX

LX

ZX

TX

Number of ports(1)

5

5

5

5

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Protection

None

None

None

None

Interface

1000Base-SX

1000Base-LX

1000Base-ZX

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(2)

Yes

Yes

Yes

Yes

Connector type

LC

LC

LC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

SFP

SFP

SFP

SFP

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


0.0 dBm (max)

–11.0 dBm (min)


–3.0 dBm (max)

–3.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1270 to 1355 nm

1540 to 1560 nm

Extinction ratio

9.0 dB (min)

9.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)(3)

0.85 nm (max)

4.00 nm (max)

1.00 nm (max)(4)

Receiver

Wavelength range(5)

770 to 860 nm

1265 to 1600 nm

1260 to 1620 nm

Sensitivity

–17.0 dBm (min)

–19.0 dBm (min)

–23.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(3)  Root mean square (RMS) value.

(4)  Measured 20 dB down from the center wavelength peak.

(5)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 141    5-Port Gigabit Ethernet Card Specifications — 1000Base BX-D-20 and -BX-U-20

Specification(1)

BX-D-20

BX-U-20

Number of ports(2)

5

5

Speed

1 Gbps

1 Gbps

Interface

1000Base-BX-D-20

1000Base-BX-U-20

Line code

8B/10B

8B/10B

Flow control negotiation(3)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

IEEE 802.3 and 802.3ah

IEEE 802.3 and 802.3ah

Transmitter

Optical output power

–7.0 dBm (min)


0.0 dBm (max)

–7.0 dBm (min)


0.0 dBm (max)

Extinction ratio

6.0 dB (min)

6.0 dB (min)

Center wavelength

1490 nm

1310 nm

Spectral width (RMS)

1.00 nm (max)(4)

3.50 nm (max)

Receiver

Center wavelength

1310 nm

1490 nm

Sensitivity

–18.7 dBm (max)

–18.7 dBm (max)

Overload level

0.0 dBm (min)

0.0 dBm (min)

(1)  The Bi-Directional SFP transceivers must be used in pairs, one BX-D-20 and one BX-U-20; otherwise, the links will not work.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Measured 20 dB down from the center wavelength peak.


Table 142    5-Port Gigabit Ethernet Card Specifications — 1000Base CWDM and DWDM

Specification(1)

CWDM

DWDM

Number of ports(2)

5

5

Speed

1 Gbps

1 Gbps

Protection

None

None

Interface

1000Base-CWDMnnnn(3)

1000Base-DWDMITUnn(4)

Line code

8B/10B

8B/10B

Flow control negotiation(5)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

ITU G.694.2

ITU G.694.1

Transmitter

Optical output power

–2.0 dBm (min)


5.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Center wavelength range

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Extinction ratio

9.0 dB (min)

8.2 dB (min)

Center wavelength

1471 to 1611 nm

ITU DWDM Transmit Frequencies and Wavelengths

Spectral width

1.00 nm (max)(6)

0.30 nm (max)

Receiver

Wavelength range(7)

1260 to 1620 nm

1260 to 1620 nm

Sensitivity

–23.0 dBm (min)

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

–9.0 dBm (max)

(1)  Data for coarse wavelength-division multiplexing (CWDM) and dense wavelength-division multiplexing (DWDM) transceivers can vary slightly, depending on the manufacturer.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  CWDM nominal wavelengths are 1471, 1491, 1511, 1531, 1551, 1571, 1591, and 1611; specified in ITU G.694.2.

(4)  The range of DWDM ITU channels is 17 to 60; see the ITU DWDM Transmit Frequencies and Wavelengths” table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(5)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(6)  Measured 20 dB down from the center wavelength peak.

(7)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


6.17.1   Status LEDs

Figure 50   LEDs on 5-Port Gigabit Ethernet Card

Table 143    Equipment LEDs on 5-Port Gigabit Ethernet Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 144    Facility LEDs on 5-Port Gigabit Ethernet Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.18   20-Port Gigabit Ethernet Card

The 20-port Gigabit Ethernet (GE) card is designed as a subscriber-facing module and as well as a network uplink module. This third-generation PPA card has an increased minimum memory capacity of 20 Gbps, It also has increased port density compared with previous GE cards. It supports up to 48K circuits per card.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP optical transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 145    20-Port Gigabit Ethernet Card Specifications — 100Base-FX

Specification(1)

FX

Interface

100Base-FX

Link power budget(2)

13.5 dB

Nominal wavelength

1310 nm

Connector type

LC

Cable type

MMF

Compliance

SFF-8472 and INF-8074i

Transmitter

Optical output power

–19.0 dBm (min)


–14.0 dBm (max)

Center wavelength range

1270 to 1380 nm

Extinction ratio

10.0 dB (min)

Center wavelength

1310 nm

Spectral width (RMS)(3)

140.0 nm (max)

Receiver

Wavelength range(4)

1270 to 1380 nm

Sensitivity

–32.5 dBm (min)


–14.0 dBm (max)

Overload level

0.0 dBm (max)

(1)  To display static transceiver data, enter the show hardware command (in any mode) with the card and detail keywords, or, for dynamic data, enter the show port command (in any mode) with the detail keyword. Measured or reported values may meet or exceed performance parameters that are specified in this table.

(2)  Link power budget is calculated using (minimum output power) – (minimum sensitivity).

(3)  Root mean square (RMS) value.

(4)  Receiver sensitivity is degraded 1.0 dB for wavelengths Š 1570 nm.


Table 146    20-Port Gigabit Ethernet Card Specifications — 1000Base SX, LX, ZX, and TX

Specification

SX

LX

ZX

TX(1) (2)

Number of ports(3)

20

20

20

20

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Protection

None

None

None

None

Interface

1000Base-SX

1000Base-LX

1000Base-ZX

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(4)

Yes

Yes

Yes

Yes

Connector type

LC

LC

LC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

SFP

SFP

SFP

SFP

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


0.0 dBm (max)

–11.0 dBm (min)


–3.0 dBm (max)

–3.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1270 to 1355 nm

1540 to 1560 nm

Extinction ratio

9.0 dB (min)

9.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)(5)

0.85 nm (max)

4.00 nm (max)

1.00 nm (max)(6)

Receiver

Wavelength range(7)

770 to 860 nm

1265 to 1600 nm

1260 to 1620 nm

Sensitivity

–17.0 dBm (min)

–19.0 dBm (min)

–23.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  When this 1000Base-TX SFP transceiver is used in the 20x1GE card, a maximum of 10 transceivers can be inserted into the card. These transceivers are inserted into the card such that only one port from each of the following slot pairs is populated: 1-11, 2-12, 3-13, 4-14, 5-15, 6-16, 7-17, 8-18, 9-19, and 10-20. If both ports in a slot pair are populated, the SFP cages of the line card can be damaged.

(2)  Because the TX SFP is larger than a standard SFP, you cannot insert two TX SFPs side by side on the 20-port GE line card.

(3)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(4)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(5)  Root mean square (RMS) value.

(6)  Measured 20 dB down from the center wavelength peak.

(7)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 147    20-Port Gigabit Ethernet Card Specifications — 1000Base BX-D-20 and BX-U-20

Specification(1)

BX-D-20

BX-U-20

Number of ports(2)

20

20

Speed

1 Gbps

1 Gbps

Interface

1000Base-BX-D-20

1000Base-BX-U-20

Line code

8B/10B

8B/10B

Flow control negotiation(3)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

IEEE 802.3 and 802.3ah

IEEE 802.3 and 802.3ah

Transmitter

Optical output power

–7.0 dBm (min)


0.0 dBm (max)

–7.0 dBm (min)


0.0 dBm (max)

Extinction ratio

6.0 dB (min)

6.0 dB (min)

Center wavelength

1490 nm

1310 nm

Spectral width (RMS)

1.00 nm (max)(4)

3.50 nm (max)

Receiver

Center wavelength

1310 nm

1490 nm

Sensitivity

–18.7 dBm (max)

–18.7 dBm (max)

Overload level

0.0 dBm (min)

0.0 dBm (min)

(1)  The Bi-Directional SFP transceivers must be used in pairs, one BX-D-20 and one BX-U-20; otherwise, the links will not work.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Measured 20 dB down from the center wavelength peak.


Table 148    20-Port Gigabit Ethernet Card Specifications — 1000Base CWDM and DWDM

Specification(1)

CWDM

DWDM

Number of ports(2)

20

20

Speed

1 Gbps

1 Gbps

Protection

None

None

Interface

1000Base-CWDMnnnn(3)

1000Base-DWDMITUnn(4)

Line code

8B/10B

8B/10B

Flow control negotiation(5)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

ITU G.694.2

ITU G.694.1

Transmitter

Optical output power

–2.0 dBm (min)


5.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Center wavelength range

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Extinction ratio

9.0 dB (min)

8.2 dB (min)

Center wavelength

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data.

Spectral width

1.00 nm (max)(6)

0.30 nm (max)

Receiver

Wavelength range(7)

1260 to 1620 nm

1260 to 1620 nm

Sensitivity

–23.0 dBm (min)

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

–9.0 dBm (max)

(1)  Data for coarse wavelength-division multiplexing (CWDM) and dense wavelength-division multiplexing (DWDM) transceivers can vary slightly, depending on the manufacturer.

(2)  Each optical port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  CWDM nominal wavelengths are 1471, 1491, 1511, 1531, 1551, 1571, 1591, and 1611; specified in ITU G.694.2.

(4)  The range of DWDM ITU channels is 17 to 60; see the ITU DWDM Transmit Frequencies and Wavelengths” table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(5)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(6)  Measured 20 dB down from the center wavelength peak.

(7)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


6.18.1   Status LEDs

Figure 51   LEDS on 20-Port Gigabit Ethernet Card

In addition to the LEDs, the 20-port GE card also has a push button and a 2-digit port number display on its faceplate:

The equipment LEDs indicate the current status of the card and port status LEDs indicate the state of a port.

Table 149    LINK LEDs on 20-Port Gigabit Ethernet

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 150    Facility LEDs on 20-Port Gigabit Ethernet Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.19   10-Port Gigabit Ethernet DDR Card

The 10-port Gigabit Ethernet DDR-based card is designed for traffic management using second-generation PPAs. This card has an increased minimum memory capacity of 1 GB and can process data internally to match the speed of the ports. It also has increased circuit density of 32K with a minimum of 24K with eight CoS queues.

This card occupies a single slot in the chassis and requires a separate SFP transceiver for each port.

The following SFP optical transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Table 151    10-Port GE DDR Card Specifications (1000Base SX, LX, ZX, and TX)

Specification

SX

LX

ZX

TX

Number of ports

10

10

10

10

Speed

1 Gbps

1 Gbps

1 Gbps

1 Gbps

Interface

1000Base-SX

1000Base-LX

1000Base-ZX

1000Base-TX

Line code

8B/10B

8B/10B

8B/10B

PAM-5

Flow control negotiation(1)

Yes

Yes

Yes

Yes

Connector type

LC

LC

LC

RJ-45

Cable type

MMF

SMF

SMF

Copper

Transceiver type

SFP

SFP

SFP

SFP

Compliance

IEEE 802.3, 802.3z

IEEE 802.3, 802.3z

IEEE 802.3, 802.3ab, 802.3z

Transmitter

Optical output power

–9.5 dBm (min)


0.0 dBm (max)

–11.0 dBm (min)


–3.0 dBm (max)

–3.0 dBm (min)


5.0 dBm (max)

Center wavelength range

830 to 860 nm

1270 to 1355 nm

1540 to 1560 nm

Extinction ratio

9.0 dB (min)

9.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

Spectral width (RMS)(2)

0.85 nm (max)

4.00 nm (max)

1.00 nm (max)(3)

Receiver

Wavelength range(4)

770 to 860 nm

1265 to 1600 nm

1260 to 1620 nm

Sensitivity

–17.0 dBm (min)

–19.0 dBm (min)

–23.0 dBm (min)

Overload level

–3.0 dBm (max)

–3.0 dBm (max)

–3.0 dBm (max)

(1)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(2)  Root mean square (RMS) value.

(3)  Measured 20 dB down from the center wavelength peak.

(4)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


Table 152    10-Port GE DDR Card Specifications (1000Base BX-D-20 and BX-U-20)

Specification

BX-D-20

BX-U-20

Number of ports

10

10

Speed

1 Gbps

1 Gbps

Interface

1000Base-BX-D-20

1000Base-BX-U-20

Line code

8B/10B

8B/10B

Flow control negotiation(1)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

IEEE 802.3 and 802.3ah

IEEE 802.3 and 802.3ah

Transmitter

Optical output power

–7.0 dBm (min)


0.0 dBm (max)

–7.0 dBm (min)


0.0 dBm (max)

Extinction ratio

6.0 dB (min)

6.0 dB (min)

Center wavelength

1490 nm

1310 nm

Spectral width (RMS)

1.00 nm (max)(2)

3.50 nm (max)

Receiver

Center wavelength

1310 nm

1490 nm

Sensitivity

–18.7 dBm (max)

–18.7 dBm (max)

Overload level

0.0 dBm (min)

0.0 dBm (min)

(1)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(2)  Measured 20 dB down from the center wavelength peak.


Table 153    10-Port GE DDR Card Specifications (1000Base CWDM and DWDM)

Specification

CWDM

DWDM

Number of ports

10

10

Speed

1 Gbps

1 Gbps

Interface

1000Base-CWDMnnnn(1)

1000Base-DWDMITUnn(2)

Line code

8B/10B

8B/10B

Flow control negotiation(3)

Yes

Yes

Connector type

LC

LC

Cable type

SMF

SMF

Transceiver type

SFP

SFP

Compliance

ITU-T G.694.2

ITU-T G.694.1

Transmitter

Optical output power

–2.0 dBm (min)


5.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Center wavelength range

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data

Extinction ratio

9.0 dB (min)

8.2 dB (min)

Center wavelength

1471 to 1611 nm

See ITU DWDM Transmit Frequencies and Wavelengths for ITU frequency and wavelength data

Spectral width

1.00 nm (max)(4)

0.30 nm (max)

Receiver

Wavelength range(5)

1260 to 1620 nm

1260 to 1620 nm

Sensitivity

–23.0 dBm (min)

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

–9.0 dBm (max)

(1)  CWDM nominal wavelengths are 1471, 1491, 1511, 1531, 1551, 1571, 1591, and 1611; specified in ITU G.694.2.

(2)  The range of DWDM ITU channels is 17 to 60; see the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(3)  The extent of the support for flow control depends on the release of the SmartEdge OS.

(4)  Measured 20 dB down from the center wavelength peak.

(5)  Receiver sensitivity is degraded 1.0 dB for wavelengths 1570 nm.


6.19.1   Status LEDs

Figure 52   LEDs on 10-Port Gigabit Ethernet DDR Card

Table 154    Equipment LEDs on 10-Port GE DDR Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is On).

(1)  When the card is first plugged in to the chassis, both the FAIL and ACTIVE LEDs stay on until the card is initialized by the Smartedge OS. FAIL - On does not necessarily indicate a card failure.


Table 155    Facility LEDs on 10-Port GE DDR Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.20   1-Port 10 Gigabit Ethernet Card

The 1-port 10 Gigabit Ethernet (1x10GE) card is designed for traffic management using the second-generation PPAs. This card has an increased minimum memory capacity of 1 GB and can process data internally to match the speed of the port, which runs at 10 Gbps.

The port on this line card can be configured as LAN-PHY at 10320 Mbits/s, or WAN-PHY at 9953.25 Mbits/s.

This card occupies a single slot in the chassis and requires an XFP transceiver for the port.

The following 10-Gbps XFP transceivers are supported on the card port:

Note:  
Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

Table 156    1-Port 10 Gigabit Ethernet Card XFP Specifications

Specification

SR

LR

ER

ZR(1) (2)

Number of ports(3)

1

1

1

1

Speed(4)

10.3125 Gbps

10.3125 Gbps

10.3125 Gbps

10.3125 Gbps

Interface

10GBase-SR

10GBase-LR

10GBase-ER

10GBase-ZR

Line code

64B/66B

64B/66B

64B/66B

64B/66B

Connector type

LC

LC

LC

LC

Cable type

MMF

SMF

SMF

SMF

Transceiver type

XFP

XFP

XFP

XFP

Compliance

IEEE 802.3ae

IEEE 802.3ae

IEEE 802.3ae

Transmitter

Optical output power

–7.3 dBm (min)


–1.0 dBm (max)

–8.2 dBm (min)


0.5 dBm (max)

–4.7 dBm (min)


4.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Transmitter dispersion penalty

3.9 dB

3.2 dB

3.0 dB

3.0 dB

Center wavelength range

840 to 860 nm

1260 to 1355 nm

1530 to 1565 nm

1530 to 1565 nm

Extinction ratio

3.0 dB (min)

3.5 dB (min)

3.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

1550 nm

Spectral width (RMS)

802.3ae-2002

Receiver

Wavelength range

840 to 860 nm

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Sensitivity

–11.1 dBm (min)

–12.6 dBm (min)

–14.1 dBm (min)

–22.1 dBm (min)

Overload level

–1.0 dBm (max)(5)

0.5 dBm (max)

–1.0 dBm (max)(6)

–7.0 dBm (max)

(1)  The ZR XFP transceiver is a multi-rate device and can be used in the 10GE line card and the OC-192c/STM-64c LR-2 line card.

(2)  Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

(3)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(4)  The speed of the Ethernet XFPs is 10.3125 Gbps and OC-192 XFP is 9.95 Gbps.

(5)  The SR receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 1.0 dB, unless otherwise noted.

(6)  The ER receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 5.0 dB.


Table 157    1-Port 10 Gigabit Ethernet DWDM XFP Specifications

Specification

DWDM(1)

Interface

10GE-DWDMITUnn(2)

Link power budget

24 dB

Nominal wavelength

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data

Connector type

LC

Cable type

SMF

Transceiver type

XFP

Compliance

ITU G.959.1, P1L1-2D2, ITU-T G.698.1, ITU G.694.1, GR-253 LR-2b

Transmitter

Optical output power

–1.0 dBm (min)


+3.0 dBm (max)

Center wavelength range

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data

Extinction ratio

8.2 dB (min)

Spectral width

0.3 nm (max)(3)

Receiver

Wavelength range

1270 nm to 1600 nm

Sensitivity

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

(1)  10GE-DWDM XFP transceivers can vary slightly, depending on the manufacturer.

(2)  In Release 6.1.4.1 and later, 10GE-DWDM XFP transceivers support only five C-Band ITU channels: 35, 36, 37, 53, and 55. See the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(3)  Measured 20 dB down from the center wavelength peak.


6.20.1   Status LEDs

Figure 53   LEDs on 1-Port 10 Gigabit Ethernet Card

Table 158    Equipment LEDs on 1-Port 10 Gigabit Ethernet Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 159    Facility LEDs on 1-Port 10 Gigabit Ethernet Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.21   4-Port 10 Gigabit Ethernet DDR Card

The 4-port 10GE is a DDR-based card designed to address the requirements for applications and services with large volumes of network traffic. Each 4-port 10GE DDR card is optimized to deliver Ethernet services, operates as an uplink to other switches and routers in the network or for interconnectivity between two SmartEdge routers.

This PPA3-based card has an increased port density compared with previous 10GE cards. It supports up to 48K circuits per card. This 4-port 10GE DDR card is capable of a maximum throughput of 20 Gbps. It can be used in ingress oversubscription mode at a maximum of 2 to 1 (40 Gbps over four 10GE faceplate ports; 20 Gbps within the card and across the backplane). Ports on this card can be configured in one of two ingress oversubscription modes for incoming traffic: priority-based packet discard for traffic from trusted networks and random-based packet discard from unfiltered nontrusted networks.

To allow for optimal operation in cases of ingress oversubscription, generation of Ethernet PAUSE frames for receive flow control purposes is automatically disabled for all ports on a 4-port 10GE DDR card whenever three or more ports on the same card are placed in operation using the no shutdown command.

For more information on the flow-control CLI configuration command description, see related documentation at https://ebusiness.ericsson.net.

This card occupies a single slot in the chassis and requires a separate XFP transceiver for each port.

The following 10-Gbps XFP transceivers are supported on the card ports:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Note:  
Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

Table 160    4-Port 10 Gigabit Ethernet DDR Card Specifications — 10GE-Base SR, LR, ER, and ZR Mode

Specification

SR

LR

ER

ZR(1) (2)

Number of ports(3)

4

4

4

4

Speed(4)

10.3125 Gbps

10.3125 Gbps

10.3125 Gbps

10.3125 Gbps

Interface

10GBase-SR

10GBase-LR

10GBase-ER

10GBase-ZR

Line code

64B/66B

64B/66B

64B/66B

64B/66B

Connector type

LC

LC

LC

LC

Cable type

MMF

SMF

SMF

SMF

Transceiver type

XFP

XFP

XFP

XFP

Compliance

IEEE 802.3ae

IEEE 802.3ae

IEEE 802.3ae

Transmitter

Optical output power

–7.3 dBm (min)


–1.0 dBm (max)

–8.2 dBm (min)


0.5 dBm (max)

–4.7 dBm (min)


4.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Transmitter dispersion penalty

3.9 dB

3.2 dB

3.0 dB

3.0 dB

Center wavelength range

840 to 860 nm

1260 to 1355 nm

1530 to 1565 nm

1530 to 1565 nm

Extinction ratio

3.0 dB (min)

3.5 dB (min)

3.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

1550 nm

Spectral width (RMS)

802.3ae-2002

Receiver

Wavelength range

840 to 860 nm

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Sensitivity

–11.1 dBm (min)

–12.6 dBm (min)

–14.1 dBm (min)

–22.1 dBm (min)

Overload level

–1.0 dBm (max)(5)

0.5 dBm (max)

–1.0 dBm (max)(6)

–7.0 dBm (max)

(1)  The ZR XFP transceiver is a multi-rate device and can be used in the 10GE line card and the OC-192c/STM-64c LR-2 line card.

(2)  Use part number XFP-OC192-LR2 when ordering the XFP transceivers with 10GE ZR functionality.

(3)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(4)  The speed of the Ethernet XFPs is 10.3125 Gbps and OC-192 XFP is 9.95 Gbps.

(5)  The SR receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 1.0 dB, unless otherwise noted.

(6)  The ER receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 5.0 dB.


Table 161    4-Port 10 Gigabit Ethernet DDR Card Specifications — DWDM

Specification

DWDM(1)

Interface

DWDMnn(2)

Link power budget

24 dB

Nominal wavelength

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data

Connector type

LC

Cable type

SMF

Transceiver type

XFP

Compliance

ITU G.959.1 P1L1-2D2, ITU-T G698.1, and ITU 694.1


GR-253 LR-2b

Transmitter

Optical output power

–1.0 dBm (min)


+3.0 dBm (max)

Center wavelength range

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data

Extinction ratio

8.2 dB (min)

Spectral width

0.3 nm (max)(3)

Receiver

Wavelength range

1270 nm to 1600 nm

Sensitivity

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

(1)  10GE-DWDM XFP transceivers can vary slightly, depending on the manufacturer.

(2)  In Release 6.1.4.1 and later, 10GE-DWDM XFP transceivers support only five C-Band ITU channels: 35, 36, 37, 53, and 55. See the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(3)  Measured 20 dB down from the center wavelength peak.


Table 162    4-Port 10 Gigabit Ethernet DDR Card Specifications — OTN-DWDM

Specification

OTN-DWDM(1)

Number of ports(2)

4

Speed

9.953 Gbps

Interface

OTN-DWDMnn(3)

Line code

64B/66B

Connector type

LC

Cable type

SMF

Transceiver type

XFP

Compliance

ITU G.707, ITU G.709, ITU G.798, ITU G.8251, and ITU G959.1


SFF INF-8077i, SFF 8477


IEEE 802.3ae-2004


Bellcore GR253i3 - Jitter and Eye Mask Compliance portion only

Transmitter

Optical output power

0.0 dBm (min)


+3.0 dBm (max)

Center wavelength range

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data

Extinction ratio

9.0 dB (min)

Spectral width

1.0 nm (max)(4)

Receiver

Wavelength range

1527 nm to 1567 nm

Sensitivity

-28.0 dBm (min)

Overload level

+5.0 dBm (max)

(1)  OTN-DWDM XFP transceivers can vary slightly, depending on the manufacturer.

(2)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  In Release 6.4.1 and later, OTN-DWDM XFP transceivers support only five C-Band ITU channels: 35, 36, 37, 53, and 55; see the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.709 and ITU-T Ch. 20 -61.

(4)  Measured 20 dB down from the center wavelength peak.


6.21.1   Status LEDs

Figure 54   LEDs on 4-Port 10 Gigabit Ethernet DDR Card

Table 163    Equipment LEDs on 4-Port 10 Gigabit Ethernet DDR Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 164    Facility LEDs on 4-Port 10 Gigabit Ethernet DDR Card

Label

Activity

Color

Description

ACT

On

Yellow

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK

On

Green

The link is up.

Off

None

The link is down.

6.22   1-Port 10 Gigabit Ethernet/OC-192c DDR Card

The 1-port 10GE/OC-192c DDR-based card designed for traffic management using second-generation PPAs. This multimode DDR card supports the 10GE LAN-PHY, 10GE WAN-PHY, 10GE-DWDM, POS OC-192c, OC-192c DWDM, or OTN-DWDM modes for the SmartEdge routers.

This card supports a minimum of 1 GB of memory capacity and can process data internally to match the speed of the port — 10.3125 Gbps in 10GE LAN-PHY or 10GE-DWDM mode; 9.953 Gbps in 10GE WAN-PHY, POS OC-192c, or OC-192c DWDM mode; and 11.0957 Gbps in OTN-DWDM mode.

For Ethernet LAN-PHY and WAN-PHY modes, this card supports dot1q, PPPoE, and plain Ethernet encapsulations. For POS mode, it supports PPP, HDLC, and FR encapsulations.

For 10GE LAN-PHY, 10GE WAN-PHY, 10GE-DWDM, or OTN-DWDM mode, the maximum MTU is 9,198 bytes; for POS OC–192c or OC–192c DWDM mode, 12,800 bytes.

This card occupies a single slot in the chassis and requires an XFP transceiver for the port.

The following XFP transceivers are supported on the card port:


 Caution! 
Risk of data loss. You can corrupt the system if you attempt to install transceivers (GBICs, SFPs, or XFPs) not purchased from Ericsson; these transceivers have not been tested with the SmartEdge router. To reduce the risk, install only approved transceivers.
Note:  
When ordering the XFP transceivers with 10GE ZR/ZW functionality, use part number XFP-OC192-LR2.

Table 165    1-Port 10GE/OC-192c DDR Card Specifications — 10GE LAN-PHY

Specification

SR

LR

ER

ZR(1)

Number of ports(2)

1

1

1

1

Speed

10.3125 Gbps

10.3125 Gbps

10.3125 Gbps

10.3125 Gbps

Interface

10GBase-SR

10GBase-LR

10GBase-ER

10GBase-ZR

Line code

64B/66B

64B/66B

64B/66B

64B/66B

Connector type

LC

LC

LC

LC

Cable type

MMF

SMF

SMF

SMF

Transceiver type

XFP

XFP

XFP

XFP

Compliance

IEEE 802.3ae

IEEE 802.3ae

IEEE 802.3ae

Transmitter

Optical output power

–7.3 dBm (min)


–1.0 dBm (max)

–8.2 dBm (min)


0.5 dBm (max)

–4.7 dBm (min)


4.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Transmitter dispersion penalty

3.9 dB

3.2 dB

3.0 dB

3.0 dB

Center wavelength range

840 to 860 nm

1260 to 1355 nm

1530 to 1565 nm

1530 to 1565 nm

Extinction ratio

3.0 dB (min)

3.5 dB (min)

3.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

1550 nm

Spectral width (RMS)

802.3ae-2002

Receiver

Wavelength range

840 to 860 nm

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Sensitivity

–11.1 dBm (min)

–12.6 dBm (min)

–14.1 dBm (min)

–22.1 dBm (min)

Overload level

–1.0 dBm (max)(3)

0.5 dBm (max)

–1.0 dBm (max)(4)

–7.0 dBm (max)

(1)  The ZR XFP transceiver is a multirate device and can be used in the 10GE line card and the OC-192c/STM-64c LR-2 line card, using part number XFP-OC192-LR2.

(2)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The SR receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 1.0 dB, unless otherwise noted.

(4)  The ER receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 5.0 dB.


Table 166    1-Port 10GE/OC-192c DDR Card Specifications — 10GE WAN-PHY

Specification

SW

LW

EW

ZW(1)

Number of ports(2)

1

1

1

1

Speed

9.953 Gbps

9.953 Gbps

9.953 Gbps

9.953 Gbps

Interface

10GBase-SW

10GBase-LW

10GBase-EW

10GBase-ZW

Line code

64B/66B

64B/66B

64B/66B

64B/66B

Connector type

LC

LC

LC

LC

Cable type

MMF

SMF

SMF

SMF

Transceiver type

XFP

XFP

XFP

XFP

Compliance

IEEE 802.3ae

IEEE 802.3ae

IEEE 802.3ae

Transmitter

Optical output power

–7.3 dBm (min)


–1.0 dBm (max)

–8.2 dBm (min)


0.5 dBm (max)

–4.7 dBm (min)


4.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Transmitter dispersion penalty

3.9 dB

3.2 dB

3.0 dB

3.0 dB

Center wavelength range

840 to 860 nm

1260 to 1355 nm

1530 to 1565 nm

1530 to 1565 nm

Extinction ratio

3.0 dB (min)

3.5 dB (min)

3.0 dB (min)

9.0 dB (min)

Center wavelength

850 nm

1310 nm

1550 nm

1550 nm

Spectral width (RMS)

802.3ae-2002

Receiver

Wavelength range

840 to 860 nm

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Sensitivity

–11.1 dBm (min)

–12.6 dBm (min)

–14.1 dBm (min)

–22.1 dBm (min)

Overload level

–1.0 dBm (max)(3)

0.5 dBm (max)

–1.0 dBm (max)(4)

–7.0 dBm (max)

(1)  The ZW XFP transceiver is a multirate device and can be used in the 10GE line card and the OC-192c/STM-64c LR-2 line card, using part number XFP-OC192-LR2.

(2)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  The SR receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 1.0 dB, unless otherwise noted.

(4)  The ER receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 5.0 dB.


Table 167    1-Port 10GE/OC-192c DDR Card Specifications — DWDM

Specification

DWDM(1)

Number of ports(2)

1

Speed

10GE: 10.3125 Gbps


OC-192c: 9.953 Gbps

Interface

10GE-DWDMnn(3)

Line code

64B/66B

Connector type

LC

Cable type

SMF

Transceiver type

XFP

Compliance

ITU G.959.1 P1L1-2D2, ITU-T G698.1, and ITU 694.1


GR-253 LR-2b

Transmitter

Optical output power

–1.0 dBm (min)


+3.0 dBm (max)

Center wavelength range

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data.

Extinction ratio

8.2 dB (min)

Spectral width

0.3 nm (max)(4)

Receiver

Wavelength range

1270 nm to 1600 nm

Sensitivity

–24.0 dBm (min)

Overload level

–7.0 dBm (max)

(1)  10GE-DWDM XFP transceivers can vary slightly, depending on the manufacturer.

(2)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  In Release 6.1.4.1 and later, 10GE-DWDM XFP transceivers support only five C-Band ITU channels: 35, 36, 37, 53, and 55. See the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.694.1.

(4)  Measured 20 dB down from the center wavelength peak.


Table 168    1-Port 10GE/OC-192c DDR Card Specifications — OTN-DWDM

Specification

OTN-DWDM(1)

Number of ports(2)

1

Speed

11.0957 Gbps

Interface

OTN-DWDMnn(3)

Line code

64B/66B

Connector type

LC

Cable type

SMF

Transceiver type

XFP

Compliance

ITU G.707, ITU G.709, ITU G.798, ITU G.8251, and ITU G959.1


SFF INF-8077i, SFF 8477


IEEE 802.3ae-2004


Bellcore GR253i3 - Jitter and Eye Mask Compliance portion only

Transmitter

Optical output power

0.0 dBm (min)


+3.0 dBm (max)

Center wavelength range

See the ITU DWDM Transmit Frequencies and Wavelengths table for ITU frequency and wavelength data

Extinction ratio

9.0 dB (min)

Spectral width

1.0 nm (max)(4)

Receiver

Wavelength range

1527 nm to 1567 nm

Sensitivity

-28.0 dBm (min)

Overload level

+5.0 dBm (max)

(1)  OTN-DWDM XFP transceivers can vary slightly, depending on the manufacturer.

(2)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(3)  In Release 6.4.1 and later, OTN-DWDM XFP transceivers support only five C-Band ITU channels: 35, 36, 37, 53, and 55; see the ITU DWDM Transmit Frequencies and Wavelengths table for the frequency and wavelength of each ITU channel; specified in ITU G.709 and ITU-T Ch. 20 -61.

(4)  Measured 20 dB down from the center wavelength peak.


Table 169    1-Port 10GE/OC-192c DDR Card Specifications — POS OC-192c/STM-64c

Specification

SR-1

IR-2

LR-2

Number of ports(1)

1

1

1

Speed

9.953 Gbps

9.953 Gbps

9.953 Gbps

Interface

SR-1/I-64.1

IR-2/S-64.2b

LR-2/P1L1-2D2

Connector type

LC

LC

LC

Cable type

SMF

SMF

SMF

Transceiver type

XFP

XFP

XFP

Compliance

Telcordia GR-253 SR-1


GR-1377-CORE


ITU G.691 I-64.1

Telcordia GR-253 IR-2


GR-1377-CORE


ITU G.691 S-64.2b

Telcordia GR-253 LR-2


GR-1377-CORE


ITU G.691 P1L1-2D2

Transmitter

Optical output power

–6.0 dBm (min)


–1.0 dBm (max)

–1.5 dBm (min)


2.0 dBm (max)

0.0 dBm (min)


4.0 dBm (max)

Path penalty

1.0 dB

2.0 dB

2.0 dB

Center wavelength range

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Extinction ratio

6.0 dB (min)

8.2 dB (min)

8.2 dB (min)

Center wavelength

1310 nm

1310 nm

1550 nm

Spectral width(2)

1.0 nm (max)

1.0 nm (max)

1.0 nm (max)

Side-mode suppression ratio

30.0 dB (min)

30.0 dB (min)

30.0 dB (min)

Receiver

Wavelength range

1270 to 1565 nm

1270 to 1565 nm

1270 to 1565 nm

Sensitivity

–11.0 dBm (min)

–14.0 dBm (min)

–24.0 dBm (min)

Overload level

0.5 dBm (max)(3)

–1.0 dBm (max)

–7.0 dBm (max)

Optical reflectance

–14.0 dB

–27.0 dB

–27.0 dB

(1)  The port has separate connectors for the transmit (Tx) and receive (Rx) circuits.

(2)  Measured 20 dB down from the central wavelength peak.

(3)  The receiver tolerates, without damage, continuous exposure to an optical input signal having an overload level equal to the stated value, plus at least 1.0 dB, unless otherwise noted.


6.22.1   Status LEDs

Figure 55   LEDs on 1-Port 10GE/OC-192c DDR Card

Table 170    Equipment LEDs on 1-Port 10GE/OC-192c DDR Card

Label

Activity

Color

Description

FAIL(1)

On

Red

The card is configured, but a failure exists.(2)

Off

None

No failure exists on the card.

ACTIVE (1)

On

Green

This card is in service.

Off

None

This card is either on standby (the STDBY LED is On) or has failed (the FAIL LED is On).

STDBY (1)(3)

On

Yellow

The POS OC–192 c/STM-64c port works as APS standby.

Off

None

The port is not configured as a protection port.

(1)  APS protection is only supported on the POS OC-192c/STM-64c port, and not the 10 Gigabit Ethernet port.

(2)  When the card is first powered up, both the FAIL and ACTIVE LEDs stay on until the card is initialized by the SmartEdge OS. FAIL - On does not necessarily indicate a card failure.

(3)  Applies to the POS OC-192c/STM-64c port only.


Table 171    Facility LEDs on 1-Port 10GE/OC-192c DDR Card

Label

Activity

Color

Description

In 10GE LAN-PHY or WAN-PHY Mode

ACT

On

Green Blinking

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK/LOS(1)

On

Green

The port is configured and the link is Up.

Off

None

The port is not configured or the link is Down.

In POS OC-192c/STM-64c Mode

ACT

On

Green Blinking

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

LNK/LOS (1)

On

Yellow

The port is configured and a LOS condition exists.

Off

None

The port is not configured or no LOS condition occurred.

(1)  LNK LED concept applied in both Ethernet LAN-PHY and WAN-PHY modes; LOS LED concept is applied in POS OC-192c/STM-64c mode only.


7   Advanced Services Engine

The Advanced Services Engine (ASE) card provides advanced security functions to protect the network at its edge. Using Deep Packet Inspection (DPI), the ASE card can identify and process point-to-point (P2P) applications, and provide a more efficient and secured network operation.

Security features on the ASE card ensure minimal network disruption and provide secure tunnels for end-user applications. You perform IP Security (IPSec) configuration, management, and reporting with NetOp Element Manager System.

Table 172    ASE Card Specifications

Specification

Value

Number of ports

Two for each ASP

Speed

10/100/1000 Mbps

Protection

None

Interface

Ethernet BaseT

Connection type

RJ-45

Compliance

IEEE 802.3, 802.3u, 802.3ab

Table 173    ASE Card Port Data

Type of Card and Card Description

Physical Ports(1)

Low-Density Version

Low-Density Port Numbers

Advanced Services Engine

4 (2 for each ASP)(2)

No

(1)  The SmartEdge OS does not support these ports directly.

(2)  These ports are not used for control or data traffic. They are used for netboot only in a development environment.


7.1   LEDs

Figure 56   LEDs on ASE Card

Table 174    Equipment LEDs on the ASE Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

This card is on standby.

Off

None

This card is in service (the ACTIVE LED is on) or has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being on.


Table 175    Facility LEDs for the ASE Card

Label

Activity

Color

Description

LNK ACT

On

Green

The link is present and active.

On

Blinking

The link is transmitting or receiving frames.

Off

None

The link has no active frame.

SPD

On

Yellow(1)

The link is operating at 100 Mbps.

On

Green

The link is operating at 1000 Mbps.

On

Green

The link is operating at 10 Mbps.(2)

(1)  The default condition for no link or cable attached is yellow.

(2)  The LED shows green for both 10 and 1000 Mbps.


7.2   Provisioning and Configuring the ASE Card

The following steps give a brief overview of how to provision and configure applicable SmartEdge chassis for the ASE card:

  1. To provision a chassis for the ASE card, use either the NetOp Element Management System (EMS) or the card ase slot CLI command.
    Note:  
    The ASPs of the ASE card must be configured under an ASP pool before the processor can be brought up.

    For more information about ASE-related CLI commands, seeAdvanced Services Configuration and Operation Using the SmartEdge OS CLI (1/1543-CRA 119 1170/1).

  2. To monitor the progress of provisioning the chassis for the ASE card, use the show chassis command.

    Automatic processing copies the ASE software to the ASPs during provisioning. Reissue the command until it shows you that the ASPs are up and running.

  3. To configure the ASE card for IPSec VPNs, you must use the NetOp EMS Security Services software.

    For more information about Security Services using NetOp EMS Security Services software, see Advanced Services Configuration and Operation Using the NetOp EMS Software (1553-CRA 119 1170/1).

7.3   ASE Operational Commands

The following are ASE operational commands:

[local]Egle6#sh chassis
Current platform is SE1200
Flags:
A-Active Crossconnect     B-Standby Crossconnect    C-SARC Ready
D-Default Traffic Card    E-EPPA Ready              G-Upgrading FPGA
H-Card Admin State SHUT   I-IPPA Ready              M-FPGA Upgrade Required
N-SONET EU Enabled        O-Card Admin State ODD    P-Coprocessor Ready
P1-ASP1 Ready             P2-ASP2 Ready             R-Traffic Card Ready
S-SPPA Ready              U-Card PPAs/ASP UP        W-Warm Reboot
X-XCRP mismatch)
Slot: Configured-type    Slot: Installed-type    Initialized    Flags 
2 : ase                  2 : ase                 Yes            P1P2UR
7 : xcrp                 7 : xcrp                Yes

[local]Egle6#
Note:  
Look for P1P2UR to verify that the ASE card is up.

For more information about ASE-related CLI commands, seeAdvanced Services Configuration and Operation Using the SmartEdge OS CLI (1/1543-CRA 119 1170/1).

7.4   Operating Status

The ASE card has equipment LEDs at the top of each card to indicate the current status of the card, and facility LEDs to indicate the status of the ports.

Note:  
The ASE card is not NEBS compliant; therefore, when installed in the SmartEdge 400 chassis, it is not capable of operating at 104°F (40°C.)

8   SmartEdge Storage Engine

The SmartEdge Storage Engine (SSE) card is an internal services card designed to provide fault-tolerant file storage services for clients and various applications internal to the SmartEdge 600, SmartEdge1200, or SmartEdge 1200H router. This highly available services card provides Network File System (NFS) services to store large amounts of data.

The SSE card supports up to two SCSI Attached Storage (SAS) hard disk drives (HDD) with an onboard SAS controller, Network Processor (NP), Packet Mesh ASIC (PMA), and other components. This card operates with the XCRP4 Controller cards and in any I/O card slot in the SmartEdge 600, SmartEdge1200, or SmartEdge 1200H router.

8.1   Hard Disk Drive Description

The SSE card houses one or two standard SAS 2.5” drives, which are hot-swappable field-replaceable units that can be mounted in a HDD slot on the SSE without removing the card. You can insert and remove an HDD without affecting the operation of the other HDD. These HDDs are separate devices and can be used to perform Redundant Array of Independent Disks (RAID1) redundancy to provide a highly fault tolerant system.

The HDDs have a storage capacity of 300 GB and are controlled by CLI commands received from the Network Processor (NP) through the SAS controller.

The SAS controller is used by the NP to communicate to the SAS drives. The controller handles all HDD communications and start-up procedures.

8.2   Specifications and LEDs

Table 176    SSE Card Specifications

Specification

Value

Number of HDD slots

Two

Interface

Two SAS HDD modules

Connection type

Two 29-pin right angle SAS connectors

Compliance

IEEE 802.3, 802.3u, 802.3ab

Operating temperature

Table 42 lists descriptions of each temperature condition.


Table 43 lists temperature ranges for card types.

Operating altitude (max)

0 to 10,000 ft (3,048m)

Operating relative humidity

5 to 90% RH (noncondensing)

Table 177    SAS Connector Pin Assignments

Pin #

Signal Name

Signal Type

 

Pin #

Signal Name

Signal Type

S1

Ground for SAS Primary

Ground

 

S8

Ground for SAS Secondary

Ground

S2

SAS Primary TP+

Output

 

S9

SAS Secondary TS+

Output

S3

SAS Primary TP-

Output

 

S10

SAS Secondary TS-

Output

S4

Ground for SAS Primary

Ground

 

S11

Ground for SAS Secondary

Ground

S5

SAS Primary RP-

Input

 

S12

SAS Secondary RS-

Input

S6

SAS Primary RP+

Input

 

S13

SAS Secondary RS+

Input

S7

Ground for SAS Primary

Ground

 

S14

Ground for SAS Secondary

Ground

P1

+3.3V

Power

 

P8

+5.0V

Power

P2

+3.3V

Power

 

P9

+5.0V

Power

P3

+3.3V Pre-charge

Power

 

P10

Ground

Ground

P4

Ground

Ground

 

P11

Ready LED, O.C. Output, LOL = 15 mA

Output

P5

Ground

Ground

 

P12

Ground

Power

P6

Ground

Ground

 

P13

+12.0V Pre-charge

Power

P7

+5.0V Pre-charge

Power

 

P14

+12.0V

Power

 

 

 

 

P15

+12V

Power

Table 178    SSE Card Slot Data

Type of Card and Card Description

Physical Slots(1)

SmartEdge Storage Engine

2 HDD slots(2)

(1)  The SmartEdge OS does not support these ports directly.

(2)  Supported by the CLI commands received from the Network Processor (NP) through the SAS controller.


The SSE card provides equipment LEDs at the top of each card to indicate the current status of the card, and facility LEDs to indicate the status of the HDDs.

Figure 57   LEDs on SSE Cards

Table 179    Equipment LEDs on the SSE Card

Label

Activity

Color

Description

FAIL

On

Red

A failure exists on the card.(1)

Off

None

No failure exists on the card.

ACTIVE

On

Green

This card is in service.

Off

None

This card is on standby (the STDBY LED is on) or has failed (the FAIL LED is on).

STDBY

On

Yellow

This card is on standby.

Off

None

This card is in service (the ACTIVE LED is on) or has failed (the FAIL LED is on).

(1)  A failure can be total, partial, or forced. Failure on any part of the card, including failure of any of its ports, results in the FAIL LED being lit.


Table 180    Facility LEDs for the HDD on the SSE Card

Label

Color

Activity

Description

Disk 1 or Disk 2

Green

On

The HDD is powered on.

Green

Blinking

The HDD is in active mode.

None

Off

The HDD is powered off.

Yellow

On

The HDD can be removed for servicing.

Yellow

Blinking

The HDD data is being synchronized to another HDD.

None

Off

The HDD is in normal operation mode.

8.3   Provision and Configure the SSE Card

Configuring an SSE card involves provisioning the SSE card, partitioning the disks, and setting up a redundancy scheme. For detailed information about how to configure and operate an SSE card, see SSE Configuration and Operation (86/1543-CRA 119 1170/1).

8.4   SSE Operational Commands

The following are SSE operational commands:

For more information on SSE-related commands, see SSE Configuration and Operation (86/1543-CRA 119 1170/1).

8.5   Operating Status

Equipment LEDs indicate the current status of the SSE card, and facility LEDs indicate the status of the HDDs.