Part No. 060236-10, Rev. E July 2010 OmniSwitch 6400 Series Hardware Users Guide www.alcatel-lucent.
This user guide documents OmniSwitch 6400 Series hardware, including chassis and associated components. The specifications described in this guide are subject to change without notice. Copyright © 2010 by Alcatel-Lucent. All rights reserved. This document may not be reproduced in whole or in part without the express written permission of Alcatel-Lucent. Alcatel-Lucent® and the Alcatel-Lucent logo are registered trademarks of Alcatel-Lucent.
Contents Contents About This Guide ..........................................................................................................ix Supported Platforms .......................................................................................................... ix Who Should Read this Manual? ........................................................................................ xi When Should I Read this Manual? ...................................................................................
Contents OmniSwitch 6400-P48 Rear Panel .........................................................................2-18 OS6400-P48 Specifications ....................................................................................2-19 LED Status Indicators ...................................................................................................2-20 OmniSwitch 6400 Series Power Supplies .....................................................................2-21 PS-510W-AC Power Supply ................
Contents Recommended Cabling Patterns ......................................................................3-10 Installing Power Supplies ..............................................................................................3-13 Connecting a Power Supply to the Chassis ...................................................................3-13 Next Steps ..............................................................................................................3-14 Rack Mounting Power Supplies .....
Contents Priority Disconnect is Enabled; Incoming PD Port has Lowest Priority Level ......................................................5-10 Priority Disconnect is Disabled .......................................................................5-11 Monitoring Power over Ethernet via CLI .....................................................................5-12 Chapter 6 Managing OmniSwitch 6400 Series Stacks ........................................................ 6-1 In This Chapter ...................
Contents Waste Electrical and Electronic Equipment (WEEE) Statement ................................... A-4 Standards Compliance .................................................................................................... A-5 Safety Agency Certifications .................................................................................. A-5 EMI/EMC Standards ............................................................................................... A-5 FCC Class A, Part 15 ......................
Contents viii OmniSwitch 6400 Series Hardware Users Guide July 2010
About This Guide This OmniSwitch 6400 Series Hardware Users Guide describes your switch hardware components and basic switch hardware procedures.
Supported Platforms About This Guide Unsupported Platforms The information in this guide does not apply to the following products: • OmniSwitch (original version with no numeric model name) • OmniSwitch 6600 Family • OmniSwitch 6800 Series • OmniSwitch 6850 Series • OmniSwitch 6855 Series • OmniSwitch 7700 • OmniSwitch 7800 • OmniSwitch 8800 • OmniSwitch 9000 Series • OmniStack • OmniAccess page x OmniSwitch 6400 Series Hardware Users Guide July 2010
About This Guide Who Should Read this Manual? Who Should Read this Manual? The audience for this users guide is network administrators and IT support personnel who need to configure, maintain, and monitor switches and routers in a live network. However, anyone wishing to gain knowledge on the OmniSwitch 6400 Series hardware will benefit from the material in this guide. When Should I Read this Manual? Read this guide as soon as you are ready to familiarize yourself with your switch hardware components.
How is the Information Organized? About This Guide How is the Information Organized? This users guide provides an overview of OmniSwitch 6400 Series switches, specifications of the hardware components, steps for setting up and managing OmniSwitch 6400 Series switches, and an overview and procedures for managing Power over Ethernet (PoE). Documentation Roadmap The OmniSwitch user documentation suite was designed to supply you with information at several critical junctures of the configuration process.
About This Guide Documentation Roadmap Stage 3: Integrating the Switch Into a Network Pertinent Documentation: Network Configuration Guide Advanced Routing Configuration Guide When you are ready to connect your switch to the network, you will need to learn how the OmniSwitch implements fundamental software features, such as 802.1Q, VLANs, and Spanning Tree.
Related Documentation About This Guide Related Documentation The following are the titles and descriptions of all the OmniSwitch 6400 Series user manuals: • OmniSwitch 6400 Series Getting Started Guide Describes the hardware and software procedures for getting an OmniSwitch 6400 Series switch up and running. Also provides information on fundamental aspects of OmniSwitch software.
About This Guide Published / Latest Product Documentation Published / Latest Product Documentation All user guides for the OmniSwitch 6400 Series are included on the Alcatel-Lucent public website. This website also includes user guides for other Alcatel-Lucent Enterprise products. The latest user guides can be found on our website at: http://enterprise.alcatel-lucent.
Technical Support page xvi About This Guide OmniSwitch 6400 Series Hardware Users Guide July 2010
1 OmniSwitch 6400 Series The OmniSwitch 6400 Series (OS6400) is a series of fixed configuration stackable Gigabit Ethernet switches with advanced Layer 2 and basic routing capabilities. Application examples include the Enterprise edge, the SMB core, as metro access CPE devices, etc. OS6400 switches are available in 24 port copper and fiber configurations, as well as 48 port copper configurations. Power over Ethernet (PoE), DC power, Backup Power Supply (BPS) are also offered.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-24 The OmniSwitch 6400-24 (OS6400-24) is a 24-port fixed stackable chassis with 20 RJ-45 ports configurable to 10/100/1000, four (4) combo SFP/RJ45 ports, and two (2) 10 Gigabit Ethernet stacking ports.The OS6400-24 contains one internal AC power supply, an external AC or DC Backup Power Supply (BPS) is also available.
OmniSwitch 6400 Series Availability Features Availability Features The switch provides a broad variety of availability features. Availability features are hardware and software-based safeguards that help to prevent the loss of data flow in the unlikely event of a subsystem failure. In addition, some availability features allow users to maintain or replace hardware components without powering off the switch or interrupting switch operations.
Availability Features OmniSwitch 6400 Series Hot Swapping Hot swapping refers to the action of adding, removing, or replacing components without powering off switches or disrupting other components.This feature facilitates hardware upgrades and maintenance and allows users to easily replace components in the unlikely event of hardware failure.
2 OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-24 OmniSwitch 6400-P24/P24H OmniSwitch 6400-48 OmniSwitch 6400-P48/P48H OmniSwitch 6400-U24 OmniSwitch 6400-U24D OmniSwitch 6400 Series Hardware Users Guide July 2010 page 2-1
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400-24 Front Panel A B E F C D G H OS6400-24 Front Panel Item Description A LED Indicator Seven segment LED provides stack element ID. B USB Port High speed USB 2.0 port. C System Status LEDs Provides status on hardware, software, primary and redundant power. Refer to “LED Status Indicators” on page 2-20 for LED status information.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-24 Rear Panel Note. The figure shows a pre-production version of the chassis without product, safety, and compliance information labels. All production versions of the chassis have these labels. A B D E C F OS6400-24 Rear Panel Item Description A Power Supply Connector Internal 126W AC power supply.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OS6400-24 Specifications Total non-combo 10/100/ 20 1000Base-T ports per switch (5–24) Total combo 10/100/1000Base-T combo ports per switch (1–4) 4 Total combo SFP connectors per switch (1–4) 4 Total 10/100/1000Base-T ports per 192 (stack of eight switches) stack Total SFP connectors per stack 32 (stack of eight switches) Power Primary (Internal): 126W AC Redundant (External): 126W AC or 120W DC Fl
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-P24 Front Panel A B E F C D G H OS6400-P24 Front Panel Item Description A LED Indicator Seven segment LED provides stack element ID. B USB Port High speed USB 2.0 port. C System Status LEDs Provides status on hardware, software, primary and redundant power. Refer to “LED Status Indicators” on page 2-20 for LED status information.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400-P24 Rear Panel Note. The figure shows a pre-production version of the chassis without product, safety, and compliance information labels. All production versions of the chassis have these labels. A D B C B E OS6400-P24 Rear Panel Item Description A Primary PS1 Power Supply Connector DB-25 connector for required external primary power supply.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OS6400-P24 Specifications Total non-combo 20 10/100/1000 Base-T PoE ports per switch (5–24) Total combo 10/100/1000 Base-T PoE ports per switch (1–4) 4 Total combo SFP connectors per switch (1–4) 4 Total 10/100/1000 Base-T PoE per 192 (stack of eight switches) stack Total combo SFP connectors per stack 32 (stack of eight switches) Power Primary (External): 360W AC or 510W AC Redundant (External): 36
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400-U24 Front Panel A B E C F G D H OS6400-U24 Front Panel Item Description A LED Indicator Seven segment LED provides stack element ID. B USB Port High speed USB 2.0 port. C System Status LEDs Provides status on hardware, software, primary and redundant power. Refer to “LED Status Indicators” on page 2-20 for LED status information. D SFP LEDs Provides link and traffic status.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-U24 Rear Panel Note. The figure shows a pre-production version of the chassis without product, safety, and compliance information labels. All production versions of the chassis have these labels. A B D E C F OS6400-U24 Rear Panel Item Description A Power Supply Connector Internal 126W AC power supply.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OS6400-U24 Specifications Total non-combo SFP connectors per switch (3–24) 22 Total combo SFP connectors per switch (1–2) 2 Total combo 10/100/1000 Base-T ports per switch (1–2) 2 Total SFP connectors per stack 192 (stack of eight switches) Total 10/100/1000 Base-T ports per stack 16 (stack of eight switches) Power Primary (Internal): 126W AC Redundant (External): 126W AC or 120W DC Flash memor
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-U24D Front Panel A B E C F G D H OS6400-U24D Front Panel Item Description A LED Indicator Seven segment LED provides stack element ID. B USB Port High speed USB 2.0 port. C System Status LEDs Provides status on hardware, software, primary and redundant power. Refer to “LED Status Indicators” on page 2-20 for LED status information.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400-U24D Rear Panel Note. The figure shows a pre-production version of the chassis without product, safety, and compliance information labels. All production versions of the chassis have these labels. A B D E C F OS6400-U24D Rear Panel Item Description A Power Supply Connector Internal 120W DC power supply.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OS6400-U24D Specifications Total non-combo SFP connectors per switch (3–24) 22 Total combo SFP connectors per switch (1–2) 2 Total combo 10/100/1000Base-T ports per switch (1–2) 2 Total SFP connectors per stack 192 (stack of eight switches) Total 10/100/1000Base-T ports per stack 16 (stack of eight switches) Power Primary (Internal): 120W DC Redundant (External): 120W DC or 126W AC Flash memory
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400-48 A B E F C D G H OS6400-48 Front Panel Item Description A LED Indicator Seven segment LED provides stack element ID. B USB Port High speed USB 2.0 port. C System Status LEDs Provides status on hardware, software, primary and redundant power. Refer to “LED Status Indicators” on page 2-20 for LED status information.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-48 Rear Panel Note. The figure shows a pre-production version of the chassis without product, safety, and compliance information labels. All production versions of the chassis have these labels. A B D E C F OS6400-48 Rear Panel Item Description A Power Supply Connector Internal 126W AC power supply.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OS6400-48 Specifications Total non-combo 10/100/1000 Base-T ports per switch (5–48) 44 Total combo 10/100/1000Base-T combo ports per switch (1–4) 4 Total combo SFP connectors per switch (1–4) 4 Total 10/100/1000 Base-T ports per stack 384 (stack of eight switches) Total SFP connectors per stack 32 (stack of eight switches) Power Primary (Internal): 126W AC Redundant (External): 126W AC or 120W D
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400-P48 Front Panel A B E F C D G H OS6400-P48 Front Panel Item Description A LED Indicator Seven segment LED provides stack element ID. B USB Port High speed USB 2.0 port. C System Status LEDs Provides status on hardware, software, primary and redundant power. Refer to “LED Status Indicators” on page 2-20 for LED status information.
OmniSwitch 6400 Series Chassis Configurations OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400-P48 Rear Panel Note. The figure shows a pre-production version of the chassis without product, safety, and compliance information labels. All production versions of the chassis have these labels. B A D B C E OS6400-P48 Rear Panel Item Description A Primary PS1 Power Supply Connector DB-25 connector for required external primary power supply.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Chassis Configurations OS6400-P48 Specifications Total non-combo 10/100/ 1000Base-T PoE ports per switch (5–48) 44 Total combo 10/100/1000 Base-T 4 PoE combo ports per switch (1–4) Total combo SFP connectors per switch (1–4) 4 Total 10/100/1000 Base-T PoE ports per stack 384 (stack of eight switches) Total combo SFP connectors per stack 32 (stack of eight switches) Power Primary (External): 360W AC or 510W AC Redundant
LED Status Indicators OmniSwitch 6400 Series Chassis and Hardware Components LED Status Indicators LED State Description OK Solid Green System software is operational. Solid Amber Hardware or System failure. Blinking Green Normal Diagnostics. Blinking Amber Switch operational but autoconfiguration not successful. Solid Green Primary unit in a stack or standalone switch. Solid Amber Secondary unit in a stack. Off Switch is idle.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Power Supplies OmniSwitch 6400 Series Power Supplies OmniSwitch 6400 Series switches support the following power supplies: • PS-510W-AC Power Supply (see “PS-510W-AC Power Supply” on page 2-22) • PS-510W-AC-E Power Supply (see “PS-510W-AC-E Power Supply” on page 2-23) • PS-360W-AC Power Supply (see “PS-360W-AC Power Supply” on page 2-24) • PS-360W-AC-E Power Supply (see “PS-360W-AC-E Power Supply” on page 2-25) • PS-126W-AC Powe
OmniSwitch 6400 Series Power Supplies OmniSwitch 6400 Series Chassis and Hardware Components PS-510W-AC Power Supply The PS-510W-AC Power Supply provides system and PoE power and can be installed as either a primary or redundant power supply.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Power Supplies PS-510W-AC-E Power Supply The PS-510W-AC-E Power Supply provides enhanced system and PoE power and can be installed as either a primary or redundant power supply.
OmniSwitch 6400 Series Power Supplies OmniSwitch 6400 Series Chassis and Hardware Components PS-360W-AC Power Supply The PS-360W-AC Power Supply provides system and PoE and can be installed as either a primary or redundant power supply.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Power Supplies PS-360W-AC-E Power Supply The PS-360W-AC-E Power Supply provides enhanced system and PoE and can be installed as either a primary or redundant power supply.
OmniSwitch 6400 Series Power Supplies OmniSwitch 6400 Series Chassis and Hardware Components PS-126W-AC Power Supply The PS-126W-AC Power Supply provides system power and can be installed as a redundant system power supply. 126W AC System Power Supply P/S Component Description Model PS-126W-AC Provides Redundant System Power For OS6400-24, OS6400-48, OS6400-U24, OS6400-U24D Input Voltage Range 90 to 264 VAC Rated Frequency 50 to 60 Hz Maximum Output Power 126 W Output Voltage 12.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Power Supplies PS-120W-DC Power Supply The PS-120W-DC Power Supply provides full system power and can be installed as a redundant system power supply. 120W -48VDC System Power Supply P/S Component Description Model PS-120W-DC Provides Redundant System Power For OS6400-24, OS6400-48, OS6400-U24, OS6400-U24D Input Voltage Range 36 to 72 VDC (24V Nominal Input) Input Current 3.
OmniSwitch 6400 Series Power Supplies OmniSwitch 6400 Series Chassis and Hardware Components 126W AC Internal Power Supply The 126W Internal Power Supply provides full system power. P/S Component Description Model 126W AC Internal Power Supply Provides Primary System Power OS6400-24, OS6400-48, OS6400-U24 For Input Voltage Range 100 to 240 VAC Rated Frequency 47 to 63 Hz Maximum Output Power 126 W Output Voltage 12.0 VDC (typical) Output Current 10.
OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Power Supplies Power Supply Shelf Alcatel-Lucent requires the use of the power supply shelf when connecting power supplies. The shelf can be attached directly to the back of the chassis or rack mounted.
AC Power Cords OmniSwitch 6400 Series Chassis and Hardware Components AC Power Cords Since the power cord is the switch’s only disconnect device, it should be plugged into an easily accessible outlet. In the event that your power cord is lost or damaged, refer to the specifications below. Specifications The power cord included with this product contains three (3) insulated #18AWG stranded copper wires and is rated between 85-265 VAC (region dependent), 10 amps with a nominal length of 2 meters.
OmniSwitch 6400 Series Chassis and Hardware Components DC Power Specifications DC Power Specifications In addition to the installation steps described in “Connecting a Power Supply to the Chassis” on page 3-13 and “Rack Mounting Power Supplies” on page 3-15 DC power supplies have the following additional considerations: • Connect to a -48V reliably grounded DC SELV source. • Use common DC return connections for the DC power supplies.
Console Port OmniSwitch 6400 Series Chassis and Hardware Components Console Port The console port, located on the chassis front panel, provides a console connection to the switch and is required when logging into the switch for the first time. By default, this RJ-45 connector provides an RS232 DTE console connection.
OmniSwitch 6400 Series Chassis and Hardware Components Console Port 5 To change the stop bits value, enter boot serialstopbits, followed by the number of stop bits. Options include 1 (default) and 2.
Console Port OmniSwitch 6400 Series Chassis and Hardware Components Port Pinouts 10/100 Ethernet Port – RJ-45 Pinout (non-PoE) Pin Number Description 1 RX+ 2 RX- 3 TX+ 4 not used 5 not used 6 TX- 7 not used 8 not used Gigabit Ethernet Port – RJ-45 Pinout Pin Number Description 1 BI_DB+ 2 BI_DB- 3 BI_DA+ 4 BI_DD+ 5 BI_DD- 6 BI_DA- 7 BI_DC+ 8 BI_DC- 10/100/1000 Mbps Power over Ethernet Port – RJ-45 Pinout Pin Number Description 1 RX+ (-VDC) 2 RX- (-VDC) 3 TX+ (+VDC
OmniSwitch 6400 Series Chassis and Hardware Components Console Port RJ-45 Console Port – Connector Pinout Pin Number Signals as DTE Console Port 1 NC 2 NC 3 RXD 4 Ground 5 Ground 6 TXD 7 NC 8 NC OmniSwitch 6400 Series Hardware Users Guide July 2010 page 2-35
Console Port page 2-36 OmniSwitch 6400 Series Chassis and Hardware Components OmniSwitch 6400 Series Hardware Users Guide July 2010
3 Mounting OS6400 Switches Note. Never obstruct the air intake or exhaust vents located on the chassis. Obstructing these vents can cause switch failure. Always follow the recommended clearance values. General Mounting Recommendations Be sure that your switch is placed in a well-ventilated, static-free environment. Always allow adequate clearance at the front, rear, top, and sides of the switch. Refer the table below for detailed information on recommended chassis clearances.
General Mounting Recommendations Mounting OS6400 Switches Elevated Operating Ambient Temperatures If installed in a closed or multi-unit rack assembly, the operating ambient temperature of the rack environment may be greater than room ambient. Therefore, consideration should be given to installing the equipment in an environment compatible with the maximum ambient temperature (Tma) specified by the manufacturer.
Mounting OS6400 Switches Airflow Recommendations Airflow Recommendations The OmniSwitch 6400 draws air from intake vents located in the left chassis panel and exhausts air via fan vents located in the right chassis panel. For each switch, air is directed horizontally through the chassis, where it passes over the circuit board and provides necessary cooling for internal components. Refer to the diagram below for more information. 1. Air Intake.
Fan Speed Control Mounting OS6400 Switches Fan Speed Control Depending on the temperature of the chassis the fans speed will vary according to the table below. Current Fan Speed: Temperature (Celsius) Fan Speed Set To: Fan Rate Very Low >= 30 Low 25% Low <= 27 >= 33 Very Low Medium 15% 50% Medium <= 30 >= 36 Low High 25% 90% High <= 33 >= 39 Medium Full 50% 100% Full <= 36 High 90% Note: The fan will never be turned off completely.
Mounting OS6400 Switches Installation Overview Installation Overview OmniSwitch 6400 Series switches can be installed in various configurations. Refer to the guidelines below before mounting the chassis and power supplies. Note. OmniSwitch 6400 Series switches must be placed “right side up.” Never attempt to operate a switch positioned on its side.
Tabletop Installation Mounting OS6400 Switches Tabletop Installation OmniSwitch 6400 Series switches can be installed as a tabletop unit. Note. Be sure that adequate clearance has been provided for chassis airflow and access to the front, back, and sides of the switch. For recommended clearances, refer to “Recommended Clearances” on page 3-1. Also, be sure that you have placed the chassis within the reach of all the required AC power sources.
Mounting OS6400 Switches Tabletop Installation 4 If the table mount flange kit is being used, install the table mount brackets to the rear portion of the chassis. 5 Mount the switch assembly on the table by inserting attachment screws through the flat portion of the mounting brackets and into the mounting surface. Next Steps Powering On the Switch To power on the chassis refer to “Connecting Chassis to Power Source” on page 3-19.
Rack-Mount Installation Mounting OS6400 Switches Rack-Mount Installation Rack Mount Guidelines Refer to the important guidelines below before installing the OmniSwitch 6400 Series chassis on a rack. • It is recommended that two people install the switch on the rack—one person to hold the chassis and position it on the rack, and a second person to secure the chassis to the rack using attachment screws (not supplied). • Alcatel-Lucent provides two rack-mount flanges with each OmniSwitch 6400 Series switch.
Mounting OS6400 Switches Rack-Mount Installation 5 Once the holes are aligned, insert a rack mount screw (not provided) through the bottom hole of each flange. Tighten both screws until they are secure. Attaching the Switch to the Rack Note. Be sure to install the screws in the bottom hole of each flange, as shown, before proceeding. 6 Once the screws at the bottom of each flange are secure, install the remaining rack mount screw. Be sure that all screws are securely tightened.
Setting Up a Stacked Configuration Mounting OS6400 Switches Setting Up a Stacked Configuration Rack Mounting Stacked Configurations Prior to setting up and cabling the stacked configuration, be sure that all switches are in place and installed according to the instructions beginning on page 3-6 (table mount configuration) or 3-8 (rack mount configuration). Up to eight switches may be stacked to form a single virtual chassis. Note.
Mounting OS6400 Switches Setting Up a Stacked Configuration Cabling Steps 1 Before inserting a stacking cable into one of the stacking, be sure to orient the stacking cable connec- tor properly. The wide portion of the connector must be facing up. Refer to the diagram below for more information. Connector Top When orienting the stacking cable connector, be sure that the wider portion of the connector is facing up as shown.
Setting Up a Stacked Configuration Mounting OS6400 Switches 5 To provide added resiliency and redundancy, you must install the redundant stacking cable to connect the top switch in the stack to the bottom switch. Connect the redundant cable now. Refer to the diagram below for more information: Redundant Connection Between Top and Bottom Switches 6 Once all stacking cable connectors are inserted, tighten the captive screws at the left- and right-hand sides of each connector as shown.
Mounting OS6400 Switches Installing Power Supplies Installing Power Supplies OmniSwitch 6400 Series power supply can be installed in the following ways: • As a primary or backup supply directly connected to the back of an OmniSwitch 6400 Series chassis. See “Connecting a Power Supply to the Chassis” below for more information. • As a primary or backup supply rack mounted directly above or below the switch and connected with a cable.
Connecting a Power Supply to the Chassis Mounting OS6400 Switches 4 Carefully slide the power supply against the back of the chassis until the power connectors securely connect. 5 Verify that the captive screw for the power supply is aligned with the threaded hole in the power supply shelf. Secure the power supply to the power supply shelf by tightening the captive screw. 6 Repeat the steps above for any additional required power supplies.
Mounting OS6400 Switches Rack Mounting Power Supplies Rack Mounting Power Supplies The following sections describe how to rack-mount a power supply shelf and connect the power supply with a cable. Note. For information on connecting a power supply directly to the rear of the chassis (without a connector cable), refer to “Connecting a Power Supply to the Chassis” on page 3-13.
Rack Mounting Power Supplies Mounting OS6400 Switches Note. A single 510W power supply or up to two of any other power supply types can be attached to a power supply shelf. 4 After the rack-mount flanges and the power supply are secured to the shelf, mark the holes on the rack where the shelf is to be installed. 5 Lift and position the shelf until the rack-mount flanges are flush with the rack post. 6 Align the holes in the flanges with the rack holes that were marked earlier.
Mounting OS6400 Switches Rack Mounting Power Supplies Note. The diagrams below show examples of mounting the switch and power supplies in both a 2U and 3U scenario. Depending on the switch model, power supplies, and rack mounting options the actual mounting options will vary. 13.5 inche s Redundant 120W-DC, 126W-AC, 360W-PoE 13.
Rack Mounting Power Supplies Mounting OS6400 Switches You can also attach the power supplies to the back of an OmniSwitch 6400 Series chassis directly as well as using cables at the same time, as shown in the diagram below. 17.6 inche s Redundant 510W-PoE Next Steps Powering On the Switch To power on the chassis refer to “Connecting Chassis to Power Source” on page 3-19.
Mounting OS6400 Switches Connecting Chassis to Power Source Connecting Chassis to Power Source AC Power Supply Connections Since the power cord is the switch’s only disconnect device, it should be plugged into an easily accessible outlet. In the event that your power cord is lost or damaged, refer to the specifications below.
Connecting Chassis to Power Source Mounting OS6400 Switches DC Power Supply Connections In addition to the installation steps described in “Connecting a Power Supply to the Chassis” on page 3-13 and “Rack Mounting Power Supplies” on page 3-15 DC power supplies have the following additional considerations: • Connect to a -48V reliably grounded DC SELV source. • Use common DC return connections for the DC power supplies. The DC return terminal conductor should be connected to the equipment frame.
Mounting OS6400 Switches Connecting Chassis to Power Source A clamp inside each slot keeps the power wire tightly in place during operation. The DC power supply has side screws that can be used to remove the connector if required. Installing DC Power Source Wire Leads These instructions describe how to connect your 3-wire DC power source to the power connector on your DC power supply. A small flat-tip screwdriver and a wire stripper are required for this procedure.
Connecting Chassis to Power Source Mounting OS6400 Switches 4 Tighten the clamp by tightening the screw above the slot into which you inserted the wire lead. The wire lead should be securely attached inside the connector. You should be able to pull on the wire and not dislodge it. Warning.
Mounting OS6400 Switches Hot-Swapping Power Supplies Hot-Swapping Power Supplies OmniSwitch 6400 Series switches support hot-swapping of their power supplies. The following sections describe how to hot-swap a power supply either directly connected (i.e., without a cable) or rack-mounted power supply. Warning: Before proceeding, ensure a redundant power supply is connected and operational. Anti-Static Warning.
Hot-Swapping Power Supplies Mounting OS6400 Switches Hot-Swapping a Rack Mounted Power Supply 1 Disconnect the power supply to be hot-swapped from its power source. 2 Loosen the power supply cable of the power-supply to be hot-swapped and disconnect from power supply. 3 Loosen the captive screw of the power supply to be hot-swapped. 4 Carefully slide the power supply out of the power supply shelf and set aside.
4 Booting OmniSwitch 6400 Series Switches For information on booting stand-alone switches and switches in stacked configurations, refer to the sections below. Booting a Stand-Alone Switch The OmniSwitch 6400 Series switch does not use an on/off switch. The power cord is the switch’s only connect/disconnect device. The power connector socket is located on the switch’s rear panel. For more information, refer to “OmniSwitch 6400 Series Chassis and Hardware Components” on page 2-1.
Booting Stacked Configurations Booting OmniSwitch 6400 Series Switches Booting Stacked Configurations Once the switches have been connected to a virtual chassis, the next step is to manually power on the stack. The OmniSwitch 6400 Series switch does not use an on/off switch. The power cord is the switch’s only connect/disconnect device. The power connector socket is located on the switch’s rear panel. For more information, refer to “OmniSwitch 6400 Series Chassis and Hardware Components” on page 2-1.
Booting OmniSwitch 6400 Series Switches Monitoring the Chassis Monitoring the Chassis OmniSwitch 6400 Series switches can be monitored and managed via the console port using Command Line Interface (CLI) commands. The switches can also be monitored and managed remotely using CLI commands, WebView, SNMP, and OmniVista. The section below provides some examples of useful hardware-related monitoring CLI commands.
Monitoring the Chassis Booting OmniSwitch 6400 Series Switches Checking the Fan Status To check the current status for all six fans in the chassis, use the show fan command. For example: -> show fan Chassis Fan Status -------+---+----------1 1 Running 1 2 Running For a complete list of output definitions for this command, refer to the OmniSwitch CLI Reference Guide. Checking the Power Supply Status For information on checking power supplies for OmniSwitch 6400 Series switches, refer to show power.
5 Managing Power over Ethernet (PoE) Power over Ethernet (PoE) is supported on OmniSwitch 6400 Series switches and provides inline power directly from the switch’s Ethernet. Powered Devices (PDs) such as IP phones, wireless LAN stations, Ethernet hubs, and other access points can be plugged directly into the Ethernet. From these RJ-45 the devices receive both electrical power and data flow.
In This Chapter Managing Power over Ethernet (PoE) In This Chapter This chapter provides specifications and descriptions of hardware and software used to provide PoE for attached devices. The chapter also provides information on configuring PoE settings on the switch through the Command Line Interface (CLI). CLI commands are used in the configuration examples; for more details about the syntax of commands, see the OmniSwitch CLI Reference Guide.
Managing Power over Ethernet (PoE) Power over Ethernet Specifications Power over Ethernet Specifications The table below lists general specifications for Alcatel-Lucent’s Power over Ethernet support. For more detailed power supply and Power Source Equipment (PSE) specifications, refer to Chapter 2, “OmniSwitch 6400 Series Chassis and Hardware Components.” IEEE Standards supported IEEE 802.
Viewing PoE Power Supply Status Managing Power over Ethernet (PoE) Viewing PoE Power Supply Status To view the current status of power supplies installed in the backup power supply, use the show power command, as shown below: -> show power Slot PS Wattage Type Status Location ----+----+---------+------+-----------+---------1 1 360 AC UP External 1 2 360 AC UP External 2 1 510 AC UP External 2 2 ----3 1 360 AC UP External 3 2 360 AC DOWN External Status Display Output: UP = Power Supply operational.
Managing Power over Ethernet (PoE) Configuring Power over Ethernet Parameters Configuring Power over Ethernet Parameters Power over Ethernet Defaults The following table lists the defaults for PoE configuration: Parameter Description Command(s) Default Value/Comments PoE operational status lanpower start or lanpower stop Disabled Total power available to a port lanpower power 15.
Configuring Power over Ethernet Parameters Managing Power over Ethernet (PoE) Disabling PoE To disable PoE on a particular slot or port, use the lanpower stop command. To disable PoE on a specific PoE-capable port, enter a slot/port number. For example: -> lanpower stop 1/22 To disable PoE for all PoE-capable in a slot, enter the corresponding slot number only.
Managing Power over Ethernet (PoE) Configuring Power over Ethernet Parameters To increase or decrease the total power available to a slot, use the lanpower maxpower command. Since you are setting the power allowance for an individual slot, you must specify a slot number in the command line. For example, the syntax -> lanpower 1 maxpower 80 reduces the power allowance of the slot 1 to 80 watts.
Configuring Power over Ethernet Parameters Managing Power over Ethernet (PoE) Setting the Capacitor Detection Method By default, the PowerDsine capacitor detection method is disabled on an OmniSwitch. To enable it, use the lanpower capacitor-detection command by entering lanpower capacitor-detection followed by the slot number and enable.
Managing Power over Ethernet (PoE) Understanding Priority Disconnect Understanding Priority Disconnect The priority disconnect function differs from the port priority function described on page 5-7 in that it applies only to the addition of powered devices (PDs) in tight power budget conditions. Priority disconnect is used by the system software in determining whether an incoming PD will be granted or denied power when there are too few watts remaining in the PoE power budget for an additional device.
Understanding Priority Disconnect Managing Power over Ethernet (PoE) Priority Disconnect is Enabled; Same Priority Level on All PD Note. Priority disconnect examples are applicable only when there is inadequate power remaining to power an incoming device. When a PD is being connected to a port with the same priority level as all other in the slot, the physical port number is used to determine whether the incoming PD will be granted or denied power.
Managing Power over Ethernet (PoE) Understanding Priority Disconnect Priority Disconnect is Disabled Note. Priority disconnect examples are applicable only when there is inadequate power remaining to power an incoming device. When priority disconnect is disabled, power will be denied to any incoming PD, regardless of its port priority status (i.e., low, high, and critical) or physical port number (i.e., 1–24).
Monitoring Power over Ethernet via CLI Managing Power over Ethernet (PoE) Monitoring Power over Ethernet via CLI To monitor current PoE statistics and settings, use the show lanpower command.
Managing Power over Ethernet (PoE) 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 16000 Monitoring Power over Ethernet via CLI 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Low Low Low
Monitoring Power over Ethernet via CLI page 5-14 Managing Power over Ethernet (PoE) OmniSwitch 6400 Series Hardware Users Guide July 2010
6 Managing OmniSwitch 6400 Series Stacks In addition to their working as individual stand-alone switches, OmniSwitch 6400 Series switches can also be linked together to work as a single virtual chassis known as a stack. With stacks, users can easily expand their switching capacity simply by adding additional switches to the stack. In addition, stacks provide enhanced resiliency and redundancy features. For more information, refer to page 6-3. Note.
In This Chapter Managing OmniSwitch 6400 Series Stacks In This Chapter This chapter provides information on OmniSwitch 6400 Series switches configured to operate as a single virtual chassis. Topics described in the chapter include: • OmniSwitch 6400 Series stack overview on page 6-3. • Roles within the stack on page 6-3. • Stack Redundancy on page 6-16. • Slot numbering on page 6-18. • Hot-Swapping modules in a stack on page 6-23. • Reloading switches on page 6-25.
Managing OmniSwitch 6400 Series Stacks OmniSwitch 6400 Series Stack Overview OmniSwitch 6400 Series Stack Overview Users can configure up to eight OmniSwitch 6400 Series switches, in any combination of OS6400-24 and OS6400-48 chassis types, into a single virtual chassis known as a stack. With stacks, switching capacity can be easily expanded simply by adding additional switches to the stack.
Roles Within the Stack Managing OmniSwitch 6400 Series Stacks Important Note. For management module redundancy to work effectively, the software on all switches operating in the stack must be synchronized at all times. Refer to “Synchronizing Switches in a Stack” on page 6-35 for more information. Primary 1 A stack of four OmniSwitch 6400 Series switches is operating normally. The stack consists of a primary module, secondary module, and two elements operating in idle status.
Managing OmniSwitch 6400 Series Stacks Roles Within the Stack 1 A stack of two OmniSwitch 6400 Series switches is operating normally. The stack consists of a primary module and a secondary module. (The software on both elements in the stack is synchronized.) 2 The primary management module fails or is taken offline (e.g., powered off or rebooted by the user). 3 The switch operating as the secondary management module immediately takes over the primary role.
Roles Within the Stack Managing OmniSwitch 6400 Series Stacks Primary Management Module Selection For a stack of OmniSwitch 6400 Series switches to operate as a virtual chassis, there must be a mechanism for dynamically selecting the switch within the stack that will assume the primary management role. OmniSwitch 6400 Series switches use three different methods for selecting the primary switch. These methods are: • Chassis MAC address • Saved slot number • Chassis uptime Note.
Managing OmniSwitch 6400 Series Stacks Roles Within the Stack Using Saved Slot Information The saved slot number is the slot number the switch will assume following a reboot. This information is stored in a switch’s boot.slot.cfg file; the switch reads its slot number assignment from this file at bootup and assumes the specified slot number within the stack.
Roles Within the Stack Managing OmniSwitch 6400 Series Stacks Using Switch Uptime A user can override both the MAC address and saved slot methods for determining a stack’s primary management module. This is done by controlling the uptime of switches in the stack. If all elements of a stack are powered off, the user can force a particular switch to become primary by powering on that switch and waiting a minimum of 15 seconds before powering on any other switches.
Managing OmniSwitch 6400 Series Stacks Roles Within the Stack Secondary Management Module Selection In order to provide effective management module redundancy, all OmniSwitch 6400 Series stacked configurations dynamically assign a backup, or secondary, management module during the boot process. OmniSwitch 6400 Series stacks use two different methods for selecting the secondary switch.
Roles Within the Stack Managing OmniSwitch 6400 Series Stacks Using Saved Slot Information If a stack with preassigned slot information for each switch is booted, the switch with the second lowest slot value is assigned the secondary management role. For example, if a stack of four switches is booted and the preassigned slot values for each switch are 1, 2, 3, and 4, the switch with the slot value of 2 is assigned the secondary role.
Managing OmniSwitch 6400 Series Stacks Roles Within the Stack Idle Module Role Switches that are not assigned either the primary or secondary role in a stack are, by default, assigned the role of idle modules. These idle modules operate similarly to Network Interface (NI) modules in a chassisbased switch such as the OmniSwitch 9700/9800. It is the job of idle modules to send and receive 10/100/1000 Ethernet traffic on their.
Roles Within the Stack Managing OmniSwitch 6400 Series Stacks Pass-Through Mode The pass-through mode is a state in which a switch has attempted to join a stack but has been denied primary, secondary, and idle status. When a switch is in the pass-through mode, its Ethernet are brought down (i.e, they cannot pass traffic). Its stacking cable connections remain fully functional and can pass traffic through to other switches in the stack.
Managing OmniSwitch 6400 Series Stacks Roles Within the Stack To avoid a pass-through condition following a reboot, make sure that all saved slot values for the stack are unique. Use the stack set slot command.
Roles Within the Stack Managing OmniSwitch 6400 Series Stacks To resolve this pass-through condition, simply assign slot 1001 a new saved slot value and reboot the module.
Managing OmniSwitch 6400 Series Stacks Roles Within the Stack In some pass-through conditions (for example, larger stacks where multiple switches are in pass-through mode), it might be desirable to correct any duplicate saved slot assignments and then reboot the entire stack. The recovery from pass-through can be accomplished with fewer steps than reassigning slot numbers and rebooting modules on a slot-by-slot basis.
Stack Redundancy and Failover Managing OmniSwitch 6400 Series Stacks Stack Redundancy and Failover Important. For a stacked configuration to have effective redundancy, a redundant stacking cable must be installed between the upper-most and bottom-most switch in the chassis at all times.
Managing OmniSwitch 6400 Series Stacks Stack Redundancy and Failover Redundant stacking cables provide a form of dual redundancy. As shown in the figure above, the redundant cable allows traffic to flow in the event of a stacking link failure. The redundant cable also provides failover if a switch goes down within the stack.
Slot Numbering Managing OmniSwitch 6400 Series Stacks Slot Numbering For a stack of OmniSwitch 6400 Series switches to operate as a virtual chassis, each module in the stack must be assigned a unique slot number. To view the current slot assignments for a stack, use the show ni or show module commands. The slot number is also displayed on the front panel of each switch by the LED located on the left side of the chassis (refer to “LED Status Indicators” on page 2-20 for more information).
Managing OmniSwitch 6400 Series Stacks Slot Numbering Dynamic Slot Number Assignment Dynamic slot number assignment occurs when there are no boot.slot.cfg files present in the switches’ /flash directories. This is the case for new, “out of the box,” switches that have not been previously booted. When a brand new stack (or stack with no boot.slot.cfg files) is booted, the system software automatically detects the module with the lowest MAC address.
Slot Numbering Managing OmniSwitch 6400 Series Stacks If the switch with the lowest MAC address happens to be the bottom-most module in the stack, slot numbering will not resume from the top of the stack. Instead, the system software will select the secondary module using the standard method (i.e., the switch connected to the primary’s stacking port A), then continue to number the stack from the bottom up. This intuitive slot assignment provides the cleanest and most manageable stack topology.
Managing OmniSwitch 6400 Series Stacks Slot Numbering Manual Slot Number Assignment To manually assign slot numbers to one or more modules in a stack, use the stack set slot command. This command writes slot information to the boot.slot.cfg file located in a switch’s /flash directory. It is this saved slot information that the switch will assume following a reboot.
Slot Numbering Managing OmniSwitch 6400 Series Stacks When the stack comes up following the reboot, the manually-configured slot numbers display as follows: Slot 1 - Primary Slot 2 - Secondary Slot 3 - Idle Slot 4 - Idle Slot 5 - Idle Slot 6 - Idle Slot 7 - Idle Slot 8 - Idle Note: The stack set slot command can also be used to manually correct duplicate saved slot assignments within the stack topology. Refer to pages 6-12 through 6-14 for detailed information.
Managing OmniSwitch 6400 Series Stacks Hot-Swapping Modules In a Stack Hot-Swapping Modules In a Stack As with chassis-based switches, such as the OmniSwitch 9700/9800, NI modules within an OmniSwitch 6400 Series virtual chassis are hot-swappable. NI modules are essentially those modules operating in the stack in idle mode. These modules can be removed from, or added to, an existing stack without disrupting other modules in the stack.
Hot-Swapping Modules In a Stack Managing OmniSwitch 6400 Series Stacks Merging Stacks Merging stacks involves connecting two or more operational stacks and attempting to reboot them as a single virtual chassis. In most cases, errors will result. To merge stacks without causing errors, select one stack that is to remain up and running and then add modules from the other stack(s) by following the steps below: 1 Make sure all switches are running the same software version.
Managing OmniSwitch 6400 Series Stacks Reloading Switches Reloading Switches Reloading is essentially a soft boot of a switch. Users can reload stacked modules operating in any role— i.e., primary, secondary, idle, and pass-through. Refer to the sections below for more information. Reloading the Primary Management Module If the switch with the primary management role is reloaded, the switch with the secondary role automatically takes over primary management functions.
Reloading Switches Managing OmniSwitch 6400 Series Stacks If there are only two switches in the stack, the switch that was reloaded (the former primary) assumes the secondary role when it comes back up. 1 In this stack of two OmniSwitch 6400 Series switches, the slot 1 Primary - Slot 1 switch is the primary management module. The slot 2 switch is the secondary. Secondary - Slot 2 2 The user reloads the stack’s primary management module by issuing -> reload primary the reload primary command.
Managing OmniSwitch 6400 Series Stacks Reloading Switches Reloading the Secondary Management Module If the switch with secondary management role is reloaded, the idle switch with the lowest slot number will automatically assume the secondary role. The reloaded switch (the former secondary) will assume an idle role when it comes back up. Meanwhile, the switch with the primary management role, as well as any other idle modules in the stack, continue operations without interruption.
Reloading Switches Managing OmniSwitch 6400 Series Stacks If there are only two switches in the stack, the switch that was reloaded (the former secondary) resumes the secondary role when it comes back up. Primary - Slot 1 Secondary - Slot 2 1 In this stack of two OmniSwitch 6400 Series switches, the slot 1 switch is the primary management module. The slot 2 switch is the secondary. 2 The user reloads the stack’s secondary management module by -> reload secondary issuing the reload secondary command.
Managing OmniSwitch 6400 Series Stacks Reloading Switches Reloading Switches with Idle Roles Similar to reloading Network Interface (NI) modules on chassis-based switches such as the OmniSwitch 9700/9800, modules operating in idle status within a stack can be reloaded via the CLI. Note. Any traffic being passed on the module’s Ethernet will be interrupted during the reboot. Other modules within the stack will continue to operate without interruption.
Reloading Switches Managing OmniSwitch 6400 Series Stacks Reloading All Switches in a Stack Reloading all switches in the stack is essentially a full reboot of the virtual chassis. This can be useful in restoring a stack’s previously configured topology—i.e., the stack’s saved slot numbers and management roles. Note, however, that all data flow on the stack is interrupted whenever a full reboot is issued. To reset all switches in a stack use the reload all command. For example: -> reload all Important.
Managing OmniSwitch 6400 Series Stacks Reloading Switches No Switches In the Stack Have Saved Slot Information If a full reload is issued and no switches in the stack have unique slot numbers, slot numbers will be assigned beginning with the switch with the lowest MAC address. (This can occur if the boot.slot.cfg file has been deleted from each switch’s /flash directory—e.g., by issuing the stack clear slot command for all modules in the stack.
Reloading Switches Managing OmniSwitch 6400 Series Stacks Avoiding Split Stacks The term “splitting” a stack refers to the creation of isolated modules within the virtual chassis. A split stack can result from the following conditions: • Two or more non-adjacent switches are reloaded simultaneously • The stack is reloaded without a redundant stacking cable connection The sections below offer simple guidelines for avoiding splitting the stack during the reload process.
Managing OmniSwitch 6400 Series Stacks Changing the Secondary Module to Primary Changing the Secondary Module to Primary OmniSwitch 6400 Series stacks allow users to manually force the secondary switch to assume the primary management role. This is referred to as “takeover.” The behavior of a takeover is similar to that of reloading the primary management module (see page 6-25). Whenever a takeover is initiated, the switch with the secondary role automatically takes over primary management functions.
Changing the Secondary Module to Primary Managing OmniSwitch 6400 Series Stacks If there are only two switches in the stack, the former primary switch resumes the secondary role when it comes back up following the takeover. Primary - Slot 1 Secondary - Slot 2 1 In this stack of two OmniSwitch 6400 Series switches, the slot 1 switch is the primary management module. The slot 2 switch is the secondary.
Managing OmniSwitch 6400 Series Stacks Synchronizing Switches in a Stack Synchronizing Switches in a Stack Management module synchronization refers to the process of copying all files in the /flash/working and /flash/certified directories of the primary management module to the /flash/working and /flash/certified directories of all the other switches in the stack. The system and configuration software on the nonprimary switches—i.e.
Monitoring the Stack Managing OmniSwitch 6400 Series Stacks Monitoring the Stack As shown in the previous sections, monitoring the current status and operation of all elements in a stack can help users avoid unexpected stack conditions. The table below includes CLI commands that are useful in monitoring stack conditions. CLI Commands Used for Monitoring a Stack show stack topology Displays the current operating topology of switches within a stack.
Managing OmniSwitch 6400 Series Stacks Monitoring the Stack CLI Commands Supported on Both Primary and Secondary Management Modules Although most CLI commands are executed when logged into the switch with the primary management role, there is a group of commands that is supported when logged in to either the primary or secondary management module. For a list of these commands, refer to the tables below. Note.
Monitoring the Stack page 6-38 Managing OmniSwitch 6400 Series Stacks OmniSwitch 6400 Series Hardware Users Guide July 2010
A Regulatory Compliance and Safety Information This appendix provides information on regulatory agency compliance and safety for the OmniSwitch 6400 Series switches. Declaration of Conformity: CE Mark This equipment is in compliance with the essential requirements and other provisions of Directive 73/23/EEC and 89/336/EEC as amended by Directive 93/68/EEC.
China RoHS: Hazardous Substance Table Regulatory Compliance and Safety Information China RoHS: Hazardous Substance Table 产品说明书附件 SUPPLEMENT TO PRODUCT INSTRUCTIONS 这个文件涉及的是在中华人民共和国境内进口或销售的电子信息产品 Include this document with all Electronic Information Products imported or sold in the People’s Republic of China 部件名称 (Parts) 电路模块 (Circuit Modules) 电缆及电缆组件 (Cables & Cable Assemblies) 金属部件 (Metal Parts) 塑料和聚合物部件 (Plastic and Polymeric parts) 铅 (Pb) 有毒有害物质或元素 (Hazardous Substance) 汞 镉 六价铬 多溴联苯 6+ (Hg) (Cd)
Regulatory Compliance and Safety Information China RoHS: Hazardous Substance Table Products are packaged using one or more of the following packaging materials: CB Corrugated Cardboard FB Corrugated Fiberboard OmniSwitch 6400 Series Hardware Users Guide July 2010 Low-Density Polyethylene page A-3
Waste Electrical and Electronic Equipment (WEEE) Statement Regulatory Compliance and Safety Information Waste Electrical and Electronic Equipment (WEEE) Statement The product at end of life is subject to separate collection and treatment in the EU Member States, Norway and Switzerland and therefore marked with the symbol: Treatment applied at end of life of the product in these countries shall comply with the applicable national laws implementing directive 2002/96EC on waste electrical and electronic equ
Regulatory Compliance and Safety Information Standards Compliance Standards Compliance Safety Agency Certifications • US UL 60950 • IEC 60950-1:2001; all national deviations • EN 60950-1: 2001; all deviations • CAN/CSA-C22.2 No. 60950-1-03 • NOM-019 SCFI, Mexico • AS/NZ TS-001 and 60950:2000, Australia • UL-AR, Argentina • UL-GS Mark, Germany • EN 60825-1 Laser, EN60825-2 Laser • CDRH Laser • GOST Russia EMI/EMC Standards • FCC Part 15 (CFR 47) Class A. (Note: Class A with UTP cables.
Standards Compliance Regulatory Compliance and Safety Information FCC Class A, Part 15 This equipment has been tested and found to comply with the limits for Class A digital device pursuant to Part 15 of the FCC Rules.These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Regulatory Compliance and Safety Information Standards Compliance VCCI This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions . Class A Warning for Taiwan and Other Chinese Markets This is a Class A Information Product.
Translated Safety Warnings Regulatory Compliance and Safety Information Translated Safety Warnings Chassis Lifting Warning Two people are required when lifting the chassis. Due to its weight, lifting the chassis unassisted can cause personal injury. Also be sure to bend your knees and keep your back straight when assisting with the lifting of the chassis. Français: Le châssis doit être soulevé par deux personnes au minimum.
Regulatory Compliance and Safety Information Translated Safety Warnings Installation Warning Only personnel knowledgeable in basic electrical and mechanical procedures should install or maintain this equipment. Français: Toute installation ou remplacement de l'appareil doit être réalisée par du personnel qualifié et compétent. Deutsch: Installationshinweise Dieses Gerät soll nur von Personal installiert oder gewartet werden, welches in elektrischen und mechanischen Grundlagen ausgebildet ist.
Translated Safety Warnings Regulatory Compliance and Safety Information Lithium Battery Warning There is a danger of explosion if the Lithium battery in your chassis is incorrectly replaced. Replace the battery only with the same or equivalent type of battery recommended by the manufacturer. Dispose of used batteries according to the manufacturer’s instructions. The manufacturer’s instructions are as follows: Return the module with the Lithium battery to Alcatel-Lucent.
Regulatory Compliance and Safety Information Translated Safety Warnings Power Disconnection Warning Your switch is equipped with multiple power supplies. To reduce the risk of electrical shock, be sure to disconnect all power connections before servicing or moving the unit. Français: Il se peut que cette unité soit équipée de plusieurs raccordements d'alimentation. Pour supprimer tout courant électrique de l'unité, tous les cordons d'alimentation doivent être débranchés.
Translated Safety Warnings Regulatory Compliance and Safety Information Read Important Safety Information Warning The Getting Started Guide that accompanied this equipment contains important safety information about which you should be aware when working with hardware components in this system. You should read this guide before installing, using, or servicing this equipment.
Regulatory Compliance and Safety Information Translated Safety Warnings Wrist Strap Warning Because electrostatic discharge (ESD) can damage switch components, you must ground yourself properly before continuing with the hardware installation. For this purpose, Alcatel-Lucent provides a grounding wrist strap and a grounding lug located near the top-right of the chassis.
Instrucciones de seguridad en español Regulatory Compliance and Safety Information Instrucciones de seguridad en español Advertencia sobre el levantamiento del chasis Se requieren dos personas para levantar el chasis. Debido a su peso, la elevación del chasis sin ayuda puede causar daños corporales. También es seguro doblar sus rodillas y guardar su espalda derecho al ayudar a levantar el chasis.
Regulatory Compliance and Safety Information Instrucciones de seguridad en español Advertencia sobre una apropiada conexión a tierra Para evitar peligro de descargas: • El cable de alimentación debe estar conectado a una toma de alimentación adecuadamente cableada y con toma de tierra. Cualquier equipo al cual se conecte este producto debe estar también conectado a tomas de alimentación adecuadamente cableadas.
Instrucciones de seguridad en español page A-16 Regulatory Compliance and Safety Information OmniSwitch 6400 Series Hardware Users Guide July 2010
