Brocade Communications Systems FastIron SX Hardware Installation Manual
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HARDWARE INSTALLATION GUIDE
Brocade FastIron SX Series Chassis
Hardware Installation Guide
Part Number: 53-1003613-04
Publication Date: 15 June 2017
©
2017, Brocade Communications Systems, Inc. All Rights Reserved.
Brocade, the B-wing symbol, and MyBrocade are registered trademarks of Brocade Communications Systems, Inc., in the United States and in other countries. Other brands, product names, or service names mentioned of Brocade Communications Systems, Inc. are listed at www.brocade.com/en/legal/ brocade-Legal-intellectual-property/brocade-legal-trademarks.html
. Other marks may belong to third parties.
Notice: This document is for informational purposes only and does not set forth any warranty, expressed or implied, concerning any equipment, equipment feature, or service offered or to be offered by Brocade. Brocade reserves the right to make changes to this document at any time, without notice, and assumes no responsibility for its use. This informational document describes features that may not be currently available. Contact a Brocade sales office for information on feature and product availability. Export of technical data contained in this document may require an export license from the
United States government.
The authors and Brocade Communications Systems, Inc. assume no liability or responsibility to any person or entity with respect to the accuracy of this document or any loss, cost, liability, or damages arising from the information contained herein or the computer programs that accompany it.
The product described by this document may contain open source software covered by the GNU General Public License or other open source license agreements. To find out which open source software is included in Brocade products, view the licensing terms applicable to the open source software, and obtain a copy of the programming source code, please visit http://www.brocade.com/support/oscd .
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Contents
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Preface
•
•
•
•
Document conventions
The document conventions describe text formatting conventions, command syntax conventions, and important notice formats used in
Brocade technical documentation.
Notes, cautions, and warnings
Notes, cautions, and warning statements may be used in this document. They are listed in the order of increasing severity of potential hazards.
NOTE
A Note provides a tip, guidance, or advice, emphasizes important information, or provides a reference to related information.
ATTENTION
An Attention statement indicates a stronger note, for example, to alert you when traffic might be interrupted or the device might reboot.
CAUTION
A Caution statement alerts you to situations that can be potentially hazardous to you or cause damage to hardware, firmware, software, or data.
DANGER
A Danger statement indicates conditions or situations that can be potentially lethal or extremely hazardous to you. Safety labels are also attached directly to products to warn of these conditions or situations.
Text formatting conventions
Text formatting conventions such as boldface, italic, or Courier font may be used to highlight specific words or phrases.
Format bold
text
italic
text
Courier font
Description
Identifies command names.
Identifies keywords and operands.
Identifies the names of GUI elements.
Identifies text to enter in the GUI.
Identifies emphasis.
Identifies variables.
Identifies document titles.
Identifies CLI output.
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Brocade resources
8
Format Description
Identifies command syntax examples.
...
\
x
|
y
< >
Command syntax conventions
Bold and italic text identify command syntax components. Delimiters and operators define groupings of parameters and their logical relationships.
Convention bold
text
italic
text value
[ ]
{
x
|
y
|
z
}
Description
Identifies command names, keywords, and command options.
Identifies a variable.
In Fibre Channel products, a fixed value provided as input to a command option is printed in plain text, for example,
--show
WWN.
Syntax components displayed within square brackets are optional.
Default responses to system prompts are enclosed in square brackets.
A choice of required parameters is enclosed in curly brackets separated by vertical bars. You must select one of the options.
In Fibre Channel products, square brackets may be used instead for this purpose.
A vertical bar separates mutually exclusive elements.
Nonprinting characters, for example, passwords, are enclosed in angle brackets.
Repeat the previous element, for example,
member
[
member
...].
Indicates a “soft” line break in command examples. If a backslash separates two lines of a command input, enter the entire command at the prompt without the backslash.
Brocade resources
Visit the Brocade website to locate related documentation for your product and additional Brocade resources.
White papers, data sheets, and the most recent versions of Brocade software and hardware manuals are available at www.brocade.com
.
Product documentation for all supported releases is available to registered users at MyBrocade .
Click the
Support
tab and select
Document Library
to access product documentation on MyBrocade or www.brocade.com
. You can locate documentation by product or by operating system.
Release notes are bundled with software downloads on MyBrocade . Links to software downloads are available on the MyBrocade landing page and in the Document Library.
Document feedback
Quality is our first concern at Brocade, and we have made every effort to ensure the accuracy and completeness of this document.
However, if you find an error or an omission, or you think that a topic needs further development, we want to hear from you. You can provide feedback in two ways:
• Through the online feedback form in the HTML documents posted on www.brocade.com
• By sending your feedback to [email protected]
Provide the publication title, part number, and as much detail as possible, including the topic heading and page number if applicable, as well as your suggestions for improvement.
Brocade FastIron SX Series Chassis Hardware Installation Guide
Part Number: 53-1003613-04
Contacting Brocade Technical Support
Contacting Brocade Technical Support
As a Brocade customer, you can contact Brocade Technical Support 24x7 online or by telephone. Brocade OEM customers should contact their OEM/solution provider.
Brocade customers
For product support information and the latest information on contacting the Technical Assistance Center, go to www.brocade.com
and select
Support
.
If you have purchased Brocade product support directly from Brocade, use one of the following methods to contact the Brocade
Technical Assistance Center 24x7.
Online
Preferred method of contact for non-urgent issues:
• Case management through the MyBrocade portal.
• Quick Access links to Knowledge Base, Community, Document
Library, Software Downloads and Licensing tools
Telephone
Required for Sev 1-Critical and Sev 2-High issues:
• Continental US: 1-800-752-8061
• Europe, Middle East, Africa, and Asia Pacific: +800-AT FIBREE
(+800 28 34 27 33)
• Toll-free numbers are available in many countries.
• For areas unable to access a toll-free number:
+1-408-333-6061
Brocade OEM customers
If you have purchased Brocade product support from a Brocade OEM/solution provider, contact your OEM/solution provider for all of your product support needs.
• OEM/solution providers are trained and certified by Brocade to support Brocade
®
products.
• Brocade provides backline support for issues that cannot be resolved by the OEM/solution provider.
• Brocade Supplemental Support augments your existing OEM support contract, providing direct access to Brocade expertise.
For more information, contact Brocade or your OEM.
• For questions regarding service levels and response times, contact your OEM/solution provider.
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About This Document
•
•
Supported Software
For information about the features supported on a hardware platform, refer to the appropriate
Features and Standards Support Matrix
document.
What’s new in this document
There are no enhancements in this edition.
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Overview
•
•
•
•
This chapter contains an overview of the following FastIron X Series
®
Layer 2 or Layer 3 switches:
• FastIron SX 800 (FSX 800)
• FastIron SX 1600 (FSX 1600)
Designed for medium to large enterprise backbones, FastIron X Series chassis devices are modular switches that provide the enterprise network with a complete end-to-end Enterprise LAN solution, from the wiring closet to the LAN backbone.
Hardware benefits
FastIron X Series chassis devices provide the following benefits:
• The FSX 800 and FSX 1600 management modules have a console port and a 10/100/1000 port that provide connectivity to your existing management network.
• The FSX 800 and FSX 1600 management modules are interchangeable between devices. However, you cannot mix Second
Generation and Third Generation modules in the same device.
• Optional dual management modules on the FSX 800 and FSX 1600 provide full redundancy.
• The crossbar (xbar) architecture enables the management module to switch 30 Gigabits per second between each interface module and within the management module to each of the fabrics.
• The interface modules and power supplies are interchangeable among all FastIron X Series chassis devices. However, you cannot mix Second Generation and Third Generation modules in the same device.
• The FSX 800 and FSX 1600 management, switch fabric, and interface modules are hot swappable, which means you can remove and replace them while the device is powered on and running.
• All FastIron X Series chassis devices have a passive backplane.
• FastIron X Series chassis devices have completely separate data and control planes for uncompromised switching performance, increased reliability of both planes, and increased security of the control plane in the event of a Denial of Service (DoS) attack on the data plane.
• FastIron X Series chassis devices have distributed data and control planes, which results in uncompromised wire-speed performance for the data plane and faster and more efficient performance of management functions for the control plane.
• The SX-FI-ZMR modules will work with systems with all second generation packet processor modules or all third generation packet processor modules. The SX-FI-2XMR modules will only work with all third generation packet processor modules.
Software features
Software features differ depending on the software version that is loaded on the device and the type of management module that is installed in the device. Refer to the appropriate configuration guide for a complete list of software features supported on your device.
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Supported configurations
Supported configurations
Premium FastIron X Series chassis devices support Layer 2 switching and full Layer 3 multiprotocol routing. Standard devices support
Layer 2 and base Layer 3 switching. All standard FastIron X Series chassis devices can be upgraded to full Layer 3 multi-protocol routing, at which time they are considered to be premium devices.
For a list of supported modules and management modules refer to the “Management Modules” section.
All FastIron X Series chassis devices optionally support Power over Ethernet (PoE), providing the means for integrating data, voice, and video over existing Ethernet cables.
TABLE 1
FastIron X Series supported configurations
Device Standard Premium (PREM)
FSX 800
FSX 1600
Yes
Yes
Yes
Yes
Power over Ethernet (PoE and PoE
+)
Yes (FI-SX-24-GPP and FI-
SX48GPP modules only)
Yes (FI-SX-24-GPP and FI-
SX48GPP modules only)
PoE and PoE+ applications
Brocade FastIron X Series chassis devices with PoE and PoE+ provide Power over Ethernet, compliant with the standards described in the IEEE 802.3af and 802.3at specification for delivering in-line power. The specifications define the standard for delivering power over existing network cabling infrastructure, enabling multicast-enabled full streaming audio and video applications for converged services, such as, Voice over IP (VoIP), WLAN access points, IP surveillance cameras, and other IP technology devices.
PoE technology eliminates the need for an electrical outlet and dedicated UPS near IP powered devices. With power sourcing devices, such as Brocade’s FastIron X Series chassis devices with PoE and PoE+, power is consolidated and centralized in the wiring closets, improving the reliability and resiliency of the network. Because PoE can provide power over Ethernet cable, power is continuous, even in the event of a power failure.
Hardware components
FastIron X Series chassis devices are composed of the following major hardware components:
• Chassis
• Management module, with optional dual management modules for full redundancy
• Separate switch fabric modules (FSX 800 and FSX 1600 only)
• Interface modules
• Power supplies
• In the FSX 800, a fan tray comprised of six fans and a fan control module
• In the FSX 1600, two fan trays at the rear of the chassis and an air filter in the bottom front of the chassis
• Built-in mounting brackets
The following sections provide more information about these components.
For details about physical dimensions, power supply specifications, and pinouts, refer to the “Hardware Specifications” section.
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Hardware components
FSX 800 chassis
The FSX 800 chassis is six rack units in height and contains the following component slots:
• Two half slots for management modules
• Two half slots for switch fabric modules
• Eight half slots for interface modules
• Four slots for power supplies along the bottom of the card shelf. The power supply slots add a rack unit (RU) to the height of the chassis.
FIGURE 1
FSX 800 chassis and component slots
The FSX 800 chassis ships from the factory with the following components installed:
• Two switch fabric modules
• A slot panel in each empty interface module slot and power supply slot. The slot panels ensure proper airflow within the chassis.
• One AC power supply
• A fan tray assembly, which contains the cooling system for the chassis
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Hardware components
You can install the following components in the FSX 800 slots:
• Up to two management modules
• Up to eight single slot and up to 4 double slot interface modules
• Up to four AC or DC power supplies: two system (12-volt) power supplies and two PoE (52- 54-volt) power supplies
Before installing any modules or power supplies, you must remove the slot panel.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
The figure below shows the FSX 800 slots where you install modules and power supplies, and the electrostatic discharge (ESD) connector, into which you can plug an ESD wrist strap to ground yourself while handling and installing modules.
FIGURE 2
FSX 800 module slots
16
5.
6.
7.
3.
4.
1.
2.
Slot 1
Slot 2
Slot 3
Slot 4
Slot 5
Slot 6
Slot 7
8.
9.
Slot 8
Slot 9
10. Slot 10
11. Switch Fabric Slot 1
12. Switch Fabric Slot 2
13. Fan tray
14. ESD connector
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DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
FSX 1600 chassis
Part numbers for the FSX 1600 chassis and bundles begin with
FI-SX-1600-
xxx.
The FSX 1600 chassis is 14 rack units in height and contains the following component slots:
• Two half slots for management modules
• Two half slots for switch fabric modules
• Sixteen half slots for interface modules
• Eight slots for power supplies along the bottom of the card shelf
The following figure shows the front of the FSX 1600 device.
Hardware components
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Hardware components
FIGURE 3
FSX 1600 device
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Hardware components
FSX 1600 devices ship from the factory with the following components installed:
• Two switch fabric modules
• A slot panel in each empty interface module slot and power supply slot. The slot panel ensures proper airflow within the chassis.
• Two AC power supplies
• A fan tray assembly, which contains the cooling system for the chassis
You can install the following components in the slots:
• Up to two management modules
• Up to 16 single slot and up to 8 double slot interface modules
• Up to eight AC or DC power supplies (four system (SYS) power supplies and four PoE power supplies)
Before installing any modules or power supplies, you must remove the slot panel.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
FSX 1600 slot identification
The following figure identifies the slots where you can install modules and power supplies as well as the electrostatic discharge (ESD) connector, into which you can plug an ESD wrist strap to ground yourself while handling and installing modules.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
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Hardware components
FIGURE 4
FSX 1600 slots
7.
8.
5.
6.
3.
4.
1.
2.
Interface slot 1
Interface slot 2
Interface slot 3
Interface slot 4 interface slot 5
Interface slot 6
Interface slot 7
Interface slot 8
9.
Interface slot 9
10. Interface slot 10
11. Interface slot 11
12. Interface slot 12
13. Interface slot 13
14. Interface slot 14
15. Interface slot 15
16. Interface slot 16
17. Management slot 17
18. Management slot 18
19. Switch fabric slot 1
20. Switch fabric slot 2
21. ESD ground connector
Management modules
Each FSX 800 and FSX 1600 device requires one management module and as an option supports two management modules for full redundancy. Each management module occupies one half slot.
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Hardware components
FSX 800 and FSX 1600 management modules
Management modules for the FSX 800 and FSX 1600 are interchangeable between devices. Standard management modules provide
Layer 2 and base Layer 3 functionality only. Premium management modules support full Layer 3 functionality.
NOTE
FSX 800 and FSX 1600 management modules are dedicated, which means that you must install them in FSX 800 or FSX
1600 devices only. If you attempt to install these management modules in any other Brocade device, the device and modules will not function properly.
NOTE
You cannot mix different management modules in the same FSX 800 or FSX 1600 device. The management module models must be identical.
NOTE
You cannot mix Second Generation and Third Generation modules in the same FSX 800 or FSX 1600 device.
lists the management modules for FSX 800 and FSX 1600 devices.
TABLE 2
Information about FSX 800 and FSX 1600 management modules
Part Number Description Microprocessor Speed (MHz)
XL management modules
SX-FI-ZMR-XL
SX-FI-ZMR-XL-PREM6
SX-FI-2XGMR-XL
SX-FI-2XGMR-XL-PREM no ports
2 ports
1500 (quad-core)
MB SDRAM
4096
NOTE
XL management modules ending with -PREM6 support full Layer 3 IPv4 and IPv6 routing protocols.
FSX 800 and FSX 1600 management modules perform the following tasks:
• Control the hardware components
• Control the separate switch fabric modules
• Run the networking protocols
• Provide the real time operating system
FSX 800 management modules are located in slots 9 and 10, just above the switch module slots (refer to
15).
on page 17).
The figure below shows the front panel of the IPv6 SX-FI-ZMR-XL and SX-FI-ZMR-XL-PREM6 management modules with no ports.
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Hardware components
FIGURE 5
SX-FI-ZMR-XL and SX-FI-ZMR-XL-PREM6 management modules with no ports
The figure below shows the front panel of the IPv6 SX-FI-2XGMR-XL and SX-FI-2XGMR-XL-PREM management modules with 2 ports.
FIGURE 6
SX-FI-2XGMR-XL and SX-FI-2XGMR-XL-PREM management modules with 2 ports
Management module front panels include the following control features:
• A Console port and 10/100/1000 RJ-45 copper port allow you to access the command line interface (CLI) directly from a PC or terminal or through a Telnet connection.
• LEDs for power and active or standby status.
• The SX-FI-ZMR-XL and SX-FI-ZMR-PREM6 management modules and the SX-FI-2XGMR-XL and SX-FI-2XGMR-XL-
PREM management modules have a USB port on the front panel for externally accessible customer Flash Memory.
10/100/1000 GbE copper port on the FSX 800 and FSX 1600 management modules
The 10/100/1000 RJ45 copper port on the management module enables you to attach a PC or terminal and access the system CLI directly or through a Telnet connection.
LEDs on the FSX 800 and FSX 1600 management modules
The management modules provide status information through the LEDs listed in the table below.
TABLE 3
FSX 800 and FSX 1600 management module LEDs
LED Description and Position
Pwr Round LED located to the left of the console port
Active Round LED located to the left of the console port
State
On (Green)
Off
On (Green)
Off
10/100/1000 Copper Port LEDs on SX-FI-ZMR-XL and SX-FI-ZMR-XL-PREM6 modules only
MGMT-Link Right-most LED above the port On (Green)
Meaning
The module is receiving power.
The module is not receiving power.
The module is the active management module.
The module is not the active management module.
10/100/1000
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Hardware components
TABLE 3
FSX 800 and FSX 1600 management module LEDs (continued)
LED Description and Position State
Blinking
Sync-Link Left-most LED above the port
Off
On (Green)
Blinking
Off
SFP+ port LEDs on SX-FI-2XGMR-XL and SX-FI-2XGMR-XL-PREM management modules only
Port 1 Left SFP+ On (Green)
Blinking
Off
Port 2 Right SFP+ On (Green)
Blinking
Off
Meaning
The port is transmitting and receiving traffic.
No port connection exists.
Two management modules are present.
Active and Standby modules are syncing.
No port connection exists.
The SFP+ port is linked.
The SFP+ port has TX/RX activity.
The SFP+ port is not linked.
The SFP+ port is linked.
The SFP+ port has TX/RX activity.
The SFP+ port is not linked.
Console port
The Console port on SX-FI-ZMR-XL and SX-FI-ZMR-XL-PREM6 management modules and the SX-FI-2XGMR-XL and SX-
FI-2XGMR-XL-PREM management modules has an RJ45 connector.
The Console port interfaces with the control plane only and does not interface with the data plane.
Reset button
The SX-FI-ZMR-XL and SX-FI-ZMR-XL-PREM6 management modules and the SX-FI-2XGMR-XL and SX-FI-2XGMR-XL-PREM management modules do not have a reset button.
Specifying a port address
You can specify a port address for a data port or a management port.
Specifying a management port
The management port number is always 1. This example shows how to specify the management port:
Brocade (config) # interface management 1
Specifying a data port
The port address format is
slot
/
port
.
•
Slot
specifies the interface slot number. Range is from 1 to 8 (FSX 800) or 1 to 16 (FSX 1600).
•
Port
specifies the port number in the slot. Range is from 1 to 48 depending on the interface module.
This example shows how to specify port 2 in slot 1:
Brocade (config) # interface ethernet 1/2
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Hardware components
Switch fabric modules
Switch fabric modules switch user packets from one interface module to another. Switch fabric modules in the FSX 800 and FSX 1600 devices are separate and are located next to the management modules in the device.
Switch fabric modules shows an FSX 800 and FSX 1600 switch fabric module front panel.
FIGURE 7
FSX 800 and FSX 1600 switch fabric module front panel
Switch fabric module LEDs
The front panel provides status information through the LEDs listed in the table below.
TABLE 4
Switch fabric module LEDs
LED Description and Position
Pwr Top LED
Active Bottom LED
State
On (Green)
Off
On (Green)
Off
Meaning
The module is receiving power.
The module is not receiving power.
The module is functioning properly.
The module is not functioning properly.
Interface modules
This section describes interface modules for the FastIron X Series chassis devices. The following installation rules apply:
•
• In the FSX 1600 device, you can install up to 16 single slot and eight double slot interface modules in the slots shown in
NOTE
You cannot mix Second Generation and Third Generation modules in the same device.
The table below lists the supported interface modules for each FastIron X Series chassis device type.
TABLE 5
Interface modules
Interface Module Part Number
Second Generation Interface Modules
24-port Gigabit Ethernet copper without PoE
SX-FI624C
24-port Gigabit Ethernet copper with PoE
SX-FI624P
FSX 800
X
X
FSX 1600
X
X
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Hardware components
TABLE 5
Interface modules (continued)
Interface Module Part Number
24-port 100/1000 Hybrid Fiber
2-port 10-Gigabit Ethernet LAN module
Third Generation Interface Modules
24-port Gigabit Ethernet copper interface module with PoE+
24-port Gigabit Ethernet fiber interface module
2-port 10-Gigabit Ethernet interface module
8-port 10-Gigabit Ethernet interface module
48-port 10/100/1000 Mbps
RJ45 Ethernet module with PoE+
48-port 10/100/1000 Gigabit
Ethernet copper without POE
48-port 10/100/1000 Gigabit
Ethernet copper with POE
SX-FI624HF
SX-FI62XG
SX-FI-24GPP
SX-FI-24HF
SX-FI-2XG
SX-FI-8XG
SX-FI48GPP
SX-FI648C
SX-FI648PP
X
X
X
X
X
X
X
FSX 800
X
X
X
X
X
X
X
X
X
FSX 1600
X
X
Hot swap support
• Interface modules are hot swappable, which means you can remove and replace them without powering down the system; however, you must issue the
disable module
command before you remove the modules from the device.
• Issuing the
disable module
command before removing the module is not required on the FSX 800 and FSX 1600 device. This is referred to as "Enhanced Hot Swap".
• Do not perform both hot swap removal and hot swap insertion of another line module while hot swap of a line module is taking place. Wait until the current hot swap of the line module is completed. The following message indicates that the hot swap insertion of a module is completed:
Module 1 is up and running
The following console message indicates that the hot swap removal of a module is completed:
Powering off the module in slot 1
NOTE
It is recommended that modules be disabled through the CLI before removal from the device. If the operator wishes to remove the module without first disabling the module, the Enhanced Hot Swap capability in software Release 03.2.00 and later supports this procedure for the FastIron SX 800 and FastIron SX 1600 device. Enhanced Hot Swap (that is, no CLI
disable
) should be performed during a maintenance window. On rare occasions, an Enhanced Hot Swap may result in a software reload of the system. The likelihood of this event is very low.
NOTE
It is important to wait a minimum of 10 seconds between the removal and insertion of a line module. Re-insertion of a line module less than 10 seconds after the removal of a line module may result in the line module not being properly recognized.
Refer to
Replacing an interface module on page 128 for instructions.
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Hardware components
48-port 10/100/1000 Mbps (RJ45) Ethernet PoE interface module
The 48-port 10/100/1000 Mbps Ethernet PoE interface module (SX-FI48GPP) uses two vertical half-slots in the FastIron SX 800 or
1600 device and is supported in IPv4-only and IPv6-capable systems. The ports support automatic MDI or MDIX detection, and use auto-sensing and auto-negotiating to determine the speed (10, 100, or 1000 Mbps) and duplex mode (full-duplex or half-duplex) of the port at the other end of the link, and adjust the local port accordingly. Ports running at 1000 Mbps operate in full-duplex mode only and cannot be modified.
The module is 2:1 oversubscribed with an intelligent queue in front of the module packet processor. Traffic on each port can be classified as high or low priority, and can be scheduled from a queue using these priority settings ensuring QoS from the port of entry into the network.
2:1 oversubscription
Interface oversubscription is the use of a single physical ingress port to handle incoming traffic from multiple devices, and is usually expressed as a ratio; the ratio shows the proportion of incoming connections to physical ports carrying traffic to the backplane of the device. The FastIron supports 2:1 oversubscription, allowing two devices to pass traffic through a single internal physical port to take advantage of bandwidth which might otherwise go unused.
Oversubscription is achieved on the SX-FI48GPP by connecting 48 external ports to 24 internal physical ports, providing 2:1 oversubscription. No CLI command is required to enable oversubscription, but because two external ports are funneling traffic into each physical link, the FastIron uses virtual interfaces (VEs) to divide each physical link into two logical ports. These VEs can then be individually configured at the interface level.
NOTE
This interface module is supported only on the FSX-800 and FSX-1600.
FIGURE 8
48-port 10/100/1000 Mbps Ethernet PoE interface module front panel
LEDs for the 48-port 10/100/1000 Mbps Ethernet PoE interface module
The front panel of the 48-port 10/100/1000 Mbps Ethernet interface module includes 48 LEDs that indicate the status of each port, and 48 LEDs that indicate the status of PoE+. The first 24 LEDs are located below the first 24 ports and the remaining 24 LEDs are located below the remaining 24 ports.
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NOTE
The PoE LEDs work only when PoE is enabled on your device.
The 48-port 10/100/1000 Mpbs Ethernet PoE interface module supports Power over Ethernet (PoE+). To run PoE+ on your system, you must also install at least one 48-volt to 54-volt power supply.
The module ports provide status information through the LEDs described in the table below.
TABLE 6
LEDs for the 48-port 10/100/1000 Mbps Ethernet PoE interface module
LED Position State
Link or Activity On (Green) Square LED located at upper left corner of top port (for top port)
Square LED located at upper right corner of top port (for bottom port)
Blinking
PoE (if applicable) Round LED located beneath the ports. The first (left-most) LED is for port 1, the second LED is for port 2, the third LED is for port 3, etc.
Off
On (Green)
Off
Meaning
A link is established with the remote port.
The port is transmitting and receiving traffic.
No link exists with the remote port.
The port is enabled, a powerconsuming device has been detected, and the module is supplying power to the device.
The port is not providing in-line power.
NOTE
This module occupies two slot spaces, and can be installed in certain slots only. For details refer to
Installing management and interface modules
on page 55.
48-port 10/100/1000 Mbps Ethernet PoE+ interface module limitations
The following limitations apply to this module:
• Q-in-Q and SAV (VLAN stacking) are not supported on this module
Second Generation 24-port Gigabit Ethernet copper interface module
The Second Generation 24-port Gigabit Ethernet copper interface module has 24 10/100/1000 ports with RJ45 connectors for Cat5 cabling. The copper ports support automatic MDI or MDIX detection, and use auto-sensing and auto-negotiating to determine the speed
(10, 100, or 1000 Mbps) and duplex mode (full-duplex or half-duplex) of the port at the other end of the link, and adjust the port accordingly. Ports running at 1000 Mbps operate in full-duplex mode only and cannot be modified.
The 24-port Gigabit Ethernet copper interface module supports Power over Ethernet (PoE). You can either order the interface module with PoE capability, or upgrade your existing 24-port Gigabit Ethernet Copper module by installing a PoE daughter card. To run PoE on your system, you must also install at least one 48-volt power supply.
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FIGURE 9
Second Generation 24-port Gigabit Ethernet copper module front panel
1. Port 1
2. Port 2
3. Location of LEDs
The front panel includes the following control features:
• 24 10/100/1000 copper ports
• 24 LEDs for port status
• 24 LEDs for PoE status
NOTE
The PoE LEDs work only when PoE is enabled on your device.
13. Port 13
14. Port 14
24. Port 24
LEDs for 24-port copper module
The front panel of the 24-port Gigabit Ethernet copper module includes 24 LEDs (top) that indicate the status of each port, and 24
LEDs (bottom) that indicate the PoE status.
NOTE
The PoE LEDs work only when PoE is enabled on your device.
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The copper ports provide status information using the LEDs described in the table below.
TABLE 7
LEDs for 10/100/1000 copper ports
LED Position
Link or Activity Square LED located at upper left corner of to port (for top port)
Square LED located at upper right corner of top port (for bottom port)
State
On (Green)
Blinking
PoE (if applicable)
Off
On (Green) Round LED located beneath the ports. The first (left-most) LED is for port 1, the second LED is for port 2, the third LED is for port 3, etc.
Off
Meaning
A link is established with the remote port.
The port is transmitting and receiving traffic.
No link exists with the remote port.
The port is enabled, a powerconsuming device has been detected, and the module is supplying power to the device.
The port is not providing in-line power.
Third Generation 24-port Gigabit Ethernet copper module with PoE+
The 24-port Gigabit Ethernet copper interface module with PoE+ supports both IPv4 and IPv6. The figure below shows the front panel of the IPv4 and IPv6 24-port Gigabit Ethernet copper interface module with PoE+. The module requires Ironware 7.3 or later for
FastIron series.
FIGURE 10
24-port Gigabit Ethernet copper module with PoE+ front panel
1. Port 1
2. Port 2
The front panel includes the following control features:
• 24 10/100/1000 copper ports
• 24 LEDs for port status
• 24 LEDs for PoE status
13. Port 13
14. Port 14
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LEDs for 24-port copper module with PoE+
The front panel of the 24-port Gigabit Ethernet copper module includes 24 LEDs (top) that indicate the status of each port, and 24
LEDs (bottom) that indicate the PoE status.
The copper ports provide status information using the LEDs described in the table below.
TABLE 8
LEDs for 10/100/1000 copper ports
LED Position
Link or Activity Square LED located at upper left corner of to port (for top port)
Square LED located at upper right corner of top port (for bottom port)
PoE or PoE+(if applicable) Round LED located beneath the ports. The first (left-most) LED is for port 1, the second LED is for port 2, the third LED is for port 3, etc.
State
On (Green)
Blinking
Off
On (Green)
Off
Meaning
A link is established with the remote port.
The port is transmitting and receiving traffic.
No link exists with the remote port.
The port is enabled, a powerconsuming device has been detected, and the module is supplying power to the device.
The port is not providing in-line power.
24-port 100/1000 hybrid fiber interface module
The 100/1000 hybrid fiber module has 24 ports with connectors for mini-GBIC transceivers (also called Small Form Factor Pluggable or SFP) Multisource Agreement (MSA)-compliant transceivers. The ports support 100 and 1000 fiber mini-GBICs. There are different part numbers available for the second (SX-FI624HF) and third generation (SX-FI-24HF) modules and they cannot be intermixed in release 08.0.00 and higher.
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FIGURE 11
IPv6 100/1000 hybrid fiber interface module front panel
Hardware components
1. Port 1
2. Port 2
3. Location of LEDs
13. Port 13
24. Port 24
The front panel contains the following control features:
• 24 Gigabit Ethernet fiber ports
• 24 LEDs
The ports on the 24-port 100/1000 Gigabit Ethernet hybrid fiber module operate at a fixed speed of 100 or 1000 Mbps (they do not support 10 Mbps connections), and use auto-negotiation to automatically configure the highest performance mode with the connected device.
Support for 100Base-FX on the 100/1000 interface module
The 24-port 100/1000 fiber interface module supports the following types of SFPs for 100Base-FX:
• Multimode SFP - maximum distance is 2 kilometers
• Bidirectional single mode SFP - maximum distance is 10 kilometers
• Long Reach (LR) - maximum distance is 40 kilometers
• Intermediate Reach (IR) - maximum distance is 15 kilometers
To enable support for 100BaseFX, you must enter the CLI command 100-fx at the interface level of the CLI. For CLI command details, refer to the section "Enabling and Disabling Support for 100BaseFX" in the
FastIron Ethernet Switch Administration Guide
.
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2-port 10-Gigabit Ethernet interface modules
2-port 10-Gigabit Ethernet interface modules have two physical ports, through which you can connect the Brocade device to other network devices at a speed of 10 Gigabits per second.
The modules have two optical interfaces with LC connectors for 10-Gigabit Small Form Factor Pluggable (SFP+) on the Third
Generation, or XFP on the Second Generation module supporting the applicable MSA-compliant transceivers. On Second Generation 2port 10-Gigabit Ethernet interface modules, the transceivers support 10GBase-SR, 10GBase-LR, and 10GBase-ER fiber optic cabling for LAN PHY. On Third Generation 2-port 10-Gigabit Ethernet interface modules, the transceivers support Twin-ax copper, 10GBase-
SR, 10GBase-LR, and 10GBase-ER fiber optic cabling for LAN.
FIGURE 12
Second Generation 2-port 10-Gigabit Ethernet interface module front panel
FIGURE 13
Third Generation 2-port 10-Gigabit Ethernet interface module front panel
LEDs for Second Generation 2-port 10-Gigabit Ethernet module
The 10 Gbps ports provide status information using the LEDs listed below.
TABLE 9
LEDs for 10 Gbps ports
LED Position
Lnk Top left of connector
Act Bottom left of connector
State
On
Off
On or Blinking
Off
LEDs for Third Generation 2-Port 10-Gigabit Ethernet module
The 10 Gbps ports provide status information using the LEDs listed below.
32
Meaning
Fiber port is connected.
No fiber port connection exists.
The port is transmitting and receiving traffic.
The port is not transmitting or receiving traffic.
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TABLE 10
LEDs for 10 Gbps ports
LED Position
Link or Activity Triangle-shaped LEDs point either upwards or downwards towards the port they indicate
State
ON (Green)
Blinking
OFF
Meaning
The port is connected, a link is established with the remote port.
The port is transmitting or receiving traffic.
The port is not connected, no link exists with the remote port
Third Generation 8-port 10-Gigabit Ethernet interface modules
Third Generation 8-port 10-Gigabit Ethernet interface modules have eight physical ports, through which you can connect the Brocade device to other network devices at a speed of 10 Gigabits per second.
The modules have two optical interfaces with LC connectors for 10-Gigabit Small Form Factor Pluggable (SFP+) MSA-compliant transceivers. The transceivers support 10GBase-SR, 10GBase-LR, and 10GBase-ER fiber optic cabling for LAN.
The module requires Ironware 7.3 or later for FastIron series.
4:1 oversubscription
Interface oversubscription is the use of a single physical ingress port to handle incoming traffic from multiple devices, and is usually expressed as a ratio; the ratio shows the proportion of incoming connections to physical ports carry traffic to the backplane of the device.
An oversubscribed module allows aggregate bandwidth of user ports exceed the bandwidth of the Network Processor (NP). The SX-
FI-8XG has two separate NPs. The front-end NP provides basic traffic classification and is used as a traffic multiplexer. The back-end NP is a traffic aggregator and handles data forwarding.
The SX-FI-8XG module has eight 4:1 oversubscribed ports. Oversubscription is achieved on the SX-FI8-XG by connecting the eight 10
GE external ports to two internal 10GE ports, providing 4:1 oversubscription. The eight 10GE ports on the SX-FI8XG are divided into two groups of internal physical ports, with ports 1-4 in one group and ports 5-8 in the other group. Each group shares 10GE bandwidth internally. No CLI command is required to enable oversubscription, but because four external ports are funneling traffic into each physical link, the SX-FI8XG uses virtual interfaces (VEs) to divide each physical link into four logical ports. These VEs can be individually configured at the interface level.
FIGURE 14
Third Generation 8-port 10-Gigabit Ethernet interface module
The 10 Gbps ports provide status information using the LEDs listed in the table below.
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TABLE 11
LEDs for 10 Gbps ports
LED Position
Link or Activity Triangle-shaped LEDs point either upwards or downwards towards the port it indicates
State
ON (Green)
Blinking
OFF
Meaning
The port is connected, a link is established with the remote port.
The port is transmitting or receiving traffic.
The port is not connected, no link exists with the remote port
Network interfaces
The table below lists the network interfaces supported on FastIron X Series chassis devices. For network interface and cabling specifications, refer to
on page 167.
The output of the
show media
command displays the type of media installed in the ports.
TABLE 12
Network interfaces
Interface
1000Base-BX-D
1000Base-BX-U
1000Base-CWDM
1000Base-LHA
1000Base-LHB
1000Base-LX
1000Base-SX
1000Base-SX2
1000Base-T
100Base-BX
100Base-FX
100Base-FX-IR
100Base-FX-LR
100Base-FX-SR
100Base-TX (copper only)
10GBase-1310-MMF
10GBase-CX4
10GBase-ER
10GBase-LR
10GBase-SR
Show Media Description
M-GBXD
M-GBXU
C
xxxx
(xxx denotes wavelength, for example, C1550
M-LHA
M-LHB
M-LX
M-SX
M-XR or M-SX2
M-C
M-FBXD or M-FBXU
M-FX, M-FXB1, or M-FXB2
M-FX-IR
M-FX-LR
M-FX-SR
M-TX
1310-MMF
XG-CX4
XG-ER
XG-LR
XG-SR
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Port regions
Ports on FastIron X Series chassis devices are grouped into regions. For a few features, such as port monitoring and unknown unicast configurations, you will need to know the region to which a port belongs. However, for most features, a port region does not affect configuration or operation of the feature. If a port region does affect configuration or operation of a feature, it is noted and described in the appropriate feature section of this guide.
• 48-port 10/100/1000 Mpbs Ethernet PoE interface module (two port regions)
– Ports 1 - 24 belong to port region 0
– Ports 25 - 48 belong to port region 1
• 24-port Gigabit Ethernet copper interface module (two port regions)
– Ports 1 - 12 belong to port region 0
– Ports 13 - 24 belong to port region 1
• 48-port Gigabit Ethernet Copper Interface Module
– Ports 1 - 48
• 24-port Gigabit Ethernet fiber interface module (two port regions)
– Ports 1 - 12 belong to port region 0
– Ports 13 - 24 belong to port region 1
• 2-port 10-Gigabit Ethernet fiber interface module (two port regions)
– Port 1 belongs to port region 0
– Port 2 belongs to port region 1
• 8-port 10-Gigabit Ethernet interface module (two port regions)
– Ports 1 - 4 belong to port region 0
– Ports 5 - 8 belong to port region 1
Layer 3 routing protocol table sizes
Use the
show default values
command to display Layer 3 routing protocol table sizes. The command output shows the default, maximum, and currently configured values. Refer to the
FastIron Ethernet Switch Layer 3 Configuration Guide
for sample output.
Power supplies
FastIron X Series chassis devices ship with one or two power supplies, depending on how they are ordered from the factory.
• The FSX 800 comes with one 12-volt AC power supply. You can install up to four power supplies.
• The FSX 1600 comes with two 12-volt AC power supplies. You can install up to eight power supplies; four 12-volt AC or DC supplies and four 52- 54 volt AC power supplies for PoE and PoE+.
You can use any combination of the supported AC and DC supplies in the same device.
The following information applies to PoE power supplies:
• The SX-ACPWR2500-PoE requires 220-volt input.
• Because the SX-ACPWR2500-PoE powers up to 146 class 3 PoE ports, the SX-ACPWR-PoE is not sufficient as a backup power supply.
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TABLE 13
Power supplies supported for the FastIron X Series devices
Sales Model Number Description FSX 800
SX-ACPWR-SYS Supported
SX-ACPWR-PoE
SX-DCPWR-SYS
SX-DCPWR-PoE
SX-ACPWR2500-PoE
12-volt AC replacement power supply, manufacturing part number
32014-
xxx
12-volt AC original power supply, manufacturing part number
30351-
xxx
2
52-54 -volt AC replacement power supply, manufacturing part number
32016-
xxx
2
52- 54-volt AC original power supply, manufacturing part number
30352-
xxx
2
52- 54-volt DC
52- 54-volt DC
52- 54-volt AC
(220-volt input only)
Supported
Supported
Supported
Supported
Supported
Supported
FSX 1600
Supported
Supported
Supported
Supported
Supported
Supported
Supported
NOTE
For the differences between replacement and original power supplies, refer to the "Replacement power supplies" section.
NOTE
Manufacturing part numbers are inscribed on the labels on the top of the power supply.
NOTE
FSX 800 and FSX 1600 devices automatically perform a PoE power upgrade allowing 48-volt power supplies to support a maximum 54-volts. Refer to the “Dynamic upgrade of PoE power supplies” in the
FastIron Ethernet Switch Administration
Guide
.
The following power supplies can be installed in the FastIron X Series chassis devices:
• Non-PoE devices:
– The 12-volt AC and DC power supplies (also called system (SYS) power supplies) provide power to one management module and up to eight non-PoE interface modules. In the FSX 800, you can install a second 12-volt power supply for redundancy. The FSX 1600 comes with and requires two 12-volt power supplies and supports up to four 12-volt power supplies for redundancy.
• PoE devices:
NOTE
The Second Generation SX-FI624P modules continue to support only PoE and 802.3af applications. The Third Generation
PoE-compliant devices also support PoE+ and 802.3at applications.
• – The 12-volt AC and DC power supplies (also called system (SYS) power supplies) provide power to the management module, all non-PoE interface modules (if applicable), and all ports on PoE modules that do not require PoE power or to which no power-consuming devices are attached. In the FSX 800, you can install a second 12-volt power supply for redundancy. The FSX 1600 comes with and requires two 12-volt power supplies and supports up to four 12-volt power supplies for redundancy.
– The 52- 54-volt PoE power supplies provide power to the PoE daughter card, and ultimately to PoE power-consuming devices. The number of PoE power-consuming devices that one 52- 54-volt power supply can support depends on the
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Hardware components number of watts required by each power-consuming device. Each 52- 54-volt power supply can provide a maximum of
1080 watts of PoE power, and each PoE port supports a maximum of 15.4 watts of power per PoE power-consuming device. For example, if each PoE power-consuming device attached to the Brocade device consumes 15.4 watts of power, one 52- 54-volt supply will power up to 70 PoE ports. You can install a second 52-54-volt supply for additional PoE power.
– The 52- 54-volt (220-volt input only) PoE power supplies provide power to the PoE daughter card, and ultimately to PoE power-consuming devices. The number of PoE power-consuming devices that one 220-volt power supply can support depends on the number of watts required by each power-consuming device. Each 220-volt power supply can provide a maximum of 2260 watts of PoE power, and each PoE port supports a maximum of 15.4 watts of power per PoE powerconsuming device. For example, if each PoE power-consuming device attached to the Brocade device consumes 15.4
watts of power, one 220-volt supply will power up to 146 PoE ports. You can install a second 220-volt supply for additional PoE power.
NOTE
The system activates as many PoE ports as the 52- 54-volt PoE power supplies can handle. The system calculates the maximum number of PoE ports it can support based on the number of PoE power supplies installed. PoE ports are enabled based on their priority settings. The system reserves the maximum configured power per PoE-enabled port, even if the PoE power-consuming device is drawing less power.
• PoE+ devices (SX-FI48GPP and SX-FI-24GPP):
NOTE
The SX-FI624P module does not support PoE+ and 802.3at applications.
• – The 12-volt AC and DC power supplies (also called system (SYS) power supplies) provide power to the management module, all non-PoE interface modules (if applicable), and all ports on PoE+ modules that do not require PoE power or to which no power-consuming devices are attached. In the FSX 800, you can install a second 12-volt power supply for redundancy. The FSX 1600 comes with and requires two 12-volt power supplies and supports up to four 12-volt power supplies for redundancy.
– The 52- 54-volt PoE+ power supplies provide power to the PoE+ daughter card, and ultimately to PoE+ power-consuming devices. The number of PoE+ power-consuming devices that one 52- 54-volt power supply can support depends on the number of watts required by each power-consuming device. Each 52- 54-volt power supply can provide a maximum of
1080 watts of PoE power, and each PoE+ port supports a maximum of 30 watts of power per PoE+ power-consuming device. For example, if each PoE+ power-consuming device attached to the Brocade device consumes 30 watts of power, one 52- 54-volt supply will power up to 36 PoE+ ports. You can install a second 52- 54-volt supply for additional PoE+ power.
– The 52- 54-volt (220-volt input only) PoE+ power supplies provide power to the PoE+ daughter card, and ultimately to
PoE+ power-consuming devices. The number of PoE+ power-consuming devices that one 220-volt power supply can support depends on the number of watts required by each power-consuming device. Each 220-volt power supply can provide a maximum of 2260 watts of PoE+ power, and each PoE+ port supports a maximum of 30 watts of power per
PoE+ power-consuming device. For example, if each PoE+ power-consuming device attached to the Brocade device consumes 30 watts of power, one 220-volt supply will power up to 75 PoE+ ports. You can install a second 220-volt supply for additional PoE+ power.
NOTE
The system activates as many PoE+ ports as the 52- 54-volt PoE power supplies can handle. The system calculates the maximum number of PoE+ ports it can support based on the number of PoE+ power supplies installed. PoE+ ports are enabled based on their priority settings. The system reserves the maximum configured power per PoE+ enabled port, even if the PoE+ power-consuming device is drawing less power.
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CAUTION
The POE power supply is designed exclusively for use with the FastIron X Series POE devices. The power supply produces extensive power to support 802.3af applications. Installing the power supply in a device other than the FastIron X Series
POE will cause extensive damage to your equipment.
CAUTION
The POE+ power supply is designed exclusively for use with the FastIron X Series POE+ devices. The power supply produces extensive power to support 802.3at applications. Installing the power supply in a device other than the FastIron X
Series POE+ will cause extensive damage to your equipment.
All power supplies are auto-sensing and auto-switching.
Power supplies are installed in the slots along the bottom of the device.
In FSX 800 devices, the 12-volt (system) power supplies occupy slot numbers 3 and 4 on the right, with the redundant supply in slot 4.
PoE power supplies occupy slot numbers 1 and 2 on the left.
FIGURE 15
Power supply placement in the FSX 800
In the FSX 1600 device, the system power supplies occupy slot numbers 1 - 4 in the top row with the redundant supplies in slot numbers 3 and 4. The PoE power supplies occupy slot numbers 5 - 8 in the bottom row.
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FIGURE 16
Power supply placement in the FSX 1600
Hardware components
Installed power supplies provide power to all device components, sharing the workload equally. If a power supply fails or overheats, the workload for the failed power supply is redistributed to the redundant power supply, if one is present.
Power supplies are hot swappable, which means you can remove and replace them without powering down the system. You can remove and insert a power supply without opening the device. If the device contains redundant 12-volt power supplies, you can remove one of the power supplies without interrupting operation. The remaining power supply provides enough power for all the ports.
CAUTION
Remove the power cord from a power supply before you install it in or remove it from the device. Otherwise, the power supply or the device could be damaged as a result. (The device can be running while a power supply is being installed or removed, but the power supply itself should not be connected to a power source.)
Replacement power supplies
Replacement power supplies for the SX-ACPWR-SYS and SX-ACPWR-PoE are functionally equivalent to the original power supplies, and can be used in combination with the original power supplies in the same device. Although the model numbers for both the newer and older versions of the power supplies are identical, the front panels and the manufacturing part numbers are different.
The figure below shows a side-by-side comparison of the SX-ACPWR-SYS replacement power supply and the original power supply.
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FIGURE 17
SX-ACPWR-SYS replacement and original power supplies
The figure below shows a side-by-side comparison of the SX-ACPWR-PoE replacement power supply and the original power supply.
FIGURE 18
SX-ACPWR-PoE replacement and original power supplies
FIGURE 19
Replacement power supply side view
The latching mechanism on the front of the replacement power supplies differ from the latching mechanism on the original power supplies. The latching mechanism protrudes slightly in front, making the power supplies slightly longer in depth.
Although the model numbers (SX-ACPWR-SYS and SX-ACPWR-PoE) for the replacement and original power supplies are identical, the manufacturing part numbers are different. The manufacturing part numbers are inscribed on the labels affixed to the top of the power supplies. In addition, the manufacturing part numbers for all installed power supplies are displayed in the output of the
show chassis
command.
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Power supply LEDs
Each power supply has three LEDs on the faceplate.
TABLE 14
Power supply LEDs
LED Desired State
AC OK (AC supply only) ON - Green (steady)
Meaning
The power supply is receiving AC power from an
AC power source
Abnormal State
OFF
DC IN (DC supply only) Green (steady)
DC OUT
The power supply is receiving DC power from a
DC power source
OFF
ON - Green (steady) The power supply is supplying DC output power to the device
OFF
Meaning or Action
The power supply is not receiving power from an AC power source. You can do the following:
• Make sure that the power supply cord is connected securely to the wall outlet and the power supply.
• Make sure that the wall outlet is rated for
115/120V and
20A. If it is not, obtain a cable that is compatibly rated for the outlet.
• Make sure that the wall outlet has power.
The power supply is not receiving power from a DC power source. You can do the following:
• Make sure that the power supply cables are connected securely to the power source and the power supply.
• Make sure that the DC power source is 48VDC
@ 37.0 A.
• Make sure that the power source has power.
The power supply is not supplying DC output power to the device.
If this occurs and the AC
OK (AC power supply) or
DC IN (DC power supply)
LED is Green, then there is a problem with the power supply and it must be replaced.
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TABLE 14
Power supply LEDs (continued)
LED Desired State
ALM OFF
Meaning
No alarms present and the power supply is in normal operating condition.
Abnormal State
Amber
Meaning or Action
There is an alarm present and the power supply is malfunctioning.
Verify the AC or DC input and DC output voltages.
About redundant power supplies and power supply failure
A FastIron device with redundant power supplies can maintain full operation when one or more power supplies fail. Power supply failure can be a failure of the supply itself or the office power grid connected to the power supply.
A FastIron device can be either 1 + 1 redundant or N + 1 redundant. 1 + 1 redundancy implies that for every power supply, there is another redundant (backup) power supply. In other words, half of the supplies in the system can fail, and the system will still operate normally. N + 1 redundancy implies that there is one redundant power supply for N power supplies, where N is a number greater than one. For example, 3 + 1 redundancy means that in a system with four power supplies, the system will continue to operate normally if one power supply fails, but will not operate if more than one power supplies fail.
Power consumption is equally distributed (within a certain percentage depending on power load or power supply type) among all power supplies in the system. When a power supply fails, the power load is redistributed equally among the remaining power supplies. Power consumption between PoE and system power supplies is not shared, meaning loss of a system power supply does not impact a PoE power supply, and vice versa.
When one or more system power supplies fail
If one or more system power supplies fail and the system is left with less than the minimum number of power supplies required for normal operation, the power supplies will go into overload and the system will start to shut down. Several things can happen. The output voltage of the remaining good power supplies will likely drop as they try unsuccessfully to generate more power than they are capable of.
The system will react to a drop in voltage by increasing the current draw. The hardware will shut down due to over-current protection or under-voltage protection, whichever takes place first. One by one, the interface modules will shut down until the power is within the power budget of the remaining power supplies. There is no particular order in which the interface modules will shut down, as this will occur in hardware and not in software. The management CPU requires power as well, and may also shut down during a power supply failure.
After a power loss, if the system is left with less than the minimum number of power supplies required for normal operation, the system will be left in an unknown state. At this point, manual recovery is required (i.e., restore power and power cycle the device).
When one or more PoE power supplies fail
If one or more PoE power supplies fail and the system is left with less than the minimum number of PoE power supplies, the PoE power supplies will go into overload. Non-PoE functions will not be impacted, provided the System power supplies are still up and running.
Several things can happen with a PoE power supply failure. The output voltage of the remaining good power supplies will likely drop as they try unsuccessfully to generate more power than they are capable of. The system will react to a drop in voltage by increasing the current draw. The hardware will shut down PoE function due to over-current protection or under-voltage protection, whichever occurs first. The interface modules will start to shut down its PoE ports one by one until the over-power is within the power budget of the remaining power supplies. There is no particular order in which the PoE ports will shut down, as this occurs in hardware and not in software.
After a power loss, if the system is left with less than the minimum number of power supplies required for normal operation, the system will be left in an unknown state. At this point, manual recovery is required (i.e., restore power and power cycle the device).
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Brocade FastIron SX Series Chassis Hardware Installation Guide
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Hardware components
PoE port density
The table below shows the maximum PoE port density for FastIron X Series chassis devices.
TABLE 15
Maximum number of PoE class 3 (15.4W) ports per power supply
Power Supply Number of Power Supplies FSX 800
1 70 SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR2500-PoE
SX-ACPWR2500-PoE
SX-ACPWR2500-PoE
SX-ACPWR2500-PoE
2
3
4
3
4
1
2
140
N/A
N/A
146
292
N/A
N/A
FSX 1600
70
140
210
280
140
280
4381
5841
PoE+ port density
NOTE
PoE+ is supported on the FI-SX-24-GPP and FI-SX48GPP interface modules for FSX 800 and FSX 1600 devices only.
To determine the maximum number of PoE+ Class (30W) ports available per power supply, use the calculation: One power supply
(1080W) over power consumed by PoE+ port (30W)= 1080W/30W = 36 ports.
The table below shows the maximum PoE+ port density for the FI-SX-24-GPP and FI-SX48GPP interface modules.
TABLE 16
Maximum number of PoE+ class (30W) ports per power supply
Power Supply Number of Power Supplies FSX 800
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR-PoE and SX-DCPWR-
PoE
SX-ACPWR2500-PoE
SX-ACPWR2500-PoE
SX-ACPWR2500-PoE
SX-ACPWR2500-PoE
1
2
3
4
1
2
3
4
36
72
N/A
N/A
75
150
N/A
N/A
FSX 1600
36
72
108
144
75
150
225
300
Cooling system
The cooling system is contained within the system fan tray assembly and modules. The following components comprise the cooling system:
• The FSX and FSX 800 each have six four-speed fans.
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Hardware components
• The FSX 1600 has two five-speed fans in the rear of the device.
• One fan control module. The fan control module maintains the power to the fans, and controls the fan speed and the reporting of the fan status to the management module.
• Two temperature sensors on each management module, and one temperature sensor on each interface module
• One temperature sensor on each switch fabric module.
The fan tray in the FSX and FSX 800 device is located in the right side of the chassis. The FSX 1600 has two fan trays which are located in the top rear of the chassis.
Upon system startup, the fans operate at low speed, then adjust their speed based on the current temperature of the modules and the configured temperature thresholds, or by the manually configured fan speed.
By default, the system polls the temperature sensor on each module every 60 seconds to get a temperature reading. For information
on page 103. Depending on the temperature readings for the modules, the system can do the following:
• Leave the fan speed as is
• Increase the fan speed
• Decrease the fan speed
If the device exceeds the highest temperature threshold or shutdown temperature for five minutes, the system will shut down the device to prevent damage
If the temperature of a module exceeds specified high temperature thresholds, the system generates a Syslog message. The system can also power down the device if the temperature exceeds the highest threshold.
You can change default low and high temperature thresholds for modules and fan speeds. For more information, refer to
Changing temperature thresholds for thermal planes and fan speeds on page 100.
The device ships with all fan components fully installed in the fan tray. For information about replacing the fan tray, refer to one of the following sections:
•
Replacing the FSX 800 fan tray on page 149
•
Replacing the FSX 1600 fan assemblies on page 152
Built-in mounting brackets
The front of each FSX and FSX 800 device has built-in mounting brackets that enable you to front-mount the device in a standard 19inch (EIA310-D) rack. For instructions about using the built-in mounting brackets to mount the device in a rack, refer to
Installing the chassis in a rack
on page 51.
Alternatively, you can use a rack mount kit (ordered separately) to center-mount the FSX and FSX 800 using two L-shaped mounting brackets. The rack mount kit comes with instructions for installing the mounting brackets and mounting the device in a rack.
The FSX 1600 does not have built-in mounting brackets. Two brackets ship with the FSX 1600 that enable you to front-mount or center-mount the device in a rack.
Contact Brocade Communication Systems, Inc for information about rack mount kits.
FSX 1600 slot identification
The following figure identifies the slots where you can install modules and power supplies as well as the electrostatic discharge (ESD) connector, into which you can plug an ESD wrist strap to ground yourself while handling and installing modules.
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Brocade FastIron SX Series Chassis Hardware Installation Guide
Part Number: 53-1003613-04
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
FIGURE 20
FSX 1600 slots
Hardware components
7.
8.
5.
6.
3.
4.
1.
2.
Interface slot 1
Interface slot 2
Interface slot 3
Interface slot 4 interface slot 5
Interface slot 6
Interface slot 7
Interface slot 8
9.
Interface slot 9
10. Interface slot 10
11. Interface slot 11
Brocade FastIron SX Series Chassis Hardware Installation Guide
Part Number: 53-1003613-04
12. Interface slot 12
13. Interface slot 13
14. Interface slot 14
15. Interface slot 15
16. Interface slot 16
17. Management slot 17
18. Management slot 18
19. Switch fabric slot 1
20. Switch fabric slot 2
21. ESD ground connector
45
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Brocade FastIron SX Series Chassis Hardware Installation Guide
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Installing FastIron SX Devices
•
•
•
•
•
•
•
•
•
•
This chapter describes how to install your FastIron SX devices.
DANGER
The procedures in this manual are for qualified service personnel.
NOTE
Information about configuring IP addresses and connecting a FastIron SX chassis device to other network devices is covered in the “Connecting Network Devices and Checking Connectivity” section.
Unpacking the system
FastIron SX devices ship with the following items. Review this list and verify the contents:
NOTE
If any items are missing, contact the place of purchase.
• FastIron SX chassis with the following components installed:
– One or two 12-volt power supplies
– Fan tray assembly or assemblies
– Slot panels installed in all unoccupied slots
– Two switch fabric modules installed
• Rack Mount Kit (FSX 1600 models only)
• Management module or modules (packaged separately)
• Optional interface modules (packaged separately)
• Warranty card
• A 115V AC power cable for each AC power supply you purchase from Brocade
DANGER
If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country. The mark is your assurance that the power cord can be used safely with the device.
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Installation precautions
Installation precautions
Follow these precautions when installing the chassis.
General precautions
DANGER
All fiber-optic interfaces use Class 1 lasers.
CAUTION
Do not install the device in an environment where the operating ambient temperature might exceed 40°C (104°F).
CAUTION
Make sure the airflow around the front, sides, and back of the device is not restricted.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
CAUTION
Never leave tools inside the chassis.
Lifting precautions
DANGER
A fully populated chassis is heavy. TWO OR MORE PEOPLE ARE REQUIRED WHEN LIFTING, HANDLING, OR
MOUNTING THESE DEVICES.
DANGER
Mount the devices you install in a rack as low as possible. Place the heaviest device at the bottom and progressively place lighter devices above.
Power precautions and warnings
NOTE
The power supplies are hot swappable, which means they can be removed and replaced while the chassis is powered on and running.
CAUTION
Remove the power cord from a power supply before you install it in or remove it from the device. Otherwise, the power supply or the device could be damaged as a result. (The device can be running while a power supply is being installed or removed, but the power supply itself should not be connected to a power source.)
DANGER
If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country. The mark is your assurance that the power cord can be used safely with the device.
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Installation precautions
DANGER
Make sure to choose the appropriate circuit device depending on the number of AC power supplies installed in the chassis.
The minimum current draw for the system is one AC power supply.
DANGER
Disconnect the power cord from all power sources to completely remove power from the device.
CAUTION
Before plugging a cable into to any port, be sure to discharge the voltage stored on the cable by touching the electrical contacts to ground surface.
CAUTION
Do not install the device in an environment where the operating ambient temperature might exceed 40°C (104°F).
CAUTION
All devices with DC power supplies are intended for installation in restricted access areas only. A restricted access area is where access can be gained only by service personnel through the use of a special tool, lock and key, or other means of security, and is controlled by the authority responsible for the location.
CAUTION
For a DC system, use a grounding wire of at least 6 American Wire Gauge (AWG). The 6 AWG wire should be attached to an agency-approved crimp connector crimped with the proper tool. The crimp connector should allow for securement to both ground screws on the enclosure. For the Ground lug, use UL listed Panduit crimp connector, P/N LCD6-10A, and two
10-32, PPH, screws to secure crimp connector to chassis. Grounding position is located on the side of the chassis adjacent ground symbol.
CAUTION
For the DC input circuit to the system, make sure there is a 30 amp circuit breaker, minimum -48VDC, double pole, on the input to the terminal block. The input wiring for connection to the product should be copper wire, 8 AWG, marked VW-1, and rated a minimum of 90 degrees celsius.
CAUTION
All devices with AC power sources are intended for installation in restricted access areas only. A restricted access area is a location where access can be gained only by service personnel through the use of a special tool, lock and key, or other means of security.
CAUTION
For a Brocade AC system, use a ground wire of at least 6 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground. The connector must be crimped with the proper tool, allowing it to be connected to both ground screws on the enclosure.
CAUTION
Use a separate branch circuit for each power cord, which provides redundancy in case one of the circuits fails.
CAUTION
The POE power supply is designed exclusively for use with the FastIron X Series POE devices. The power supply produces extensive power to support 802.3af applications. Installing the power supply in a device other than the FastIron X Series
POE will cause extensive damage to your equipment.
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Preparing the installation site
CAUTION
The POE+ power supply is designed exclusively for use with the FastIron X Series POE+ devices. The power supply produces extensive power to support 802.3at applications. Installing the power supply in a device other than the FastIron X
Series POE+ will cause extensive damage to your equipment.
CAUTION
Ensure that the device does not overload the power circuits, wiring, and over-current protection. To determine the possibility of overloading the supply circuits, add the ampere (amp) ratings of all devices installed on the same circuit as the device. Compare this total with the rating limit for the circuit. The maximum ampere ratings are usually printed on the devices near the input power connectors.
CAUTION
Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides. Never insert the power supply upside down.
CAUTION
Do not attempt to install the power supply without first releasing the latch on the front of the power supply. Attempting to install the power supply with a closed latch will result in mechanical damage to the power supply and power supply slot.
DANGER
High Touch Current. Earth connection essential before connecting supply.
Preparing the installation site
Cabling infrastructure
NOTE
Ensure that the proper cabling is installed in the site. For information on cabling, refer to the following sections in this guide:
•
Attaching a management station
on page 62
•
on page 87
•
Cable specifications on page 87
Installation location
Before installing the device, plan the location and orientation relative to other devices and equipment. Allow at least three inches of space at the front of the device for the fiber-optic and power cabling. Also, allow a minimum of three inches of space between the sides and the back of the device and walls or other obstructions.
Removing extra shipment screws (FSX 800 only)
The FSX 800 ships with two extra screws installed in the right side of the chassis. These screws secure the fan tray, protecting it from damage during shipment. You must remove these screws before installing the chassis. The figure below shows the location of the screws.
To perform this task, you need a #2 Phillips-head screwdriver.
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Brocade FastIron SX Series Chassis Hardware Installation Guide
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Installing the chassis in a rack
FIGURE 21
Removing the extra screws used for shipment
1.
Shipping screws
Installing the chassis in a rack
Because of the weight of a fully loaded chassis (97 lbs minimum), it is recommended that you mount your device in a rack before installing the modules and power supplies.
In a standard 19-inch (EIA310-D) rack, you can install up to seven FSX 800 devices, or up to three FSX 1600 devices. You can flushmount the FSX 800 using the built-in mounting brackets on the front of the device. Alternatively, you can use the optional rack mount kit to center-mount the chassis in a rack. The FSX 1600 does not have built-in mounting brackets. To mount the FSX 1600 in a rack, you will need to install the brackets in the rack mount kit that ships with the chassis, see the “Installing mounting brackets on the FSX 1600 chassis” task.
Before performing this task, you should have an assembled rack and a #2 Phillips-head screwdriver.
Keep the following in mind when mounting a chassis in a rack.
DANGER
Make sure the rack housing the device is adequately secured to prevent it from becoming unstable or falling over.
DANGER
Mount the devices you install in a rack as low as possible. Place the heaviest device at the bottom and progressively place lighter devices above.
DANGER
A fully populated chassis is heavy. TWO OR MORE PEOPLE ARE REQUIRED WHEN LIFTING, HANDLING, OR
MOUNTING THESE DEVICES.
For each FastIron X Series that you install in a rack, you must provide four mounting screws with which to secure the chassis.
To mount the chassis in a rack using the built-in mounting brackets, perform the following tasks.
1. Determine the position of each chassis in the rack.
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Installing the chassis in a rack
2. Position two of the four mounting screws for each chassis that you plan to mount in the rack according to the spacings of the keyhole slots on the brackets. Do not secure the screws completely; leave approximately 1/4 inch of clearance between the back of the screw head and the rack.
FIGURE 22
Positioning two or four mounting screws in a rack.
1.
Keyhole slots
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Brocade FastIron SX Series Chassis Hardware Installation Guide
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Installing the chassis in a rack
3. Start by mounting the chassis that goes in the lowest position in the rack. With two or more people lifting the chassis, slip the wide portion of each keyhole slot over the corresponding screw in the rack.
FIGURE 23
Mounting a chassis in a rack - front mount
4. Slide the chassis down so that the screw heads are in the narrow portion of the keyhole slots.
5. Install the remaining two mounting screws through the opposite corners of the brackets into the rack.
6. Tighten all screws to secure the chassis in place.
7. Repeat Step 2 through Step 6 to mount each subsequent chassis in the same rack.
Installing mounting brackets on the FSX 1600 chassis
The FSX 1600 chassis does not ship with mounting brackets installed. You will need to install the brackets, using a #2 Phillips or flathead screwdriver. Mount the brackets as shown in the figure below. Since the brackets are identical, you must rotate one bracket 90 degrees to fit on the opposite side from the first bracket.
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Installing the chassis in a rack
FIGURE 24
Installing the mounting brackets on an FSX 1600 chassis.
Repeat Step 2 through Step 6 of the “Installing the chassis in a rack” task to install the FSX 1600 chassis in the rack.
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Installing management and interface modules
Removing the slot panels
The chassis ships with a slot panel installed in each empty module slot, ensuring proper airflow within the chassis. If you plan to install a module in a particular slot, you must first remove the slot panel.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
Although the slot panels may differ in size, the procedure for removing them is the same. The procedure in this section applies to all module slot panels.
You need a #2 Phillips-head or flathead screwdriver to perform this task.
To remove a slot panel, complete the following tasks.
1. Loosen the screws on either end of the slot panel with a #2 Phillips-head or flathead screwdriver.
2. Pull the slot panel out of the chassis and store it in a safe place for future use.
Installing management and interface modules
This section provides the procedures for installing management and interface modules. Although the modules may differ in size and function, the procedure for installing them in the chassis is the same. The procedure described in this section applies to all FastIron X
Series devices.
FSX 800 and FSX 1600 management modules are hot swappable, which means you can remove and insert them while the chassis is powered on and running.
NOTE
Management modules are dedicated, which means you must install them in the appropriate device.
You cannot mix Second Generation and Third Generation 3 modules together in the same chassis.
Because 48-port 10/100/1000 Mbps Ethernet POE+ interface modules (SX-FI48GPP) occupy two vertical half-slots in the FastIron
SX 800 or 1600 device, they can be installed in certain slots only. The table below shows the slot numbers into which you must install management and interface modules. The following figures show the chassis with slot numbers:
•
on page 15
•
on page 17
TABLE 17
Slot numbers for module installation
Module FSX 800 Slot Numbers
Management module
Interface modules (except for 48-port POE+)
9 and 10
1 - 8
48-port POE+ interface modules (SX-FI48GPP) Module fills 2 slots. Install as follows:
- Install in slot 3, fills slots 1 and 3
- Install in slot 4, fills slots 2 and 4
- Install in slot 7, fills slots 5 and 7
- Install in slot 8, fills slots 6 and 8
FSX 1600 Slot Numbers
9 and 10
1 - 8 and 11 - 18
Module fills 2 slots. Install as follows:
- Install in slot 1, fills slots 1 and 3
- Install in slot 2, fills slots 2 and 4
- Install in slot 5, fills slots 5 and 7
- Install in slot 6, fills slots 6 and 8
- install in slot 11, fills slots 11 and 13
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Installing management and interface modules
TABLE 17
Slot numbers for module installation (continued)
Module FSX 800 Slot Numbers FSX 1600 Slot Numbers
- install in slot 12, fills slots 12 and 14
- install in slot 15, fills slots 15 and 17
- install in slot 16, fills slots 16 and 18
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
Before installing a module in the chassis, have the following on hand:
• A # Phillips-head or flathead screwdriver.
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
To install a module in the chassis, complete the following tasks.
NOTE
You can install management modules in the FSX 800 and FSX 1600 chassis while it is powered on and running.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located on the chassis front panel.
2. Remove the module from the packaging.
3. Insert the management module or interface module into the appropriate slot and slide the card along the card guide until the ejector levers rotate towards the module front panel.
NOTE
If you are installing SX-FI48GPP POE+ interface modules, refer to the table above for the slot numbers where these modules may be installed. Each module occupies the equivalent of two slots, so plan your installation accordingly. See the fifth and sixth figure below.
4. Fold the ejectors towards the center of the module to fully seat the module in the backplane.
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Installing management and interface modules
5. Use the #2 Phillips-head or flathead screwdriver to tighten the screws on each side of the module faceplate.
The following illustrations show placement of management and interface modules in a FastIron X Series device.
FIGURE 25
Installing a management module in the FSX 800 chassis.
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Installing management and interface modules
FIGURE 26
Installing a management module in the FSX 1600 chassis.
58
Brocade FastIron SX Series Chassis Hardware Installation Guide
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FIGURE 27
Installing an interface module in the FSX 800 chassis.
Installing management and interface modules
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Installing management and interface modules
FIGURE 28
Installing an interface module in the FSX 1600 chassis.
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FIGURE 29
Installing an SX-FI48GPP POE+ interface module in an FSX 800 device
Installing management and interface modules
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Attaching a management station
FIGURE 30
Installing an SX-FI48GPP POE+ interface module in an FSX 1600 device
Attaching a management station
You can manage the FastIron X Series system in the following ways:
• Connect a PC or terminal to the serial (Console) port or 10/100/1000 Ethernet port on the management module and access the system directly or through a Telnet connection to the PC or terminal. See the task below.
• Connect the FastIron X Series switch to your existing management network and manage the switch, along with other network devices, from a management station. To do this, you can connect a switch to a Gigabit Ethernet port on the management
module. Refer to Attaching a switch to an Ethernet port
on page 63.
NOTE
The management network into which you can connect a Gigabit Ethernet port must be separate and isolated from the network over which user packets are switched and routed.
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Powering on the system
Attaching a PC or terminal to the console port or 10/100/1000 copper port
The Console port on the management module has a male DB-9 serial connector, and 10/100/1000 Ethernet copper port or ports have RJ45 UTP connectors, which allow you to attach a PC or terminal. From the Console port, you can access the system command line interface (CLI) directly from the PC or terminal or through a Telnet connection. From the Ethernet port, you can access the CLI or
Web Management Interface directly or through a Telnet connection to the PC or terminal.
Before performing this task, you need the following items:
• A PC running a terminal emulation application or a terminal.
• To connect the PC or terminal to the console port (RJ45 serial port) of the device, you need an RJ45 to DB-9 adaptor. For the pinout information, refer to
Console (serial RJ45) management port pinouts
on page 165.
• To connect the PC or terminal to a Gigabit Ethernet copper port, you need a category 5 UTP crossover cable, which you must supply. For information about the port pin assignments, refer to
10/100 and gigabit port pinouts on page 166.
To attach a PC or terminal to the Console port or Gigabit Ethernet copper port, complete the following tasks.
1. Connect a PC or terminal to the Console port or a 10/100/1000 Ethernet port using the appropriate cable.
2. Open the terminal emulation program, and set the session parameters as follows:
• Baud: 9600 bps
• Parity: None
• Data bits: 8
• Stop bits: 1
• Flow control: None
Attaching a switch to an Ethernet port
The 10/100/1000 Ethernet copper ports on the FSX 800 and FSX 1600 management module and the combination Gigabit Ethernet copper and fiber ports on the FSX management module allow you to attach a networking switch. A management station in your existing management network can then access the Brocade switch using the Brocade Network Advisor.
For more information, see the "Connecting network devices" task.
Powering on the system
After you complete the hardware installation, you can power on the system. Verify that all modules and power supplies are fully and properly installed and no module slots are uncovered.
Note the following precautions before powering on the system.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
DANGER
If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country. The mark is your assurance that the power cord can be used safely with the device.
Brocade FastIron SX Series Chassis Hardware Installation Guide
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Powering on the system
NOTE
If the wall outlet is not rated 115 or 120V and 20A, stop and get the appropriate cable for the outlet. Make sure you obtain a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country. The mark is your assurance that the power cord can be used safely with the device.
NOTE
The wall outlet should be installed near the equipment and should be easily accessible.
NOTE
The FastIron X Series switch is designed to provide uninterrupted service even when you insert or remove the interface modules. Therefore, the system does not have a separate on or off power switch. To turn the system off, simply unplug the power cords.
DANGER
High Touch Current. Earth connection essential before connecting supply.
Power cords
All of the FastIron devices ship with US-compatible power cords unless otherwise specified at the time of order. United Kingdom- and
European-compatible power cords are also available.
Input connector and plug
In AC deployments, the power cords plug into the rear of the chassis using C20 inputs. The AC power supplies are installed in the front of the chassis and receive power from the inputs on the back.
In DC deployments, a two-position terminal block is located on the power supply itself, and DC power is wired on the front of the chassis.
TABLE 18
Input connectors for AC and DC power supplies
Power Supplies
SX-ACPWR-SYS
SX-ACPWR-POE
SX-ACPWR2500-POE
SX-DCPWR-SYS
SX-DCPWR-POE
AC Input Connector Properties
Standard IEC type (IEC320)
C20 type: UL/CSA 20A/250V, VDE 16A/250V
Orientation: Ground pin down
2-position terminal block
The power supply is connected to Earth Ground through the power supply chassis.
The figure below shows the power plug configuration for the male and female end of the cable for the SX-ACPWR-SYS and SX-
ACPWR-POE power supplies. The power cord is 2.5 meters in length.
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Powering on the system
FIGURE 31
AC power cable male plug and female input connector for SX-ACPWR-SYS and SX-ACPWR-POE power supplies
The figure below shows the power plug for the SX-ACPWR2500-POE power supply.
FIGURE 32
AC power cable plug for SX-ACPWR2500-POE power supply
The figure below shows the DC connector for the SX-DCPWR-SYS and SX-DCPWR-POE power supplies.
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Powering on the system
FIGURE 33
DC power cables for SX-DCPWR-SYS and SX-DCPWR-POE power supplies
1.
2.
3.
-48 VDC Lead
48 RTN Lead
Positive Terminal Screw
4.
5.
6.
Negative Terminal Screw
AWG Wire
Terminal Screw Cover
Power source interruptions
The table below shows how the FastIron chassis protects against power surges and power drops.
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Powering on the system
TABLE 19
Chassis power surge and drop protection
Property
Power surge
Power drop
Protection Mechanism
MOV and Spark Gap protection
An AC loss of >15ms will cause the power supply to shut down due to input under-voltage
Connecting AC power to the chassis
AC power is supplied though an AC power cord that is connected to the back of the chassis. Perform the following tasks to connect AC power to the chassis.
1. At the rear of the chassis, locate the power receptacles on the power supplies.
2. Lift the cord-retainer and connect a Brocade-supplied AC power cord to the power supply.
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Powering on the system
3. Snap the cord-retainer over the power plug to hold it in place.
FIGURE 34
Connecting the AC power cord on an FSX 800 device
1.
Cord retainer
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FIGURE 35
Connecting the AC power cord on an FSX 1600 device.
Powering on the system
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Powering on the system
1.
Cord retainer
DANGER
If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country.
The mark is your assurance that the power cord can be used safely with the device.
4. Connect the power cord to the wall outlet.
5. Observe the LEDs on the power supply front panel. The AC OK and DC OK LEDs should be green (steady), which indicates the power supply is providing power to the components. If it is amber or OFF, the power supply is not providing power to the components. The ALM LED should be OFF.
Connecting DC power to the chassis
You can use a DC power source for the Brocade chassis using a DC-to-DC power supply. DC power must be supplied at 48 V and 30
A.
To perform this task, you need the following items:
• Flathead screwdriver
• Phillips-head screwdriver
• #6 AWG wire (grounding wire)
• #8 AWG wire (input wire)
• Crimping tool
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To connect a DC power source, complete the following tasks.
1. Crimp #6 AWG ground wire and connect it to the ground position on the chassis. The ground position is located on the side or rear of the chassis next to the ground symbol.
FIGURE 36
Chassis ground on FXS 800 device.
1.
Ground
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Powering on the system
2. Use a flathead screwdriver to remove the two screws holding the transparent cover over the power supply lugs.
FIGURE 37
Power lugs and cover screws
1.
Screws holding power lugs 2.
Screws holding transparent cover
3. Use a Phillips-head screwdriver to remove the power lugs. Refer to the second figure below.
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4. Crimp #8 AWG input wire into the power lugs and reconnect the lugs to the power supply unit. Refer to the two figures below.
FIGURE 38
Power supply wire
1.
#8 AWG power supply wire
This equipment installation must meet NEC/CEC code requirements. Consult local authorities for regulations.
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Powering on the system
FIGURE 39
Reconnect lugs to power supply.
74
1
2
Ground
DC power
5. Re-attach the transparent cover that you removed in Step 1.
6. Connect the positive and negative supply wires to the correct locations on your DC power source, as marked on the power supply.
7. Observe the LEDs on the power supply front panel. The DC IN and DC OUT LEDs should be green (steady), which indicates the power supply is providing power to the components. If it is amber or OFF, the power supply is not providing power to the components. The ALM LED should be OFF.
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Verifying proper operation
Verifying proper operation
To verify the proper operation of the chassis after the power is on, you can:
• Observe the LEDs
• Display the module (component) status using the CLI
Observing the LEDs
When the FastIron X Series device is receiving power, you can observe the LEDs to verify that the device initialized successfully. The table below describes the LEDs, the desired state of each LED, possible abnormal states of each LED, and what to do if an LED indicates an abnormal state.
TABLE 20
Desired and abnormal LED states after system power-on.
LED Desired State Meaning
Management module
Active On The module is functioning as the active management module.
Abnormal State
Off
Meaning or Action
Pwr
10/100/1000 Ethernet
Port
On
On - Green
The module is receiving power.
Off
A link is established with the remote port.
Off
Neither management module or is managing the switch fabric and interface modules.
A problem may have occurred during initialization. Check your PC or terminal for possible error messages.
The module is not receiving power. You can do the following:
• Make certain that the module is installed properly.
For more information, refer to
Installing management and interface modules
on page 55.
• If using AC power supplies, refer to the entry for the
AC power supply
LED in this table for more information.
A link is not established with the remote port. You can do the following:
• Verify that the connection to the other device has been properly made. Also, make certain that the other device is powered on and
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TABLE 20
Desired and abnormal LED states after system power-on. (continued)
LED
10/100/1000 Ethernet
Port
SFP+ Port 1 and Port 2
SFP+ Port 2 and Port 2
Desired State
On or blinking - Yellow
On - Green
On or blinking
Meaning Abnormal State
The port is transmitting and receiving packets.
Off for an extended period
The SFP+ port is linked.
The SFP+ port has TX/RX activity.
Off
Off for an extended period
Meaning or Action operating correctly.
• Try using a different cable.
The port is not transmitting or receiving packets.
You can check the other
10/100/1000 Ethernet port LED to make sure a link is established with the remote port. If not, take the actions described in the
Meaning or Action column for the other
10/100/1000 Ethernet port LED.
The SFP+ port is not linked.
• Verify that the connection to the other device has been properly made. Also, make certain that the other device is powered on and operating correctly.
• Try using a different cable or optic.
The SFP+ port is not linked.
• Check the Link
LED to make sure the link is still established with the remote port. If not, take the actions described in the Meaning or
Action column for the Link LED.
• Verify that the port has not been disabled through a configuration change. You can use the CLI. If you have configured an IP address on the device, you also can use the Web
Management
Interface or
Brocade Network
Advisor.
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TABLE 20
Desired and abnormal LED states after system power-on. (continued)
LED Desired State Meaning
Interface Module
Link or Activity On or blinking A link is established with the remote port and the port is transmitting and receiving user packets.
Abnormal State
Off
POE (if applicable) On - Green
AC and DC Power Supplies
AC OK (AC supply only) ON - Green (steady)
The port is enabled, a power-consuming device has been detected, and the module is supplying power to the device.
Off
The power supply is receiving AC power from an
AC power source
OFF
DC IN (DC supply only) Green (steady)
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The power supply is receiving DC power from a
DC power source
OFF
Meaning or Action
At this stage of the installation, you have not yet cabled the Gigabit Ethernet ports, so this LED will be off.
After cabling this port, if this
LED is off, a link is not established with the remote port.
The port is not providing inline power.
The power supply is not receiving power from an AC power source. You can do the following:
• Make sure that the power supply cord is connected securely to the wall outlet and the power supply.
• Make sure that the wall outlet is rated for 115 or
120V and 20A. If it is not, obtain a cable that is compatibly rated for the outlet.
• Make sure that the wall outlet has power.
The power supply is not receiving power from a DC power source. You can do the following:
• Make sure that the power supply cables are connected securely to the power source and the power supply.
• Make sure that the DC power source is 48VDC
@ 30 A.
• Make sure that the power source has power.
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Verifying proper operation
TABLE 20
Desired and abnormal LED states after system power-on. (continued)
LED Desired State Meaning
DC OUT ON - Green (steady) The power supply is supplying DC output power to the chassis
Abnormal State
OFF
ALM OFF No alarms present and the power supply is in normal operating condition.
Amber
Meaning or Action
The power supply is not supplying DC output power to the chassis.
If this occurs and the AC
OK (AC power supply) or
DC IN (DC power supply)
LED is Green, then there is a problem with the power supply and it must be replaced.
There is an alarm present and the power supply is malfunctioning.
Verify the AC or DC input and DC output voltages.
If a problem persists after taking action described in this table, contact Brocade’s technical support.
Displaying the module status
After you have attached a PC or terminal to the management module’s Console port or Ethernet port and the Brocade device has initialized successfully, press
Enter
to display the following CLI prompt in the terminal emulation window.
FastIron>
If you do not see this prompt, complete the following steps.
1. Make sure the cable is securely connected to your PC or terminal and the Console port or Ethernet port.
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2. Check the settings in your terminal emulation program. In addition to the session settings listed in
serial port you attached to the Console port.
If you view the prompt
FastIron>
or similar, you are connected to the system and can display the status of the modules using the CLI. Enter the
show module
command at any CLI level.
The following shows the output of the
show module
command when entered on the FSX 800. The display output is similar on the FSX 1600.
device# show module
Module Status Ports Starting MAC
F1: SX-FISF Switch Fabric active
F2: SX-FISF Switch Fabric active
S1: SX-FI-24GPP 24-port Gig Copper + PoE+ OK 24 0024.3821.7500
S2: SX-FI-8XG 8-port 10G Fiber OK 8 0024.3821.7518
S3: Reserved
S4: SX-FI-8XG 8-port 10G Fiber OK 8 0024.3821.7548
S5: SX-FI-48GPP 48-port Gig Copper + PoE+ OK 48 0024.3821.7500
S6:
S7:
S8:
S9: SX-FIZMRXL6 0-port Management Active 0
{ Status : OK }
S10: Standby 0
Syntax:show module
The Status column shows the module status. The status can be one of the following:
• OK - The module is up and running
• ACTIVE - This applies to the FSX 800 and FSX 1600 management and switch fabric modules only. This indicates that the module is the active module as opposed to the standby module.
• UNACTIVE -- This status indicates a lost connection, failed initialization, or failed power. Take the module out and reinsert to continue.
• STANDBY - This applies to the FSX 800 and FSX 1600 management and switch fabric modules only. This indicates that the module is the standby module as opposed to the active module.
• FAILED - The management module was unable to bring up an interface module properly. If you observe this status, make
• DISABLED - The module is not up and running.
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Connecting Network Devices and
Checking Connectivity
•
•
•
•
•
•
Overview
This chapter provides the details for connecting network devices and checking network connectivity.
DANGER
The procedures in this manual are for qualified service personnel.
The table below lists the tasks you must perform to connect your Brocade device, and how to troubleshoot any problems that can arise.
TABLE 21
Network connectivity tasks
Step
1
2
3
4
5
Task
Secure access to the CLI by assigning passwords.
Configure IP addresses for the management,
Ethernet, virtual, and loopback interfaces.
Connect your device to another networking device.
Observe certain LEDs to determine if the network connections are functioning properly.
Also test a port for connectivity to other networking devices using the
ping
and
traceroute
commands.
Troubleshoot any problems that can arise.
Page
Assigning permanent passwords on page 81
Configuring IP addresses on page 83
on page 87
Testing network connectivity on page 92
Troubleshooting network connections on page
93
Assigning permanent passwords
By default, the CLI is not protected by passwords. To secure CLI access, It is strongly recommended that you assign passwords.
NOTE
You can assign passwords using the Brocade Network Advisor software if an enable password for a Super User has been configured on the device.
The CLI contains the following access levels:
• User EXEC - The level you enter when you first start a CLI session. At this level, you can view some system information but you cannot configure system or port parameters.
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• Privileged EXEC - This level is also called the Enable level and can be secured by a password. You can perform tasks such as manage files on the flash module, save the system configuration to flash, and clear caches at this level.
• CONFIG - The configuration level. This level lets you configure the system’s IP address and configure switching and routing features. To access the CONFIG mode, you must already be logged into the Privileged level of the EXEC mode.
You can set the following levels of Enable passwords:
• Super User - Allows complete read and write access to the system. This is generally for system administrators and is the only password level that allows you to configure passwords.
NOTE
You must set a super user password before you can set other types of passwords.
• Port Configuration - Allows read and write access for specific ports but not for global (system-wide) parameters.
• Read Only - Allows access to the Privileged EXEC mode and CONFIG mode but only with read access.
To set passwords, complete the following steps.
1. At the opening CLI prompt, enter the following command to change to the Privileged level of the EXEC mode.
device
> enable
2. Access the CONFIG level of the CLI by entering the following command.
device device
# configure terminal
(config#
3. Enter the following command to set the super-user password.
device
(config)# enable super-user-password text
NOTE
You must set the super-user password before you can set other types of passwords.
4. Enter the following commands to set the port configuration and read-only passwords.
device
(config)# enable port-config-password text
device
(config)# enable read-only-password text
If you forget your super-user password, refer to
Recovering from a lost password
on page 82.
Syntax: enable
{ enable
super-user-password
text
|
read-only-password
text
|
port-config-password
text
}
Password
text
can be up to 32 characters long.
Recovering from a lost password
By default, the CLI does not require passwords. However, if someone has configured a password for the device but the password has been lost, you can regain super-user access to the device using the following procedure.
NOTE
Recovery from a lost password requires direct access to the serial port and a system reset.
To recover from a lost password, complete the following steps.
1. Start a CLI session over the serial interface to the Brocade device.
2. Reboot the device.
3. While the system is booting, before the initial system prompt appears, enter
b
to enter the boot monitor mode.
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Configuring IP addresses
4. Enter
no password
at the prompt. (You cannot abbreviate this command.)
5. Enter
boot system flash primary
at the prompt. This command causes the device to bypass the system password check.
6. After the console prompt reappears, assign a new password.
Configuring IP addresses
You must configure at least one IP address using the serial connection to the CLI before you can manage the system using the other management interfaces. In addition, Brocade routers require an IP subnet address for the subnet in which you plan to place them in your network.
IPv4 devices
Brocade IPv4 devices support both classical IP network masks (Class A, B, and C subnet masks, and so on) and Classless Interdomain
Routing (CIDR) network prefix masks:
• To enter a classical network mask, enter the mask in IP address format. For example, enter "10.x.x.x 255.255.255.0" for an IP address with a Class-C subnet mask.
• To enter a prefix number for a network mask, enter a forward slash ( / ) and the number of bits in the mask immediately after the
IP address. For example, enter "10.x.x.x/24" for an IP address that has a network mask with 24 significant ("mask") bits.
By default, the CLI displays network masks in classical IP address format (example: 255.255.255.0). You can change the display to the prefix format. Refer to the FastIron Ethernet Switch Layer 3 Configuration Guide for more information.
Configuring IPv4 management interface while running Layer 3 software
Before attaching equipment to a Brocade router, you must assign an interface IP address to the subnet on which the router will be located. You must use the serial connection to assign the first IP address. For subsequent addresses, you also can use the CLI through
Telnet.
By default, you can configure up to 24 IP interfaces on each port, virtual interface, and loopback interface. You can increase this amount to up to 64 IP subnet addresses per port by increasing the size of the subnet-per-interface table. Refer to the FastIron Configuration
Guide for more information.
The following procedure shows how to add an IPv4 address and mask to a router port.
1. At the opening CLI prompt, enter
enable
.
device> enable
2. Enter the following command at the CLI Privileged EXEC level prompt, then press
Enter
. This command erases the factory test configuration if still present.
device# erase startup-config
CAUTION
Use the erase startup-config command only for new systems. If you enter this command on a system you have already configured, the command erases the configuration. If you accidentally do erase the configuration on a configured system, enter the write memory command to save the running configuration to the startup-config file.
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Configuring IP addresses
3. Access the configuration level of the CLI by entering the following command.
Privileged EXEC Level.
device# configure terminal
Global CONFIG Level.
device(config)#
4. Configure the IPv4 address and mask address for the interface.
device(config)# int e 1/5 device(config)# ip address 10.x.x.x 255.255.255.0
NOTE
You can use the syntax
ip address
ip-addr/mask-bits
if you know the subnet mask length. In the above example, you could enter
ip address 10.x.x.x/24
.
Syntax: enable
[
password
]
Syntax: configure terminal
Syntax: [no] ip address
ip-addr ip-mask
[
secondary
] or
Syntax: [no] ip address
ip-addr/mask-bits
[
secondary
]
Use the
secondary
parameter if you have already configured an IP address within the same subnet on the interface.
Configuring IPv4 management interface while running Layer 2 software
To configure an IPv4 address to a device running Layer 2 software, complete the following tasks.
1. At the opening CLI prompt, enter
enable
.
device> enable
2. Enter the following command at the Privileged EXEC level prompt (for example, device
#
), then press
Enter
. This command erases the factory test configuration if still present.
device# erase startup-config
CAUTION
Use the erase startup-config command only for new systems. If you enter this command on a system you have already configured, the command erases the configuration. If you accidentally do erase the configuration on a configured system, enter the write memory command to save the running configuration to the startup-config file.
3. Access the configuration level of the CLI by entering the following command.
Privileged EXEC Level.
device# configure terminal
Global CONFIG Level.
device(config)#
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4. Configure the IPv4 address and mask for the switch.
device(config)# ip address 10.x.x.x 255.255.255.0
5. Set a default gateway address for the switch.
device(config)# ip default-gateway 10.x.x.x
NOTE
You do not need to assign a default gateway address for single subnet networks.
Syntax: enable
[
password
]
Syntax: configure terminal
Syntax:[no] ip address
ip-addr ip-mask
or
Syntax: [no] ip address
ip-addr/ip-mask
Syntax: ip default-gateway
ip-addr
IPv6 devices
Brocade IPv6 devices support the 128-bit addressing format, composed of 8 fields of 16-bit hexadecimal values separated by colons
(:). For example, 2001:DB8:0000:0200:002D:D0FF:FE48:4672 is an IPv6 address, which can also be expressed as
2001:DB8:0:200:2D:D0FF:FE48:4672 after omitting the leading zeros.
Configuring IPv6 management interface while running Layer 3 software
Before attaching equipment to a Brocade router, you must assign an interface IP address to the subnet on which the router will be located. You must use the serial connection to assign the first IP address. For subsequent addresses, you also can use the CLI through
Telnet or the Web Management Interface.
By default, you can configure up to 24 IP interfaces on each port, virtual interface, and loopback interface. You can increase this amount to up to 64 IP subnet addresses per port by increasing the size of the subnet-per-interface table. Refer to the FastIron Configuration
Guide for more information.
The following procedure shows how to add an IPv6 address and mask to a router port.
1. At the opening CLI prompt, enter
enable
.
device# enable
2. Enter the following command at the CLI Privileged EXEC level prompt, then press
Enter
. This command erases the factory test configuration if still present.
device# erase startup-config
CAUTION
Use the erase startup-config command only for new systems. If you enter this command on a system you have already configured, the command erases the configuration. If you accidentally do erase the configuration on a configured system, enter the write memory command to save the running configuration to the startup-config file.
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Configuring IP addresses
3. Access the configuration level of the CLI by entering the following command.
Privileged EXEC Level device# configure terminal
Global CONFIG Level device
(config)#
4. Configure the IPv6 address and mask address for the interface.
device(config)# int e 1/5 device(config)# ipv6 address 2001:DB8:12D:1300:240:D0FF:FE48:4672:/64
These commands configure the global prefix 2001:DB8:12d:1300:/64 and the interface ID::240:D0FF:FE48:4672, and enable IPv6 on interface e 1/5.
NOTE
The above procedure shows how to configure an IPv6 address with a manually configured Interface ID as the address for the interface. You could also configure an IPv6 address with an automatically computed EUI-64 Interface ID as the address for the interface. Link-local IPv6 addresses are also supported. For details, refer to the FastIron Configuration
Guide.
Syntax: enable
password
Syntax: configure terminal
Syntax:[no] ipv6address
ipv6-prefix/prefix-length
You must specify the
ipv6-prefix
parameter in hexadecimal using 16-bit values between colons as documented in RFC 2373.
You must specify the
prefix-length
parameter in decimal value. A slash mark (/) must follow the
ipv6-prefix
parameter and precede the
prefix-length
parameter.
Configuring IPv6 management interface while running Layer 2 software
To configure an IPv6 address to a device running Layer 2 software, complete the following tasks.
1. At the opening CLI prompt, enter
enable
.
device> enable
2. Enter the following command at the Privileged EXEC level prompt (for example,
FastIron#
), then press
Enter
. This command erases the factory test configuration if still present.
device# erase startup-config
CAUTION
Use the erase startup-config command only for new systems. If you enter this command on a system you have already configured, the command erases the configuration. If you accidentally do erase the configuration on a configured system, enter the write memory command to save the running configuration to the startup-config file.
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Connecting network devices
3. Access the configuration level of the CLI by entering the following command.
Privileged EXEC Level.
device# configure terminal
Global CONFIG Level.
device(config)#
4. Configure the IP address and mask for the switch.
device(config)# ipv6 address 2001:DB8:12D:1300:240:D0FF:FE48:4000:1/64
NOTE
The above procedure shows how to configure an IPv6 address with a manually configured interface ID as the systemwide address for the switch. You could also configure an IPv6 address with an automatically computed EUI-64 interface ID as the system-wide address for the switch. A link-local IPv6 address is also supported. For details, refer to the FastIron Ethernet Switch Layer 3 Configuration Guide.
Syntax: enable
password
Syntax: configure terminal
Syntax: [no] ipv6address
ipv6-prefix/prefix-length
You must specify the
ipv6-prefix
variable in hexadecimal using 16-bit values between colons as documented in RFC 2373.
You must specify the
prefix-length
variable in decimal value. A slash mark (/) must follow the
ipv6-prefix
variable and precede the
prefix-length
variable.
Connecting network devices
Brocade devices support connections to other vendors’ routers, switches, and hubs, as well as other Brocade devices.
Cable specifications
Refer to
on page 167 for cable lengths and types.
Connecting to Ethernet or fast Ethernet hubs
For copper connections to Ethernet hubs, a 10/100Base-TX or 1000Base-T switch, or another Brocade device, a crossover cable is required (see UTP and Cat-5 crossover cable diagrams below). If the hub is equipped with an uplink port, it will require a straight-through cable instead of a crossover cable.
NOTE
The 802.3ab standard (automatic MDI or MDIX detection) calls for automatic negotiation of the connection between two
1000Base-T ports. Therefore, a crossover cable may not be required; a straight-through cable may work as well. For more information about this feature, refer to the FastIron Ethernet Switch Administration Configuration Guide.
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Connecting network devices
FIGURE 40
UTP crossover cable
FIGURE 41
Cat-5 crossover cable for 1000Base-T
NOTE
The 802.3ab standard calls for automatic negotiation of the connection between two 1000Base-T ports. Consequently, a crossover cable may not be required; a straight-through cable may work as well.
Connecting to workstations, servers, or routers
Straight-through UTP cabling is required for direct UTP attachment to workstations, servers, or routers using network interface cards
(NICs).
Fiber cabling with LC connectors is required for direct attachment to Gigabit NICs or switches and routers.
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Connecting network devices
NOTE
The 802.3ab standard (automatic MDI or MDIX detection) calls for automatic negotiation of the connection between two
1000Base-T ports. Therefore, a crossover cable may not be required; a straight-through cable may work as well. For more information about this feature, refer to the FastIron Ethernet Switch Administration Configuration Guide.
Connecting a network device to a fiber port on the Brocade device
For direct attachment from the Brocade device to a Gigabit NIC, switch, or router, fiber cabling with an LC connector is required.
NOTE
All physical IP interfaces on FastIron X Series Layer 3 devices share the same MAC address. For this reason, if more than one connection is made between two devices, one of which is a FastIron X Series Layer 3 device, Brocade recommends the use of virtual interfaces. It is not recommended to connect two or more physical IP interfaces between two routers.
To connect a Brocade device to another network device using a fiber port, you must do the following:
• Install a fiber optic module (SFP transceiver or mini-GBIC for Gigabit Ethernet ports, or XFP-MSA or SFP+ MSA transceiver for
10-Gigabit Ethernet ports)
• Cable the fiber optic module
The following sections provide information about performing these tasks.
Installing a fiber optic module
You must install a fiber optic module in each Gigabit Ethernet and 10-Gigabit Ethernet fiber port you want to use.
DANGER
All fiber-optic interfaces use Class 1 lasers.
NOTE
Refer to the “Installation precautions” section for other hardware installation precautions.
NOTE
Some older SFP modules (mini-GBICs for Gigabit Ethernet ports) have latching mechanisms which are larger than the newer parts. These latches could interfere with one another when inserted side-by-side into a module. Avoid using these mini-GBICs side-by-side in the same module. These modules are identified by the numbers PL-XPL-00-S13-22 or PL-XPL-00-L13-23 above the serial number. Newer mini-GBICs do not have this limitation.
Before installing a fiber optic module, have the following on hand:
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
To install a fiber optic module into a Gigabit Ethernet or 10-Gigabit Ethernet port, complete the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
2. Remove the module from the protective packaging.
3. If necessary, remove the metal cover from the port on the interface module control panel.
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Connecting network devices
4. Insert the fiber-optic module into the port until the module clicks into place. Fiber-optic modules are keyed to prevent incorrect insertion.
Cabling a fiber optic module
To cable a fiber-optic module, complete the following tasks.
1. Remove the protective covering from the fiber optic module and store it for future use.
2. Before cabling a fiber optic module, it is strongly recommended that you clean the cable connectors and the port connectors.
Refer to
on page 90.
3. Insert the cable connector (a tab on each connector should face up) into the port connector or until the tab locks into place.
Cleaning fiber optic modules
To avoid problems with connections between fiber optic modules (SFP (mini-GBIC), SFP+, or XFP) and the fiber cable connectors, it is
Automatic MDI or MDIX detection
All 10/100 and Gigabit Ethernet copper ports on FastIron devices support automatic Media Dependent Interface (MDI) and Media
Dependent Interface Crossover (MDIX) detection. This feature is enabled on all 10/100 and Gigabit copper ports by default. For each port, you can disable auto MDI or MDIX, or designate the port as an MDI port, or an MDIX port.
For more information about this feature refer to the FastIron Ethernet Switch Administration Configuration Guide.
Using a CX4 transceiver
A twin-axial 10G copper CX4 XFP transceiver can be installed in any 10G port. For a link to operate properly, both sides must use identical CX4 transceivers. See the first figure below.
The CX4 transceiver requires a 15 meter CX4-grade cable with 24 or 26 American Wire Gauge (AWG). This cable can be purchased from Brocade. Refer to part number CAB-CX4-0050 when ordering. See the second figure below.
NOTE
The CX4 transceiver is not hot-swappable.
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Connecting network devices
FIGURE 42
CX4 transceiver
1.
CX4 transceiver
FIGURE 43
CX4 transceiver cable
1
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CX4 transceiver cable
91
Testing network connectivity
Testing network connectivity
After you install the network cables, you can test network connectivity to other devices by pinging those devices. You also can observe the LEDs related to network connection and perform trace routes.
For more information about
ping
and
traceroute
commands, refer to the
FastIron Ethernet Switch Layer 3 Configuration Guide
.
Observing LEDs
After you install the network cables, you can observe certain LEDs to determine if the network connections are functioning properly. The table below outlines the LEDs related to the network connections, the desired state of each LED, possible abnormal states of each LED, and what to do if an LED indicates an abnormal state.
NOTE
Some modules use combined link and activity LEDs.
TABLE 22
Network connection-related LED states
LED Desired State
Link On (Green)
Meaning
A link is established with the remote port.
Abnormal State
Off
Meaning or Action
No link exists with the remote port. You can do the following:
• Verify that the connection to the other network device has been properly made.
Also, make certain that the other network device is powered on and operating correctly.
• Verify that the transmit port on the Brocade device is connected to the receive port on the other network device, and that the receive port on the Brocade device is connected to the transmit port on the other network device. If you are not certain, remove the two cable connectors from the port connector and reinsert them in the port connector, reversing their order.
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Troubleshooting network connections
TABLE 22
Network connection-related LED states (continued)
LED
Active
Desired State
On or blinking (Yellow)
Meaning
The port is transmitting and receiving user packets.
Abnormal State Meaning or Action
• Dust may have accumulated in the cable connector or port connector. For information about cleaning the connectors, refer to
Cleaning fiber optic modules on
page 90.
• If the other actions do not resolve the problem, try using a different port or a different cable.
Off for an extended period.
The port is not transmitting or receiving user packets.
You can do the following:
• Check the Link
LED to make sure the link is still established with the remote port. If not, take the actions described in the Meaning or
Action column for the Link LED.
• Verify that the port has not been disabled through a configuration change. You can use the CLI. If you have configured an IP address on the device, you also can use the Web
Management
Interface or
Brocade Network
Advisor.
If a problem persists after taking these actions, contact Brocade technical support.
Troubleshooting network connections
To resolve problems that may arise with network connections:
• For the indicated port, verify that both ends of the cabling (at the Brocade device and the connected device) are snug.
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Troubleshooting network connections
• Verify that the Brocade device and the connected device are both powered on and operating correctly.
• Verify that the port has not been disabled by a configuration change. You can use the CLI. If you have configured an IP address on the device, you also can use Brocade Network Advisor.
• Verify that you have used the correct cable type for the connection:
– For twisted-pair connections to an end node, use straight-through cabling.
– For fiber-optic connections, verify that the transmit port on the device is connected to the receive port on the connected device, and that the receive port on device is connected to the transmit port on the connected device.
• For copper ports, you can test the cable using Virtual Cable Testing. For more information, refer to the chapter
Hardware
Component Monitoring
in the FastIron Ethernet Switch Administration Configuration Guide.
• If the other procedures do not resolve the problem, try using a different port or a different cable.
Support for digital optical monitoring
You can configure your Brocade device to monitor optical transceivers in the system, either globally or by specified ports. When this feature is enabled, the system monitors the temperature and signal power levels for the optical transceivers in the specified ports.
Console messages and syslog messages are sent when optical operating conditions fall below or rise above the XFP or SFP manufacturer’s recommended thresholds. For details about this feature and how to configure it, refer to the FastIron Ethernet Switch
Administration Configuration Guide.
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Managing the Chassis and Modules
•
•
•
•
•
•
•
•
Overview
This chapter contains information about refining the configuration of, monitoring, and managing the hardware components.
Displaying chassis status and temperature readings
You can display the following information about your Brocade device:
• Status of the power supplies
• Status of the fans
• Temperature readings and thresholds of the management and interface modules
• Temperature readings and thresholds of the switch fabric modules (FSX 800 and FSX 1600 only)
• The MAC address of the chassis
The following shows an example of the
show chassis
command output on the FSX 800.
device# show chassis
Chassis Type: FastIron SX 800
Power supply 1 not present
Power supply 2 not present
Power supply 3 (H1250C - AC - Regular) present, status ok
Power supply 4 not present
Fan 1 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 2 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 3 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 4 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 5 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 6 ok, speed (auto): 1<->[[2]]<->3<->4
Fan controlled temperature:
Rule 1/3 (MGMT CARDS THERMAL PLANE): 41.5 deg-C
Rule 2/3 (LINE CARDS THERMAL PLANE): 44.0 deg-C
Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE): 49.5 deg-C
Fan speed switching temperature thresholds:
Rule 1/3 (MGMT CARDS THERMAL PLANE):
Speed 1: NM<----->57 deg-C
Speed 2: 48<----->58 deg-C
Speed 3: 49<----->59 deg-C
Speed 4: 50<----->80 deg-C (shutdown)
Rule 2/3 (LINE CARDS THERMAL PLANE):
Speed 1: NM<----->57 deg-C
Speed 2: 48<----->58 deg-C
Speed 3: 49<----->59 deg-C
Speed 4: 50<----->80 deg-C (shutdown)
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Displaying chassis status and temperature readings
Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE)***active***:
Speed 1: NM<----->57 deg-C
Speed 2: 48<----->58 deg-C
Speed 3: 49<----->59 deg-C
Speed 4: 50<----->80 deg-C (shutdown)
Slot 1 Temperature: 44.0 deg-C
Slot 2 Temperature: 34.5 deg-C
Slot 3 Temperature: empty
Slot 4 Temperature: 39.5 deg-C
Slot 5 Temperature: empty
Slot 6 Temperature: empty
Slot 7 Temperature: empty
Slot 8 Temperature: empty
Slot 9 Temperature: 39.0 deg-C
Slot 10 Temperature: 41.5 deg-C
SF 1 Temperature: 49.5 deg-C
SF 2 Temperature: empty
Boot Prom MAC: 00-00-00
The following shows example output of the
show chassis
command on the FSX 1600.
device# show chassis
Chassis Type: FastIron SX 1600-PREM
Power supply 1 not present
Power supply 2 not present
Power supply 3 not present
Power supply 4 (32005100 - AC - Regular) present, status ok
Power supply 5 not present
Power supply 6 not present Power supply 7 not present
Power supply 8 present, status failed, reason NO AC INPUT
Fan 1 ok, speed (auto): 1<->2<->[[3]]<->4<->5
Fan 2 ok, speed (auto): 1<->2<->[[3]]<->4<->5
Fan controlled temperature:
Rule 1/3 (MGMT CARDS THERMAL PLANE): 41.0 deg-C
Rule 2/3 (LINE CARDS THERMAL PLANE): 46.5 deg-C
Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE): 40.5 deg-C
Fan speed switching temperature thresholds:
Rule 1/3 (MGMT CARDS THERMAL PLANE):
Speed 1: NM<----->40 deg-C
Speed 2: 35<----->48 deg-C
Speed 3: 44<----->52 deg-C
Speed 4: 48<----->55 deg-C
Speed 5: 52<----->80 deg-C (shutdown)
Rule 2/3 (LINE CARDS THERMAL PLANE)***active***:
Speed 1: NM<----->40 deg-C
Speed 2: 35<----->48 deg-C
Speed 3: 44<----->52 deg-C
Speed 4: 48<----->55 deg-C
Speed 5: 52<----->80 deg-C (shutdown)
Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE):
Speed 1: NM<----->30 deg-C
Speed 2: 25<----->40 deg-C
Speed 3: 35<----->55 deg-C
Speed 4: 50<----->65 deg-C
Speed 5: 60<----->90 deg-C (shutdown)
Slot 1 Temperature: empty
Slot 2 Temperature: empty
Slot 3 Temperature: empty
Slot 4 Temperature: empty
Slot 5 Temperature: empty
Slot 6 Temperature: empty
Slot 7 Temperature: empty
Slot 8 Temperature: empty
Slot 9 Temperature: 34.5 deg-C
Slot 10 Temperature: 41.0 deg-C
cont’d on next page...
cont’d from previous page...
Slot 11 Temperature: 40.0 deg-C
Slot 12 Temperature: 46.0 deg-C
Slot 13 Temperature: 42.0 deg-C
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Displaying chassis status and temperature readings
Slot 14 Temperature: 44.5 deg-C
Slot 15 Temperature: 43.5 deg-C
Slot 16 Temperature: 40.0 deg-C
Slot 17 Temperature: 45.0 deg-C
Slot 18 Temperature: 41.5 deg-C
SF 1 Temperature: 40.5 deg-C
SF 2 Temperature: empty
Boot Prom MAC: 00-00-00
The
show chassis
display shows the following information.
TABLE 23
Chassis status and temperature information
Field
Chassis Type
Power
Power Supply
Fans
Fan number
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Part Number: 53-1003613-04
Definition
This field displays the chassis type. For example:
• FSX 800
• FSX 1600
• FSX 1600-PREM
-PREM indicates that the device is a premium device (supports full Layer
2 switching and full Layer 3 multiprotocol routing).
Indicates whether a power supply is installed in the specified power supply slot and the status of the power supply, which can be one of the following:
• OK - The power supply is functioning properly and supplying power to the chassis and installed modules.
• Failed - The power supply is not functioning and is not supplying power to the chassis and installed modules.
This field also indicates:
• the manufacturing part number
• whether the supply is AC or DC
• whether the supply is regular or POE.
On the FSX 800, Power Supply 1 is the left-most slot, and Power Supply
4 is the right-most slot. These numbers assume you are facing the front of the chassis, not the rear.
On the FSX 1600, Power Supply 1 is the top left-most slot, Power Supply
4 is the top right-most slot, Power Supply 5 is the bottom left-most slot, and Power Supply 8 is the right-most slot. These numbers assume you are facing the front of the chassis, not the rear.
For FSX 800, this field displays information about fans 1 through 6. Fan locations are:
• Fan 1 - Left-most fan in bottom row
• Fan 2 - Middle fan in bottom row
• Fan 3 - Right-most fan in bottom row
• Fan 4 - Left-most fan in top row
• Fan 5 - Middle fan in top row
• Fan 6 - Right-most fan in top row
For the FSX 1600, this field displays information about fans 1 and 2. Fan locations are:
• Fan 1 - This is Fan A and is the right-most fan in the rear of the chassis.
• Fan 2 - This is Fan B and is the right-most fan in the rear of the chassis.
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Displaying chassis status and temperature readings
TABLE 23
Chassis status and temperature information (continued)
Field
Fan status
Speed Operating mode
Current fan speed
Definition
The status of a fan can be one of the following:
• OK - The fan is functioning properly and is keeping the temperature of each module within an acceptable temperature range.
• Failed - The fan is not functioning properly or the fan control module cannot control the fan.
The operating mode of a fan can be one of the following:
• Auto (automatic) - This is the default
• Manual
The fan speed for the FSX 800 can be one of the following:
• 1 (low) - The fan is functioning at 25 percent of capacity.
• 2 (medium-low) - The fan is functioning at 37 percent of capacity.
• 3 (medium) - The fan is functioning at 50 percent of capacity.
• 4 (high) - The fan is functioning at 100 percent of capacity.
The current fan speed is shown in double brackets.
Temperature
Fan controlled temperature
Fan speed switching temperature thresholds
Slot number Temperature
The FSX 800 and FSX 1600 display the temperature reading of the management, interface, and switch fabric modules:
• Rule 1/3 - The highest temperature reading of the management module or modules.
• Rule 2/3 - The highest temperature reading of all the interface modules.
• Rule 3/3 - The highest temperature reading of the switch fabric modules.
•
The FSX 800 and FSX 1600 display the configured temperature thresholds for the management, interface, and switch fabric modules.
• Rule 1/3 (MGMT CARDS THERMAL PLANE) - The configured temperature thresholds for the management module or modules.
• Rule 2/3 - (LINE CARDS THERMAL PLANE) - The configured temperature thresholds for all the interface modules.
• Rule 3/3 - (SWITCH FABRIC CARDS THERMAL PLANE) -
The configured temperature thresholds for the switch fabric modules.
The output displays fan speed information for each of the above thermal planes.
The FSX 800 chassis devices has four fan speeds as illustrated in
Changing temperature thresholds for thermal planes and fan speeds on
page 100.
The temperature of each module.
• On the FSX 800 and FSX 1600, the management modules are in slots 9 and 10 and the switch fabric modules are
SF 1
and
SF 2
.
Other information
Boot PROM MAC The MAC address of the chassis.
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Managing the cooling system
Managing the cooling system
This section provides configuration, management, and monitoring information for the cooling system in FastIron X Series chassis devices.
Configuring the cooling system
Since
FastIron X Series
chassis devices provide default settings for all cooling system parameters, no initial configuration of the cooling system is necessary. You can change the settings of the following cooling system parameters:
• Low and high temperature thresholds for modules and fan speeds
• Interval at which the system polls the temperature sensors on the module for a reading
• Temperature at which the device will shut down
• Fan speed
Thermal planes
The FSX 800 and FSX 1600 have three thermal planes:
• Thermal Plane 1 (also called Rule 1/3) - This thermal plane includes the temperature sensors on the management module or modules only. Each management module has two temperature sensors.
• Thermal Plane 2 (also called Rule 2/3) - This thermal plane includes all of the temperature sensors on all of the interface modules. Each interface module has one temperature sensor.
• Thermal Plane 3 (also called Rule 3/3) - This thermal plane includes all of the temperature sensors on the switch fabric modules. Each switch fabric module has one temperature sensor.
All thermal planes, along with temperature thresholds, help determine at which speed the fans should operate. For each thermal plane, you can define separate temperature thresholds for fan speeds. Each thermal plane can have different temperature thresholds.
For each thermal plane, the Brocade device records the highest temperature based on the temperature reading of all of the modules in the thermal plane. The system uses this information and the current configured temperature thresholds to adjust the fan speed. You can view the temperature of each thermal plane using the
show chassis
command.
Fan speed modes
The fans can operate in automatic or manual mode. The default is automatic mode. This section describes both methods.
Automatic mode
By default, the fans operate in automatic mode, self-adjusting their speed based on both of the following factors:
• The current temperature of each thermal plane
• The current configured temperature threshold ranges for all fan speeds
The Brocade device has default temperature threshold ranges for fan speeds (
The software regularly polls the chassis to obtain the temperature of each thermal plane, then uses this information to decide whether or not to switch the fan speed. By default, the Brocade device polls the chassis every 60 seconds for temperature data. You can change this interval using the CLI command
chassis poll-time
.
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Managing the cooling system
If the temperature of a thermal plane exceeds the high temperature level of the temperature range associated with the current fan speed in the associated plane, the system will switch the fan speed to the next higher level. For example, the current fan speed is 3 (medium), and the configured operating temperature range for fan speed 3 is 40 to 50 degrees Centigrade for Thermal Plane 2. Based on this configuration, if the temperature of Thermal Plane 2 rises to 51 degrees Centigrade, the system will automatically increase the fan speed to fan speed 4.
Manual mode
Typically, the fans operate in automatic mode, as described above. If desired, you can manually set the speed at which the fans will
operate. For more information, refer to Manually setting the fan speed on page 103
Changing temperature thresholds for thermal planes and fan speeds
The cooling system in the FSX 800 includes six four-speed fans. The fans operate at speeds of low, medium-low, medium, and high. In general, each fan speed, except for low, has a low and high temperature threshold associated with it as shown in the figure below. The low fan speed has a high temperature threshold only.
FIGURE 44
Fan speeds and temperature thresholds
The low and high temperature thresholds enable the Brocade device to determine at which speed the fans should operate. In general, the fans operate as follows:
• If the temperature of all thermal planes is between the low and high thresholds for a fan speed, the fan continues to operate at that fan speed.
• If the temperature of any thermal plane exceeds the high threshold specified for a fan speed, the fan speed increases to the next higher speed. If the temperature of any thermal plane exceeds the high threshold for the high speed and remains above the threshold for five minutes, the system automatically shuts down to prevent damage.
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Managing the cooling system
• If the temperature of any thermal plane falls below the low threshold for a fan speed, the fan decreases its speed to the next lower speed. If the temperature of any thermal plane falls below the high threshold for the low speed, the fan operates at the low speed.
If the temperature of any thermal plane exceeds the high temperature threshold for any of the fan speeds, the software sends a message to the system log.
The table below outlines the default low and high temperature thresholds for each fan speed, as well as the operating level and noise level of the fans at each fan speed.
4
3
2
1
TABLE 24
Default low and high temperature thresholds for thermal planes and fan speeds
Fan Speed Description Low Temperature
Threshold
High Temperature
Threshold
Fan Operating Level
(% of Capacity)
High
Medium
Medium-low
Low
50 ° C
49 ° C
48 ° C
N/A
80 ° C
59 ° C
58 ° C
57 ° C
100
50
37
25
Fan Noise Level
78 dB
66 dB
63 dB
56 dB
Command syntax
If desired, you can change the default low and high temperature thresholds for a particular thermal plane and fan speed. For example, to change the low and high thresholds of the medium fan speed for the management module or modules to 56 ° C and 72 ° C, respectively, enter the following command at the global CONFIG level of the CLI.
device(config)# fan-threshold mp speed-3 56 72
Syntax: fan-threshold module
[
speed-1
high-threshold
] [
speed-2
low-threshold high-threshold
] [
speed-3
low-threshold highthreshold
] [
speed-4
low-threshold high-threshold
]
For the module parameter, specify one of the following:
•
lp
- Changes low and high temperature thresholds for the Interface modules.
•
mp
- Changes low and high temperature thresholds for the management module.
•
sfp
- (FSX 800 and FSX 1600 only) Changes low and high temperature thresholds for the switch fabric modules.
The fan speeds are as follows:
• speed-1 - low
• speed-2 - medium-low
• speed-3 - medium
• speed-4 - high (shutdown temperature)
For the
low-threshold
and
high-threshold
variables, you can specify any temperature in Centigrade. However, when changing low and high temperature thresholds for a module’s fan speeds, remember that the low temperature threshold of a higher fan speed must be lower than the high temperature threshold of the lower fan speed. Brocade establishes this guideline to ensure the fan speed stability.
For example, if you are changing the temperature thresholds for the management module’s high and medium-high fans speeds, the
Brocade device will accept the following values because the low temperature threshold for the high speed (67 ° C) is lower than the high temperature threshold (72 ° C) for the medium-high speed.
Fan Speed
High
Medium-high
Low Temperature Threshold
67 ° C
57 ° C
High Temperature Threshold
82 ° C
72 ° C
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Managing the cooling system
However, the Brocade device will not accept the following values because the low temperature threshold for the high speed (73 ° C) is higher than the high temperature threshold (72 ° C) for the medium-high speed.
Fan Speed
High
Medium-high
Low Temperature Threshold
73 ° C
57 ° C
High Temperature Threshold
82 ° C
72 ° C
The
high-threshold
temperature for the high fan speed (speed-4) is the shutdown temperature. If a thermal plane’s fan-controlled temperature reaches and stays at the shutdown temperature for five minutes, the Brocade device will automatically shut down to prevent damage.
Displaying temperature thresholds for thermal planes and fan speeds
To check the current settings of the low and high temperature thresholds for thermal planes and fan speeds, enter the
show chassis
command at any level of the CLI.
The following shows an example of the
show chassis
command output on the FSX 800. The display is similar on the FSX 1600. This display shows the currently configured temperature thresholds for the management module or modules (Rule 1/3), all of the interface modules (Rule 2/3), and the switch fabric modules (Rule 3/3).
device# show chassis
...
Fan speed switching temperature thresholds:
Rule 1/3 (MGMT CARDS THERMAL PLANE):
Speed 1: NM<----->57 deg-C
Speed 2: 48<----->58 deg-C
Speed 3: 49<----->59 deg-C
Speed 4: 50<----->80 deg-C (shutdown)
Rule 2/3 (LINE CARDS THERMAL PLANE):
Speed 1: NM<----->57 deg-C
Speed 2: 48<----->58 deg-C
Speed 3: 49<----->59 deg-C
Speed 4: 50<----->80 deg-C (shutdown)
Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE)***active***:
Speed 1: NM<----->57 deg-C
Speed 2: 48<----->58 deg-C
Speed 3: 49<----->59 deg-C
Speed 4: 50<----->80 deg-C (shutdown)
...
Syntax: show chassis
Shutdown warning messages
If any thermal plane exceeds the shutdown temperature level, the Brocade device will display a shutdown warning message on the console every five seconds until either the temperature level goes back down below the shutdown temperature level, or the system shuts down the chassis to prevent further damage (shutdown occurs after five minutes of exceeding the shutdown temperature level).
The shutdown warning messages indicate the thermal plane that triggered the warning and the number of seconds before the device will shut down. The following shows an example warning message.
!!! Temperature of SWITCH FABRIC CARDS THERMAL PLANE is over shutdown level, system is going to be shutdown in 300 seconds !!!
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Managing the cooling system
Changing the temperature polling interval
By default, the Brocade device reads the temperature sensor on each module every 60 seconds. To change the interval at which the system reads the temperature sensors, enter a command such as the following at the global CONFIG level of the CLI.
device(config)# chassis poll-time 120
Syntax: chassis poll-time
seconds
For the second variable, you can specify any number of seconds. If you specify 0, the system reverts to 60 seconds, the default value.
Manually setting the fan speed
NOTE
Use caution when manually setting the fan speed, since this could adversely affect the device’s performance.
Typically, the temperature of the thermal planes, in conjunction with the settings of low and high temperature thresholds, determine the speed of the fans. If desired, you can use the
fan-speed
command to manually set the speed of the fans.
For example, to set the speed of all fans to low, enter the following command.
device# fan-speed 1
Syntax:fan-speed
fan-speed
The
fan-speed
can be one of the following.
1
- low
2
- medium-low
3
- medium
4
- high
Monitoring the cooling system
You can monitor the following aspects of the cooling system:
• The temperature of the fan control modules
• The status and speed of the fans
• The temperature warnings sent to the system log
Displaying the temperature
By default, the Brocade device polls the temperature sensor on each module every 60 seconds to get the temperature of each module.
The Brocade device records the
highest
temperature reading of the modules in each thermal plane.
The
show chassis
command displays the temperature reading of each thermal plane, as shown in the following examples.
This following shows an example output.
device# show chassis
...
Fan controlled temperature:
Rule 1/2 (MGMT CARDS THERMAL PLANE): 53.0 deg-C...
Rule 2/2 (LINE CARDS THERMAL PLANE): 59.0 deg-C...
...
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Managing the cooling system
The following shows an example output on the FSX 800. The output is similar on the FSX 1600.
device# show chassis
...
Fan controlled temperature:
Rule 1/3 (MGMT CARDS THERMAL PLANE): 55.5 deg-C...
Rule 2/3 (LINE CARDS THERMAL PLANE): 59.6 deg-C...
Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE): 78.7 deg-C...
...
Syntax: show chassis
Displaying fan status and speed
The
show chassis
command displays the status and speed of the fans in the Brocade chassis. The following shows an example output.
device# show chassis
...
Fan 1 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 2 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 3 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 4 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 5 ok, speed (auto): 1<->[[2]]<->3<->4
Fan 6 ok, speed (auto): 1<->[[2]]<->3<->4
...
Syntax: show chassis
For each fan, the display shows the following information.
TABLE 25
Fan status and speed fields
This Field...
Status
Speed
Displays...
The status of the fan. This field can be one of the following:
• OK - The fan is functioning properly and is keeping the temperature of each module within an acceptable temperature range.
• Failed - The fan is not functioning properly or the fan control module cannot control the fan.
The speed at which the fan is currently operating (denoted by double brackets).
This field shows one of the following:
• 1 (low) - The fan is functioning at 25 percent of capacity.
• 2 (medium-low) - The fan is functioning at 37 percent of capacity.
• 3 (medium) - The fan is functioning at 50 percent of capacity.
• 4 (high) - The fan is functioning at 100 percent of capacity.
NOTE
If the report shows that a fan has "failed", the report does not show the fan’s speed.
Displaying temperature warnings
If the temperature of a module exceeds the high temperature threshold for any of the fan speeds, the system sends a message to the system log. This section describes how to view the system log. If you have configured the system to use a Syslog server, refer to the documentation for the server or receiver.
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Displaying the Syslog configuration and static and dynamic buffers
To display the system log, enter the following command at any CLI level.
device# show log
...
Dynamic Log Buffer (50 lines):
0d00h06m25s:N:System: Fan speed changed automatically to 2
0d00h05m14s:N:System: Fan speed changed automatically to 1
0d00h00m15s:I:System: Interface ethernet 8/1, state up
0d00h00m14s:I:System: Cold start
...
Syntax: show log
Displaying the Syslog configuration and static and dynamic buffers
For information about configuring Syslog, refer to the FastIron Ethernet Switch Administration Guide.
To display the Syslog parameters currently in effect on a system, enter the following command from any level of the CLI.
device> show logging
Syslog logging: enabled (0 messages dropped, 0 flushes, 0 overruns)
Buffer logging: level ACDMEINW, 7 messages logged
level code: A=alert C=critical D=debugging M=emergency E=error
I=informational N=notification W=warning
...
Syntax: show logging
The Syslog display shows the following configuration information, in the rows above the log entries themselves.
TABLE 26
Syslog buffer configuration
This Field...
Syslog logging messages dropped flushes overruns level messages logged level code
Displays...
The state (enabled or disabled) of the Syslog buffer.
The number of Syslog messages dropped due to user-configured filters.
By default, the software logs messages for all Syslog levels. You can disable individual Syslog levels, in which case the software filters out messages at those levels. Each time the software filters out a Syslog message, this counter is incremented.
The number of times the Syslog buffer has been cleared by the
clear logging
command.
The number of times the dynamic log buffer has filled up and been cleared to hold new entries. For example, if the buffer is set for 100 entries, the 101st entry causes an overrun. After that, the 201st entry causes a second overrun.
The message levels that are enabled. Each letter represents a message type and is identified by the key (level code) below the value. If you disable logging of a message level, the code for that level is not listed.
The total number of messages that have been logged since the software was loaded.
The message levels represented by the one-letter codes.
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Syslog messages for PCI (hardware) errors
Static and dynamic buffers
The software provides two separate buffers:
• Static - logs power supply failures, fan failures, and temperature warning or shutdown messages
• Dynamic - logs all other message types
In the static log, new messages replace older ones, so only the most recent message is displayed. For example, only the most recent temperature warning message will be present in the log. If multiple temperature warning messages were sent to the log, the latest one will replace the previous one. The static buffer is not configurable.
The message types that appear in the static buffer do not appear in the dynamic buffer. The dynamic buffer contains up to the maximum number of messages configured for the buffer (50 by default), then begins removing the oldest messages (at the bottom of the log) to make room for new ones.
The static and dynamic buffers are both displayed when you display the log.
device(config)# show logging
...
Static Log Buffer:
Aug 27 12:42:42:A:Power Supply 6, 1st right, failed
Dynamic Log Buffer (50 lines):
Aug 27 12:19:04:I:Interface ethernet3/4, state up
Aug 27 12:19:04:I:Interface ethernet6/3, state up
Aug 27 12:19:04:I:Interface ethernet3/2, state up
Aug 27 12:19:04:I:Interface ethernet6/1, state up
Aug 27 12:19:00:N:Module up in slot 6
Aug 27 12:19:00:N:Module up in slot 3
Aug 27 12:18:43:I:Warm start
When you clear log entries, you can selectively clear the static or dynamic buffer, or you can clear both. For example, to clear only the dynamic buffer, enter the following command at the Privileged EXEC level.
device# clear logging dynamic-buffer
Syntax: clear logging
[
dynamic-buffer
|
static-buffer
]
You can specify the
dynamic-buffer
keyword to clear the dynamic buffer or the
static-buffer
keyword to clear the static buffer. If you do not specify a buffer, both buffers are cleared.
Syntax: show log
Syslog messages for PCI (hardware) errors
FastIron Chassis devices support the display of PCI (hardware) read and write errors encountered on a slot or module during bootup and during normal system operations. There are four types of PCI errors, which may cause the system to disable or power down the module or modules on which they occur:
• Configuration read error
• Configuration write error
• Memory read error
• Memory write error
For more information, refer to the “Using Syslog” chapter in the
FastIron Ethernet Switch Administration Guide
.
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Removing MAC address entries
Managing the switch fabric modules (FSX 800 and
FSX 1600 only)
If desired, you can disable power to a switch fabric module and then re-enable it. To disable the power, enter the following command at the Privileged EXEC level of the CLI.
device
# disable switch-fabric 1
Syntax: disable switch-fabric
{
1
|
2
} where
switch-fabric 1
is the left-most module in the FSX 800 chassis and the top-most module in the FSX 1600 chassis, and
switchfabric 2
is the right-most module in the FSX 800 chassis and the bottom-most module in the FSX 1600 chassis.
To re-enable power to the switch fabric module, enter the following command at the Privileged EXEC level of the CLI.
device# enable switch-fabric 1
Syntax: enable switch-fabric
{
1
|
2
} where
switch-fabric 1
is the left-most module in the FSX 800 chassis and the top-most module in the FSX 1600 chassis, and
switchfabric 2
is the right-most module in the FSX 800 chassis and the bottom-most module in the FSX 1600 chassis.
Displaying management module CPU usage
You can display the amount of the management module’s CPU in use. To do so, enter the following command at any level of the CLI.
device# show cpu
31 percent busy, from 3248 sec ago
1 sec avg: 31 percent busy
5 sec avg: 31 percent busy
60 sec avg: 31 percent busy
300 sec avg: 31 percent busy
Syntax: show cpu
Removing MAC address entries
You can remove learned MAC address entries from the Brocade system’s MAC address table. You can remove the following:
• All MAC address entries.
• All MAC address entries for a specified Ethernet port.
• All MAC address entries for a specified VLAN.
• A specified MAC address entry in all VLANs.
For example, to remove entries for the MAC address 2001.DB8.00d in all VLANs, enter the following command at the Privileged EXEC level of the CLI.
device# clear mac-address 2001.DB8.00d0
Syntax: clear mac-address
[
mac-address
|
ethernet
slot/port |
vlan
number
]
If you enter the
clear mac-address
command without any parameters, the software removes all MAC entries.
Use the
mac-address
variable to remove a specified MAC address from all VLANs. Specify the MAC address in the following format:
HHHH.HHHH.HHHH.
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Removing MAC address entries
Use the
ethernet
slot
/
port
variable to remove all MAC addresses for a specified Ethernet port. For the
slot
parameter, enter the number of the chassis slot in which the Ethernet interface module is installed. For the port parameter, enter the Ethernet port whose MAC address you want to remove.
Use the
vlan
number
parameter to remove all MAC addresses for a specified VLAN.
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Using a Redundant Management Module
•
•
•
•
•
Overview
NOTE
This chapter applies to the FSX 800 and FSX 1600 chassis devices only.
You can install a redundant management module in the FSX 800 and FSX 1600 chassis. By default, the system considers the module installed in the lower-numbered slot to be the active management module, and the module installed in the higher-numbered slot to be the redundant or standby module. If the active module becomes unavailable, the standby module automatically takes over management of the system.
This chapter describes the redundant management module, how it works with the active module, and how to configure and manage it.
This chapter provides the following information:
• How management module redundancy works
• Optional management module redundancy configurations that you can perform
• How to manage and monitor the redundancy feature
NOTE
Hitless management features (hitless Layer 2 switchover and hitless Layer 2 OS upgrade) are discussed in the
FastIron
Ethernet Switch Administration Guide
.
How Management module redundancy works
This section explains the following:
• How management module redundancy works under normal operating conditions.
• Events that cause a standby management module to assume the role of the active module and how the switchover occurs as a result of each event.
• Implications that you should be aware of if a switchover occurs.
Management module redundancy overview
When you power on or reload a FSX 800 or FSX 1600 chassis with two management modules installed, by default, the management module installed in the lower-numbered slot becomes the active module and the management module in the higher-numbered slot becomes the standby module. (You can change the default active slot using the
set-active-mgmt
command. For information about performing this task, refer to “Changing the default active chassis slot” section.)
After the active and standby modules are determined, both modules boot from the source specified for the active module. The active management module boots from the active management module’s flash memory.
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How Management module redundancy works
After the modules boot, the active module synchronizes the standby module’s flash code and system-config file with its own.
During normal operation, the active module handles tasks such as obtaining network topology and reachability information and determining the best paths to known destinations. The active module also monitors the standby module.
The standby module functions in an active standby mode. Keeping the system-config and running-config files on both modules synchronized allows the standby module to assume the role of active module seamlessly if necessary.
During a switchover, the standby management module takes over the active role and re-initializes all the interface modules in the system that are not CLI-disabled by the administrator. This may cause a brief interruption of the traffic forwarding.
Management module switchover
The following events cause the standby management module to become the active module, which is called a
switchover
:
• The active module becomes unavailable
• You perform a manual switchover
• You remove and replace the active management module
The following sections explain how the switchover occurs for each event
Unavailable active module
The following events cause an active module to become unavailable and a switchover to occur:
• An active module experiences a problem significant enough to cause a system reset of the module.
• The active module loses power.
When a switchover occurs, the active module resets itself and sends an interrupt signal to the standby module. The standby module then becomes the active module and the interface modules continue to forward traffic.
The new active module begins to manage the system. When the original active module becomes available again or is replaced, it assumes the role of standby module.
Manual switchover
In some situations, you may want to manually switch the role of active management module from the currently active module to the standby module. For instance, when you want to remove the current active management module for maintenance. For example, if the module in slot 10 is the active module and the module in slot 9 is the standby module and you want the module in 9 to be the active module and the module in 10 to be the standby module, you can perform a manual switchover using the
switch-over-active-role
command.
For information about performing this task, refer to the “Manually switching over to the standby management module” section.
When the switchover occurs, the standby module becomes the active module.
Hitless switchover is also supported. For more information, refer to the
FastIron Ethernet Switch Administration Guide
.
Removal and replacement of a management module
For information about how to remove and replace a management module, refer to
Replacing a management module on page 120.
This section explains how management module redundancy is affected when you remove and replace an active or standby management module.
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How Management module redundancy works
Removal and replacement of an active management module
If you remove the active management module, the standby module automatically assumes the role of the active module. After you insert a replacement module in the slot from which the original active module was removed, the replacement module becomes the standby module. The module boots from the source specified for the active module. The active management module boots from the active management module’s flash memory.
NOTE
Before removing the active management module, Brocade recommends that you first issue the command
switch-over-activerole
. For details, refer to the “Manually switching over to the standby management module”section.
After the replacement module boots, the active module compares the standby module’s flash code and system-config file to its own. If differences exist, the active module synchronizes the standby module’s flash code and system-config file with its own.
Removal and replacement of a standby management module
You can remove a standby management module without causing a switchover to occur. The active module continues to function as is.
Communication between the active module and the removed module stops until the new module is installed in the chassis. After the new module is installed, it assumes the role of standby module. The module boots from the source specified for the active module. The active management modules boot from the active management module’s flash memory.
After the module boots, the active module compares the standby module’s flash code and system-config file to its own. If differences exist, the active module synchronizes the standby module’s flash code and system-config file with its own.
Switchover implications
After the role of the active management module switches from one module to another, you must be aware of implications that affect the following areas:
• Management sessions
• Syslog and SNMP traps
• MAC addresses
The following sections explain the implications for these areas.
Management sessions
You can establish management sessions with the active management module’s management port. If a switchover occurs, the management port on the original active module shuts down and all open CLI, Web Management Interface, and Brocade Network
Advisor sessions with that port close. You can open new sessions with the new active module, provided that the new active module has the same management port connections. (For example, if you were accessing the Web Management Interface through a PC connected to the original active module’s management port, you can open a new session if a PC is connected to the new active module’s management port.)
In the scenario described above, you can open a new session using the same IP address you were using before the switchover. (You configure an IP address for the active module only; if a switchover occurs, the IP address is used by the new active module.)
Syslog and SNMP traps
When a switchover occurs, the system sends a Syslog message to the local Syslog buffer and also to the Syslog server, if you have configured the system to use one. In addition, if you have configured an SNMP trap receiver, the system sends an SNMP trap to the receiver.
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Management module redundancy configuration
When the system is powered on or otherwise reset normally, the system sends a cold start message and trap. However, if the system is reset as the result of switchover to the standby management module, the system instead sends a warm start message and trap.
MAC address changes
The MAC addresses in the system are based on the MAC address of the chassis. During switchover, the system's MAC addresses do not change.
Management module redundancy configuration
Configuring management module redundancy consists of performing one optional task (changing the default active chassis slot). The following section explains how to perform this task.
Changing the default active chassis slot
By default, the system considers the module installed in the lower-numbered slot to be the active management module. If desired, you can change the default active chassis slot to the higher-numbered slot.
To change the default active chassis slot, enter commands such as the following.
device# configure terminal
Brocade(config)# set-active-mgmt mgmt1
Syntax: [no] set-active-mgmt
{
mgmt0
|
mgmt1
}
mgmt0
is the lower-numbered slot and
mgmt1
is the higher-numbered slot.
To remove the configuration, use the no form of the command. You cannot use the
erase startup
command to remove the configuration.
To view the default active chassis slot currently configured on the device, use the
show run
command.
Managing management module redundancy
The FSX 800 and FSX 1600 support the following management tasks related to management module redundancy:
• Perform immediate synchronization of files
• Perform a manual switchover to the standby module
• Reboot the standby module
File synchronization between the active and standby management modules
Each active and standby management module contains the following files that can be synchronized between the two modules:
• Flash code - The flash code can include the following files:
– Primary - Contains the management module’s primary IronWare image.
– Secondary - Contains the management module’s secondary IronWare image.
The primary and secondary files also include a monitor file, which contains the management module’s Real Time Operating System
(RTOS).
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Managing management module redundancy
The IronWare image contains the Layer 1-3 software run by the management module.
During startup or switchover, the active module automatically synchronizes the standby module’s flash code with its own. Also, when you update the flash code on the active module, the active module automatically synchronizes the standby module’s flash code with its own.
• System-config file - The flash code also includes the system-config file. During startup or switchover, the active module compares the standby module’s system-config file to its own. If differences exist, the active module synchronizes the standby module’s system-config file with its own. When you save changes to the system-config file on the active module, the active module automatically synchronizes (without comparison) the standby module’s system-config file with its own.
• SSH and SSL keys
• Flash file for the DHCP snooping feature
Each active and standby management module also includes boot code, which is the code a module runs when it first starts up. The boot code resides in each module’s boot flash. The boot code is synchronized between the two modules.
The figure below shows how the files are synchronized between the active module and the standby module.
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FIGURE 45
File synchronization between the active and standby modules
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Monitoring management module redundancy
Manually switching over to the standby management module
This section describes how to manually switch the role of active management module from the currently active module to the standby module.
NOTE
Hitless switchover is also supported. An enhancement to the manual switchover feature, a hitless switchover enables a switchover of the active management module to standby module without interrupting switched traffic. For details, refer to the
FastIron Ethernet Switch Administration Guide
.
You can cause the system to switch over to the standby module (and thus make it the active module). To do so, enter the following command.
device# switch-over-active-role
Once you enter this command, the system will prompt you as follows.
Are you sure? (enter ’y’ or ’n’): y
Running Config data has been changed. Do you want to continue the switch-over without saving the running config? (enter ’y’ or ’n’): n
Please save the running config and try switch-over again
Syntax: switch-over-active role
Rebooting the active and standby management modules
You can use the
boot system
or
reload
commands to reboot the management modules, maintaining the currently configured active management module (the management module to which the
set-active-mgmt
command applies).
For example, to reboot the active and standby management modules from the primary IronWare image in the management module’s flash memory, enter the following command at the Privileged EXEC level.
device# boot system flash primary
Syntax: boot system
{
bootup
|
flash primary
|
flash secondary
|
slot
|
tftp
ip-address filename
[
fiber-port
]
The
flash primary
keyword specifies the primary IronWare image in the management module’s flash memory, while the
flash secondary
keyword specifies the secondary IronWare image in the flash memory.
The
tftp
keyword directs the switch to boot from an IronWare image on a TFTP server located at
ip-address
with the specified
filename
.
NOTE
To reboot the device from a TFTP server through a
fiber
connection, use the CLI command
boot system tftp
ip-address filename fiber-port
.
For example, to reboot the active and standby management modules, enter the following command at the Privileged EXEC level.
device# reload
Syntax: reload
Monitoring management module redundancy
You can monitor the following aspects of management module redundancy:
• The status of the management modules (if a module is the active or standby module)
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Monitoring management module redundancy
• The switchover history for the management modules
The following sections explain how you can monitor the management modules
Determining management module status
You can determine the status of a management module in the following ways:
• LEDs - The LEDs on the management module indicate whether a module is the active module or the standby module, and if the module has power.
• Redundant management and module information in software - The module information displayed by the software indicates whether a module is the active module or the standby module.
Status LED
If you are located near the chassis, you can determine which management module is currently the active module and which is the standby module by observing the Active LED on each module. If this LED is on (green), the module is the active module. If this LED is off, the module is the standby module.
You can also observe the Pwr LED on each module. If this LED is on (green), the module is receiving power. If this LED is off, the module is not receiving power. (A module without power will not function as the active or standby module.)
Software
You can use the
show module
CLI command to display the status of the management modules.
The following shows an example output of the
show module
command.
device# show module
Module Status Ports
F1: SX-FISF Switch Fabric active
F2: SX-FISF Switch Fabric active
S1: SX-FI-24GPP 24-port Gig Copper + PoE+ OK 24 0024.3821.7500
S2: SX-FI-8XG 8-port 10G Fiber OK 8 0024.3821.7518
S3: Reserved
S4: SX-FI-8XG 8-port 10G Fiber OK 8 0024.3821.7548
S5: SX-FI-48GPP 48-port Gig Copper + PoE+ OK 48 0024.3821.7500
S6:
S7:
S8:
S9: SX-FIZMRXL6 0-port Management Active 0
{ Status : OK }
S10: Standby 0
Syntax: show module
The Status column indicates the module status. The management modules can have one of the following statuses:
• ACTIVE - The module is currently the active management module.
• STANDBY - The module is the standby management module. The status of the standby module can be one of the following:
– Init - The module is currently initializing as the standby module.
– OK - The module is ready to take over as the active module, if necessary.
– Wait - The module is awaiting boot information from the active management module.
– Sync - The active module is currently synchronizing files between itself and the standby module.
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Monitoring management module redundancy
Displaying temperature information
Each management module contains two temperature sensors. By default, the system polls the temperature of each management module every 60 seconds. You can display the current temperature of the management modules (and all other modules) by entering the following command at any CLI level.
device# show chassis
...
Slot 9 Temperature: 31.0 deg-C
Slot 10 Temperature: 34.0 deg-C
...
Syntax: show chassis
The output displays the temperature of the management modules.
Displaying switchover information
You can view the system log or the traps logged on an SNMP trap receiver, which includes Information about whether a switchover has occurred. For Syslog messages related to hitless OS upgrade and hitless switchover, refer to the
FastIron Ethernet Switch Administration
Guide
.
To view the system log or the traps logged on an SNMP trap receiver, enter the following command at any level of the CLI.
device# show log
Syslog logging: enabled (0 messages dropped, 0 flushes, 0 overruns)
Buffer logging: level ACDMEINW, 25 messages logged
level code: A=alert C=critical D=debugging M=emergency E=error
I=informational N=notification W=warning
Dynamic Log Buffer (50 lines):
0d14h43m52s:N:System: Module was inserted to slot 9
0d14h43m23s:N:System: Fan speed changed automatically to 3
0d14h43m23s:N:System: Fan speed changed automatically to 3
0d14h43m23s:N:System: Fan speed changed automatically to 3
0d14h43m23s:N:System: Fan speed changed automatically to 3
0d14h43m23s:N:System: Fan speed changed automatically to 3
0d14h43m23s:N:System: Fan speed changed automatically to 3
0d14h43m20s:I:System: Interface ethernet 5/2, state up
0d14h43m19s:I:System: Interface ethernet 3/2, state up
0d14h43m19s:I:System: Interface ethernet mgmt1, state up
0d14h43m19s:I:System: Interface ethernet 6/13, state up
0d14h43m18s:I:System: Interface ethernet 4/1, state up
0d14h43m18s:I:System: Interface ethernet 2/13, state up
0d14h43m18s:N:System: Fan speed changed automatically to 2
0d14h43m18s:N:System: Fan speed changed automatically to 2
0d14h43m18s:N:System: Fan speed changed automatically to 2
0d14h43m18s:N:System: Fan speed changed automatically to 2
0d14h43m18s:N:System: Fan speed changed automatically to 2
0d14h43m18s:N:System: Fan speed changed automatically to 2
0d14h43m18s:I:System: Interface ethernet 1/13, state up
0d14h43m16s:N:powered On switch Fabric
0d14h43m09s:N:powered On switch Fabric
0d14h43m01s:I:Mgmt CPU1 slot 9 failed
0d14h43m01s:I:System: Warm start
0d14h43m01s:I:SNMP: read-only community added by from session FastIron SX 800
This output shows that one switchover occurred.
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Maintaining the Hardware
•
•
•
•
•
•
•
•
•
•
•
•
Overview
This chapter provides instructions for maintaining the FastIron X Series chassis hardware.
DANGER
The procedures in this manual are for qualified service personnel.
Hardware maintenance schedule
The FastIron X Serieschassis requires minimal maintenance for its hardware components. Brocade recommends cleaning the fiber-optic connectors on a fiber-optic port and the connected fiber cable each time you disconnect the cable.
Otherwise, you can replace the following hardware components as needed:
• Management and interface modules
• Switch fabric modules (FSX 800 and FSX 1600 only)
• POE daughter card
• Copper and fiber optic modules (SFPs (mini-GBICs), SFP+, and XFP transceivers)
• Power supplies
• Fan tray
• Blowers (FSX 800 and FSX 1600 only)
• Air filters
Cleaning the fiber optic connectors
To avoid problems with the connection between the fiber optic module (SFP (mini-GBIC), SFP + or XFP) and the fiber cable connectors,
Brocade strongly recommends cleaning both connectors each time you disconnect and reconnect them. In particular, dust can accumulate in the connectors and cause problems such as reducing the optic launch power.
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To clean the fiber cable connectors, Brocade recommends using the fiber-optic reel-type cleaner that shipped with your chassis. You can also purchase this type of cleaner from the following Website.
http://www.fisfiber.com
When not using an SFP, SFP+ or XFP connector, make sure to keep the protective covering on.
Replacing a management module
This section provides information about the following tasks:
• Removing a management module
• Installing a new management module
This section provides instructions for removing and installing the management modules in the FSX 800 and FSX 1600 chassis.
Although the modules are dedicated and differ in size, the procedure for installing them is the same. Therefore, this section provides one procedure that applies to all modules.
Installation precautions
Note the following when removing and installing a management module:
• The management modules are dedicated, which means that you must install them in the appropriate chassis. If you attempt to install the FSX management module in the FSX 800, FSX 1600, or other Brocade chassis, the chassis and module will not function properly. Likewise, if you attempt to install the FSX 800 or FSX 1600 management module in the FSX or other
Brocade chassis, the chassis and module will not function properly.
• If your Brocade chassis has redundant management modules, you can remove one of the management modules from the chassis while the chassis is powered on and running. This does not apply to the FSX 800 and FSX 1600 with single management modules. These devices must be powered down before removing the management module.
• If your device does not have dual management modules, do not remove the management module while the chassis is powered on and running. If you attempt to remove this module while the chassis is powered on and running, all traffic being handled by the system will stop.
• Before removing and replacing an active or standby management module, you need to understand how these actions affect management module redundancy. Refer to the “Removal and replacement of a management module” section.
• You cannot mix Second and Third Generation modules together in the same device.
Removing a management module
Before removing a management module, have the following tools on hand:
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• A #2 Phillips-head or flathead screwdriver.
To remove a management module from the chassis, perform the following tasks.
1. Refer to the “Installation precautions.”
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Replacing a management module
2. If your Brocade chassis does not have redundant management modules, power down the chassis and remove the power cables from the chassis power supplies.
3. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located on the chassis front.
4. Use a #2 Phillips-head or flathead screwdriver to loosen and remove the two screws on the ends of the module.
5. Pull the card ejectors towards you, and away from the module front panel. This action unseats the module from the backplane.
6. Pull the module out of the chassis, and place in an anti-static bag for storage if desired.
7. Install a new module in the slot.
Installing a new management module
Before installing a module into the chassis, have the following on hand:
• A new management module, which you can order from Brocade.
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• A #2 Phillips-head or flathead screwdriver.
To install a new management module in the chassis, perform the following tasks.
1. Refer to the “Installation precautions” section.
2. If your Brocade chassis does not have redundant management modules, power down the chassis and remove the power cables from the chassis power supplies.
3. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located on the chassis front.
4. Remove the new management module from its packaging.
5. Insert the module into the chassis slot as shown in the figures below and slide the card along the card guide until the ejectors on either side of the module move close to the module front panel.
6. Push the ejectors toward the center of the module. This action will fully seat the module in the backplane.
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Replacing a management module
7. Use a #2 Phillips-head or flathead screwdriver to tighten the two screws at either end of the management module’s front panel.
FIGURE 46
Installing a management module in the FSX 800 chassis
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1.
Management module
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FIGURE 47
Installing a management module in the FSX 1600 chassis
Replacing a management module
1.
Management module
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Replacing a switch fabric module (FSX 800 and FSX 1600 only)
Replacing a switch fabric module (FSX 800 and FSX
1600 only)
This section provides information about the following tasks:
• Removing a switch fabric module
• Installing a new switch fabric module
NOTE
The switch fabric module is dedicated, which means that you must install it in the FSX 800 or FSX 1600 chassis only. If you attempt to install the switch fabric module in the FSX or another Brocade chassis, the chassis and module will not function properly.
Removing a switch fabric module
You can remove a switch fabric module from the chassis while it is powered on and running.
Before removing a switch fabric module from the chassis, have the following on hand:
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• A #2 Phillips-head or flathead screwdriver.
To remove a switch fabric module from the chassis, perform the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
2. Use a #2 Phillips-head or flathead screwdriver to loosen and remove the two screws on the ends of the module.
3. Pull the card ejectors towards you and away from the module front panel. This action unseats the module from the backplane.
4. Pull the module out of the chassis, and place in an anti-static bag for storage if desired.
5. Install a new module in the slot as instructed in the following section.
Installing a new switch fabric module
You can install a switch fabric module in the chassis while it is powered on and running.
Before installing a switch fabric module into the chassis, have the following on hand:
• A new switch fabric module, which you can order from Brocade.
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis front.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• A #2 Phillips-head or flathead screwdriver.
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Replacing a switch fabric module (FSX 800 and FSX 1600 only)
To install a new switch fabric module in the chassis, perform the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
2. Remove the new switch fabric module from its packaging.
3. Insert the module into the chassis slot as shown in the figures below and slide the card along the card guide until the ejectors on either side of the module move close to the module front panel.
4. Push the ejectors toward the center of the module. This action will fully seat the module in the backplane.
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Replacing a switch fabric module (FSX 800 and FSX 1600 only)
5. Use a #2 Phillips-head or flathead screwdriver to tighten the two screws at either end of the switch fabric module’s front panel.
FIGURE 48
Installing a switch fabric module in the FSX 800
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1.
Switch Fabric module
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FIGURE 49
Installing a switch fabric module in the FSX 1600
Replacing a switch fabric module (FSX 800 and FSX 1600 only)
1.
Switch Fabric module
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Replacing an interface module
Replacing an interface module
You can remove an interface module and replace it with a new one while the chassis is powered on and running.
NOTE
Interface modules are interchangeable among all FastIron X Series devices. However, if you install them in a Brocade device other than a FastIron X Series device, the device and interface modules will not function properly.
This section provides information about the following tasks:
• General precautions
• Removing an interface module
• Installing a new interface module
Precautions
Note the following when removing and replacing Interface modules:
• It is not mandatory to disable a module before removing it from the chassis, and chances of the chassis rebooting (reloading the software) as a result of module removal are very minimal.
• You do not need to enable an interface module after inserting it in the chassis. The FastIron X Series chassis device automatically enables the module when you insert it into a live chassis or when you power on the chassis.
• You cannot mix IPv4 and IPv6 modules together in the same chassis.
• You cannot mix the second and third generation interface modules in the same chassis.
• The software does not allow simultaneous insertion of multiple interface modules. After inserting an interface module, wait a few seconds before inserting the next module. If you attempt to insert modules one right after the other, the system will display an error message.
• If you plan to replace the removed module with a different type of module, you must remove the module configuration. To do so, enter the
no module
slotnum
command at the global CONFIG level of the CLI. If you attempt to insert a module of a different type without first removing the previous module configuration, the system will display an error message.
Before removing an interface module
Before physically removing an interface module, Have the following tools on hand:
• – An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• – A #2 Phillips-head or flathead screwdriver.
NOTE
It is recommended that modules be disabled through the CLI before removal from the chassis. If the operator wishes to remove the module without first disabling the module, the Enhanced Hot Swap capability in software Release 03.2.00 and later supports this procedure for the FSX 800 and FSX 1600 chassis. Enhanced Hot Swap (that is,
no CLI disable
) should be performed during a maintenance window. On rare occasions, an Enhanced Hot Swap may result in a software reload of the system. The likelihood of this event is very low. It is important to wait a minimum of 10 seconds between the removal and insertion of a line module. Re-insertion of a line module less than 10 seconds after the removal of a line module may result in the line module not being properly recognized.
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Replacing an interface module
Removing an interface module
To remove an interface module, first perform the steps in section
Before removing an interface module on page 128, then complete the
following steps.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
2. Use the #2 Phillips-head or flathead screwdriver to loosen the two screws on the ends of the module.
3. Pull the card ejectors towards you, and away from the module front panel. This action unseats the module from the backplane.
4. Pull the module out of the chassis, and place in an anti-static bag for storage if desired.
5. If you plan to replace the removed module with a different type of module, you must first remove the module configuration. To do so, enter the
no module
slotnum
command at the global CONFIG level of the CLI, then save the configuration to flash memory. For example, device(config)# no module 4 device(config)# exit device# write mem
NOTE
If you attempt to insert a module of a different type without first removing the previous module configuration, the system will display an error message.
6. Install a new module in the slot. For information about performing this task, refer to
Installing a new interface module
on page
129.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
Installing a new interface module
You can install an interface module in the FSX 800 and FSX 1600 chassis while the chassis is powered on and running.
NOTE
Interface modules are interchangeable among all FastIron X Series devices. However, if you install them in a Brocade device other than a FastIron X Series device, the device and interface modules will not function properly.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• A #2 Phillips-head or flathead screwdriver.
To install a new interface module in the chassis, perform the following tasks.
1. Follow the preparation procedure in the section Before removing an interface module
on page 128.
2. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
3. Remove the module from its packaging.
4. Insert the module into the chassis slot as shown in the figures below, and slide the card along the card guide until the ejectors on either side of the module move close to the module front panel.
5. Push the ejectors in toward the center of the module. This action will fully seat the module in the backplane.
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Replacing an interface module
6. Use a #2 Phillips-head or flathead screwdriver to tighten the two screws at either end of the module front panel.
NOTE
You do not need to enable an interface module after inserting it in the chassis. The FastIron X Series chassis device automatically enables the module when you insert it into a live chassis or when you power on the chassis.
FIGURE 50
Installing an interface module in the FSX 800 chassis
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1.
Interface module
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FIGURE 51
Installing an interface module in the FSX 1600 chassis
Replacing an interface module
1.
Interface module
Disabling and re-enabling an interface module
NOTE
This section does not apply to the active management module. The
disable module
and
enable module
commands are not applicable to the active management module. If you attempt to remove the management module while the chassis is powered on and running, all traffic being handled by the system will stop.
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Replacing a copper or fiber optic module
Before removing an interface module from the chassis while the chassis is powered on and running, disable the module first. Disabling the module before removing it prevents a brief service interruption on other forwarding modules. The brief interruption can be caused by the chassis re-initializing other modules in the chassis when you remove an enabled module.
To disable a module, enter a command such as the following at the Privileged EXEC level of the CLI.
device# disable module 3
This command disables the module in slot 3.
Syntax: disable module
slot-num
The
slot-num
variable specifies a valid slot number.
If you decide after disabling a module that you do not want to remove the module, re-enable the module using the following command.
device# enable module 3
Syntax: enable module
slot-num
Replacing a copper or fiber optic module
You can remove an SFP, SFP + or XFP from a port and replace it with a new one while the chassis is powered on and running.
This section provides information about the following tasks:
• Removing a copper or fiber optic module
• Installing a new copper or fiber optic module
• Cabling a fiber optic module
Removing a copper or fiber optic module
You can remove a copper or fiber SFP (also called a mini-GBIC), SFP + or an XFP from a port while the chassis is powered on and running.
Before removing a copper or fiber optic module, have the following on hand:
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
• The protective covering that you removed from the copper or fiber optic module when you initially installed the module.
To remove a copper or fiber optic module from a Gigabit Ethernet or 10-Gigabit Ethernet port, perform the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
2. Disconnect the copper or fiber cable connectors from the port connectors.
3. Insert the protective covering into the port connectors.
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4. Pull the copper or fiber optic module out of the port by pulling the bail latch forward, away from the front panel of the module.
This unlocks the module from the front panel.
1.
Bail Latch
NOTE
The bail latch may be attached to either the top or the bottom of the mini-GBIC.
5. Grasping the bail latch, pull the copper or fiber optic module out of the port
6. Store the copper or fiber optic module in a safe, static-free place or in an anti-static bag.
7. Install a new copper or fiber optic module in the port.
Installing a new copper or fiber optic module
You can install a new copper or fiber optic module (SFP, SFP + or XFP transceiver) in a port while the chassis is powered on and running.
NOTE
Some older SFP modules (mini-GBICs for Gigabit Ethernet ports) have latching mechanisms which are larger than the newer parts. These latches could interfere with one another when inserted side by side into an interface module. Avoid using these mini-GBICs side by side in the same module. These older modules are identified by the number PL-XPL-00-S13-22 or PL-
XPL-00-L13-23 above the Serial Number. All newer mini-GBICs do not have this limitation.
Before installing one of these modules into the port, have the following on hand:
• A new copper or fiber SFP, SFP + or an XFP transceiver, all of which you can order from Brocade.
• An ESD wrist strap with a plug for connection to the ESD connector on the chassis.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
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Installing or replacing a power supply
To install a copper or fiber optic module, perform the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front.
2. Remove the new module from its protective packaging.
3. Gently insert the copper or fiber optic module into the port until the module clicks into place. The module is keyed to prevent incorrect insertion.
Cabling a fiber optic module
To cable a fiber optic module, perform the following tasks.
1. Remove the protective covering from the fiber-optic port connectors and store the covering for future use.
2. Before cabling a fiber optic module, Brocade strongly recommends cleaning the cable connectors and the port connectors. For more information, refer to
Cleaning the fiber optic connectors
on page 119.
3. Gently insert the cable connector or connectors (a tab on each connector should face upward) into the port connector or connectors until the tabs lock into place.
4. Observe the link and active LEDs to determine if the network connections are functioning properly. For more information about the LED indicators, refer to
on page 92.
Installing or replacing a power supply
DANGER
Before beginning the installation, see the precautions in “Power precautions.”
This section provides information about the following topics:
• Determining which power supply has failed, if necessary
• Replacing an AC power supply
• Replacing a DC power supply
• Connecting power to the chassis
• Verifying proper operation
Determining which power supply failed
To determine which power supply has failed, enter the following command at any CLI command prompt.
device
# show chassis
This command displays status information for the power supplies, as well as information for the fans, and temperature readings for various components in the chassis. The power supplies are numbered in the display. "Power 1" indicates the power supply installed in power supply slot 1, "power 2" indicates the power supply installed in slot 2, and so on. The two figures below show the power supply slot numbers.
If the display indicates "Installed (Failed)" for any of the slots, the power supply installed in that particular slot has failed.
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FIGURE 52
Power supply placement in the FSX 800
FIGURE 53
Power supply placement in the FSX 1600
Installing or replacing a power supply
Removing an AC power supply
You can order a new AC power supply from Brocade Communication Systems, Inc.
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Installing or replacing a power supply
The procedures for removing an AC power supply differ depending on the power supply type (replacement or original). Be sure to refer to the appropriate procedures in this section. For the differences between replacement and original power supplies, refer to the
“Replacement power supplies” section.
The power supplies are hot swappable, which means they can be removed and replaced while the chassis is powered on and running.
CAUTION
Remove the power cord from a power supply before you install it in or remove it from the device. Otherwise, the power supply or the device could be damaged as a result. (The device can be running while a power supply is being installed or removed, but the power supply itself should not be connected to a power source.)
NOTE
Disabling or removing a POE power supply also disables the POE daughter card and associated POE ports.
Removing a replacement power supply
To remove a replacement AC power supply, you need a Phillips-head or a flathead screwdriver.
The following illustration shows the replacement power supplies.
1.
Latch retaining screw 2.
Latch retaining screw
To remove a replacement AC power supply, perform the following tasks.
1. Disconnect the power supply’s power cord from the wall outlet.
2. Disconnect the power cord from the chassis rear panel.
3. Use a Phillips-head or flathead screwdriver to loosen the latch retaining screw in the front upper right corner of the power supply. Once the screw is loosened, the latch will spring gently forward and down.
4. Gently pull on the power supply latch until the power supply is removed from the chassis.
5. Install a new power supply in the slot. For information about performing this task, refer to the “Installing a new power supply” section.
Removing an original power supply
The following illustration shows the original power supplies.
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Installing or replacing a power supply
To remove an original AC power supply, perform the following tasks.
1. Disconnect the power supply’s power cord from the wall outlet.
2. Disconnect the power cord from the chassis rear panel.
3. Release the latch on the front of the power supply to unlock the power supply from its position in the chassis:
• – Locate the 1/2 in tab (latch release) on the bottom center of the front of the power supply.
– Firmly press on the latch release.
– The latch should spring open.
– Gently push the latch to the right.
4. Gently pull on the power supply latch until the power supply is removed from the chassis.
5. Install a new power supply in the slot. For information about performing this task, refer to the “Installing a new power supply” section.
Removing a DC power supply
You can order a new DC power supply from Brocade Communication Systems, Inc.
The power supplies are hot swappable, which means they can be removed and replaced while the chassis is powered on and running.
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Installing or replacing a power supply
CAUTION
Remove the power cord from a power supply before you install it in or remove it from the device. Otherwise, the power supply or the device could be damaged as a result. (The device can be running while a power supply is being installed or removed, but the power supply itself should not be connected to a power source.)
To remove a DC power supply, perform the following tasks.
1. Disconnect the wires to your DC power source.
2. Use a flat-blade screwdriver to remove the two screws holding the transparent cover over the power supply lugs.
FIGURE 54
DC power supply
138
1.
Screws holding power lugs
3. Use a Phillips-head screwdriver to remove each of the power lugs.
4. Remove both wires from the power lugs.
2.
Screws holding transparent cover
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Installing or replacing a power supply
5. Release the latch on the front of the power supply to unlock the power supply from its position in the chassis:
• – Locate the 1/2 in tab (latch release) on the bottom center of the front of the power supply
– Firmly press on the latch release
– The latch should spring open
– Gently push the latch to the right
6. Carefully remove the power supply from the chassis.
7. Install a new power supply in the slot. For information about performing this task, refer to “Installing a new power supply” section.
Installing a new power supply
You can order a new power supply from Brocade Communication Systems, Inc.
The procedures for installing a power supply differ depending on the power supply type (replacement or original). Be sure to refer to the appropriate procedures in this section. For the differences between replacement and original power supplies, refer to the “Replacement power supplies” sections.
DANGER
Before beginning the installation, see the precautions in “Power precautions.”
Installing a replacement power supply
For an overview of replacement power supplies (part numbers 32014-xxx and 32016-xxx), refer to the “Replacement power supplies” section.
To install a replacement power supply, you need a Phillips-head or flathead screwdriver.
The following illustration shows the replacement power supplies.
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Installing or replacing a power supply
1.
Latch retaining screw 2.
Latch retaining screw
To install a replacement power supply, perform the following tasks.
1. Use a Phillips-head or flathead screwdriver to loosen the latch screw in the front upper right corner of the power supply. Once the screw is loosened, the latch will spring gently forward and down.
.
CAUTION
Do not attempt to install the power supply without first releasing the latch on the front of the power supply.
Attempting to install the power supply with a closed latch will result in mechanical damage to the power supply and power supply slot.
CAUTION
Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides. Never insert the power supply upside down.
3. When the power supply is almost fully seated in the chassis, press firmly on the power supply latch until it locks into place.
NOTE
Be careful when closing the latch. Your fingers could get caught or pinched between the latch and the front of the power supply.
4. When the power supply is fully seated, tighten the retaining screw as shown below.
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5. Connect power to the chassis. Refer to the “Connecting AC power to the chassis” section.
Installing or replacing a power supply
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Installing or replacing a power supply
FIGURE 55
Installing a replacement power supply
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Installing or replacing a power supply
Installing an original power supply
This section describes how to install an original power supply.
The following illustration shows the original power supplies.
NOTE
For the differences between the replacement and original power supplies, refer to the “Replacement power supplies” section.
To install an original power supply, perform the following tasks.
1. Release the latch on the front of the new power supply to unlock it:
• Locate the 1/2 in tab (latch release) on the bottom center of the front of the power supply
• Firmly press on the latch release
• The latch should spring open
• Gently push the latch to the right
CAUTION
Do not attempt to install the power supply without first releasing the latch on the front of the power supply.
Attempting to install the power supply with a closed latch will result in mechanical damage to the power supply and power supply slot.
2. Insert the new power supply into the empty power supply slot.
CAUTION
Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides. Never insert the power supply upside down.
3. When the power supply is fully seated, the power supply latch will catch onto a tab located on the right side of the power supply slot. Once the power supply is fully seated, push firmly on the power supply latch until it locks the power supply into place.
4. Connect power to the chassis. Refer to the “Connecting AC power to the chassis” section or the “Connecting DC power to the chassis” section.
Connecting AC power to the chassis
AC power is supplied though an AC power cord that is installed at the rear of the chassis.
1. At the rear of the chassis, locate the power receptacle where the power supplies have been installed.
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Installing or replacing a power supply
2. Lift the cord-retainer and connect a Brocade-supplied AC power cord to the power supply.
3. Snap the cord-retainer over the power plug to hold it in place, as illustrated below.
1.
Cord retainer
DANGER
If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country.
The mark is your assurance that the power cord can be used safely with the device.
4. Connect the power cord to the wall outlet.
5. Observe the LEDs on the power supply front panel. The AC OK and DC OK LEDs should be green (steady), which indicates the power supply is providing power to the chassis components. If it is amber or OFF, the power supply is not providing power to the chassis components. The ALM LED should be OFF.
Connecting DC power to the chassis
You can use a DC power source for the Brocade chassis. This is supported through use of a DC to DC power supply. DC power must be supplied at 48 V and 30 A.
To perform this task, you need the following items:
• Flathead screwdriver
• Phillips-head screwdriver
• #6 AWG wire (grounding wire)
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Installing or replacing a power supply
• #8 AWG wire (input wire)
• Crimping tool
To connect a DC power source, complete the following tasks.
1. Crimp #6 AWG ground wire and connect it to the ground position on the chassis. The ground position is located on the side or rear of the chassis next to the ground symbol. Refer to the illustrations in step 4 .
2. Use a flathead screwdriver to remove the two screws holding the transparent cover over the power supply lugs. The following illustration shows the location of the screws and lugs.
1.
Screws holding power lugs
3. Use a Phillips-head screwdriver to remove each of the power lugs.
2.
Screws holding transparent cover
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Installing or replacing a power supply
4. Crimp #8 AWG input wire into the power lugs and reconnect the power lugs to the power supply unit
1.
#8 AWG power supply wire
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Installing or replacing a power supply
1.
Ground 2.
DC power
5. Re-attach the transparent cover that was removed in step 1 .
6. Connect the wire to your DC power source making sure to connect the positive and negative supply wires to the correct location as marked on the power supply.
7. Observe the LEDs on the power supply front panel. The DC IN and DC OUT LEDs should be green (steady), which indicates the power supply is providing power to the chassis components. If it is amber or OFF, the power supply is not providing power to the chassis components. The ALM LED should be OFF.
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Installing or replacing a power supply
Verifying proper operation
To verify the proper operation of the power supply after power on, you can observe the LEDs on the power supply. The table below outlines the LEDs, the desired state of each LED, possible abnormal states of each LED, and what to do if an LED indicates an abnormal state.
TABLE 27
Desired and abnormal power supply LED states after system power on
LED Desired State Desired State Meaning Abnormal State
AC OK (AC supply only)
DC IN (DC supply only)
DC OUT
ON - Green (steady)
Green (steady)
ON - Green (steady)
The power supply is receiving AC power from an
AC power source
OFF
The power supply is receiving DC power from a
DC power source
OFF
The power supply is supplying DC output power to the chassis
OFF
Abnormal State Meaning or
Action
The power supply is not receiving power from an AC power source. You can do the following:
• Make sure that the power supply cord is connected securely to the wall outlet and the power supply.
• Make sure that the wall outlet is rated for 115 or
120V and 20A. If it is not, obtain a cable that is compatibly rated for the outlet.
• Make sure that the wall outlet has power.
The power supply is not receiving power from a DC power source. You can do the following:
• Make sure that the power supply cables are connected securely to the power source and the power supply.
• Make sure that the DC power source is 48VDC
@ 37.0 A.
• Make sure that the power source has power.
The power supply is not supplying DC output power to the chassis.
If this occurs and the AC
OK (AC power supply) or
DC IN (DC power supply)
LED is Green, then there is a problem with the power
148
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Part Number: 53-1003613-04
Replacing the FSX 800 fan tray
TABLE 27
Desired and abnormal power supply LED states after system power on (continued)
LED Desired State Desired State Meaning Abnormal State
ALM OFF No alarms present and the power supply is in normal operating condition.
Amber
Abnormal State Meaning or
Action supply and it must be replaced.
There is an alarm present and the power supply is malfunctioning.
Verify the AC or DC input and DC output voltages.
If a problem persists after taking action described in this table, contact Brocade’s technical support.
Displaying the status of the power supplies
You can display the status of the power supplies by entering the
show chassis
command at any level of the CLI. The display shows whether a power supply is installed in the specified power supply slot and the status of the power supply, which can be one of the following:
• OK - The power supply is functioning properly and supplying power to the chassis and installed modules.
• Failed - The power supply is not functioning and is not supplying power to the chassis and installed modules.
Replacing the FSX 800 fan tray
The fan tray in the FSX 800 chassis contains six fans and one fan control module. If any of these components fail, you must replace the entire fan tray.
NOTE
The fan tray in the FSX 800 chassis is a non-redundant, hot-swappable fan tray.
NOTE
The FSX 800 chassis should not be left running without a fan tray. This will lead to an increase in the chassis temperature, and can result in a thermal shutdown.
To replace the fan tray, you need the following:
• A new fan tray, which you can order from Brocade
• In addition to the above, you might also need a #2 Phillips-head screwdriver.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
To replace the fan tray, perform the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the lower right corner of the chassis front or use the ESD strap provided with the fan tray kit. Attach the copper tape end to a bare metal area on the chassis.
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Part Number: 53-1003613-04 149
Replacing the FSX 800 fan tray
2. The FSX 800 ships with two extra screws installed in the right side of the chassis. These screws secure the fan tray, protecting it from damage during shipment. These screws should have been removed during installation. If these screws were not removed during installation, you must remove them before replacing the fan tray. The figure below shows the location of the screws. To perform this task, you need a #2 Phillips-head screwdriver.
FIGURE 56
Removing the extra screws used for shipment
1.
Shipping screws
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Replacing the FSX 800 fan tray
3. Remove the fan tray from the chassis by pressing the fan tray latch inward, towards the center of the fan tray (refer to the figure below). While pressing the latch inward, gently pull on the handle until the fan connector unfastens from the chassis connector.
Once unfastened, pull the fan tray out of the chassis.
DANGER
Be careful not to accidently insert your fingers into the fan tray while removing it from the chassis. The fan may still be spinning at a high speed.
FIGURE 57
Removing the fan tray
1.
Fan Tray Latch
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Part Number: 53-1003613-04
2.
Fan Tray
151
Replacing the FSX 1600 fan assemblies
4. Insert the new fan tray into the fan slot and push on the latch until the face plate is flush with the chassis. Pushing the latch in seats the fan connector with the chassis connector.
5. Access the CLI, and enter the
show chassis
command to verify that the new fan is operating normally.
Replacing the FSX 1600 fan assemblies
The FSX 1600 has two fan assemblies, both accessible from the rear. Each assembly has a fan which pulls warm air out of the chassis.
You can remove and replace a fan assembly while the FSX 1600 chassis is powered on and running.
To replace the fan tray, you need the following:
• A new fan assembly, which you can order from Brocade
• An ESD strap (provided with the fan assembly kit) or an ESD wrist strap with a plug for connection to the ESD connector on the chassis.
• In addition to the above, you might also need a #2 Phillips-head screwdriver.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
To replace a fan assembly, perform the following tasks.
1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector located in the top right corner of the chassis front.
2. Using the flathead screwdriver, loosen the four captive screws that secure the fan (marked "Fan A" or "Fan B") to the back of the chassis.
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Replacing the FSX 1600 fan assemblies
3. Remove the fan from the chassis by inserting your fingers underneath the fan enclosure and pulling the enclosure toward you as shown in the figure below. Pulling the enclosure unseats the fan connector from a chassis connector.
DANGER
Be careful not to accidently insert your fingers into the fan tray while removing it from the chassis. The fan may still be spinning at a high speed.
FIGURE 58
Removing a fan assembly from the FSX 1600 chassis.
1.
Fan Assembly
4. Insert the new fan assembly into the fan slot and push the enclosure in until the face plate is flush with the chassis. Pushing the enclosure in seats the fan connector with the chassis connector.
5. Secure the fan to the chassis by tightening the four captive screws.
6. Access the CLI, and enter the
show chassis
command to verify that both fans are operating normally.
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Replacing the air filter in the FastIron SX-1600
Replacing the air filter in the FastIron SX-1600
NOTE
It is recommended that Brocade switches and routers be installed in environments that have minimal dust and airborne contaminants. If Brocade switches and routers are placed in operation in environments where dust or other airborne contaminants may be prevalent, air filters should be inspected annually and replaced if needed. Maintaining clean air filters ensures optimal airflow through the device.
FIGURE 59
Air filter removal and replacement for FastIron SX-1600.
154
1.
2.
Fan tray
Filter
3.
4.
Filter Retainer
Filter Grab-strap
Brocade FastIron SX Series Chassis Hardware Installation Guide
Part Number: 53-1003613-04
Mean time between failure
To replace the air filter in the FastIron SX-1600, perform the following tasks.
1. Loosen the captive fasteners in the front of the filter retainer.
2. Pull the filter retainer away from the chassis as shown in the figure above.
There is a hook on the back of the retainer that is attached to the grab-strap. As you pull the retainer out, the filter is pulled along with it.
3. Unhook the filter retainer from the air filter and discard the used filter.
4. Partially insert the replacement air filter (part number 11211-401) by sliding it along the metal guides.
The filter is marked with an arrow. The arrow indicates how the filter should be installed in regards to the direction of airflow in the chassis. Since air is pulled through the chassis, the arrow must point up towards the fan tray.
5. Attach the hook on the back of the filter retainer to the filter grab-strap.
6. Push the filter retainer into the chassis and tighten the captive fasteners.
Mean time between failure
The table below lists the Mean Time Between Failure (MTBF) for the
FastIron X Series
chassis devices and modules. The MTBF is the average estimated time, in units of hours, before a hardware failure may occur.
TABLE 28
MTBF for the
FastIron X Series
chassis and modules
Configuration or Module Temperature
FSX
FSX chassis + fan module + backplane
FSX chassis + fan module + backplane + one AC power supply
FSX chassis + fan module + backplane + one DC power supply
AC power supply (non-POE supply)
AC POE power supply
DC power supply
FSX Management Modules
IPv6 Management Module with 256 MB
SDRAM and no optics
IPv6 Management Module with 256 MB
SDRAM and 12 optics
IPv6 Management Module with 512 MB
SDRAM and no optics
IPv6 Management Module with 512 MB
SDRAM and 12 optics
IPv4 Management Module with no optics
IPv4 Management Module with 12 optics
SX-FI-2XGMR-XL and the SX-FI-2XGMR-XL-
PREM6 management modules
FSX 800
FSX 800 + fan module + two switch fabric modules
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
MTBF (hours)
1,003,172
269,386
272,432
368,282
139,000
374,000
292,557
211,053
287,425
208,369
287,664
152,154
506,155
230,584
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Mean time between failure
TABLE 28
MTBF for the
FastIron X Series
chassis and modules (continued)
Configuration or Module Temperature
FSX 800 + fan module + two switch fabric modules + one AC power supply
FSX 800 + fan module + two switch fabric modules + two AC power supplies
FSX 800 + one management module + fan module + two switch fabric modules + one AC power supply
FSX 800 + two management modules + fan module + two switch fabric modules + one AC power supply
FSX 1600
FSX 1600 + fan module + two switch fabric modules
FSX 1600 + fan module + two switch fabric modules + two AC power supplies
FSX 1600 + fan module + two switch fabric modules + four AC power supplies
FSX 1600 + one management module + fan module + two switch fabric modules + two AC power supplies
FSX 1600 + two management modules + fan module + two switch fabric modules + two AC power supplies
FSX 800 and FSX 1600 Management Modules
IPv6 2-port 10-GbE management module with no optics
IPv6 2-port 10-GbE management module with one optic
IPv6 2-port 10-GbE management module with two optics
IPv6 8-port GbE management module with 4 copper
IPv6 8-port GbE management module with 4 copper and four optics
IPv4 8-port GbE management module with 4 copper
IPv4 8-port GbE management module with 4 copper and four optics
IPv4 2-port 10-GbE management module with no optics
IPv4 2-port 10-GbE management module with one optic
IPv4 2-port 10-GbE management module with two optics
IPv4 management module with no ports
Interface Modules
24-port Fiber with no optics
24-port Fiber with 24 optics
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
40 ° C
156
MTBF (hours)
142,786
230,584
93,328
142,786
213,865
99,908
213,865
72,883
99,908
304,109
284,715
267,645
343,272
262,526
343,272
262,526
269,436
254,100
240,416
534,522
348,204
110,328
Brocade FastIron SX Series Chassis Hardware Installation Guide
Part Number: 53-1003613-04
TABLE 28
MTBF for the
FastIron X Series
chassis and modules (continued)
Configuration or Module Temperature
24-port Gigabit Ethernet copper without POE
24-port Gigabit Ethernet copper with POE
48-port Gigabit Ethernet copper with or without
POE
2-port 10-Gigabit Ethernet with no optics
2-port 10-Gigabit Ethernet with one XFP
2-port 10-Gigabit Ethernet with two XFPs
40 ° C
40 ° C
TBD
40 ° C
40 ° C
40 ° C
MTBF (hours)
325,103
308,283
TBD
464,938
421,084
384,789
Mean time between failure
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Brocade FastIron SX Series Technical
Specifications
This document highlights the features and specifications for the Brocade FastIron SX Series switches.
System specifications
System component
Enclosure
Power inlet
Power supplies
Fans
Cooling
System architecture
System processors
Description
FastIron SX 800 - 6U, 19-inch EIA-compliant
FastIron SX 1600 - 14U, 19-inch EIA-compliant
C20
FastIron SX 800 - One 12-volt AC power supply
FastIron SX 1600 - Two 12-volt AC power supplies
FastIron SX 800 - Six four-speed fans and a fan control module
FastIron SX 1600 - Two five-speed fans in the rear of the device
FastIron SX 800 - Six four-speed fans
FastIron SX 1600 - Six four-speed fans and two five-speed fans in the rear of the device
Nonblocking architecture
First- and second-generation: 667 MHz
Third-generation: 1.5 GHz Quad Core
Ethernet
System component
SFP GbE ports
Ethernet management port
LEDs
System component
Switch status and management
Description
FastIron SX 800 - Up to 68 10-GbE SFP+ ports and 192 FE/GbE SFP ports
FastIron SX 1600 - Up to 132 10-GbE ports and 384 FE/GbE SFP ports
10/100/1000 Ethernet out-of-band management port
Description
LEDs for power and active or standby status
Four LEDs for the two 10-GbE fiber ports (2-port 10-GbE modules only)
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Other
Other
System component
Serial cable
RJ-45 to DB9 adapter
RJ-45 connector
Description
EIA or TIA DB-9 serial cable
Console management
10/100/1000 Mbps
Weight and physical dimensions
Model
FSX 800
FSX 1600
Height
26.6 cm
10.46 in.
62.1 cm
24.46 in.
Width
48.3 cm (19 in.) including the mounting brackets
44.3 cm (17.45 in.) behind the mounting brackets
44.1 cm (17.38 in.) including the mounting brackets
43.7 cm (17.2 in.) behind the mounting brackets
Depth
49.5 cm
19.50 in.
57.3 cm
22.55 in.
Weight (fully loaded)
43.9 kg
97 lb
88.6 kg
195.70 lb
Environmental requirements
Condition
Ambient temperature
Relative humidity (noncondensing)
Altitude (above sea level)
Operational
0°C to 40°C (32°F to 104°F)
5 to 95%
Shock
Vibration
Airflow
Heat dissipation
Operating noise
3,000 meters (10,000 ft) maximum with the following power supplies:
• 32014-xxx
• 32016-xxx
2,000 meters (6,600 ft) maximum with the following power supplies:
• 32004-xxx
• 32005-xxx
• 32007-xxx
• 32008-xxx
• 32010-xxx
20 G, 6 ms, half-sine wave
0.5 G peak, 0.7 gms random, 5 to 500 Hz
762 CFM
4874 BTU/hr
50 dB maximum for power supplies with the following manufacturing part numbers:
• 32014-xxx
Non-operational
−25°C to 70°C (−23°F to 158°F)
N/A
3,000 m (10,000 ft) maximum
33 G, 11 ms, half-sine wave, 3/eg Axis
2.0 G sine, 1.4 gms random, 5 to 500 Hz
N/A
N/A
N/A
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Power consumption (maximum configuration)
Condition Operational
• 32016-xxx
65 dB maximum for power supplies with the following manufacturing part numbers:
• 32004-xxx
• 32005-xxx
• 32007-xxx
• 32008-xxx
• 32010-xxx
Non-operational
Power supply specifications (per PSU)
Input voltage Input line frequency Power supply model
SX-ACPWR-SYS with manufacturing part number 32014-xxx
SX-ACPWR-SYS with manufacturing part number 32005-xxx
SX-ACPWR-POE with manufacturing part number 32016-xxx
SX-ACPWR-POE with manufacturing part number 32007-xxx
SX-DCPWR-SYS
Maximum output power rating (DC)
1200 W
1200 W
1250 W
1080 W of total PoE output power
1250 W
1080 W of total PoE output power
1200 W
100 – 240 VAC
100 – 240 VAC
100 – 240 VAC
100 – 240 VAC
50 – 60 Hz
50 – 60 Hz
50 – 60 Hz
50 – 60 Hz
Maximum input current
16 A at 100 VAC
8 A at 200 VAC
14.3 A at 100 VAC
7.1 A at 200 VAC
16 A at 100 VAC
8 A at 200 VAC
24 A at 40 VDC
24 A at 40 VDC
SX-DCPWR-POE 1250 W
-40 to -60 VDC
48 V nominal
-40 to -60 VDC
48 V nominal
200 – 240 VAC 50 – 60 Hz
36 A at 40 VDC
14 A at 200 VAC SX-ACPWR2500-PO
E
2500 W
2160 W of total PoE output power
Maximum inrush current
30 A
30 A
30 A
30 A
45 A
45 A
30 A
Power consumption (maximum configuration)
Maximum power consumption in a fully loaded, functional chassis:
• FastIron SX 800 - 1200 W
• FastIron SX 1600 - 2050 W
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Serial port specifications (DB9)
Serial port specifications (DB9)
Pin
3
4
5
1
2
6
7
8
9
Signal
Reserved
TXD (output)
RXD (input)
Reserved
GND
Reserved
CTS (input)
RTS (output)
Reserved
Description
Reserved
Transmit data
Receive data
Reserved
Logic ground
Reserved
Clear to Send
Request to Send
Reserved
Serial port specifications (pinout RJ-45)
Pin
3
4
5
1
2
6
7
8
Signal
Not supported
Not supported
UART1_TXD
GND
GND
UART1_RXD
Not supported
Not supported
Description
N/A
N/A
Transmit data
Logic ground
Logic ground
Receive data
N/A
N/A
Serial port specifications (protocol)
Parameter
Baud
Data bits
Parity
Stop bits
Flow control
Value
9600 bps
8
None
1
None
Memory specifications
Memory
First- and second-generation
Third-generation
Size
512 MB
4 GB
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Regulatory compliance (environmental)
Regulatory compliance (EMC)
• FCC Part 15, Subpart B (Class A)
• EN 55022 (CE mark) (Class A)
• EN 55024 (CE mark) (Immunity) for Information Technology Equipment
• ICES-003 (Canada) (Class A)
• AS/NZ 55022 (Australia) (Class A)
• VCCI (Japan) (Class A)
• EN 61000-3-2
• EN 61000-3-3
• EN 61000-6-1
Regulatory compliance (safety)
• CAN/CSA-C22.2 No. 60950-1-07/UL60950-1 - Safety of Information Technology Equipment
• EN 60825-1 Safety of Laser Products - Part 1: Equipment Classification, Requirements and User’s Guide
• EN 60825-2 Safety of Laser Products - Part 2: Safety of Optical Fibre Communications Systems
• EN 60950-1, IEC 60950-1 Safety of Information Technology Equipment
Regulatory compliance (environmental)
• 2011/65/EU - Restriction of the use of certain hazardous substance in electrical and electronic equipment (EU RoHS)
• 2012/19/EU - Waste electrical and electronic equipment (EU WEEE)
• 94/62/EC - packaging and packaging waste (EU)
• 2006/66/EC - batteries and accumulators and waste batteries and accumulators (EU battery directive)
• 1907/2006 of the European Parliament and of the Council of 18 December 2006 concerning the Registration, Evaluation,
Authorisation and Restriction of Chemicals (EU REACH)
• Section 1502 of the Dodd-Frank Wall Street Reform and Consumer Protection Act of 2010 - U.S. Conflict Minerals
• 30/2011/TT-BCT - Vietnam circular
• SJ/T 11363-2006 Requirements for Concentration Limits for Certain Hazardous Substances in EIPs (China)
• SJ/T 11364-2006 Marking for the Control of Pollution Caused by EIPs (China)
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Additional pinout and signaling information
•
•
Pinout information for the console serial RJ45 management port and the 10, 100, and gigabit port is provided in the following sections.
Console (serial RJ45) management port pinouts
TABLE 29
Console serial RJ45 management port pinouts
Pin number Definition
1
2
3
4
5
6
7
8
NC
NC
UART0_TX
GND
GND
UART0_RX
NC
NC
Notes
Console Port
Console Port
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10/100 and gigabit port pinouts
10/100 and gigabit port pinouts
FIGURE 60
Pin assignment and signalling for 10/100Base-TX and 1000Base-T ports
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Cable specifications
The table below lists the specifications for the cables used with the 10/100, Gigabit, and 10-Gigabit Ethernet ports.
NOTE
Cable installation and network configuration will affect overall transmission capability. The numbers provided below represent the accepted recommendations of the various standards. For network-specific recommendations, consult your local Brocade reseller or system engineer.
TABLE 30
Cable length summary table
Cable Type
1000Base-BX-D
Connector Type Core
Diameter(microns)
9
Modal
Bandwidth(MHz*km) or Wavelength (nm)
1490 nm
Range (meters)
2 - 10000 (10km)
1000Base-BX-U
1000Base-LHA
1000Base-LHB
1000Base-LX
Single-mode Fiber
(SMF)
SMF
SMF
SMF
LC connector for SFP module
LC connector for SFP module
LC connector for SFP module
LC connector for SFP module
LC connector for SFP module
9
9
9
62.5
1310 nm
1550 nm
1550 nm
500
2 - 10000 (10km)
2 - 70000 (70km)
2 - 120000 (120km)
2 - 550
1000Base-SX
1000Base-SX 2
1000Base-T
1000Base-ZX
100Base-BX
100Base-FX-SR
100Base-FX-IR
100Base-FX-LR
Multi-mode Fiber
(MMF)
MMF
MMF
SMF
MMF
MMF
MMF
MMF
MMF
MMF
Copper
SMF
SMF
MMF
SMF
SMF
LC connector for SFP module
LC connector for SFP module
RJ-45 jack for standard unshielded twisted pair (UTP or
Category 5)
LC connector for SFP module
LC connector for SFP module
LC connector for SFP module
LC connector for SFP module
LC connector for SFP module
50
50
9
62.5/125
62.5/125
50/125
50/125
50/125
62.5
n/a
9
9
62.5
9
9
400
500
1300 nm
200
500
900
1500
2000
500 n/a
1550 nm
1310/1490
500
1310
1310
2 - 550
2 - 550
2 - 10000
.5 - 275
.5 - 550
.5 - 595
.5 - 740
.5 - 860 up to 2000 (2 km) up to 100 meters
2 - 70000 (70km)
10000 (10 km) up to 2000 (2 km) up to 15000 (15 km) up to 40000 (40 km)
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TABLE 30
Cable length summary table (continued)
100Base-TX
10GBase-CX4
10GBase-1310
10GBase-CX4
10GBase-ER
10GBase-LR
10GBase-SR
10GBase-ZR
10GBase-ZRD
Cable Type
Copper
Infiniband 4x copper
MMF
Copper
SMF
SMF
MMF
SMF
SMF
Connector Type Core
Diameter(microns)
RJ-45 jack for standard unshielded twisted pair (UTP or
Category 5)
XAUI connector
LC connector for XFP module
CX4 connector for
XFP module
LC connector for XFP module
LC connector for XFP module
LC connector for XFP module n/a n/a
9 n/a
9
9
LC connector for XFP module
LC connector for XFP module
9
62.5/125
62.5/125
50/125
50/125
50/125
9
Modal
Bandwidth(MHz*km) or Wavelength (nm) n/a
Range (meters) up to 100 meters n/a
1310 nm n/a
1550 nm
1310 nm
160
200
400
500
2000
1550 nm up to 15 up to 200 meters up to 15 meters up to 40000 (40 km)
2 - 10000
(10km)
2 - 26
2 - 33
2 - 66
2 - 82
2 - 300 up to 80000 (80 km)
1530.33 - 1561.42
nm up to 80000 (80 km)
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Regulatory Statements
•
•
•
•
•
•
•
•
•
•
CE Statement
ATTENTION
This is a Class A product. In a domestic environment, this product might cause radio interference, and the user might be required to take corrective measures.
The standards compliance label on this device contains the CE mark which indicates that this system conforms to the provisions of the following European Council directives, laws, and standards:
• Electromagnetic Compatibility (EMC) Directive 2004/108/EEC
• Low Voltage Directive (LVD) 2006/95/EC
• EN50082-2/EN55024:1998 (European Immunity Requirements)
– EN61000-3-2/JEIDA (European and Japanese Harmonics Spec)
– EN61000-3-3
China ROHS
Refer to the latest revision of the China ROHS document (P/N 53
‐
1000428
‐ xx) which ships with the product.
BSMI statement (Taiwan)
Warning:
This is Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.
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Canadian requirements
Canadian requirements
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations, ICES-003 Class A.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
China CC statement
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VCCI statement
Europe and Australia (CISPR 22 Class A Warning)
This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.
FCC warning (US only)
This equipment has been tested and complies with the limits for a Class A computing 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.
This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instruction manual, might cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at the user’s own expense.
Germany
Machine noise information regulation - 3. GPSGV, the highest sound pressure level value is 70.0 dB(A) in accordance with EN ISO
7779.
Maschinenlärminformations-Verordnung - 3. GPSGV, der höchste Schalldruckpegel beträgt 70.0 dB(A) gemäss EN ISO 7779.
KCC statement (Republic of Korea)
Class A device (Broadcasting Communication Device for Office Use): This device obtained EMC registration for office use (Class A), and may be used in places other than home. Sellers and/or users need to take note of this.
VCCI statement
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 might arise. When such trouble occurs, the user might be required to take corrective actions.
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Caution and Danger Notices
•
•
Cautions
A Caution statement alerts you to situations that can be potentially hazardous to you or cause damage to hardware, firmware, software, or data.
Ein Vorsichthinweis warnt Sie vor potenziellen Personengefahren oder Beschädigung der Hardware, Firmware, Software oder auch vor einem möglichen Datenverlust
Un message de mise en garde vous alerte sur des situations pouvant présenter un risque potentiel de dommages corporels ou de dommages matériels, logiciels ou de perte de données.
Un mensaje de precaución le alerta de situaciones que pueden resultar peligrosas para usted o causar daños en el hardware, el firmware, el software o los datos.
General cautions
CAUTION
Do not install the device in an environment where the operating ambient temperature might exceed 40°C (104°F).
VORSICHT
MISE EN GARDE
Das Gerät darf nicht in einer Umgebung mit einer Umgebungsbetriebstemperatur von über 40°C (104°F) installiert werden.
N'installez pas le dispositif dans un environnement où la température d'exploitation ambiante risque de dépasser 40°C
(104°F).
No instale el instrumento en un entorno en el que la temperatura ambiente de operación pueda exceder los 40°C (104°F).
PRECAUCIÓN
CAUTION
Make sure the airflow around the front, sides, and back of the device is not restricted.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Stellen Sie sicher, dass an der Vorderseite, den Seiten und an der Rückseite der Luftstrom nicht behindert wird.
Vérifiez que rien ne restreint la circulation d'air devant, derrière et sur les côtés du dispositif et qu'elle peut se faire librement.
Asegúrese de que el flujo de aire en las inmediaciones de las partes anterior, laterales y posterior del instrumento no esté restringido.
CAUTION
Never leave tools inside the chassis.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Lassen Sie keine Werkzeuge im Chassis zurück.
Ne laissez jamais d'outils à l'intérieur du châssis
No deje nunca herramientas en el interior del chasis.
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Cautions
CAUTION
Changes or modifications made to this device that are not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Falls dieses Gerät verändert oder modifiziert wird, ohne die ausdrückliche Genehmigung der für die Einhaltung der
Anforderungen verantwortlichen Partei einzuholen, kann dem Benutzer der weitere Betrieb des Gerätes untersagt werden.
Les éventuelles modifications apportées à cet équipement sans avoir été expressément approuvées par la partie responsable d'en évaluer la conformité sont susceptibles d'annuler le droit de l'utilisateur à utiliser cet équipement.
Si se realizan cambios o modificaciones en este dispositivo sin la autorización expresa de la parte responsable del cumplimiento de las normas, la licencia del usuario para operar este equipo puede quedar anulada.
CAUTION
Ensure that adequate ventilation is provided for the system. A 3 cm clearance is recommended above the device and 8 cm clearance is recommended on each side.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Stellen Sie sicher, dass das System ausreichend belüftet wird. Über dem Gerät wird 3 cm Freiraum, auf beiden Seiten jeweils
8 cm Freiraum empfohlen.
Assurez-vous que le circuit est correctement ventilé. Il est recommandé de conserver un espace de 3 cm au-dessus du dispositif, et de 8 cm sur chaque côté.
Asegúrese de proporcionar una ventilación adecuada al sistema. Se recomienda dejar 3 cm de espacio libre por encima del dispositivo y 8 cm a cada lado.
CAUTION
Use the erase startup-config command only for new systems. If you enter this command on a system you have already configured, the command erases the configuration. If you accidentally do erase the configuration on a configured system, enter the write memory command to save the running configuration to the startup-config file.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Verwenden Sie den Befehl
Erase startup-config
(Löschen Startup-Konfig) nur für neue Systeme. Wenn Sie diesen Befehl in ein bereits konfiguriertes System eingeben, löscht der Befehl die Konfiguration. Falls Sie aus Versehen die Konfiguration eines bereits konfigurierten Systems löschen, geben Sie den Befehl
Write Memory
(Speicher schreiben) ein, um die laufende
Konfiguration in der Startup-Konfig-Datei zu speichern.
N'utilisez la commande
erase startup-config
que pour les nouveaux systèmes. Si vous entrez cette commande sur un système que vous avez déjà configuré, elle efface la configuration. Si vous effacez la configuration par accident sur un système configuré, entrez la commande
write memory
pour enregistrer la configuration actuelle dans le fichier startup-config.
Use el comando
erase startup-config
(borrar configuración de inicio) para sistemas nuevos solamente. Si usted introduce este comando en un sistema que ya ha configurado, el comando borrará la configuración. Si usted borra accidentalmente la configuración en un sistema ya configurado, introduzca el comando
write memory
(escribir memoria) para guardar la configuración en ejecución en el archivo startup-config.
Electrical cautions
CAUTION
Use a separate branch circuit for each power cord, which provides redundancy in case one of the circuits fails.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Es empfiehlt sich die Installation eines separaten Stromkreiszweiges für jede Elektroschnur als Redundanz im Fall des Ausfalls eines Stromkreises.
Utilisez un circuit de dérivation différent pour chaque cordon d’alimentation ainsi, il y aura un circuit redondant en cas de panne d’un des circuits.
Use un circuito derivado separado para cada cordón de alimentación, con lo que se proporcionará redundancia en caso de que uno de los circuitos falle.
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Cautions
CAUTION
Ensure that the device does not overload the power circuits, wiring, and over-current protection. To determine the possibility of overloading the supply circuits, add the ampere (amp) ratings of all devices installed on the same circuit as the device. Compare this total with the rating limit for the circuit. The maximum ampere ratings are usually printed on the devices near the input power connectors.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Stromkreise, Verdrahtung und Überlastschutz dürfen nicht durch das Gerät überbelastet werden. Addieren Sie die
Nennstromleistung (in Ampere) aller Geräte, die am selben Stromkreis wie das Gerät installiert sind. Somit können Sie feststellen, ob die Gefahr einer Überbelastung der Versorgungsstromkreise vorliegt. Vergleichen Sie diese Summe mit der
Nennstromgrenze des Stromkreises. Die Höchstnennströme (in Ampere) stehen normalerweise auf der Geräterückseite neben den Eingangsstromanschlüssen.
Assurez-vous que le dispositif ne risque pas de surcharger les circuits d'alimentation, le câblage et la protection de surintensité. Pour déterminer le risque de surcharge des circuits d'alimentation, additionnez l'intensité nominale (ampères) de tous les dispositifs installés sur le même circuit que le dispositif en question. Comparez alors ce total avec la limite de charge du circuit. L'intensité nominale maximum en ampères est généralement imprimée sur chaque dispositif près des connecteurs d'entrée d'alimentation.
Verifique que el instrumento no sobrecargue los circuitos de corriente, el cableado y la protección para sobrecargas. Para determinar la posibilidad de sobrecarga en los circuitos de suministros, añada las capacidades nominales de corriente (amp) de todos los instrumentos instalados en el mismo circuito que el instrumento. Compare esta suma con el límite nominal para el circuito. Las capacidades nominales de corriente máximas están generalmente impresas en los instrumentos, cerca de los conectores de corriente de entrada.
CAUTION
Before plugging a cable into to any port, be sure to discharge the voltage stored on the cable by touching the electrical contacts to ground surface.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Bevor Sie ein Kabel in einen Anschluss einstecken, entladen Sie jegliche im Kabel vorhandene elektrische Spannung, indem
Sie mit den elektrischen Kontakten eine geerdete Oberfläche berühren.
Avant de brancher un câble à un port, assurez-vous de décharger la tension du câble en reliant les contacts électriques à la terre.
Antes de conectar un cable en cualquier puerto, asegúrese de descargar la tensión acumulada en el cable tocando la superficie de conexión a tierra con los contactos eléctricos.
CAUTION
All devices with DC power supplies are intended for installation in restricted access areas only. A restricted access area is where access can be gained only by service personnel through the use of a special tool, lock and key, or other means of security, and is controlled by the authority responsible for the location.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Alle Geräte mit DC-Netzteil sind nur für die Installation in Bereichen mit beschränktem Zugang gedacht. Ein Bereich mit beschränktem Zugang ist ein Bereich, zu dem nur Wartungspersonal mit Spezialwerkzeug, Schlüssel oder anderen
Sicherheitsvorrichtungen Zugang hat. Dieser Zugang wird von für den Bereich zuständigen Personen überwacht.
Tous les dispositifs avec bloc d'alimentation C.C. sont conçus pour l'installation dans des zones à accès réglementé uniquement. Une zone à accès réglementé est une zone dont l'accès n'est possible qu'au personnel de service utilisant un verrou, une clé ou un outil spécial, ou d'autres moyens de sécurité, et qui est contrôlée par les autorités responsables du site.
Todos los instrumentos con suministros de corriente continua han sido diseñados únicamente para instalación en áreas restringidas. Se entiende como área de acceso restringido un lugar al que solo puede acceder personal de servicio mediante el uso de una herramienta especial, llave y cerrojo u otro medio de seguridad similar, y que esté controlado por la autoridad responsable de esa ubicación.
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Cautions
CAUTION
All devices with AC power sources are intended for installation in restricted access areas only. A restricted access area is a location where access can be gained only by service personnel through the use of a special tool, lock and key, or other means of security.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Alle Geräte mit Wechselstromquellen sind nur zur Installation in Sperrbereichen bestimmt. Ein Sperrbereich ist ein Ort, zu dem nur Wartungspersonal mit einem Spezialwerkzeug, Schloss und Schlüssel oder einer anderen Schutzvorrichtung Zugang hat.
Tous les équipements dotés de sources d'alimentation électrique secteur sont destinés à être installés uniquement dans des zones à accès réglementé. Une zone à accès réglementé est une zone dont l'accès n'est possible qu'au personnel de service utilisant un verrou, une clé ou un outil spécial, ou d'autres moyens de sécurité.
Todos aquellos dispositivos con fuentes de alimentación de CA están diseñados para su instalación en zonas de acceso restringido solamente. Una zona de acceso restringido es un lugar al que sólo puede acceder personal de mantenimiento haciendo uso de una herramienta especial, una llave y un candado, o algún otro medio de seguridad.
CAUTION
Remove the power cord from a power supply before you install it in or remove it from the device. Otherwise, the power supply or the device could be damaged as a result. (The device can be running while a power supply is being installed or removed, but the power supply itself should not be connected to a power source.)
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Nehmen Sie vor dem Anschließen oder Abtrennen des Geräts das Stromkabel vom Netzteil ab. Ansonsten könnten das
Netzteil oder das Gerät beschädigt werden. (Das Gerät kann während des Anschließens oder Annehmens des Netzteils laufen. Nur das Netzteil sollte nicht an eine Stromquelle angeschlossen sein.)
Enlevez le cordon d'alimentation d'un bloc d'alimentation avant de l'installer ou de l'enlever du dispositif. Sinon, le bloc d'alimentation ou le dispositif risque d'être endommagé. (Le dispositive peut être en train de fonctionner lorsque vous installez ou enlevez un bloc d'alimentation, mais le bloc d'alimentation lui-même ne doit pas être connecté à une source d'alimentation.)
Retire el cordón de corriente del suministro de corriente antes de instalarlo o retírarlo del instrumento. De no hacerse así, el suministro de corriente o el instrumento podrían resultar dañados. (El instrumento puede estar encendido mientras se instala o retira un suministro de corriente, pero el suministro de corriente en sí no deberá conectado a la corriente).
CAUTION
The POE power supply is designed exclusively for use with the FastIron X Series POE devices. The power supply produces extensive power to support 802.3af applications. Installing the power supply in a device other than the FastIron X Series
POE will cause extensive damage to your equipment.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Das POE Stromnetz hat für die FastIron X Series POE Geräte ausschießlich aufgezeichnet. Dieses Stromnetz erzeugt umfassend Starkstrom zur Bestätigun von 802.3af Anwendungen. Ihr Anlage beschädigt wird, wenn das Stromnetz in Geräte anders als FastIron X Series POE einbauen wird.
Le bloc d'alimentation POE est conçu exclusivement pour être utilisé avec les dispositifs FastIron X Series POE. Le bloc d'alimentation produit une alimentation très importante pour prendre en charge les applications 802.3af. Si vous l'installez dans un dispositif autre que les FastIron X Series POE, il endommagera gravement votre équipement.
El suministro de corriente alterna del POE está diseñado exclusivamente para uso con los dispositivos FastIron X Series POE.
El suministro de corriente produce suficiente energía para abastecer a las aplicaciones 802.3af. Si se instala el suministro de corriente en un dispositivo que no sea el FastIron X Series POE, se producirán daños de consideración al equipo.
CAUTION
The POE+ power supply is designed exclusively for use with the FastIron X Series POE+ devices. The power supply produces extensive power to support 802.3at applications. Installing the power supply in a device other than the FastIron X
Series POE+ will cause extensive damage to your equipment.
VORSICHT Das POE+ Stromnetz hat für die FastIron X Series POE+ Geräte ausschießlich aufgezeichnet. Dieses Stromnetz erzeugt umfassend Starkstrom zur Bestätigun von 802.3at Anwendungen. Ihr Anlage beschädigt wird, wenn das Stromnetz in Geräte anders als FastIron X Series POE+ einbauen wird.
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Cautions
MISE EN GARDE
PRECAUCIÓN
Le bloc d'alimentation POE+ est conçu exclusivement pour être utilisé avec les dispositifs FastIron X Series POE+. Le bloc d'alimentation produit une alimentation très importante pour prendre en charge les applications 802.3at. Si vous l'installez dans un dispositif autre que les FastIron X Series POE+, il endommagera gravement votre équipement.
El suministro de corriente alterna del POE+ está diseñado exclusivamente para uso con los dispositivos FastIron X Series
POE+. El suministro de corriente produce suficiente energía para abastecer a las aplicaciones 802.3at. Si se instala el suministro de corriente en un dispositivo que no sea el FastIron X Series POE+, se producirán daños de consideración al equipo.
CAUTION
For the DC input circuit to the system, make sure there is a 30 amp circuit breaker, minimum -48VDC, double pole, on the input to the terminal block. The input wiring for connection to the product should be copper wire, 8 AWG, marked VW-1, and rated a minimum of 90 degrees celsius.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Für den Eingangs-Gleichstromkreis zum System ist ein 30 A, minimum -48 V DC, doppelpoliger Stromkreisunterbrecher am
Eingang zur Reihenklemme zu installieren. Bei der Eingangsverdrahtung zum Anschluss des Produkts sollte es sich um einen
8 AWG-Kupferdraht (VW-1) und einer Mindestnenntemperatur von 32° handeln.
Pour le circuit d'alimentation C.C du système, assurez-vous de la présence d'un disjoncteur de 30 ampères, minimum -48 V
C.C., double coupure, sur l'entrée vers le bloc d'alimentation. Les câbles d'alimentation pour le produit doivent être en fils de cuivre, 8 AWG (American Wire Gauge), marqués VW-1 et classés 90 degrés Celsius.
Para el circuito de entrada de CC al sistema, verifique que existe un cortacircuitos catalogado de 30 amperios, como mínimo,
-48 VCC, bipolar, en la entrada al bloque terminal. El cableado de entrada para la conexión al producto deberá ser de cable de cobre catalogado, 8 AWG, marcado con VW-1, y tener una capacidad nominal mínima para 90 grados centígrados.
CAUTION
For a DC system, use a grounding wire of at least 6 American Wire Gauge (AWG). The 6 AWG wire should be attached to an agency-approved crimp connector crimped with the proper tool. The crimp connector should allow for securement to both ground screws on the enclosure. For the Ground lug, use UL listed Panduit crimp connector, P/N LCD6-10A, and two
10-32, PPH, screws to secure crimp connector to chassis. Grounding position is located on the side of the chassis adjacent ground symbol.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Für ein Gleichstromsystem ist ein Erdungsdraht (wenigstens 6 AWG) erforderlich. Ein 6 AWGDraht muss mit dem richtigen
Werkzeug an einen zugelassenen Crimpverbinder angebracht werden. Der Crimpverbinder dient der Sicherung beider
Erdungsschrauben am Gehäuse. Benutzen Sie einen Panduit-Crimpverbinder, Teile Nr. LCD6-10A, als Erdungskabelschuh und zwei 10-32 PPH-Schrauben zum Anbringen des Crimpverbinder am das Gehäuse. Die Erdungsposition befindet sich auf der Gehäuseseite neben dem Erdungssymbol.
Pour les systèmes C.C., utilisez un fil de mise à la terre d'au moins 6 AWG (American Wire Gauge). Ce fil de 6 AWG doit être relié à un connecteur à sertissage homologué, serti avec l'outil approprié. Le connecteur à sertissage doit permettre la sécurisation aux deux vis de borne de terre sur le boîtier. Pour la patte de mise à la terre, utilisez un connecteur à sertissage
UL Panduit, P/N LCD6-10A, et deux vis 10-32, PPH pour attacher le connecteur à sertissage au châssis. La position de mise à la terre se trouve sur le côté du châssis, près du symbole de mise à la terre.
Para un sistema de CC, utilice un cable de conexión a tierra de calibre de cable norteamericano (AWG) número 6. El cable 6
AWG deberá acoplarse a un conector engarzado aprobado y engarzado con la herramienta apropiada. El conector engarzado deberá permitir el aseguramiento de ambos tornillos de conexión a tierra en el recinto. Para la lengüeta de masa, emplee un conector engarzado Panduit catalogado por UL, No de pieza LCD6-10A, y dos tornillos PPH, 10-32, para fijar el conector engarzado al chasis. La posición de la conexión a tierra está ubicada en el lado del chasis adyacente al símbolo de conexión a tierra.
CAUTION
For a Brocade AC system, use a ground wire of at least 6 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground. The connector must be crimped with the proper tool, allowing it to be connected to both ground screws on the enclosure.
VORSICHT Für ein Brocade Wechselstromsystem ist ein Erdleiter von mindestens 6 AWG (amerikanische Norm für Drahtquerschnitte) zu verwenden. An einem Ende des Erdleiters sollte ein geprüfter gecrimpter Anschluss (mit Chassis bereitgestellt) angebracht
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Danger Notices
MISE EN GARDE
PRECAUCIÓN sein. Das andere Ende sollte an der Gebäudeerdung angeschlossen werden. Der Anschluss muss mit dem richtigen
Werkzeug gecrimpt werden, so dass er an beiden Erdungsschrauben am Gehäuse angeschlossen werden kann.
Pour un système à alimentation secteur Brocade, utiliser un câble de mise à la terre de calibre AWG 6 (13 mm²) minimum. Ce fil de terre doit être équipé d'un côté d'un connecteur à sertir agréé (fourni avec le châssis), et l'autre extrémité doit être reliée à la terre du bâtiment. Ce connecteur doit être serti à l'aide de l'outil approprié afin d'être raccordé aux deux vis de mise à la terre du boîtier.
Para un sistema de CA Brocade, utilice un conductor de tierra de al menos 6 CAE (Calibre de Alambre Estadounidense,
American Wire Gauge o AWG en sus siglas en inglés). El conductor de tierra debe tener un conector rizado homologado
(suministrado con el chasis) acoplado a un extremo, y el otro extremo debe estar conectado a la tierra del edificio. El conector debe rizarse con la herramienta apropiada, de manera que se conecte a los dos tornillos de tierra del recinto.
CAUTION
If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Falls kein Modul oder Netzteil im Steckplatz installiert wird, muss die Steckplatztafel angebracht werden. Wenn ein Steckplatz nicht abgedeckt wird, läuft das System heiß.
Si vous n’installez pas de module ou de bloc d'alimentation dans un slot, vous devez laisser le panneau du slot en place. Si vous faites fonctionner le châssis avec un slot découvert, le système surchauffera.
Si no instala un módulo o un fuente de alimentación en la ranura, deberá mantener el panel de ranuras en su lugar. Si pone en funcionamiento el chasis con una ranura descubierta, el sistema sufrirá sobrecalentamiento.
CAUTION
Do not attempt to install the power supply without first releasing the latch on the front of the power supply. Attempting to install the power supply with a closed latch will result in mechanical damage to the power supply and power supply slot.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Installieren Sie die Stromversorgung erst, nachdem Sie den Kippschalter vorne am Netzteil gelöst haben. Wenn Sie versuchen, das Netzteil mit einem geschlossenen Kippschalter zu installieren, werden die mechanischen Bestandteile des
Netzteils und des Netzteilsteckplatzes beschädigt.
N'essayez pas d'installer le bloc d'alimentation sans avoir ouvert le verrou à l'avant du bloc d'alimentation. Si vous essayez d'installer le bloc d'alimentation alors que le verrou est fermé, le bloc d'alimentation et l'emplacement du bloc d'alimentation subiront des dommages mécaniques.
No intente instalar el suministro de energía sin haber primero liberado el seguro en la parte frontal del suministro de energía.
Si se intenta instalar el suministro de energía con el seguro cerrado se provocará un daño mecánico al suministro de energía y a la ranura del mismo.
CAUTION
Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides. Never insert the power supply upside down.
VORSICHT
MISE EN GARDE
PRECAUCIÓN
Beachten Sie mechanischen Führungen an jeder Seite des Netzteils, das ordnungegemäß in die Führungen gesteckt werden muss. Das Netzteil darf niemals umgedreht eingesteckt werden.
Suivez attentivement les repères mécaniques de chaque côté du slot du bloc d'alimentation et assurez-vous que le bloc d'alimentation est bien inséré dans les repères. N'insérez jamais le bloc d'alimentation à l'envers.
Siga cuidadosamente las guías mecánicas de cada lado de la ranura del suministro de energía y verifique que el suministro de energía está insertado correctamente en las guías. No inserte nunca el suministro de energía de manera invertida.
Danger Notices
A Danger statement indicates conditions or situations that can be potentially lethal or extremely hazardous to you. Safety labels are also attached directly to products to warn of these conditions or situations.
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Danger Notices
Ein Gefahrenhinweis warnt vor Bedingungen oder Situationen die tödlich sein können oder Sie extrem gefährden können.
Sicherheitsetiketten sind direkt auf den jeweiligen Produkten angebracht um vor diesen Bedingungen und Situationen zu warnen.
Un paragraphe Danger indique des conditions ou des situations potentiellement mortelles ou extrêmement dangereuses. Des labels de sécurité sont posés directement sur le produit et vous avertissent de ces conditions ou situations
Una advertencia de peligro indica condiciones o situaciones que pueden resultar potencialmente letales o extremadamente peligrosas.
También habrá etiquetas de seguridad pegadas directamente sobre los productos para advertir de estas condiciones o situaciones.
General dangers
DANGER
The procedures in this manual are for qualified service personnel.
GEFAHR
DANGER
PELIGRO
Die Vorgehensweisen in diesem Handbuch sind für qualifiziertes Servicepersonal bestimmt.
Les procédures décrites dans ce manuel doivent être effectuées par un personnel de maintenance qualifié.
Los procedimientos de este manual deben llevarlos a cabo técnicos cualificados.
GEFAHR
DANGER
Be careful not to accidently insert your fingers into the fan tray while removing it from the chassis. The fan may still be spinning at a high speed.
DANGER
PELIGRO
Die Finger dürfen nicht versehentlich in das Ventilatorblech gesteckt werden, wenn dieses vom Gehäuse abgenommen wird.
Der Ventilator kann sich unter Umständen noch mit hoher Geschwindigkeit drehen.
Faites attention de ne pas accidentellement insérer vos doigts dans le boîtier du ventilateur lorsque vous l'enlevez du châssis.
Il est possible que le ventilateur tourne encore à grande vitesse
Procure no insertar los dedos accidentalmente en la bandeja del ventilador cuando esté desmontando el chasis. El ventilador podría estar girando a gran velocidad.
Electrical dangers
DANGER
Before beginning the installation, see the precautions in “Power precautions.”
GEFAHR
DANGER
Vor der Installation siehe Vorsichtsmaßnahmen unter “Power Precautions” (Vorsichtsmaßnahmen in Bezug auf elektrische
Ablagen).
Avant de commencer l'installation, consultez les précautions décrites dans “Power Precautions” (Précautions quant à l'alimentation).
Antes de comenzar la instalación, consulte las precauciones en la sección “Power Precautions” (Precauciones sobre corriente).
PELIGRO
DANGER
High Touch Current. Earth connection essential before connecting supply.
GEFAHR
DANGER
PELIGRO
Hoher Ableitstrom. Vor Anschluss ans Netz Schutzerdung herstellen.
Courant de fuite élevé. Mise à la terre obligatoire avant la connexion de l'alimentation.
Alta tensión al tacto. La conexión a tierra es esencial antes de conectar la alimentación.
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Danger Notices
DANGER
Disconnect the power cord from all power sources to completely remove power from the device.
GEFAHR
DANGER
PELIGRO
Ziehen Sie das Stromkabel aus allen Stromquellen, um sicherzustellen, dass dem Gerät kein Strom zugeführt wird.
Débranchez le cordon d'alimentation de toutes les sources d'alimentation pour couper complètement l'alimentation du dispositif.
Para desconectar completamente la corriente del instrumento, desconecte el cordón de corriente de todas las fuentes de corriente.
DANGER
If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country. The mark is your assurance that the power cord can be used safely with the device.
GEFAHR
DANGER
PELIGRO
Falls für die Installation ein anderes Stromkabel erforderlich ist (wenn das mit dem Gerät gelieferte Kabel nicht passt), müssen
Sie sicherstellen, dass Sie ein Stromkabel mit dem Siegel einer Sicherheitsbehörde verwenden, die für die Zertifizierung von
Stromkabeln in Ihrem Land zuständig ist. Das Siegel ist Ihre Garantie, dass das Stromkabel sicher mit Ihrem Gerät verwendet werden kann.
Si l'installation nécessite un cordon d'alimentation autre que celui fourni avec le dispositif, assurez-vous d'utiliser un cordon d'alimentation portant la marque de l'organisation responsable de la sécurité qui définit les normes et régulations pour les cordons d'alimentation dans votre pays. Cette marque vous assure que vous pouvez utiliser le cordon d'alimentation avec le dispositif en toute sécurité.
Si la instalación requiere un cordón de corriente distinto al que se ha suministrado con el instrumento, verifique que usa un cordón de corriente que venga con la marca de la agencia de seguridad que defina las regulaciones para cordones de corriente en su país. Esta marca será su garantía de que el cordón de corriente puede ser utilizado con seguridad con el instrumento.
DANGER
For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor.
GEFAHR
DANGER
PELIGRO
Aus Sicherheitsgründen sollte ein EGB-Armband zum Schutz von elektronischen gefährdeten Bauelementen mit einem 1
Megaohm-Reihenwiderstand ausgestattet sein.
Pour des raisons de sécurité, la dragonne ESD doit contenir une résistance de série 1 méga ohm.
Por razones de seguridad, la correa de muñeca ESD deberá contener un resistor en serie de 1 mega ohmio.
DANGER
Risk of explosion if battery is replaced by an incorrect type. Dispose of used batteries according to the instructions.
GEFAHR
DANGER
PELIGRO
Es besteht Explosionsgefahr, wenn ein unzulässiger Batterietyp eingesetzt wird.
Verbrauchte Batterien sind entsprechend den geltenden Vorschriften zu entsorgen.
Risque d'explosion en cas de remplacement de la pile par un modèle incorrect.
Débarrassez-vous des piles usagées conformément aux instructions.
Riesgo de explosión si se sustituye la batería por una de tipo incorrecto.
Deshágase de las baterías usadas de acuerdo con las instrucciones.
GEFAHR
DANGER
Make sure that the power source circuits are properly grounded, then use the power cord supplied with the device to connect it to the power source.
Stellen Sie sicher, dass die Stromkreise ordnungsgemäß geerdet sind. Benutzen Sie dann das mit dem Gerät gelieferte
Stromkabel, um es an die Srromquelle anzuschließen.
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Danger Notices
DANGER
PELIGRO
Vérifiez que les circuits de sources d'alimentation sont bien mis à la terre, puis utilisez lecordon d'alimentation fourni avec le dispositif pour le connecter à la source d'alimentation.
Verifique que circuitos de la fuente de corriente están conectados a tierra correctamente; luego use el cordón de potencia suministrado con el instrumento para conectarlo a la fuente de corriente
DANGER
Make sure to choose the appropriate circuit device depending on the number of AC power supplies installed in the chassis.
The minimum current draw for the system is one AC power supply.
GEFAHR
DANGER
PELIGRO
Je nach Anzahl der Wechselstrom-Netzteile im Gehäuse muss das passende Stromgerät ausgewählt werden. Für die
Mindeststromentnahme für das System ist ein Wechselstrom-Netzteil erforderlich.
Assurez-vous de choisir le dispositif de circuit approprié selon le nombre de blocs d'alimentation C.A. installés dans le châssis. L'appel de courant minimum pour le système est d'un bloc d'alimentation C.A.
Verifique que elige el instrumento para circuitos apropiado dependiendo del número de suministros de energía de CC instalados en el chasis. La llamada de corriente mínima para el sistema es de un suministro de energía de CC.
Dangers related to equipment weight
DANGER
Make sure the rack housing the device is adequately secured to prevent it from becoming unstable or falling over.
GEFAHR
DANGER
PELIGRO
Stellen Sie sicher, dass das Gestell für die Unterbringung des Geräts auf angemessene Weise gesichert ist, so dass das
Gestell oder der Schrank nicht wackeln oder umfallen kann.
Vérifiez que le bâti abritant le dispositif est bien fixé afin qu'il ne devienne pas instable ou qu'il ne risque pas de tomber.
Verifique que el bastidor que alberga el instrumento está asegurado correctamente para evitar que pueda hacerse inestable o que caiga.
DANGER
Mount the devices you install in a rack as low as possible. Place the heaviest device at the bottom and progressively place lighter devices above.
GEFAHR
DANGER
PELIGRO
Montieren Sie die Geräte im Gestell so tief wie möglich. Platzieren Sie das schwerste Gerät ganz unten, während leichtere
Geräte je nach Gewicht (je schwerer desto tiefer) darüber untergebracht werden.
Montez les dispositifs que vous installez dans un bâti aussi bas que possible. Placez le dispositif le plus lourd en bas et le plus léger en haut, en plaçant tous les dispositifs progressivement de bas en haut du plus lourd au plus léger.
Monte los instrumentos que instale en un bastidor lo más bajos posible. Ponga el instrumento más pesado en la parte inferior y los instrumentos progresivamente más livianos más arriba.
DANGER
A fully populated chassis is heavy. TWO OR MORE PEOPLE ARE REQUIRED WHEN LIFTING, HANDLING, OR
MOUNTING THESE DEVICES.
GEFAHR
DANGER
PELIGRO
Ein voll bestücktes Gehäuse ist schwer. ZUM ANHEBEN, HANDHABEN ODER MONTIEREN DIESER GERÄTE SIND
MINDESTENS ZWEI PERSONEN ERFORDERLICH.
Les châssis sont lourds quand ils sont entièrement remplis. POUR SOULEVER, MANIPULER OU MONTER CES
DISPOSITIFS, DEUX PERSONNES MINIMUM SONT NÉCESSAIRES.
Un chasis muy concurrido es muy pesado. SE REQUIEREN DOS O MÁS PERSONAS CUANDO SE VAYA A ALZAR,
MANEJAR O MONTAR ESTE DISPOSITIVO.
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Part Number: 53-1003613-04 181
Danger Notices
Laser dangers
DANGER
All fiber-optic interfaces use Class 1 lasers.
GEFAHR
DANGER
PELIGRO
Alle Glasfaser-Schnittstellen verwenden Laser der Klasse 1.
Toutes les interfaces en fibres optiques utilisent des lasers de classe 1.
Todas las interfaces de fibra óptica utilizan láser de clase 1.
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