Cisco Systems 7008, 270 manual Installing a New Power Supply Module

Page 38

38

9.Use the handle to pull the power supply module from the bay.

Figure 3-3:Pulling the Power Supply Module from the Bay

10.Install the blanking panel in place of the power supply module. The device should never be run without either a blanking panel or module in any bay, as overheating may occur.

or

Install a new Power Supply module. Refer to “Installing a New Power Supply Module” on page 38 if you are installing a new Power Supply module.

Installing a New Power Supply Module

Caution: Never place your hand inside an empty card or module bay. You should never have cause to

place a hand anywhere inside the Topspin 270/Cisco SFS 7008 chassis.

To insert a power supply unit:

1.Remove the new power supply from the package.

2.Ground yourself appropriately.

3.Insert the provided power cord into the receptacle, if one is not already connected and plug it into a power-source.

The power cord receptacles are located on the back of the chassis. Each power cord receptacle controls the power supply that is closest to it (on the same end of the chassis).

4.Remove the bezel cover from the front of the switch, if you have not already done so.

5.Refer to “Removing a Power Supply Module” on page 36, if a power supply is still in the bay.

6.Remove the blanking panel from the power supply bay with a #1 phillips screwdriver, if it is still in place.

Image 38
Contents Topspin 270/Cisco SFS 7008 Hardware Guide Release Page Regulatory Notices Vii Managing Individual Components Monitoring the Topspin 270/Cisco SFS 109 FCC Statement Safety Information Electrical CautionsViii Contact Information General CautionsPage System Architecture Hot StandbyHi-Availability InfiniBand ConnectivityFlexibility HardwareNon-Blocking Architecture Diagram of the ChassisAbout the Topspin 270/Cisco SFS 7008 Chassis Fabric2Back Chassis View Chassis Slot Numbering 3Chassis Slot Numbering in Front Non-port SideConnections DimensionsPower Supplies LEDsFan Trays Management Interface ModulesMaster/Slave and Standby Roles Fabric Controller ModulesNode and Core Slots Node SlotChassis ID Module Rack AlarmLine Interface Modules LIM How the Chassis ID is UsedAdministrative Features Prepare the Site Read the Cautionary StatementsRequirements Rack Mount InstallationMount the Topspin 270/Cisco SFS 7008 Chassis in a Rack 1Install Appropriate Rack in Shelf 2Unscrew Extra Rack Ears from the Chassis 4Rack Ears Flush with Rails Attach a Serial Console Cable to a PC or Terminal Install Optional HA ComponentsConnect Management Devices Baud 9600 bps Recommended Management ConfigurationConnect an Ethernet Cable to the Ethernet Management Port Power on the Chassis 8Power Jack LocationsSFS-270config#interface mgmt-ethernet Configure Basic ConnectivityEnter the interface mgmt-ethernet command SFS-270#copy running-config startup-configAssigning an Address Dynamically About ConnectorsConnect Network Devices Connecting InfiniBand Devices Manage the SystemLaunch Chassis Manager Optional Launch the Chassis ManagerPrepare Your Device 10Web Browser Window Optional Install the Element Manager GUI About the Field Replaceable Units Power Supply ModulesAbout the Power Supply Modules Locating the Power Supply Module Removing a Power Supply ModuleAbout a Failed Power Supply Power Cord back Power Supply front Installing a New Power Supply Module 3Pulling the Power Supply Module from the BayRemoving a Fan Module Fan Tray ModulesAbout the Fan Tray Modules About a Failed Fan Tray5Loosening Captive Screws Installing a Fan Module 7Pushing Fan Module into SlotRemoving a Fabric Controller Fabric ControllersAbout the Fabric Controllers 9Loosen Captive Screws Before Removing Installing a Fabric Controller Upgrading the Controller CardRemoving a LIM Card Line Interface Management Modules LIMAbout LIM Cards 12Removing a Pinch-Type Connector 14Loosen the Captive Screws Installing a LIM Module 17Closing the LIM Module LeversRemoving a Management Interface Module Management Interface ModulesAbout Management Interface Modules About a Failed Management Interface ModuleAbout Chassis ID Modules Installing a Management Interface ModuleChassis ID Modules Removing a Chassis ID Module20Loosen the Captive Screws Installing a Replacement Chassis ID Module Upgrade all Cards in a Chassis Upgrading a Topspin 270/Cisco SFS 7008 with the CLIFile Type = Image Select Maintenance File ManagementUpgrading a Topspin 270/Cisco SFS 7008 with Element Manager Select Maintenance Boot Config 2Watching the File Copy ProgressUpgrading an Individual Controller Card Select View Device Front ViewUpgrading a Controller Card with the CLI Show the standby Controller card Upgrading Individual Node Cards Upgrading a Node Card with the CLI5Copy the .img File to Server Switch Upgrading a Node Card with Element Manager6Watching the File Copy Progress 8Disable and Enable the Node Cards Upgrading Node Cards with the Chassis Manager Upgrade a New Fabric Controller Module with the CLIUpgrading a New Fabric Controller Module SFS-270#reload no-failover SFS-270#install imageOS-image-230.imgPrimary-boot-image keyword Upgrade a New Fabric Controller Module with Element Manager Page Monitoring the Topspin 270/Cisco SFS 7008 System Interpreting the Front Panel LEDsInterpreting the System Status LED System-Wide Status LEDLocating the System-Wide Status LED Config mode diag power-supply Power Supply LEDsLocating the Power Supply LEDs Test ledInterpreting the Power Supply LEDs 3Power Supply Identify LEDFan LEDs Config mode -power-supplyConfig mode -diag fan LocationFabric Controller LEDs Module Active System Master Indicator StatusActive Master Status Indicator Interpreting the Fabric Controller LEDsInterpreting the Back Panel LEDs Management Interface Module LEDsManagement Interface Status LEDs Interpreting the Management Interface LEDsSystem Status LEDs Power Supply Module Status LEDs Fan Tray Module Status LEDsMaster Management Connection Status LED Ethernet Management Port RJ-45 connector LEDsChassis ID LEDs Interpreting the LIM Status LEDs LIM Status LEDsInfiniBand Port LEDs Interpreting the InfiniBand Port LEDs Monitoring the System with Chassis ManagerMonitor the Device Device Rear View and the Device Front View appear Page Monitor the Cards 12Chassis Manager Cards WindowMonitor the InfiniBand Ports 13Chassis Manager Ports WindowMonitor the Power Supplies 14Chassis Manager Port Properties Dialog Box15Chassis Manager Power Supplies Window Monitor the FansMonitor the Temperature 17Chassis Manager Sensors WindowMonitoring the System with Element Manager Interpreting the Summary TabInterpreting the Sensors Tab Interpreting the Power Supplies TabInterpreting the Fans Tab Monitor the System With the CLI Monitor the Power SuppliesShow power-supply Monitor the FansSFS-270#show sensor Monitor the SensorsShow sensor Page Self Tests About Diagnostic TestsLED Tests Run a Card Self-Test SFS-270#show diagnostic cardRun Card Tests SFS-270config-diag-card-11# exit SFS-270config# exit Run Chassis Tests More sysloghwiflogSFS-270#show diag chassis SFS-270config#diag chassis test standardRun a Chassis Standard Test TS270-1#show diag post Run Fan TestsRun a Self-Test on a Fan Enter the diag fan id command Run Power Supply Tests Run a LED Test on the Power SupplySFS-270config#diag power-supply Run a Self-Test on a Power SupplySFS-270#show power-supply SFS-270#show diag power-supplyRun a Rack Locator Test 100SFS-270show diag rack-locator Displaying Hardware ErrorsEnable SFS-270#show diagnostic post SFS-270#show diagnostic fru-errorSpecifications and Compliance Certifications Chassis and Management InterfaceEMC/Immunity Electrical SpecificationsSafety AcousticsProduct Markings 108 Index

270, 7008 specifications

Cisco Systems 7008,270 is a powerful model in the Cisco portfolio, showcasing cutting-edge technology aimed at meeting the demands of modern networking environments. Ideal for both enterprise and service provider applications, the 7008,270 offers exceptional flexibility, scalability, and performance.

One of the standout features of this device is its high-density interface options. The 7008,270 supports a mix of Ethernet speeds, including 1G, 10G, and 25G, enabling organizations to optimize their network infrastructure based on specific needs. This versatility provides businesses with seamless transition capabilities as they scale their operations, ensuring that they are always equipped with the right bandwidth.

In terms of performance, the Cisco 7008,270 boasts advanced processing power, allowing for swift data packet handling and reduced latency. The implementation of Enhanced IP Multicast is another key feature, which allows for efficient data delivery to multiple endpoints simultaneously. This is particularly beneficial for organizations that rely heavily on video conferencing and streaming services, as it enhances the overall quality of experience for end-users.

Additionally, the 7008,270 integrates Cisco's advanced security protocols. With features such as TrustSec and the ability to implement micro-segmentation, organizations can ensure that their data remains secure across the network. Cisco's Software-Defined Access (SD-Access) technology further simplifies network management by allowing for automated policy enforcement and enhanced visibility into network traffic.

Another notable characteristic is the seamless integration with existing Cisco platforms and software solutions. The 7008,270 works effectively with Cisco DNA (Digital Network Architecture), allowing businesses to leverage AI-driven analytics and insights to manage performance and security in real-time.

Energy efficiency is also a consideration with the 7008,270. The design includes energy-saving features, which not only reduce operational costs but also support sustainability initiatives within organizations. With an eye towards future-proofing, Cisco Systems has equipped the 7008,270 with options for software upgrades, enabling businesses to continuously enhance their capabilities without needing to replace hardware.

In conclusion, Cisco Systems 7008,270 stands out as a robust networking solution designed for scalability, security, and performance in diverse environments. Its flexibility in interface options, advanced processing power, and strong integration capabilities make it an excellent choice for organizations looking to fortify their network infrastructure and prepare for future demands.