Cisco Systems RPS 675 manual Organization, Conventions

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Preface

Organization

This guide is organized into the following chapters:

Chapter 1, “Product Overview,” is a physical and functional overview of the Cisco RPS 675 redundant power system. It describes the features, the LEDs and includes examples of how the Cisco RPS 675 could be deployed.

Chapter 2, “Installation,” contains the procedures on how to install the RPS 675 on a rack, table, or shelf, and how to connect the RPS 675 to supported devices.

Chapter 3, “Troubleshooting,” describes how to identify and resolve some of the problems that might arise when installing the switch.

Appendix A, “Technical Specifications,” lists the RPS 675 physical and environmental specifications and the regulatory agency approvals.

Appendix B, “Connector and Cable Specifications,” describes the connectors, cables, and adapters that can be used to connect to the RPS 675.

Appendix C, “Translated Safety Warnings,” contains translations in various languages for the safety warnings in this guide.

Conventions

This document uses these conventions and symbols for notes, cautions, and warnings:

Note Means reader take note. Notes contain helpful suggestions or references to materials not contained in this manual.

Caution Means reader be careful. In this situation, you might do something that could result in equipment damage or loss of data.

 

Cisco RPS 675 Redundant Power System Hardware Installation Guide

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78-15201-04

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Contents February Page Page Page N T E N T S Contents Vii Viii Cisco Limited Lifetime Hardware Warranty Terms Duration of Hardware Warranty Cisco Limited Lifetime Hardware Warranty Terms Xii Audience PurposeOrganization ConventionsStatement 1071-Warning Definition Conservez CES Informations TA Vare PÅ Disse Instruksjonene Spara Dessa Anvisningar Xix GEM Disse Anvisninger Xxi Xxii Related Publications XxiiiObtaining Documentation and Submitting a Service Request Product Overview Features Front-Panel Description LEDsOutput LED Standby/Active Button Standby/Active Button Rear-Panel Description RPS 675 Rear PanelDeployment Strategies RPS 675 Supporting One-to-One Redundancy Installation Preparing for InstallationInstallation Preparing for Installation Installation Preparing for Installation EMC Regulatory Statements Installation Preparing for Installation Statement 256-Class a Warning for Hungary Site Requirements Installing the Switch Table or Shelf-MountingRack-Mounting Tools and Equipment Required Phillips flat-head screws Attaching Brackets for 19-Inch Racks Rear Panel Forward Attaching Brackets for 24-Inch Racks Rear Panel Forward Connecting the RPS Mounting the RPS in a RackInstallation Connecting the RPS Statement 100C Connecting the AC Cable to the RPS Installation Connecting the RPS Troubleshooting Troubleshooting Technical Specifications EMC Connector and Cable Specifications Pin Designation Translated Safety Warnings Statement 17B-Overtemperature Warning 78-15201-04 78-15201-04 Statement 43-Jewelry Removal Warning 78-15201-04 Statement 48-Stacking the Chassis Warning 78-15201-04 Appendix C Translated Safety Warnings Statement 265-Redundant Power Supply Connection Warning 78-15201-04 Statement 1001-Work During Lightning Activity Statement 1004-Installation Instructions 78-15201-04 Appendix C Translated Safety Warnings 78-15201-04 Appendix C Translated Safety Warnings 78-15201-04 78-15201-04 78-15201-04 Appendix C Translated Safety Warnings 78-15201-04 Appendix C Translated Safety Warnings 78-15201-04 Statement 1017-Restricted Area 78-15201-04 78-15201-04 Statement 1019-Main Disconnecting Device 78-15201-04 Statement 1024-Ground Conductor 78-15201-04 78-15201-04 78-15201-04 Statement 1030-Equipment Installation 78-15201-04 Statement 1040-Product Disposal 78-15201-04 Statement 1073-No User-Serviceable Parts 78-15201-04 78-15201-04 78-15201-04 78-15201-04 Numerics IN-2 IN-3 IN-4

RPS 675 specifications

The Cisco Systems RPS 675, or Redundant Power System 675, is a high-performance power supply solution designed to enhance the reliability and availability of network equipment in critical data center environments. This redundant power system supports the continuous operation of Cisco switches, routers, and other devices, ensuring that organizations can maintain their network uptime even in the event of a power failure or disruption.

One of the standout features of the RPS 675 is its ability to provide backup power to multiple Cisco devices. It can be connected to up to six compatible devices simultaneously, offering flexibility and scalability for various network architectures. This centralized power management not only reduces the need for multiple power sources but also simplifies the deployment of backup power solutions across the network.

In terms of technology, the RPS 675 incorporates advanced power management capabilities. It features an intelligent power distribution system, which optimally allocates power based on the requirements of connected devices. This ensures that critical devices receive the necessary power without overloading the system, enhancing overall energy efficiency. The system supports a wide range of input voltage options, making it suitable for various environments worldwide.

Another key characteristic of the RPS 675 is its compact design. The unit is engineered to fit into standard 19-inch racks, making it suitable for installation in both small and large data center environments. Its modular design allows for easy expansion and maintenance, ensuring that organizations can adapt their power needs as they grow.

The RPS 675 also boasts robust monitoring and management features. It includes an integrated web interface that provides real-time visibility into the power status of connected devices, as well as alerts for any potential issues. This proactive monitoring capability allows IT administrators to quickly identify and address power-related problems before they lead to network outages.

Overall, the Cisco Systems RPS 675 is an essential component for organizations requiring reliable and efficient power solutions for their networking equipment. With its multiple-device support, intelligent power management, compact design, and robust monitoring features, it stands out as a strategic investment for enhancing network resilience and operational continuity in today’s increasingly digital landscape.