AT-RPS3000 Redundant Power Supply AT-RPS3000 AT-PWR250 AT-PWR800 AT-PWR1200 2179 Installation Guide 613-001498 Rev.
Copyright 2011 Allied Telesis, Inc. All rights reserved. No part of this publication may be reproduced without prior written permission from Allied Telesis, Inc. Allied Telesis and the Allied Telesis logo are trademarks of Allied Telesis, Incorporated. All other product names, company names, logos or other designations mentioned herein are trademarks or registered trademarks of their respective owners. Allied Telesis, Inc.
Electrical Safety and Emissions Standards This product meets the following standards. U.S. Federal Communications Commission Radiated Energy Note: This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Translated Safety Statements Important: The indicates that translations of the safety statement are available in the PDF document “Translated Safety Statements” posted on the Allied Telesis website at www.alliedtelesis.com.
Contents Preface ............................................................................................................................................................ 11 Document Conventions .................................................................................................................................... 12 Where to Find Web-based Guides ................................................................................................................... 13 Contacting Allied Telesis .
Contents Installing the AT-RPS3000 Chassis in an Equipment Rack.............................................................................. 58 Installing a Power Supply Module ..................................................................................................................... 61 Connecting the AT-RPS3000 Chassis to the x610 Series Switch ....................................................................65 Powering On the Power Supply Modules ............................................
Figures Figure 1: LED Panel .............................................................................................................................................................16 Figure 2: Slots A and B for the Power Supply Modules........................................................................................................17 Figure 3: Slot A and RPS 1 and 2 Ports .............................................................................................................................
Figures Figure 50: Raising the Power Cord Retaining Clip ...............................................................................................................69 Figure 51: Connecting the AC Power Cord...........................................................................................................................70 Figure 52: Lowering the Power Cord Retaining Clip.............................................................................................................
Tables Table 1: Power Supply Modules ..........................................................................................................................................19 Table 2: Valid and Invalid Power Supply Combinations in the AT-RPS3000 Chassis ........................................................20 Table 3: Low-power and High-power Switches ..................................................................................................................
Tables 10
Preface This guide contains the installation instructions for the AT-RPS3000 Chassis. The chassis is a modular power supply system for the x610 Series of Layer 3 Gigabit Ethernet switches.
Preface Document Conventions This document uses the following conventions: Note Notes provide additional information. Caution Cautions inform you that performing or omitting a specific action may result in equipment damage or loss of data. Warning Warnings inform you that performing or omitting a specific action may result in bodily injury.
AT-RPS3000 Redundant Power Supply Installation Guide Where to Find Web-based Guides The installation and user guides for all of the Allied Telesis products are available for viewing in portable document format (PDF) from our web site at www.alliedtelesis.com/support/documentation.
Preface Contacting Allied Telesis This section provides Allied Telesis contact information for technical support and for sales and corporate information. Online Support You may request technical support online by accessing the Allied Telesis Knowledge Base: www.alliedtelesis.com/support. You may use the Knowledge Base to submit questions to our technical support staff and review answers to previously asked questions.
Chapter 1 Overview This chapter contains the following sections: “Features” on page 16 “Power Supply Modules” on page 19 “System Power and Power for PoE+” on page 21 “Low-power and High-power Switches” on page 24 “Configuration Examples” on page 25 “Choosing a Power Supply Module” on page 36 “LEDs” on page 42 “On/Off Power Switches” on page 47 “Guidelines” on page 48 15
Chapter 1: Overview Features The AT-RPS3000 Chassis is a modular power supply system for the x610 Series of Layer 3 Gigabit Ethernet switches. It protects the switches from power supply failures and provides additional PoE+ power. The chassis can support two or four x610 Series switches, depending on the switch model. It has two slots for power supply modules, an LED panel for viewing the status of the power modules, and four RPS connectors.
AT-RPS3000 Redundant Power Supply Installation Guide Power Supply Slots The slots on the back panel of the chassis are for two power supply modules. The slots are labeled A and B. A B 1 3 SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 2166 Slot A Slot B Figure 2. Slots A and B for the Power Supply Modules Note The chassis is shipped from the factory with a blank panel over the power supply slots.
Chapter 1: Overview RPS 3 and 4 ports obtain power from the power supply module in slot B. A B 1 3 SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 2166 Slot B RPS 3 and 4 ports Figure 4. Slot B and RPS 3 and 4 Ports The ports are labeled System and PoE+/System ports. The System ports provide system power to x610 Series switches, but not PoE+ power. You may use these ports to deliver system power to PoE+ and non-PoE+ switches.
AT-RPS3000 Redundant Power Supply Installation Guide Power Supply Modules This table lists the power supply modules that are currently available for the AT-RPS3000 Chassis and PoE+ x610 Series switches. One module supplies only system power to the x610 Series switches and two modules provide system power and PoE+ power. Table 1. Power Supply Modules Power Source Power Supply Module AC System power only. AC System power plus 480W for PoE+. AC System power plus 780W for PoE+.
Chapter 1: Overview The power supply modules for the AT-RPS3000 Chassis and PoE+ x610 Series switches must be purchased separately. Non-PoE+ x610 Series switches come with non-removable power supply modules. Note The AT-PWR800 and AT-PWR1200 Modules are compatible with non-PoE+ x610 Series switches. They may be used in the AT-RPS3000 Chassis to provide active system power to non-PoE+ switches. The chassis has slots for two power supply modules. You may install one or two modules.
AT-RPS3000 Redundant Power Supply Installation Guide System Power and Power for PoE+ Although the product name contains the acronym “RPS,” which stands for “redundant power supply,” the AT-RPS3000 Chassis actually functions as the active, primary source of system power for some of the switches in the x610 Series. For others it functions both as a redundant source of system power and as an active source of additional PoE+ power.
Chapter 1: Overview Removable Power Supply (PoE+ Switches) WARNING This unit m electric sho unit. 100-240 VAC~5A MAX WARNING This unit ma electric shoc unit. POWER SUPPLY POWER SUPPLY AT-PWR800 DC OUT FAULT 100-240 VAC~12A MAX 2158 Non-removable Power Supply (non-PoE+ Switches) Figure 6.
AT-RPS3000 Redundant Power Supply Installation Guide PoE+ power is different in that the power supplies in the switch and chassis do use load-sharing to provide power to the powered devices. This assumes, of course, that both supplies have PoE+ power. So, in essence, the AT-RPS3000 Chassis performs two roles for PoE+ switches.
Chapter 1: Overview Low-power and High-power Switches The x610 Series switches are grouped into two categories of system power, which, as explained earlier, refers to the power required to run all switching and hardware functions, except for PoE+. The switch categories are low-power and high-power. The basic rule is that switches that have 24 ports are low-power devices while units that have 48 ports are highpower units. An exception is the 24-port AT-x610-24SPs/X Switch, which is a high-power device.
AT-RPS3000 Redundant Power Supply Installation Guide Configuration Examples The following examples illustrate different configurations of the chassis, switches, and power supply modules. In the first example, the AT-RPS3000 Chassis, with one power supply module in slot A, is supporting a single low-power switch, connected to the RPS 1 System port. (The RPS 3 System and RPS 4 PoE+/System ports do not have power because slot B is empty.
Chapter 1: Overview AT-RPS3000 Chassis with One Power Supply AT-PNL800/1200 DC OUT AT-PWR800 A B 3 SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 RPS 2 PoE+/System Port Slot B POWER SUPPLY Slot A AT-x610-24Ts Switch (Low-power) 1 FAULT 100-240 VAC~12A MAX 100-240 VAC~12A MAX WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
AT-RPS3000 Redundant Power Supply Installation Guide The chassis must have a second power supply to support three or four low-power switches, as illustrated in the following example. The power module in slot A supports switches 1 and 2, and the module in slot B powers switches 3 and 4. The power supply modules in the chassis may be the same or different models. For instance, you might install two AT-PWR250 Modules or perhaps two AT-PWR1200 Modules.
Chapter 1: Overview The power supply modules can support just one high-power switch at a time. In the example in Figure 11 on page 28, the chassis is supporting the AT-x610-24Ts and AT-x610-48Ts Switches, with two power supply modules, one for each switch. Even though the AT-x610-24Ts Switch is a low-power unit, the AT-x610-48Ts Switch must have its own dedicated power supply module because it is a high-power device.
AT-RPS3000 Redundant Power Supply Installation Guide DC OUT A DC POWER FAULT 100-240 VAC~12A MAX B 1 100-240 VAC~12A MAX B 100-240 VAC~12A MAX MODULE B 4 RPS INPUT RPS READY WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit. POWER SUPPLY 100-240 VAC~12A MAX MODULE A WARNING This unit may have more than one power input.
Chapter 1: Overview PoE+ Switches Here is an example of the AT-RPS3000 Chassis supporting a single PoE+ switch, the AT-x610-24Ts/X-POE+ Switch. Notice that the switch is connected to RPS 2 PoE+/System port on the chassis so that it receives both system and PoE+ power from the power module in slot A. It would receive only system power if it was connected to RPS 1 System port.
AT-RPS3000 Redundant Power Supply Installation Guide RPS 2 PoE+/System Port A DC OUT DC POWER FAULT 100-240 VAC~12A MAX 3 SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 B 4 RPS 4 PoE+/System Port Slot B FAULT POWER SUPPLY AT-PWR800 DC OUT 100-240 VAC~12A MAX WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
Chapter 1: Overview AT-PNL800/1200 DC OUT A AT-PWR800 AT-RPS3000 Chassis with One Power Supply B B SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B POWER SUPPLY 100-240 VAC~12A MAX 4 Slot B Slot A WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
AT-RPS3000 Redundant Power Supply Installation Guide DC OUT DC OUT A FAULT FAULT AT-PWR800 AT-PWR800 AT-RPS3000 Chassis with Two Power Supplies 100-240 VAC~12A MAX B Switches supported by the Power Module in Slot A. POWER SUPPLY AT-x610-24Ts Switch (Low-power) PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 4 RPS INPUT RPS READY FAULT POWER SUPPLY AT-PWR800 DC OUT 100-240 VAC~12A MAX WARNING This unit may have more than one power input.
Chapter 1: Overview DC OUT A AT-PWR800 AT-RPS3000 Chassis with One Power Supply B AT-PNL800/1200 FAULT B SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B POWER SUPPLY 100-240 VAC~12A MAX WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
AT-RPS3000 Redundant Power Supply Installation Guide AT-PNL800/1200 DC OUT A AT-PWR800 AT-RPS3000 Chassis with One Power Supply B B SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B POWER SUPPLY 100-240 VAC~12A MAX WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
Chapter 1: Overview Choosing a Power Supply Module Here are a few suggestions on how to choose the power supply modules for the x610 Series switches and AT-RPS3000 Chassis. Non-PoE+ Switches You may use any of the three available power supply modules listed in Table 1 on page 19, even the two PoE+ modules, in the AT-RPS3000 Chassis to provide active system power to non-PoE+ switches. The switches may be connected to any of the four RPS connectors on the chassis.
AT-RPS3000 Redundant Power Supply Installation Guide PoE+ Switches The PoE+ switches do not come with power supplies. You must purchase them separately and install them as part of the switch’s installation procedure. The only way to determine which power module is appropriate for a PoE+ switch is to determine the amount of power the powered devices connected to the switch will require. The powered requirements of the devices can be found in their documentation.
Chapter 1: Overview AT-PNL800/1200 DC OUT A AT-PWR800 AT-RPS3000 Chassis B 1 3 FAULT 100-240 VAC~12A MAX SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 AT-PWR800 Module AT-x610-24Ts/X-POE+ Switch with powered devices requiring 480 to 960 watts WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
AT-RPS3000 Redundant Power Supply Installation Guide Two AT-PWR1200 Modules may be used for amounts above 780 watts, up to 1560 watts, but there is no redundancy for power requirements above 780 watts.
Chapter 1: Overview A DC OUT AT-PWR1200 DC OUT FAULT AT-PWR800 AT-RPS3000 Chassis 100-240 VAC~12A MAX B AT-PWR800 Module 100-240 VAC~12A MAX SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 4 WARNING This unit may have more than one power input. To reduce the risk of electric shock, disconnect both A/C and RPS inputs before servicing unit.
AT-RPS3000 Redundant Power Supply Installation Guide Table 5.
Chapter 1: Overview LEDs On the front panel of the AT-RPS3000 Chassis is an LED panel that displays status information about the power supply modules and RPS ports. 2148 LED Panel Figure 26. LED Panel Module A/B Ports LEDs A DC OUT FAULT 100-240 VAC~12A MAX AT-PWR800 DC OUT AT-PWR800 A The LEDs in the Module A Ports section of the LED panel provide information about the status of RPS ports 1 and 2, which receive their power from the power supply module in slot A.
AT-RPS3000 Redundant Power Supply Installation Guide The LEDs in the Module B Ports section provide information you may use to monitor RPS ports 3 and 4, whose power is provided by the power supply module in slot B. A DC OUT FAULT B 1 3 FAULT AT-PWR800 AT-PWR800 DC OUT 100-240 VAC~12A MAX 100-240 VAC~12A MAX SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 2157 Figure 28. Module B Ports LEDs The LEDs are described in this table. Table 6.
Chapter 1: Overview Table 6. Module A and B Ports LEDs (Continued) Power Module Status LEDs A State Description CABLE Green The RPS port is enabled and connected to an x610 Series switch, and the power supply module is powered on. Amber The RPS port is not connected to an x610 Series switch. Off This LED state indicates one of the following: DC OUT AT-PWR800 FAULT 100-240 VAC~12A MAX The RPS port is disabled. The power supply slot is empty.
AT-RPS3000 Redundant Power Supply Installation Guide Table 7 describes the Power Module Status LEDs. Table 7. Power Module Status LEDs LED State Description FAN Green The power module’s fans are operating normally. Amber One or both fans in the module have stopped or are operating below their normal operating speed. Off No power supply module is installed in the module slot. Green The DC output from the power supply module to the RPS ports is within the normal operating range.
Chapter 1: Overview Power Module LED The power modules have a DC OUT/FAULT LED, shown in Figure 30 on page 46, that displays the same information as the DC OUT LEDs on the front panel. DC OUT FAULT 100-240 VAC~12A MAX A DC OUT B 1 3 FAULT AT-PWR800 AT-PWR800 DC OUT FAULT 100-240 VAC~12A MAX 100-240 VAC~12A MAX SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 2162 Figure 30. Power Module LED Table 8 describes the Power Module LED. Table 8.
AT-RPS3000 Redundant Power Supply Installation Guide On/Off Power Switches The LED panel has On/Off switches that control the RPS ports. You may use the buttons to turn the ports on or off. When the chassis is operational, you should always turn off a port before connecting or disconnecting its RPS cable. 2207 RPS Port 1 Switch RPS Port 2 Switch RPS Port 3 Switch RPS Port 4 Switch Figure 31.
Chapter 1: Overview Guidelines Here is a summary of the rules and guidelines discussed in this chapter: Caution The AT-RPS3000 Chassis is designed specifically for the x610 Series of Layer 3 Gigabit Ethernet switches. It should not be used with any other product. 48 You may install up to two power supply modules in the chassis. The power supply module in slot A (left-hand slot as you face the rear panel) provides power to the RPS 1 System and RPS 2 PoE+/System ports.
Chapter 2 Installing the AT-RPS3000 Chassis and Power Supply Modules Here are the installation procedures for the AT-RPS3000 Chassis: “Reviewing Safety Precautions” on page 50 “Planning the Installation” on page 52 “Unpacking the AT-RPS3000 Chassis and Power Supply Modules” on page 54 “Selecting a Location for the AT-RPS3000 Chassis in the Equipment Rack” on page 57 “Installing the AT-RPS3000 Chassis in an Equipment Rack” on page 58 “Installing a Power Supply Module” on page 61 “
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules Reviewing Safety Precautions Please review the following safety precautions before installing the unit. Note The indicates that a translation of the safety statement is available in a PDF document titled “Translated Safety Statements” (613000405) posted on the Allied Telesis website at www.alliedtelesis.com. Warning: To prevent electric shock, do not remove the cover. No user-serviceable parts inside.
AT-RPS3000 Redundant Power Supply Installation Guide Circuit Overloading: Consideration should be given to the connection of the equipment to the supply circuit and the effect that overloading of circuits might have on overcurrent protection and supply wiring. Appropriate consideration of equipment nameplate ratings should be used when addressing this concern. E21 Warning: Mounting of the equipment in the rack should be such that a hazardous condition is not created due to uneven mechanical loading.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules Planning the Installation Observe these requirements when planning the installation: Verify that the equipment rack containing the x610 Series switches has adequate space for the AT-RPS3000 Chassis. For further information, refer to “Selecting a Location for the AT-RPS3000 Chassis in the Equipment Rack” on page 57. Check that the rack is safely secured and will not tip over.
AT-RPS3000 Redundant Power Supply Installation Guide Do not expose the chassis to moisture or water. Make sure the site is a dust-free environment. Use dedicated power circuits or power conditioners to supply reliable electrical power to the network devices. Do not install the device in a wiring or utility box. The device will overheat and fail from inadequate airflow.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules Unpacking the AT-RPS3000 Chassis and Power Supply Modules Refer to the tables in this section to verify the contents of the shipping containers of the AT-RPS3000 Chassis and power supply modules. Note You should retain the original packaging material in the event you need to return the unit to Allied Telesis. AT-RPS3000 Chassis The shipping container for the AT-RPS3000 Chassis should contain the components listed in this table.
AT-RPS3000 Redundant Power Supply Installation Guide Table 9. AT-RPS3000 Chassis Components Component Description One AT-PNL800/1200 Blank Panel AT-P NL8 00/1 200 2160 Blank shipping panel (preinstalled on the power supply slots on the back panel) 2189 Note The AT-RPS3000 Chassis is connected to an x610 Series switch with the AT-RPS-CBL1.0 cable. The cable must be purchased separately. You will need one cable for each x610 Series switch.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules Table 10. Power Supply Module Components (Continued) Power Supply Module Power Cord Retaining Clip Module None. AT-PWR1200 AT-PWR1200 Regional Power Cord DC OUT FAULT 100-240VAC~ 16A MAX 157 2187 Note The power cord that comes with the AT-PWR1200 Power Supply Module for installations in North America has a 20 Amp, 125 V NEMA 5-20P plug that is only compatible with an NEMA 5-20R receptacle.
AT-RPS3000 Redundant Power Supply Installation Guide Selecting a Location for the AT-RPS3000 Chassis in the Equipment Rack 7 9 11 13 15 17 19 21R 23R SFP 21 23 BUSY READY CLASS 1 LASER PRODUCT STACK STATUS MSTR L/A 1 L/A 2 PRES 4 x610-24Ts-POE+ 6 3 8 5 10 7 12 9 14 11 16 13 18 15 20 17 22R 19 23R SFP 23 1000 / 100 24 21 FAULT MASTER RPS PWR 24 1000 / 100 22 24R 21R BUSY STATUS FAULT MASTER RPS PWR 1 2 L/A 10 12 7 14 9 11 16 18 13 15 20 2
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules Installing the AT-RPS3000 Chassis in an Equipment Rack Perform this procedure to install the chassis in a 19-inch equipment rack.
AT-RPS3000 Redundant Power Supply Installation Guide 3. Turn the chassis over. 4. Using a cross-head screwdriver, secure the two rack mount brackets to the sides of the unit using the twelve bracket screws included with the unit. The illustration shows the only way in which the brackets may be positioned on the chassis. 2182 Figure 37. Attaching the Equipment Rack Brackets 5. Have another person hold the unit in the equipment rack while you secure it using standard screws (not provided).
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules Note The chassis and x610 Series switches must be within one meter of each other in the equipment rack to accommodate the AT-RPS-CBL1.0 cables. 6. Go to “Installing a Power Supply Module” on page 61.
AT-RPS3000 Redundant Power Supply Installation Guide Installing a Power Supply Module To install a power supply unit module in the chassis, perform this procedure: 1. Using a cross-head screwdriver, remove the three screws that secure the blank shipping panel, from the back panel of the chassis. A A B 1 2 SYS TEM B PoE + / SYS TEM 3 SYS TEM MODU LE A PoE + / SYS TEM 4 MODU LE B 2167 Figure 39. Removing the Blank Shipping Panel from the Back Panel 2.
100-2 40 VAC~ 5A MAX A A A A AT-PWR800 AT-PWR250 Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules DC OUT FAUL T 100-2 40 VAC~ 12A AT-PWR250 Module MAX DC OUT FAUL T AT-PWR800 Module A AT-PWR1200 A 100-2 40 VAC~ 16A MAX DC OUT FAUL T 2152 AT-PWR1200 Module Figure 40. Installing a Power Supply Module Caution Do not connect the power cord to the module until after you have installed the module in the chassis.
AT-RPS3000 Redundant Power Supply Installation Guide 3. Secure the module to the chassis by tightening the two captive screws. AT-PWR800 A 100-2 40 VAC~ 12A MAX DC OUT FAU LT A B 1 2 SYS TEM B PoE + / SYS 3 SYS TEM MODU TEM LE A PoE 4 + / SYS MODU TEM LE B 2176 Figure 41. Securing a Power Supply Module 4.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules 6. If the unit is to have only one power supply module, cover the empty slot with one of the slot covers, labelled AT-PNL250 and AT-PNL800/ 1200, provided with the unit, as shown in Figure 43 on page 64. The faceplates of the power supply modules and slot covers are keyed so that the slot cover has to correspond to the power supply module you installed in the unit.
AT-RPS3000 Redundant Power Supply Installation Guide Connecting the AT-RPS3000 Chassis to the x610 Series Switch Perform this procedure to connect the AT-RPS3000 Chassis to the x610 Series switch, with the AT-RPS-CBL1.0 cable: Note The AT-RPS-CBL1.0 cables must be purchased separately. 1. Connect one end of the RPS cable to the RPS Input connector on the back panel of the switch. Caution Be sure to connect the RPS cable squarely and evenly on the connector on the switch.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules 100- 240 VAC ~12A MAX DC POW ER FAU LT POWER SUPPLY AT-PWR800 2. Secure the cable to the switch by tightening the two thumbscrews. WAR NING This unit may elect have ric unit. shock, discomore than one nnec t both power A/C and input. RPS To reduce RPS inputs the INPU before risk of T servicing RPS REA DY STA CKING 2133 Figure 46. Securing the AT-RPS-CBL1.
AT-RPS3000 Redundant Power Supply Installation Guide 4. Connect the AT-RPS-CBL1.0 cable to the designated RPS port on the back panel of the AT-RPS3000 Chassis. Caution Be sure to connect the RPS cable squarely and evenly on the connector on the chassis. Attaching the connector at an angle may cause an electrical short that might damage the device.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules 5. Secure the cable to the port by tightening the two thumbscrews. AT-PWR800 A 100-2 40 VAC~ 12A MAX DC OUT FAU LT AT-PWR800 A 100-2 40 VAC~ 12A MAX DC OUT FAU LT B 1 2 SYSTE M B PoE + / SY STE M MODU LE A 3 SYSTE M PoE 4 + / SY STE M MODU LE B 2146 Figure 49. Securing the AT-RPS-CBL1.0 Cable to the AT-RPS3000 Chassis 6. Repeat this procedure to connect additional x610 Series switches to the AT-RPS3000 Chassis.
AT-RPS3000 Redundant Power Supply Installation Guide Powering On the Power Supply Modules Perform this procedure to power on the power supply modules in the AT-RPS3000 Chassis: 1. For the AT-PWR250 or AT-PWR800 Module, raise the power cord retaining clip on the power supply module.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules AT-PWR800 A 100- 240 VAC ~12A MAX DC OUT FAU LT AT-PWR800 A 100- 240 VAC ~12A MAX DC OUT FAU LT B 1 2 SYSTE M B PoE + / SY 3 SYSTE STE MODU LE M M A PoE + / SY 4 STE M MODU LE B 2134 Figure 51. Connecting the AC Power Cord 3. For the AT-PWR250 or AT-PWR800 Module, lower the power cord retaining clip to secure the power cord to the unit.
AT-RPS3000 Redundant Power Supply Installation Guide 5. Examine the DC OUT/FAULT LED on the power supply module. The module is operating normally if the LED is green. If the LED is amber or off, refer to Chapter 4, “Troubleshooting” on page 83 for troubleshooting suggestions.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules A AT-PWR800 AT-PWR800 A DC OUT DC OUT FAULT 100-240 VAC~12A MAX B 1 3 FAULT 100-240 VAC~12A MAX SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 B 4 Figure 54. Checking the FAN and DC OUT LEDs in the LED Panel 7. In the MODULE A/B PORTS section of the LED panel shown in Figure 55 on page 73, examine the LOAD and CABLE LEDs of the two ports that receive power from the power supply module.
AT-RPS3000 Redundant Power Supply Installation Guide A DC OUT AT-PWR800 AT-PWR800 DC OUT FAULT 100-240 VAC~12A MAX B 1 3 FAULT 100-240 VAC~12A MAX SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 A B 4 2156 A A FAULT DC OUT AT-PWR800 AT-PWR800 DC OUT 100-240 VAC~12A MAX B 1 3 FAULT 100-240 VAC~12A MAX SYSTEM SYSTEM PoE+ / SYSTEM PoE+ / SYSTEM MODULE A MODULE B 2 B 4 2157 Figure 55.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules 8. If the chassis has two power supply modules, repeat this procedure to power on the second module. Warning This unit might have more than one power source. To reduce the risk of electric shock, disconnect all power cords before servicing the unit. E30 This completes the installation procedure for the AT-RPS3000 Redundant Power Supply.
Chapter 3 Removing Power Supply Modules Here are the procedures for removing power supply modules from the AT-RPS3000 Chassis: “Removing the AT-RPS-CBL1.
Chapter 3: Removing Power Supply Modules Removing the AT-RPS-CBL1.0 Cable Here are the steps to removing the AT-RPS-CBL1.0 cable from an RPS port on the AT-RPS3000 Chassis and switch: 1. On the front panel of the AT-RPS3000 Chassis, examine the CABLE LED of the RPS port to which the AT-RPS-CBL1.0 cable is connected. If the LED is off, go to the next step. If the LED is green, press the On/ Off button to turn off the port. The LED should turn off.
AT-RPS3000 Redundant Power Supply Installation Guide 3. Remove the cable from the RPS port. 100-2 40 VAC~ 12A MAX DC OUT FAU LT AT-PWR800 AT-PWR800 Caution Be sure to remove the RPS cable squarely and evenly from the connector on the chassis. Removing the connector at an angle may cause an electrical short that might damage the device.
Chapter 3: Removing Power Supply Modules Removing an AC Power Supply Module To remove an AC power supply module from the chassis, perform this procedure: 1. For the AT-PWR250 or AT-PWR800 Module, raise the power cord retaining clip on the power supply module.
AT-RPS3000 Redundant Power Supply Installation Guide 2. Disconnect the power cord from the power supply module. AT-PWR800 A 100-2 40 VAC~ 12A MAX DC OUT FAU LT 100-2 40 VAC~ 12A MAX DC OUT FAU LT B 1 2 SYSTE M B PoE + / SY SYSTE M STE M MODU LE A PoE + / SY 3 4 STE M MODU LE B 2170 Figure 59. Removing the Power Cord Caution The power module is not hot-swappable. It may be damaged if you remove it from the chassis while it is powered on.
Chapter 3: Removing Power Supply Modules 3. Loosen the two captive screws securing the power module to the chassis. AT-PWR800 A 100-2 40 VAC~ 12A MAX DC OUT FAUL T AT-PWR800 A 100-2 40 VAC~ 12A MAX DC OUT FAUL T B 1 2 SYS TEM B PoE + / SYS SYS MODU TEM LE A 3 TEM 4 PoE + / SYS MODU TEM LE B 2171 Figure 60. Loosening the Two Captive Screws 4. Slide the module from the chassis.
AT-RPS3000 Redundant Power Supply Installation Guide 6. If you are not replacing the module, cover the empty slot with one of the slot covers, labeled AT-PNL250 and AT-PNL800/1200, provided with the unit. The faceplates of the power supply modules and the slot covers are keyed so that the slot cover has to correspond to the power supply module you installed in the unit.
Chapter 3: Removing Power Supply Modules 82
Chapter 4 Troubleshooting If you encounter a problem with the product, you may be able to resolve it with the information in this chapter: Problem 1: A power supply module does not seem to be receiving power because its DC OUT/FAULT LED on its faceplate is off, as well as its FAN and DC OUT LEDs in the LED panel. Solution: Try the following: ❒ Verify that the module is fully seated in the power supply slot in the chassis.
Chapter 4: Troubleshooting ❒ Verify that the power from the power source is within the operating specifications of the power supply module, listed in “Power Specifications” on page 88. ❒ Replace the power supply module. Problem 4: The FAN LED in the LED panel is amber. Solution: A fan in the power supply module has failed. Replace the module. Problem 5: One or both power supply modules shutdown. Solution: Try the following: ❒ Check to be sure that the chassis is not overheating.
AT-RPS3000 Redundant Power Supply Installation Guide ❒ Verify that the power supply module that is suppose to be delivering the PoE+ power from the chassis is either the AT-PWR800 or AT-PWR1200 Module. The AT-PWR250 Module do not support PoE+ power. ❒ Check the FAN LED for the power supply module, in the LED panel. If the LED is amber, one or both fans in the module are not functioning properly.
Chapter 4: Troubleshooting 86
Appendix A Technical Specifications Physical Specifications Dimensions (H x W x D): AT-RPS3000 Chassis 4.4 cm x 44.1 cm x 36.3 cm (1.7 in. x 17.4 in. x 14.3 in.) AT-PWR250 and AT-PWR800 Power Supply Modules 4.2 cm x 14.8 cm x 25,2 cm (1.7 in. x 5.8 in. x 9.8 in.) AT-PWR1200 Power Supply 4.2 cm x 14.8 cm x 30.7 cm Module (1.7 in. x 5.8 in. x 12.1 in.) Weight: AT-RPS3000 Chassis AT-PWR250 Module (AC) AT-PWR800 Module AT-PWR1200 Module Recommended Minimum Ventilation on All Sides: 4.2 kg (9.3 lb.) 1.
Appendix A: Technical Specifications Power Specifications Maximum Power Consumption: AT-PWR250 Module (AC) AT-PWR800 Module (AC) AT-PWR1200 Module (AC) 250 watts 800 watts 1200 watts Input Voltage: AT-PWR250 Module (AC) AT-PWR800 Module (AC) AT-PWR1200 Module (AC) 100-240 VAC, 5 A maximum, 50/60 Hz 100-240 VAC, 12 A maximum, 50/60 Hz 100-240 VAC, 16 A maximum, 50/60 Hz Certifications EMI (Emissions): FCC Class A, EN55022 Class A, EN61000-3-2, EN61000-3-3, VCCI Class A, CISPR Class A, C-TICK, CE EMC (
AT-RPS3000 Redundant Power Supply Installation Guide Port Pin-outs Figure 64 identifies the pins on the RPS ports. P4 P3 9 17 1 P2 P1 10 Figure 64. Port Pin-outs for the RSP System and PoE+/System Ports Table 11 lists the pin signals for the RPS 1 and 3 System ports. Table 11.
Appendix A: Technical Specifications Table 11. RPS 1 and 3 System Ports Pin Description 13 Reserved 14 Reserved 15 Switch present 16 Reserved 17 Reserved Table 12 lists the pin signals for the RPS 2 and 4 PoE+/System ports. Table 12.
AT-RPS3000 Redundant Power Supply Installation Guide Table 12.
Appendix A: Technical Specifications 92