Allied Telesis AT-RPS3000 User's Manual
Contents
1. 22 Low power and High power Switches 24 Configuration Exaimples echte t t e 25 Low power SWitChes 25 Highli poWer SWITCHES inficit ose e Ec ad 28 POET SWITCHES aient UI 30 Invalid Gonfiguratioris tee bul nene Ee reg bene deste eer 33 Choosing a Power Supply Module 36 Non PoET Switches uii nete esie a detto aid 36 PoET SWItCh68 2 tno MI dmm dte Eidem 37 Power Module Combinations for Switches esses nnne nennen 40 p ete eR Nace ak DM Mii P 41 Bp EE 42 Ports EEDS i rine M ea ne a Ua HERE m nee EE YER RAE Y 42 Power Module Status LEDS drii eia rmi deese e Pala du 44 Power Module LED RI eee ceni 46 On Off POWerSWITCHES s ui aio tot e ccs et Ete adieu EM dete adhe 47 GUIdGIING Sift Ass adits tuti etes 48 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules2. SYSTEM SYSTEM 9 JOJ SYSTEM MODULE 2206 Figure 5 RPS Ports The PoE System ports provide power and system power provided that the power modules and the switches support PoE For more information on the System and POE System ports refer to System Power and Power for PoE on page 21 Power Supply Modules AT RPS3000 Redundant Power Supply Installation Guide 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 AT PWR1200 Power Supply Module Sard Description AC System power only D AT PWR250 ae ees gt E System power plus 480W for PoE AT PWR800 g AC System power plus 4 780W for PoE AT PWR1200 Note There are AC and DC versions of the AT PWR250 Module The AC module is supported in the PoE x610 Switches and AT RPS3000 Chassis The DC module is only supported in the PoE x610 Switches It is not supported in the AT RPS3000 Chassis Chapter 1 Overview 20 The power supply modules for the AT RPS3000 Chassis and PoE x610 Series switches
3. 20 Table 3 Low power and High power Switches 2 24 Table 4 Valid and Invalid Configurations of Low and High power Switches for a Power Supply Module 24 Table 5 Power Supply Module Combinations for PoE Switches 40 Table 6 Module A arid B Ports LEDS iiie ede diede ade 43 Table 7 Power Module Status LE DS 5 3 iride rc POR ded dee 45 Table 8 Power Mod le LED ote dme Lue Ede RR Dee BARRES adn gue 46 Table 9 AT RPS3000 Chassis Components 54 Table 10 Power Supply Module Components 2 55 Table 11 RPS 1 and 3 System POrts ER rte er I 89 Table 12 RPS Zand 4 PoE System Ports a aa n Ron nx eR ARR eun gin va RR a x Teu dune 90 Tables 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 This preface contains the following sections Document Conventions on page 12 Where to Find Web based Guides on page 13 0 Contacting Allied Telesis on page 14 Document Conventions This docum
4. eene eren nnne nennen nennen nr 87 Power Specifications atender etae et eee a eal a da ale bd 88 x once V Di Um MM Mt SU ME 88 Port eue Ebert tiet see artem cio Veste ub 89 Figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 BIJBNICILIIRM O 16 Slots A and B for the Power Supply 17 Slot A and RPS 1 and 2 Ports uoti EUR aere Dente ide eof en exea 17 Slot B arid RPS 3 arid 4 Ports neret e i e Ce rre te deed e Tes dd ito vera vied 18 iuge c E 18 Removable and Non removable Power Supply Modules in x610 Switches ss 22 Example of a Single Low power Switch Connected to an RPS System 25 Example of a Non PoE Low power Switch Connected to an RPS PoE System Port 26 Figure 9 Example of Two Low power 26 Figure 10 Example of Four Low power nennen nne 27 Figure 11 Example of Low power and High power 28 Figure 12 Example of Two High power Switches on the System
5. 49 Reviewing Safety Precautloris i ode te ec ol ara a a ER E aO ge Peau id be 50 Planning the Installations x rere IR LR DEREN 52 Unpacking the AT RPS3000 Chassis and Power Supply 54 ATRPS3000 ChassIs ooh I nU BASES 54 Power Supply Modules Inc oa a e die seed et UM ed a RA 55 Selecting a Location for the AT RPS3000 Chassis in the Equipment 57 Contents Installing the AT RPS3000 Chassis an Equipment 58 Installing a Power Supply nnn 61 Connecting the AT RPS3000 Chassis to the x610 Series 2 0 65 Powering On the Power Supply Modules ssssssesseeeenem nne nein 69 Chapter 3 Removing Power Supply Modules 75 Removing the AT RPS CBL1 0 76 Removing AC Power Supply 78 Chapter4 Troubleshooting Io eade eee ete ete 83 Appendix A Technical Specifications 2 4 87 Phiysical SpecifiCatloris 0 87 Environmental
6. Alied Telesis AT RPS3000 t MODULE A PORTS a PORTS 2 el J em oun OF J nocent Onisasten ema Farol 2148 LED Panel Figure 26 LED Panel Module A B Ports LEDs in the Module A Ports section of the LED panel provide LEDs information about the status of RPS ports 1 and 2 which receive their power from the power supply module in slot A ATZ Alied Telesis AT RPS3000 SO CABLE DET CO NO CABLE O DISABLED mee in DISABLE MODUE A PORTS SMODUEE B PORTS 4 le LOAD e oad LOAD e Load e F o CABLE e 2 0 CABLE cagLE Dc 8 dumm MODULE A GERD MODULE B C CORED gt 2156 42 Figure 27 Module A Ports LEDs 53000 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 LOAD STAI 3g Allied Telesis AT RPS3000 5 E STATUS TUS CABLI FAULT CABLEDET NOCABLE ODISABLED NEUE em o CABLE MODULE A PORTS MODULE B PORTS 4 L
7. 29 Figure 13 Example of Two High power Non PoE Switches on the PoE System 29 Fig re 14 Example of One PoE Switch deb ec fad eed tete do de ek 30 Figure 15 Example of Two PoE Switches 5 icit deren 31 Figure 16 Example of Low power PoE and Non PoE 5 32 Figure 17 Example of Low power PoE and Non PoE 33 Figure 18 Example of an Invalid Configuration nenat 34 Figure 19 Example of an Invalid Configuration enne enne ener enne 35 Figure 20 Example of Power Modules and Non PoE 36 Figure 21 Two AT PWR800 Modules Providing Up to 480 Watts with Full 37 Figure 22 Two AT PWR800 Modules for 480 to 960 Watts with Limited Redundancy 38 Figure 23 Two AT PWR1200 Modules Providing Up to 780 Watts with Full 38 Figure 24 Two AT PWR1200 Modules for 780 to 1560 Watts with Limited Redundancy 39 Figure 25 Example of x610 Series Switches and AT RPS3000 Chassis with Different Power
8. 2148 POWERMODULESTATUS MAN MN SSSR ee eee eee eee ee eee Figure 1 LED Panel Power Supply Slots AT RPS3000 Redundant Power Supply Installation Guide The slots on the back panel of the chassis are for two power supply modules The slots are labeled A and B A CERIS ome TM d d i a SIot A Slot B RPS Connectors 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 The four RPS connectors which connect the chassis to up to four x610 Series switches are paired with the power supply slots RPS 1 and 2 ports receive power from the power supply module in slot A A COND gt COND gt CUED gt 00 00 ED gt Slot A RPS 1 and 2 ports Figure 3 Slot A and RPS 1 and 2 Ports Chapter 1 Overview RPS 3 and 4 ports obtain power from the power supply module in slot B uu 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
9. fe nonu FAULT it tee ye el IDULE B PORTS BEEBE Aas en ew BEERS AT PWR800 44 Figure 29 Power Module Status LEDs 53000 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 DC OUT Green The DC output from the power supply module to the RPS ports is within the normal operating range Amber The DC output from the power supply module is below the normal operating range either because the module is failing or the input voltage from the AC power source is below the normal operating range Off The module is not receiving any AC power or the slot is empty TEMP Green The temperatures inside the power supply modules are in the normal operating range Amber One of the power supply modules is experiencing an increase in temperature that exceeds the normal operating range The affected module is continuing to provide system power to its two RPS ports but has stopped providi
10. Switch with powered devices 1 requiring 480 to 960 watts 2142 AT PWR800 Module Figure 22 Two AT PWR800 Modules for 480 to 960 Watts with Limited Redundancy Another approach to dealing with a PoE switch that needs more than 480 watts for its powered devices is with the AT PWR1200 Module This module can provide 780 watts If you install this module in both the switch and chassis the switch will have power redundancy up to 780 watts AT RPS3000 Chassis j mo dem AT x610 24Ts X POE Switch with powered devices requiring up to 780 watts AT PWR1200 Module 38 Figure 23 Two AT PWR1200 Modules Providing Up to 780 Watts with Full Redundancy For example if the total power requirements of the devices connected to the switch is 720 watts each AT PWR1200 Module would be responsible for providing 360 watts A failure of one power supplies will not affect the ability of the switch to support all of the powered devices because the power capacity of the remaining AT PWR1200 Module will be adequate to meet the needs of all the devices 53000 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 AT RPS3000 Chassis T A AT PWR1200 Modu
11. 53000 Redundant Power Supply Installation Guide Table 9 AT RPS3000 Chassis Components Component Description One AT PNL800 1200 Blank Panel Blank shipping panel pre installed 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 Power Supply Refer to this table to verify the items in the shipping containers of the Modules Power supply modules Table 10 Power Supply Module Components Power Supply Module Power Cord Regional Power Module Retaining Clip Cord AT PWR250 2184 AT PWR800 2184 55 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules Table 10 Power Supply Module Components Continued AT PWR1200 100 240VAC 16A OR pa 00 3 2 2187 Power Supply Module Power Cord Regional Power Module Retaining Clip Cord AT PWR1200 None 56 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 Note There are AC and DC versions of the AT PWR250 Module The AC module is supported in the PoE x610 Switch
12. ENABLE DISABLE MODULE PORTS MODULE B PORTS 1 2 3 4 LOAD LOAD LOAD CABLE CABLE e 7e CABLE RPS Port 1 RPS Port2 RPS Port3 RPS Port 4 Switch Switch Switch Switch Figure 31 RPS Port On Off Switches A Caution The electronic circuitry inside the chassis may be damaged if you do not turn off an RPS port before connecting or disconnecting the RPS cable Review the following before turning off an RPS port on the chassis Turning off RPS port stops the transmission of system power switch that is connected to the RPS port will stop functioning if it is completely dependent on the AT RPS3000 Chassis for its system power either because its internal power supply has failed or been removed Turning off an PoE System port also stops the transmission of PoE power A PoE switch may support fewer powered devices or stop supporting all devices depending on whether its internal power module supports PoE 47 Chapter 1 Overview Guidelines 48 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 You may install up to two power supply modules in the chassis o The power supply module in slot A left hand slot
13. AT x610 48Ts X Switch High power wa Figure 13 Example of Two High power Switches on the System Ports 29 Chapter 1 Overview PoE Switches 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 Chassis with One Power Supply Low power AT x610 24Ts X POE Switch Oso m RPS2 bas PoE System Port 2142 30 Figure 14 Example of One PoE Switch The active source of system power for the switch is its internal removable power supply This is in keeping with the rule that POE switches gain their system power from their internal power supply and use the power supply in the AT RPS3000 Chassis as a redundant supply for system power It is important to note however that the principal of active and redundant system power does not apply to POE power because the AT RPS3000 Chassis supplements the PoE power from the switch s internal power supply thus allowing for more powered devices on the switch The AT PWR800 and AT PWR1200 Modules can provide PoE p
14. 2 Secure the cable to the switch by tightening the two thumbscrews w 2133 Figure 46 Securing the AT RPS CBL1 0 Cable to the Switch If the AT RPS3000 Chassis is already operational perform step 3 to turn off the RPS port before connecting the RPS cable Otherwise go to step 4 A Caution Never connect or disconnect an RPS cable from an RPS port on an operational AT RPS3000 Chassis without first turning off the port Failure to disable an RPS port may damage the redundant power supply system 3 On the front panel of the AT RPS3000 Chassis examine the CABLE LED that corresponds to the port to which you will connect the cable 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 For example if you intend to connect the DC RPS cable to port 3 on the AT RPS3000 Chassis check the CABLE LED for port 3 If the LED is on press the port s On Off button to disable the port Port On Off Button ATE Allizd Telesis AT RPS3000 SAT NO CABLE E DISABLE DULE A PORTS e CABLE CABLE MODULE B PORTS 3 i e CABLE caBLE CABLE LED 2161 Figure 47 RPS Port On Off Buttons and CABLE LEDs 66 53000 Redundant Power Supply Installation Guide 4 Connect the AT RPS CBL1 0 cable to the designated
15. Example of Low power PoE and Non PoE Switches Invalid are examples of invalid configurations In the first example in Figure Configurations 18 on page 34 two low power non PoE switches are connected to RPS 1 and 3 System ports on a chassis that has one power module in slot A While it is true that you may use one power supply module to supply system power to two low power switches you have to be sure to connect the switches to the correct ports The power supply module in slot A delivers power to RPS 1 and 2 ports RPS 3 and 4 ports are not receiving any power because slot B is empty To correct the problem you could connect the AT x610 24Ts X Switch to RPS 2 PoE System port on the chassis or install another power supply module 33 Chapter 1 Overview 34 AT RPS3000 Chassis with One Power Supply 5 Slot A AT x610 24Ts Switch Low power On s AT x610 24Ts X Switch _ Low power Gm Figure 18 Example of an Invalid Configuration A In the example in Figure 19 on page 35 the power supply in slot is supporting a low power switch and a high power switch This configuration is invalid because the power supply modules can support only one switch if itis a high power switch You could resolve the problem by installing a power supply module in slot B a
16. A A a Exe reir pie 70 Lowering the Power Cord Retaining 70 Lowering the Power Cord Retaining 71 Checking the FAN and DC OUT LEDs in the LED em eene eren 72 Checking the LOAD and CABLE LEDs in the LED eene 73 Loosening the Thumbscrews that Secure the AT RPS CBL 1 0 Cable to the AT RPS3000 Chassis 76 Removing the AT RPS CBL1 0 Cable from the AT RPS3000 77 Raising the Power Cord Retaining Clip ce eta dere Dok dde de ede 78 Removing the PoWer cbe dette coed cents sands cennoteba att puer shook ended eed de za 79 Loosening the Two 2 2 iie coeperit eere dete dee a de dee pde de dedere cea 80 Removing the Power Supply from the 80 Installing the Slot Cover in Meee Ee 81 SECUNING MNS Slot COVGr io er rti RERO RENE E IU ER EM NU du Sexe ep 81 Port Pin outs for the RSP System and PoE System 89 Tables Table 1 Power Supply Modules rte rre eur ene eek e o ER e RR ee Exe eX E Y 19 Table 2 Valid and Invalid Power Supply Combinations in the AT RPS3000 Chassis
17. AC AT PWR800 Module AC AT PWR1200 Module AC Input Voltage AT PWR250 Module AC AT PWR800 Module AC AT PWR1200 Module AC 250 watts 800 watts 1200 watts 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 88 EMI Emissions EMC Immunity Electrical and Laser Safety Quality and Reliability MTBF AT RPS3000 Chassis AT PWR250 Module AC AT PWR800 Module AC AT PWR1200 Module AC Compliance Marks FCC Class A EN55022 Class A EN61000 3 2 EN61000 3 3 VCCI Class A CISPR Class A C TICK CE EN55024 EN60950 1 TUV UL 60950 1 CULys EN60825 440 000 hrs 100 000 hrs 100 000 hrs 80 000 hrs CE cULys C Tick 53000 Redundant Power Supply Installation Guide Port Pin outs Figure 64 identifies the pins on the RPS ports PA P3 o P2 m 9 i 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 RPS 1 and 3 System Ports Pin Description P1 Ground 12V return 2 12V P3 Reserved P4 Reserved 1 12V remote sense 2 Reserved 3 RPS status 4 Reserved 5 12V remote sense 6 RPS power good 7 Reserved 8 Reserved 9 Reserved 10 RPS present 11 Switch power good 12 Reserved 89 Appendix A Technical Specificat
18. Low power AT x610 24Ts X POE Switch Low power Figure 16 Example of Low power PoE and Non PoE Switches The AT PWR800 or AT PWR1200 Module in slot A is performing three functions for the two switches It is acting as the active source of system power for the AT x610 24Ts Switch connected to RPS 1 System port as a redundant source of system power for the AT x610 24Ts POE connected to the RPS 2 PoE System port and as an active source of addition PoE power for the PoE switch The example in Figure 17 on page 33 builds on the previous example adding a power supply module to slot B and two more low power PoE and non PoE switches 53000 Redundant Power Supply Installation Guide AT RPS3000 Chassis with Two Power Supplies 1 i an Switches supported by the Power Slot A Slot B Module in Slot A AT x610 24Ts Switch Low power A uu OBO AT x610 24Ts POE Switch L T Low power IT ys Switches supported by the Power Module in Slot B AT x610 24Ts X Switch Low power 2 5 i AT x610 24Ts X POE Switch Low power MTA 2 2211 Figure 17
19. PoE x610 Series switches you would need five power modules of any model and three chassis The five low power switches would need three modules and the high power switches two modules The power modules can be the same model such as all AT PWR800 Modules or different models Gm 0 C GmO ge j F LOmO 0 Om O e L High power non PoE Gm switch powered by the module in slot A High power non PoE LOmO 0 switch powered by the module in slot B L Low power non PoE Low power non PoE switches powered by switch powered by the module in slot B the module in slot A Low power non PoE switches powered by the module in slot A 36 Figure 20 Example of Power Modules and Non PoE Switches PoE Switches 53000 Redundant Power Supply Installation Guide 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 If the power requirements of the power devices of the switch are below 480 watts you may use the AT PWR800 Module If you want PoE redundancy you would also install an AT PWR800 Module in the AT RPS3
20. RPS cables Check that the site allows for adequate air flow around the units and through the cooling vents on the front and rear panels The ventilation flow is from front to back with the fans on the power supply modules drawing air out of the unit C Do not place objects on top of the chassis 53000 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 53 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 shipping container for the AT RPS3000 Chassis should contain the Chassis components listed in this table Table 9 AT RPS3000 Chassis Components Component Description One AT RPS3000 Redundant Power Supply Chassis Two rack mounting brackets Twelve bracket screws One AT PNL250 Blank Panel 54
21. RPS port on the back panel of the AT RPS3000 Chassis 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 Figure 48 Connecting the AT RPS CBL 1 0 Cable to the AT RPS3000 Chassis 67 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules 5 Secure the cable to the port by tightening the two thumbscrews 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 68 53000 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 Figure 50 Raising the Power Cord Retaining Clip 2 Connect the AC power cord to the AC socket on the power supply module as shown in Figure 51 on page 70 69 Chapter 2 Installing the 53000 Chassis and Power Supply Modules 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 PWR800 Figure 52 Lowering th
22. Supply Modules 40 Sia iH i ai se en i ede Ain ee ein 42 Fig re 27 Module A Ports LEDS hapii notare tape e nes 42 Figure 28 Module B Ports 2 000 43 Fig re 29 Power Module Status EEDS eine od feci de eodd tenes de cute ea ritui de 44 Figure 30 Power Module BED re tree ene eet eee ne egets 46 Fig re 31 RPS Port OMO SWitches ocior i itti open ets preda deg de 47 Figure 32 100 125 VAC 125 V 5 20 Plug and 52 Figure 33 Positioning the AT RPS3000 Chassis in the Equipment 57 Figure 34 Unauthorized AT RPS3000 Chassis and x610 Series Switch 57 Figure 35 Turning the Switch Upside 58 Figure 36 Removing the Plastic Feet niei ione d En Ee dive de dede 58 Figure 37 Attaching the Equipment Rack Brackets 59 Figure 38 Mounting the AT RPS3000 Redundant Power Supply in an Equipment 59 Figure 39 Removing the Blank Shipping
23. 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 0 Cable on page 76 Removing an AC Power Supply Module on page 78 75 Chapter 3 Removing Power Supply Modules Removing the AT RPS CBL 1 0 Cable 76 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 CBL 1 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 For example if you want to disconnect the cable from RPS port 3 on the AT RPS3000 Chassis check the CABLE LED for port 3 If the LED is on press the port s On Off button to disable the port A Caution Never connect or disconnect an RPS cable from an RPS port on an operational AT RPS3000 Chassis without first turning off the port Failure to disable an RPS port may damage the redundant power supply system 2 Loosen the two thumbscrews that secure the cable to the RPS port on th
24. like a low power switch It places its internal power supply in the redundant state and draws its system power from the chassis In Figure 12 on page 29 the high power non PoE AT x610 48Ts and AT x610 48Ts X Switches are supported by separate power supply modules with the AT x610 48Ts Switch supported by the module in slot A and the AT x610 48Ts XSwitch powered by the module in slot B If the chassis stops supplying system power to the switches they activate their internal power supplies 53000 Redundant Power Supply Installation Guide AT RPS3000 Chassis with Two Power Supplies A an Slot A Slot B o we AT x610 48Ts Switch ee m edi o AT x610 48Ts X Switch m igh power e e 4 J s Figure 12 Example of Two High power Switches on the System Ports You may use either the System or PoE System port to connect high power non PoE switches to the chassis To illustrate this point the two high power non PoE switches in the previous example may be connected to the PoE System ports as shown here AT RPS3000 Chassis with Two Power Supplies J C A Slot A Slot B AT x610 48Ts Switch uti High power 1
25. module and the DC OUT LED in the LED panel are amber Solution The power supply module is failing or the power from the power source is not in the range of the operating specifications of the module Try the following o Try connecting the power module to another power source preferably located on a different circuit 83 Chapter 4 Troubleshooting 84 c 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 o 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 o Check to be sure that the chassis is not overheating Verify that it has adequate ventilation and that the fans on the power supply modules and the ventilation vents on the front panel of the chassis are unobstructed o Verify that the module is not connected to two high power x610 Switches or one low power and one high power switch It may have shutdown because the power requirements of the switches exceeded its power reserves A power supply module can support two low power switches or one high power switch at a time Problem 6 You are unable to install a second module in the chassis because the faceplates of the new and existing modules do not align Solution The facepla
26. 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 The power supply modules may be the same model or different models There are some combinations of power supply modules however that are not supported Table 2 lists the valid and invalid combinations of modules for the chassis Table 2 Valid and Invalid Power Supply Combinations in the AT RPS3000 Chassis Valid Combinations Invalid Combinations Two power supply modules of the same model for instance two AT PWR800 Modules One AT PWR800 Module and one AT PWR1200 Module One AT PWR800 Module and one AT PWR250 Module One AT PWR1200 Module and one AT PWR250 Module 53000 Redundant Power Supply Installation Guide System Power and Power for PoE System Power 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
27. 000 Chassis AT RPS3000 Chassis K sa 610 24 5 Switch with powered devices requiring up to 480 watts A AT PWR800 Module 2142 AT PWR800 Module Figure 21 Two AT PWR800 Modules Providing Up to 480 Watts with Full Redundancy If the total power requirements of the devices on a PoE switch are greater than 480 watts you have two possible solutions to providing the necessary power If the power requirement is between 480 and 960 watts you could use the load sharing property of two AT PWR800 Modules to provide up to 960 watts as shown in Figure 22 on page 38 The drawback to this approach is that PoE redundancy extends only to 480 watts the power supplied by a single power module If one of the power supplies were to stop functioning the switch would have to deny power to some powered devices For example if the powered devices on the AT x610 24Ts X POE Switch required 550 watts the two AT PWR800 Modules would each provide half or 275 watts of the power requirements of the devices If power is lost on one of the power supplies the remaining power module will supply up to 480 watts of power to the switch which being short 70 watts will have to deny power to some of the devices 37 Chapter 1 Overview AT RPS3000 Chassis 18 eo 2 A AT PWR800 Module AT x610 24Ts X POE
28. 800 N N i 7 In the MODULE 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 The LOAD and CABLE LEDs of RPS ports that are connected to x610 Series switches should be green If the LEDs are off press the On Off buttons to active the ports 72 53000 Redundant Power Supply Installation Guide ATZ Allied Telesis AT RPS3000 t LOAD STATUS CABLE STATUS PORT 9 LIVE FAULT CABLEDET NOCABLE DISABLED ENABLE DISABLE 4 MODULE A PORTS MODULE B PORTS 1 2 3 4 C toap Loap Loap Loan F CABLE z CABLE x case CABLE E oc AT PWR800 AT PWR800 2156 Allied Telesis AT RPS3000 p LOAD STATUS CABLE STATUS PORT LIVE FAULT CABLEDET NOCABLE DISABLED ENABLE DISABLE MODULE PORTS 2 oad caBLE MODULE B PORTS 1 3 Loan Loan CABLE 4 Load CABLE AT PWR800 2157 Figure 55 Checking the LOAD and CABLE LEDs in the LED Panel 73 74 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules 8 Ifthe chassis has two power supply modules repeat this procedure to power on the second module
29. Guy friendly Allied Telesis A TSRPS3000 Redundant Power Supply AT RPS3000 AT PWR250 AT PWR800 AT PWRI200 Installation Guide 613 001498 Rev B AV Allied Telesis the solution the network Copyright 2011 Allied Telesis Inc 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 reserves the right to make changes in specifications and other information contained in this document without prior written notice The information provided herein is subject to change without notice In no event shall Allied Telesis Inc be liable for any incidental special indirect or consequential damages whatsoever including but not limited to lost profits arising out of or related to this manual or the information contained herein even if Allied Telesis Inc has been advised of known or should have known the possibility of such damages 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 comp
30. Module in Slot A 1 AT x610 24Ts Switch g 2 AT x610 24Ts Switch Low power Switches Powered by the Module in Slot B 3 AT x610 24Ts Switch 4 AT x610 24Ts X Switch a Figure 10 Example of Four Low power Switches 27 Chapter 1 Overview 28 High power Switches 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 Chassis LETTERS 9p with Two Power Supplies d A AT x610 24Ts Switch C IG i Low power 0 en emm 9 7 AT x610 48Ts Switch High power Slot A Slot B j i B e EE w S S 2136 Figure 11 Example of Low power and High power Switches When a high power non PoE switch is connected to the AT RPS3000 Chassis it responds just
31. OAD e LOAD CABLE CABLE Dc AT PWR800 nu 300 240 VAC 12A Oe y 2 95 00 Ls 2 AT PWR800 2157 Figure 28 Module B Ports LEDs The LEDs are described in this table Table 6 Module A and B Ports LEDs LED State Description LOAD Green The port is operating normally Amber The port has encountered a problem Off This LED state indicates one of the following 0 The port is disabled supply slot The power supply is powered off There is no power supply in the power 43 Chapter 1 Overview Power Module Table 6 Module A and B Ports LEDs Continued LED 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 610 Series switch Off This LED state indicates one of the following The RPS port is disabled The power supply slot is empty The power supply module is not powered on The power supply module has failed For general status information about the power supply modules refer to Status LEDs FAN and DC OUT LEDs in the Power Module Status section of the LED panel MODULE STATUS m
32. Panel from the Back Panel sse eene 61 Figure 40 Installing a Power Supply 62 Figure 41 Securing a Power Supply Module emen nenne enne nennen nennen nennen enne 63 Figure 42 Installing a Power Cord Retaining nennen 63 Figure 43 Installing the Slot CoVver oodd inen Ine dne edente dc ade node dnte dett 64 Fig re 44 Securing the Slot COVer ire rette REOR dee UR e ino eripi e dendi 64 Figure 45 Connecting the AT RPS CBL 1 0 Cable to the x610 Series Switch ssesssee em 65 Figure 46 Securing the AT RPS CBL 1 0 Cable to the 66 Figure 47 RPS Port On Off Buttons and CABLE 66 Figure 48 Connecting the AT RPS CBL 1 0 Cable to the AT RPS3000 67 Figure 49 Securing the AT RPS CBL 1 0 Cable to the AT RPS3000 Chassis esee 68 Figures Figure 50 Figure 51 Figure 52 Figure 53 Figure 54 Figure 55 Figure 56 Figure 57 Figure 58 Figure 59 Figure 60 Figure 61 Figure 62 Figure 63 Figure 64 Raising the Power Cord Retaining Clip denne trate hen denas 69 Connecting the AC Power nde sio x K E
33. The easiest way to explain how and when the chassis supplies power to the x610 Series switch is to divide the discussion into the two types of power the switch may require D System Power next D PoE Power on page 22 The switch uses system power to operate its switching CPU LEDs fans and management functions The only function not supported by system power is PoE The switch may obtain its system power either from its own internal power supply module or from a module in the AT RPS3000 Chassis There is no load sharing of system power Consequently one of the sources is going to be actively providing system power to the switch while the other source is held in a redundant state The active source of system power is different for non PoE PoE x610 Series switches Non PoE switches use the power modules in the AT RPS3000 Chassis as their primary active power source for system power and place their internal power modules in a redundant state Thus a non PoE switch relies upon the AT RPS3000 Chassis to provide all of its system power and activates its internal power supply only if it stops receiving system power from the chassis For PoE switches the opposite is true They use their internal power supply modules as the active source for system power and the power module in the AT RPS3000 Chassis as the redundant power source Should there be a failure of the internal power supply in the switch or an interrupt i
34. alling 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 The procedure requires the following items Twelve bracket screws included with chassis Two equipment rack brackets included with chassis Flat head screwdriver not provided Cross head screwdriver not provided u uuu iu Four standard equipment rack screws not provided A Warning The chassis may be heavy and awkward to lift Allied Telesis recommends that you get assistance when mounting the chassis in an equipment rack 2 E28 1 Place the unit upside down on a level secure surface 924 ce Aled sense ons SNLVLS FINGON sena 7 mou Gnas samas qvo mvs Qvo wd O00 SdH lV 515212 pally 2180 Figure 35 Turning the Switch Upside Down 2 Using a flat head screwdriver pry the six plastic feet from the bottom of the switch Figure 36 Removing the Plastic Feet 58 53000 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 sho
35. as you face the rear panel provides power to the RPS 1 System and RPS 2 PoE System ports o The power supply module in slot B right hand slot provides power to the RPS 3 System and RPS 4 PoE System ports The AT RPS3000 Chassis can support two power modules of the same type such as two AT PWR800 Modules or one AT PWR800 Module and one AT PWR1200 Module All other combinations are not allowed as explained in Power Supply Modules on page 19 The AT PWR250 Power Supply Module may be used to provide system power to two low power switches or one high power switch The module does not provide PoE power O The AT PWR800 AT PWR1200 Modules may be used to supply system power to two low power switches or one high power switch They may also be used to provide 480W or 780W respectively of additional PoE power to one PoE switch You may use the AT PWR800 and AT PWR1200 Modules in the 53000 Chassis to provide redundant system power to non PoE switches The modules provide redundant system power but no power for for non PoE switches You may connect a non PoE switch to either an RPS System or RPS PoE System port on the chassis The AT PWR800 AT PWR1200 Modules can supply PoE power to just one switch at a time A PoE switch has to be connected to RPS 2 or 4 PoE System port to receive PoE power from the chassis The power supply the switch does not have
36. belongs to the installer because the AT RPS3000 Chassis cannot determine the low or high power status of the switches connected to its ports 53000 Redundant Power Supply Installation Guide Configuration Examples Low power Switches 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 The non PoE AT x610 24Ts Switch places its non removable internal power supply module in a redundant state and receives all of its system power from the AT RPS3000 Chassis and the power module in slot A If there is an interruption of system power from the chassis the switch automatically activates its internal power supply to maintain network operations Low power AT RPS3000 Chassis with One Power Supply 2 2 n AT x610 24Ts Switch Slot Slot B RPS 1 System Port 2140 Figure 7 Example of a Single Low power Switch Connected to an RPS System Port It should be noted that even though the switch in the example is a non PoE model the power supply module in slot A can be any of the three available power modul
37. cover to the chassis by tightening the two captive Screws Figure 63 Securing the Slot Cover 81 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 o Verify that the module is fully seated in the power supply slot in the chassis o Verify that the power cord is firmly connected to the power supply module and the power source o Try connecting the power module to another power source preferably located on a different circuit o Verify that the power source is operating properly by plugging a different device into it o Try replacing the power cord o Verify that the power from the power source meets the operating specifications of the power supply module listed in Power Specifications on page 88 o Replace the power supply module Problem 2 The LOAD and CABLE LEDs for an RPS port are off but the module s FAN and DC OUT LEDs in the LED panel are on indicating that the module is receiving power Solution The RPS port may have been turned off Try pressing the port s On Off button Problem 3 The DC OUT FAULT LED on the faceplate of the power supply
38. e AT RPS3000 Chassis Figure 56 Loosening the Thumbscrews that Secure the AT RPS CBL1 0 Cable to the AT RPS3000 Chassis 53000 Redundant Power Supply Installation Guide 3 Remove the cable from the RPS port A 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 Figure 57 Removing the AT RPS CBL1 0 Cable from the AT RPS3000 Chassis 4 Loosen the two thumbscrews that secure the cable to the RPS port on the x610 Series switch 5 Remove the cable from the RPS port on the switch A Caution Be sure to remove the RPS cable squarely and evenly from the connector on the switch Removing the connector at an angle may cause an electrical short that might damage the device TT 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 Figure 58 Raising the Power Cord Retaining Clip 78 53000 Redundant Power Supply Installation Guide 2 Disconnect the power cord from the power supply module Figure 59 Removing the Power Cord A Caution The power module is not h
39. e Power Cord Retaining Clip 4 Connect the other end of the power cord to an appropriate power source Refer to Appendix A Technical Specifications on page 87 for the power specifications of the power supply modules 70 53000 Redundant Power Supply Installation Guide 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 6 Figure 53 Lowering the Power Cord Retaining Clip In the POWER MODULE STATUS section of the LED panel shown in Figure 54 on page 72 examine the FAN and DC OUT LEDs of the power supply module you just powered on Both LEDs should be green If the LEDs are amber or off refer to Chapter 4 Troubleshooting on page 83 for troubleshooting suggestions 71 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules POWER MODULE STATUS E El B DISABLE DC fe NORMAL FAULT Li El E 1 IDULE B PORTS TE BEEBE A B yal lei e ATA er ze a CABLE F ncour Com dd 9 caa DD E 100200 10 122 x NM p m 95 gt camp ic 4 PoE SYSTEM g ouea Figure 54 Checking the FAN and DC OUT LEDs in the LED Panel AT PWR
40. elesis website at www alliedtelesis com Contents Preface oiu mutent uita oui edidi x 11 Document Conventions uet ie edat eed cai 12 Where to Find Web based Guides sse 1510 13 Contacting Allied Telesis T 14 Online SupDpOLLb 2 mt eoe uice DEFUI TU niue iim eh Mi iR I iiri See EE 14 Email and Telephone Support aeter UN nete eigen E tailed 14 Watrantyz Lu men M Ei 14 RetUrming Produets ar nalate 14 Sales or Corporate 14 Management Software 14 Chapter Overview entr Ie fter t Age 15 Feat les 5 uns eiii oe e etin tite tatit E path 16 tetendit ris 16 Power Supply Slots 5t HER 17 RPS Gonn6 Cctors u te etch a fade ct edd sedeo edu 17 Power Su pply Modules SALARIO UE LERRA R ERA 19 System Power and Power for POE nennt seda nante net steer nane 21 System edet tian et 21 lt
41. 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 Use the AT PNL250 Blank Panel if the chassis has either of the AT PWR250 Power Supply Modules or the AT PNL800 1200 Blank Panel if the chassis contains the AT PWR800 or AT PWR1200 Power Supply Module Figure 43 Installing the Slot Cover 7 Secure the slot cover to the chassis by tightening the two captive Screws Figure 44 Securing the Slot Cover 64 53000 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 CBL 1 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 sure to connect the RPS cable squarely and evenly on the connector on the switch Attaching the connector at an angle may cause an electrical short that might damage the device Figure 45 Connecting the AT RPS CBL 1 0 Cable to the x610 Series Switch 65 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules
42. ent 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 A Warning Warnings inform you that performing or omitting a specific action may result in bodily injury 53000 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 Contacting Allied Telesis Online Support Email and Telephone Support Warranty Returning Products Sales or Corporate Information Management Software Updates This section provides Allied Telesis contact information for technical support and for sales and corporate information 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 For Technical Support via email or telephone refer to the Support amp Services section of the Allied Telesis web site www alliedtelesis com support Select your country from the list displayed on the website and then select the appropriate menu tab For hardwa
43. es including the AT PWR800 and AT PWR1200 Modules The three modules may be used to provide system power to PoE and non PoE switches Non PoE switches may be connected to either the RPS System or PoE System port on the chassis Non PoE switches connected to an RPS PoE System port receive system power but no power for PoE even if the power supply in the corresponding slot in the chassis contains a module This principal is illustrated in Figure 8 on page 26 where the single low power non PoE switch from the previous example is now connected to the RPS 2 PoE System port from which it receives just system power 25 Chapter 1 Overview AT RPS3000 Chassis 5 a with One Power Supply es 1 Slot A x RPS 2 PoE System Port AT x610 24Ts Switch Low power m 7 2141 Figure 8 Example of a Non PoE Low power Switch Connected to an RPS PoE System Port This example illustrates how a power supply module can provide system power to two low power switches at the same time The power supply module in slot A is actively supporting the low power AT x610 24Ts and AT x610 24Ts X Switches which are connected to the RPS 1 System and RPS 2 PoE System ports respectively The power supply module in the chassis actively delivers system power to both switches whose own non removable internal power supplies operate in redundant
44. es and the AT RPS3000 Chassis The DC module is only supported in the PoE x610 Switches It is not supported in the AT RPS3000 Chassis 53000 Redundant Power Supply Installation Guide Selecting a Location for the AT RPS3000 Chassis in the Equipment Rack The AT RPS3000 Chassis has to be installed in the same equipment rack as the x610 Series switches You may install it above below or between the switches This may require relocating networking equipment to other equipment racks if there is currently no available space for the chassis in the rack Figure 33 Positioning the AT RPS3000 Chassis in the Equipment Rack This figure illustrates three arrangements that are not recommended for the chassis and switches You should not install the devices in adjacent equipment racks or alongside each other on a tabletop because that would require twisting the AT RPS CBL1 0 Cables which may damage them In addition Allied Telesis does not recommend stacking the chassis and Switches on a table because that could create an unsafe workplace Figure 34 Unauthorized AT RPS3000 Chassis and x610 Series Switch Installations Go to Installing the AT RPS3000 Chassis in an Equipment Rack on page 58 57 Chapter 2 Inst
45. ions 90 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 RPS 2 and 4 PoE System Ports Pin Description P1 12V return P2 12V P3 56V P4 56V return 1 12V remote sense 2 Reserved 3 RPS status 4 Reserved 5 12V remote sense 6 RPS power good 7 Reserved 8 56V load share 9 PoE positive remote sense 10 RPS present 11 Switch power good 12 Reserved 13 PoE ready 14 Reserved 15 Switch present Reserved 53000 Redundant Power Supply Installation Guide Table 12 RPS 2 and 4 PoE System Ports Pin Description 17 PoE negative remote sense 91 Appendix A Technical Specifications 92
46. it 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 amp E21 Warning Mounting of the equipment in the rack should be such that a hazardous condition is not created due to uneven mechanical loading gt E25 Warning This unit might have more than one power cord To reduce the risk of electric shock disconnect all power cords before servicing the unit 2 E30 If installed in a closed or multi unit rack assembly the operating ambient temperature of the rack environment may be greater than the room ambient temperature Therefore consideration should be given to installing the equipment in an environment compatible with the manufacturer s maximum rated ambient temperature 5 Caution Installation of the equipment in a rack should be such that the amount of air flow required for safe operation of the equipment is not compromised 6 Warning Reliable earthing of rack mounted equipment should be maintained Particular attention should be given to supply connections other than direct connections to the branch circuits e g use of power strips E37 Caution This unit does not contain serviceable components Please return damaged units for servicing amp E42 Caution An Energy Hazard exists inside this equipment Do not insert ha
47. le AT x610 48Ts POE Switch with powered devices consuming 780 to 1560 watts cr 99 ge AT PWR1200 Module Figure 24 Two AT PWR1200 Modules for 780 to 1560 Watts with Limited Redundancy The power modules in the switches and chassis in the examples up to this point have been the same model But as shown in Figure 25 on page 40 they can be different The example shows a chassis that is supporting three switches two of which are low power and one is high power 39 Chapter 1 Overview AT RPS3000 Chassis AT x610 24Ts Switch low power AT x610 24Ts X POE Switch low power with the AT PWR1200 Module and powered devices requiring 420 watts AT x610 48Ts POE Switch high power with the AT PWR250 Module and powered devices requiring 710 watts AT PWR800 Module 8 69 AT PWR1200 __ Module 2154 Power Module Combinations for PoE Switches Figure 25 Example of x610 Series Switches and AT RPS3000 Chassis with Different Power Supply Modules The following table may be of assistance to you in selecting power supply modules for PoE switches It lists the various combinations of power modules for the switch and AT RPS3000 Chassis and the available PoE power It should be noted that it does not mat
48. ly 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 This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with this instruction manual may 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 his own expense Note Modifications or changes not expressly approved of by the manufacturer or the FCC can void your right to operate this equipment Industry Canada This Class A digital apparatus complies with Canadian ICES 003 Cet appareil num rique de la classe A est conforme la norme NMB 003 du Canada RFI Emissions FCC Class A EN55022 Class A EN61000 3 2 EN61000 3 3 VCCI Class A C TICK CE Warning In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures EMC Immunity 55024 Electrical Safety 60950 1 TUV UL 60950 1 cULus Laser Safety EN60825 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 T
49. n seating the module because this may damage the system or the module If the module resists seating remove it from the system realign it and try again gt E47 Note When installed the AT PWR1200 Module extends 5 6 cm 2 2 in from the back panel of the chassis 61 Chapter 2 Installing the 53000 Chassis and Power Supply Modules AT PWR250 Module AT PWR800 Module AT PWR1200 Module Figure 40 Installing a Power Supply Module A Caution Do not connect the power cord to the module until after you have installed the module in the chassis The unit is not hot swappable and may be damaged if it is installed while it is powered on 62 53000 Redundant Power Supply Installation Guide 3 Secure the module to the chassis by tightening the two captive screws Figure 41 Securing a Power Supply Module 4 For the AT PWR250 or AT PWR800 Module install the power cord retaining clip on the AC power socket by pressing the sides of the clip inward and inserting the two ends into the holes on the power socket The AT PWR1200 Module does not come with a power cord retaining clip Figure 42 Installing a Power Cord Retaining Clip 5 To install a second power supply module repeat steps 2 through 4 63 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules 6 Ifthe unit is to have only one power supply module cover the
50. n the AC power to it the switch immediately begins to draw system power from the AT RPS3000 Chassis to prevent any interruption to its network operations The easiest way to determine whether the switch is a PoE or non PoE x610 Series switch is to examine its model name on the front panel switches have in their product names Another way is to look at the back panel to see if the power supply is removable or non removable PoE switches have removable power modules while non PoE switches have non removable modules as shown in Figure 6 21 Chapter 1 Overview AT PWR800 100 20 VAC 12A MAX S a E e lt gt 2 mem lt gt AXE i m TY 5 IN e d e 5 2 AES amp POWER Removable Power Supply 2158 Non removable Power Supply Switches non PoE Switches 22 PoE Power Figure 6 Removable and Non removable Power Supply Modules in x610 Switches To summarize a non PoE x610 Series switch uses the AT RPS3000 Chassis as its active source of system power and its internal non removable module as a redundant source For a PoE x610 Series switch the reverse is true because its primary source of system power is its removable internal module and the redundant source is the power module in the AT RPS3000 Chassis System power for PoE and non PoE x610 Series switches is provided by all four RPS port
51. nd connecting one of the switches to RPS port 3 or 4 The resolution is shown in Figure 11 on page 28 53000 Redundant Power Supply Installation Guide AT RPS3000 Chassis with One Power Supply AT x610 24Ts Switch Low power AT x610 48Ts Switch High power Figure 19 Example of an Invalid Configuration B 35 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 You may use any of the three available power supply modules listed in Switches 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 A power module can support two low power switches or one high power switch For more information refer to Low power and High power Switches on page 24 Here is an example If you have five low power and two high power non
52. nds or tools into open chassis slots or sockets E44 Warning This equipment shall be installed in a Restricted Access location E45 51 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules Planning the Installation 52 Observe these requirements when planning the installation O 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 Devices in a rack should be installed starting at the bottom with the heavier devices near the bottom of the rack Check that the power outlets are located near the chassis and are easily accessible If you are installing the AT PWR1200 Power Supply Module in North America verify that the AC power source has an NEMA 5 20R receptacle 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 1965 Figure 32 100 125 VAC 125 V 5 20 Plug Receptacle Verify that the site provides easy access to the front and rear panels of the chassis This will make it easy for you to install the power modules view the LEDs and connect and disconnect the power and
53. ng PoE power to the PoE System port To determine which power supply in the chassis is overheating use the SHOW SYSTEM ENVIRONMENT command in the management software on the x610 Series switch 45 Chapter 1 Overview Power Module power modules have DC OUT FAULT LED shown in Figure 30 on LED 46 that displays the same information as the DC OUT LEDs on the front panel 2162 Figure 30 Power Module LED Table 8 describes the Power Module LED Table 8 Power Module LED LED State Description DC OUT FAULT Green The DC output from the power supply module is within the normal operating range Amber The DC output from the power supply module is below the normal operating range either because the module is failing or the input voltage from the AC power source is below the normal operating range Off The module is not receiving any AC power 46 53000 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 ATZ Alied Telesis AT RPS3000 P LOAD STATUS CABLE STATUS PORT LIVE FAULT CABLEDET NOCABLE DISABLED
54. ot swappable It may be damaged if you remove it from the chassis while it is powered on If the chassis has two power modules you do not have to power off the second module unless you are planning to remove it 79 Chapter 3 Removing Power Supply Modules 3 Loosen the two captive screws securing the power module to the chassis Figure 60 Loosening the Two Captive Screws 4 Slide the module from the chassis Figure 61 Removing the Power Supply from the Chassis Note Use care when pulling the power supply module from the chassis You might bend the power and control pins on the backplane connectors if you roughly pull the module from the unit 5 To install a new power supply module perform the procedure Installing a Power Supply Module on page 61 80 53000 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 Use the AT PNL250 Blank Panel if the chassis contains the AT PWR250 Power Supply Module or the AT PNL800 1200 Blank Panel if it has the AT PWR800 or AT PWR1200 Power Supply Module Figure 62 Installing the Slot Cover 7 Secure the slot
55. ower to just one switch at a time Consequently the chassis must have a second module if it is to support two PoE switches In Figure 15 on page 31 the AT x610 24Ts X POE and AT x610 48Ts X POE Switches receive redundant system power and additional PoE power from the modules in slot A and B respectively 53000 Redundant Power Supply Installation Guide RPS 2 PoE System Port AT RPS3000 Chassis with Two Power Supplies C RPS4 Slot A PoE System Port AT x610 24Ts X POE Switch Low power High power AT x610 48Ts X POE Switch 2 Figure 15 Example of Two PoE Switches In Figure 16 on page 32 two low power switches are supported by a single power supply module in slot A of the chassis One switch supports PoE while the other does not Remember the terms low and high power do not refer to the PoE feature A switch that supports the PoE feature may be a low or high power device Because it is a non PoE switch the AT x610 24Ts Switch is connected to RPS 1 System port from which it receives system power for its switching functions In contrast the AT x610 24Ts X POE Switch is connected to the RPS 2 System PoE to receive redundant system power and active PoE power 31 Chapter 1 Overview 32 AT RPS3000 Chassis with One Power Supply AT x610 24Ts Switch
56. 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 As explained in this overview the power supply modules in the chassis function in either a redundant or an active state depending on the switch model For non PoE x610 Series switches the chassis acts as the active power source for the switches whose own internal non removable power supplies function as backup modules For PoE switches the chassis acts as a redundant power supply for system power and in a load sharing mode for PoE power A Warning The AT RPS3000 Chassis is designed specifically for the x610 Series of Layer 3 Gigabit Ethernet switches and should not be used with any other product Note The AT RPS3000 Chassis is not a battery backup unit The power supply modules in the chassis have to be connected to active power sources to deliver power to the switches LED Panel The front panel of the AT RPS3000 Chassis has an LED panel that displays status information about the power supply modules and RPS ports The LEDs are described in LEDs on page 42 Allie IM AT RPS3000 Ce e Thir caen SMOBULE APORTS MODULE B PORTS m exl zs a LED Panel
57. re warranty information refer to the Allied Telesis web site at www alliedtelesis com support Products for return or repair must first be assigned a return materials authorization RMA number A product sent to Allied Telesis without an RMA number will be returned to the sender at the sender s expense To obtain an RMA number contact the Allied Telesis Technical Support group at our web site www alliedtelesis com support Select your country from the list displayed on the website Then select the appropriate menu tab You can contact Allied Telesis for sales or corporate information through our web site at www alliedtelesis com To find the contact information for your country select Contact Us New releases of management software for our managed products are available on our Allied Telesis web site at http www alliedtelesis com support 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 a Guidelines on page 48 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
58. s on the AT RPS3000 Chassis RPS 1 and 3 System ports provide only system power and RPS 2 and 4 PoE System ports provide PoE power in addition to system power You may use any of the available power supply modules listed in Table 1 on page 19 to provide system power to the x610 Series switches In fact the modules when installed in the AT RPS3000 Chassis can provide system power to two low power switches at the same time as explained in Low power and High power Switches on page 24 The switch and chassis do not display the active or redundant status of a power supply module You may use the LEDs and switch s management software to determine whether a power module is operating correctly but not whether it is the active or redundant system power for the switch The four x610 Series switches that support PoE on the twisted pair ports do not come with power supply modules The modules have to be purchased separately You may use any of the three modules in a PoE switch although the AC AT PWR250 Module does not provide PoE power only system power The AT PWR800 and AT PWR1200 Power Supply Modules provide 480 780 watts respectively of POE power in addition to system power As explained earlier in this Overview there is no load sharing of system power between the power supplies in the switch and AT RPS3000 Chassis Only one source is active while the other is held in a redundant state 53000 Redundant Po
59. states Again as in the previous example the power module in slot A can be any of the available models because they are all capable of supporting up to two low power switches m O RPS1 AT RPS3000 Chassis EX System Port with One Power Supply as 2 h RPS 2 Slot A PoE System Port AT x610 24Ts Switch Low power 4 4 AT x610 24Ts X Switch Low power a 2135 Figure 9 Example of Two Low power Switches 26 53000 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 You may also combine the AT PWR800 and AT PWR1200 Modules in the chassis installing one of each model in the slots However you may not combine the AT PWR250 Module with the AT PWR800 or AT PWR1200 Module in the chassis as explained in Power Supply Modules on page 19 AT RPS3000 Chassis wa with Two Power Supplies 5 2 A 5 2 Low power Switches Slot A Powered by the
60. tches 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 high power units An exception is the 24 port AT x610 24SPs X Switch which is a high power device The table shown here lists the two switch categories Table 3 Low power and High power Switches Low power Switches High power Switches AT x610 24Ts AT x610 48Ts AT x610 24Ts X AT x610 48Ts X AT x610 24Ts POE AT x610 48Ts POE AT x610 24Ts X POE AT x610 48Ts X POE AT x610 24SPs X The two categories are important because the power supply modules can support two low power switches or one high power switch at the same time This table lists the valid and invalid configurations of low and high power switches for the power modules Table 4 Valid and Invalid Configurations of Low and High power Switches for a Power Supply Module Valid Configurations Invalid Configurations One low power switch One low power switch and one high power switch Two low power switches Two high power switches One high power switch A Caution A power supply module that is connected to an invalid configuration may overload and fail The responsibility for adhering to the rule
61. telesis com Warning To prevent electric shock do not remove the cover No user serviceable parts inside This unit contains hazardous voltages and should only be opened by a trained and qualified technician To avoid the possibility of electric shock disconnect electric power to the product before connecting or disconnecting the LAN cables amp E1 Warning Do not work on equipment or cables during periods of lightning activity E2 Warning Power cord is used as a disconnection device To de energize equipment disconnect the power 2 Warning Class Equipment This equipment must be earthed The power plug must be connected to a properly wired earth ground socket outlet An improperly wired socket outlet could place hazardous voltages on accessible metal parts amp E4 Pluggable Equipment The socket outlet shall be installed near the equipment and shall be easily accessible E5 Caution Air vents must not be blocked and must have free access to the room ambient air for cooling amp E6 Warning Operating Temperature This product is designed for a maximum ambient temperature of 40 degrees C amp E7 All Countries Install product in accordance with local and National Electrical Codes 2 E8 53000 Redundant Power Supply Installation Guide Circuit Overloading Consideration should be given to the connection of the equipment to the supply circu
62. ter which module is in the Switch and which is in the chassis For example in option 4 the AT PWR800 Module could be in the AT RPS3000 Chassis and the AT PWR250 Module in the switch Or it could be the other way around with the AT PWR250 Module in the chassis and the 800 Module in the switch Table 5 Power Supply Module Combinations for PoE Switches 40 Power Supply Power Supply Mange or ro E frange oror System Power Power with Power without Module 1 Module 2 Redundancy Redundancy Redundancy 1 AT PWR250 None None No 2 AT PWR250 AT PWR250 None None Yes Table 5 Power Supply Module Combinations for Switches AT RPS3000 Redundant Power Supply Installation Guide Range of PoE Range of PoE Power Supply Power Supply Power with Powerwitheut System Power Module 1 Module 2 Redundancy Redundancy Redundancy AT PWR800 to 480 watts No AT PWR800 AT PWR250 None 0 to 480 watts Yes AT PWR800 AT PWR800 0 to 480 watts 481 to 960 Yes watts AT PWR1200 2 None 0 to 780 watts No AT PWR1200 AT PWR250 None 0 to 780 watts Yes AT PWR1200 AT PWR800 0 to 480 watts 481 to 1260 Yes watts AT PWR1200 AT PWR1200 0 to 780 watts 781 to 1440 Yes watts 41 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
63. tes of the power supply modules are keyed to prevent the installation of incompatible modules in the chassis You may not install the AT PWR250 Power Supply Module in the same chassis as the AT PWR800 or AT PWR1200 Module For more information refer to Power Supply Modules on page 19 Problem 7 The chassis is not providing power to an PoE x610 Series switch Solution Try the following Verify that the x610 Series switch supports the PoE feature model name on the front panel of the switch should contain the letters POE Switches whose model names do not include the letters do not support PoE o Verify that the AT RPS CBL 1 0 cable from the x610 Series switch is securely connected to RPS port 2 or 4 PoE System on the chassis o Verify that the chassis has a power supply for the RPS port to which the switch is connected For example if the switch is connected to RPS port 4 slot B of the chassis has to contain either an AT PWR800 or AT PWR1200 Module 9 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 800 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 If this occurs the module continues to provide s
64. to be the same type as the power supply in the AT RPS3000 Chassis For example a switch that contains the AT PWR250 Module may be connected to an AT PWR1200 Module in the AT RPS3000 Chassis If the chassis is operational you should always turn off an RPS port with the appropriate On Off port switch in the LED panel before connecting or disconnecting an RPS cable Chapter 2 Installing AT RPS3000 Chassis Power Supply Modules are the installation procedures for the AT RPS3000 Chassis Reviewing Safety Precautions on page 50 Q 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 the Equipment Rack on page 57 Installing the AT RPS3000 Chassis an Equipment Rack page 58 Q Installing a Power Supply Module on page 61 D Connecting the AT RPS3000 Chassis to the x610 Series Switch on page 65 Powering On the Power Supply Modules on page 69 49 Chapter 2 Installing the AT RPS3000 Chassis and Power Supply Modules Reviewing Safety Precautions 50 Please review the following safety precautions before installing the unit 4 Note The indicates that a translation of the safety statement is available in a PDF document titled Translated Safety Statements 613 000405 posted on the Allied Telesis website at www allied
65. wer 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 It acts as a redundant source of system power for the switches and assuming the chassis has PoE power supplies actively provides them with additional power for PoE so that they can support more powered devices Of the three available power supply modules for the chassis two modules provide PoE power along with system power to the PoE switches They are the 800 and AT PWR1200 Modules These modules provide PoE power to just one switch at a time meaning that each PoE switch has to have a separate power module in the AT RPS3000 Chassis that is if you want the switches to receive additional POE power from the chassis All four RPS ports on the chassis may be used to provide system power to the switches But only RPS 2 and 4 ports labeled PoE System be used to supply PoE power Thus for a PoE switch to receive PoE power from a power supply in the chassis it has to be connected to one of those ports PoE switches that are connected to RPS 1 or 3 port will not receive extra PoE power only redundant system power 23 Chapter 1 Overview Low power and High power Switches 24 The x610 Series swi
66. ws the only way in which the brackets may be positioned on the chassis 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 2151 Figure 38 Mounting the AT RPS3000 Redundant Power Supply in an Equipment Rack 59 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 CBL 1 0 cables 6 Goto Installing a Power Supply Module on page 61 60 53000 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 Figure 39 Removing the Blank Shipping Panel from the Back Panel 2 Orient the new power supply module as shown in Figure 40 on page 62 and slide it into the slot until the tabs with the captive screws are flush with the back panel of the chassis If you are installing only one power supply module you may install it in either slot Light pressure may be required to properly seat the module on the power connector inside the chassis A Caution Do not use excessive force whe
67. ystem power on both of its RPS ports but stops providing PoE power on the RPS PoE System port Check the TEMP LED in the LED panel If the LED is amber the power module may be overheating When this occurs the module continues to provide system power on both of its RPS ports but stops providing PoE power on the RPS PoE System port 85 Chapter 4 Troubleshooting 86 Appendix 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 4 2 cm x 14 8 cm x 25 2 cm 800 Power Supply 1 7 in x 5 8 in x 9 8 in Modules 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 4 2 kg 9 3 Ib AT PWR250 Module AC 1 5 kg 3 3 Ib AT PWR800 Module 1 8 kg 3 9 Ib AT PWR1200 Module 2 2 kg 4 8 Ib Recommended Minimum Ventilation on All Sides 10 cm 4 0 in Environmental Specifications Operating Temperature 0 C to 40 C 32 F to 104 F Storage Temperature 20 C to 60 C 4 F to 140 F Operating Humidity 596 to 90 noncondensing Storage Humidity 5 to 95 noncondensing Maximum Operating Altitude 3 048 m 10 000 ft Maximum Nonoperating Altitude 4 000 m 13 100 ft 87 Appendix A Technical Specifications Power Specifications Certifications Maximum Power Consumption AT PWR250 Module
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