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Emerson AXP 1410 Installation And Use Manual

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AXP 1410
Installation and Use
P/N: 6806800H70F
October 2011
Embedded Computing for
Business-Critical Continuity
TM

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Summary of Contents for Emerson AXP 1410

  • Page 1 Embedded Computing for Business-Critical Continuity AXP 1410 Installation and Use P/N: 6806800H70F October 2011...
  • Page 2 Emerson reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such revision or changes.

  • Page 3: Table Of Contents

    Acoustic Noise Control ............. . 46 AXP 1410 Installation and Use (6806800H70F)
  • Page 4 Installing a Fan Filter ..............79 AXP 1410 Installation and Use (6806800H70F)
  • Page 5 Shelf Manager Switchover ......... . 107 AXP 1410 Installation and Use (6806800H70F)
  • Page 6 7.3.3 Power Configuration ............148 AXP 1410 Installation and Use (6806800H70F)
  • Page 7 Related Documentation ............. . 173 Emerson Embedded Communications Computing Documents ......173 Related Specifications .
  • Page 8 Index ................. . 199 AXP 1410 Installation and Use (6806800H70F)
  • Page 9 Sensor No. 14 Fan 1 Outlet ..........133 AXP 1410 Installation and Use (6806800H70F)
  • Page 10 Face Plate LEDs ............. 169 AXP 1410 Installation and Use (6806800H70F)
  • Page 11 List of Tables Table A-1 Emerson Network Power - Embedded Computing Publications ....173 Table A-2 Related Specifications ............174...
  • Page 12 List of Tables AXP 1410 Installation and Use (6806800H70F)
  • Page 13 Alarm I/O Connector Pinout ..........171 AXP 1410 Installation and Use (6806800H70F)
  • Page 14 List of Figures AXP 1410 Installation and Use (6806800H70F)

  • Page 15: About This Manual

    Overview of Contents This manual is divided into the following chapters and appendix. Chapter 1, System Overview, on page 23, provides a brief introduction to the AXP 1410. Chapter 2, Site Preparation, on page 37, provides general information such as unpacking the system, requirements, dimensions and weight.
  • Page 16 Error Correcting Code Electromagnetic Compatibility Electromagnetic Interference Elektromagnetische Verträglichkeit Electrostatic Discharge European Telecom Standard ETSI European Telecommunication Standards Institute Field Application Engineer Federal Communications Commission Firmware Upgrade Utility FPGA Field Programmable Gate Array Field Replaceable Unit AXP 1410 Installation and Use (6806800H70F)
  • Page 17 Light Emitting Diode Logical Units NEBS Network Equipment Building System NetFn Network function (code) Original Equipment Manufacturer Out Of Service Peripheral Component Interconnect (bus) Primary Earth Power Entry Module PICMG PCI Industrial Computer Manufacturers Group AXP 1410 Installation and Use (6806800H70F)
  • Page 18 Simple Network Management Protocol System On a Chip Secure Shell To Be Defined Time-Division Multiplexing Telephone Network Voltage Twisted-Pair Ethernet Underwriters Laboratory VCCI Voluntary Control Council for Interference DC Voltage VLAN Virtual Local Area Network AXP 1410 Installation and Use (6806800H70F)
  • Page 19 Repeated item for example node 1, node 2, ..., node Omission of information from example/command that is not necessary at the time being Ranges, for example: 0..4 means one of the integers 0,1,2,3, and 4 (used in registers) Logical OR AXP 1410 Installation and Use (6806800H70F)
  • Page 20 No danger encountered. Pay attention to important information Summary of Changes This manual has been revised and replaces all prior editions. Part Number Publication Date Description 6806800H70A April 2009 First edition 6806800H70B July 2009 Second edition AXP 1410 Installation and Use (6806800H70F)
  • Page 21 July 2010 Removed F120 support Updated 5.2, Network Management 5.3, Accessing System Components sections. Corrected FTM Temperature Sensor tables Centellis 4410 is renamed to AXP 1410 6806800H70D October 2010 Added Chapter 8, Shelf Management Alarm Module, on page 165. 6806800H70E June 2011 Removed Sensor No.
  • Page 22 About this Manual About this Manual AXP 1410 Installation and Use (6806800H70F)

  • Page 23: System Overview

    Chapter 1 System Overview Description The AXP 1410 system is a high availability AdvancedTCA (Advanced Telecom Computing Architecture) system. The PICMG 3.X AdvancedTCA Specifications define components for high- performance services solutions. It is an architecture for highly-available and scalable high- speed interconnect technologies.

  • Page 24: Figure 1-1 System Front View

    ESD wrist strap sockets and grounding studs Figure 1-1 System Front View Alarm Display Panel ACT A COM A COM B ACT B ACT B CR T ACT A COM A COM B Cable Management Tray FanTray AXP 1410 Installation and Use (6806800H70F)
  • Page 25 System Overview Figure 1-2 System Rear View AXP 1410 Installation and Use (6806800H70F)

  • Page 26: Shelf

    System Overview 1.1.1 Shelf The AXP 1410 shelf consists of a formed 13U sheet metal card cage with structure and support for the backplane, PEMs, FTMs, SAMs, and 14 card slots. Figure 1-1 on page 24 provides a front view of the shelf, Figure 1-2 on page 25 provides a rear view of the shelf.

  • Page 27: Update Channel Interface

    The SAM1410 is fully compliant to the shelf management functions as specified in the PICMG 3.0 R2.0 Specification. For a detailed description refer to the SAM1410 Installation and Use and the System Management Interface Based on HPI-B (Centellis CO 31kX/4100/2000/4410). AXP 1410 Installation and Use (6806800H70F)

  • Page 28: Blades

    System Overview 1.1.4 Blades The backplane in a AXP 1410 system provides 12 node slots. They are located to the left and to the right of the two hub slots in the middle. Figure 1-4 Slot Distribution Power FTM - 1...

  • Page 29: Base Interface

    The fabric interface supports point-to-point connections between AdvancedTCA blades. In the AXP 1410, these fabric connections are configured in a dual star topology that runs back to the hub slots. The AXP 1410 system has PICMG 3.1 Option 9 channel slots. These channels are aggregated at the hub slots into the dual-star topology.

  • Page 30: Power Entry Modules

    System Overview The Emerson RTMs can be used as rear expansion boards for node blades and for the switch to access the different interfaces on an AdvancedTCA blade through the RTM face plate. 1.1.7 Power Entry Modules The Power Entry Module (PEM) is a Field Replaceable Unit (FRU) and can be replaced while the system is on, but the power for the PEM being replaced (PEM A or PEM B) must be shut down at the external source.

  • Page 31: Standard Compliances

    (RoHS). The product has been designed to meet the directive on the Restriction of the use of certain Hazardous Substances in electrical and electronic equipment (RoHS) Directive 2002/95/EC. WEEE Compliance AXP 1410 Installation and Use (6806800H70F)

  • Page 32: Ordering Information

    WEEE symbol, Emerson has contracted with certified companies that can reprocess this equipment per European Union requirements. Please visit the Emerson web site or contact your Emerson representative to find out who to contact and how to dispose of the equipment.

  • Page 33: Table 1-2 Order Numbers

    System Overview As of the printing date of this manual, the AXP 1410 Installation and Use supports the system models listed below. Consult your local sales representative for ordering information on spare parts not listed. Table 1-2 Order Numbers Order Number...

  • Page 34: Product Identification

    System Overview Product Identification You can find the system label at the back of the system on the left. Figure 1-5 System Label Location Label AXP 1410 Installation and Use (6806800H70F)

  • Page 35: Figure 1-6 System Label Example

    Des sources multiples de pouvoir sont présentes. L'entretien e cet équipement doit être effectué par du personnel de service qualifié. Veuillez vous référer au guide d’instalation. WARNUNG Es gibt mehrere Spannungsquellen Wartung ausschließlich durch qualifiziertes Wartungspersonal Siehe auch Installtionsanleitung 3306844B02A AXP 1410 Installation and Use (6806800H70F)

  • Page 36: Figure 1-7 Serial Number Location

    The label with the serial number is located at the back of the system on the right. Figure 1-7 Serial Number Location Label The following figure shows a sample serial number label. Figure 1-8 Serial Number Label Example AXP 1410 Installation and Use (6806800H70F)

  • Page 37: Site Preparation

    1. Verify that you have received all items of your shipment. Compare the shipment thoroughly with the delivery note. 2. Visually inspect the shelf to ensure that all of the connector pins are straight, shrouds are properly seated, screws are tight, etc.. AXP 1410 Installation and Use (6806800H70F)

  • Page 38: Site And Installation Planning

    Planning basic site and installation requirements you have to consider the following issues: 1. Is adequate power for the AXP 1410 system available? 2. Can the system be positioned in a way that -48 to -60V DC power source is easy to reach? 3.

  • Page 39: Requirements

    Some of the climatic values may exceed the specification of some system components (for example hard disks). As Emerson cannot guarantee the functionality of third party products that are handled or operated out of their specifications, the environmental conditions may be limited to the specifications of these components.
  • Page 40 The ambient temperature around the shelf and the air inlet temperature must not exceed 55°C (131°F). The AXP 1410 system regulates the fan speed based on the temperature sensors present in the system. The fan speed is adjusted to the lowest speed which still keeps the evaluated temperature readings below or at their respective "upper non-critical...

  • Page 41: Power Requirements

    Chassis idle power 170 W Chassis maximum power 870 W When installing additional blades or modules, make sure that the power consumption of all installed modules does not exceed the system's maximum power dissipation. AXP 1410 Installation and Use (6806800H70F)

  • Page 42: Dimensions And Weight

    Shelf, including two fan trays, two PEMs, and an air 497 x 573 x 544 39.6 filter 164 x 73 x 155 Upper fan tray module 491 x 87 x 227 Lower fan tray module 491 x 119 x 331 AXP 1410 Installation and Use (6806800H70F)

  • Page 43: Mounting Options

    To ensure the system is properly grounded, each of the system's parts contact the EMI gasket. The system contains gaskets at the shelf and module level. The shelf is also fitted with ESD contacts. Please take care for proper ESD protection of the operator. AXP 1410 Installation and Use (6806800H70F)

  • Page 44: Cooling Considerations

    600mm Deep Cabinet Cooling Considerations The AXP 1410 provides fault tolerant cooling to front-mounted AdvancedTCA blades and to rear transition modules based on two hot swappable intelligent fan trays with five fans per tray. AXP 1410 Installation and Use (6806800H70F)
  • Page 45 The actual cooling performance depends on the slot population and the heat sink design of installed blades and should be validated based on the used system configuration. The cooling subsystem is designed to provide 31.1 CFM in the front and presence of any single cooling failure. AXP 1410 Installation and Use (6806800H70F)

  • Page 46: Acoustic Noise Control

    If the system is installed in an environment where the noise may be harmful to personnel being exposed to the noise during extended time periods, additional protective measures should be considered. AXP 1410 Installation and Use (6806800H70F)

  • Page 47: System Installation

    Before Installation This section provides the following information: Type label location Requirements Tools you will need 3.2.1 Requirements The power input cables must have a minimum cross section of 21 mm , AWG 4. AXP 1410 Installation and Use (6806800H70F)

  • Page 48: Tools You Will Need

    Large, medium and small Phillips screwdrivers Nut driver with 7/16 mm socket Multimeter Front mounting brackets for an EIA 23’’ frame (shipped with AXP 1410) AdvancedTCA PEM service Kit, PN 67068008A01 (shipped with AXP 1410) Right-angle cable lug kit, PN 6706808A01 (shipped with AXP 1410)
  • Page 49 Wire Gauge (AWG) has to be selected. Overcurrent protection - A readily accessible listed branch-circuit overcurrent protective device must be incorporated into the building wiring. Emerson is not responsible for regulatory compliance or malfunction of any user-modified product. System Damage Environmental contamination can impair system operation.

  • Page 50: Installing The System In A Rack

    If the rack is equipped with stabilizing devices, make sure that they are installed and extended so that the rack is secure. Then proceed to mount or service the system. AXP 1410 Installation and Use (6806800H70F)
  • Page 51 (minimum 6 mm (0.24 inch) in diameter) on the left side and eight on the right side of the system. 3. Make sure that the system has been located in a place with room temperature for at least 24 hours before powering it up. AXP 1410 Installation and Use (6806800H70F)

  • Page 52: Figure 3-1 Rack Mounting Dimensions

    Front mounting brackets are required to attach the shelf to an EIA 23" frame. 1. Locate the standard mounting hole and slot locations on the front mounting flanges on the AXP 1410 shelf. 2. Fasten the mounting brackets to the back side of the front chassis flanges using M6 screws x 12mm at each of the 5 locations.

  • Page 53: Connecting The Cables

    The shelf mounts directly from the integrated flange on the front of the shelf. 1. Locate the standard mounting hole and slot locations on the front integrated mounting flanges on the AXP 1410 shelf. 2. Fasten the mounting brackets to the back side of the front chassis flanges using M6 screws x 12mm at each of the 5 locations.

  • Page 54: Dc Power Cable

    Des sources multiples de pouvoir sont présentes. L'entretien de cet équipement doit être effectué par du personnel de service qualifié. Wire Signal Earth Ground PE GND (Primary Earth Ground) Input power -48VDC nominal to -60VDC Return -48VDC RETURN AXP 1410 Installation and Use (6806800H70F)

  • Page 55: Figure 3-2 Dc Power Connection Detail

    System Installation Figure 3-2 DC Power Connection Detail - 4 8 - 4 8 - 4 8 AXP 1410 Installation and Use (6806800H70F)

  • Page 56: Power Cable Termination

    To cable a dual breaker DC system, read all cautions and warnings, properly ground the equipment by following the procedure in Grounding the System on page 58, and follow these steps. This procedure assumes that the PEMs are preinstalled in the shelf. AXP 1410 Installation and Use (6806800H70F)
  • Page 57 6. Using a torque wrench, tighten the nuts with a recommended torque setting of 35.5 to 38.5 inch-pounds. Make sure all DC leads are fastened securely. 7. Replace the plastic cover over the terminal blocks. 8. Verify that the circuit breakers are in the ON position. AXP 1410 Installation and Use (6806800H70F)

  • Page 58: Grounding The System

    Use the torque setting required by the connector supplier. The 2-hole lug prevents rotation of the lug and ensures a permanent bonding of ground to the shelf. Figure 3-3 Grounding Lugs AXP 1410 Installation and Use (6806800H70F)

  • Page 59: Powering Up The System

    System Installation The AXP 1410 shelf was tested in the default configuration of logic ground and shelf ground connected and does not connect -48VDC Return with Shelf Ground. The system has been tested in the default configuration and complies with safety and regulatory standards. As a...

  • Page 60: Powering Down The System

    2. Turn each circuit breaker on the front of PEM A and PEM B to the OFF position. Step 2 removes the input power from the slots in the AXP 1410 shelf only. It does not remove power to the PEMs. To remove power to these components, refer to the next step.
  • Page 61 1. Turn each circuit breaker on the front of PEM A and PEM B to the OFF position. 2. Disable the DC power at the external sources (branch circuit or power distribution unit) for PEM A and PEM B). AXP 1410 Installation and Use (6806800H70F)
  • Page 62 System Installation AXP 1410 Installation and Use (6806800H70F)

  • Page 63: Fru Installation

    Chapter 4 FRU Installation Installing and Removing Node Blades and RTMs Refer to the respective blade or RTM documentation for installation and removal procedures. AXP 1410 Installation and Use (6806800H70F)

  • Page 64: Installing And Removing The Shelf Manager Board

    Damage of Circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten their life. Before touching the blade or electronic components, make sure that you are working in an ESD-safe environment. AXP 1410 Installation and Use (6806800H70F)

  • Page 65: Installing The Board

    7. Wait until the blue LED is illuminated. 8. Screw in the captive screw hand tight. The blue LED blinks. 9. Wait until the blue LED is switched OFF. The switched off blue LED indicates that the board is activated. AXP 1410 Installation and Use (6806800H70F)

  • Page 66: Rotary Switch Settings

    4.2.2 Rotary Switch Settings The two rotary switches on the AXP 1410 are used to set the SGA. The first byte of the shelf address of the shelf FRU information will automatically be set to the SGA value. AXP 1410 Installation and Use (6806800H70F)

  • Page 67: Figure 4-2 Rotary Switch Location

    Figure 4-2 Rotary Switch Location Two AXP 1410 in the same shelf must always be set to the same SGA. Otherwise, the software detects that the FRU information in the two AXP 1410s is different and stops the power-up process. The red LED blinks and the boards are not powered.

  • Page 68: Removing The Board

    The board should start to move out of the chassis. Do not force it. If the SAM does not move, it means the captive screw is not fully unscrewed. Unscrew until loose and rotate the ejector handle down. 6. Remove the module from the shelf. AXP 1410 Installation and Use (6806800H70F)

  • Page 69: Replacing Power Entry Modules

    FRU Installation Replacing Power Entry Modules The AXP 1410 supports two Power Entry Modules (PEMs). Since the shelf is equipped with a redundant power distribution system, the removal of a single PEM does not interrupt system operation. PEMs are accessible from the rear of the shelf. Each PEM has EMI gaskets on all sides of the module that provide EMI shielding.
  • Page 70 Open the external circuit breakers that provide DC feed power to the PEM you are replacing. -48 VDC RTN -48 VDC RTN 2. Lock and tagout the circuit breakers on the branch circuit or power distribution unit. AXP 1410 Installation and Use (6806800H70F)
  • Page 71 9. Confirm that there is no power to the PEM lug bolts. Using a multimeter, measure between the two lugs and then measure between the chassis ground and each lug. If the DC potential is 3.0VDC or less, then power is not present. AXP 1410 Installation and Use (6806800H70F)

  • Page 72: Installing The Pem

    PEM is isolated from all power sources before removing the PEM from the shelf, or removing the plastic terminal block lug cover. This procedure assumes that the redundant PEMs are powered on in the shelf. AXP 1410 Installation and Use (6806800H70F)
  • Page 73 PEM into the slot. System Damage Insufficient cooling can damage the system. Lock the replacement PEM into the slot within 3 minutes to maintain the proper cooling properties of the shelf. AXP 1410 Installation and Use (6806800H70F)
  • Page 74 5. Remove the plastic covering over the terminal block. 6. Verify that the lock and tagout on the branch circuit or power distribution unit is still intact to ensure the system is in a safe state. AXP 1410 Installation and Use (6806800H70F)
  • Page 75 14.Apply power by closing the branch circuit or power distribution circuit breaker to the shelf. 15.Verify that all FRU LEDs illuminate and the PEM’s IS LED is green and the OOS LED is dark. AXP 1410 Installation and Use (6806800H70F)

  • Page 76: Installing Fan Tray Modules

    Please read the following caution before replacing any of the FTMs. Fans may continue to rotate after power is removed. Be careful to keep fingers away from the bottom of the FTM enclosure. AXP 1410 Installation and Use (6806800H70F)

  • Page 77: Removing The Upper Ftm

    4. Using the handle on the front of the FTM, slowly pull the FTM out of the shelf, while supporting the bottom of the module with the palm of your hand. The module is heavy; hold it securely. AXP 1410 Installation and Use (6806800H70F)

  • Page 78: Installing The Upper Ftm

    Figure 4-4 Lower Front FTM Ejector Handles and LEDs 2. Open the ejector handle and wait for the blue LED to go solid and steady. This indicates that the FTM is ready to be removed. AXP 1410 Installation and Use (6806800H70F)

  • Page 79: Installing The Lower Ftm

    Visually inspect filters for tears or rips. Do not reinstall a torn filter as it will be ineffective in trapping particulates and will interrupt air flow distribution. To maintain safety certification, use only Emerson approved fan filters. You can order replacement fan filters by contacting your Emerson sales representative.
  • Page 80 Any particulates that fall into the fan tray module during the air filter replacement must be cleaned out (vacuumed) from the fan tray prior to re-installing the fan tray into the chassis. AXP 1410 Installation and Use (6806800H70F)

  • Page 81: Figure 4-5 Position Of The Fan Filter

    Figure 4-5 Position of the Fan Filter Velcro 5. Lower the vane assembly and rotate the filter bracket into place. 6. Reinstall the lower FTM using the procedure described in Installing the Lower FTM. AXP 1410 Installation and Use (6806800H70F)
  • Page 82 FRU Installation AXP 1410 Installation and Use (6806800H70F)

  • Page 83: Configuring And Operating The System

    When you need to access system components, there are various addresses you need to be aware of. The following subsections describe the ATCA-F120 default VLAN settings, default addresses, and if and how they can be changed. AXP 1410 Installation and Use (6806800H70F)

  • Page 84: Default Vlan Configuration

    Configuring and Operating the System 5.2.1 Default VLAN Configuration The AXP 1410 system provides four network planes. They are, base network a and b and fabric network a and b. The following figures show the VLAN configuration of the switch ATCA-F120. Figure 5-1...

  • Page 85: Slot Numbers And Slot Addresses

    5.2.2 Slot Numbers and Slot Addresses The AXP 1410 provides a dual star network topology, that means each AdvancedTCA blade is connected to the AdvancedTCA hub blade 1 and to the AdvancedTCA hub blade2 with one channel in the extended fabric area. Each hub blade creates a star topology and is located.

  • Page 86: Figure 5-3 Dual Star Topology

    Configuring and Operating the System Figure 5-3 Dual Star Topology AXP 1410 Installation and Use (6806800H70F)

  • Page 87: Shelf Address

    The Shelf address (SA) is used to calculate the shelf manager IP address on the Out-of-band Interface (see VIrtual IP Address on Out-Of-Band Interface on page 93). Therefore, changing the shelf address also changes the shelf manager IP address. AXP 1410 Installation and Use (6806800H70F)

  • Page 88: Setting The Shelf Address

    This ensures that all system components are aware of the new shelf address. For information on how the shelf address is retrieved in certain scenarios and for troubleshooting tips, refer to <shelf address reading behavior on page > AXP 1410 Installation and Use (6806800H70F)

  • Page 89: Shelf Address Reading Behavior

    SGA is applied to the network settings. 5.2.4 IP Addresses The following subsections describe the IP addresses of the shelf manager and the hub blade. There are no pre-defined IP addresses for the node blades. AXP 1410 Installation and Use (6806800H70F)

  • Page 90: Figure

    Ch#2 Ch#2 Ch#1 Ch#1 eth1: 192.168.21.29 eth2: 192.168.22.29 eth1: 192.168.21.28 eth2: 192.168.20.181 eth1: 192.168.20.171 192.168.22.2 192.168.21.1 IPMC IPMC ATCA Hub #1 ATCA Hub #2 Ch#1 Ch#2 IPMC IPMC ATCA Blade #4 ATCA Blade #5 AXP 1410 Installation and Use (6806800H70F)

  • Page 91: Shelf Manager

    If there is an ATCA-F120 present in the system and the shelf manager is identified as SAM1410, the IP addresses are as follows: SAM1410 in Virtual Interface IP Address SLot 8 eth1:2 192.168.20.170 Slot 9 eth2:2 192.168.20.171 AXP 1410 Installation and Use (6806800H70F)

  • Page 92: Table 5-2 Shelf Ip Connectivity Record #2

    *Print current IP address settings shm9s8:~ # hpiship 29 {ADVANCEDTCA_CHASSIS,9} Shelf Resource 4097 Shelf Manager IP Address 0 IP : 192.168.9.171 Gateway: 192.168.9.0 Submask: 255.255.255.0 8449 Shelf Manager IP Address 1 IP : 172.16.9.171 AXP 1410 Installation and Use (6806800H70F)

  • Page 93: Hub Blade

    Table 5-3 Hub Blade IP Addresses Logical Slot Number Interface IP Address VLAN Ethernet Interface Base 192.168.21.1 eth3.21 192.168.22.1 eth3.22 Fabric 192.168.11.1 eth2.11 192.168.12.1 eth2.12 Base 192.168.21.2 eth3.21 192.168.22.2 eth3.22 Fabric 192.168.11.2 eth2.11 192.168.12.2 eth2.12 AXP 1410 Installation and Use (6806800H70F)

  • Page 94: Node Blades

    Component To Be Configured and Accessed Access Via Default IP Address Shelf manager software Out-of-band interface on Virtual IP: 192.168.SA.171 shelf manager Physical IP: 192.168.SA.8 at hardware address 8 192.168.SA.9 at hardware address 9 AXP 1410 Installation and Use (6806800H70F)

  • Page 95: Software

    Boot loader (Uboot) Linux kernel Initial ram disk Fan trays IPMI firmware Node blade Basic Blade Services Software including: Operating System Hardware management functions Set of management routines for Linux and all hardware interfaces IPMI firmware AXP 1410 Installation and Use (6806800H70F)

  • Page 96: Installation

    SAM1410 root file system The following table shows which tools you can use and where you can find a description of how to do it. Emerson recommends to always use FUMI if available. AXP 1410 Installation and Use (6806800H70F)

  • Page 97: Table 5-6 Available Software Upgrade Tools

    System Management Interface Based on HPI-B (Centellis 31kX /4100/2000/4410) User’s Guide Chapter: Using the Firmware Update Management Instrument fw_tool SAM1410 Installation and Use Chapter: Software Upgrade Please refer to the Release Notes to find out about software dependencies. AXP 1410 Installation and Use (6806800H70F)

  • Page 98: Power Entry Module (Pem)

    5.5.1 Description The AXP 1410 has PICMG 3.0 compliant, dual PEMs and is rated for normal -48VDC to -60VDC. The PEMs plug directly into the midplane and deliver power to the backplane. Each input is rated for 80 amps. The two 80 amp feeds each power eight AdvancedTCA slots and the upper and lower FTMs.

  • Page 99: Ipmc Circuitry

    119. Table 5-7 PEM IPMB Addresses Description IPMB Address PEM A 0x66 PEM B 0x68 Figure 1-4 on page 28 provides a conceptual view of the connections between the PEMs, backplane, FTMs, and SAMs. AXP 1410 Installation and Use (6806800H70F)

  • Page 100: Fan Tray Modules

    Configuring and Operating the System Fan Tray Modules This section discusses the operation of the Fan Tray Modules (FTMs) of the AXP 1410. 5.6.1 Description The FTMs are loaded with AdvancedTCA IPMC firmware. The fans are controlled as a group via the IPMI-based interfaces (IPMB) to the SAM.

  • Page 101: Cooling Budget

    The following sections outline the interaction between redundant shelf managers and redundant hub blades. This interaction is not described within the AdvancedTCA Specification PICMG 3.0. The following sections also describe redundancy scenarios with redundant shelf managers and system managers. AXP 1410 Installation and Use (6806800H70F)

  • Page 102: Cold Standby

    5.7.1 Cold Standby In AXP 1410 systems the shelf managers work in redundancy mode, this means that the HPI daemon runs on the active shelf manager and is started on the former stand-by shelf manager once it has become the active one.

  • Page 103: Data Replication

    The following section describes the start-up of a shelf manager, a hub blade and a system manager. A system manager is not part of a AXP 1410 system and has to be developed by the user.

  • Page 104: Shelf Manager

    Hub blade ejector handles are open -: Hub blade not present a: Shelf manager active s: Shelf manager standby 5.7.2.2 Hub Blade Hub blades are associated with a shelf manager. Hub 1 with SAM-A and hub 2 with SAM-B. AXP 1410 Installation and Use (6806800H70F)

  • Page 105: System Manager

    Hub #2, and assigns the virtual IP address to the proper interface. Outside the AdvancedTCA shelf with interlinks between the hub blades The system manager pings via its own active IP address to the active virtual IP address of the shelf manager. AXP 1410 Installation and Use (6806800H70F)

  • Page 106: Figure 5-5 System Start-Up

    Ch#1 eth1: 192.168.21.29 eth2: 192.168.22.29 eth1: 192.168.21.28 eth2: 192.168.20.181 eth1: 192.168.20.171 192.168.22.2 192.168.21.1 IPMC IPMC ATCA Hub #1 ATCA Hub #2 Ch#1 Ch#2 IPMC IPMC ATCA Blade #4 ATCA Blade #5 System Application Manager AXP 1410 Installation and Use (6806800H70F)

  • Page 107: Redundancy Operations

    A switchover is, for example, necessary when the active shelf manager needs to be extracted. Since only the standby shelf manager can be extracted, a switchover needs to take place. AXP 1410 Installation and Use (6806800H70F)

  • Page 108: Figure 5-6 Shelf Manager Switchover

    The system manager performs the following tasks: 1. Checks whether it can reach the standby shelf manager 2. Initiates a switchover on the active shelf manager using an HPI control 3. Closes the HPI session AXP 1410 Installation and Use (6806800H70F)

  • Page 109: Shelf Manager Takeover

    Software failure of the active shelf manager Failure of the switch through which the virtual IP address is routed The system manager detects a failover because of timeouts of the HPI calls. The system manager actions depend on network topology. AXP 1410 Installation and Use (6806800H70F)
  • Page 110 An IP plane failover is not needed and the connection to the applications via the same interface as before is kept. If the virtual IP address of the shelf manager is used, a plane failover is necessary. AXP 1410 Installation and Use (6806800H70F)

  • Page 111: Shelf Manager Insertion

    Shelf Manager Insertion When a new shelf manager board is inserted into the system, it always becomes the standby shelf manager. The shelf manager that is already in the system keeps the active role. AXP 1410 Installation and Use (6806800H70F)

  • Page 112: Shelf Manager Extraction

    The active shelf manager sends an HPI redundancy event (redundancy lost) to the system manager. Blade Insertion and Extraction This section describes the steps that are carried out by the software when a blade is inserted or supposed to be extracted. AXP 1410 Installation and Use (6806800H70F)

  • Page 113: Power-On After Blade Insertion

    The default for each slot is that when a blade is inserted it is automatically switched on by the shelf manager. To change this, you need to change the shelf FRU information. The default for the Auto Insert Timer in HPI is 60 s. Figure 5-8 Blade Power-On After Insertion AXP 1410 Installation and Use (6806800H70F)

  • Page 114: Power-Down Before Blade Extraction

    The payload then has time to carry out all necessary steps. The blade is powered down afterwards. It may take a long time before the payload has finished carrying out all necessary steps and the blade can be powered down. Figure 5-9 Blade Power-Down Before Extraction AXP 1410 Installation and Use (6806800H70F)

  • Page 115: Supported Ipmi Commands

    Chapter 6 Supported IPMI Commands Introduction This chapter describes the different commands supported by the AXP 1410 series platforms. Command categories are as follows: Standard IPMI Commands PICMG 3.0 Commands Standard IPMI Commands The IPMC is fully compliant to the Intelligent Platform Management Interface v.1.5. This section provides information on which IPMI commands are supported on PEMs and fans.

  • Page 116: Sensor Device Commands

    The IPMC supports the following FRU device commands. Table 6-4 Supported FRU Commands Command NetFn Rq/Rs PEMs FTMs Get FRU Inventory Area Info 0x0A/0x0B 0x10 Read FRU Data 0x0A/0x0B 0x11 Write FRU Data 0x0A/0x0B 0x12 AXP 1410 Installation and Use (6806800H70F)

  • Page 117: Picmg 3.0 Commands

    Supported IPMI Commands PICMG 3.0 Commands The Emerson IPMC is a fully compliant AdvancedTCA Intelligent Platform Management Controller. For example, it supports all required and mandatory AdvancedTCA commands as defined in the PICMG 3.0 specification. Table 6-5 Supported PICMG 3.0 Commands...
  • Page 118 Supported IPMI Commands AXP 1410 Installation and Use (6806800H70F)

  • Page 119: Fru Information And Sensor Data Records

    FRU Information and Sensor Data Records Introduction This chapter introduces FRU information, e-keying, sensor overviews, and power configuration data for PEMs and upper and lower fan tray module of the AXP 1410 system. Information in this chapter includes: Fan Tray Module Sensor Data Records...
  • Page 120 48V Feed B Zone 1 Fuse Discrete Always Failure Flag FuseFail 48VB2 OEM-reserved 48V Feed B Zone 2 Fuse Discrete Always Failure Flag FTM Temp 1 Temperature Fan Tray Module Threshold Always Temperature Sensor 1 AXP 1410 Installation and Use (6806800H70F)

  • Page 121: Fan Tray Module Analog Sensors

    Table 7-2 Sensor No. 3 +12V A_MON Feature Raw Value/Description Interpreted Value Sensor Name +12V A_MON Device Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 AXP 1410 Installation and Use (6806800H70F)

  • Page 122: Table 7-2 Sensor No. 3 +12V A_Mon

    Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm mode Auto Hysteresis support Readable/Settable Threshold access support Readable/Settable Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 123: Table 7-4 Sensor No. 5 +3.3V

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0xD8, 0xD4, 0xD1 (3.1104, 3.0528, 3,0096) Volts Non-Recoverable thresholds Upper Non-Critical, Critical and 0xF4, 0xF7, 0xFA (3.5136, 3.5568, 3.6) Volts Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 124: Table 7-5 Sensor No. 6 +5V A_Mon

    Non-Recoverable thresholds Table 7-6 Sensor No. 7 +5V B_MON Feature Raw Value/Description Interpreted Value Sensor Name +5V B_MON Device Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply AXP 1410 Installation and Use (6806800H70F)

  • Page 125: Temperature Sensors

    Feature Raw Value/Description Interpreted Value Sensor Name FTM Temp 1 Device Sensor Type 0x01 Temperature Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm mode Auto Hysteresis support Readable/Settable AXP 1410 Installation and Use (6806800H70F)

  • Page 126: Table 7-7 Sensor No. 30 Ftm Temp 1

    Entire Sensor only Readable threshold mask, 0x3838 Critical and Non-Recoverable Thresholds Settable threshold mask (bytes are Readable and Settable 19, 20) Reading Type Unsigned Critical and Non-Recoverable 0x2D, 0x35, 0x3F (57, 67) Degrees C thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 127: Table 7-9 Sensor No. 32 Ftm Temp 3

    Table 7-10 Sensor No. 33 FTM Temp 4 Feature Raw Value/Description Interpreted Value Sensor Name FTM Temp 4 Device Sensor Type 0x01 Temperature Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm mode Auto AXP 1410 Installation and Use (6806800H70F)

  • Page 128: Table 7-10 Sensor No. 33 Ftm Temp 4

    Entire Sensor only Readable threshold mask, 0x3838 Critical and Non-Recoverable Thresholds Settable threshold mask (bytes are Readable and Settable 19, 20) Reading Type Unsigned Critical and Non-Recoverable 0x2D, 0x35, 0x3F (57, 67) Degrees C thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 129: Fan Speed Sensors

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0x24, 0x24, 0x24 (1224, 1228, 1224) RPM Non-Recoverable thresholds Upper Non-Critical, Critical and 0xCE, 0xE6, 0xF2 (7004, 7820, 8228) RPM Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 130: Table 7-13 Sensor No. 9 Fan 2

    Non-Recoverable thresholds Table 7-14 Sensor No. 10 Fan 3 Feature Raw Value/Description Interpreted Value Sensor Name Fan 3 Device Sensor Type 0x04 Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x1D Cooling Unit AXP 1410 Installation and Use (6806800H70F)

  • Page 131: Table 7-15 Sensor No. 11 Fan 4

    Sensor Type 0x04 Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x1D Cooling Unit Entity Instance 0x63 Rearm mode Auto Hysteresis support Readable/Settable Threshold access support Readable/Settable Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 132: Table 7-16 Sensor No. 12 Fan 5

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0x24, 0x24, 0x24 (1224, 1228, 1224) RPM Non-Recoverable thresholds Upper Non-Critical, Critical and 0xCE, 0xE6, 0xF2 (7004, 7820, 8228) RPM Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 133: Table 7-17 Sensor No. 14 Fan 1 Outlet

    Table 7-18 Sensor No. 15 Fan 2 Outlet Feature Raw Value/Description Interpreted Value Sensor Name Fan 2 Outlet Device Sensor Type 0x04 Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x1D Cooling Unit AXP 1410 Installation and Use (6806800H70F)

  • Page 134: Table 7-19 Sensor No. 16 Fan 3 Outlet

    Sensor Type 0x04 Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x1D Cooling Unit Entity Instance 0x63 Rearm mode Auto Hysteresis support Readable/Settable Threshold access support Readable/Settable Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 135: Table 7-20 Sensor No. 17 Fan 4 Outlet

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0x24, 0x24, 0x24 (902, 902, 902) RPM Non-Recoverable thresholds Upper Non-Critical, Critical and 0xCE, 0xE6, 0xF2 (5588, 5610, 5610) RPM Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 136: Fan Tray Module Discrete Sensors

    0xCE, 0xE6, 0xF2 (5588, 5610, 5610) RPM Non-Recoverable thresholds 7.2.3 Fan Tray Module Discrete Sensors The following tables describe these discrete sensors available on the FTM: Hot Swap Sensor IPMB Link Sensor Reserved Sensor OEM-Reserved Sensors AXP 1410 Installation and Use (6806800H70F)

  • Page 137: Hot Swap Sensor

    The following table describes the IPMB link sensor on the FTMs. Table 7-23 Sensor No. 2, IPMB Physical Feature Raw Value/Description Interpreted Value Sensor Name IPMB Physical Type of Measurement IPMB Link State Class 0x6F Discrete Event/Reading Type 0x6F Sensor-specific AXP 1410 Installation and Use (6806800H70F)

  • Page 138: Reserved Sensor

    Interpreted Value Sensor Name Version change Type of Measurement Class 0x6F Discrete Sensor Type 0x2B Reserved Sensor Owner LUN 0x00 Entity ID 0x03 Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 139: Oem-Reserved Sensors

    Interpreted Value Sensor Name FanFault Z1F1 Type of Measurement Class 0x03 Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 140: Table 7-26 Sensor No. 21 Fanfault Z1F2

    Entire Sensor only Assertion Event Mask (bytes 0x02, 0x00 15,16) Deassertion Event Mask (bytes 0x02, 0x00 17,18) Discrete Reading Mask (bytes 0x03, 0x00 Supports 2 States 19, 20) Reading Definition Assertion signals a fan controller fault AXP 1410 Installation and Use (6806800H70F)

  • Page 141: Table 7-27 Sensor No. 22 Fanfault Z1F3

    Interpreted Value Sensor Name FanFault Z2F1 Type of Measurement Class 0x03 Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 142: Table 7-29 Sensor No. 24 Fanfault Z2F2

    Entire Sensor only Assertion Event Mask (bytes 0x02, 0x00 15,16) Deassertion Event Mask (bytes 0x02, 0x00 17,18) Discrete Reading Mask (bytes 0x03, 0x00 Supports 2 States 19, 20) Reading Definition Assertion signals a fan controller fault AXP 1410 Installation and Use (6806800H70F)

  • Page 143: Table 7-30 Sensor No. 25 Fanfault Z2F3

    Interpreted Value Sensor Name FuseFail 48VA1 Type of Measurement Class 0x03 Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 144: Table 7-32 Sensor No. 27 Fusefail 48Va2

    Entire Sensor only Assertion Event Mask (bytes 0x02, 0x00 15,16) Deassertion Event Mask (bytes 0x02, 0x00 17,18) Discrete Reading Mask (bytes 0x03, 0x00 Supports 2 States 19, 20) Reading Definition Assertion signals a fuse failure AXP 1410 Installation and Use (6806800H70F)

  • Page 145: Table 7-33 Sensor No. 28 Fusefail 48Vb1

    Interpreted Value Sensor Name FuseFail 48VB2 Type of Measurement Class 0x03 Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 146: Power Entry Module Sensor Data Records

    66: FRU # 0, FRU Info Common Header: Format Version = 1 Board Info Area: Version Language Code = 25 Mfg Date/Time = Jun 1 00:00:00 2005 (4952160 minutes since 1996) Board Manufacturer = Emerson Network Power, Embedded Computing AXP 1410 Installation and Use (6806800H70F)

  • Page 147: E-Keying

    FRU Programmer File ID = CENT4000_PEM.inf 7.3.2 E-Keying The Power Entry Module does not have e-keyed backplane interfaces, and as a result the FRU information for the PEM does not contain a PICMG Point-to-Point Connectivity Record. AXP 1410 Installation and Use (6806800H70F)

  • Page 148: Power Configuration

    Hot Swap Status State of FRU Discrete Always IPMB Physical Status State of IPMB link Discrete Always +3.3V Voltage Analog Always +12V Measure Voltage Analog Always +5V Measure Voltage Analog Always +12V CC Voltage AXP 1410 Installation and Use (6806800H70F)

  • Page 149: Power Entry Module Analog Sensors

    Always Measure1 Current Current Analog Always Measure2 7.3.5 Power Entry Module Analog Sensors The analog sensors available on the PEM can be divided into the following three categories: Voltage Sensors Current Sensors Temperature Sensor AXP 1410 Installation and Use (6806800H70F)

  • Page 150: Voltage Sensors

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0xD8, 0xD4, 0xD1 (3.1104, 3.0528, 3.0096) Volts Non-Recoverable thresholds Upper Non-Critical, Critical and 0xF4, 0xF7, 0xFA (3.5136, 3.5568, 3.6) Volts Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 151: Table 7-38 Sensor No. 3 +12V Measure

    Non-Recoverable thresholds Table 7-39 Sensor No. 4 +5V Measure Feature Raw Value/Description Interpreted Value Sensor Name +5V Measure Device Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply AXP 1410 Installation and Use (6806800H70F)

  • Page 152: Table 7-40 Sensor No. 5 +12V Cc

    Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm mode Auto Hysteresis support Readable/Settable Threshold access support Readable/Settable Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 153: Table 7-41 Sensor No. 13, 48.0V Feed_1

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0x84, 0x77, 0x71 (42.24, 38.08, 36.16) Volts Non-Recoverable thresholds Upper Non-Critical, Critical and 0xE1, 0xEB, 0xEE (72, 75.20, 76.16) Volts Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 154: Table 7-42 Sensor No. 14, 48.0V Feed_2

    19, 20) Readable and Settable Reading Type Unsigned Lower Non-Critical, Critical and 0x84, 0x77, 0x71 (42.24, 38.08, 36.16) Volts Non-Recoverable thresholds Upper Non-Critical, Critical and 0xE1, 0xEB, 0xEE (72, 75.20, 76.16) Volts Non-Recoverable thresholds AXP 1410 Installation and Use (6806800H70F)

  • Page 155: Current Sensors

    (75, 77, 80) Amps Non-Recoverable thresholds Table 7-44 Sensor No. 16 Current Measure2 Feature Raw Value/Description Interpreted Value Sensor Name Current Measure2 Device Sensor Type 0x03 Current Class 0x01 Threshold Sensor Owner LUN 0x00 AXP 1410 Installation and Use (6806800H70F)

  • Page 156: Temperature Sensor

    Sensor Name LM73 Temp Device Sensor Type 0x01 Temperature Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm mode Auto Hysteresis support Readable/Settable Threshold access support Readable/Settable AXP 1410 Installation and Use (6806800H70F)

  • Page 157: Power Entry Module Discrete Sensors

    Table 7-46 Sensor No. 0, Hot Swap Feature Raw Value/Description Interpreted Value Sensor Name Hot Swap Device Sensor Type 0xF0 Hot Swap Class 0x6F Discrete Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm Mode Auto AXP 1410 Installation and Use (6806800H70F)

  • Page 158: Ipmb Link Sensor

    IPMB Physical Type of Measurement IPMB Link State Class 0x6F Discrete Event/Reading Type 0x6F Sensor-specific Sensor Type 0xF1 IPMB Link Sensor Owner LUN 0x00 Entity ID 0x0A Entity Instance 0x60 Rearm Mode Auto Hysteresis support AXP 1410 Installation and Use (6806800H70F)

  • Page 159: Circuit Breaker State Sensors

    Monitors if the circuit breaker has been opened.l Class Discrete Event/Reading Type 0x03 Digital Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm Mode Auto Event Message Control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)

  • Page 160: Table 7-49 Sensor No. 6 Cb 2

    State Deasserted State Asserted Deassertion Event Mask (byte 0x02, 0x00 State Deasserted 17, 18) State Asserted Discrete Reading Mask (byte 0x03, 0x00 Supports 2 Successive States 19, 20) Reading Definition According to IPMI 1.5 AXP 1410 Installation and Use (6806800H70F)

  • Page 161: Table 7-50 Sensor No. 7 Cb 3

    Raw Value/Description Interpreted Value Sensor Name CB 4 Type of Measurement Monitors if the Circuit Breaker has been opened. Class Discrete Event/Reading Type 0x03 'digital' Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 AXP 1410 Installation and Use (6806800H70F)

  • Page 162: Table 7-52 Sensor No. 9 Cb 5

    Monitors if the Circuit Breaker has been opened. Class Discrete Event/Reading Type 0x03 'digital' Discrete Sensor Type 0xC0 OEM-reserved Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only AXP 1410 Installation and Use (6806800H70F)
  • Page 163 Raw Value/Description Interpreted Value Assertion Event Mask (bytes 0x02, 0x00 15,16) Deassertion Event Mask (bytes 0x02, 0x00 17,18) Discrete Reading Mask (bytes 0x03, 0x00 Supports 2 States 19, 20) Reading Definition According to Pigeon Point AXP 1410 Installation and Use (6806800H70F)
  • Page 164 FRU Information and Sensor Data Records AXP 1410 Installation and Use (6806800H70F)

  • Page 165: Shelf Management Alarm Module

    The hardware consists of: Payload hardware section with — Ethernet interfaces to the backplane and to the face plate — Redundant connection between two shelf managers via backplane — Block transfer interface to the ShMC AXP 1410 Installation and Use (6806800H70F)

  • Page 166: Payload Hardware

    They are compliant with the PICMG 3.0 R 1.0 specification (AdvancedTCA) for the base interface. These ports connect to the base interface of up to two AdvancedTCA switch boards in the hub slots of an AdvancedTCA shelf. AXP 1410 Installation and Use (6806800H70F)

  • Page 167: Redundancy Interfaces

    Alarm Display Panel (ADP) in the AXP1410 shelf. This can be used for configuration and diagnostic purposes. This interface is normally the console of the Payload Processor, but under software control, can provide access to the ShMC console instead. AXP 1410 Installation and Use (6806800H70F)

  • Page 168: Shelf Management Controller

    8.3.2 IPMC Standard Functions The standard functionality of the Emerson IPMC is available on the IPMC of the SAM1410. Refer Supported Commands and FRU Information and Sensor Data Records of SAM1410 Installation and Use manual, for further information. AXP 1410 Installation and Use (6806800H70F)

  • Page 169: Face Plate

    Red: The shelf manager board is out-of-service. Off: The shelf manager board is working properly. Active (ACT) LED Amber Amber: The shelf manager board is active. Off: The shelf manager board is in standby mode. AXP 1410 Installation and Use (6806800H70F)

  • Page 170: Ethernet Connector (Out-Of-Band)

    Green: Link to Ethernet 3 is available. Off: Otherwise Ethernet Connector (Out-of-Band) One 10/100 Mbps Ethernet port is provided via the Ethernet connector on at the face plate. It allows external system managers to access the shelf manager. AXP 1410 Installation and Use (6806800H70F)

  • Page 171: Alarm Connector

    The following table shows which of these signals are input and which are output signals: Input Signals Output Signals OPTO1 RLY1_NO OPTO1_3# RLY1_NC OPTO2 RLY1_COM OPTO2_4# RLY2_NO OPTO3 RLY2_NC OPTO4 RLY2_COM RLY3_NO RLY3_NC RLY3_COM AXP 1410 Installation and Use (6806800H70F)
  • Page 172 Minor Alarm - NC (Normally Closed) Minor Alarm - COM (Common) Major Alarm - NO (Normally Open) Major Alarm - NC (Normally Closed) Major Alarm - COM (Common) Power Alarm - NO (Normally Open) Power Alarm - COM (Common) AXP 1410 Installation and Use (6806800H70F)

  • Page 173: Related Documentation

    The publications listed below are referenced in this manual. You can obtain electronic copies of Emerson Network Power - Embedded Computing publications by contacting your local Emerson sales office. For released products, you can also visit our Web site for the latest copies of our product documentation.

  • Page 174: Related Specifications

    December 30, 2002 PICMG 3.0 AdvancedTCA Base Specification R2.0 PICMG 3.0, R2.0 PICMG 3.1 AdvancedTCA Ethernet/Fibre Channel, Revision 1.0 PICMG 3.1 R1.0 January 22, 2003 PICMG 3.0 ECN 3.0-1.0-001 January 21, 2004 ECN 3.0, 1.0-001 AXP 1410 Installation and Use (6806800H70F)

  • Page 175: Safety Notes

    Emerson intends to provide all necessary information to install and handle the product in this manual. Because of the complexity of this product and its various uses, we do not guarantee that the given information is complete.
  • Page 176 Personal Injury or System Damage The system is supplied by a TNV-2 voltage. This voltage is considered hazardous. Make sure that the external power supply meets the relevant safety standards. AXP 1410 Installation and Use (6806800H70F)
  • Page 177 If you reduce the fan speed the system temperature will rise. Constantly control the system temperature once you have reduced the fan speed. While operating the system make sure the environmental and power requirements are met. AXP 1410 Installation and Use (6806800H70F)
  • Page 178 Personal Injury High leakage current can be hazardous and cause injury. Locate the caution label near the grounding studs (may vary from system to system) and make an earth ground connection before connecting the PEM. AXP 1410 Installation and Use (6806800H70F)
  • Page 179 Damage of Circuits Electrostatic discharge and incorrect product installation and removal can damage circuits or shorten their life. Before touching the product or electronic components, make sure that you are working in an ESD-safe environment. AXP 1410 Installation and Use (6806800H70F)
  • Page 180 The DC supply source shall be located within the same premises as this equipment. Switching or disconnecting devices shall not be in the earthed circuit conductor between the DC source and the point of connection of the earthing electrode conductor. AXP 1410 Installation and Use (6806800H70F)
  • Page 181 Verify that the length of an electric cable connected to a TPE bushing does not exceed 100 m. Make sure the TPE bushing of the system is connected only to safety extra low voltage circuits (SELV circuits). If in doubt, ask your system administrator. AXP 1410 Installation and Use (6806800H70F)
  • Page 182 To avoid injury make sure cables are securely installed. Never change the system’s cabling as delivered by Emerson. The cabling should follow existing cable paths using existing or similar cable fastenings. Check proper function of the system after cabling extensions.
  • Page 183 Personal Injury To avoid electric shock verify that the system is powered off and that all power sources are disconnected before servicing any components internal to the system. AXP 1410 Installation and Use (6806800H70F)
  • Page 184 Insert the PEM with a single, steady motion and do not force the module into the slot. Pin Damage Forcing the PEM into the system may damage connector pins. To avoid crushing or bending the connector pins, back the module out and insert it again if it hangs during insertion. AXP 1410 Installation and Use (6806800H70F)
  • Page 185 Changes or modifications not expressly approved by Emerson could void the user’s authority to operate the equipment. A AXP 1410 that is shipped as a spare, replacement chassis, or an unconfigured system will not have filler panels installed. It is the responsibility of the customer to ensure that all open slots are filled with payload blades, rear transition modules (RTMs), or approved filler panels in order to be compliant with the safety/EMC regulatory markings.
  • Page 186 This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Interference (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions. AXP 1410 Installation and Use (6806800H70F)

  • Page 187: Sicherheitshinweise

    Anwendungen, lebenserhaltenden Geräten oder in Flugzeugen verwendet werden. Einbau, Wartung und Betrieb dürfen nur von durch Emerson ausgebildetem oder im Bereich Elektronik oder Elektrotechnik qualifiziertem Personal durchgeführt werden. Die in diesem Handbuch enthaltenen Informationen dienen ausschließlich dazu, das Wissen von Fachpersonal zu ergänzen, können dieses jedoch nicht ersetzen.
  • Page 188 Betreiben Sie das System an einem erschütterungsfreien Ort, an dem weder Staub, Rauch noch elektrostatische Entladungen auftreten. Stellen Sie außerdem sicher, dass die klimatischen Bedingungen, die in diesem Handbuch spezifiziert sind, eingehalten werden und ausreichend Platz für eine angemessene Kühlung vorhanden ist. AXP 1410 Installation and Use (6806800H70F)
  • Page 189 Beschädigungen am System zur Folge haben kann. Benutzen Sie zum Heben und Einbauen des Systems geeignete Hilfsmittel. Verletzungsgefahr Das System ist schwer. Benutzen Sie deshalb zum Ausbau oder Ersetzen des Systems geeignete Hebevorrichtungen. So vermeiden Sie Muskelzerrungen oder Rückenschäden. AXP 1410 Installation and Use (6806800H70F)
  • Page 190 Nehmen Sie das System nur in Betrieb, wenn alle Steckplätze abgedeckt sind. Damit gewährleisten Sie eine optimale Kühlung für das System und vermeiden die Gefahr von Stromschlägen. Alle Abdeckungen müssen während des Systembetriebs an Ort und Stelle bleiben. Beschädigung des Systems Luftfilter AXP 1410 Installation and Use (6806800H70F)
  • Page 191 Bevor Sie die PEMs austauschen, sollten Sie die Betriebsspannung des Systems optimieren. Stellen Sie Eingansspannung auf einen Nennwert von -48 V bis -60 VDC ein, um einen uneingeschränkten Systembetrieb während des PEM Austauschs zu gewährleisten. Verletzungen oder Kurzschlüsse Blade oder Stromversorgung AXP 1410 Installation and Use (6806800H70F)
  • Page 192 Schwere Verletzungen oder Tod Dieses Produkt wird mit gefährlichen Spannungen betrieben, die schwere Verletzungen oder Tod verursachen können. Gehen Sie deshalb extrem vorsichtig vor, wenn Sie mit dem System oder seinen Komponenten umgehen, es testen oder anpassen. AXP 1410 Installation and Use (6806800H70F)
  • Page 193 Stellen Sie sicher, dass die Kabel sicher installiert sind, um Verletzungen zu vermeiden. Verändern Sie nie die von Emerson ausgelieferte Verkabelung des Systems. Stellen Sie sicher, dass die Verkabelung schon existierenden Kabelführungen folgt und bestehende oder ähnliche Befestigungen verwendet. Überprüfen Sie nach der Erweiterung der Verkabelung, ob das System ordnungsgemäß...
  • Page 194 Wird das System länger als 30 Sekunden mit weniger als drei Lüftermodulen betrieben, kann das System beschädigt werden. Wenn Sie ein Lüftermodul austasuchen, stellen Sie sicher, dass der Austauschprozess innerhalb dieser Zeit abgeschlossen ist. AXP 1410 Installation and Use (6806800H70F)
  • Page 195 Lüfterschublade wieder heraus und führen Sie sie erneut ein. So vermeiden Sie Schäden an den Anschlussstiften in den Steckern. Beschädigung des Systems Tauschen Sie die PEMs innerhalb des vorgegebenen Wartungszeitraums von xy Minuten aus. Der Austausch muss von erfahrenem Wartungspersonal durchgeführt werden. AXP 1410 Installation and Use (6806800H70F)
  • Page 196 Wenn Sie ein PEM mit Gewalt installieren, können die Anschlussstifte in den Steckern beschädigt werden. Falls sich ein PEM während der Installation verkantet, ziehen Sie das PEM wieder heraus und führen Sie sie erneut ein. So vermeiden Sie Schäden an den Anschlussstiften in den Steckern. AXP 1410 Installation and Use (6806800H70F)
  • Page 197 Benutzen Sie zum Anschließen von Peripheriegeräten ausschließlich abgeschirmte Kabel. So stellen Sie sicher, dass ausreichend Schutz vor Störstrahlung vorhanden ist. Die Blades müssen mit der Frontblende installiert und alle freien Steckplätze müssen mit Blindblenden abgedeckt sein. AXP 1410 Installation and Use (6806800H70F)
  • Page 198 Sicherheitshinweise Änderungen, die nicht ausdrücklich von Emerson erlaubt sind, können Ihr Recht das System zu betreiben zunichte machen. Ein AXP 1410, das als Ersatzteil, Austauschchassis oder unkonfiguriertes System ausgeliefert wird, enthält keine Platzhalter-Boards. Es liegt in der Kundenverantwortung sicherzustellen, dass alle leeren Steckplätze mit Boards, RTMs oder zugelassenen Platzhalter-Boards belegt sind, um die Sicherheits- und EMC-Vorschriften zu erfüllen.

  • Page 199: Index

    Interface cooling output Block Transfer Ethernet IPMB0 data loss Redundancy disabling power IP address physical IPMB0 interface earth ground IPMC ejector handle, FTM emergency power-off enclosure description kits, mounting brackets Ethernet connector Ethernet interfaces AXP 1410 Installation and Use (6806800H70F)
  • Page 200 System power cable Components power conversion Installation power entry module, description Installation options Power requirements Overview power supplies status indicators power to FTM troubleshooting, cooling power-off, emergency Preparing the site upper fan tray module AXP 1410 Installation and Use (6806800H70F)
  • Page 201 Index AXP 1410 Installation and Use (6806800H70F)
  • Page 202 Index AXP 1410 Installation and Use (6806800H70F)
  • Page 204 Precision Cooling Surge & Signal Protection Emerson, Business-Critical Continuity, Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. All other product or service names are the property of their respective owners.

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