Emerson AXP 1410 User Manual Download

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Embedded Computing for

Business-Critical Continuity

AXP 1410

Installation and Use

P/N: 6806800H70F
October 2011

Summary of Contents for AXP 1410

Page 1: ...Embedded Computing for Business Critical ContinuityTM AXP 1410 Installation and Use P N 6806800H70F October 2011 ...

Page 2: ...s 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 Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to a Emerson website The text itself may not be published commercially in print or electronic form edited translated or oth...

Page 3: ...29 1 1 7 Power Entry Modules 30 1 1 8 Fan Tray Modules 30 1 1 9 Fan Filter 30 1 2 Standard Compliances 31 1 3 Ordering Information 32 1 4 Product Identification 34 2 Site Preparation 37 2 1 Overview 37 2 2 Site Planning Considerations 37 2 2 1 Receiving and Unpacking the System 37 2 2 2 Site and Installation Planning 38 2 3 Requirements 39 2 3 1 Environmental Requirements 39 2 3 2 Power Requiremen...

Page 4: ...4 Powering Up the System 59 3 4 Powering Down the System 60 3 5 Emergency Power Off 60 4 FRU Installation 63 4 1 Installing and Removing Node Blades and RTMs 63 4 2 Installing and Removing the Shelf Manager Board 64 4 2 1 Installing the Board 65 4 2 2 Rotary Switch Settings 66 4 2 3 Removing the Board 68 4 3 Replacing Power Entry Modules 69 4 3 1 Tools You Will Need 69 4 3 2 Removing the PEM 69 4 ...

Page 5: ...2 5 Restoring Factory Settings 94 5 3 Accessing System Components 94 5 4 Software 95 5 4 1 Installation 96 5 4 2 Upgrade 96 5 5 Power Entry Module PEM 98 5 5 1 Description 98 5 5 2 IPMC Circuitry 99 5 6 Fan Tray Modules 100 5 6 1 Description 100 5 6 2 Cooling Budget 101 5 6 3 IPMC Circuitry 101 5 7 Redundancy 101 5 7 1 Cold Standby 102 5 7 1 1 Heartbeat 102 5 7 1 2 Data Replication 103 5 7 1 3 HPI...

Page 6: ...ands 115 6 2 3 Sensor Device Commands 116 6 2 4 FRU Device Commands 116 6 3 PICMG 3 0 Commands 117 7 FRU Information and Sensor Data Records 119 7 1 Introduction 119 7 2 Fan Tray Module Sensor Data Records 119 7 2 1 Fan Tray Module Sensor Overview 119 7 2 2 Fan Tray Module Analog Sensors 121 7 2 2 1 Voltage Sensors 121 7 2 2 2 Temperature Sensors 125 7 2 2 3 Fan Speed Sensors 129 7 2 3 Fan Tray Mo...

Page 7: ...rcuit Breaker State Sensors 159 8 Shelf Management Alarm Module 165 8 1 Overview 165 8 2 Payload Hardware 166 8 2 1 Ethernet Interfaces 166 8 2 2 Redundancy Interfaces 167 8 2 3 Block Transfer Interface 167 8 2 4 Console Interface 167 8 3 Shelf Management Controller 168 8 3 1 IPMB0 Interface 168 8 3 2 IPMC Standard Functions 168 8 4 Face Plate 169 8 5 LEDs 169 8 6 Ethernet Connector Out of Band 17...

Page 8: ...AXP 1410 Installation and Use 6806800H70F Contents 8 Contents Contents Safety Notes 175 Sicherheitshinweise 187 Index 199 ...

Page 9: ...Hub Blade 104 Table 6 1 Supported Global IPMI Commands 115 Table 6 2 Supported Event Commands 115 Table 6 3 Supported Sensor Device Commands 116 Table 6 4 Supported FRU Commands 116 Table 6 5 Supported PICMG 3 0 Commands 117 Table 7 1 IPMI Sensors on the Fan Tray Module 119 Table 7 2 Sensor No 3 12V A_MON 121 Table 7 3 Sensor No 4 12V B_MON 122 Table 7 4 Sensor No 5 3 3V 123 Table 7 5 Sensor No 6 ...

Page 10: ...143 Table 7 32 Sensor No 27 FuseFail 48VA2 144 Table 7 33 Sensor No 28 FuseFail 48VB1 145 Table 7 34 Sensor No 29 FuseFail 48VB2 145 Table 7 35 Power Configuration for PEMs 148 Table 7 36 IPMI Sensors on the PEM 148 Table 7 37 Sensor No 2 3 3V 150 Table 7 38 Sensor No 3 12V Measure 151 Table 7 39 Sensor No 4 5V Measure 151 Table 7 40 Sensor No 5 12V CC 152 Table 7 41 Sensor No 13 48 0V FEED_1 153 ...

Page 11: ...List of Tables AXP 1410 Installation and Use 6806800H70F 11 Table A 1 Emerson Network Power Embedded Computing Publications 173 Table A 2 Related Specifications 174 ...

Page 12: ...AXP 1410 Installation and Use 6806800H70F 12 List of Tables ...

Page 13: ... Figure 4 2 Rotary Switch Location 67 Figure 4 3 Upper Rear FTM Ejector Handles and LEDs 77 Figure 4 4 Lower Front FTM Ejector Handles and LEDs 78 Figure 4 5 Position of the Fan Filter 81 Figure 5 1 ATCA F120 Switch Management Fabric Interface Bridge Configuration 84 Figure 5 2 ATCA F120 Switch Management Base Interface Bridge Configuration 85 Figure 5 3 Dual Star Topology 86 Figure 5 4 IP Address...

Page 14: ...AXP 1410 Installation and Use 6806800H70F 14 List of Figures ...

Page 15: ...rds power entry modules or fans z Chapter 5 Configuring and Operating the System on page 83 gives information on network management software accessing system components and power and cooling subsystems z Chapter 6 Supported IPMI Commands on page 115 lists standard PICMG and Emerson specific IPMI commands z Chapter 7 FRU Information and Sensor Data Records on page 119 lists FRU information and SDRs...

Page 16: ...ernationale Spécial des Perturbations Radioelectrotechnique CLI Command Line Interface CO Central Office CSA Canadian Standards Association DHCP Dynamic Host Configuration Protocol ECC Error Correcting Code EMC Electromagnetic Compatibility EMI Electromagnetic Interference EMV Elektromagnetische Verträglichkeit ESD Electrostatic Discharge ETS European Telecom Standard ETSI European Telecommunicati...

Page 17: ...nstitute of Electrical and Electronics Engineers IP Internet Protocol IPM Intelligent Platform Management IPMB Intelligent Platform Management Bus IPMC Intelligent Platform Management Controller IPMI Intelligent Platform Management Interface IS In Service LED Light Emitting Diode LUN Logical Units NEBS Network Equipment Building System NetFn Network function code OEM Original Equipment Manufacture...

Page 18: ... S N Serial Number SA Shelf Address SAM Shelf Management Alarm Module SDR Sensor Data Record SELV Safety Extra Low Voltage SGA Shelf Geographical Address ShMC Shelf Management Controller ShMM Shelf Management Mezzanine Module SNMP Simple Network Management Protocol SOC System On a Chip SSH Secure Shell TBD To Be Defined TDM Time Division Multiplexing TNV Telephone Network Voltage TPE Twisted Pair ...

Page 19: ...outputandcoderelatedelements or commands in body text Courier Bold Used to characterize user input and to separate it from system output Reference Used for references and for table and figure descriptions File Exit Notation for selecting a submenu text Notation for variables and keys text Notation for software buttons to click on the screen and parameter description Repeated item for example node ...

Page 20: ...tion which if not avoided could result in death or serious injury Indicates a hazardous situation which if not avoided may result in minor or moderate injury Indicates a property damage message No danger encountered Pay attention to important information Notation Description Part Number Publication Date Description 6806800H70A April 2009 First edition 6806800H70B July 2009 Second edition ...

Page 21: ...dded Chapter 8 Shelf Management Alarm Module on page 165 6806800H70E June 2011 Removed Sensor No 35 FTM Temp 6 Sensor No 13 Fan 6 and Sensor No 19 Fan 6 Outlet for FTM in FRU Information and Sensor Data Records 6806800H70F October 2011 Added 1 1 2 1 Update Channel Interface 1 1 5 1 Base Interface 1 1 5 2 Fabric Interface and 4 2 2 Rotary Switch Settings sections Updated 5 2 Network Management sect...

Page 22: ...AXP 1410 Installation and Use 6806800H70F About this Manual 22 About this Manual ...

Page 23: ...n input output connectivity between front blades and mechanical alignment and support z Subrack providing attachment points for backplane alignment support and mechanical engagement for insertion and extraction of front blades and RTMs z Two Emerson SAM1410 shelf manager boards with integrated alarm boards Each AdvancedTCA blade and Field Replaceable Unit FRU provides connections to the shelf mana...

Page 24: ...Use 6806800H70F 24 z Air filter z ESD wrist strap sockets and grounding studs Figure 1 1 System Front View CR T MAJ MIN PWR ACTB COM B COM A ACT A ACO Cable Management Tray FanTray CRT MAJ MIN PWR ACT B COM B COM A ACT A ACO Alarm Display Panel ...

Page 25: ...System Overview AXP 1410 Installation and Use 6806800H70F 25 Figure 1 2 System Rear View ...

Page 26: ... or optional EIA 23 rack Mounting holes for bezel brackets are provided which allows the use of power supply or card cage customer designed bezels 1 1 2 Backplane The backplane is fully compliant with the PICMG 3 0 R2 0 Specification and it has been designed with the following features z Two hub slots z 12 node slots z 14 slot fabric interface with dual star interconnect z Base interface with dual...

Page 27: ... assure proper operation of the shelf and all other components of the AdvancedTCA shelf It reports anomalies and errors and takes corrective actions if required for example increase the speed of the fans The SAM1410 has access to detailed inventory information as well as sensor status information of the shelf and all components of the shelf The SAM1410 is fully compliant to the shelf management fu...

Page 28: ... star PICMG 3 0 base interface and PICMG 3 1 10Gb fabric interface Figure 1 4 Slot Distribution B 1 B 2 B 3 B 4 D1 PEM B Power Segments Physical Logical ATCA Blade Slots HUB A 1 13 2 11 3 9 4 7 6 1 7 3 12 10 9 2 11 8 10 6 8 4 13 12 FTM 2 FTM 1 Lower Rear Lower FTM Power Segments 14 14 HUB B A3 B3 A4 B4 C1 D1 SAM B A1 B1 A1 B1 A1 B1 A1 B1 A1 B1 A1 B1 A1 B1 A2 B2 A2 B2 A2 B2 A2 B2 A2 B2 A2 B2 A 1 A ...

Page 29: ...support one fabric channel to each of the two hub slots The fabric channels are located on connector P20 of the node slots and connectors P20 P21 P22 and P23 of the hub slots The implementation of the interface is indicated by the level of PICMG compliance a blade or hub is designed to The AXP 1410 supports the PICMG 3 1 fabric standard to allow for several configuration options that can provide g...

Page 30: ...er feeds and returns to prevent accidental shorting The PEM also features an injector ejector handle that provides the hot swap mechanism for signalling the state of the PEM prior to removal The PEMs are hot swappable and will not cause a fault when one is removed for replacement Two PEMs are required to support 2N 1 redundancy If your system is configured for redundant operation using two power f...

Page 31: ...nd data connectors and system management UL 60950 1 EN 60950 1 IEC 60950 1 CAN CSA C22 2 No 60950 1 Safety Requirements legal CISPR 22 CISPR 24 EN 55022 EN 55024 EN 300386 FCC Part 15 Industry Canada ICES 003 EMC requirements legal on system level predefined Emerson system NEBS Standard GR 63 CORE NEBS Standard GR 1089 CORE ETSI EN 300 019 series ETSI ETS 300 753 The product has been designed to m...

Page 32: ...s minimizes the disposal of unsorted municipal waste achieves a high level of separate collection of WEEE and ensures the environmentally sound disposal of electrical and electronic equipment placed on the market after 13 August 2005 To dispose of equipment marked with the WEEE symbol Emerson has contracted with certified companies that can reprocess this equipment per European Union requirements ...

Page 33: ...n on spare parts not listed Table 1 2 Order Numbers Order Number Description AXP1410 AdvancedTCA shelf 14 slot 19 13U 10G backplane UFT 1440 Upper fan tray module for AXP1440 shelf LFT 1440 Lower fan tray module for AXP1440 shelf SAM1410 Shelf manager for AXP1410 shelf PEM1620 Power entry module for AXP1620 and AXP1440 AXP F FILL PANEL F Blank filler panel AXP1620 AXP1440 front AXP R FILL PANEL F ...

Page 34: ...System Overview AXP 1410 Installation and Use 6806800H70F 34 1 4 Product Identification You can find the system label at the back of the system on the left Figure 1 5 System Label Location Label ...

Page 35: ...with Canadian ICES 003 Cet appariel numerique de la classe A est conforne a la norme NMB 003 du Canada 3306844B02A TYPE Centellis 4410 Platform Core MODEL 44XX C VOLTAGE 40 to 60 VDC SELV 60 to 72 VDC TNV 2 CURRENT 2 X 50A Total 100A MAX 3500 WATTS WARNING Multiple power sources are present Service only by qualified service person Refer to the Installation Guide AVERTISSEMENT Des sources multiples...

Page 36: ...and Use 6806800H70F 36 The label with the serial number is located at the back of the system on the right The following figure shows a sample serial number label Figure 1 7 Serial Number Location Figure 1 8 Serial Number Label Example Label ...

Page 37: ...ote 2 Visually inspect the shelf to ensure that all of the connector pins are straight shrouds are properly seated screws are tight etc Section Gives Information On Site Planning Considerations This section includes information on unpacking and inspecting the system requirements technical data and other information you need to know before you start system installation Site Planning Checklists This...

Page 38: ...n 2 2 2 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 Are racks with sufficient space to install the system available 4 Is suitable equipment available to lift the system into the...

Page 39: ... air intake of the system and not to component temperatures 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 thatarehandledoroperatedoutoftheirspecifications theenvironmentalconditionsmaybe limited to the specifications of these components Table 2 1 Environmental Condition...

Page 40: ...s are applicable to normal operating conditions 23 C NEBS GR 63 CORE Issue 3 Telecommunication equipment rooms attended 78 dB Measurement of declared A weight sound power level All values are applicable to normal operating conditions 27 C Table 2 1 Environmental Conditions continued Feature Operating Non Operating packed state z Theambienttemperaturearoundtheshelfandtheairinlettemperaturemustnotex...

Page 41: ...s Make sure that the external power supply meets the relevant safety standards Ensure that TNV 2 is separated from dangerous voltages mains through double or reinforced insulation Table 2 2 System Power Requirements Feature Value Voltage and input current Voltage 40 to 60 VDC SELV 60 to 72 VDC TNV 2 Current 80 X 2 160 A Total Chassis idle power 170 W Chassis maximum power 870 W When installing add...

Page 42: ...tem components The maximum weight of the system must not exceed 80 kg Table 2 3 Dimensions and Weight of System and Components Component Dimensions w x h x d in mm Weight in kg Shelf including two fan trays two PEMs and an air filter 497 x 573 x 544 39 6 PEM 164 x 73 x 155 1 5 Upper fan tray module 491 x 87 x 227 4 Lower fan tray module 491 x 119 x 331 6 1 ...

Page 43: ...sure to mount the system in the lowest part of the rack If other systems are installed in one rack start with the heaviest component at the bottom 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 During the course of handling shipping and assembly pins shrouds and mounting screws f...

Page 44: ...s 2 6 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 Figure 2 1 Rack Mounting Dimensions 13U Shelf Side View at Back Side of Rear Door 3mm to Door Cabinet Door 3 5mm to Door 25mm Thick Door 2X 75mm 42mm 550mm Inside Door to Door 600mm Deep...

Page 45: ...e and 5 0 CFM for the RTM 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 Figure 2 2 Shelf Airflow RTM Outlet Plenum Chassis Front Chassis Rear Chassis Exhaust Air Flow...

Page 46: ...an generate a lot of acoustic noise This system has a built in noise control due to the fan speed 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 ...

Page 47: ...ll need 3 2 1 Requirements The power input cables must have a minimum cross section of 21 mm2 AWG 4 Section Description Before installation This section provides information about the requirements unpacking and inspecting the delivery and the type label location Installation This section provides information about how to mount the system into a rack and how to ground the system Removal This sectio...

Page 48: ...e Wrenches 7 8 10 mm or 0 28 0 31 0 39 inch Large and small socket screwdriver 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 Antistatic mat Shelf Transport equipment ...

Page 49: ...re Gauge AWG has to be selected z Overcurrentprotection Areadilyaccessiblelistedbranch circuitovercurrentprotective 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 Locate the system in a stable area free of movement and free of ...

Page 50: ...r back straight and have two people to lift the system or use additional lifting equipment Personal or System Damage Unstable system installation in a rack can cause the rack to topple over Therefore if your system is the only one in the rack make sure to mount the system in the lowest part of the rack If other systems are installed in one rack start with the heaviest component at the bottom If th...

Page 51: ...m has been located in a place with room temperature for at least 24 hours before powering it up System Damage During the course of handling shipping and assembly pins shrouds and mounting screws fans and other items can become loose or damaged Do not operate a damaged shelf this can cause damage to devices that interfere with it Grounding To ensure the system is properly grounded each of the syste...

Page 52: ...3 EIA Rack Cabinet 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 Figure 3 1 Rack Mounting Dimensions RTM Outlet Plenum Chassis Front Cha...

Page 53: ... 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 3 Be sure to mount the shelf with metal screws or bolts that give a good electrical connection between the screws or bolts and the mounting surface 4 Tighten all screws using a torque setting of 35 5 to 38 5 inch pounds 3 3 2 Connecting the C...

Page 54: ...be attached to approved Telephone Network Voltage TNV or SELV Safety Extra Low Voltage branch circuits Branch circuits must comply with all requirementscalledforinthesesafetystandards IEC60950 EN60950 CAN CSA C22 2No 60950 Attaching inputs to non TNV SELV approved power sources will cause the system to fail compliance with safety regulations The ground wire must be connected to a reliable earth gr...

Page 55: ...System Installation AXP 1410 Installation and Use 6806800H70F 55 Figure 3 2 DC Power Connection Detail OFF ON OFF ON 48 VDC RTN 48 VDC VDC RTN 48 VDC ...

Page 56: ...EM In a redundant configuration each PEM must be connected to a separate DC power source Power is introduced to each PEM s terminal block on the front of the module power input cable and return cable The lugs provide secure contact for the cable and prevent the power cables from rotating A plastic housing covers the power feeds and returns and is attached with one screw Refer to Figure 3 2 for det...

Page 57: ... power is not present 5 Attach the DC power cables input and return to the dual lug bolts on each PEM 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 Cables may or may not be preinstalled a...

Page 58: ...inate until the external power circuit breakers are closed 11 Verify that all FRU LEDs illuminate and the PEM s IS LED is green and the OOS LED is dark 3 3 3 Grounding the System Use a 2 AWG wire with a 2 hole copper lug and connect directly to the earth ground point located on the right side of the back of the shelf connect the other end of the wire to a reliable earth ground Use the torque setti...

Page 59: ... Ground or adds the connection between 48VDC Return and Shelf Ground the responsibility for maintaining compliance to CSA C US VDE safety requirements and EMI RFI emission limits rests entirely with the system integrator and installer 3 3 4 Powering Up the System With the installation cabled up you are ready to apply power to the system Procedure Follow these steps to power up the system 1 Push th...

Page 60: ... circuit or power distribution unit for both PEM A and PEM B 4 This completely removes power from the shelf and its subassemblies 3 5 Emergency Power Off Procedure Read this caution and follow the next steps if it is necessary to remove power during an emergency situation 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 t...

Page 61: ...10 Installation and Use 6806800H70F 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 ...

Page 62: ...System Installation AXP 1410 Installation and Use 6806800H70F 62 ...

Page 63: ...er 4 AXP 1410 Installation and Use 6806800H70F 63 FRU Installation 4 1 Installing and Removing Node Blades and RTMs Refer to the respective blade or RTM documentation for installation and removal procedures ...

Page 64: ...ollowing figure shows the SAM1410 shelf manager board Figure 4 1 SAM1410 Overview 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 ...

Page 65: ...according to your needs For more information refer to Rotary Switch Settings on page 66 4 Insert the module into the shelf by placing the top and bottom edges of the board in the card guides of the shelf Ensure that the guiding module of shelf and board are aligned properly The alignment pin facilitates the insertion and prevents bent pins 5 Slide the module into the shelf 6 Rotate the ejector han...

Page 66: ...allation and Use 6806800H70F 66 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 ...

Page 67: ...tch is set 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 Two AXP 1410 in different shelves must always be set to different SGAs When set to the same address both AXP 1410 will...

Page 68: ...SD jack 3 Unlatch the ejector handle by lifting up the center sliding portion of the handle then rotate the handle slightly about 15 degrees The blue LED blinks indicating that the module power down process is ongoing 4 Wait until the blue LED is illuminated permanently 5 Press the handle down to its fully open position about 90 degrees The board should start to move out of the chassis Do not forc...

Page 69: ...t provide EMI shielding The following instructions describe how to replace a power entry module For further information on power entry modules refer to Power Entry Module PEM on page 98 4 3 1 Tools You Will Need z Multimeter z Standard 2 Phillips head screwdriver z 7 16 Torque wrench z Nut driver torque nut to 50 in lbs z AXP 1410 DC Power Installation Kit PN 6706822A01 shipped with AXP 1410 4 3 2...

Page 70: ...distribution unit Open the external circuit breakers that provide DC feed power to the PEM you are replacing 2 Lock and tagout the circuit breakers on the branch circuit or power distribution unit Read all cautions and warnings and ensure the equipment is properly grounded by reviewing the procedure in Grounding the System on page 58 and follow these steps The PEM has multiple power sources This p...

Page 71: ...Using the appropriate tool carefully remove the terminal block cover plastic covering over the terminal block The terminal block cover is attached to the terminal block by two tabs with slots in the cover that insert into embossments in the terminal block wall To remove the cover press the upper wall of the terminal block wall downward and slip a flat bladed screwdriver between the cover and the t...

Page 72: ... PEM is in operation Having the PEM located in the shelf is critical to maintaining proper airflow and cooling of the shelf Steps in which a PEM is removed from a slot and reinserted should be completed within 3 minutes to maintain the shelf within safe operating temperatures Read all cautions and warnings and ensure the equipment is properly grounded by reviewing the procedure in Grounding the Sy...

Page 73: ...sion onto the retaining screws located on each side of the replacement PEM 2 Align the back end of the replacement PEM with the rail guides in the empty PEM slot and slide the 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 ...

Page 74: ...hat the lock and tagout on the branch circuit or power distribution unit is still intact to ensure the system is in a safe state 4434 0706 Standoff Retaining Screw PEM 4435 070 C B5 H S IS O O S BO N D PO IN T ESD 25 Standoff Retaining Screw PEM Lock the replacement PEM into the slot within 3 minutes to maintain the proper cooling properties of the shelf Personal Damage If the DC power cables are ...

Page 75: ...closed 11 Tighten the two retention screws located at each side of the PEM using the appropriate tool Begin with the left side fastener to prevent the PEM from shifting and causing possible cross threading of the fastener The recommended torque setting is 5 inch pounds 12 Tighten the ejector handle captive screw to 3 inch pounds and observe the HS LED begin to blink and then turn off 13 Break the ...

Page 76: ...the replacement FTM is available for exchange and ready to install When a fan is taken out of operation the system manager will compensate for the loss by increasing the speed of the remaining fans Please read the following caution before replacing any of the FTMs Service Interval for 1 FTM Temperature Range Not recommended 40 55 C Four hours 40 C maximum Fans may continue to rotate after power is...

Page 77: ...outward to a slightly open position to disengage the hot swap switch Watch for the blue LED to blink When the blinking stops and the LED remains a solid blue the FTM is ready to be removed 3 Open the ejector handle to a full open position 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 Figure 4 3 U...

Page 78: ...the upper backplane connector and the hot swap handle moves to the closed position 2 Tighten the chassis retention screw to secure the FTM The recommended torque settings is 5 inch pounds When the blue LED turns off the fan is operating 4 4 3 Removing the Lower FTM Removal Procedure Follow these steps and refer to the figure to remove the lower front fan tray module from the shelf 1 Using a Philli...

Page 79: ...swap handle moves to the closed position 2 Tighten the chassis retention screw to secure the FTM The recommended torque settings is 5 inch pounds When the blue LED turns off the fan is operating 4 5 Installing a Fan Filter Your replacement fan filter consists of a filter media for the lower Fan Tray Module The fan filter housing is kept in place by two tabs located on the inner left side in front ...

Page 80: ...osition the FTM with the front facing you 2 Using yourfingers rotatethefilterframeawayfromthehousingusingthetwotabs on the right and left sides of the filter frame 3 Rotate the vane assembly out of the way to expose the lower portion of the air filter 4 Insert the replacement fan filter by positioning the filter onto the velcro edges and form into place Any particulates that fall into the fan tray...

Page 81: ...stallation and Use 6806800H70F 81 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 Figure 4 5 Position of the Fan Filter Velcro ...

Page 82: ...FRU Installation AXP 1410 Installation and Use 6806800H70F 82 ...

Page 83: ...n be accessed via which interface and where you can find additional documentation Software on page 95 This section contains information on which software is installed on the system components and what tools can be used for software upgrades Power Entry Module PEM on page 98 This section contains information on power supplies Fan Tray Modules on page 100 This section contains information on fans Re...

Page 84: ... 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 ATCA F120 Switch Management Fabric Interface Bridge Configuration ...

Page 85: ... 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 Figure 5 2 ATCA F120 Switch Management Base Interface Bridge Configuration ...

Page 86: ...Configuring and Operating the System AXP 1410 Installation and Use 6806800H70F 86 Figure 5 3 Dual Star Topology ...

Page 87: ...MG 3 0 chapter 6 5 6 Physical slot numbers range of 0 to 255 start with the lowest number at the leftmost physical slot incrementing to the right Physical and logical slot number may be different The shelf FRU ROM provides a mapping of physical slot numbers to logical slot numbers for each slot The following table shows the physical and logical slot numbering IPMB addresses and hardware addresses ...

Page 88: ...ensures that all system components are aware of the new shelf address The change of shelf address shelf IP address and FRU activation order takes effect after a reboot of the system Two shelf manager boards in the same shelf must always be set to the same SGA Otherwise the software detects that the FRU information in the two shelf manager boards is different and stops the power up process The red ...

Page 89: ...eadybeensuccessfullyreadbeforethetwoSAM1410becameunavailable the SAM1410 will not come up and the red LED will stay on Shelf Manager Boards have different SGA settings If both SAM1410 are accessible via IPMI but have different SGA settings the SAM1410 will not come up and the red LED will stay on In this case remove one SAM1410 and boot the system Once the HPI daemon on the SAM1410 is up and runni...

Page 90: ...ses are described in more detail in the subsections that follow Figure 5 4 IP Addresses Backup ShMC IPMC IPMC IPMC IPMC ShM Board 2 ATCA Hub 2 ATCA Hub 1 ATCA Blade 4 ATCA Blade 5 Ch 2 Ch 1 Ch 1 Ch 1 Ch 2 192 168 21 1 192 168 22 2 eth2 192 168 22 29 eth2 192 168 20 181 eth0 192 168 0 181 eth0 192 168 0 9 Active ShMC ShM Board 1 Ch 2 eth1 192 168 21 28 eth1 192 168 20 171 eth0 192 168 0 171 eth0 19...

Page 91: ...erfaces are as follows 5 2 4 1 2 Physical IP Address on Out Of Band Interface The physical IP address on the out of0band interfaces depend on the shelf address and are as follows 5 2 4 1 3 Virtual IP Address on Backplane Interfaces The virtual IP address may be used when and HPI application wants to access the HPI daemon If there is an ATCA F120 present in the system and the shelf manager is ident...

Page 92: ...ctets of the Shelf IP Connectivity Record 1 1 Change the first two octets of the IP address using the hpiship tool located on the shelf manager Use the option h for help 2 Reboot the system for the changes to take effect Example 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 2...

Page 93: ...rk conf file This file allows you to configure all IP parameters without the SGA scheme and to assign IP addresses via DHCP 5 2 4 2 Hub Blade The external IP addresses of the hub blades are not pre defined They are defined by the user and correspond to the IP address defined in U Boot for example during the installation the internal IP addresses of the hub blades differ depending on the slot they ...

Page 94: ...ress that ends with 70 The last octet for AMC IP address is slot number multiplied by 10 plus AMC fruid An AMC module with fruid 1 on the blade in slot 8 would have an IP address that ends with 81 5 2 5 Restoring Factory Settings Once changed you cannot restore the factory settings 5 3 Accessing System Components All system components are delivered with the software installed If you want to upgrad...

Page 95: ...ver DHCP server configuration Backplane ethernet connections from other blades 192 168 21 1 or 192 168 22 1 in slot 6 192 168 21 2 or 192 168 22 2 in slot 9 Out of band interface on ATCA F120 No default setting IP address as defined by user in uboot Table 5 4 Access to System Components Component To Be Configured and Accessed Access Via Default IP Address Table 5 5 Software Available on System Com...

Page 96: ... necessary files BBS images must be installed on hard disks or for node blades and AMC modules the ATCA F120 must have a boot image for the respective blade or AMC module 5 4 2 Upgrade The procedures and tools for software upgrades differ depending on what component needs to be upgraded Available tools for firmware upgrades are z FCU part of BBS z FUMI part of HPI B included in BBS z fw_tool integ...

Page 97: ...pter Using the Firmware Update Management Instrument swupgrade SAM1410 Installation and Use Chapter Software Upgrade BBS software upgrade on any blade Install the files of the new software version as described in the Basic Blade Services Software Programmer s Reference of the respective blade Chapter Installation Fan tray firmware upgrade FUMI System Management Interface Based on HPI B Centellis 3...

Page 98: ...ates a separate 12V for redundant powering of the SAMs This voltage is distributed to each of these modules across the backplane Power conversion for the SAMs and PEMs consists of two 66 watt 48VDC to 12VDC converters which distribute dual power busses of 12VDC to separate parts of the system The 12VDC outputs are provided on the backplane connector to the rest of the shelf Power is redundant via ...

Page 99: ...the IPMC monitoring functions include digital inputs to detect circuit breaker trips voltage sensors to detect backplane voltages current sensors to detect current to the backplane and on board circuitry to detect failures on the PEM The PEMs are managed by the Sentry Shelf Management software Refer to Chapter 7 FRU Information and Sensor Data Records on page 119 Figure 1 4 on page 28 provides a c...

Page 100: ...ne to the FTM distribution board The FTMs are powered from 48VDC from the backplane The lower FTM receives its signal and power connections from the AdvancedTCA backplane Only the lower FTM has an air filter frame and filter in the module The FTMs have variable speed fan control which is dependent on the temperature readings in the shelf Airflow rates can vary depending on the fan speed and payloa...

Page 101: ...ilter Check the filter first before replacing the FTM For further information of nonrecoverable temperature events refer to Chapter 7 FRU Information and Sensor Data Records on page 119 5 6 3 IPMC Circuitry Preprogrammed FRU and SDR information reside on the FTMs and is accessible from the SAM via the I2 C bus FRU information can be found in the Chapter 7 FRU Information and Sensor Data Records on...

Page 102: ...ng a gratuitous address resolution protocol ARP broadcast to update arp caches z Starting the HPI daemon which performs HPI resource discovery for all resources of the AdvancedTCA shelf z Storing of the resource IDs which were assigned to the former active shelf manager Thus it is possible to reassign these IDs when the session is reestablished z Closing of all open HPI sessions on the client s si...

Page 103: ...e HPI to AdvancedTCA Mapping Specification 5 7 2 System Start Up Behavior and Dependencies Once the system is powered on the shelf manager and the hub blade need to connect and communicate which blades are active 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 The ...

Page 104: ...s partner ShMC The following table shows which shelf manager becomes active or standby depending on which hub blades are present in the shelf p Hub blade present h 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 Table 5 9 Start up Dependenci...

Page 105: ...ntify in which slot the active shelf manager is located The Get Address Info command to IPMB address 0x20 in its 1 byte request data variant to get the hardware address of the shelf manager Read the Backplane Point to Point Connectivity record of FRU ID 254 of the shelf manager for the base interface and analyze the shelf manager s interface connection to the hub blade Check whether the correspond...

Page 106: ...5 5 System Start Up Backup ShMC IPMC IPMC IPMC IPMC ShM Board 2 ATCA Hub 2 ATCA Hub 1 ATCA Blade 4 ATCA Blade 5 Ch 2 Ch 1 Ch 1 Ch 1 Ch 2 Active Shelf Manager System Manager Application 192 168 21 1 192 168 22 2 eth2 192 168 22 29 eth2 192 168 20 181 eth0 192 168 0 181 eth0 192 168 0 9 Active ShMC ShM Board 1 Ch 2 eth1 192 168 21 28 eth1 192 168 20 171 eth0 192 168 0 171 eth0 192 168 0 8 eth2 192 1...

Page 107: ...helf manager is inserted or extracted 5 7 3 1 Shelf Manager Switchover During a switchover the active and the standby shelf manager change their roles The system manager initiates and controls this process on the active shelf manager 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 ...

Page 108: ...ger 2 Initiates a switchover on the active shelf manager using an HPI control 3 Closes the HPI session Figure 5 6 Shelf Manager Switchover Active ShMC IPMC IPMC IPMC IPMC ShM Board 2 ATCA Hub 2 ATCA Hub 1 ATCA Blade 4 ATCA Blade 5 Ch 2 Ch 1 Ch 1 Ch 1 Ch 2 192 168 22 1 192 168 21 2 eth2 192 168 21 29 eth2 192 168 20 171 eth0 192 168 0 171 eth0 192 168 0 9 Backup ShMC ShM Board 1 Ch 2 eth1 192 168 2...

Page 109: ...running the script sv_activate 2 Closes the HPI session 3 Moves its own active virtual IP address to the other interface 4 Reestablishes the HPI session to the active shelf manager with saHpiSessionOpen 5 Waits in saHpiResourcesDiscover until the active shelf manager will discover all resources 5 7 3 3 Shelf Manager Failover Failover is a process when the standby shelf manager becomes the active o...

Page 110: ... 4 Waits in saHpiResourcesDiscover until the active shelf manager discovers all resources If a shelf manager failover occurs in a system with IP planes that are connected with one interlink between two hubsor between external switches thesystem manager can reachthe active shelf manager via the interlink An IP plane failover is not needed and the connection to the applications via the same interfac...

Page 111: ...standby shelf manager The shelf manager that is already in the system keeps the active role Figure 5 7 Link Failover after Active Shelf Manager Failover Active ShMC IPMC IPMC IPMC IPMC ShM Board 2 ATCA Hub 2 ATCA Hub 1 ATCA Blade 4 ATCA Blade 5 Ch 2 Ch 1 Ch 1 Ch 1 Ch 2 192 168 22 1 192 168 21 2 eth2 192 168 21 29 eth2 192 168 20 171 eth0 192 168 0 171 eth0 192 168 0 9 Backup ShMC ShM Board 1 Ch 2 ...

Page 112: ...tract the standby shelf manager If you want to extract the active shelf manager a switchover has to take place so that the active shelf manager becomes standby and can then be extracted To power down the standby shelf manager board the system manager performs the following steps 1 Reads the HPI redundancy sensor to detect which physical shelf manager board is active 2 Powers down the standby shelf...

Page 113: ...er 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 ...

Page 114: ...wn first As soon as the blade has reached M6 an IPMI command is sent that tells the payload that the blade will be powered down 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 ...

Page 115: ... on which IPMI commands are supported on PEMs and fans Table entries marked with an X indicate which FRU supports a listed command IPMI information for blades can be found in the respective blade documentation 6 2 1 Global IPMI Commands The IPMC supports the following global IPMI commands 6 2 2 Event Commands The IPMC supports the following event commands Table 6 1 Supported Global IPMI Commands N...

Page 116: ...y 0x04 0x05 0x22 X X Get Sensor Reading Factors 0x04 0x05 0x23 X X Set Sensor Hysteresis 0x04 0x05 0x24 X X Get Sensor Hysteresis 0x04 0x05 0x25 X X Set Sensor Threshold 0x04 0x05 0x26 X X Get Sensor Threshold 0x04 0x05 0x27 X X Set Sensor Event Enable 0x04 0x05 0x28 X X Get Sensor Event Enable 0x04 0x05 0x29 X X Get Sensor Event Status 0x04 0x05 0x2b X X Get Sensor Reading 0x04 0x05 0x2d X X Get ...

Page 117: ... Control 0x2C 0x2D 0x04 X X Get FRU LED Properties 0x2C 0x2D 0x05 X X Get LED Color Capabilities 0x2C 0x2D 0x06 X X Set FRU LED State 0x2C 0x2D 0x07 X X Get FRU LED State 0x2C 0x2D 0x08 X X Set IPMB State 0x2C 0x2D 0x09 X X Set FRU Activation Policy 0x2C 0x2D 0x0A X X Get FRU Activation Policy 0x2C 0x2D 0x0B X X Set FRU Activation 0x2C 0x2D 0x0C X X Get Device Locator Record ID 0x2C 0x2D 0x0D X X ...

Page 118: ...Supported IPMI Commands AXP 1410 Installation and Use 6806800H70F 118 ...

Page 119: ...ors available on the Fan Tray Module Table 7 1 IPMI Sensors on the Fan Tray Module Sensor No Sensor Name Type of Measurement What does it measure Sensor Type Availability 0 Hot Swap Status State of FRU Discrete Always 1 Version Change Version change OEM Version Use Discrete Always 2 IPMB Link State of IPMB link Discrete Always 3 12V A_MON Voltage Fan 12V source A Threshold Always 4 12V B_MON Volta...

Page 120: ... Fan Unit 3 Controller Fault State Discrete Always 23 FanFault Z2F1 OEM reserved Zone 2 Fan Unit 1 Controller Fault State Discrete Always 24 FanFault Z2F2 OEM reserved Zone 2 Fan Unit 2 Controller Fault State Discrete Always 25 FanFault Z2F3 OEM reserved Zone 2 Fan Unit 3 Controller Fault State Discrete Always 26 FuseFail 48VA1 OEM reserved 48V Feed A Zone 1 Fuse Failure Flag Discrete Always 27 Fu...

Page 121: ...ld Always 32 FTM Temp 3 Temperature Fan Tray Module Temperature Sensor 3 Threshold Always 33 FTM Temp 4 Temperature Fan Tray Module Temperature Sensor 4 Threshold Always 34 FTM Temp 5 Temperature Fan Tray Module Temperature Sensor 5 Threshold Always Table 7 1 IPMI Sensors on the Fan Tray Module continued Sensor No Sensor Name Type of Measurement What does it measure Sensor Type Availability Table ...

Page 122: ...ical and Non Recoverable thresholds 0xDB 0xDA 0xD9 11 8260 11 7720 11 7180 Volts UpperNon Critical Criticaland Non Recoverable thresholds 0xF7 0xF9 0xFA 13 3380 13 4460 13 5 Volts Table 7 3 Sensor No 4 12V B_MON Feature Raw Value Description Interpreted Value Sensor Name 12V B_MON Device Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Instance...

Page 123: ... Sensor Name 3 3V Device 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 Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recovera...

Page 124: ...ssage control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable thresholds 0xDF 0xD5 0xC8 4 8168 4 6008 4 3200 Volts UpperNon Critical Criticaland Non Recoverable thresholds 0xF1 0xF6 0xFA 5 2056 5 3...

Page 125: ...d Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable thresholds 0xDF 0xD5 0xC8 4 8168 4 6008 4 3200 Volts UpperNon Critical Criticaland Non Recoverable thresholds 0xF1 0xF6 0xFA 5 2056 5 3136 5 4 Volts Table 7 6 Sensor No 7 5V B_MON continued Feature Raw Value Description Interpreted Value Table 7 7 Sensor No 30 FTM Temp 1 Fea...

Page 126: ...ure Raw Value Description Interpreted Value Sensor Name FTM Temp 2 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 Threshold access support Readable Settable Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3838 Critical and N...

Page 127: ...ttable Threshold access support Readable Settable Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3838 Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Critical and Non Recoverable thresholds 0x2D 0x35 0x3F 57 67 Degrees C Table 7 10 Sensor No 33 FTM Temp 4 Feature Raw Value Description Interpreted Value ...

Page 128: ...34 FTM Temp 5 Feature Raw Value Description Interpreted Value Sensor Name FTM Temp 5 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 Threshold access support Readable Settable Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3...

Page 129: ...y 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 Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non...

Page 130: ...ent message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable thresholds 0x24 0x24 0x24 1224 1228 1224 RPM UpperNon Critical Criticaland Non Recoverable thresholds 0xCE 0xE6 0xF2 7004 7820 82...

Page 131: ...ed Lower Non Critical Critical and Non Recoverable thresholds 0x24 0x24 0x24 1224 1228 1224 RPM UpperNon Critical Criticaland Non Recoverable thresholds 0xCE 0xE6 0xF2 7004 7820 8228 RPM Table 7 15 Sensor No 11 Fan 4 Feature Raw Value Description Interpreted Value Sensor Name Fan 4 Device Sensor Type 0x04 Fan Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x1D Cooling Unit Entity Instance 0x...

Page 132: ...e Sensor Name Fan 5 Device Sensor Type 0x04 Fan 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 Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverabl...

Page 133: ...Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable thresholds 0x24 0x24 0x24 902 902 902 RPM UpperNon Critical Criticaland Non Recoverable thresholds 0xCE 0xE6 0xF2 5588 5610 561...

Page 134: ...Non Critical Critical and Non Recoverable thresholds 0x24 0x24 0x24 902 902 902 RPM UpperNon Critical Criticaland Non Recoverable thresholds 0xCE 0xE6 0xF2 5588 5610 5610 RPM Table 7 19 Sensor No 16 Fan 3 Outlet Feature Raw Value Description Interpreted Value Sensor Name Fan 3 Outlet Device Sensor Type 0x04 Fan Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x1D Cooling Unit Entity Instance ...

Page 135: ...nsor Name Fan 4 Outlet Device Sensor Type 0x04 Fan 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 Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recover...

Page 136: ...pe 0x04 Fan 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 Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settab...

Page 137: ...e Sensor Name Hot Swap Device Sensor Type 0xF0 Hot Swap Class 0x6F Discrete Sensor Owner LUN 0x00 Entity ID 0x1E Power Supply Entity Instance 0x60 Rearm Mode Auto Hysteresis support Threshold access support Event Message Control Entire Sensor Only Readable threshold mask Settable threshold mask bytes 19 20 0x00FF Reading Type According to PICMG 3 0 Table 7 23 Sensor No 2 IPMB Physical Feature Raw ...

Page 138: ... Event Message Control Entire Sensor Only Readable threshold mask Settable threshold mask bytes 19 20 Reading Type According to PICMG 3 0 Table 7 23 Sensor No 2 IPMB Physical continued Feature Raw Value Description Interpreted Value Table 7 24 Sensor No 1 Version change Feature Raw Value Description Interpreted Value Sensor Name Version change Type of Measurement Class 0x6F Discrete Sensor Type 0x...

Page 139: ...t 1 or 2 Assertion Event Mask bytes 15 16 0x00FF Deassertion Event Mask bytes 17 18 0x0000 Discrete Reading Mask bytes 19 20 0x00FF Supports 2 States Reading Definition According to Pigeon Point Table 7 24 Sensor No 1 Version change continued Feature Raw Value Description Interpreted Value Table 7 25 Sensor No 20 FanFault Z1F1 Feature Raw Value Description Interpreted Value Sensor Name FanFault Z1...

Page 140: ...lue Description Interpreted Value Sensor Name FanFault Z1F2 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 Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Readi...

Page 141: ...ent message control Entire Sensor only Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Reading Definition Assertion signals a fan controller fault Table 7 28 Sensor No 23 FanFault Z2F1 Feature Raw Value Description Interpreted Value Sensor Name FanFault Z2F1 Type of Measurement Class 0x03 Discrete...

Page 142: ...lue Description Interpreted Value Sensor Name FanFault Z2F2 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 Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Readi...

Page 143: ...nt message control Entire Sensor only Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Reading Definition Assertion signals a fan controller fault Table 7 31 Sensor No 26 FuseFail 48VA1 Feature Raw Value Description Interpreted Value Sensor Name FuseFail 48VA1 Type of Measurement Class 0x03 Discret...

Page 144: ...ue Description Interpreted Value Sensor Name FuseFail 48VA2 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 Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Readi...

Page 145: ...o Event message control Entire Sensor only Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Reading Definition Assertion signals a fuse failure Table 7 34 Sensor No 29 FuseFail 48VB2 Feature Raw Value Description Interpreted Value Sensor Name FuseFail 48VB2 Type of Measurement Class 0x03 Discrete S...

Page 146: ...e active SAM caches as FRU 254 of IPMB address 0x20 The FRU 0 information in a PEM4000 is represented in the next table Pigeon Point Shelf Manager Command Line Interpreter 66 FRU 0 FRU Info Common Header Format Version 1 Board Info Area Version 1 Language Code 25 Mfg Date Time Jun 1 00 00 00 2005 4952160 minutes since 1996 Board Manufacturer Emerson Network Power Embedded Computing Assertion Event...

Page 147: ...t Info Area Version 1 Language Code 25 Manufacturer Name Emerson Network Power Embedded Computing Product Name PEM4000 Product Part Model 0106823D01C Product Version Rev 1 00 Product Serial Number XXXXXX 6 digit assembly S N Asset Tag 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 ...

Page 148: ...ot inserted or onboard component power consumption is changing dynamically Number of power draw levels 1 The amount of possible power levels normally 1 Early power draw levels watt 0 1 Complete early power level including IPMC Steady state power draw levels watt 0 1 Complete steady power consumption including IPMC Transition from early to steady levels in seconds 0 Howlongdoesboardconsumeearlypowe...

Page 149: ...erved Always 8 FUSE 1 Status Hardware fuse OEM reserved Always 9 FUSE 2 Status Hardware fuse OEM reserved Always 10 FUSE 3 Status Hardware fuse OEM reserved Always 11 FUSE 4 Status Hardware fuse Analog Always 12 LM73 Temp Temperature Analog Always 13 48 0V FEED_1 Voltage Analog Always 14 48 0V FEED_2 Voltage Analog Always 15 PEM LFC Status Management Subsystem Shelf 16 Current Measure1 Current Ana...

Page 150: ... Supply Entity Instance 0x60 Rearm mode Auto Hysteresis support Readable Settable Threshold access support Readable Settable Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3F 0x3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable...

Page 151: ...message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable thresholds 0xD4 0xCA 0xC1 11 024 10 504 10 036 Volts UpperNon Critical Criticaland Non Recoverable thresholds 0xFA 0xFF 0xFF 13 13 26...

Page 152: ...n Critical Critical and Non Recoverable thresholds 0xDF 0xDA 0xD1 4 8168 4 7088 4 5144 Volts UpperNon Critical Criticaland Non Recoverable thresholds 0xF6 0xFA 0xFF 5 3136 5 4 5 508 Volts Table 7 40 Sensor No 5 12V CC Feature Raw Value Description Interpreted Value Sensor Name 12V CC Device Sensor Type 0x02 Voltage Class 0x01 Threshold Sensor Owner LUN 0x00 Entity ID 0x0A Power Supply Entity Insta...

Page 153: ... Sensor Name 48 0V FEED_1 Device 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 Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non ...

Page 154: ...0x60 Rearm mode Auto Hysteresis support Readable Settable Threshold access support Readable Settable Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3F3F Upper and Lower Non Critical Critical and Non Recoverable Thresholds are Readable and Settable Reading Type Unsigned Lower Non Critical Critical and Non Recoverable thresholds 0x84 0x77 0x71 ...

Page 155: ...pply Entity Instance 0x60 Rearm mode Auto Hysteresis support Readable Settable Threshold access support Readable Settable Event message control Entire Sensor only Readable threshold mask Settable threshold mask bytes 19 20 0x3838 Upper Non Critical Critical and Non RecoverableThresholdsareReadableand Settable Reading Type Unsigned UpperNon Critical Criticaland Non Recoverable thresholds 0xB4 0xB8 ...

Page 156: ... 19 20 0x3838 Upper Non Critical Critical and Non RecoverableThresholdsareReadableand Settable Reading Type Unsigned UpperNon Critical Criticaland Non Recoverable thresholds 0xB4 0xB8 0xBE 75 77 80 Amps Table 7 44 Sensor No 16 Current Measure2 continued Feature Raw Value Description Interpreted Value Table 7 45 Sensor No 12 LM73 Temp Feature Raw Value Description Interpreted Value Sensor Name LM73...

Page 157: ...or only Readable threshold mask Settable threshold mask bytes 19 20 0x3838 Upper Non Critical Critical and Non RecoverableThresholdsareReadableand Settable Reading Type Unsigned UpperNon Critical Criticaland Non Recoverable thresholds 0x17 0x23 0x2E 40 48 61 60 80 96 degrees C Table 7 45 Sensor No 12 LM73 Temp continued Feature Raw Value Description Interpreted Value Table 7 46 Sensor No 0 Hot Swa...

Page 158: ...al and Non Recoverable thresholds 0x84 0x77 0x71 42 24 38 08 36 16 Volts UpperNon Critical Criticaland Non Recoverable thresholds 0xE1 0xEB 0xEE 72 75 20 76 16 Volts Table 7 46 Sensor No 0 Hot Swap continued Feature Raw Value Description Interpreted Value Table 7 47 Sensor No 1 IPMB Physical Feature Raw Value Description Interpreted Value Sensor Name IPMB Physical Type of Measurement IPMB Link Sta...

Page 159: ...mask bytes 19 20 Reading Type According to PICMG 3 0 Table 7 47 Sensor No 1 IPMB Physical continued Feature Raw Value Description Interpreted Value Table 7 48 Sensor No 5 CB 1 Feature Raw Value Description Interpreted Value Sensor Name CB 1 Type of Measurement Monitors if the circuit breaker has been opened l Class Discrete Event Reading Type 0x03 Digital Discrete Sensor Type 0xC0 OEM reserved Sen...

Page 160: ...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 Rearm Mode Auto Event Message Control Discrete State Event Enable Disable Assertion Event Mask byte 15 16 0x02 0x00 State Deasserted State Asserted Deassertion Event Mask byte 17 18 0x02 0x00 State Deasserted State...

Page 161: ... ID 0x0A Power Supply Entity Instance 0x60 Rearm mode Auto Event message control Entire Sensor only Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Reading Definition According to Pigeon Point Table 7 51 Sensor No 8 CB 4 Feature Raw Value Description Interpreted Value Sensor Name CB 4 Type of Meas...

Page 162: ... Supports 2 States Reading Definition According to Pigeon Point Table 7 52 Sensor No 9 CB 5 Feature Raw Value Description Interpreted Value Sensor Name CB 5 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 Entity ID 0x0A Power Supply Entity Instance 0x60 Rearm mode Auto Ev...

Page 163: ...163 Assertion Event Mask bytes 15 16 0x02 0x00 Deassertion Event Mask bytes 17 18 0x02 0x00 Discrete Reading Mask bytes 19 20 0x03 0x00 Supports 2 States Reading Definition According to Pigeon Point Table 7 52 Sensor No 9 CB 5 continued Feature Raw Value Description Interpreted Value ...

Page 164: ...FRU Information and Sensor Data Records AXP 1410 Installation and Use 6806800H70F 164 ...

Page 165: ...lignment pin offers a guiderail to the slot and a coding mechanism to ensure the installationofthe board inthe matching slot It alsoprevents bentpinswhich may occur during installation The hardware consists of z 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 ...

Page 166: ...faces are available z Three Ethernet interfaces z Two redundancy interfaces serial z Block transfer interface z One diagnostic console interface serial 8 2 1 Ethernet Interfaces The shelf manager board has three Ethernet ports which are available concurrently One 10 100 BaseT out of band interface is accessible via a RJ45 connector at the face plate marked with ETH Link and activity status LEDs ar...

Page 167: ...QUICC when the other shelf manager board z initiates a break in condition on the serial line z experiences a power failure z goes in the reset state z is extracted 8 2 3 Block Transfer Interface The payload CPU is connected to the ShMC via a parallel interface with interrupt support called block transfer interface implemented in a FPGA The block transfer BT interface is compliant with IPMI specifi...

Page 168: ... the ISC of the ShMC Both microcontrollers have their own I2 C controller and handle message transmission and reception independently including bus error handling and bus arbitration Received messages sent from both the IMC and the ISC channels are collected by the IMC The IMC dispatches messages which have to be sent either to its own I2 C interface or to the ISC for transmission 8 3 2 IPMC Stand...

Page 169: ...orted Commands and FRU Information and Sensor Data Records of SAM1410 Installation and Use manual for further information The Link and Activity LEDs in the RJ45 connector are only controlled by the Ethernet PHY Figure 8 2 Face Plate OOS I S H S ETH ACT ALARM Table 8 1 Face Plate LEDs LED Color Description Failure OOS LED Red Red The shelf manager board is out of service Off The shelf manager board...

Page 170: ...eject handle switch is closed Blue short blink The eject handle switch is open or an extraction has been requested The board is shutting down and transferring control of the shelf to the other shelf manager board Off The shelf manager board is not ready to be extracted Do not remove the board during this state In Service I S LED Green Green The shelf manager board is working properly Off The shelf...

Page 171: ... a higher level such asasystemoperatorconsole ThefigurebelowdisplaysthepinoutforthealarmI Oconnector The following table shows which of these signals are input and which are output signals Figure 8 3 Alarm I O Connector Pinout 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 ...

Page 172: ...rm Reset 3 Major Alarm Reset 4 Major Alarm Reset 5 Critical Alarm NO Normally Open 6 Critical Alarm NC Normally Closed 7 Critical Alarm COM Common 8 Minor Alarm NO Normally Open 9 Minor Alarm NC Normally Closed 10 Minor Alarm COM Common 11 Major Alarm NO Normally Open 12 Major Alarm NC Normally Closed 13 Major Alarm COM Common 14 Power Alarm NO Normally Open 15 Power Alarm COM Common ...

Page 173: ...site for the latest copies of our product documentation 1 Go to http www Emerson com EmbeddedComputing 2 Enter the publication number of the manual you are looking for in the PRODUCT SEARCH text box Table A 1 Emerson Network Power Embedded Computing Publications Document Title Publication Number Centellis 4410 Document Collection 6806800J59 ATCA F120 Installation and Use 6806800D06 ATCA F120 Contr...

Page 174: ...s with Collision Detection CSMA CD Access Method and Physical Layer Specifications Institute of Electrical and Electronics Engineers Inc IEEE 802 3 March 2002 IEEE Amendment 1 Media Access Control parameters Physical Layers and Management Parameters for 10Gb s Operation IEEE 802 3ae August 2002 Intel developer intel com design servers ipmi IPMI Specification v1 5 PCI Industrial Manufacturers Group...

Page 175: ...ecific area of office telecommunication industry industrial control and development It must not be used in safety critical components life supporting devices or on aircraft Only personnel trained by Emerson or persons qualified in electronics or electrical engineering areauthorizedtoinstall removeormaintaintheproduct Theinformationgiveninthismanual is meant to complete the knowledge of a specialis...

Page 176: ... the rating of the branch circuit protection z Install the system safely Make sure that cables and cords are out of the way z Make sure that the set up is comfortable for users System Damage Environmental contamination can impair system operation Locate the system in a stable area free of excess movement and jarring and free of dust smoke and electrostatic discharge ESD Make sure that the temperat...

Page 177: ...or back injury use lifting aids and proper lifting techniques when removing or replacing the system Operation System Overheating Cooling Vents Improper cooling can lead to blade and system damage and may void the manufacturer s warranty To ensure proper cooling and undisturbed airflow through the system always operate the system in a horizontal position Do not obstruct the ventilation openings at ...

Page 178: ... the central office environment Because central offices vary in physical location and cleanliness check your air filters every week after you first install your system In a dusty environment a filter may need cleaning more often than a filter in a cleaner environment Check the filters frequently until you have a good idea of how often it needs cleaning Based on your findings establish a regular cl...

Page 179: ...d damage or injury always check that there is no more voltage on the line that has been disconnected before continuing your work Personal Injury At the system s rear there are sharp pins which can cause injury Be careful when handling the system Grounding Electric Shock Power Cable To minimize shock hazard the system chassis and enclosure must be connected to an electrical ground Failure to observ...

Page 180: ...t If this connection is made all of the following conditions must be met z This equipment shall be connected directly to the DC supply system earthing electrode conductor or to a bonding jumper from an earthing terminal bar or bus to which the DC supply system earthing electrode conductor is connected z This equipment shall be located in the same immediate area such as adjacent cabinets asanyother...

Page 181: ... et à proximité de la prise de terre du circuit d alimentation c c Le circuit d alimentation c c ne doit comporter aucune autre prise de terre z La source d alimentationdu circuitc c doitêtre situéedans lamêmepièce que le matériel Il ne doit y avoir aucun dispositif de commutation ou de sectionnement entre le point de raccordement au conducteur de la source d alimentation c c et le point de raccor...

Page 182: ...e rack Personal Injury To avoid electric shock make sure that contacts and cables of the system cannot be touched while the system is operating If in doubt concerning cabling ask your local Emerson representative Expansion and FRU Exchange System Overload To avoid system overload check the total power consumption of all components installed Make sure that any individual output current of any compo...

Page 183: ...ue to rotate after power is removed When exchanging a fan rotating blades in the fan may be exposed To prevent injury keep fingers and tools away from rotating blades in the fan System Alarm Bouncing the FTM during insertion may cause an alarm condition in the system Insert the FTM with a single steady motion and do not force the module into the slot Pin Damage Forcing the FTM into the system may ...

Page 184: ...ce and allow the capacitors in the power supply to discharge 1 minute before removing the PEM from the chassis Personal Injury Hazardous energy levels may be present inside the enclosure To prevent serious injury or death from dangerous voltages do not touch any of the exposed leads or terminals inside the enclosure Only properly trained service personnel should remove or install power supplies Sy...

Page 185: ...vironment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation ofthis equipment ina residential area is likely tocause harmful interference inwhich case the user will be required to correct the interference at his own expense To ensure EMC protect...

Page 186: ...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 ...

Page 187: ...le von Emerson Das Produkt erfüllt die für die Industrie geforderten Sicherheitsvorschriften und darf ausschließlich für Anwendungen in der Telekommunikationsindustrie im Zusammenhang mit Industriesteuerungen und in der Entwicklung verwendet werden Es darf nicht in sicherheitskritischen Anwendungen lebenserhaltenden Geräten oder in Flugzeugen verwendet werden Einbau Wartung und Betrieb dürfen nur ...

Page 188: ...ge amerikanische Norm für Drahtquerschnitte Wert der Überstrom Schutzeinrichtung können Sie der NEC National Electrical Code Tabelle 31016 oder anderen nationalen Regelwerken entnehmen z Der Erdungsleiter ist abhängig von der Spannungsverteilungstopologie innerhalb Ihrer Anlage Stellen Sie sicher dass Sie einen angemessenen Erdungsleiter gemäß der Auslegung des Zugangsleitungsschutzes verwenden z ...

Page 189: ...rank umkippen und Schäden am System oder Verletzungen verursachen Bauen Sie das System deshalb ganz unten im Schrank ein wenn es das einzige System im Schrank ist Wenn mehrere Systeme in einen Schrank eingebaut werden sollen platzieren Sie das schwerste System ganz unten und die leichteren weiter oben Falls der Schaltschrank mit Kippsicherungenausgestattetist stellenSie sicher dassdieseauchinstall...

Page 190: ...tion zu gewährleisten stellen Sie sicher dass alle Steckplätze mit Blades oder Platzhalter Blades belegt sind Überhitzung des Systems Wenn Sie die Geschwindigkeit der Lüfter reduzieren steigt die Systemtemperatur an In diesem Fall müssen Sie die Systemtemperatur über die Sensoren der Lüftermodule regeln Stellen Sie während des Betriebs sicher dass die Bedingungen die im Handbuch beschrieben sind e...

Page 191: ...einigungsplan und protokollieren Sie jede Reinigung oder jeden Austausch des Filters Beschädigung des Systems Hohe Luftfeuchtigkeit und Kondensat auf den Oberflächen der Produkte kann zu Kurzschlüssen führen Betreiben Sie die Produkte nur innerhalb der angegebenen Grenzwerte für die relative Luftfeuchtigkeit und Temperatur und stellen Sie vor dem Einschalten des Stroms sicher dass sich auf den Pro...

Page 192: ... Stromkabel Erden Sie das Systemchassis um das Risiko eines Stromschlags so gering wie möglich zu halten Falls Sie das System nicht ordungsgemäß erden kann dies außerdem zu vielfältigen Störgeräuschen eletrostatischen Entladungen und Interferenzen im Hochfrequenzbereich führen Beschädigung von Schaltkreisen Elektrostatische Entladung und unsachgemäßer Ein und Ausbau des Produktes kann Schaltkreise...

Page 193: ...mkreis SELV verbunden werden z Bei Fragen wenden Sie sich an Ihren Systemverwalter Verletzungsgefahr Kabel die nicht sicher angebracht sind können zu Stolperfallen werden und Verletzungen verursachen 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 s...

Page 194: ...tsprechenden Komponente überprüfen Stellen Sie sicher dass der Ausgangsstrom jedes Verbrauchers innerhalb der zulässigen Grenzwerte liegt Verlust der Sicherheits und EMV Zulassung Wenn Sie zusätzliche Produkte installieren können Sicherheits und EMV Richtlinien verletzt werden Der Systemintegrator ist für die Einhaltung dieser Richtlinien verantwortlich Beschädigung des Systems Tempe Tauschen Sie ...

Page 195: ...e Lüfter einführen Achten Sie deshalb beim Austausch der Lüfterschublade auf die rotierenden Lüfterschaufeln Berühren Sie die Lüfterschaufeln erst wenn diese still stehen Systemalarm Falls Sie die Lüfterschublade während des Einbaus verkanten kann dies einen Systemalarm auslösen Installieren Sie die Lüfterschublade mit einer fließenden Bewegung und wenden Sie dabei keine Gewalt an Schäden an Steck...

Page 196: ...alb sicher dass Sie die Spannung an der externen Spannungsversorgung ausschalten Warten Sie außerdem eine Minute bis die Kondensatoren im PEMs entladen sind bevor Sie die PEMs aus dem Chassis entfernen Verletzungsgefahr Innerhalb des Gehäuses gibt es gefährliche Spannungen Berühren Sie keine Anschlüsse innerhalb des Gehäuses um ernsthafte Verletzungen oder Tod durch Stromschlag zu vermeiden PEMs d...

Page 197: ...igitaleGerätederKlasseAgültigenGrenzwerte gemäß den FCC Richtlinien Abschnitt 15 bzw EN 55022 Klasse A Diese Grenzwerte sollen einen angemessenen Schutz vor Störstrahlung beim Betrieb des Produkts in Geschäfts Gewerbe sowie Industriebereichen gewährleisten Das Produkt arbeitet im Hochfrequenzbereich und erzeugt Störstrahlung Bei unsachgemäßem Einbau und anderem als in diesem Handbuch beschriebenen...

Page 198: ...undenverantwortung sicherzustellen dass alle leeren Steckplätze mit Boards RTMs oder zugelassenen Platzhalter Boards belegt sind um die Sicherheits und EMC Vorschriften zu erfüllen VCCI Das Produkt ist eine Einrichtung der Klasse A gemäß dem Standard des Voluntary Control Council for Interference von Information Technology Interference VCCI Wird das Produkt in Wohngegenden betrieben können Störung...

Page 199: ... 60 E earth ground 54 ejector handle FTM 100 emergency power off 60 enclosure description 26 Ethernet connector 170 Ethernet interfaces 166 F F120 28 Face plate 169 failed fan 101 Fan Speed 40 fan speed levels 100 Fan tray 44 fan tray module description 30 FTM power distribution 100 FTM see fan tray module G grounding DC platform 54 H HA 23 Hardware 165 166 Payload 166 High availability 23 hot swa...

Page 200: ...ule description 30 Power requirements 41 power supplies status indicators 100 power to FTM 100 power off emergency 60 Preparing the site 37 R Rack installation 51 Rear Transition Module 23 29 Redundancy interfaces 167 replacing PEMs 70 Requirements Equipment 48 Power 41 Tools 48 RTM 23 29 S SAM1410 27 64 Setting SGA 67 shelf description 26 Shelf management controller 165 168 Shelf manager 27 64 sh...

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Page 202: ...Index AXP 1410 Installation and Use 6806800H70F 202 ...

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Page 204: ...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 2009 Emerson Electric Co Emerson Network Power The global leader in enabling Business Critical Continuity AC Power Systems Connectivity DC Power Systems Embedded Computing Embedded Power Integrated Cabinet Solutions Outside Plant Power Switching ...

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