Emerson 6806800M67H User Manual Download

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Embedded Computing for

Business-Critical Continuity

ATCA-F140

Installation and Use

P/N: 6806800M67H
November 2013

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Summary of Contents for 6806800M67H

Page 1: ...Embedded Computing for Business Critical ContinuityTM ATCA F140 Installation and Use P N 6806800M67H November 2013 S t o c k C h e c k c o m ...

Page 2: ...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online downloaded for personal use or referenced in another document as a URL to a Emerson website The text itself may not be published commercially in print or electronic form edited translated or otherwise altered ...

Page 3: ...irements 27 2 3 3 Power Requirements 28 2 4 Rear Transition Modules 29 2 5 Blade Configuration 30 2 5 1 SATA Drive Installation 30 2 6 Blade Installation and Removal 30 2 6 1 Installing the Blade 31 2 6 2 Removing the Blade 34 2 7 AMC Module Installation and Removal 36 2 8 Installing and Removing SFP Modules 39 2 8 1 Installing an SFP Module 40 2 8 2 Removing an SFP Module 43 2 9 Installing and Re...

Page 4: ... Header 68 3 5 7 H8S Console and Programming Header 69 3 6 Switches 70 4 Functional Description 71 4 1 Block Diagram 71 4 2 Processor 71 4 3 Memory 72 4 3 1 Memory Interface 72 4 3 2 Memory Sockets 73 4 3 3 Memory Modules 73 4 3 4 Persistent Memory 73 4 4 IPMI 74 4 4 1 Temperature Sensors 76 4 5 FPGA 76 4 5 1 Serial Configuration PROM 77 4 6 Boot and User Flashes 78 4 6 1 Boot Flash 78 4 6 2 Boot ...

Page 5: ...ce Processor 95 4 12 1 2 Memory 96 4 12 1 3 Onboard Flash 96 4 12 1 4 Persistent Memory 96 4 12 2 Ethernet Switch Resets 96 4 12 2 1 Broadcom BCM56334 96 4 12 2 2 Broadcom BCM56846 97 4 12 3 Physical Interconnect Devices 97 4 12 4 AMC Bay 97 4 12 5 Rear Transition Module 97 4 13 Interrupt Structure 97 4 14 JTAG Support 99 5 U Boot 101 5 1 Overview 101 5 2 Accessing U Boot 101 5 3 Configuring Boot ...

Page 6: ...n of the POST 111 5 9 ATCA F140 Specific U Boot Commands 112 5 10 ATCA F140 Specific U Boot Environment Variables 112 5 11 Updating U Boot 114 A Replacing the Battery 117 A 1 Replacing the Battery 117 B Related Documentation 119 B 1 Emerson Network Power Embedded Computing Documents 119 B 2 Related Specifications 120 Safety Notes 121 Sicherheitshinweise 129 Index 137 S t o c k C h e c k c o m ...

Page 7: ...Table 3 10 Connector J20 Pin Assignment 56 Table 3 11 Connector J21 Pin Assignment 57 Table 3 12 Connector J22 Pin Assignment 57 Table 3 13 Connector J23 Pin Assignment 58 Table 3 14 Connector J24 Pin Assignment 58 Table 3 15 Connector J30 Pin Assignment 59 Table 3 16 Connector J31 Pin Assignment 59 Table 3 17 Connector J32 Pin Assignment 60 Table 3 18 AMC Bay Connector Pin Assignment 63 Table 3 1...

Page 8: ... Table 5 3 POST Result Format 108 Table 5 4 Post Results in SYS FW PROGRESS IPMI Sensor Reading Data 109 Table 5 5 SYS FW PROGRESS IPMI Sensor POST Error Event Codes 110 Table 5 6 POST Routines 110 Table 5 7 Environment Variable post_control 111 Table 5 8 ATCA F140 Specific U Boot Commands 112 Table 5 9 ATCA F140 Specific U Boot Environment Variables 112 Table B 1 Emerson Network Power Embedded Co...

Page 9: ...nnectors Locations 62 Figure 4 1 ATCA F140 Block Diagram 71 Figure 4 2 IPMI Block Diagram 75 Figure 4 3 Boot Bank Selection Logic 79 Figure 4 4 Base Channel Cross Connect 88 Figure 4 5 Fabric Channel Cross Connect 89 Figure 4 6 Telecom Clocking Subsystem 91 Figure 4 7 BITS SSU Clock Flow 93 Figure 4 8 Reset Structure Diagram 94 S t o c k C h e c k c o m ...

Page 10: ...ATCA F140 Installation and Use 6806800M67H 10 List of Figures S t o c k C h e c k c o m ...

Page 11: ...s a block diagram and functional description of major components of the product U Boot describes the boot firmware Replacing the Battery contains the procedures for replacing the battery Related Documentation provides a listing of related product documentation manufacturer s documents and industry standard specifications Safety Notes summarizes the safety instructions in the manual Sicherheitshinw...

Page 12: ...Intelligent Platform Management Controller IPMI Intelligent Platform Management Interface JTAG Joint Test Action Group LBC Local Bus Controller LED Light emitting diode LFM Linear Feed per Minute LPC Low Pin Count LVDS Low Voltage Differential Signals LVPECL Low Voltage Positive Emitter Coupled Logic MCP Machine Check Processor M LVDS Multipoint Low Voltage Differential Signals MMC Module Manageme...

Page 13: ...p Scale Package SDRAM Synchronous Dynamic Random Access Memory SFP Small Form Factor Pluggable SFP Small Form Factor Pluggable Plus SGMII Serial Gigabit Media Independent Interface SMF Single Mode Fiber SP Service Processor SPD Serial Present Detect SPI Serial Peripheral Interface SRAM Static Random Access Memory SSD Solid State Disk SSU Synchronization Supply Unit TSEC Triple Speed Ethernet Contr...

Page 14: ...utandcoderelatedelements 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 1 no...

Page 15: ...untered Pay attention to important information Notation Description Part Number Publication Date Description 6806800M67A February 2012 EA Version 6806800M67B April 2012 GA Release 6806800M67C December 2012 Updated Standard Compliances on page 18 6806800M67D March 2013 Updated figures in Chapter 4 Functional Description 6806800M67E May 2013 Updated Table 3 1 on page 50 6806800M67F October 2013 Upda...

Page 16: ...ATCA F140 Installation and Use 6806800M67H About this Manual 16 About this Manual S t o c k C h e c k c o m ...

Page 17: ...res of the ATCA F140 Single slot ATCA form factor 280 mm x 322 mm Freescale P2020 QorIQ Integrated Processor for the on board service processor functions Two DDR3 memory DIMM slots each of which can support up to 2 GB of DDR3 SDRAM with ECC for a total memory capacity of 4 GB Two redundant banks of 32 MB Boot Flash memory 2 GB embedded USB Flash module for User Flash memory Onboard SATA connector ...

Page 18: ...3 CORE ANSI Fire Spread Criteria AT T Document ATT TP 76200 Network Equipment Power Grounding Environmental and Physical Design Requirements ETSI Acoustic Noise ETS 300 753 Class 3 1 ETSI acoustic noise requirements ETSI Stationary Use EN 300 019 2 3 Class 3 1 ETSI stationary use requirements temperature con trolled locations ETSI Storage EN 300 019 2 1 Class 1 2 ETSI storage requirements in syste...

Page 19: ...ed Emerson system Verizon Document VZ NEBS TE NPI 2004 015 NEBS Checklist Telecommunications Carrier Group NEBS Checklist Table 1 1 Standard Compliances Standard Description To fulfill the requirements of Telcordia GR 1089 R4 14 use Shielded Twisted Pair STP cables grounded at both ends to connect to the Ethernet ports The product has been designed to meet the directive on the restriction of the u...

Page 20: ...CA Switch blade 1 AMC Site Optional storage and Telecom CLK Stratum 3 Table 1 4 Blade Accessories Ordering Information Accessory Description RTM ATCA F140 RTM for the ATCA F140 with SFP and SFPP sockets SFP MM SX LC 1G Single Form Factor SFP module 850NM SX LC connector SFPP MM SR LC 10 G Single Form Factor Plus SFPP module 850NM SR LC connector SFPP SM LR LC 10G Single Form Factor Plus SFPP modul...

Page 21: ...B HDD for ATCA F125 ATCA F140 high durability SATA PRAMC 7311 AMC with INTEL COREI7 Processor 4GB DDR3 mid size SW WR PRAMC 7311 CD with WR PNE 3 0 and BBS for the PRAMC 7311 single blade license Table 1 4 Blade Accessories Ordering Information Accessory Description S t o c k C h e c k c o m ...

Page 22: ...uction ATCA F140 Installation and Use 6806800M67H 22 1 5 Product Identification The following graphic shows the location of the serial number label Figure 1 1 Serial Number Location S t o c k C h e c k c o m ...

Page 23: ...plicable install the AMC module 7 Configure the software 2 2 Unpacking and Inspecting the Blade Damage of Circuits Electrostatic discharge and incorrect installation and removal of the blade can damage circuits or shorten its life Before touching the product make sure that you are working in an ESD safe environ ment or wearing an ESD wrist strap or ESD shoes Hold the product by its edges and do no...

Page 24: ...e desiccant bag shipped together with the blade 2 3 Requirements This section shows the environmental and power requirements of the ATCA F140 The blade is thoroughly inspected before shipment If any damage occurs during transporta tion or any items are missing please contact customer service immediately Environmental Damage Improper disposal of used products may harm the environment Always dispose...

Page 25: ...irculating around the blade and not to component temperatures If you integrate the blade in your own non Emerson system please contact your local sales representative for further safety information Blade Damage High humidity and condensation on the blade surface may cause it to short circuit Do not operate the blade outside the specified environmental limits Make sure the blade is completely dry a...

Page 26: ...5 C min according to Telcordia GR 63 CORE 0 25 C min Relative Humidity Normal Operation 5 rH to 85 rh non condensing Exceptional Operation 5 rH to 90 rh non condensing According to Telcordia GR 63 CORE NEBS andEN300019 1 3 Classes3 1 and 3 1E 5 rH to 95 rH non condensing According to Telcordia GR 63 CORE NEBS and EN 300 019 1 1 Classes 1 2 and 2 3 Vibration 1g from 5 to 200Hz and back to 5Hz at a ...

Page 27: ...ing Cooling Vents Improper cooling can lead to system damage and can void the manufacturer s warranty To ensure proper cooling and undisturbed airflow through the system do not obstruct the ventilation openings of the system Make sure that the fresh air supply is not mixed with hot exhaust from other devices Personal Injury During operation hot surfaces may be present on the heat sinks and the com...

Page 28: ...our local Emerson representative for further details The blade must be connected to a TNV 2 or a safety extra low voltage SELV circuit A TNV 2 circuit is a circuit whose normal operating voltages exceed the limits for a SELV circuit under normal operating conditions and which is not subject to overvoltages from telecommunication networks Table 2 2 Power Requirements Characteristic Value Rated Volt...

Page 29: ...efer to Appendix B Related Documentation on page 119 for the list of related documents The RTMs are not hot swappable Before installation make sure that no front blade is installed in its respective slot or that the front blade is powered down For further details about the RTM installation refer to the installation and use guide of the respective RTM Damage of the Product and Additional Devices an...

Page 30: ... release are listed in Table 1 4 on page 20 Blade Accessories and includes the hard drive all required mounting hardware and installation instructions 2 6 Blade Installation and Removal The blade is fully compatible to the AdvancedTCA standard and is designed to be used in AdvancedTCA shelves Product Malfunction Switches marked as reserved may carry production related functions and can cause the p...

Page 31: ...ard the blue LED and thus skip its respective step In this case it is a purely mechanical installation Damage of Circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten its life Before touching the blade or electronic components make sure that you are working in an ESD safe environment Damage of the blade Incorrect installation of the blade can ...

Page 32: ...es are in the outward position by squeezing the lever and the latch together 3 Insert blade into the shelf by placing the top and bottom edges of the blade in the card guides of the shelf Make sure that the guiding module of shelf and blade are aligned properly 4 Apply equal and steady pressure to the blade to carefully slide the blade into the shelf until you feel resistance Continue to gently pu...

Page 33: ... the blade is completely installed the blue LED starts to blink This indicates that the blade has announced its presence to the shelf management controller If you feel that you need an abnormal amount of force during blade insertion to insert the blade into the slot please extract the blade then carefully inspect the blade and slot for problems to prevent damage If an RTM is connected to the front...

Page 34: ... the face plate if applicable 2 6 2 Removing the Blade This section describes how to remove the blade from an AdvancedTCA system Damage of circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten its life Before touching the blade or electronic components make sure that you are working in an ESD safe environment Damage of the blade Incorrect inst...

Page 35: ... not rotate the handle fully outward The blue LED blinks indicating that the blade power down process is ongoing 2 Wait until the blue LED is illuminated permanently Unfasten the screws of the faceplate then unlatch the upper handle and rotate both handles fully outward until the blade is detached from the shelf 3 Remove the face plate cables if applicable 4 Remove the blade from the shelf Data Lo...

Page 36: ...h AMC modules that are officially supported by Emerson Installing and operating other AMC modules may damage the AMC bay and the blade Limitation of Operating Temperature Range Installing AMC modules with small operating temperature ranges into the ATCA F140 may further restrict the operating temperature range of the ATCA F140 Make sure that the operating temperature of any installed AMC modules a...

Page 37: ...r Avoid using excessive force 5 Wait for the blue LED to glow The blue LED glows when the AMC module is completely engaged with the connector 6 Press module handle inwards towards the face plate to lock the AMC module into the AMC bay 7 Wait for the blue LED to perform a series of long blinks The blue LED blinks when the handle is locked in position indicating module detection and activation by th...

Page 38: ...D glows steadily gently pull the AMC module handles outwards to disconnect the module from the AMC connectors Continue to gently slide the module outwards along the guide rails 5 Install the filler panel Data Loss Removing the blade with the blue LED still blinking causes data loss Wait until the blue LED is steadily lit before removing the blade S t o c k C h e c k c o m ...

Page 39: ...es which are fully certified and which meet all relevant safety standards Personal Injury Optical SFP modules may be classified as laser products When installing and using any of these SFP modules the regulations which correspond to the respective laser class apply to the whole board and RTM Non compliance with these regulations may lead to personal injury When installing and using optical SFP mod...

Page 40: ... Module Procedure In order to install an SFP module proceed as follows 1 Slide the SFP module into the slot until it locks into position The SFP SFP module will only fully insert if installed in the proper orientation If it does not fully insert rotate it 180 degrees and re install S t o c k C h e c k c o m ...

Page 41: ...le Damage The optical port plug protects the sensitive optical fibres against dirt and damage Dirt and damage can render the SFP module inoperable Only remove the optical plug when you are ready to connect a cable to the SFP module When no cable is connected cover the port with an optical port plug S t o c k C h e c k c o m ...

Page 42: ...Hardware Preparation and Installation ATCA F140 Installation and Use 6806800M67H 42 3 Connect the network cable to the SFP module S t o c k C h e c k c o m ...

Page 43: ...nd Use 6806800M67H 43 2 8 2 Removing an SFP Module Procedure In order to remove an SFP module proceed as follows 1 Remove any connected cable from the SFP module 2 Open the SFP latch Note that the latch mechanism of your SFP module may be S t o c k C h e c k c o m ...

Page 44: ...Hardware Preparation and Installation ATCA F140 Installation and Use 6806800M67H 44 slightly different compared to the latch shown in the following figure S t o c k C h e c k c o m ...

Page 45: ... port with the optical port plug SFP Module Damage The optical port plug protects the sensitive optical fibres against dirt and damage Dirt and damage can render the SFP module inoperable Only remove the optical plug when you are ready to connect a cable to the SFP module When no cable is connected cover the port with an optical port plug S t o c k C h e c k c o m ...

Page 46: ... do not meet all relevant safety standards may damage the board RTM and the QSFP modules and may lead to personal injury Only use and install QSFP modules which are fully certified and which meet all relevant safety standards Personal Injury Optical QSFP modules may be classified as laser products When installing and using any of these QSFP modules the regulations which correspond to the respectiv...

Page 47: ...ke sure that it is the correct model and build for your system 2 If you are using an optical QSFP transceiver remove the optical bore dust plug and set it aside 3 Align the QSFP transceiver to the front of the module s transceiver socket opening Slide it carefully into the socket until the QSFP transceiver connects with the socket electrical connector For QSFP transceivers with a bail clasp latch ...

Page 48: ...ansceivers disconnect the network interface cable from the QSFP transceiver connector 2 Do the following steps to remove QSFP transceivers with a bail clasp latch Turn the bail clasp down to the horizontal position Install the dust plug into the transceivers optical bore Hold the sides of the QSFP transceiver and slide it out of the module socket 3 Do the following steps to remove QSFP transceiver...

Page 49: ...F140 Installation and Use 6806800M67H 49 Controls LEDs and Connectors 3 1 Mechanical Layout The following figure illustrates the mechanical layout of the blade Figure 3 1 ATCA F140 Face Plate S t o c k C h e c k c o m ...

Page 50: ...ication usage In Service Green Blade in service Attention Yellow Blade attention required Hot Swap Blue Blade hot swap status ETH5 Activity Green Blinking ETH5 activity ETH5 Link Yellow 10 100 1000 Ethernet link T1 E1 1 Telco Clock LED 2 Yellow Loss of Signal Green Status OK Red Blinking Status unknown T1 E1 2 Telco Clock LED 4 Yellow Loss of Signal Green Status OK Red Blinking Status unknown MODE...

Page 51: ...ocked Red Blinking Status unknown Table 3 1 Front Panel LEDs continued LED Color Function Table 3 2 Service Processor Ethernet RJ45 Connector Pin Assignment J9 RJ45 Pin 10Base T or 100Base TX 1000Base T 1 ETH_TX ETH_DA 2 ETH_TX ETH_DA 3 ETH_RX ETH_DB 4 ETH_DC 5 ETH_DC 6 ETH_RX ETH_DB 7 ETH_DD 8 ETH_DD Table 3 3 Service Processor Serial RS232 RJ45 Connector J1 RJ45 Pin Function RS232 1 RTS 2 Not us...

Page 52: ...GND 38 GND 2 TX2n 37 TX1n 3 TX2p 36 TX1p 4 GND 35 GND 5 TX4n 34 TX3n 6 TX4p 33 TX3p 7 GND 32 GND 8 ModselL 31 LPMode 9 ResetL 30 Vcc1 10 VccRx 29 VccTx 11 SCL 28 IntL 12 SCA 27 ModPrsL 13 GND 26 GND 14 RX3p 25 RX4p 15 RX3n 24 RX4n 16 GND 23 GND 17 RX1p 22 RX2p 18 RX1n 21 RX2n Table 3 3 Service Processor Serial RS232 RJ45 Connector J1 continued RJ45 Pin Function RS232 S t o c k C h e c k c o m ...

Page 53: ...D 11 GND 2 TX_FAULT 12 RX 3 TX_DISABLE 13 RX 4 I2C_SDA 14 GND 5 I2C_SCL 15 VCCr 3 3V 6 MOD_ABS 16 VCCt 3 3V 7 RS0 17 GND 8 LOS 18 TX 9 RS1 19 TX 10 GND 20 GND Table 3 6 Master Slave Sync Connector J12 U1 RJ45 Pin Function 1 Transmit 2 Transmit 3 Receive 4 5 Table 3 4 QSFP Connector Pin Assignment continued Contact Number Function Contact Number Function S t o c k C h e c k c o m ...

Page 54: ...tors J12 L1 L2 L3 U2 U3 RJ45 Pin Function 1 Port 1 2 Port 1 3 Port 2 4 Port 3 5 Port 3 6 Port 2 7 Port 4 8 Port 4 Table 3 8 T1 E1 Port Connectors J12 L4 and J12 U4 RJ45 Pin Function 1 RX Ring 2 RX Tip 3 4 TX Ring 5 TX Tip 6 Port 2 Table 3 6 Master Slave Sync Connector J12 U1 RJ45 Pin Function S t o c k C h e c k c o m ...

Page 55: ... J12 L4 and J12 U4 RJ45 Pin Function Table 3 9 Zone 1 Connector P10 Pin Assignment Contact Number Description 1 4 Reserved 5 Hardware Address Bit 0 6 Hardware Address Bit 1 7 Hardware Address Bit 2 8 Hardware Address Bit 3 9 Hardware Address Bit 4 10 Hardware Address Bit 5 11 Hardware Address Bit 6 12 Hardware Address Bit 7 13 IPMB Clock Port A 14 IPMB Data Port A 15 IPMB Clock Port B 16 IPMB Data...

Page 56: ... 10 Connector J20 Pin Assignment J20 Row Column A Column B Column C Column D Column E Column F Column G Column H 1 CLK1A CLK1A CLK1B CLK1B CLK2A CLK2A CLK2B CLK2B 2 UC_P4_TX UC_P4_TX UC_P4_RX UC_P4_RX CLK3A CLK3A CLK3B CLK3B 3 UC_P2_TX UC_P2_TX UC_P2_RX UC_P2_RX UC_P3_TX UC_P3_TX UC_P3_RX UC_P3_RX 4 UC_P0_TX UC_P0_TX UC_P0_RX UC_P0_RX UC_P1_TX UC_P1_TX UC_P1_RX UC_P1_RX 5 6 7 8 9 FIX_P12_TX2 FIX_P...

Page 57: ...P7_RX2 FIX_P7_TX3 FIX_P7_TX3 FIX_P7_RX3 FIX_P7_RX3 10 FIX_P7_TX0 FIX_P7_TX0 FIX_P7_RX0 FIX_P7_RX0 FIX_P7_TX1 FIX_P7_TX1 FIX_P7_RX1 FIX_P7_RX1 Table 3 12 Connector J22 Pin Assignment J22 Row Column A Column B Column C Column D Column E Column F Column G Column H 1 FIX_P6_TX2 FIX_P6_TX2 FIX_P6_RX2 FIX_P6_RX2 FIX_P6_TX3 FIX_P6_TX3 FIX_P6_RX3 FIX_P6_RX3 2 FIX_P6_TX0 FIX_P6_TX0 FIX_P6_RX0 FIX_P6_RX0 FI...

Page 58: ...BIX_P6_DC BIX_P6_DD BIX_P6_DD Table 3 14 Connector J24 Pin Assignment J24 Row Column A Column B Column C Column D Column E Column F Column G Column H 1 BIX_P7_DA BIX_P7_DA BIX_P7_DB BIX_P7_DB BIX_P7_DC BIX_P7_DC BIX_P7_DD BIX_P7_DD 2 BIX_P8_DA BIX_P8_DA BIX_P8_DB BIX_P8_DB BIX_P8_DC BIX_P8_DC BIX_P8_DD BIX_P8_DD 3 BIX_P9_DA BIX_P9_DA BIX_P9_DB BIX_P9_DB BIX_P9_DC BIX_P9_DC BIX_P9_DD BIX_P9_DD 4 BI...

Page 59: ...O BIX_XG_MDC BIX_XG_MDIO FIX_XG_MDC FIX_XG_MDIO BIX_P20_RTM _RX BIX_P20_RTM _RX 3 BCM84740_RT M1_PCS_LINK BCM84740_RT M2_PCS_LINK SyncE_CLK25 _0 SyncE_CLK25_ O 4 FIX_GE0_TX FIX_GE0_TX FIX_GE0_RX FIX_GE0_RX FIX_GE1_TX FIX_GE1_TX FIX_GE1_RX FIX_GE1_RX 5 6 7 8 9 10 Table 3 16 Connector J31 Pin Assignment J31 Row Column A Column B Column C Column D Column E Column F Column G Column H 1 BIX_XG0_TX2 BIX...

Page 60: ...BIX_P14_R X 10 12V_RTM 3 3_MP_RTM PCIE_REFCLK PCIE_REFCLK SYNCHE_RC2 GPS_1PPS SYNCHE_RC1 RTM_ENAB LE_L Table 3 16 Connector J31 Pin Assignment continued J31 Row Column A Column B Column C Column D Column E Column F Column G Column H Table 3 17 Connector J32 Pin Assignment J32 Row Column A Column B Column C Column D Column E Column F Column G Column H 1 FIX_P15_TX2 FIX_P15_TX2 FIX_P15_RX2 FIX_P15_R...

Page 61: ...RST_L RTM_SW_CLOS ED_L RTM_PWRGOOD BIX_P19_RTM _TX BIX_P19_RTM _TX 10 12V_RTM 12V_RTM SPI_MISO SPI_MOSI SPI_SCK RTM_PS0_L BIX_P19_RTM _RX BIX_P19_RTM _RX Table 3 17 Connector J32 Pin Assignment continued J32 Row Column A Column B Column C Column D Column E Column F Column G Column H S t o c k C h e c k c o m ...

Page 62: ...Controls LEDs and Connectors ATCA F140 Installation and Use 6806800M67H 62 3 5 Module Connectors Figure 3 2 Module Connectors Locations S t o c k C h e c k c o m ...

Page 63: ...X11 to RTM 140 GND 5 GA0 39 Unused 73 GND 107 GND 141 Unused 6 Reserved 40 GND 74 TCLKA 108 AMC_TX11 to RTM 142 Unused 7 GND 41 ENABLE 75 TCLKA 109 AMC_TX11 to RTM 143 GND 8 Reserved 42 12V 76 GND 110 GND 144 Unused 9 12V 43 GND 77 TCLKB 111 Unused 145 Unused 10 GND 44 AMC_TX4 to 82571EB 78 TCLKB 112 Unused 146 GND 11 AMC_TX0 to BIX_P18 45 AMC_TX4 to 8257 1EB 79 GN D 113 GN D 147 Unus ed 12 AMC_TX...

Page 64: ...to FIX_GE3 58 GND 92 GND 126 Unused 160 Unused 25 GND 59 AMC_TX6 to 82571EB 93 AMC_RX9 to RTM 127 Unused 161 GND 26 GA2 60 AMC_TX6 to 82571EB 94 AMC_RX9 to RTM 128 GND 162 Unused 27 12V 61 GND 95 GND 129 Unused 163 Unused 28 GND 62 AMC_RX6 to 82571EB 96 AMC_TX9 to RTM 130 Unused 164 GND 29 AMC_TX2 to SATA mux 63 AMC_RX6 to 82571EB 97 AMC_TX9 to RTM 131 GND 165 TCK 30 AMC_TX2 to SATA mux 64 GND 98 ...

Page 65: ...213 NU 4 DQ1 39 CB0 74 CAS 109 DQ57 144 NU 179 1 5V 214 GND 5 GND 40 CB1 75 1 5V 110 GND 145 GND 180 A3 215 DQ46 6 DQS0 41 GND 76 CS1 111 DQS7 146 DQ22 181 A1 216 DQ47 7 DQS0 42 DQS8 77 ODT1 112 DQS7 147 DQ23 182 1 5V 217 GND 8 GND 43 DQS8 78 1 5V 113 GND 148 GND 183 1 5V 218 DQ52 9 DQ2 44 GND 79 NU 114 DQ58 149 DQ28 184 CK0 219 DQ53 10 DQ3 45 CB2 80 GND 115 DQ59 150 DQ29 185 CK0 220 GND 11 GND 46...

Page 66: ...DQ37 236 3 3V 27 DQ18 62 1 5V 97 DQ43 132 DQ13 167 NC 202 GND 237 SA1 28 DQ19 63 CK1 98 GND 133 GND 168 RESET 203 DM4 238 SDA 29 GND 64 CK1 99 DQ48 134 DM1 169 CKE1 204 NU 239 GND 30 DQ24 65 1 5V 100 DQ49 135 NU 170 1 5V 205 GND 240 VTT 31 DQ25 66 1 5V 101 GND 136 GND 171 A15 206 DQ38 32 GND 67 Vrefca 102 DQS6 137 DQ14 172 A14 207 DQ39 33 DQS3 68 Par_In 103 DQS6 138 DQ15 173 1 5V 208 GND 34 DQS3 6...

Page 67: ...t P6 GND S6 DRIVE_TX output P7 5V S7 GND P8 5V S8 NC P9 5V S9 NC P10 GND S10 NC P11 NC S11 NC P12 GND S12 NC P13 NC S13 NC P14 NC S14 NC P15 NC Table 3 20 J11 SAS SATA Connector Pin Assignment continued Contact Number Description Contact Number Description Table 3 21 P8 eUSB Header Pin Assignment Contact Number Description Contact Number Description 1 5V 2 No Connect 3 Data 4 No Connect 5 Data 6 N...

Page 68: ...n in the following table Table 3 22 P50 COP Header Pin Assignment Contact Number Description Contact Number Description 1 COP_TDO 2 3 3V pull up 3 COP_TDI 4 COP_TRST_L 5 3 3V pull up 6 COP_VDD_SENSE 7 COP_TCK 8 COP_CHKSTP_IN_L 9 COP_TMS 10 No Connect 11 COP_SRESET_L 12 COP_PRESENT_L 13 COP_HRESET_L 14 No Pin Key 15 COP_CHKSTP_OU T_L 16 GND Table 3 23 P12 Asset JTAG Header Pin Assignment Contact Nu...

Page 69: ...ting pins 2 to pin 4 and pin 6 to pin 8 The following table shows the pinout assignment for this header 13 GND 14 AUTO_WRITE_L 15 GND 16 DIO1 17 GND 18 DIO2 19 GND 20 DIO3 Table 3 23 P12 Asset JTAG Header Pin Assignment continued Contact Number Description Contact Number Description Table 3 24 P9 H8S Console Header Pin Assignment Contact Number Description Dir Contact Number Description Dir 1 H8S_...

Page 70: ... power is controlled by IPMI SW1 2 Manual power enable of POL supplies ON Enable payload POL supplies OFF POL power is controlled by IPMI SW1 3 Manual power enable of AMC and RTM ON Enable AMC and RTM power OFF AMC and RTM power is controlled by IPMI SW1 4 Disable IPMC Watchdog Timer ON IPMC Watchdog Timer disabled OFF Watchdog timer is enabled SW2 1 Boot flash select enable OFF IPMI selects Boot ...

Page 71: ...TCA F140 board and its interfaces to the front panel backplane and RTM 4 2 Processor The ATCA F140 utilizes a Freescale P2020 QorIQ processor The speed grade used on the ATCA F140 is 1 0 GHz The P2020 QorIQ Integrated Processor provides the following features Dual e500 cores On die 32 KB L1 cache for each core Figure 4 1 ATCA F140 Block Diagram S t o c k C h e c k c o m ...

Page 72: ...D host controller SPI interface Two I2C controllers Security engine with XOR acceleration JTAG interface 4 3 Memory 4 3 1 Memory Interface The P2020 QorIQ Integrated Processor provides an on chip DDR3 compliant memory controller with the following features Programmable timing supporting DDR3 SDRAM 64 bit data interface Full ECC support Sleep mode support for self refresh SDRAM On die termination s...

Page 73: ...ware The SPD SROM is read using the I2C bus that is connected to the processor 4 3 4 Persistent Memory Persistent memory is part of the ATCA F140 DDR memory subsystem A dedicated register is availableintheFPGAtoenableordisablepersistentmemorybysoftware Ifpersistentmemory isenabled thememorycontentsofthemainmemorystaysunchangedafteranyappliedreset except power up reset After power up reset the pers...

Page 74: ...a 4 4 IPMI The IPMI function of the ATCA F140 is implemented using the Emerson common ATCA base IPMI design This building block is based on the Pigeon Point Systems IPMI implementation using the Renesas HD64F2166 microcontroller which is part of the H8S controller family The IPMI building block implementation provides the following features Two IPMB interfaces to the backplane One local IPMB inter...

Page 75: ...Functional Description ATCA F140 Installation and Use 6806800M67H 75 Hot swap control Temperature Sensors Figure 4 2 IPMI Block Diagram S t o c k C h e c k c o m ...

Page 76: ...ombination of glue logic functions and telecom clock support functions These functions include the following Local Bus Interface Local Bus Decoder Low pin count interface between Host and IPMC Interrupt Routing Unit Reset Controller Local Bus to SPI Interface Telecom Clocking Support Table 4 1 Temperature Sensors Device Temperature Thresholds Sensor Type Non Critical Critical Non Recoverable Air I...

Page 77: ...B signal which is controlled by the IPMC AUX_SS1 and AUX_SS2 are deasserted by virtue of the fact the FPGA is not configured FPGAConfigurationFlashprogramming ASPIcontrollerintheFPGA drivenbytheservice processoroverthelocalbus controlsCSO_B CCLKandMOSI andmonitorsDIN TheIPMC controls the chip select routing to determine which of SPI Flash 1 or 2 is programmed AUX_SS1 and AUX_SS2 are deasserted by ...

Page 78: ...nd Reprogramming Bydefault thepayloadprocessorbootsfromBootFlashdevice 1 AnIPMIOEMcommandcan be used to send a message to the IPMC to change the boot device The IPMC provides an IPMI sensor to control the signal BOOT_BANK If the BOOT_BANK signal is set high the payload processor will boot from Boot Flash device 2 after reset The boot device from which the service processor has booted active bank i...

Page 79: ...rade the BOOT_BANK signal stays unchanged After IPMC firmware update is finished the IPMC reads the status of BOOT_BANK before driving it again During debugging it is possible to disconnect the BOOT_BANK signal driven by IPMC and select its value by a mechanical switch setting Figure 4 3 Boot Bank Selection Logic Table 4 2 Boot Bank Write Protection BOOT SELECT Chip Select Mapping Boot Device Writ...

Page 80: ...erent destinations as seen in the block diagram above The ATCA F140 board uses 2 channel or 4 channel high speed broadband 2 1 multiplexer demultiplexer switches to perform this function The select pins for these mux demux switches are routed to the FGPA Through the P2020 local bus interface the service processor can program registers in the FPGA to route the SGMII ports to the desired destination...

Page 81: ...nel Label ge0 Base Ch 3 LS 3 n a ge1 Base Ch 4 LS 4 n a ge2 Base Ch 5 LS 5 n a ge3 Base Ch 6 LS 6 n a ge4 Base Ch 7 LS 7 n a ge5 Base Ch 8 LS 8 n a ge6 Base Ch 9 LS 9 n a ge7 Base Ch 10 LS 10 n a ge8 Base Ch 11 LS 11 n a ge9 Base Ch 12 LS 12 n a ge10 Base Ch 13 LS 13 n a ge11 Base Ch 14 LS 14 n a ge12 Base Ch 15 LS 15 n a ge13 Base Ch 16 LS 16 n a ge14 Base Ch 1A ShMC n a ge15 Base Ch 1B ShMC n a ...

Page 82: ...nel The P2020 service processor communicates with the BCM56846 through the PCI Express interface to initialize and manage the switch Two1G SGMIIportsareroutedtothebackplaneforswitchfabricsupportofthetwoextraslots in a sixteen slot chassis or optionally to the TopSync device and Fabric Channel 1 One 1G SerDes port is routed to AMC port 1 One 1G SGMII port is routed to update channels 3 and 4 to for...

Page 83: ...1 Fabric Ch 7 LS 8 n a wc7 xe12 Fabric Ch 8 LS 9 n a wc8 xe13 Fabric Ch 9 LS 10 n a wc9 xe14 Fabric Ch 10 LS 11 n a wc10 xe15 Fabric Ch 11 LS 12 n a wc11 0 xe16 Fabric Ch 12 LS 13 n a wc11 1 xe17 Fabric Ch 12 LS 13 n a wc11 2 xe18 Fabric Ch 12 LS 13 n a wc11 3 xe19 Fabric Ch 12 LS 13 n a wc12 0 xe20 Fabric Ch 13 LS 14 n a wc12 1 xe21 Fabric Ch 13 LS 14 n a wc12 2 xe22 Fabric Ch 13 LS 14 n a wc12 3...

Page 84: ...of signal condition Each SFP signal TX_DIS can be driven by the BCM8727 to disable the SFP module s transmitter laser output Each SFP module s I2C signals are routed to the BCM8727 PHY which provides two separate SFP I2C interfaces The service processor uses these I2C interfaces accessed through the PHY managementport toreadthemodule son boardEEPROMinformationtodeterminetypeand vendor specific inf...

Page 85: ... the transmitters OFF until the software can come up and take control The FPGA also provides the QSFP LPMODE signals that control whether the module is in low power mode or high power mode Each QSFP module s I2C signals are routed to the corresponding BCM84740 PHY The service processor uses these I2C interfaces accessed through the PHY management port to read the module s on board EEPROM informati...

Page 86: ... mux which determines whether the service processor or the PrAMC will have access to the SATA hard disk drive For debug purposes the SATA mux control from the IPMC is routed through the FPGA so that the SATA mux control can be manipulated by the service processor through the FPGA The ATCA F140 routes AMC ports 8 11 directly to the RTM for support of PCI Express controllers on future versions of RT...

Page 87: ...om Clock logic 2 TCLKB From Telecom Clock logic 3 TCLKC From Telecom Clock logic 4 TCLKD From Telecom Clock logic 5 FCLKA From PCIe 100MHz differential clock distribution Common Options 0 Gigabit Ethernet Link 0 To BCM56334 BIX 1 Gigabit Ethernet Link 1 To BCM56846 FIX 2 SATA Link 0 To SATA HDD mux 3 SATA Link 1 Unused Fat Pipes 4 PCIE SGMII To Dual Ethernet MAC PHY for AMC cross connect 5 PCIE SG...

Page 88: ...o the AMC to Base cross connect on update channels 0 1 Controller 1 is routed to the AMC to Fabric cross connect on update channels 3 4 The 82571EB uses an external SPI flash device to store configuration data MAC addresses etc An Atmel AT25128B device is used for this purpose 4 10 2 Channel Cross Connect The base and fabric channel cross connect scheme using the 82571EB is shown in the figures be...

Page 89: ...ux is controlled by an output of the IPMC which sets the selection bit during E keying initialization By default the mux is configured to connect the SATA drive to the service processor 4 11 Telecom Clocking The ATCA F140 supports an optional telecom clocking subsystem that is responsible for the generation and distribution of traceable telecom clocks for use throughout the local shelf and up to f...

Page 90: ...Functional Description ATCA F140 Installation and Use 6806800M67H 90 Routing of telecom clocks to AMC site Statum 3 oscillator S t o c k C h e c k c o m ...

Page 91: ...se 6806800M67H 91 4 11 1 Telecom Clocking Subsystem This section shows an overall block diagram of the telecom clocking subsystem Later sections elaborate on the functionality of each block Figure 4 6 Telecom Clocking Subsystem S t o c k C h e c k c o m ...

Page 92: ...ation Unit SSU A BITS is typically an output only device that provides a precision timing reference known as the T 3 clock to shelf level products that use this for synchronizing the local telecom clocks An SSU is similar to a BITS but can in turn synchronize itself to a linecard derived reference known as a T 4 clock The ATCA F140 provides dual T1 E1 interfaces to support both BITS and SSU operat...

Page 93: ...tional Description ATCA F140 Installation and Use 6806800M67H 93 The following figure illustrates the clock flow in a system employing a BITS or SSU Figure 4 7 BITS SSU Clock Flow S t o c k C h e c k c o m ...

Page 94: ...nctional Description ATCA F140 Installation and Use 6806800M67H 94 4 12 Reset Structure The resets for the ATCA F140 are controlled by the FPGA Figure 4 8 Reset Structure Diagram S t o c k C h e c k c o m ...

Page 95: ...t all registers to their default values HRST_L may be asserted at any time completely asynchronously HRST_L needs to be asserted during power on reset During HRST_L assertion the configuration input signals are sampled into registers inside the P2020 QorIQ Integrated Processor Table 4 8 Reset Sources Versus Reset Outputs Reset Output HRST_L SRST_L FIX_RST_L BIX_RST_L MOD_PHY_RST_L PHY_RST_L TELCO_...

Page 96: ...o the board that the cores have completed the reset operation and are not in a power down state This information is monitored by the IPMC 4 12 1 2 Memory The registers of the registered DIMM s will be reset in parallel to the HRST_L signal of the P2020 QorIQ Integrated Processor 4 12 1 3 Onboard Flash All onboard boot flash devices which are attached to the local bus are reset in parallel when the...

Page 97: ...he ENABLE signal active low as an input to the AMC module The 82571EB device is reset in parallel to the AMC 4 12 5 Rear Transition Module The RTM ATCA F140 is reset by two reset sources the IPMC and the reset controller inside the FPGA During normal operation the RTM ATCA F140 and the ATCA F140 front board are treated as one reset domain using the RTM_RST_L signal from the FPGA 4 13 Interrupt Str...

Page 98: ...1 DS26503 INT_L BITS1_INT_L Direct Active Low OD 3 3 1 BITS Framer 2 DS26503 INT_L BITS2_INT_L Direct Active Low OD 3 3 2 DIMMs EVENT_L DIMM_EVENT_L Direct Active Low OD 3 3 3 SIL3531A SATA INTA P2020 PCIE 2 INTA Internal 4 RTM FPGA INT_L RTM_INT_L Direct Active Low LVTTL 3 3 5 TopSync ACS9510 INTREQ_L CLOCK_INT_L FPGA ORed Active Low LVTTL 3 3 6 ACS8595 INT_L BIX Octal PHY 1 BCM54680 1 IRQ_L 1 8 ...

Page 99: ...G programming cable is installed on the header the payload power bypass enable signal is grounded enabling the 12V payload power supply and each of the onboard point of load supplies This allows all of the JTAG devices to be accessed regardless of the state of the power control CPLD Dual Optical PHY BCM8727 LASI1_L LASI2_L 1 2 OPTICAL_PHY_INT _L FPGA ORed Active Low LVTTL 3 3 9 Optical PHY 1 BCM84...

Page 100: ...Functional Description ATCA F140 Installation and Use 6806800M67H 100 S t o c k C h e c k c o m ...

Page 101: ... to the ATCA F140 For general information on U Boot see http www denx de wiki UBoot WebHome 5 2 Accessing U Boot The U boot can be accessed using the serial interface connector at the faceplate of the ATCA F140 To connect you need a computer with a serial interface connector and a terminal emulation software such as HyperTerm running on it 1 ConnecttheconsoleinterfaceconnectoroftheATCA F140tothese...

Page 102: ... defined The external TFTP server must be connected using the ATCA F140 face plate connector ETH5 which is the Ethernet management interface Any other interfaces such as the base or fabric interfaces are not yet functional at this stage of the boot phase as the corresponding drivers are not initialized yet These serial access parameters are the default values These can be changed from within U Boo...

Page 103: ...rnel and root file system are available as RAM disk image you may want to boot from that RAM disk This procedure assumes that the U Boot command ramboothas been defined and that the RAM disk image is stored on an external TFTP server that is connected to the ATCA F140 During each boot process the image is downloaded from the TFTP server into the main memory of the blade The external TFTP server mu...

Page 104: ...in the U boot images and also Linux kernel images It also contains two redundant root file systems This section describes how to configure U boot to boot a Linux kernel stored in the boot flash and to mount the root file system in the user flash The procedure uses the U Boot script flashboot which has been predefined by Emerson 1 Configure U boot to boot from flash setenv bootcmd flashboot 2 Depen...

Page 105: ...llowing commands setenv kerneladdr e0000000 for the kernel in the currently active boot flash setenv kerneladdr e2000000 for the kernel in the currently stand by boot flash Use these commands with care 5 5 Using the Persistent Memory Feature Persistent memory means that the memory RAM is not deleted during a reset Memory content can be deleted by performing a power cycle or by temporarily removing...

Page 106: ...Connect to U Boot For more information see Accessing U Boot on page 101 3 Using the kernel memory map find the memory addresses of the kernel logs 4 To display the kernel logfile at any of these memory addresses enter the following command printf memory address The persistent memory feature can also be useful in the storage of application specific data Use the standard U Boot variable pram to rese...

Page 107: ...Byte Active boot flash 0xE0000000 32 Mbytes Stand by boot flash 0xE2000000 32 Mbytes BITS1 0xFFA00000 32 Kbytes BITS2 0xFFA100000 32 Kbytes FPGA 0xFFDF0000 32 Kbytes P2020 CPU 0xFFE00000 32 Kbytes Regardless which of the two boot flashes is selected as the currently active boot device using IPMI the start address is always mapped to 0xE0000000 Table 5 2 Linux Devices Linux Device Name Content Memo...

Page 108: ...t flash dev mtd4 U Boot image 0xE1F80000 0xE1FFFFFF Active boot flash dev mtd5 Kernel image 0xE2000000 0xE25FFFFF Stand by boot flash dev mtd6 Empty 0xE2600000 0xE3EFFFFF Stand by boot flash dev mtd7 Kernel DTB 0xE3F00000 0xE3F1FFFF Stand by boot flash dev mtd8 U Boot boot parameters 0xE3F40000 0xE3F5FFFF Stand by boot flash dev mtd9 U Boot image 0xE3F80000 0xE3FFFFFF Stand by boot flash dev mtd10...

Page 109: ...at the T tags can be nested if for example several subtests are performed in one device See the following example T FPGA T T DRAM E Address line E T T PCI T BIX T T FIX2 T T FIX1 T T T SPI T BEXT T T T I2C T CTRL1 T T CTRL2 T T T MDIO T PHY0 T T PHY1 T T PHY2 T T PHY3 T T Table 5 4 Post Results in SYS FW PROGRESS IPMI Sensor Reading Data Value Description 0x01 No memory detected 0x02 Memory error ...

Page 110: ... in CPU test 0x22 Error in PCI bus test Table 5 6 POST Routines Device Description CPU Check PLL configuration PORPLLSR register Check device configuration PORDEVSR register FPGA Register sanity check The version code is checked It must not be 0x00 or 0xFF DRAM Address line and data line test Switch devices The PCI interface is checked as follows Check for configuration space access vendor device ...

Page 111: ...0 MBPS and 10000 loop back packets are sent and verified Boot flash Flash devices are sent into CFI query mode and the query string is verified RTM Check connectivity of 10G repeater devices on RTM Table 5 6 POST Routines continued Device Description Table 5 7 Environment Variable post_control Value Description off Disables POST altogether always POST is executed after all types of blade resets ha...

Page 112: ...oot Commands Command Description bparams_set Allows to configure IPMI system boot options hreset Issues a hard reset on the ATCA F140 A hard reset resets the entire payload bootsel 0 1 switch SelectsthebootflashwhichtheATCA F140istobootfromafter thenextrestart 0selectsbootflash0 1selectsbootflash1 and switchselectsthecurrentlynotselectedbootflash i e switches between the boot flashes Table 5 9 ATC...

Page 113: ...cates the reason for the last reset Possible values are warm CPU reset power Power on frpl_pb Face plate push button rtm_pb RTM push button cpu_hreset CPU HRESET_REQ cop_hreset COP HRESET ipmc IPMC reset request sw_wdog Software watchdog reset ini_wdog Initial watchdog reset post_result Contains the POST result string if POST has been executed rom_corruption Set to 1 if the CRC of the u boot image...

Page 114: ... setenv ipaddr IP address of ATCA F140 setenv serverip IP address of TFTP server 3 Depending on your network configuration you may have to specify a gateway IP address as well as a netmask setenv gatewayip gateway IP setenv netmask netmask It is recommended that you update the U boot firmware using the BBS Linux or the shelf manager Refer to the respective documentation for further details Whenupd...

Page 115: ... the RAM to the currently stand by U boot bank cp b loadaddr e3f80000 80000 protect off 2 252 258 addresses to the currently stand by U Boot bank while protect off 1 252 258 addresses the currently active U Boot bank The currently stand by U boot bank is always mapped to the start address 0xE2000000 while the currently active U boot bank is always mapped to 0xE0000000 If you wish to set a particul...

Page 116: ...tallation and Use 6806800M67H 116 Copy to Flash done 8 Make stand by U boot active and vice versa by entering the following command bootsel switch 9 In order to boot the new U Boot reset the blade S t o c k C h e c k c o m ...

Page 117: ...ry as described in this chapter Data Loss If the battery voltage drops below the minimum required level the RTC time will be lost Therefore replace the battery before seven years of actual battery use have elapsed Data Loss Replacing the battery will result in RTC data loss The RTC will have to be re initialized after the battery is replaced Data Loss Installing another battery type other than wha...

Page 118: ...emove the battery See Figure 3 2 for location 2 Install the new battery following the positive and negative signs PCB and Battery Holder Damage Removing the battery with a screw driver may damage the PCB or the battery holder To prevent this damage do not use a screw driver to remove the battery from its holder S t o c k C h e c k c o m ...

Page 119: ...ment Title Publication Number ATCA F140 Quick Start Guide 6806800M68 RTM ATCA F140 Installation and UseGuide 6806800M97 BBS on ATCA F140 with SRstackware 6806800N23 SRstackware Intelligent Network Software Protocol Demo Guide 6806800N07 SRstackware Intelligent Network Software VRRP Command Reference 6806800N84 SRstackware Intelligent Network Software RIP Command Reference 6806800N85 SRstackware In...

Page 120: ...related specifications Note that the information in these documents are subject to change without notice Table B 2 Specifications Organization Document PICMG ATCA Base Specification Revision 3 0 Ethernet Fiber Channel Specification Revision 1 0 Advanced Mezzanine Card Base Specification Revision 2 0 S t o c k C h e c k c o m ...

Page 121: ...t Only personnel trained by Emerson or persons qualified in electronics or electrical engineering areauthorizedtoinstall removeormaintaintheproduct Theinformationgiveninthismanual is meant to complete the knowledge of a specialist and must not be used as replacement for qualified personnel Keep away from live circuits inside the equipment Operating personnel must not remove equipment covers Only f...

Page 122: ...tial area is likely to cause harmful interference in which case the user is required to correct the interference at his own expense Use only shielded cables when connecting peripherals to assure that appropriate radio frequency emissions compliance is maintained Installed blades must have the face plates installed and all vacant slots in the shelf must be covered Forapplicationswherethisproductisp...

Page 123: ...n and removal of the product can damage circuits or shorten its life Before touching the product make sure that you are working in an ESD safe environment or wearing an ESD wrist strap or ESD shoes Hold the product by its edges and do not touch any components or circuits Damage of the Product and Additional Devices and Modules Incorrect installation or removal of additional devices or modules dama...

Page 124: ...ically connected to interfaces that connect to the OSP or its wiring These interfaces are designed for use as intra building interfaces only Type 2 or Type 4 ports as described in GR 1089 and require isolation from the exposed OSP cabling The addition of Primary Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring Operation Blade Damage High humid...

Page 125: ... on the line that has been disconnected before continuing your work Configuration Switches Jumpers Product Malfunction Switches marked as Reserved might carry production related functions and can cause the product to malfunction if their setting is changed Do not change settings of switches marked as reserved Product Damage Setting resetting the switches during operation can cause damage to the pr...

Page 126: ...your system administrator AMC Module Limitation of Operating Temperature Range Installing AMC modules with small operating temperature ranges into the ATCA F140 may further restrict the operating temperature range of the ATCA F140 Make sure that the operating temperature of any installed AMC modules and the ATCA F140 as a bundle are within allowed limits Poor Shelf Cooling and EMC Compliance Viola...

Page 127: ...ions which correspond to the respective laser class apply to the whole RTM Not complying to these regulations may lead to personal injury When installing and using optical SFP SFP QSFP modules which are classified as laser products make sure to comply to the respective regulations Eye Damage Optical SFP SFP QSFP modules may emit laser radiation when no cable is connected This laser radiation is ha...

Page 128: ...time Only use the same type of lithium battery as is already installed PCB and Battery Holder Damage Removing the battery with a screw driver may damage the PCB or the battery holder Do not use a screw driver to remove the battery from its holder Environment Environmental Damage Improperly disposing of used products may harm the environment Always dispose of used products according to your country...

Page 129: ...n 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 von durch Eme...

Page 130: ... 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 Betrieb können Störungen im Hochfrequenzbereich auftre...

Page 131: ...ehalten werden 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 Störungen im Hochfrequenzbereich auftreten In einem solchen Fall ist der Benutzer verpflichtet entsprechende Gegenmaßnahmen zu ergreifen Installation Beschädigung von Schalt...

Page 132: ...leuchtet bevor Sie das Blade deinstallieren Beschädigung des Systems Die Gebäude internen Schnittstellen intra building ports per GR 1089 CORE der Geräte oder Baugruppen sind nur für gebäudeinterne Verkabelung vorgesehen Die Schnittstellen sind als Typ 2 oder Typ 4 definiert wie in GR 1089 Core beschrieben und erfordern eine Isolation zu Leitungen außerhalb des Gebäudes Die Gebäude internen Schnit...

Page 133: ...st und umgekehrt Prüfen Sie deshalb immer ob die Leitung spannungsfrei ist bevor Sie Ihre Arbeit fortsetzen um Schäden oder Verletzungen zu vermeiden Schaltereinstellungen Fehlfunktion des Produktes Schalter die mit Reserved gekennzeichnet sind können mit produktionsrelevanten Funktionen belegt sein Das Ändern dieser Schalter kann im normalen Betrieb Störungen auslösen Verstellen Sie nur solche Sc...

Page 134: ...kreis SELV verbunden ist Wenden Sie sich bei Fragen an ihren Systemadministrator AMC Module Eingeschränkte Betriebstemperaturbereich Werden AMC Module auf dem Blade installiert deren Betriebstemperaturbereiche kleiner sind als der Betriebstemperaturbereich des Blades selber so führt dies zu einer Einschränkung des Betriebstemperaturbereiches des Blades Stellen Sie sicher dass sich die Betriebstemp...

Page 135: ... Sie daher nur SFP SFP Module die zertifiziert sind und die den Sicherheitsstandards entsprechen Verletzungsgefahr Optische SFP SFP Module können als Laserprodukte klassifiziert sein Wenn Sie solche SFP SFP Module installieren und betreiben so gelten die entsprechenden Bestimmungen für Laserprodukte für das gesamte RTM Werden diese Bestimmungen nicht eingehalten so können Verletzungen die Folge se...

Page 136: ...enverlust die Folge sein da die neu installierte Batterie für andere Umgebungsbedingungen oder eine andere Lebenszeit ausgelegt sein könnte Verwenden Sie daher den gleichen Batterietyp der bei Auslieferung des Produktes installiert war Beschädigung des PCBs und der Batteriehalterung Wenn Sie die Batterie mit einem Schraubendreher ausbauen können das PCB und die Batteriehalterung beschädigt werden ...

Page 137: ...ntal requirements 25 F features 17 fpga 76 functional description 71 I installation 23 installation requirements 24 ipmi 74 M mechanical data 19 memory 72 O ordering information 20 P power requirements 28 R requirements environmental 26 S sata drive installation 30 T thermal requirements 27 U u boot 101 Index S t o c k C h e c k c o m ...

Page 138: ...Index ATCA F140 Installation and Use 6806800M67H 138 S t o c k C h e c k c o m ...

Page 139: ...S t o c k C h e c k c o m ...

Page 140: ... of Emerson Electric Co All other product or service names are the property of their respective owners 2013 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 Control Precision Cooling Services Site Monitoring ...

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