AGFA ATCA-C110/1G Automobile Accessories User Manual
Contents
1. 25 Syston FR 25 Herc wap UPP reer a RUE EE N ee a 26 Ejoctor 2 2235 recieves eera 26 LEDS ss oso bed 565 e das ed Hard 26 Boome Vin FIVE uuo aad qa 605 CRESS Sap ES ES SADE ANTERA 26 Reset SOUIEBS RAO UM ASA 26 SU DB OAR OU Re M 27 3 U Boot Firmware Overview 29 ey 29 Segal 29 Conigunng the TFTP OBIVIE datas ETT does Deed A PSder d od 29 Contouring the BOOTP DHCP SSIVEl ta RRRYAPC AY ARES EST 30 Connpurinp NES SOIVBE KR Rl 31 Initialization ot the ATOA 6110 1G BOSE issues es amb ex desea koe mae Se 31 Ital SISSE ea sende eh 32 4 Functional DescripliOn X REOR eee 35 PACES TIMI OIE deter 35 AICA Compliant features CERRAR Gee SERE RNXERTSSES 36 Block2. Port number AMC Port Mapping on ATCA C110 1G CLKA CLK1 CLKB CLK2 CLKC CLK3 PCle CLK 0 GbE SerDes PORT 1 1 GbE SerDes PORT 2 2 SATA PORT 1 3 SATA PORT 2 4 PCle LINK 0 LANE 1 5 PCle LINK 0 LANE 2 6 PCle LINK 0 LANE 3 7 PCle LINK 0 LANE 4 8 17 NC 18 Serial port interface debug only 19 Serial port and USB interface debug only 20 Postcode signals for debug Bay 4 only ATCA C110 1G Installation and Use Manual 61 Chapter 5 Controls Indicators and Connector Pin Assignments ATCA Backplane Connectors The ATCA backplane connectors reside in the three zones 1 to 3 as specified by the ATCA standard and are called J10 J20 to J23 and J30 to J31 Figure 5 3 shows the location of ATCA connectors located at the back of the board Zone 1 supplies a 48 V power connection and the shelf management network interface Zone 2 provides the data transport support for the switch fabric Zone 3 is for the rear transition modules RTM to handle cabling to devices on the main boards The ARTM C110 Rear Transition Module mates directly with the ATCA C110 1G blade via the Zone 3 connector Figure 5 3 Location of the ATCA Connectors ALS SE Zone 3 29 4 3 Zone 2 nO 5 J10 Zone 1 30 q The pinouts of all these connectors are given in this section 62 ATCA C110 1G Installation and Use Manual Chapter 5 Controls Indicators and Connector Pin Assi
3. Table 6 6 2 to GPIO s Device Mappings ATMega8 Private 12 Bus GPIO Number Device Address Telecom Clock 0 2 Selection Device Address 0x38 Description CLKSEL 0 2 Selects the Clock source to the DPLL the clock source can be from the AMC Bay3 or Bay4 or the Backplane or the RTM SYNC_RTM_OR_BPLANE Selection of the SYNC Signal from the backplane or the RTM 0 From the Backplane 1 From the RTM CLK1_SEC_OR_SYNC Selects the CLK1 buffer input selection signal either it is 8 KHz Frame Alignment Clock or 19 44 MHz Byte Alignment Clock 0 Frame Alignment Clock 8 kHz 1 Byte Alignment Clock 19 44 MHz BPLANE SEL Selection of the ATCA Backplane Clock primary or secondary Source 0 Primary Source CLK3A 1 Secondary Source CLK3B 6 7 CLK3 SEL 0 1 Netref Clock CLK3 buffer input selection signals ATCA C110 1G Installation and Use Manual 75 Chapter 6 Memory Map and Registers 76 Table 6 6 2 to GPIO s Device Mappings ATMega8 Private I2C Bus Device Address GPIO Number Telecom CLK1 Buffer 0 Enable Signals Address 0x38 Description ATCA_CLK1A_EN Enables the Clock to be sourced to the Backplane on the CLK1A lines 0 Disable 1 Enable ATCA_CLK1B_EN Enables the Clock to be sourced to the Backplane on the CLK1B lines 0 Disable 1 Enable AMC1_CLK1_EN Enables the Clock to be sourced to AMC Bay1
4. EOS QUE 82 Geographical addressing of AMC Bays 110 16 82 Ethernet Phy Address cussece phe REIR RI Eee REPE ERA EG debe LRA ORE 82 Troubleshoplint QE qq d KR NER 83 need pa 83 s 2455444 oh 5645 dtd T Ee Rar SERED Gags dees SA ORE 83 D rtng or After System Initialization saad oda PES a ORES XA P eG Pe ERA 84 During Boot up Procedure Ghee EMSS ENS eee Needs Heke 85 Board SERN i ac dus dcin ac os lle ond 8 aaa aaa Ml asl ced 86 orsi rue eee nda cM a ge wee alae ow Sig Gea eh tue gle ea 89 Eb eR Gm keds su a a ees 89 Environmental and Physical Specifications 89 Power Reguilemells RR terk E n see Obese ORE 91 tanda DONDE eo uos dE DA Ede eh BOR AR DE MCA OH 92 EMC Compllal6l xaxa REA PE ORE Fed OPER ERE E dE 93 Th rnial Validation sao rn cows RERO a RROD KORE SS 95 Thermal Iegairemenis cass a eai VA 95 Thermally Significant
5. se a uber etr da hed eie are al 61 Extencied Colones ROJON sci cig es PI 61 Backplane Connectors iss 2454054545440 62 Zune 7 22050544440 Gud Rex BAL 63 Zone 552 aver cob HERR ey eR d 64 ATCA C110 1G Installation and Use Manual ix Contents x Zone 3 ees E oad e Ea 67 Memory Map and 71 Memory cccvigetcaseweg aves Read eee he RE ee SEES eM 1 SUR ARG odi elc P OL RAS RODEN eae C p 72 Shelf Management Registers IPMI interface 73 73 Rese ep REP 73 Boot ROM SUGGHON CER SEE Y suena DURS RUE doe 73 EROS ENADO ed ande ARA oe BR oad hee RPM 73 2 Address Map for MPOSSAD Pepe ki VERG VERA RAE 74 I2C BaBSDUFCOR X PEE ERR PE ERA ESAS ERED 74 I2C to GPIO s Device Mappings ATMega64 AMC Private I2C Bus 80 PRES BORGER
6. 1 9 Management Power Brick Onboard DDR SDRAM d devices bottom side EN K PowerQUICC III emis Microprocessor L 3 Connectors bw eee 39 le Gigabit Ethernet 5 igabit Etherne DEM m PHY devices i bn E FM JEN E 7 Connectors Flash Devices k E PCI to PCI Express ATCA Zone 2 Bridge a Connectors CPLD E E or oa Hot Swap Control IPMI Controllers and Holdup Cap CIO ede aaa s M x ATCA Zone 1 a 1 NB ee oe i 5 Equipment Required To install the ATCA C110 1G board you need the following equipment B PICMG 3 0 Compliant AdvancedTCA Modular Communications Platform AXP or any complaint chassis PICMG 3 1 Compliant Fabric Switch Blades supporting the Base and Fabric Interface PICMG 3 0 Compliant Shelf Manager with IPMI interoperability AMC B single width full height modules ARTM C110 Rear Transition Module and connecting cables ATCA C110 1G Installation and Use Manual 3 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation The ATCA C110 1G has two face plates top and bottom which are mounted on the top strut and bottom strut respectively No front panel I O is present on the ATCA C110 1G board See Face plate and LEDs on page 51 for more details The rear panel I O is provided via a Rear Transition Module Refer Rear Transit
7. fb ieee ame 16 Removing an AMC Module from a Powered System 14 Rear Transition Modules ideo pas EE E eer SONGS uias car ASL ede Cea e ede eder Rh ad RROD Rade pea d 16 Before You Install or Remove an AdvancedTCA Blade TIS Observe ESD Precautions fb eee eed ewe eee Watch for Bent Pins or Other Danone Metodo heh ated at de edt Mi Qo 17 Use Caution When Installing or Removing Blades ene Preserve EMI Compliant uuo qoo 4 REOR SARS 17 Understand Hot Swap Cree ere pid dene guis TS ATCA C110 1G Installation and Use Manual vii Contents Control EIenm Ri ROSS ERS 18 Injector Ejector Lever and Hot Swap Switch Mechanism 18 Verily Slot Usage Pax RR seed 19 Installing the ATCA C110 1G in a Powered Chassis 19 Removing the ATCA C110 1G from a Powered 21 Connecting to Pornphorals M RET 22 2 Operating
8. The ATCA C110 1G supports upto 128 MB User Flash The User Flash is located on the GPCM on the Local Bus Interface of the MPC8540 The User Flash is implemented in two physical banks of 64 MB each The device used is a 32 MB flash with a data bus width of 16 bits There are two devices per bank with two separated write enables for each device Note Only word aligned transfers are allowed on the User Flash interface AMC Bays The ATCA C110 1G supports up to four B type AMC bays The ATCA C110 1G supports a centralized switching for the Fabric Interface on the AMC bays The interface signals are routed to the FIM through the FIM Connector The following interfaces on the AMC bays are supported by ATCA C110 1G B PCI Express interface link of 4 lanes 2x Gigabit Ethernet interface 2x Serial ATA Link Refer to Geographical addressing of AMC Bays on ATCA C110 1G on page 82 for the geographical address of the AMC bay on the ATCA C110 1G Programmable Logic Devices CPLD The ATCA C110 1G has one programmable logic device used to implement dedicated board specific functions and registers The Programmable Logic onboard the ATCA C110 1G is used to implement the following functions B Power on Sequence Reset Architecture B Boot ROM Selection ATCA C110 1G Installation and Use Manual 47 Chapter 4 Functional Description Power on Sequence The power on sequence is controlled by the CPLD onboard the ATCA C110 1G The Enab
9. DRAM Dynamic Random Access Memory 2 Electrically Erasable Programmable Read Only Memory FEC Fast Ethernet Controller FIM Fabric Interface Module GbE Gigabit Ethernet GPCM General Purpose Chipselect Machine Input Output 2 Inter Integrated Circuit Bus IPMB Intelligent Platform Management Bus IPMC Intelligent Peripheral Management Controller also referred to as the IPMI Controller IPMI Intelligent Platform Management Interface JTAG Joint Test Action Group test interface for digital logic circuits LED Light Emitting Diode ATCA C110 1G Installation and Use Manual xxi About This Manual xxii Term Definition MAC Medium Access Controller for Ethernet MII Media Independent Interface for Ethernet MIIM Media Independent Interface Management NMI Non maskable interrupts NPTH Non Plated Through hole PCA Printed Circuit Assembly PCB Printed Circuit Board PCI Peripheral Component Interconnect PHY Physical transceiver device for Ethernet PICMG PCI Industrial Computer Manufacturers Group QoS Quality of Service R W Read write RS 232 Recommended Standard 232C interface standard for serial communication RTC Real Time Clock RTOS Real Time Operating System SDRAM Synchronous Dynamic Random Access Memory SerDes Serializer De Serializer ShMC Shelf Management Controller SoC System on Chip SPD Serial Presen
10. The carrier IPMC has disabled Check if the Shelf manager Carrier IPMC has payload power to the module detected an overload short circuit on the payload power rail and has hence decided to disable payload power to the module The Processor has hung during The IPMC monitors the POST codes of the boot up Processor System Management Firmware can use the IPMC to trace the stage at which Processor got stuck Note Check if the version of the IPMC firmware you are using supports this feature Serial port is not OK 1 Checkifthe connection ofthe serial port cable to the console connector and to the terminal PC is secure 2 Ensure that a null modem cable is used 3 Check the settings baud rate flow control etc of the terminal program 4 Check the baud rate setting in ATCA C110 1G U Boot setup This should match the baud rate setting of the terminal program ATCA C110 1G Installation and Use Manual 85 Appendix A Troubleshooting During Board Operation Problem Board runs unstable or hangs after some duration of operation Low system performance Possible Reason Disregard of environmental requirements Solution 1 Check that internal system temperature remains within specified ranges for all system devices Ensure that the system configuration you are using is validated for safe thermal performance 2 Check for hot spots within system Improve cooling system if necessary
11. applied Hot swap circuitry protect the board from electrical damage Ejector Handles The ejection handles switch is activated when the ejector handles are opened The state of the switch is monitored by the IPMC Indicator LEDs The light emitting diodes LEDs on the front panel are explained in Table 5 1 on page 52 Booting with Firmware Refer to Chapter 3 U Boot Firmware Overview for details about U Boot Reset Sources The ATCA C110 1G provides reset control from various sources Hard or soft resets may be generated A hard reset is defined as a reset of all onboard circuitry and reset of all onboard peripheral devices A soft reset is defined as a reset of the Processor Table 2 1 describes each reset source Table 2 1 Reset Sources Reset Sources Description Power On Reset Reset during power up Power bad reset generated onboard Reset signal generated when one of the voltage rails goes bad IPMI Reset from IPMI Rear Panel Reset for debug Manual Reset from ARTM C110 purposes only Each source of reset will result in a reset of the Processor and all other onboard logic 26 ATCA C110 1G Installation and Use Manual Chapter 2 Operating Instructions Debug Support The debug mechanisms supported on ATCA C110 1G include WB Debug connectors for IPMC A serial interface for debug will be provided for each ATMega controller The debug connectors are located on the ARTM C110 serial ports COM
12. read all cautions and warnings and perform the following steps Dangerous voltages capable of causing death are present in this equipment Use A extreme caution when handling testing and adjusting Warning Damage to module components Inserting or removing modules with power applied may result in damage to module components Therefore ensure that you power down before inserting or removing the AMC 7201 module Caution Unpredictable System behavior N Avoid sudden module extractions from the carrier without waiting for the blue LED status change as indicated in the steps below A surprise hot extraction which does notallow the MMC Module Management Controller time to react and initiate a graceful extraction sequence is liable to cause a system software crash especially if there are no recovery mechanisms built into the system software Caution Step 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to the chassis as a ground The ESD strap must be secured to your wrist and to ground throughout the procedure Step 2 If multiple AMC modules are installed on the carrier identify the AMC module to be extracted Step 3 Remove any cables that are fastened to front panel connectors if any Step 4 Gently pull the module latch outwards approximately 3 mm from its locked position Step 5 Wait for the blue LED to first perform short blinks and then glow persistently Note Please wait for the blue
13. 0 Disable 1 Enable AMC2_CLK1_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC3_CLK1_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC4_CLK1_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable 6 7 Unused ATCA C110 1G Installation and Use Manual Chapter 6 Memory Map and Registers Table 6 6 IC to GPIO s Device Mappings ATMega8 Private I2C Bus Device Address Telecom CLK2 Buffer Enable Signals Address 0x3A GPIO Number 0 Description ATCA_CLK2A_EN Enables the Clock to be sourced to the Backplane on the CLK2A lines 0 Disable 1 Enable ATCA_CLK2B_EN Enables the Clock to be sourced to the Backplane on the CLK2B lines 0 Disable 1 Enable AMC1_CLK2_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC2_CLK2_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC3_CLK2_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC4_CLK2_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable 6 7 Unused ATCA C110 1G Installation and Use Manual 77 Chapter 6 Memory Map and Registers 78 Table 6 6 2 to GPIO s Device Mappings ATMega8 Private I2C Bus Device Address GPIO Number Telecom CLK3 Buffer 0 Enable Signals Address 0x3C Descripti
14. C110 1G Baseboard Preparation and Installation Installing an AMC Module in a Powered System Warning N Caution Caution To install an AMC Module on a AdvancedTCA host board refer to the Figure 1 10 on page 13 read all cautions and warnings and perform the following steps This figure is for reference only and may not represent the exact host board you are using Note B ATCA C110 1G can accommodate up to four single width full height B Connector Type Advanced Mezzanine Cards Refer to AMC Bay Locations on page 4 for the locations of the AMC Bays onboard the ATCA C110 1G The AMC installation procedure assumes that the ATCA C110 1G is already installed in its host chassis see nstalling the ATCA C110 1G in a Powered Chassis on page 19 The installation procedure assumes that the AMC module is being hot inserted into live carrier The procedure for a cold insertion when the carrier is not powered is the same except that you need not wait for the blue LED indications to proceed For more details about hot swap refer to Understand Hot Swap on page 18 Figure 1 10 on page 13 is for reference only and may not represent the exact carrier board you are using Refer to the PrAMC 7201 Installation and Use manual as mentioned in Appendix D Related Documentation for more details Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handlin
15. Components xr RR E ERE 95 Component Temperature Measurement 96 uic rrr 96 Measuring Junction Temperature 96 Messung Case Temperaire reds ence sede des de once bons 96 Measuring Local Air Temperature 98 Related isses ERO 99 Embedded Communications Computing 99 ATCA C110 1G Installation and Use Manual Contents Marnuracturers 2 100 Related Specie DRESS 101 ATCA C110 1G Installation and Use Manual xi igures Figure C 2 List of Tables Table 1 Ordering Information UOS pd AQ VIII AT od dg goa a Table 2 Accessories Ordering CERA re Table 1 1 Table 1 2 Table 1 3 Table 1 4 Table 1 5 Table 2 1 Table 4 1 Table 4 2 Table 5 1 Table 5 2 Table 5 3 Table 5 4 Table 5 5 Table 5 6 Table 5 7 Table 5 8 Table 5 9 Table 5 10 Table 5 11 Table 5 12 Table 5 13 Zone 2 Backplane Connector J21 Pinout Rows EtoH Table 5 15 Table 5 16 Table 5 14 Tab
16. Device 8 CSO 2 MB Secondary Boot Flash 00000 16 Mbit Device 8 CSO SDRAM base address 00000000 512 Mbit Device 64 CS0 to CS3 MPC8540 control configuration C0000000 NA NA NA status registers base address The CS mapping is listed in the table below Table 6 2 CS Mapping of Main Memory on ATCA C110 1G PowerQUICC III Signal Physical Bank Rank Signal on DIMM Device MCSO Bank 1 Rank 0 50 51 1 Rank 1 CS1 MCS2 Bank 2 Rank 0 CS2 MCS3 Bank 2 Rank 1 CS3 Bank1 refers to the onboard memory and Bank 2 to the SODIMM memory The Rank 1 refers to the stacked memory on each physical bank The I O addresses of all onboard functional units are listed below ATCA C110 1G Installation and Use Manual 71 Chapter 6 Memory Map and Registers Interrupt Mapping All the interrupts generated on the ATCA C110 1G are wired to the interrupt controller of the MPC8540 Processor The PCI interrupts from the PCI PCI X to PCI Express Bridge the GbE Phy interrupts and the interrupt from the DPLL of the LCCB interface are wired to the MPC8540 Processor Given below is an illustration of the interrupt architecture Figure 6 1 Interrupt Routing Block Diagram RTM Marvell Quad Phy 54615 Proc GMII Phy 1 INT11 INT10 9 INT8 INT7 54615 0 Base Phy1
17. FIM U14 16W Junction Temperature 125 C Power Brick U103 20W Max Junction temperature 110 C PCI Express Switch on U17 8 37W Case Temperature 75 C FIM Hold up Capacitor CE9902 NA Case Temperature 105 C ATCA C110 1G Installation and Use Manual 95 Appendix C Thermal Validation Table C 1 Thermally Significant Components Component identifier Reference designator Thermal dissipation Maximum allowable power TDP temperature PCI PCI Express Bridge U17 2 5W Case Temperature 0 C BCM Phys U1 U2 0 5W for devices near Junction Temperature 125 C 0121 U122 front panel 0 85W for devices near backplane connectors SATA Mux on FIM U124 2 1W Junction Temperature 105 C and Fabric MUX 1 2 U125 devices on main board Management Power U129 0 75W Junction Temperature 120 C Brick Component Temperature Measurement The following sections outline general temperature measurement methods For the specific types of measurements required for thermal evaluation of this board see Table C 1 on page 95 Preparation We recommend 40 AWG American Wire Gauge thermocouples for all thermal measurements Larger gauge thermocouples can wick heat away from the components and disturb air flowing past the board Allow the board to reach thermal equilibrium before taking measurements Most circuit boards will reach thermal equilibrium within 30 minutes After the warm up period monitor a small
18. Private 2 Bus 80 Table 6 8 2 to GPIO s Device Mappings ATMega64 AMC Private 2 Bus Device Address AMC Bay x Control Interface GPIO Number 0 Description AMCx_PAYLOAD_PWR_EN Payload Power to the AMC Bay1 enable signal 0 Enabled 1 Disabled IMPB EN The IPMB Connection to AMC Bay x is enabled at the Isolator 0 Disable 1 Enable MGMT PWR Management Power to the AMC Bay x enable signal 0 Enabled 1 Disabled AMCx_EN Enable signal to the AMC Bay x as defined by the AMC O Specification 0 Enabled 1 Disabled PAYLOAD FLT Fault signal from the Payload Power Controller of the AMC Bay x to the IPMC 0 Fault asserted by the Controller 1 Not Asserted IMPB RDY The IPMB isolator has completed the start up after enabling the device 0 Start up Completed 1 Start up Completed AMCx PWRGD The Management voltage to the AMC Bay x is within tolerance levels 0 Not within Tolerance Levels 1 Within tolerance levels MGMT Fault signal from the Management Power Controller of the AMC Bay x to the IPMC 0 Fault asserted by the Controller 1 Not asserted ATCA C110 1G Installation and Use Manual Chapter 6 Memory Map and Registers Table 6 8 2 to GPIO s Device Mappings ATMega64 AMC Private 2 Bus continued Device Address GPIO Description Nu
19. equipment manufacturer Dispose of used batteries according to the manufacturer s instructions Il y a danger d explosion s il y a remplacement incorrect de la batterie Remplacer uniquement avec une batterie du m me type ou d un type quivalent recommand par le constructeur Mettre au rebut les batteries usag es conform ment aux instructions du fabricant Explosionsgefahr bei unsachgem ftem Austausch der Batterie Ersatz nur durch denselben oder einen vom Hersteller empfohlenen Typ Entsorgung gebrauchter Batterien nach Angaben des Herstellers CE Notice European Community This is a Class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures Motorola products with the CE marking comply with the EMC Directive 89 336 EEC Compliance with this directive implies conformity to the following European Norms EN55022 Limits and Methods of Measurement of Radio Interference Characteristics of Information Technology Equipment this product tested to Equipment Class A EN50082 1 1997 Electromagnetic Compatibility Generic Immunity Standard Part 1 Residential Commercial and Light Industry System products also fulfill EN60950 product safety which is essentially the requirement for the Low Voltage Directive 73 23 EEC Board products are tested in a representative system to show compliance with the above mentioned requirements
20. for the AMC Module to drive the CLK3 to the ATCA backplane is provided for the AMC Bay3 and AMC Bay4 Common Options Region The ATCA C110 1G has two Gigabit Ethernet SerDes ports and two SATA ports on the Common Options Region interface The Gigabit Ethernet SerDes ports from each AMC Bay are routed to the Fabric Interface Module through the carrier board 60 ATCA C110 1G Installation and Use Manual Chapter 5 Controls Indicators and Connector Pin Assignments The SATA ports are mapped to the Port 2 and Port 3 of the AMC connector as per the AMC 3 Specification The ports from each of the AMC Bays are routed to the Fabric Interface Module Fat Pipes Region The Fat Pipes Region in the ATCA C110 1G is used for the x4 PCI Express link from the AMC cards to the PCl Switch on the FIM Note The AMC 1 Specification defines a Control and Management x1 PCI Express interface for the Type P AMC Modules This interface is not supported on the ATCA C110 1G board Extended Options Region Note The Extended Options Region of the AMC Bay is not used on ATCA C110 1G and is meant for debug purposes only This option is used to define Non LVDS signals to or from the AMC The AMC POST code information is serialized and is given to the AMC carrier which is decoded by the Programmable Logic and this drives the LEDs on the ATCA carrier Table 5 8 AMC Connector Port Mapping on ATCA C110 1G
21. number of components over time to assure that equilibrium has been reached Measuring Junction Temperature There is an independent temperature sensor to measure inlet air temperature Both sensors are monitored by the IPMC and temperature can be read over IPMI In addition the IPMC can also monitor the temperature of the power brick For instructions on measuring temperatures using the onboard device refer to the 110 16 IPMI Preliminary Reference Manual and to the component manufacturer s documentation listed in Appendix D Related Documentation Measuring Case Temperature Measure the case temperature at the center of the top of the component Make sure there is good thermal contact between the thermocouple junction and the component We recommend you use a thermally conductive adhesive such as Loctite 384 ATCA C110 1G Installation and Use Manual Appendix C Thermal Validation If components are covered by mechanical parts such as heatsinks you will need to machine these parts to route the thermocouple wire Make sure that the thermocouple junction contacts only the electrical component Also make sure that heatsinks lay flat on electrical components Figure C 1 on page 97 shows one method of machining a heatsink base to provide a thermocouple routing path Note Machining a heatsink base reduces the contact area between the heatsink and the electrical component You can partially compensate for this effect by filling the m
22. of 512 MB and uses 512 Mbit devices The SODIMM slot can use either single rank or dual rank modules The chip select mappings of main memory is shown in Table 6 2 on page 71 ATCA C110 1G supports single channel unbuffered onboard first generation DDR memory of capacity 1 GB The base operating frequency of the DDR memory is 166 MHz with peak data rate of 333 MHz The data bus width of the memory controller is 64 bit 8 bytes with 8 bit ECC Onboard Memory The onboard memory bank of the ATCA C110 1G consists of nine 512 Mb devices eight for data storage and one for ECC It supports a CAS Latency of 2 5 Clock cycles The onboard memory is unbuffered An 2 compatible SPD EEPROM chip contains information of the onboard memory on the I C interface of the MPC8540 Stacking on onboard memory is supported SODIMM The ATCA C110 1G supports ECC enabled unbuffered SODIMM memory on the second Physical bank of the main memory The SODIMMs may be single or dual ranked Boot Device 40 The boot device on the ATCA C110 1G is a 2 MB Primary Boot Flash located on the GPCM interface of the MPC8540 The ATCA C110 1G also provides one redundant Secondary 2 MB Boot Flash device Note If the Primary Boot Flash fails the IPMC enables the Secondary Boot Flash device Figure 4 2 on page 41 shows the connections made to the Primary and Secondary Boot Flash ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description Fig
23. of the carrier board fasten the screws through the holes in the carrier board and the spacers Tighten the screws The FIM is now fully installed on the carrier board Install the ATCA C 110 1G in its proper card slot by following the procedures given in nstalling the ATCA C110 1G in a Powered Chassis on page 19 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation SO DIMM Installation in a Non Powered System Note The SO DIMM onboard the ATCA C110 1G be installed only when the module is removed from the carrier board E itis recommended to use the SODIMM that is factory shipped along with the ATCA C110 1G since it has already been verified and validated If using SO DIMM other than the standard supplied SO DIMM ensure that the following requirements are met when power is turned off Is unbuffered Is 2 5V PC166 SDRAM module compliant to the JEDEC Specification Has size of either 128 MB 256 MB or 512 MB or 1 GB The MPC8540 will configure memory maps automatically on boot Supports ECC Installing SO DIMM To install the SO DIMM into the SO DIMM socket on the ATCA C110 1G follow these steps Step 1 Identify the SO DIMM socket located onboard the ATCA C110 1G Locate the notch on the SO DIMM socket as shown in Figure 1 4 Figure 1 4 SO DIMM with Notch Notch Step 2 Locate the projection on the SO DIMM socket as shown in Figure
24. ranges see Appendix B Specifications you should evaluate the thermal performance of the board in your application Contact Motorola for current information on the thermal validation of the ATCA C110 1G Thermally Significant Components The following table summarizes components that exhibit significant temperature rises These components should be monitored in order to assess thermal performance The table also supplies the component reference designator and the maximum allowable operating temperature Versions of the board that are not fully populated may not contain some of these components The preferred measurement location for a component may be junction case or air as specified in the table Junction temperature refers to the temperature measured by an on chip thermal device Case temperature refers to the temperature at the top center surface of the component Air temperature refers to the ambient temperature near the component Table C 1 Thermally Significant Components Component identifier CPU PowerQUICC III MPC8540 Reference designator U45 Thermal dissipation power TDP 10 1W Maximum allowable temperature Die Junction temperature 105 C Memory 9 devices SODIMM 9 devices U142 U143 U144 U145 U146 U151 U152 U153 U154 S3 0 5W per Memory device 4 5W for SODIMM Max Case Temperature 70 C Min Case Temperature 0 C Ethernet Switch on
25. target slot alone Board defect Replace board Allignment keys of RTM or backplane do not fit snugly with carrier board 1 Check if you are using the correct board variant and replace board if necessary 2 Check if you are using the correct RTM variant and replace RTM if necessary 3 Mountthe board on compatible chassis only Unable to push board handles inward Remove the board and open and close the board handles several times If handle motion is hampered or is not smooth the handle may be damaged ATCA C110 1G Installation and Use Manual 83 Appendix A Troubleshooting During or After System Initialization Problem The blue hot swap LED does not glow after inserting the board Board fails to power up Possible Reason The board has not mated completely with the backplane connectors Solution 1 Ensure that the board is fully inserted and seated properly 2 Remove the board and check the board s backplane connectors for any damage The carrier has not enabled Management Power 1 Check if the Shelf Manager Carrier IPMC has detected the board 2 Check if the Shelf Manager Carrier IPMC has detected a short circuit or overload on the Management power rail No management support for blue LED exists on prototype boards Backplane voltages not within the specified range If you are using a prototype carrier the IPMC may not support the blue LED f
26. 0 1 carrier board is installed Refer to the ARTM C110 Installation and Use manual for the RTM installation procedure Check the documentation of the system where you operate the blade and the RTM for any restrictions that may apply to the blade or the RTM No hot swap is supported for the RTMs ATCA C110 1G Installation and Use Manual 15 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Switch Settings The blade provides the configuration switch SW1 The switch provides AMC bay selection in the JTAG chain The board is delivered with the white switch set to the default OFF position Refer to Table 1 2 on page 16 for default switch settings of SW1 Figure 1 11 Switch Settings sw1 BS home Table 1 2 Default Switch Settings for SW1 SWO SW1 Description On On AMC Bay 1 on the JTAG chain Off On AMC Bay 2 on the JTAG chain On Off AMC Bay 3 on the JTAG chain Off Off AMC Bay 4 on the JTAG chain Before You Install or Remove an AdvancedTCA Blade Blades may be damaged if improperly installed or handled Please read and follow the guidelines in this section to protect your equipment 16 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Observe ESD Precautions Use ESD Wrist Strap Motorola strongly recommends that you use an antistatic wrist strap and a conductive foam pad when installing or upg
27. 1 5 Figure 1 5 SO DIMM Socket and Projection Projection SO DIMM Socket ATCA C110 1G Installation and Use Manual 9 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Step 3 Firmly insert the SO DIMM into the socket at a 45 angle in the direction as indicated in Figure 1 6 Push the SO DIMM down until the retaining clip of the socket locks the SO DIMM into position Figure 1 6 Inserting SO DIMM 45 Angle Step 4 The fully installed SO DIMM in its socket is shown in Figure 1 7 Figure 1 7 Inserted SO DIMM locked into position 10 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Removing SO DIMM To remove the SO DIMM from the SO DIMM socket the ATCA C110 1G follow these steps Step 1 Pull the two retaining clips of the SO DIMM socket in an outward direction parallel to the surface of the board as shown by arrows in Figure 1 8 Figure 1 8 Removing the SO DIMM pull retaining clips outward Step 2 The SO DIMM will no longer be locked in position but will be at an angle of 45 shown in Removing the SO DIMM slide module out on page 11 Pull the SO DIMM outwards in the direction of the arrow as shown below Figure 1 9 Removing the SO DIMM slide module out 45 Angle Step 3 The SO DIMM is now removed from ATCA C110 1G ATCA C110 1G Installation and Use Manual 11 Chapter 1 ATCA
28. 1 to COM 4 Refer to the ARTM C110 Installation and Use manual as listed in Appendix D Related Documentation for details B JTAG Interfaces There would be two separate JTAG Interfaces on ATCA C110 1G The JTAG chain from the main board is extended to the FIM board through the FIM connector and is connected to the main devices on the FIM The JTAG chain is also extended to the ARTM C110 through the Zone 3 interface and is connected to the main devices on the ARTM C110 ATCA C110 1G Installation and Use Manual 27 U Boot Firmware Overview 3 U Boot is a software package based on an open source boot loader for embedded systems utilizing PowerPC MIPS or ARM Processors U Boot can be installed in a boot ROM and used as a boot loader to download and activate application code For more detail on using U Boot and a listing of all commands refer to the ATCA C110 1G U Boot Installation and Use Manual listed in Appendix D Related Documentation System Setup Some tools are needed to install and configure U Boot and Linux on the target system Also especially during development you require interaction with the target system This section describes how to configure your host system for this purpose Serial Console Access To use U Boot and Linux as a development system and fully utilize all their capabilities you need access to a serial console port on your target system Later U Boot and Linux can be configured to allow automatic execut
29. 14 ATCA C110 1G Removal A S Stage 3 Stage 2 Stage 1 Step 1 Remove face plate cables and cables from the AMC if applicable Step 2 Loosen the board s captive screws Step 3 Gently pull the top and bottom ejector handles outward from its locked position Stage 2 of Figure 1 14 Step 4 Do not remove the board immediately Wait for the blue LED first perform short blinks and then glow persistently If the blue LED fails to respond refer to Appendix A Troubleshooting Note Please wait for the blue LED to glow persistently before proceeding to the next step Unlatching this ejector lever will start the shutdown process on the blade Software will illuminate the blue hot swap LED on the faceplate when it is safe to remove the blade Step 5 Once the blue LED glows gently pull handles outwards to disconnect the board from the baokplane connectors Continue to gently slide the board outwards along the guide rails Step 6 After board removal is complete place the board on a clean and adequately protected working surface preferably an ESD mat with the top side of the board facing up Connecting to Peripherals 22 When the ATCA C110 1G is installed in a shelf you are ready to connect peripherals Figure 1 1 on page 3 depicts the location of the different connectors onboard the ATCA C110 1G and Table 1 4 on page 23 lists the different connectors onboard the ATCA C110 1G Refer to Chap
30. 3 Check that other environmental values like moisture or altitude are kept within specified ranges Drivers are missing faulty or do not match hardware 1 Check that all used hardware parts have a driver matching the hardware 2 Reinstall hardware drivers Board defect Caches are disabled Replace board Enable caches Memory AMC module does not work Module defect Replace module Module not defined for the used board 1 Check if module specification match with interface specification of board 2 Replace module if specifications do not match Module not installed correctly Check if module is seated snugly in socket Wrong board configuration faulty Switch setting Configure the board correctly for the respective module RTM does not work RTM defect Replace RTM RTM installed on wrong slot position Install RTM on adjacent slot position of the used board RTM not defined for the used peripheral or system board Install RTM defined for the used peripheral or system board Board boots firmware but cannot load the Operating System Ethernet cable not connected Check if the connection of the Ethernet cable to the Fast Ethernet Port Port 4 on the RTM and to the board and network is secure E keying problems If the module is to load the OS over Ethernet or SATA it needs the appropriate interface to be enabled during E keying This
31. 54615 BCM5461S Base Phy 0 INT6 PowerQuicclll INTS MPC8540 PEX8114 INT4 INT3 NTO INT2 INT1 Payload PCI PCI X to PCle Interface LXT971A Fast Eth Phy RTM Telcom Clock IPMI DPLL BLOCK Board Temperature Sensor PS1 J PS1 PS1 PS1 AMC BAY4 AMC BAY3 AMC BAY2 AMC BAY1 Table 6 3 MPC8540 Interrupt Mapping Pin NAME DESCRIPTION 1 MPC_IRQO 8114 PCI IRQO 2 MPC_IRQ1 8114 PCI IRQ1 3 MPC IRQ2 8114 PCI IRQ2 4 MPC_IRQ3 8114 PCI IRQ3 5 MPC_IRQ4 Fast Ethernet PHY interrupt BCM5461S 72 ATCA C110 1G Installation and Use Manual Chapter 6 Memory Map and Registers Table 6 3 MPC8540 Interrupt Mapping continued Pin NAME DESCRIPTION 6 MPC_IRQ5 Base Interface PHYO Interrupt 54615 7 MPC_IRQ6 Base Interface PHY1 Interrupt 54615 8 MPC_IRQ7 Processor TSEC PHY 1 BCM5461S 9 MPC IRQ8 Processor TSEC PHY 2 BCM5461S 10 IRQ9 RTM PHY Interrupt 88E1145 11 MPC IRQ10 IPMI MPC interrupt 0 ATMega64L AMC 12 MPC IRQ11 IPMI MPC interrupt 1 ATMega64L AMC Shelf Management Registers IPMI interface For details about accessing the IPMC via IPMI commands as well as Sensor Data Records SDRs and Field Replaceable Unit FRU information provided by the b
32. 8 bit Analog to Digital Converters ADC Analog voltage sensor inputs AMC Power Limiting Control ATCA C110 1G Installation and Use Manual 41 Chapter 4 Functional Description B Telecom Clock Interface Control Digital lO The IPMI module consists of three micro controllers from Atmel The interface of each of the controllers is illustrated below in Figure 4 3 on page 42 Figure 4 3 IPMI Implementation on ATCA C110 1G UART1 payload service E 8MHz UART processor oscillator debug communication 3 console EEPROM Temp ded oo UARTO g sensors ontro deb E Clock ebug 8 console gt buffer Master only I2C E PWR E HANDLE SW RESET Wal On board voltages 7 0 EU DALIA IRQ ATMega64 Master MELOS 3 IPMB B 2 12C IPMB A buffer buffer SPI SCK MISO MOSI SS FRU_PWR_EN Carrier Slave2_DATA_IRQ RESET LEDs Slave2_RDY_IRQ ADC Payload_Reset Payload current sense UART1 to Reset logic ATMega64 AMC AMC_PS1 debug lt console Interrupts to AMC_ENABLE Payload MP_PWRGD from mgmt pwr controller PP_PWRGD 4 12 from payload pwr controller buffer MP_EN PP_EN to mgmt pwr controller to payload pwr controller IPMB L A brief description of the interfaces and the functions of the IPMI block are given below IPMB Interfaces The IPMC Module provides three IPMB interface
33. A proper installation in CE marked system will maintain the required EMC safety performance In accordance with European Community directives a Declaration of Conformity has been made and is on file within the European Union The Declaration of Conformity is available on request Please contact your sales representative FCC Class This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense Changes or modifications not expressly approved by Motorola could void the user s authority to operate the equipment Use only shielded cables when connecting peripherals to assure that appropriate radio frequency emissions compliance is maintained Industrie Canada This product meets the requirements of the Canadian Interference Causing Equipment Standard ICES 003 Cet appareil num rique est conforme a la norme NMB 003 du Canada Notice Wh
34. AMC x features Four B type AMC bays that support the following AMC Bay Interfaces e PCI Express Interface link of 4 lanes x4 PCI Express link e 2x Gigabit Ethernet Interface 2x Serial ATA Link Three unique Geographical Address GA lines for each AMC module s IPMB address The module s Management Controller communicates with the ATCA C110 1G carrier board using IPMB Support for AMC Interface Ports refer to AMC Connectors on page 59 for more details ATCA C110 1G Installation and Use Manual 1 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation 2 Onboard Devices such as PCI to PCI Express Bridge GigE PHYs BCM56502 GigE Switch device on FIM PEX8532 PCI Express Switch device on FIM SATA Multiplexer device on FIM The details of major onboard components are described in Chapter 4 Functional Description The fully assembled ATCA C110 1G consists of ATCA C110 1G carrier board 1G Fabric Interface Module Rear Transition Module Four single width full height B Connector type AMC modules ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Baseboard Layout The figure below shows the placement of the components on the ATCA C110 1G board Figure 1 1 Board Layout Diagram SO DIMM Connector AMC Connectors 7 y Payload Power Brick
35. ASE CH1 DA BASE 1 DA BASE CH1 DB BASE CH1 DB 6 BASE 2 BASE_CH2_DA BASE_CH2_DB BASE_CH2_DB 7 Reserved Reserved Reserved Reserved 8 Reserved Reserved Reserved Reserved 9 Reserved Reserved Reserved Reserved 10 Reserved Reserved Reserved Reserved 66 ATCA C110 1G Installation and Use Manual Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 17 Zone 2 Backplane Connector J23 Pinout Rows E to H Pin E F G H 1 FAB_CH2_TX3 FAB_CH2_TX3 FAB_CH2_RX3 FAB_CH2_RX3 2 FAB_CH2_TX1 FAB_CH2_TX1 FAB_CH2_RX1 FAB_CH2_RX1 3 FAB_CH1_TX3 FAB_CH1_TX3 FAB_CH1_RX3 FAB_CH1_RX3 4 FAB_CH1_TX1 FAB_CH1_TX1 FAB_CH1_RX1 FAB_CH1_RX1 5 BASE_CH1_DC BASE_CH1_DC BASE_CH1_DD BASE_CH1_DD 6 BASE_CH2_DC BASE_CH2_DC BASE_CH2_DD BASE_CH2_DD 7 Reserved Reserved Reserved Reserved 8 Reserved Reserved Reserved Reserved 9 Reserved Reserved Reserved Reserved 10 Reserved Reserved Reserved Reserved Zone 3 Connectors Zone 3 contains three connectors J30 J31 and J32 see Figure 5 3 on page 62 The connectors are used to connect the RTM to the blade and carry the following signals E Serial debug only USB debug only IPMB1 xxx ISMB xxx Power VP12_RTM V3P3 General control signals PRESENTx KEY RST The pinouts of J30 J31 and J32 are as follows Table 5 18
36. ATCA C110 1G AMC Carrier Blade Installation and Use 225254 420 000 AA September 2005 Edition Copyright 2005 Motorola Inc All rights reserved Printed in the United States of America Trademarks Motorola and the stylized M logo are trademarks registered in the U S Patent and Trademark Office PICMG AdvancedTCA and the AdvancedTCA logo are registered trademarks of PCI Industrial Computer Manufacturers Group PowerPC and the PowerPC logo are trademarks of International Business Machines Corporation All other product or service names mentioned in this document are the property of their respective owners Safety Summary The following general safety precautions must be observed during all phases of operation service and repair of this equipment Failure to comply with these precautions or with specific warnings elsewhere in this manual could result in personal injury or damage to the equipment The safety precautions listed below represent warnings of certain dangers of which Motorola is aware You as the user of the product should follow these warnings and all other safety precautions necessary for the safe operation of the equipment in your operating environment Ground the Instrument To minimize shock hazard the equipment chassis and enclosure must be connected to an electrical ground If the equipment is supplied with a three conductor AC power cable the power cable must be plugged into an approved three con
37. ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description Block Diagram ATCA C110 1G The ATCA C110 1G server blade is divided into several functional blocks see Figure 4 1 Each of these functional blocks are described in the following sections Main Memory on page 40 Boot Device on page 40 Subsystems page 47 System Management on page 41 Fabric Interface Module on page 44 Figure 4 1 ATCA C110 1G Block Diagram Processor and Processor interfaces on page 38 Clock Synthesizers DDR33 DDR SDRAM Interface BOOT Flash GPCM Interface Recovery Power QUICC 64 128MB PCI 64 MH CI 64bit 66MHz User Processor Flash Bridge 1x Serial PEX8114 PHY 10 100 1 10 100 Ethernet A PHY 2x SerDes JTAG Interface T 2x SerDes 2x SATA AMC 2x SerDes Slot 1 p 2x SerDes 2x SerDes 4x SerDes x4 PCI Express 1x XAUI 2x SATA AMC x4 PCI Express G Slot 2 x4 PCI Express Fabric Interface 2 SerDes Base x4 PCI Express Module PHY N x4 PCI Express 8x SerDes Fabric interface N 2x SATA AMC 5013 9 ren Telecom C NI Clocks Block T 2x SATA AMC IPMC AD m TUA Block R Power conversion block ATCA C110 1G Installation and Use Manual 37 Chapter 4 Functional Descript
38. BCM5461S ATCA Base Interface 0 00001b BCM56502 4 2 BCM5461S ATCA Base Interface 1 00010b BCM56502 4 3 88E1145 RTM GbE interfaces 10000b BCM56502 4 100016 100106 100116 4 54615 Processor GbE interface 0 00100b MPC8540 BCM5461S Processor GbE interface 1 01000b MPC8540 6 LXT971A Processor Fast Ethernet 10000b MPC8540 82 ATCA C110 1G Installation and Use Manual Troubleshooting Error List This appendix provides a hint list for detecting erroneous system configurations and any untoward or unusual behavior of the ATCA C110 1G It cannot replace a serious and sophisticated pre and post sales support during application development If it is not possible to fix a problem using the Error List provided contact your local sales representative or FAE for further support Note To troubleshoot the AMC modules or the ARTM C110 board refer to the Troubleshooting section of the relevant nstallation and Use Manuals as listed in the Appendix D Related Documentation Mechanical Problem Unable to insert board into backplane Possible Reason Damaged plugs bent or broken pins backplane defect Solution 1 Ensure that there is no mechanical damage on the ATCA C110 1G Check for obstructions on guide rails 2 Make sure that the ATCA C110 1G board is being inserted into the node slot on the backplane 3 Try inserting the board into a different slot to check if it is a problem with the
39. BS level three Project is designed to support NEBS level three The compliance tests must be done with the customer target system RoHS TBD ATCA C110 1G Installation and Use Manual Appendix B Specifications EMC Compliance The ATCA C110 1G was tested in an EMC compliant chassis and meets the requirements for EN55022 Class A equipment Compliance was achieved under the following conditions B Shielded cables on all external I O ports Cable shields connected to earth ground via metal shell connectors bonded to a conductive module front panel B Conductive chassis rails connected to earth ground This provides the path for connecting shields to earth ground Front panel screws properly tightened For minimum RF emissions it is essential that the conditions above be implemented Failure to do so could compromise the EMC compliance of the equipment containing the board ATCA C110 1G Installation and Use Manual 93 Thermal Validation Thermal Requirements Board component temperatures are affected by ambient temperature airflow board electrical operation and software operation In order to evaluate the thermal performance of a circuit board assembly it is necessary to test the board under actual operating conditions The operating conditions vary depending on system design While Embedded Communications Computing performs thermal analysis in a representative system to verify operation within specified
40. Diagram F ICA TIONG eek eee eee Ooh euh RS eu NE de ee eed de a dd 37 Processor and Processor interfaces ek eame deve RE EX 38 IP l PETE dee chad 38 CPU NIBH dO 38 Integrated Memory Controler i IER TE YEA 38 Programmable Interrupt Controler 38 2 GE IDE CERRAR ERE EUR E RUE RE ORES 39 DUART OWS c ar e NP Er AP bd 39 Local Bus Controler LBO 39 Three Speed Ethernet Controllers TSEC 39 Fasi Elheraet AX 05 DRE RE 39 DMA GORIFOIIBE viuis eg eee eed ee RE Rad Henn gees 39 PODPOEX BIG SEES xong dr S ORAE m Ye Gea e ESA REE drip deg ae 40 Man MEMO 40 T 40 ICTU 40 vili ATCA C110 1G Installation and Use Manual Contents Bot 42552 e XR REE DY Ri SHREDS EERE RE REE 40 Sole Id S IBI 254535503464 90 SA RE AE OE G
41. E l AMC3 2x SerDes 2 port XAUI AMCA 2x SerDes i Switch Base interface 2x SerDes Fabric interface 8x SerDes RTM 4x SerDes RTM 1x XAUI Update Channel 1x XAUI 2x SATA SATA MUX Jo2domzzoo Control Signals Control Logic PCI Express Switch The 16 lane PCI Express switch is used as the PCI Express switching element on the Fabric Interface Module of ATCA C110 The multipurpose PCI Express switch can be used as a fan out aggression peer to peer switch as well as in backplane and in intelligent I O module applications The port configuration of PCI Express switch is tabulated below Table 4 2 Port Configuration on PCI Express Switch Link Link Width Station Lanes AMC Bay1 Link x4 Station 0 Lane 0 3 AMC Bay2 Link x4 Station 0 Lane 8 11 ATCA C110 1G Installation and Use Manual 45 Chapter 4 Functional Description 46 Table 4 2 Port Configuration on PCI Express Switch continued Link Link Width Station Lanes AMC Bay3 Link x4 Station 0 Lane 12 15 AMC Bay4 Link x4 Station 1 Lane 28 31 PEX8114 Link x4 Station 1 Lane 16 19 PEX8111 Link x1 Station 1 Lane 20 PCI Express to PCI Bridge The PCI to PCI Express Bridge acts as the interface between the FIM through its PCI Express interface and the Processor of the ATCA C110 The PCI Express to PCI Bridge supports full forward and reverse transparent bridging applic
42. E3_TX 59 18 54 527 SATAO RX AMC4_GBE0_RX 510 19 55 528 AMC3_SATA1_RX AMC4_GBE0_RX 510 20 56 28 AMC3_SATA1_RX AMC4_GBE1_RX 511 21 57 529 AMC4_PCIEXP_LANEO_RX AMC4_GBE1_RX S11 22 58 29 4 PCIEXP LANEO RX AMC4_SATAO_RX 12 23 59 530 AMC4_PCIEXP_LANE1_RX AMC4_SATAO_RX 12 24 60 530 AMC4_PCIEXP_LANE1_RX AMC4_SATA1_RX 13 25 61 531 AMC4_PCIEXP_LANE2_RX AMC4_SATA1_RX 13 26 62 531 AMC4_PCIEXP_LANE2_RX AMC3_PCIEXP_LANEO_RX 514 27 63 532 AMC4_PCIEXP_LANE3_RX AMC3_PCIEXP_LANEO_RX 14 28 64 32 AMC4_PCIEXP_LANE3_RX AMC3_PCIEXP_LANE1_RX 515 29 65 533 1 2 SCL AMC3_PCIEXP_LANE1_RX 15 30 66 33 2 SDA AMC3_PCIEXP_LANE2_RX 516 31 67 534 PVT 12 SCL LANE2 RX 516 32 68 534 PVT I2C SDA AMC3_PCIEXP_LANE3_RX 517 33 69 535 BCM_GBE_MDIO AMC3_PCIEXP_LANE3_RX 517 34 70 S35 BCM GBE MDC AMC3_GBE0_TX 518 35 71 536 AMC3_GBE1_TX AMC3_GBE0_TX 18 36 72 536 GBE1 TX ATCA C110 1G Installation and Use Manual 55 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 4 FIM Connector J2 Pinout 56 ATCA C110 1G Installation and Use Manual Signal Pin Pin Pin Pin Signal Name Name AMC1_PCIEXP_LANEO_TX 51 1 37 519 AMC2_PCIEXP_LANE2_TX AMC1_PCIE
43. LED to glow persistently before proceeding to the next step Step 6 Once the blue LED glows gently pull handles outwards to disconnect the module from the AMC connectors Continue to gently slide the module outwards along the guide rails Step 7 After module removal is complete place the module on a clean and adequately protected working surface preferably an ESD mat with the top side of the board facing up Note Empty or unused AMC Bays need to be covered with a filler panel in order to satisfy environmental and EMC compliance 14 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Rear Transition Modules At the time of writing this manual the ACC ARTM C110 Rear Transition Module was available for the blade For further information refer to the ACC ARTM C110 Installation and Use manual The RTM provides the following interfaces Debug Serial port for the IPMI Controllers onboard the ATCA C110 1G Debug Serial port from the Control Processor Ethernet port for the 10 100 port from the Control Processor Four Gigabit Ethernet ports from the FIM 4 connector for XAUI interface from Ethernet Switch on the FIM Debug USB connector for the interface from AMC Bay 4 RJ45 connector for Telecom clock interface JTAG header for programming SPI Programming Interface for IPMI Programming IPMI Interface Note You must install the ARTM C110 before the 11
44. M8380 21 PowerQuicclll Gig SerDes Port 2 BCM56502 22 Gig SerDes Port 1 2 BCM56502 23 x4 PCI Express 8 PEX8532 24 PICMG3 0 Base Gig SerDes Port 0 2 BCM56502 25 Interface Gig SerDes Port 1 2 BCM56502 The four FIM connectors provide a total of 144 differential pairs The unused pins are used for Power JTAG Reset and Control signals ATCA C110 1G Installation and Use Manual 53 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 2 Differential Signals between FIM and Baseboard continued Pin Group Link No of Device on FIM differential pairs 26 PICMG3 1 Fabric Gig SerDes Port 0 2 BCM56502 27 Interface Gig SerDes Port 1 2 BCM56502 28 Gig SerDes Port 2 2 BCM56502 29 Gig SerDes Port 3 2 BCM56502 30 Gig SerDes Port 4 2 BCM56502 31 Gig SerDes Port 5 2 BCM56502 32 Gig SerDes Port 6 2 BCM56502 33 Gig SerDes Port 7 2 BCM56502 34 RTM Gig SerDes 2 BCM56502 Port 0 35 Gig SerDes 2 BCM56502 Port 1 36 Gig SerDes 2 BCM56502 Port 2 37 Gig SerDes 2 BCM56502 Port 3 38 XAUI Link 8 BCM56502 39 Update port XAUI Link BCM56502 40 Reference Clock PCI Express 2 ICS9DB102 TOTAL 122 differential pairs The four FIM connectors provide a total of 144 differential pairs The unused pins are used for Power JTAG Reset and Control signals The four FIM connectors J1 J2 J3 and J4 onboard the ATCA C110 1G are described bel
45. MDIO Table 5 6 FIM Connector J4 Pinout Signal Pin Pin Pin Pin Signal Name Name V3_3 51 1 37 519 RTM_XAUI_LANE3_TX V3_3 S1 2 38 19 RTM XAUI LANES TX V3 3 52 3 39 520 RTM_XAUI_LANE3_RX V3_3 52 4 40 520 RTM_XAUI_LANE3_RX V3_3 53 5 41 521 XAUI_UP_TX0 V3_3 53 6 42 21 XAUI UP TXO V3 3 S4 7 43 522 XAUI_UP_RX0 V3_3 S4 8 44 522 XAUI UP RXO V3 3 55 9 45 523 XAUI_UP_TX1 V3_3 S5 10 46 23 XAUI UP TX1 V3 3 S6 11 47 524 XAUI_UP_RX1 V3_3 S6 12 48 24 XAUI UP RX1 V3 3 S7 13 49 525 XAUI_UP_TX2 V3_3 S7 14 50 S25 XAUI_UP_TX2 V3_3 58 15 51 S26 XAUI UP RX2 V3 3 S8 16 52 526 XAUI UP RX2 V12 S9 17 53 527 XAUI_UP_TX3 V12 S9 18 54 527 XAUI UP TX3 58 ATCA C110 1G Installation and Use Manual Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 6 FIM Connector J4 Pinout continued Signal Pin Pin Pin Pin Signal Name Name V12 510 19 55 528 XAUI_UP_RX3 V12 10 20 56 28 XAUI UP RX3 V12 S11 21 57 S29 RTM_GBE_PORTO_TX VCC S11 22 58 S29 RTM GBE PORTO TX VCC 12 23 59 530 RTM_GBE_PORTO_RX V3_3_MGMT 12 24 60 530 RTM GBE PORTO RX XAUI LANEO 13 25 61 531 1 RTM XAUI LANEO TX 13 26 62 531 RTM_GBE_PORT1_TX RTM_XAUI_LANEO_RX 514 27 63 532 RTM_GBE_PORT1_RX RTM XAUI LANEO RX 14 28 64 32 RTM_GBE_PORT1_RX RTM_XA
46. RA 41 ISTUD 585545659 eee IDEE ha EROR CRUS Cb dc EGER ER UE EGO MR E Oe ERS 41 IP MB urit 225554446 T 8 D ETT LOT LU PRSE 42 Private ZC BUS RE 43 Fagan DBIGHBER eoram au pcc EHE AMEN PRU Hd deu ME 43 8 bit Analog to Digital Converters ADC 43 Power Limiting Control kk DERI REPE EX Reb a RE 43 Telecom Clock Inte Tace EO aud orbe 4 EUR a 43 Digital ID eee a Wee sd HRSG sobs de P dd Hee de 44 Fabie Interes MOQUE uus acd e RR E 3G 309 A a e E edo Mal 44 Black ENSE FIT RN SEE 44 poss SWEN 52225545 SEG ed Kio Vera e eds 45 FOl Exprass ia PO Bie SA duds 46 Ethernet Switching FADNG ease pne UE esr sere ed RS RR e 46 SS MONO dpi b ea do 46 Bus IINE Gee eR E dur 46 IO SUDEYS 5 costed ose eas done nad 47 PASE G he Rd GP RAP xq 47 Leer Flashes
47. S 252 227 7013 Nov 1995 and of the Rights in Noncommercial Computer Software and Documentation clause at DFARS 252 227 7014 Jun 1995 Motorola Inc Embedded Communications Computing 2900 South Diablo Way Tempe Arizona 85282 Contents About This Mana Eu Rd eem xvii Audience Sy eh cles dd see Hh ea At che dh Ge a dc we er Summary of eee ee ee Maced a xvii Ordering aa is erke ak deg ex a Rx daa oa Product Nomen clatu hoe he EE ec dabas Sd A EE xvii Order NUDES create CR EROS RACE besa dea T rud ud qe xviii NOOO MSs ad baa toed cao Eo qoe dod Pea Eg d opc ed dol ead xviii Comments and SUAGESIONS uses s kia RR bee eden we eea wees CE RE AURA Lad WE eae Conventions Used in This Mantal ek da eed we ee oOx ke CR IA ee eed a xix cen Ru D P H EO Numeric notation nues Aoki sies ura radial e Se Sed xix sexs hed sou ud Reader BAERS ANE RR SEXE Kendo dua Typographical CONVEMNONS SE TP cr XX Temas and A
48. Specification ATCA Fabric Interface The Fabric Interface of the ATCA C110 1G is a Gigabit Ethernet Interface supporting a Full Mesh or a Dual Star topology The Fabric Interface consists of eight Gigabit Ethernet lines from the backplane These lines are routed directly to the switching fabric on the FIM Port Mapping is as per the PICMG 3 1 Specification for Ethernet and Fiber channel for ATCA systems IPMI Interface IPMI support on ATCA C110 1G is implemented using an IPMC block built around the Atmel AVR micro controller family ATMegaxx Refer to System Management on page 41 for more details Synchronization Clock Interface The clock synchronization interface on ATCA C110 1G is compliant to the in house JETIS Telecom Clock Specification Update Ports The Update Ports are defined by the ATCA Specification as the interface between adjacent boards The XAUI channel from the FIM onboard the ATCA C110 1G is routed to the Update Channel Front Panel LEDs The front panels LEDs of the ATCA C110 1G are controlled by the IPMI Master Controller and are placed as per the mechanical recommendations of the 0 Specification Refer to Face plate and LEDs on page 51 for more details E Keying Support The E Keying feature for base and fabric channel is under the control of the IPMI firmware The IPMC and the MPC8540 communicate with each other through the Payload interface Refer to System Management on page 41 for more details 36
49. TO AMC1 SATAO TX 15 30 66 33 PROC GBE PORTO TX AMC1_SATA1_TX 516 31 67 534 PROC PORTO AMC1_SATA1_TX 516 32 68 34 PROC GBE PORTO RX Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 4 FIM Connector J2 Pinout continued Signal Pin Pin Pin Pin Signal Name Name AMC2_PCIEXP_LANEO_TX 517 33 69 535 PROC_GBE_PORT1_TX AMC2 PCIEXP LANEO TX 17 34 70 35 PROC_GBE_PORT1_TX AMC2_PCIEXP_LANE1_TX 518 35 71 536 PROC_GBE_PORT1_RX AMC2 PCIEXP LANE1 TX 18 36 72 536 PROC_GBE_PORT1_RX Table 5 5 FIM Connector J3 Pinout Signal Pin Pin Pin Pin Signal Name Name JTAG_TCK 51 1 37 519 FABRIC_LINK2_RX JTAG_DPLL_TDO_FIM_TDI 51 2 38 519 FABRIC_LINK2_RX JTAG_FIM_TDO 52 3 39 520 FABRIC_LINK2_TX JTAG_TMS S2 4 40 20 FABRIC_LINK2_TX JTAG_TRST S3 5 41 521 FABRIC_LINK1_RX PE_NT_RST S3 6 42 S21 FABRIC LINK1 RX FIM PWR EN S4 7 43 522 FABRIC_LINK1_TX MOD_RST 54 8 44 22 FABRIC_LINK1_TX ATCA_BASE0_GBE_TX 55 9 45 523 FABRIC_LINKO_RX ATCA BASEO GBE TX S5 10 46 23 FABRIC_LINKO_RX ATCA_BASE0_GBE_RX S6 11 47 524 FABRIC_LINKO_TX ATCA BASEO GBE RX S6 12 48 24 FABRIC_LINKO_TX ATCA_BASE1_GBE_TX S7 13 49 525 ATCA_BASE1_GBE_TX 57 14 50 525 ATCA_BASE1_GBE_RX S8 15 51 526 PEX_8114_PCle_LANEO
50. UI_LANE1_TX 515 29 65 533 RTM_GBE_PORT2_TX XAUI LANE1 TX 15 30 66 33 RTM GBE PORT2 TX RTM_XAUI_LANE1_RX 516 31 67 534 GBE PORT2 RTM_XAUI_LANE1_RX 516 32 68 534 2 RTM_XAUI_LANE2_TX 517 33 69 535 RTM_GBE_PORT3_TX RTM XAUI LANE2 TX 17 34 70 S35 GBE TX RTM_XAUI_LANE2_RX 18 35 71 536 GBE PORT3 RTM_XAUI_LANE2_RX 18 36 72 536 RTM_GBE_PORT3_RX AMC Connectors The AMC modules are connected to the carrier board via the AMC connectors See Figure 5 2 on page 52 for AMC connector locations The AMC Connector has distinct regions for interfacing various interfaces on the AMC Card The port mapping of the AMC on the ATCA C110 1G is shown in Table 5 7 followed by a brief description of each mapped region Table 5 8 on page 61 describes each port mapping of the AMC Card on ATCA C110 1G ATCA C110 1G Installation and Use Manual 59 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 7 AMC Connector Port Map Port number AMC Port Mapping Strategy CLKA Clocks CLKC 0 Common Options Region Basic Connector Fat Pipes Region NI OD a AJ OJN 11 12 Extended options Region Extended Connector Clocks The telecom synchronization clocks from LCCB interface are routed to the AMC boards The option
51. UR AERE oes 91 Table Bs3 Standard Compliance x aiios Spe suede a RGA see sae a NS 92 Table C 1 Thermally Significant Components 95 Table D 1 Embedded Communications Computing Documents 99 Table D 2 Manufacturers DoCuMENtS 2 2 2 2 2 100 Table D 3 Related Specifications xvi ATCA C110 1G Installation and Use Manual About This Manual This manual provides both general and functional descriptions of the product along with installation and removal instructions firmware details connector pin assignments memory maps troubleshooting information specifications thermal validation and related documentation details for the ATCA C110 1G board The ATCA C110 1G is a multi function conventional AMC Carrier intended to be used in control and management applications on AdvancedTCA systems The board uses the MPC8540 as its Service Processor and has Gigabit Ethernet UART SATA and PCI Express as its I O interfaces Audience This document is written for anyone who designs OEM systems supplies additional capability to existing compatible systems or works in a lab environment for experimental purposes It is important to note that a basic knowledge of computers and digital logic is assumed users must have a working understanding of AdvancedTCA and telecommunications To use this document successfully you
52. XP Shelf Manager slot slot 0 Black AXP Payload Card slot Red AXP Controller Switch Card slot Installing the ATCA C110 1G in a Powered Chassis This section describes a recommended procedure for installing the ATCA C110 1G blade into the platform Before you install your board please read all cautions warnings and instructions presented in this section and the guidelines explained in Before You Install or Remove an AdvancedTCA Blade on page 16 Refer to Figure 1 13 on page 20 and perform these steps when installing the board Note that this illustration is for general reference only and may not accurately depict the connectors and handles on the board you are installing ATCA C110 1G Installation and Use Manual 19 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Note The ATCA C110 1G is designed to operate as an AdvancedTCA node board Refer to Verify Slot Usage on page 19 for more details The installation procedure assumes that the board is being hot inserted into a live chassis The procedure for a cold insertion when the chassis is not powered is the same except that you need not wait for the blue LED indications to proceed Use ESD Handling modules and peripherals can result in static damage Use a grounded wrist strap static dissipating work surface and antistatic containers when handling and storing components UO Wrist Strap Insert the blade by holding the injector leve
53. XP_LANEO_TX 51 2 38 19 AMC2 PCIEXP LANE2 TX AMC1 PCIEXP LANE1 TX 52 3 39 520 AMC2_PCIEXP_LANE3_TX AMC1_PCIEXP_LANE1_TX S2 4 40 20 AMC2 PCIEXP LANES3 TX AMC1 PCIEXP LANE2 53 5 41 521 AMC1_GBEO_RX AMC1_PCIEXP_LANE2_TX S3 6 42 S21 1 GBEO RX AMC1 PCIEXP LANES3 S4 7 43 522 AMC1_GBE1_RX AMC1_PCIEXP_LANE3_TX S4 8 44 22 AMC1_GBE1_RX AMC2_GBE0_RX S5 9 45 23 1 5 0 AMC2 GBEO RX S5 10 46 23 1 SATAO RX AMC2_GBE1_RX S6 11 47 524 AMC1_SATA1_RX AMC2_GBE1_RX S6 12 48 524 AMC1_SATA1_RX 2 5 0 57 13 49 525 AMC2_PCIEXP_LANEO_RX AMC2 SATAO RX 57 14 50 525 AMC2 PCIEXP LANEO RX AMC2_SATA1_RX 58 15 51 526 AMC2_PCIEXP_LANE1_RX AMC2 SATA1 RX S8 16 52 526 AMC2_PCIEXP_LANE1_RX AMC1_PCIEXP_LANEO_RX S9 17 53 527 AMC2_PCIEXP_LANE2_RX AMC1_PCIEXP_LANEO_RX 59 18 54 527 AMC2_PCIEXP_LANE2_RX AMC1_PCIEXP_LANE1_RX 510 19 55 528 AMC2_PCIEXP_LANE3_RX AMC1_PCIEXP_LANE1_RX 10 20 56 528 AMC2_PCIEXP_LANE3_RX AMC1_PCIEXP_LANE2_RX 511 21 57 529 AMC2_GBE0_TX AMC1_PCIEXP_LANE2_RX 11 22 58 29 2 AMC1_PCIEXP_LANE3_RX 512 23 59 530 AMC2_GBE1_TX AMC1_PCIEXP_LANE3_RX 12 24 60 530 2 1 AMC1 GBEO 13 25 61 531 AMC2_SATAO_TX AMC1 GBEO TX 13 26 62 31 AMC2 SATAO TX AMC1_GBE1_TX 514 27 63 532 AMC2_SATA1_TX AMC1_GBE1_TX 14 28 64 32 AMC2_SATA1_TX 1 SATAO 515 29 65 533 PROC POR
54. Zone 3 Backplane Connector J30 Pinout Rows A to D Pin A B D 1 RXD RTM TXD IPMC SLAVE RXD IPMC SLAVE TXD 2 JTAG JTAG RTM TDO JTAG TMS JTAG TDI 3 JTAG TRST Reserved Reserved Reserved 4 RTM_USB RTM_USB Reserved Reserved 5 Reserved Reserved Reserved Reserved 6 Reserved Reserved Reserved Reserved 7 Reserved Reserved Reserved Reserved 8 Reserved Reserved Reserved Reserved 9 RTM_IPMBL_SCL RTM_IPMBL_SDA V3_3_MGMT RTM_I2C_INT 10 Reserved Reserved V3_3_RTM V3_3_RTM ATCA C110 1G Installation and Use Manual 67 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 19 Zone 3 Backplane Connector J30 Pinout Rows E to H Pin E F G H 1 IPMC_ATCA_RXD IPMC_ATCA_TXD IPMC_AMC_RXD IPMC_AMC_TXD 2 Reserved Reserved Reserved Reserved 3 Reserved Reserved Reserved Reserved 4 Reserved Reserved Reserved Reserved 5 Reserved Reserved Reserved Reserved 6 Reserved Reserved Reserved Reserved 7 Reserved Reserved Reserved Reserved 8 Reserved Reserved Reserved Reserved 9 ATCA_BRD_PRST RTM_PRST REAR_PANEL_RST MOD_RST 10 VCC_RTM Reserved RTM_I2C_SCL RTM_I2C_SDA Table 5 20 Zone 3 Backplane Connector J31 Pinout Rows A to D Pin A B C D 1 Reserved Reserved Reserved Reserved 2 Reserved Reserved Reserved Reserved 3 Reserved Reserved Reserved Reserved 4 Reserved Res
55. _RX ATCA_BASE1_GBE_RX 58 16 52 526 PEX 8114 PCle LANEO RX FABRIC LINK7 RX 89 17 53 527 PEX_8114_PCle_LANE1_RX FABRIC_LINK7_RX 59 18 54 527 PEX_8114_PCle_LANE1_RX FABRIC_LINK7_TX 510 19 55 528 PEX_8114_PCle_LANE2_RX FABRIC_LINK7_TX 10 20 56 528 PEX 8114 PCle LANE2 RX FABRIC LINK6 RX 511 21 57 529 PEX_8114_PCle_LANE3_RX FABRIC_LINK6_RX 11 22 58 29 PEX_8114_PCle_LANE3_RX FABRIC_LINK6_TX 12 23 59 530 PEX_8114_PCle_LANEO_TX FABRIC_LINK6_TX 12 24 60 530 PEX 8114 PCle LANEO TX FABRIC LINK5 13 25 61 531 PEX_8114_PCle_LANE1_TX ATCA C110 1G Installation and Use Manual 57 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 5 FIM Connector J3 Pinout continued Signal Pin Pin Pin Pin Signal Name Name FABRIC_LINK5_RX 13 26 62 31 PEX 8114 PCle LANE1 TX FABRIC LINK5 514 27 63 532 PEX_8114_PCle_LANE2_TX FABRIC_LINK5_TX 14 28 64 32 PEX_8114_PCle_LANE2_TX FABRIC_LINK4_RX 515 29 65 533 PEX_8114_PCle_LANE3_TX FABRIC_LINK4_RX 15 30 66 33 PEX 8114 PCle LANES3 TX FABRIC LINK4 516 31 67 534 FABRIC_LINK4_TX 516 32 68 534 FABRIC_LINK3_RX 517 33 69 535 FABRIC_LINK3_RX 17 34 70 S35 FIM PWRGD FABRIC LINK3 518 35 71 536 XAUI_MDC FABRIC_LINK3_TX 18 36 72 536 XAUI_
56. achined areas with thermal grease The grease should not come in contact with the thermocouple junction Figure C 1 Mounting a Thermocouple Under a Heatsink Machined groove for thermocouple wire routing Thermocouple junction bonded to component ISOMETRIC VIEW Through hole for thermocouple Machined groove for junction clearance may require thermocouple wire removal of fin material routing Also use for alignment guidance during heatsink installation Thermal pad a Heatsink base HEATSINK BOTTOM VIEW ATCA C110 1G Installation and Use Manual 97 Appendix C Thermal Validation Measuring Local Air Temperature Measure local component ambient temperature by placing the thermocouple downstream of the component This method is conservative since it includes heating of the air by the component Figure C 2 illustrates one method of mounting the thermocouple Figure C 2 Measuring Local Air Temperature Tape thermocouple wire to top of component Thermocouple P d junction e dd 1 PWB 98 ATCA C110 1G Installation and Use Manual Related Documentation Embedded Communications Computing Documents The Motorola publications listed below are referenced in this manual You can obtain electronic copies of Motorola publications by contacting y
57. apter 4 Functional Description 2 Bus There are two I C interfaces on the ATCA C110 1G The Private I C buses from the IPMI Controllers The 12 interface from the MPC8540 The private I2C Address Map for MPC8540 is shown in Table 6 4 on page 74 RTC interface The ATCA C110 1G supports an RTC device on the 12 bus of the MPC8540 The RTC functions on normal 3 3V when the board is powered on and is backed up by a super capacitor to store the parameters in the absence of backplane power to the board The default 2 address for the RTC is OxDOh The RTC is fully compliant to the following TBD Power Supplies The ATCA C110 1G has power input from the Zone 1 connector of the ATCA backplane A power brick of 200W output power is used on the board to derive the Payload power A 5W power brick is used to derive the Management power from the 48V input from the backplane The Payload power is used to drive the onboard regulators which are used to generate the required voltages for the onboard devices 50 ATCA C110 1G Installation and Use Manual Controls Indicators and Connector Pin Assignments This chapter provides details of controls indicators as well as connector pin assignments for all connectors on the ATCA C110 1G board Face plate and LEDs The ATCA C110 1G has two face plates top face plate and bottom face plate which are mounted to the top strut and bottom strut respectively Top and bottom struts are mou
58. are compliant with the AdvancedTCA specification and are designed to meet the IEEE1101 10 standards The handles facilitate insertion locking and extraction of the board Itincludes the hot swap micro switch mounted on the board PCB The board handles are used to activate the micro switch which is the Hot Swap Switch and to extract the board by pulling it out of the ATCA slot from the chassis 18 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Note The hot swap switch contacts should be in the OFF position high resistance when the board handles are fully inserted Figure 1 12 Injector Ejector Lever Types for ATCA C110 1G CAF o 1 id et dr Hm EE aU EE 5 0 EE E Board Handle 309 o eo cies j um Verify Slot Usage AN Caution Prevent possible damage to module components by verifying the proper slot usage for your configuration In most cases connector keying will prevent insertion of a board into an incompatible slot However as an extra precaution you should be familiar with colored card rails used to indicate slot purpose Table 1 3 lists the colors and glyphs common to the Embedded Communications Computing chassis Table 1 3 Slot Usage Indicators Card Rail Color Usage Black A
59. ations The FIM of the ATCA C110 uses PCI Express to PCI Bridge in the forward bridging mode to allow the PCI configuration register access through PCI Express interface The Internal Arbiter of the bridge is also utilized for arbitration on the PCI bus The PCI bus operates in 32 bit 66 MHz mode Ethernet Switching Fabric The Ethernet switching fabric on the FIM of the ATCA C110 is a 24 port GbE switch from Broadcom used for multilayer switching applications This switching fabric is a complete IPv6 enabled Layer 2 and Layer 3 switch on chip solution SATA Multiplexer The SATA Multiplexer on the FIM of the ATCA C110 is a four channel bi directional 2 1 SATA SAS Mux Demux supporting both 1 5 and 3 0 Gbps standard rates transparently passing through Out of Band signaling Each of the four channels operates independently The SATA Multiplexer is used to route the SATA interfaces from the host AMC Bays to the storage Bays and also to the RTM This functionality is under software control and is programmable allowing flexible AMC interfacing between two AMC bays 2 Bus Interface The 12 bus devices have been listed in Table 6 4 on page 74 along with the main carrier board 2 devices ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description Subsystems Onboard Devices The following onboard devices are present on ATCA C110 1G User Flash AMC Bays Programmable Logic Devices CPLD User Flash
60. ators and Connector Pin Assignments Table 5 12 Zone 2 Backplane Connector J21 Pinout Rows A to D Pin A B D 1 Reserved Reserved Terminated Terminated 2 Reserved Reserved Terminated Terminated 3 Reserved Reserved Terminated Terminated 4 Reserved Reserved Terminated Terminated 5 Reserved Reserved Terminated Terminated 6 Reserved Reserved Terminated Terminated 7 Reserved Reserved Terminated Terminated 8 Reserved Reserved Terminated Terminated 9 Reserved Reserved Terminated Terminated 10 FAB_CH8_TX0 8 CH8 RXO FAB CH8 RXO Table 5 13 Zone 2 Backplane Connector J22 Pinout Rows A to D Pin A B D 1 Reserved Reserved Terminated Terminated 2 FAB_CH7_TX0 FAB CH7 TXO FAB CH7 0 FAB CH7 RXO 3 Reserved Reserved Terminated Terminated 4 FAB_CH6_TX0 FAB CH6 TXO FAB CH6 0 FAB CH6 RXO 5 Reserved Reserved Terminated Terminated 6 FAB_CH5_TX0 FAB 5 TXO FAB_CH5_RX0 FAB CH5 RXO 7 Reserved Reserved Terminated Terminated 8 FAB_CH4_TX0 4 FAB_CH4_RX0 FAB_CH4_RX0 9 Reserved Reserved Terminated Terminated 10 FAB CH3 TXO FAB CH3 FAB CH3 0 FAB CH3 RXO Table 5 14 Zone 2 Backplane Connector J21 Pinout Rows E to H Pin E F G H 1 Reserved Reserved Terminated Terminated 2 Reserved Reserved Terminated Terminated 3 Reserved Reserved Ter
61. bbreviations ccc cuca rer Geren dees Renee soe ATCA C110 1G Baseboard Preparation and 1 sic wane caw dda da UTEM Product Desorption 1 M TTE ETT 3 Equipment REQqUIGI eR aa ear ANG Bay LOCATONS we ae EEE a 4 Getting Started TETEP Gk eee Overview of Startup ree gay 2 Unpacking uu dede TS IUE Hardware auus ceu exe Rien eae ERU RR UR SPOON uas ads cde OSEAN SUR RE dede eoo Roco abi odo V ea ab ded i 6 Hardware Upgrades and Accessories 7 Installing the FIM on ATCA C110 1G RH 7 SO DIMM Installation in a Non Powered System TEM SE DIM XY SERA YS d XQ VOS SNO E KMS 9 Removing SO DIMM MNT TT 11 Installing AMC Module a Powered
62. ce Detect SRAM Static Random Access Memory TBD To be decided TC Traffic Class UART Universal Asynchronous Receiver Transmitter UBOOT Universal Boot Code for PowerPC s UPM User Programmable Machine vc Virtual Channel VPD Vital Product Data XAUI 10G Attachment Unit Interface ATCA C110 1G Installation and Use Manual AIT CA C110 1G Baseboard Preparation and Installation Introduction This chapter outlines startup and safety instructions hardware accessories details switch settings hardware preparation installation and removal instructions Product Description The ATCA C110 1G is an AdvancedTCA form factor blade acting as a multi functional conventional AMC carrier and supporting a centralized fabric switching architecture The board is built according to the AdvancedTCA and AMC Specifications The board is designed for use in the AXP Application Enabling Platform but may also be installed into any ATCA shelf The Operating Environment consists of Basic Blade Services BBS and Carrier Grade Linux CGL The following are some of the features of the ATCA C110 1G board MPC8540 Service Processor DDR memory of capacity 1 GB with an operating frequency of 333 MHz 2 MB Boot Flash with failure recovery capability on the GPCM interface of the MPC8540 Processor PICMG 3 x features ATCA Base Interface ATCA Fabric Interface ATCA compliant LEDs IPMI Interface Synchronization Clock Interface Update Ports
63. ches peda d dd ed d Sau KOE 47 Ais DAS civ kh day hood Codie wee AA Soe 47 Programmable Logic Devices CPLD 2 2 lt 2 lt lt 6 47 ab ORG he hk ec a 48 FOIPGEESNSSS DIOS oeseri strid 48 PGHHExpiess sions oh asso FERS SERED EGRESS OAS 48 Seal AT IUBE OB ae dans Gok RATES EES 49 Gigabit Ethernet SerDes Interface 49 ax D ed Ue A oed 49 Seral LT 49 IC BUS ee aie rey xS REP s Ed C as ex ud ae are ESAE 50 6 ce TERT 50 Power tee he eee 50 Controls Indicators and Connector Pin 51 Faceplate and LEDS 225 222 929 Ra GRE Heed 51 Baseboard 52 53 59 COORG sarkin m Yd e ode d Sw dp RU Ace 60 COMMON Optans CORRI RE EE dU 60 Pel POS
64. d 59 ATCA backplane 62 FIMonnectors 54 conventions used in the manual xix Eon qut 35 E environmental and physical specifications 89 H liot SWap duci Ur ld 18 l injector ejector lever types 18 IPMI controller iu auc a EE do C Rund RE 41 M manual conventions xix manufacturers documents 100 memory 5 40 memory modules SO DIMM installation 9 SO DIMM removal 11 Index ordering information ACCESSONGS 4 caida gracie dob CER ETE RIA RR xviii baseboard varianats xvii procedure AMC module installation 12 AMC module removal 14 ATCA C110 board installation powered chassis 19 ATCA C110 board removal powered chassis 21 FIM installation 7 SO DIMM installation 9 SO DIMM removal 11 Slart p tle de dh d 5 product nomenclature xvii R Rear Transition Modules 19 removing SO DIMM 11 requirements environmental and physical 89 DOWOF SE Mee ee oo
65. d dd 91 thermal RE REY 95 S specifications related 101 standard compliance 92 suggestions submitting xix switcli Set rngs 3 254 16 system management 41 T terms and abbreviations xxi troubleshooting 83 typeface meaning of xix U upgrades and accessories 7 ATCA C110 1G Installation and Use Manual 103
66. d the letter simultaneously for example Ctrl d Note Contains information that is not critical to the procedure task or information you are describing Notes are usually used to give the reader a tip or additional information Identifies any risk of system failure service interruption or damage to equipment and should explicitly state the nature of the risk and specify how to reduce or avoid the risk Avoid touching areas of integrated circuitry static discharge can damage circuits ATCA C110 1G Installation and Use Manual About This Manual Use ESD Before you install or remove a board Motorola strongly recommends that you use an antistatic wrist strap and a conductive foam pad Wrist Strap Identifies any risk of personal injury or loss of life and should explicitly state the nature A of the risk and specify how to reduce or avoid the risk Warning Terms and Abbreviations This document uses the following terms and abbreviations Term Definition ADC Analog to Digital Converter AMC Advanced Mezzanine Card ARTM AdvancedTCA Rear Transition Module ATCA Advanced Telecom Computing Architecture BIB Board Information Block CL CAS Latency for SDRAM CLI Command Line Interface COP Control and Observation Port PowerPC JTAG debug port CPLD Complex Programmable Logic Device CPU Central Processing Unit DMA Direct Memory Access
67. devices OxA4 PM8380 MUX for Fabric Interface OXB2 8380 MUX for Fabric Interface OXB4 RTC Real Time Clock OxDO PCI Express Clock Buffer ICS9DB108 OxDC FIM Devices BCM56502 4 EEprom Default parameters for BCM Switch 8 PM8380 SATA MUX 0 0 2 Resources 74 The Address for the 2 devices on the Private 2 interface for the Slave micro controller is shown in Table 6 5 Table 6 5 Private 12 Address Map ATmega8L TMP 100 Device Device description Address Carrier Board Devices BIB EEPROM for Carrier Board Board Information Block EEPROM 2 to GPIO Device CLK2 Buffer enable control PCA9557PW 2 to GPIO Device CLK1 Buffer enable control 0x38 PCA9557PW IC to GPIO Device CLK3 Buffer enable control Ox3C PCA9557PW to GPIO Device Telecom Clock selection control Ox3E PCA9557PW Temperature Sensor Inlet Air Temperature Sensor 0x92 TMP100 Temperature Sensor Outlet Air Temperature Sensor 0x96 ATCA C110 1G Installation and Use Manual Chapter 6 Memory Map and Registers Table 6 5 Private 2 Address Map ATmega8L continued Device Device description Address Temperature Sensor Board Temperature Sensor Ox9E LM75CIM FIM Devices BIB EEPROM for Fabric Interface Board Information Block EEPROM OxAE Module 2 to GPIO Device HotPlug control 0x32 PCA9557PW 2 ADC Onboard ADC AD7997 0x41
68. e 5 2 shows the location of the connectors FIM Connectors B AMC Connectors B ATCA Backplane Connectors Figure 5 2 Location of Baseboard Connectors Zone 3 Connectors Zone Connectors gt Zone 1 Connector FIM Connectors AMC Connectors 52 ATCA C110 1G Installation and Use Manual FIM Connectors Chapter 5 Controls Indicators and Connector Pin Assignments The FIM connectors used on the baseboard are specially designed for high speed differential signaling Table 5 2 shows the fabric signals routed between the baseboard and FIM through the connector Table 5 2 Differential Signals between FIM and Baseboard Pin Group Link No of Device on FIM differential pairs 1 AMC Bay B1 x4 PCI Express 8 PEX8532 2 Gig SerDes Port 0 2 BCM56502 3 Gig SerDes Port 1 2 BCM56502 4 SATA port 0 2 PM8380 5 SATA port 1 2 PM8380 6 AMC Bay B2 x4 PCI Express 8 PEX8532 7 Gig SerDes Port 0 2 BCM56502 8 Gig SerDes Port 1 2 BCM56502 9 SATA port 0 2 PM8380 10 SATA port 1 2 PM8380 11 AMC Bay B3 x4 PCI Express 8 PEX8532 12 Gig SerDes Port 0 2 BCM56502 13 Gig SerDes Port 1 2 BCM56502 14 SATA port 0 2 PM8380 15 SATA port 1 2 PM8380 16 AMC Bay B4 x4 PCI Express 8 PEX8532 17 Gig SerDes Port 0 2 BCM56502 18 Gig SerDes Port 1 2 BCM56502 19 SATA port 0 2 PM8380 20 SATA port 1 2 P
69. e ADDR 0 7 Numeric notation Binary numbers are suffixed with b e g 01b whereas hexadecimal numbers are prefixed with e g 5 Other numbers e g 35 are decimal ATCA C110 1G Installation and Use Manual xix About This Manual Miscellaneous notations The term AMC Carrier refers to the ATCA C110 1G board blade and is used interchangeably The phrases Service Processor and MPC8540 are used interchangeably The term xY in reference to a serial link refers to a link with a width of Y Lanes For example an x4 PCI Express link refers to that the PCI Express link with a width of 4 lanes The term Yx indicates plurality in general For example a 2x SerDes interface refers to two SerDes interfaces each with one TX and RX pair for communication Typographical Conventions N Caution Caution bold is used for user input that you type just as it appears it is also used for commands options and arguments to commands and names of programs directories and files italic is used for names of variables to which you assign values Italic is also used for comments in screen displays and examples and to introduce new terms courier is used for system output for example screen displays reports examples and system prompts lt Enter gt lt Return gt or lt CR gt represents the carriage return or Enter key Ctrl represents the Control key Execute control characters by pressing the Ctrl key an
70. e carrier and the FIM board out of the system interfaces PCI Express One x4 PCI Express link routed to each AMC Bay One x4 link through a PCI to PCI Express bridge routed to the Service Processor Ethernet Support for Base and Fabric Interface of PICMG 3 0 and PICMG 3 1 Two SerDes interfaces routed from FIM to each AMC Bay Two GbE interfaces of the Processor routed to the FIM Four SerDes interfaces routed from FIM to the RTM Zone 3 One XAUI interface routed from FIM to the RTM Zone 3 One 10 100 interface routed from the Processor to the RTM ATCA Zone 3 Serial One UART Port from the Processor to the RTM One UART Port from the Processor to the IPMC as the Payload interface SATA Two SATA links from each AMC Bay to FIM ATCA C110 1G Installation and Use Manual 35 Chapter 4 Functional Description Table 4 1 ATCA C110 1G Overview continued Feature System Management and IPMI Description IPMI IPMI conforming to ATCA and AMC Specifications Others Update Port One XAUI interface from FIM Form Factor AdvancedTCA form factor 322 25 mm x 280 mm as defined by PICMG 3 0 ATCA Compliant features The ATCA C110 1G complies with the following features as per the PICMG 3 0 Specification ATCA Base Interface The Base Interface of the ATCA C110 1G is a Gigabit Ethernet interface in a dual star topology on the backplane as per the PICMG 3 0
71. efault i e run bootcmd memory compare print console devices and informations memory copy checksum calculation dhcp diskboot echo get set reset date amp time invoke DHCP client to obtain IP boot params boot from IDE device echo args to console ras flinfo go help ide iminfo loadb loads loop md mm mtest mw nm printenv protect rarpboot reset run rase FLASH memory print FLASH memory information start application at address addr print online help IDE sub system print header information for application image load binary file over serial line kermit mode load S Record file over serial line infinite loop on address range memory display memory modify auto incrementing simple RAM test memory write fill memory modify constant address print environment variables enable or disable FLASH write protection boot image via network using RARP TFTP protocol Perform RESET of the CPU run commands in an environment variable Sav nv Sav nvironment variables to persistent storage setenv set environment variables ATCA C110 1G Installation and Use Manual Chapter 3 U Boot Firmware Overview sleep delay execution for some time tftpboot boot image via network using TFTP protocol and env variables ipaddr and serverip version print monitor version alias for help gt To obtain additional information about
72. ep 2 Remove the ATCA C110 1G board from the chassis refer to Removing the ATCA C110 1G from a Powered Chassis on page 21 ATCA C110 1G Installation and Use Manual 7 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Figure 1 3 Fabric Interface Module Installation Copper Plated Heatsink with holding clips FIM Module NPTH for keying Zone 3 Connector FIM Connectors 5 Screws 8 Step 3 After removing the carrier board from its card slot place it on a clean and adequately protected working surface preferably an ESD mat with the bottom side of the board facing up Step 4 Remove the screws from the holes in the carrier board that fasten the FIM to the carrier board Step 5 Carefully turn the carrier board over to the top side and place it on your working surface Gently separate the FIM from the FIM connectors on the carrier board Do not damage or bend connector pins Step 6 Identify the FIM connectors on the carrier card as shown in the figure above Step 7 Align the FIM over the FIM connectors making sure that the larger heatsink with holding clips is oriented towards the Zone 3 connector Ensure that the NPTH of the FIM is aligned with the NPTH of the ATCA C110 1G carrier board Step 8 Carefully press the FIM into the FIM connectors Ensure that the standoffs of the module are seated into the mounting holes of the carrier board Step 9 Turn the carrier board over and on the bottom side
73. erved Reserved Reserved 5 Reserved Reserved Reserved Reserved 6 XAUI LANEO TX XAUI LANEO TX XAUI LANE1 TX XAUI LANE1 TX 7 XAUI_LANEO_RX XAUI_LANEO_RX XAUI_LANE1_RX XAUI_LANE1_RX 8 Reserved Reserved Reserved Reserved 9 V3_3_RTM V3_3_RTM V3_3_RTM V3_3_RTM 10 Reserved VCC_RTM VCC_RTM Reserved Table 5 21 Zone 3 Backplane Connector J31 Pinout Rows E to H 68 ATCA C110 1G Installation and Use Manual Pin E F G H 1 Reserved Reserved Reserved Reserved 2 FEC_PHY_TX FEC PHY TX FEC_PHY_RX FEC_PHY_RX 3 FEC_LED_CFG1 FEC_LED_CFG2 Reserved Reserved 4 Reserved Reserved Reserved Reserved 5 Reserved Reserved Reserved Reserved 6 XAUI_LANE2_TX XAUI_LANE2_TX XAUI_LANE3_TX XAUI LANE3 TX Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 21 Zone 3 Backplane Connector J31 Pinout Rows E to H continued Pin E F G H 7 XAUI_LANE2_RX XAUI_LANE2_RX XAUI_LANE3_RX XAUI_LANE3_RX 8 Reserved Reserved Reserved Reserved 9 Reserved Reserved Reserved Reserved 10 Reserved Reserved XAUI MDC XAUI MDIO Table 5 22 Zone 3 Backplane Connector J32 Pinout Rows A to D Pin A B C D 1 RTM_CLK1A RTM_CLK1A RTM_CLK1B RTM_CLK1B 2 RTM_CLK2A RTM_CLK2A RTM_CLK2B RTM_CLK2B 3 RTM_CLK3A RTM_CLK3A RTM_CLK3B RTM_CLK3B 4 Reserved Reserved Reserved Reserved 5 Reserved Rese
74. g testing and adjusting Damage of Circuits Electrostatic discharge and incorrect board installation and removal can damage circuits or shorten their life Therefore before touching boards or electronic components make sure that you are working in an ESD safe environment Module damage Only mount permitted combinations of AMC variants Otherwise damage to AMC module carrier card and equipment attached to the rear transition board may occur Therefore only install and use the AMC module together with the Embedded Communications Computing s carrier card Step 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to the chassis as a ground The ESD strap must be secured to your wrist and to ground throughout the procedure 12 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Figure 1 10 Installing AMC Module in ATCA C110 1G AMC eo 00 0 0059 Position of AMC Guide Rail Anchoring Points _ _ 2i SIngle Width Full Height AMC Module AMC Module Handle Step 2 Identify the AMC bay to be used for installation Please note the following possibilities If the required AMC bay is occupied by the AMC filler panel you will need to remove the filler panel before proceeding with the installation procedure The handles latch mechanisms for the filler panel and the AMC module are similar follow t
75. g of equipment Note Ifthe shipping carton is damaged upon receipt request that the carrier s agent be present during the unpacking and inspection of the equipment ATCA C110 1G Installation and Use Manual 5 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Caution Use ESD Wrist Strap Warning Avoid touching areas of integrated circuitry static discharge can damage circuits Motorola strongly recommends that you use an antistatic wrist strap and a conductive foam pad when installing or upgrading a system Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a grounded static free surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if it is unplugged Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing and adjusting Hardware Configuration This section discusses certain hardware and software tasks that may need to be performed prior to
76. gnments Zone 1 Connectors The connector residing in Zone 1 is called J10 see Figure 5 3 on page 62 and carries the following signals Power feed for the blade ABP_VM48_x_CON and ABP_RTN_A_CON Power enable ENABLE x IPMB bus signals APMB P10 IPMBO x yyy Geographic address signals 10 HAx Ground signals 10 SHELF GND and GND Reserved signals Table 5 9 shows the ATCA Zone 1 connector pinouts Table 5 9 Zone 1 Connector Pinouts Pin Signal Signal Pin 1 Reserved Reserved 18 2 Reserved Reserved 19 3 Reserved Reserved 20 4 Reserved Reserved 21 5 HAO Reserved 22 6 HA1 Reserved 23 7 HA2 Reserved 24 8 HA3 SHELF GND 25 9 HA4 LOGIC GND 26 10 HA5 ENABLE B 27 11 HA6 VRTNA 28 12 HA7 VRTN B 29 13 IPMB A SCL Reserved 30 14 IPMB A SDA Reserved 31 15 IPMB B SCL ENABLE B 32 16 IPMB B SDA 48V A 33 17 Reserved 48 B 34 ATCA C110 1G Installation and Use Manual 63 Chapter 5 Controls Indicators and Connector Pin Assignments Zone 2 Connectors Zone 2 contains four connectors J20 J21 J22 and J23 see Figure 5 3 on page 62 carrying the following types of signals 64 Telecom clock signals CLKx Base interface signals BASE E Fabric channel interfaces FAB Some of the pins provided by J20 J21 and J23 are defined as optional in the ATCA specification and are unused on the blade If the ATCA specificati
77. he steps listed in Removing an AMC Module from a Powered System on page 14 to remove the filler panel The blue LED on the filler panel is irrelevant If the identified bay is already filled by another AMC module remove this module from the bay follow the steps listed in Removing an AMC Module from a Powered System on page 14 Step 3 Ensure that board handles are in the extracted position pulled outward away from the faceplate Step 4 Using your thumb apply equal and steady pressure on the faceplate as necessary to carefully slide the AMC module into the guides rails Step 5 Continue to gently push the module along the guide rails till the module is fully engaged with the connector Avoid using excessive force during this operation Step 6 Wait for the blue LED to glow The blue LED glows when the AMC module is completely engaged with the connector Step 7 Press board handles inwards towards the faceplate to lock the AMC module on AMC bay Step 8 Wait for the blue LED to perform a series of long blinks The blue LED blinks when the handles are locked in position indicating module detection and activation by the carrier board Step 9 Observe blue LED status activity The module is fully installed when the blue LED stops blinking ATCA C110 1G Installation and Use Manual 13 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Removing an AMC Module from a Powered System To remove an AMC Module from the ATCA C110 1G
78. ile reasonable efforts have been made to assure the accuracy of this document Motorola Inc assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Motorola reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Motorola 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 the Motorola Computer Group website The text itself may not be published commercially in print or electronic form edited translated or otherwise altered without the permission of Motorola Inc It is possible that this publication may contain reference to or information about Motorola products machines and programs programming or services that are not available in your country Such references or information must not be construed to mean that Motorola intends to announce such Motorola products programming or services in your country Limited and Restricted Rights Legend If the documentation contained herein is supplied directly or indirectly to the U S Government the following notice shall apply unless otherwise agreed to in writing by Motorola Inc Use duplication or disclosure by the Government is subject to restrictions as set forth in subparagraph b 3 of the Rights in Technical Data clause at DFAR
79. includes instructions and diagrams for hardware preparation and installation and removal procedures Chapter 2 Operating Instructions provides a description of basic operational characteristics of the ATCA C110 1G including system initialization sequence hot swap support sources of reset and the debug support Chapter 3 U Boot Firmware Overview gives a brief overview of U Boot boot loader and host system set up Chapter 4 Functional Description describes the ATCA C110 1G on a block diagram level It provides an explanation of the various components and the functional characteristics of the board Chapter 5 Controls Indicators and Connector Pin Assignments summarizes the LEDs and pin assignments provided on the ATCA C110 1G baseboard Chapter 6 Memory Map and Registers provides a description of memory maps and programming information including register reference and memory structure Appendix A Troubleshooting provides a hint list for detecting possible errors which could be mechanical in nature or which could occur after power on during boot up or during board operation Appendix B Specifications lists the general specifications and compliance for ATCA C110 1G boards ATCA C110 1G Installation and Use Manual About This Manual Appendix C Thermal Validation provides information about thermally significant components and an overview of how to measure various junction and case temperatures Appendix D Related Doc
80. ins Refer to Digital on page 73 for more details about the GPIO pin signals Fabric Interface Module The FIM is used for high speed differential signaling and performs switching functions for fabric links There are four FIM connectors onboard the ATCA C110 each supporting 36 differential pairs The location of the FIM onboard the ATCA C110 1G is shown in Figure 4 1 on page 37 The following interfaces are provided through the FIM connectors Fabric signals PCI Express Gigabit Ethernet XAUI SATA Multiplexer Power 3 3V 12V 5V 3 3V Management Reset signals Interrupt signals from FIM devices to the base board Service Processor 2 signals Other control signals Block Diagram FIM The functional blocks of the FIM are illustrated in Figure 4 4 on page 45 and are described in the following sections PCI Express Switch PCI Express to PCI Bridge Ethernet Switching Fabric SATA Multiplexer 12C Bus Interface 44 ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description Figure 4 4 Fabric Interface Module Block Diagram Power d SS Clock conversion Set Synthesizers block x4 PCI Express PEX8532 x1 PCI Express ____ 2 x4 PCI Express PCI Express PCI Bridge x4 PCI Express x4 PCI Express Processor 2x SerDes Switch AMC1 2x SerDes BCM56502 33MHz AMC2 2x SerDes 24 port Gb
81. installing the blade in a shelf The ATCA C110 1G board has been factory tested and is shipped with the configurations It contains a factory installed start up firmware U Boot which operates with those factory settings See Chapter 3 U Boot Firmware Overview for more details You can configure most options on the ATCA C110 1G via the U Boot Configuration changes are made by setting bits in control registers after the board is installed in a system The user control configuration details are described in Chapter 6 Memory Map and Registers For more details refer to the datasheets of the devices as listed in Manufacturers Documents on page 100 Software Support 6 Refer to the current ATCA C110 1G Software Release Notes as listed in Appendix B Specifications for a complete list of supported features and known limitations All features described in this guide may not be supported in early released proto versions ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Hardware Upgrades and Accessories Hardware upgrades and accessories allow an easy and cost efficient way to adapt the system board to your application needs The following hardware upgrades and accessories are available Fabric Interface Module refer Installing the FIM ATCA C110 1G Board on page 7 SO DIMM Memory Modules refer nstalling SO DIMM on page 9 B AMC Modules refer Installing an AMC Modu
82. ion Processor and Processor interfaces CPU ATCA C110 1G has MPC8540 as a Service Processor working with the following features e500 high performance PowerPC core Core operating frequency upto 833 Mhz 32 KB L1 data and 32 KB L1 instruction cache with line locking support 256 KB on chip L2 cache with direct mapped capability Memory Management Unit CPU Interfaces Universal 64 bit and 66 MHz interface Local bus speed of approximately 82 MHz Two triple speed Ethernet controllers TSECs supporting 10 100 1000 Mbps Ethernet IEEE 802 3 802 3u 802 3x 802 3z and 802 3ac compliant with two GMII TBI RGMII interfaces 166 MHz 64 bit 2 5V 1 0 DDR SDRAM memory controller with full ECC support 133 MHz 64 bit 3 3V I O PCI X 1 0a PCI 2 2 bus controller 166 MHz 32 bit 3 3V I O local bus with memory controller 10 100 Ethernet controller 802 3 Integrated four channel DMA controller Interrupt controller IEEE 1149 1 JTAG test access port Listed below are some of the processor interfaces The following sections define the CPU interfaces of the MPC8540 Processor and briefly describe how these blocks interact with one another and with other blocks on the device Integrated Memory Controller The fully programmable DDR SDRAM controller integrated in the MPC8540 Processor supports first generation JEDEC standard x8 or x16 DDR memories available including buffered and unbuffered DIMMs The Integrated Memory Controller d
83. ion Modules on page 15 for more information AMC Bay Locations 4 The ATCA C110 1G is a conventional AMC carrier board with four B type AMC bays Figure 1 2 shows AMC Bay locations on the ATCA C110 1G board An AMC Bay is a single AMC site on an AMC carrier Bays a carrier are identified by an alphanumeric value representing the Bay layer and position Bay layers are designated as A and B while positions within each layer are designated as 1 through 4 Bays are identified by a capital letter followed by a numeral The letter shall be A for the lower Bay and B for the upper Bay and also B for the Single Layer Bay The number identifies the Bay s position The Bay positions Single Layer and Stacked shall be numbered together contiguously starting with 1 at the top Figure 1 2 Bay Locations on ATCA C110 1G ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Getting Started This section provides an overview of the steps necessary to install the ATCA C110 1G and a brief section on unpacking and ESD precautions Overview of Startup Procedures Table 1 1 lists the things you will need to do before you can use this board and tells where to find the information you need to perform each step Be sure to read this entire chapter including all Caution and Warning notes before you begin Table 1 1 Startup Overview What you need to do Unpack the hardwa
84. ion without any user interaction To access the serial console port on your target system connect one end of the serial cable to serial port COM5 on the ARTM C110 and the other end of the serial cable to the host COM port Configuring the TFTP Server The quickest manner for U Boot to load a Linux kernel or an application image is through file transfer over Ethernet For this purpose U Boot implements the TFTP protocol see DENX U Boot and Linux Guide which may be obtained online from the http www denx de twiki bin view DULG Manual site To enable TFTP support on your host system you must make sure that the TFTP daemon program usr sbin in tftpd is installed On RedHat systems you can verify this by running rpm q tftp server If necessary install the TFTP daemon program from your distribution media Most Linux distributions disable the TFTP service by default To enable the TFTP service for example on RedHat systems edit the file etc xinetd d tftp and remove the line disable yes or comment the line by prefixing a hash character For example ATCA C110 1G Installation and Use Manual 29 Chapter 3 U Boot Firmware Overview default off description The tftp server serves files using the trivial file transfer protocol The tftp protocol is often used to boot diskless workstations download configuration files to network aware printers and to start the installation process for some operati
85. lade refer to the ATCA C110 1G Preliminary IPMI Reference Manual as listed in Appendix D Related Documentation Digital The IPMI interface of the ATCA C110 1G helps in the configuration and operations of the board through its GPIO pins They are listed as follows Payload Reset The Payload Reset signal PAYLOAD_RST is the signal from the IPMI to the CPLD through which the IPMI can reset the board Boot ROM Selection The IPMI determines the selection of the Boot ROM from which the CPU boots The CPU boots from the Primary Boot Flash by default However if the boot from Primary Boot Flash fails the IPMC with the CPLD redirects the access to the Secondary Boot Flash Payload Power Enable The Payload power of ATCA C110 1G is controlled by the IPMI block which enables or disables the Payload power through the FRU EN signal This signal enables the power brick so as to enable onboard conversion from 48V to 12V ATCA C110 1G Installation and Use Manual 73 Chapter 6 Memory Map and Registers 2 Address Map for MPC8540 The devices supported by the Processor MPC8540 2 interface along with their 2 addresses are shown in Table 6 4 Table 6 4 Private 2 Address Map 8540 Device Device description Address Carrier Board Devices Boot Sequencer Boot parameters for the MPC8540 0 0 Onboard SPD SPD details for onboard devices 0 2 SODIMM SPD SPD details for SODIMM
86. le signals from the CPLD enables the corresponding regulator and the Power Good signals from the regulator indicates the stabilization of the corresponding power supply Refer to Power Supplies on page 50 for more details Reset Architecture The reset sources are explained in Reset Sources on page 26 The CPLD is the heart of the Reset architecture which implements the logic required for the same Boot ROM Selection The redirection of the Boot Flash access to the Recovery Flash is through the CPLD This redirection of boot access is controlled by the IPMI The CPU must by default boot from the Primary Boot Flash If the boot from Primary Boot Flash fails the IPMC with the CPLD redirects the access to the Secondary Boot Flash See Figure 4 2 on page 41 for representation of the Primary and Secondary Boot Flash connections PCI Interface The PCI interface is used for communication between the CPU and the PCI express devices The PCI interface uses a 64 bit multiplexed data address bus with a frequency of 66 MHz plus various control and error signals The devices on the PCI interface are the MPC8540 and the PCI to PCI Express Bridge Refer to PCI PCI X Interface on page 40 for details about the Processor PCI interface PCI to PCI Express Bridge The PCI to PCI Express Bridge acts as the interface between the FIM through its PCI Express interface and the Processor There are several specific data transfer modes which the PCI to PCI Ex
87. le 5 17 Table 6 1 Table 6 2 Table 6 3 Table 6 4 6 7 5 Private I2C Address ATmega8L 5 6 12C to GPIO s Device Mappings Private 2 Bus Default Switch Settings tor 5 1 Slot Usage Indicators ATCA C110 1G Onboard Conca Serial Port Configuration Parameters for MPC8540 Reset Sources ATCA C110 1G Port Configuration on PCI Express Switch Face Plate LEDs eet Differential Signals b tibicen FIM adt Baseboard CET Fila Connection JU ideas meio teins FIM Connector PINCUL 000005 RA REG FIM Connector JS PINOUT EGGS FIM Connector Pinout AMC Connector Port Map eC e nA ee er eee AMC Connector Port Mapping on ATCA C1 10 16 Zone 1 Connector Pinouts ere eee Zone 2 Backplane Connector J20 Pinout D Lem Zone 2 Backplane Connector J20 Pinout Rows E to Zone 2 Backplane Connector J21 Pinout Rows Ato D Zone 2 Backplane Connector J22 Pinout Rows Ato D Zone 2 Backplane Connector J22 Pinout Rows E to H Zone Backplane Connector J30 Pinout Rows Ato D Zone Backplane Connector J30 Pinout Rows E to H Z
88. le in a Powered System on page 12 The installation procedure for each hardware upgrade and accessory is described in the sections below Installing the FIM on ATCA C110 1G Board Warning Caution Caution To install the FIM on the ATCA C110 1G board refer to Figure 1 3 on page 8 read all cautions and warnings and perform the following steps Note Since the FIM is not hot swappable always install the ATCA C110 1G when power is turned off The FIM is assembled on the delivered board The following steps detail the procedures to replace the FIM onboard the ATCA C110 1G in case of any FIM failure Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing and adjusting Damage of Circuits Electrostatic discharge and incorrect board installation and removal can damage circuits or shorten their life Therefore before touching boards or electronic components make sure that you are working in an ESD safe environment Damage to Board or electronic components Avoid touching areas of integrated circuitry static discharge can damage the circuits Therefore before touching boards or electronic components make sure that you are working in an ESD safe environment Step 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to the chassis as a ground The ESD strap must be secured to your wrist and to ground throughout the procedure St
89. limits High humidity Caution temperature and condensation may cause short circuits Therefore ensure that the product is completely dry and there is no moisture on any surface before applying power ATCA C110 1G Installation and Use Manual 89 Appendix B Specifications Table B 1 ATCA C110 1G Environmental Specifications Characteristics Specifications Environmental Parameters A minimum of 300 LFM linear feet per minute of forced air cooling is recommended for operation in the higher temperature ranges Temperature range 0 to 55 C 40 C to 85 C Operating Non Operating Temperature change 5 C per minute 1 C per minute Operating Non Operating Relative humidity 5 to 95 at 40 C non condensing 5 to 95 at 40 C non condensing Operating Non Operating 15 Hz to 150 Hz 2g Altitude 300 m to 3000 m Operating 300 m to 12000 m Non Operating Shock 5g 11 ms half sine Operating 15g 11 ms half sine Non Operating Vibration 10 Hz to 15 Hz 2 mm amplitude Operating 10 Hz to 15 Hz 5 mm amplitude 15 Hz to 150 Hz 5g Non Operating Packaging free fall 100 mm 3 axis Operating 1200 mm all edges and corners Non Operating MTBF Mean Time Between Failures 347 826 hours Physical Dimensions 8U Board Height 322 25 12 68 Length 280 mm 11 02 Front panel height 351 00 mm 13 82 Fr
90. mber RTM Control 0 RTM_IMPB_RDY Signals The IPMB isolator has completed the start up after enabling the device 0 Start up Completed 1 Start up Completed 1 RTM_IMPB_EN The IPMB Connection to RTM is enabled at the Isolator 0 Disable 1 Enable 2 RTM_PRST Indicates the Presence of the RTM 0 RTM Present 1 RTM Not Present 3 REAR_PANEL_RST Reset input from the Rear panel Reset Switch to the Main board 0 Asserted 1 Not asserted 4 MOD_RST Reset input from the Main board logic to the RTM 0 Asserted 1 Not asserted 5 RTM_I2C_INT 2 bus interrupt from the RTM to the Main board 0 Asserted 1 Not Asserted 6 7 Unused ATCA C110 1G Installation and Use Manual 81 Chapter 6 Memory Map and Registers GPIO Geographical addressing of AMC Bays on ATCA C110 1G Geographical Addressing for AMC Bays Table 6 9 Geographical addressing of AMC Bays on ATCA C110 1G GA 2 0 IPMB L Address AMC Bay ID AMC Bay on ATCA C110 1G UGU 7Ah B1 Bay 1 UUG 7Ch B2 Bay 2 UUP 7Eh B3 Bay 3 UPU 80h B4 Bay 4 U Unconnected P Pulled up to Management Power G Grounded Ethernet Phy Address Map The Management Interfaces of the Ethernet Phys are connected to the corresponding Management Controllers as shown in Table 6 10 Table 6 10 Ethernet Phy Address Map 51 No Device Ethernet Interface PHY Management Address Controller 1
91. means that the carrier IPMC should have completed E keying and enabled the interface before the module starts loading the OS Ethernet inoperable Ethernet port configuration MAC address or IP address is not proper Check if the board has a valid unique MAC address that can be read by the IPMC from the board information EEPROM Also ensure that the IP address assigned to the port is appropriate 86 ATCA C110 1G Installation and Use Manual Appendix A Troubleshooting Problem RTM gets reset Possible Reason Super capacitor is drained if the board has not been powered on for a sufficient duration more than 8 hours Solution Power on the board and reconfigure the RTM Wait for at least ten minutes for the super capacitor to charge Board hangs or becomes unstable Inadequate airflow Check if the airflow is adequate see Appendix C Thermal Validation Application software does not work Memory ranges of system and peripheral boards do not match Change application software so that memory ranges match I O cards and host Not enough disk capacity on mass storage device Add disk capacity Used I O ranges do not match Change application software so that I O ranges match I O cards and host Connected devices do not work Device defect Replace device Device not connected to power supply Connect device to power supply Wrong board configu
92. minated Terminated 4 Reserved Reserved Terminated Terminated 5 Reserved Reserved Terminated Terminated 6 Reserved Reserved Terminated Terminated ATCA C110 1G Installation and Use Manual 65 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 14 Zone 2 Backplane Connector J21 Pinout Rows E to H Pin E F G H 7 Reserved Reserved Terminated Terminated 8 Reserved Reserved Terminated Terminated 9 Reserved Reserved Terminated Terminated 10 Reserved Reserved Terminated Terminated Table 5 15 Zone 2 Backplane Connector J22 Pinout Rows E to H Pin E F G H 1 Reserved Reserved Terminated Terminated 2 Reserved Reserved Terminated Terminated 3 Reserved Reserved Terminated Terminated 4 Reserved Reserved Terminated Terminated 5 Reserved Reserved Terminated Terminated 6 Reserved Reserved Terminated Terminated 7 Reserved Reserved Terminated Terminated 8 Reserved Reserved Terminated Terminated 9 Reserved Reserved Terminated Terminated 10 Reserved Reserved Terminated Terminated Table 5 16 Zone 2 Backplane Connector J23 Pinout Rows A to D Pin A B D 1 FAB_CH2_TX2 FAB_CH2_TX2 FAB_CH2_RX2 FAB_CH2_RX2 2 FAB_CH2_TX0 FAB CH2 TXO FAB CH2 0 FAB CH2 RXO 3 FAB CH1 TX2 FAB CH1 TX2 FAB CH1 2 FAB 1 RX2 4 CH1 TXO FAB CH1 TXO FAB 1 0 FAB 1 RXO 5 B
93. most commands use help lt command gt For example gt help tftpboot tftpboot loadAddress bootfilename gt help setenv printenv setenv name value set environment variable name to value setenv name delete environment variable name printenv print values of all environment variables printenv name print value of environment variable name gt Most commands can be abbreviated as long as the string remains unambiguous ATCA C110 1G Installation and Use Manual 33 Functional Description This chapter describes the functional concepts of the ATCA C110 1G as well as the main physical and electrical structure of the board ATCA C110 1G Overview The following table lists the features of the ATCA C110 1G Table 4 1 ATCA C110 1G Overview Feature Processor Service Processor and Interfaces Description MPC8540 at 833 MHz core frequency utilizing a SoC platform Memory Devices Main Memory Default memory capacity Onboard 512 MB SODIMM 512 MB Boot Flash Boot Flash Memory with the Recover Image of size 2 MB for Firmware Image User Flash User Flash Memory of size 128 MB Modules FIM Fabric Interface Module FIM which performs switching functions for fabric links Features a 24 port GbE switch a PCI Express switch and a SATA Multiplexer AMC Bays Upto four AMC Bays B single width type ARTM Rear Transition Module to route the I O interface from th
94. n IEEE 802 3 IPMI Specifications http www intel com design servers ipmi Intelligent Platform Management Interface Specification Version 1 5 February 2004 http www picmg org IPMI2010 1510E1 PCI Industrial Computer Manufacturers Group PICMG Specifications Advanced TCA Base Specification PICMG 3 0 Revision 1 0 PCI Local Bus Specification PCI Local Bus Specification PICMG 3 1 Ethernet fabric interface 0 AMC 1 PICMG 3 1 R 1 0 PICMG 0 RC1 1 PICMG AMC 1 RC1 0 PCI Special Interest Group PCI SIG http www pcisig com Peripheral Component Interconnect Local Bus Specification PCI Local Bus Specification PCI Express Base Specification 1 0 Serial ATA specification 1 0 PCI Express Base Specification R1 0a Serial ATA High Speed Serialized AT Attachment R 1 0a 2 Specification Philips Semiconductors www philips com The 2 5 Specification Version 2 1 ATCA C110 1G Installation and Use Manual 101 A AMC bay locations 4 ATCA C110 1G block diagram ire cet qu RR 37 main functional blocks 27 OVENVIEW 556 3d REG RA Rd edo eode 35 B baseboard conneclors sess seb ERR Y GU XX Ed 52 lace plate avia eg 51 LEDS Xa stb podere TR S opone bs 51 comments sending xix connectors X
95. n an empty shelf we recommend that you start at the left of the card cage and work to the right when cards are vertically aligned in horizontally aligned cages work from bottom to top When inserting or removing a board in a slot adjacent to other boards use extra caution to avoid damage to the pins and components located on the top or bottom sides of the blades Preserve EMI Compliance N Caution To preserve compliance with applicable standards and regulations for electromagnetic interference EMI during operation all front and rear openings on the shelf or blade face plates must be filled with an appropriate card or covered with a filler panel If the EMI barrier is open devices may cause or be susceptible to excessive interference ATCA C110 1G Installation and Use Manual 17 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Understand Hot Swap N Caution Caution Board Component Damage Inserting or removing non hot swap cards or transition modules with power applied may result in damage to module components Make sure that your blade manufacturer identifies your module as hot swap ready The PICMG 3 0 Specification defines varying levels of hot swap A blade that is compliant with the specification can be inserted and removed safely with system power on without damage to onboard circuitry f a module is not hot swap compliant you should remove power to the slot or system before inserting or remo
96. ng systems service tftp socket_type dgram protocol udp wait yes user root server usr sbin in tftpd server_args s tftpboot disable yes per_source 11 cps 100 2 Also make sure that the tftpboot directory exists and is world readable permissions at least dr xr xr x Configuring the BOOTP DHCP Server 30 The BOOTP or DHCP Server can be used to automatically pass configuration information to the target The target must know its own Ethernet hardware MAC address The following command checks the availability of DHCP on your host system rpm q dhcp If necessary install the DHCP package from your distribution media You then have to create the DHCP configuration file etc dhcpd conf that matches your network setup for example subnet 10 0 0 0 netmask 255 0 0 0 4 option routers 1050 04 27 option subnet mask 25540 0 05 option domain name local net option domain name servers ns local net host trgt hardware ethernet 00 30 BF 01 02 D0 fixed address 10 0 0 99 option root path lopt eldk ppc 82xx option host name atca next server 10 050 25 filename tftpboot ATCACi10 uImage ATCA C110 1G Installation and Use Manual Chapter 3 U Boot Firmware Overview Using this configuration the DHCP server will reply to a request from the target with the Ethernet address 00 30 BF 01 02 D0 provided the following conditions are satisfied The target is located in the
97. ng the built in USART1 controller of the Master Controller of the IPMI Block The ATCA C110 1G boards are equipped with 8 MHz clocks and provide reliable support for baud rates of up to 9600 on the payload interface The payload interface implements data lines RXD1 TXD1 only 8 bit Analog to Digital Converters ADC The ADCs of the IPMI monitor the voltages on the ATCA C110 1G In addition to the voltages the current drawn by the payload from the Power module on the 12V rail and the temperature of the Power module are also monitored The current drawn by the AMC on the 12V and the Management Power rail are measured by the IPMC using the ADCs of the micro controller AMC Power Limiting Control The IPMI management on the ATCA C110 1G controls the power to the AMC module The power control block of the IPMI continuously monitors the payload power delivered to the AMC module Telecom Clock Interface Control The IPMI controls the telecom clock selection on ATCA C110 1G to provide the E keying support The selected clock from the backplane is processed for jitter and then is fed to the AMC bays and the RTM The clock selection logic also provides the option for AMC Bay 3 or AMC Bay 4 to drive a reference clock signal to the backplane ATCA C110 1G Installation and Use Manual 43 Chapter 4 Functional Description Digital lO The interface of the ATCA C110 1G helps in the configuration and operations of the board through its GPIO p
98. ns MPC8560 ADS8540 D Processor ADS Board Specification Rev 0 5 1 June 2004 www freescale com PEX 8114 PCI Express to PCI PCI X Bridge Data Book Contact vendor for latest PEX 8532 and PEX 8516 Versatile PCI Express Switches Data Book document PEX 8111 PCI Express to PCI Bridge Data Book www plxtech com XILINX XC95144XL High Performance CPLD Preliminary Product DS056 v1 7 Specification www xilinx com Intel LXT972A Dual Speed Fast Ethernet Transceiver Datasheet 249186 003 www intel com 54615 10 100 1000 Base T Gigabit Ethernet Transceiver Datasheet 5416S DS05 R BCM5650X 24 Port GbE Multilayer Switch with Four 10 GbE HiGig 5650X DS01 R Uplink Ports Advance Datasheet www broadcom com ATmega64L Microcontroller Datasheet 2490G AVR 03 04 www atmel com PM8380 QuadSMX 3G Quad SATA SAS Mux Demux for 3G Data Sheet PMC 2031101 http www pmc sierra com 100 ATCA C110 1G Installation and Use Manual Appendix D Related Documentation Related Specifications For additional information refer to the following table for related specifications As an additional help a source for the listed document is provided Please note that while these sources have been verified the information is subject to change without notice Table D 3 Related Specifications Document Title IEEE http standards ieee org catalog Publication Number IEEE Gigabit Ethernet 802 3 Specificatio
99. nted on the main board using the corresponding mounting holes Handles to extract the board are mounted to the main board using the mounting holes near the PCB edge The following figure shows the LEDs available on the ATCA C110 1G face plate Figure 5 1 Face plate LEDs USR2 USR1 OOS e 8 RCM CM moe o0 ECTS 7 Eo The LEDs are described on table Face Plate LEDs on page 52 ATCA C110 1G Installation and Use Manual 51 Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 1 Face Plate LEDs LED Label Description USR1 User LED 1 USR2 User LED 2 005 Out Of Service Red Blade out of service OFF Blade working properly HS FRU State Machine During blade installation Non blinking blue Powering up of on board IPMC Blinking blue Blade communication with shelf manager OFF Blade is active During blade removal Blinking blue Blade notification to shelf manager for deactivation Non blinking blue Blade is ready to be extracted Baseboard Connectors The following sections describe the onboard connectors on ATCA C110 1G base board Figur
100. oes not provide direct support for x4 DDR memories Programmable Interrupt Controller The interrupt controller provides interrupt management and is responsible for the following Receiving hardware generated interrupts from internal and external sources Prioritizing interrupts 38 ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description W Delivering interrupts to the CPU for servicing All the interrupts generated on the ATCA C110 are wired to the interrupt controller of the MPC8540 Processor Refer to the Interrupt Mapping on page 72 for the Interrupt Architecture 2 Interface The 12 Interface on the ATCA C110 1G is a bi directional serial bus that provides a simple efficient out band signaling method of data exchange between this device and other devices It supports multiple master operation and a software programmable clock frequency The 12C Controller operates in four different modes B Master mode B Slave mode Interrupt driven byte to byte transfer Boot sequencer mode DUART Controller The DUART of the MPC8540 consists of two Universal Asynchronous Receiver Transmitters UARTs Refer to Serial interface on page 49 for details about the serial devices attached to the DUART controller Local Bus Controller LBC The LBC of the MPC8540 supports the GPCM General Purpose Chipselect Machine interface The GPCM provides interfacing for simpler lower performance memories and memory map
101. on ATCA_CLK3A_EN Enables the Clock to be sourced to the Backplane on the CLK3A lines 0 Disable 1 Enable ATCA_CLK3B_EN Enables the Clock to be sourced to the Backplane on the CLK3B lines 0 Disable 1 Enable AMC1_CLK3_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC2_CLK3_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC3_CLK3_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable AMC4_CLK3_EN Enables the Clock to be sourced to AMC Bay1 0 Disable 1 Enable 6 7 Unused The ATmega64 AMC micro controller Private 2 interface is used for the control of the AMC Bays and the RTM The Address Map for the 2 devices on the Private I C interface for the ATmega64 AMC micro controller is shown below ATCA C110 1G Installation and Use Manual Chapter 6 Memory Map and Registers Table 6 7 Private 2 Address Map ATmega64 AMC micro controller Device Device description Address 2 to GPIO Device AMC1 Control signals interface 0x30 2 to GPIO Device AMC2 Control signals interface 0x32 2 to GPIO Device AMCS3 Control signals interface 0x34 2 to GPIO Device AMCA Control signals interface 0x36 2 to GPIO Device RTM Control signals interface 0x38 ATCA C110 1G Installation and Use Manual 79 Chapter 6 Memory Map and Registers to GPIO s Device Mappings ATMega64 AMC
102. on defines these signals as input signals they are terminated on the blade and marked as TERM in the following pinouts The pinouts for J20 J21 J22 and J23 are given below Table 5 10 Zone 2 Backplane Connector J20 Pinout Rows A to D Pin B D 1 CLK1A CLK1A ATCA_CLK1B ATCA_CLK1B 2 XAUI_UP_TX3 XAUI_UP_TX3 XAUI_UP_RX3 XAUI_UP_RX3 3 XAUI_UP_TX1 XAUI_UP_TX1 XAUI_UP_RX1 XAUI_UP_RX1 4 FEC_UP_TX0 UP TXO UP 0 FEC UP RXO 5 Reserved Reserved Terminated Terminated 6 Reserved Reserved Terminated Terminated 7 Reserved Reserved Terminated Terminated 8 Reserved Reserved Terminated Terminated 9 Reserved Reserved Terminated Terminated 10 Reserved Reserved Terminated Terminated Table 5 11 Zone 2 Backplane Connector J20 Pinout Rows E to H Pin E F G H 1 ATCA_CLK2A ATCA_CLK2A ATCA_CLK2B ATCA_CLK2B 2 ATCA_CLK3A ATCA_CLK3A ATCA_CLK3B ATCA_CLK3B 3 XAUI_UP_TX2 XAUI_UP_TX2 XAUI_UP_RX2 XAUI_UP_RX2 4 XAUI_UP_TX4 XAUI_UP_TX4 XAUI_UP_RX4 XAUI_UP_RX4 5 Reserved Reserved Terminated Terminated 6 Reserved Reserved Terminated Terminated 7 Reserved Reserved Terminated Terminated 8 Reserved Reserved Terminated Terminated 9 Reserved Reserved Terminated Terminated 10 Reserved Reserved Terminated Terminated ATCA C110 1G Installation and Use Manual Chapter 5 Controls Indic
103. one Backplane Connector J31 Pinout Rows E to H Zone Backplane Connector J32 Pinout Rows E to H Memory Address Map ope pere T IE CS Mapping of Main Memory on ATCA C4 1 ONG MPC8540 Interrupt Mapping DA du NOU eee he Private 2 Address Map MPC8540 Private I2C Address ATmega64 AMC micro controller ATCA C110 1G Installation and Use Manual Zone Backplane Connector J31 Pinout Rows Ato D 6 Zone Backplane Connector J32 Pinout RowsAtoD TEP 22 XVili Startup Overview eer ere ter Zone 2 Backplane Connector J23 Pinout Rows Ato D 66 Zone 2 Backplane Connector J23 Pinout Rows E to H Table 5 18 Table 5 19 Table 5 20 Table 5 21 Table 5 22 Table 5 23 List of Tables Table 6 8 I2C to GPIO s Device Mappings ATMega64 AMC Private I2C Bus 80 Table 6 9 Geographical addressing of AMC Bays on ATCA C110 1G 82 Table 6 10 Ethernet Phy Address 82 Table B 1 ATCA C110 1G Environmental Specifications 90 Table B 2 Power see se
104. ont panel width 30 48 mm 1 2 a The following are the standard conditions for MTBF calculation Non mobile operation Ground benign Gb 40 C mean ambient temperature No fans used Continuous operation at 8 760 hours per year 90 ATCA C110 1G Installation and Use Manual Appendix B Specifications Power Requirements The blade s power requirements depend on the installed hardware accessories If you want to install accessories on the board the load of the respective accessory has to be added to that of the blade In the following table you will find typical examples of power requirements with and without accessories installed For information on the accessories power requirements refer to the documentation delivered together with the respective accessory or consult your local Motorola representative for further details The blade must be connected to a TNV 2 or a safety extra low voltage SELV circuit Note 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 over voltages from telecommunication networks The power to the FIM is supplied via the pins of the FIM Connector Three main voltages are fed through the FIM Connector to the FIM board 12V 5V 3 3V and 3 3V Management Power Other voltages required are derived on the FIM board Table B 2 Power Requirements Characteri
105. onverted to the SerDes interface by the GbE transceiver The Fabric Interface is above the Physical layer of the Ethernet and is a SerDes interface The following interfaces and signals are routed to the FIM E Gigabit Ethernet interface connections on the ATCA C110 1G board SerDes signals from each of the AMC Bays 10 100 Ethernet The MPC8540 integrates a Fast Ethernet Controller This interface is used on the ATCA C110 1G as a general purpose Fast Ethernet interface The Fast Ethernet Transceiver from Intel is used as the transceiver The output of the transceiver is routed to the RJ45 connector on the rear panel of the ARTM C110 through the Zone 3 interface The Management Interfaces of the Three Speed Ethernet Controllers TSEC and the Fast Ethernet Controller are connected to the Ethernet Controller of the MPC8540 sharing a common Management Controller The Phy addresses of the respective devices are listed in Table 6 10 on page 82 Serial interface The MPC8540 integrates two RS 232 serial port interfaces Serial Port 1 of the Processor is used for the communication between the Processor and the IPMC E Serial Port 0 is used as a general purpose debug serial port and is routed to the RTM of ATCA C110 1G using the DB9 connector Serial Port 2 is equipped with RS 232 line drivers and are used in a 3 wire null modem configuration without any modem control status signals ATCA C110 1G Installation and Use Manual 49 Ch
106. our local Motorola sales office or by visiting ECC s World Wide Web literature site http www motorola com computer literature This site provides the most up to date copies of ECC product documentation Table D 1 Embedded Communications Computing Documents Document Title Motorola Publication Number ARTM C110 Installation and Use Manual 226768 420 000 PrAMC 7201 Installation and Use Manual 224622 420 000 ATCA C110 1G MontaVista Linux CGE Preliminary Installation 226959 410 000 and Use Manual ATCA C110 1G U Boot Installation and Use Manual 226957 410 000 ATCA C110 1G Preliminary IPMI Reference Manual 226990 410 000 Note Each release of hardware software has a Release Note Refer to the Release Notes relevant to the release you are using If you do not have this information contact Motorola ATCA C110 1G Installation and Use Manual 99 Appendix D Related Documentation Manufacturers Documents For additional information refer to the following table for manufacturers data sheets or user s manuals As an additional help a source for the listed document is provided Please note that while these sources have been verified the information is subject to change without notice Table D 2 Manufacturers Documents Document Title and Source Publication Number MPC8540 PowerQUICC 1117 Integrated Host Processor Reference MPC8540RM Manual MPC8560 MPC8540 Power QUICC Integrated Communicatio
107. ow See Figure 5 2 on page 52 for location of FIM connectors Table 5 3 FIM Connector J1 Pinout 54 ATCA C110 1G Installation and Use Manual Signal Pin Pin Pin Pin Signal Name Name PEX8532 PCI EXP CLK 51 1 37 519 SATAO PEX8532 PCI EXP CLK S1 2 38 519 AMC3_SATAO_TX AMC4_GBE0_TX 52 3 39 520 AMC3_SATA1_TX 4 GBEO 52 4 40 520 AMC3_SATA1_TX AMC4_GBE1_TX 53 5 41 521 AMC4_PCIEXP_LANEO_TX AMCA GBE1 TX S3 6 42 21 AMCA PCIEXP LANEO TX Chapter 5 Controls Indicators and Connector Pin Assignments Table 5 3 FIM Connector J1 Pinout continued Signal Pin Pin Pin Pin Signal Name Name AMCA SATAO S4 7 43 522 AMC4_PCIEXP_LANE1_TX AMCA SATAO TX S4 8 44 522 AMC4_PCIEXP_LANE1_TX AMC4_SATA1_TX 55 9 45 523 AMC4_PCIEXP_LANE2_TX AMC4_SATA1_TX S5 10 46 23 AMC4_PCIEXP_LANE2_TX AMC3_PCIEXP_LANEO_TX S6 11 47 524 AMC4_PCIEXP_LANE3_TX LANEO TX 56 12 48 524 4 PCIEXP LANE3 TX AMCS3 PCIEXP LANE1 TX S7 13 49 525 AMC3_GBE0_RX AMC3_PCIEXP_LANE1_TX 57 14 50 525 AMC3_GBE0_RX AMC3_PCIEXP_LANE2_TX 58 15 51 S26 AMC3_GBE1_RX AMC3_PCIEXP_LANE2_TX S8 16 52 S26 GBE1 RX PCIEXP LANE3 TX 59 17 53 527 SATAO AMC3_PCIEXP_LAN
108. ped devices A 2 MB Boot Flash a Recovery Flash and 64 128 MB User Flash are mounted on the GPCM interface Three Speed Ethernet Controllers TSEC The MPC8540 integrates two three speed Ethernet Controllers TSEC1 and TSEC2 supporting 10 100 1000 Mbps MII GMII interface operation The TSECs on the ATCA C110 1G implement a Gigabit Ethernet protocol which builds on top of the Ethernet protocol but increases speed tenfold over 10 100 Ethernet to 1000 Mbps or one Gbps Fast Ethernet Controller The MPC8540 Processor provides a Fast Ethernet Controller FEC apart from the TSECs used for the Gigabit Ethernet The FEC is designed to support 10 100 Mbps supporting both half and full duplex operations DMA Controller The DMA Controller of the MPC8540 allows DMA transfers between PCI the local bus controller LBC interface and the local address space independent of the e500 core or external hosts ATCA C110 1G Installation and Use Manual 39 Chapter 4 Functional Description PCI PCI X Interface The MPC8540 provides PCI PCI X interface that complies with the PC Local Bus Specification Rev 2 2 and the PCI X Addendum to the PCI Local Bus Specification Rev 1 0a The PCI interface is 64 bit wide and runs at 66 MHz and is the interface between the MPC8540 and the PEX8114 PCI PCI X to PCI Express Bridge Main Memory The main memory on ATCA C110 1G has two physical banks Onboard Memory and SODIMM The onboard memory has a capacity
109. pproved safety mask and gloves Do Not Substitute Parts or Modify Equipment Do not install substitute parts or perform any unauthorized modification of the equipment Contact your local Motorola representative for service and repair to ensure that all safety features are maintained Observe Warnings in Manual Warnings such as the example below precede potentially dangerous procedures throughout this manual Instructions contained in the warnings must be followed You should also employ all other safety precautions which you deem necessary for the operation of the equipment in your operating environment extreme caution when handling testing and adjusting this To prevent serious injury or death from dangerous voltages use equipment and its components Warning Flammability All Motorola PWBs printed wiring boards are manufactured with a flammability rating of 94V 0 by UL recognized manufacturers Caution EMI Caution This equipment generates uses and can radiate electromagnetic energy It may cause or be susceptible to electromagnetic interference EMI if not installed and used with adequate EMI protection Lithium Battery Caution This product contains a lithium battery to power the clock and calendar circuitry Caution Attention Vorsicht A Warning Danger of explosion if battery is replaced incorrectly Replace battery only with the same or equivalent type recommended by the
110. press Bridge supports as it transfers data between PCI and PCI Express forward and reverse bridging via pin strapping option as well as transparent and non transparent bridging Note The ATCA C110 1G uses the PCI to PCI Express Bridge in the transparent mode as a reverse bridge PCI Express Interface 48 PCI Express is a serial point to point high speed interface with a LVDS interconnects It supports full duplex configuration with independent TX and RX lines The PCI Express interface of the Processor functions both as a master initiator and a target device ATCA C110 1G uses x4 links with an effective bandwidth of 8 Gbps or 1 GBps in each direction the effective data bandwidth of the PCI Express links on ATCA C110 1G is 2 GBps ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description Serial ATA interface The Serial ATA SATA interface is a high speed serialized storage interface The 2x SATA interface from the AMC Connectors are routed through the AMC interconnect to the ATCA C110 1G s SATA Multiplexer on the Fabric Interface Module Gigabit Ethernet SerDes Interface The ATCA C110 1G incorporates an onboard Gigabit Ethernet Switch on the Fabric Interface Module The Gigabit Ethernet Switch provides node connections to the Base Interface Fabric Interface Ethernet connections to the AMC bays Processor and the ARTM C110 The Base Interface 10 100 1000 BASE T Ethernet from the ATCA backplane is c
111. rading a system Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a grounded static free surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if it is unplugged Watch for Bent Pins or Other Damage N Caution Bent pins or loose components can cause damage to the blade the backplane or other system components Carefully inspect your blade and the backplane for both pin and component integrity before installation Motorola and our suppliers take significant steps to ensure there are no bent pins on the backplane or connector damage to the boards prior to leaving our factory Bent pins caused by improper installation or by boards with damaged connectors could void the Motorola warranty for the backplane or blades If a system contains one or more crushed pins power off the system and contact your local sales representative to schedule delivery of a replacement chassis assembly Use Caution When Installing or Removing Blades When first installing blades i
112. ration faulty Switch setting Configure the board correctly for the respective device Devices are disabled Configure board correctly ATCA C110 1G Installation and Use Manual 87 Specifications Specifications This appendix provides general mechanical environmental and electrical specifications for the ATCA C110 1G Environmental and Physical Specifications The ATCA C110 1G features the industry standard ATCA form factor The conditions listed below refer to the surroundings of the board within the user environment In order to meet the environmental requirements the ATCA C110 1G has to be tested in the System where it is to be installed Before powering up the board calculate the power needed according to the combination of board upgrades and accessories Note Operating temperatures refer to the temperature of the air circulating around the board and not to the component temperature The Fabric Interface Module is designed to work in conjunction with the ATCA C 110 1G carrier board and will comply with the specifications of the carrier board Board Damage AN Do not operate the product outside the specified environmental limits High humidity temperature and condensation may cause short circuits Caution Therefore ensure that the product is completely dry and there is no moisture on any surface before applying power Board Damage Do not operate the product outside the specified environmental
113. re Make sure specifications and requirements are met Refer to Unpacking Guidelines on page 5 Appendix B Specifications Setting up hardware Hardware Configuration on page 6 Install the onboard accessories if applicable Ensure Fabric Interface Module is installed Hardware Upgrades and Accessories on page 7 Installing the FIM on ATCA C110 1G Board on page 7 Installing the ATCA C110 1G on a chassis or shelf Installing the ATCA C110 1G in a Powered Chassis on page 19 Install RTM if required The ARTM C110 Rear Transition Module Installation and Use Manual Install the B single width full height Advanced Mezzanine Cards on the ATCA C110 1G Installing an AMC Module in a Powered System on page 12 Install ATCA C110 1G on chassis Installing the ATCA C110 1G in a Powered Chassis on page 19 Connect any other equipment you will be using Connecting to Peripherals on page 22 and Chapter 5 Controls Indicators and Connector Pin Assignments Initialize the System Chapter 2 Operating Instructions Familiarize yourself with U Boot Firmware Chapter 3 U Boot Firmware Overview Program your ATCA C110 1G as needed by your application Chapter 6 Memory Map and Registers Unpacking Guidelines Unpack the equipment from the shipping carton Refer to the packing list and verify that all items are present Save the packing material for storing and reshippin
114. re you boot the operating system The CPU and hardware initialization process is performed by the U Boot firmware at power up or system reset The firmware initializes the devices on the ATCA C110 1G in preparation for booting the operating system The following list shows the basic initialization process that takes place during the ATCA C110 1G system start ups STARTUP v PROCESSOR INITIALIZATION v CONSOLE INITIALIZATION v SDRAM DETECTION Al SDRAM CONTROLLER INITIALIZATION v FIRMWARE RELOCATION v PCI ENUMERATION v FLASH ETHERNET INITIALIZATION v AUTOBOOT IF ENABLED OPERATING SYSTEM RUNNING Verify the following during system Initialization ATCA C110 1G Installation and Use Manual 25 Chapter 2 Operating Instructions Before the system is powered up ensure that chassis power supply voltage settings matches the voltage present in country of use if the power supply in your system is not auto sensing E The initial U Boot boot up prompt ATCA C110 gt is displayed on the console Hot Swap Support The ATCA C110 1G provides hardware to support the physical connection process and the hardware connection process of the full hot swap system model defined in the P CMG 3 0 Specification The ATCA C110 1G may be inserted and extracted from the system chassis while power is
115. rs do not exert unnecessary pressure on AN the face plate Caution Figure 1 13 ATCA C110 1G Installation Stage 1 Stage 2 Stage 3 Step 1 Open the injector levers of your board Stage 1 in Figure 1 13 Step 2 Verify the proper slot for the carrier board you are inserting see Verify Slot Usage on page 19 Align the edges of the carrier board with the card cage rail guides in the appropriate slot Step 3 Using your thumbs apply equal and steady pressure as necessary to carefully slide the carrier board into the card cage rail guides Stage 2 in Figure 1 13 Continue to gently push until the blade connectors engage with the backplane connector DO NOT FORCE THE BOARD INTO THE BACKPLANE SLOT 20 ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Note If a Rear Transition Module RTM is already installed in the same slot be careful not to bend any pins of the RTM connectors Step 4 Wait until the blue LED is illuminated The blue LED indicates that the blade announces its presence to the Shelf Management Controller Step 5 If the levers do not completely latch remove the carrier board from the shelf and visually inspect the slot to ensure there are no bent pins Step 6 When the carrier board you are installing is completely seated release the handles to activate the switch Stage 3 in Figure 1 13 Wait for the blue LED to switch off This indica
116. rved Reserved Reserved 6 Reserved Reserved Reserved Reserved 7 Reserved Reserved Reserved Reserved 8 GBE_PORT2_TX GBE_PORT2_TX GBE_PORT2_RX GBE_PORT2_RX 9 GBE_PORTO_TX PORTO GBE_PORTO_RX PORTO RX 10 Reserved Reserved Reserved Reserved Table 5 23 Zone 3 Backplane Connector J32 Pinout Rows E to H Pin E F G H 1 Reserved Reserved Reserved Reserved 2 Reserved Reserved Reserved Reserved 3 Reserved Reserved Reserved Reserved 4 Reserved Reserved Reserved Reserved 5 Reserved Reserved Reserved Reserved 6 Reserved Reserved Reserved Reserved 7 Reserved Reserved Reserved Reserved 8 GBE_PORT3_TX GBE_PORT3_TX GBE_PORT3_RX GBE_PORT3_RX 9 GBE_PORT1_TX GBE_PORT1_TX GBE_PORT1_RX GBE_PORT1_RX 10 Reserved Reserved Reserved Reserved ATCA C110 1G Installation and Use Manual 69 Memory Map and Registers This chapter describes the following mapping information for the ATCA C110 1G board Memory Maps on page 71 Interrupt Mapping on page 72 Shelf Management Registers IPMI interface on page 73 12C Address Map for MPC8540 on page 74 12C Resources on page 74 GPIO on page 82 Ethernet Phy Address Map on page 82 Memory Maps The following table shows the ATCA C110 1G s main address map Table 6 1 Memory Address Map Device Data Memory Base Address bus Chip Select Configuration 2 width 2 MB Primary Boot Flash FFE00000 16 Mbit
117. s two interfaces to the backplane IPMB A and IPMB B and one interface to the AMC modules and the RTM IPMB L The IPMB interfaces are split between the micro controllers in the following manner The Master has the IPMB A connection The ATmega has the IPMB B connection and The ATmega64 AMC has the IPMB L connection that goes to the RTM and the AMC bays 42 ATCA C110 1G Installation and Use Manual Chapter 4 Functional Description Private IC Bus There are two private 2 busses implemented on the IPMI Module of ATCA C110 1G The busses are Master only 2 busses implemented on the Slave micro controllers The private 2 Bus from the ATMega8 micro controller has the following devices E Board Information Block BIB EEPROM Note The 64 kb Serial EEPROM contains the BIB board Information block data structure consisting of information such as the serial number of the board MAC addresses of network interfaces variant information and some additional information The EEPROM has an 2 interface and is connected to the private 2 interface of the IPMC Two temperature sensors which monitors the inlet and outlet air temperature of the board and the onboard temperature sensor The Telecom clock buffer enable and the Telecom clock selection signals Payload Interface The ATCA C110 1G provides a UART interface intended for use as an interface to the host payload The payload interface is implemented usi
118. should be familiar with the documents listed in Appendix D Related Documentation in particular documents related to the AMC x and PICMG 3 x Summary of Changes This is the first release of ATCA C110 1G Installation and Use Guide Ordering Information When ordering the board variants upgrades and accessories use the order numbers given below Product Nomenclature The following table lists the key for the product name extensions ATCA C110 1G xx yyy 1G Ethernet Fabric speed XX RAM size in GBytes yyy CPU frequency in MHz ATCA C110 1G Installation and Use Manual xvii About This Manual Order Numbers The table below is an excerpt from the blade s ordering information Ask your local Motorola representative for the current ordering information Table 1 Ordering Information Order Number Variant Name 121871 ATCA C110 1G 1GB 833 Description AMC carrier board along with 1G FIM The table below is an excerpt from the blade s accessories ordering information Ask your local Motorola representative for the current ordering information Table 2 Accessories Ordering Information Order Number Accessory 122375 ACC ARTM C110 1G Description Rear transition module for ATCA C110 1G Overview of Contents xviii This manual is divided into the following chapters and appendices Chapter 1 ATCA C110 1G Baseboard Preparation and Installation
119. stic Value Rated Voltage TBD Operating Voltage TBD Max current TBD Max total power consumption of all four AMC sites TBD Max total power consumption of all installed blade accessories AMCs TBD The blade provides two independent power inputs according to the AdvancedTCA Specification Each input has to be equipped with an additional fuse of max 90A located either in the shelf where the blade is installed or the power entry module PEM ATCA C110 1G Installation and Use Manual 91 Appendix B Specifications Standard Compliance The ATCA C110 1G is CE approved and meets the following standard requirements Note The ATCA C110 1G is yet to be qualified in the following standards Table B 3 Standard Compliance Standard SN29500 8 MIL HDBK 217F GR 332 TR NWT 000357 Description Reliability requirements IEC 60068 2 1 2 3 13 14 Climatic environmental requirements IEC 60068 2 27 32 35 Mechanical environmental requirements UL 60950 1 EN 60950 1 IEC 60950 1 CAN CSA C22 2 No 60950 1 Legal safety requirements UL 94V 0 1 Oxygen index for PCBs below 2896 Flammability EN 55022 EN 55024 EN 300386 FCC Part 15a EMC requirements on system level predefined Motorola system ANSI IPC A610 Rev C Class 2 ANSI IPC 7711 ANSI IPC 7721 ANSI J 001 003 Manufacturing Requirements ISO 8601 Y2K compliance NEBS Standard GR 63 CORE NEBS Standard GR 1089 CORE NE
120. subnet 10 0 0 0 which uses the netmask 255 0 0 0 The target has the hostname atca and the IP address 10 0 0 99 The host with the IP address 10 0 0 2 provides the boot image for the target and provides NFS server function when the target mounts its root filesystem over NFS The host provides the file tftpboot ATCAC110 ulmage as boot image for the target The target can mount the directory opt eldk ppc 82xx on the NFS server as the root filesystem Note The host listed with the next server option can be different from the host that is running the DHCP server Configuring an NFS Server File sharing over the network between the host and the target is a convenient feature in a development environment The easiest manner to setup sharing is when the host provides NFS server functionality and exports a directory that can be mounted from the target as the root filesystem Assuming NFS server functionality is already provided by your host the only configuration required to be added is an entry for your target root directory to your etc exports file for example lopt eldk ppc 82xx 10 0 0 0 255 0 0 0 rw no root squash sync The above command exports the opt eldk ppc 82xx directory with read and write permissions to all hosts on the 10 0 0 0 subnet After modifying the etc exports file ensure that the NFS system is notified about the change for example by using the following command Isbin service nfs restar
121. t Initialization of the ATCA C110 1G Board To initialize the U Boot firmware running on the ATCA C110 1G board connect the Host COM port to the board s serial console port COM5 port on the ARTM C110 The default configuration of the console port on the ATCA C110 1G board uses a baudrate of 115200 8N1 115200 bps 8 Bit per character no parity 1 stop bit no handshake Note Make sure that both hardware and software flow controls are disabled ATCA C110 1G Installation and Use Manual 31 Chapter 3 U Boot Firmware Overview Initial Steps 32 In the default configuration U Boot operates in an interactive mode providing a simple command line oriented user interface using the serial console on port In this CLI mode U Boot shows a prompt ATCA C110 gt when it is ready to receive the user input You can type a command from the command line prompt and press enter U Boot tries to run the required action s and then prompt for another command To see a list of the available U Boot commands type help or type This command prints a list of all commands that are available in the current configuration For example help askenv autoscr base bdinfo bootm bootp bootd cmp coninfo cp 2 dat get environment variables from stdin run script from memory print or set address offset print Board Info structure boot application image from memory boot image via network using BootP TFTP protocol boot d
122. tact electrical outlet with the grounding wire green yellow reliably connected to an electrical ground safety ground at the power outlet The power jack and mating plug of the power cable meet International Electrotechnical Commission IEC safety standards and local electrical regulatory codes Do Not Operate in an Explosive Atmosphere Do not operate the equipment in any explosive atmosphere such as in the presence of flammable gases or fumes Operation of any electrical equipment in such an environment could result in an explosion and cause injury or damage Keep Away From Live Circuits Inside the Equipment Operating personnel must not remove equipment covers Only Factory Authorized Service Personnel or other qualified service personnel may remove equipment covers for internal subassembly or component replacement or any internal adjustment Service personnel should not replace components with power cable connected Under certain conditions dangerous voltages may exist even with the power cable removed To avoid injuries such personnel should always disconnect power and discharge circuits before touching components Use Caution When Exposing or Handling a CRT Breakage of a Cathode Ray Tube CRT causes a high velocity scattering of glass fragments implosion To prevent CRT implosion do not handle the CRT and avoid rough handling or jarring of the equipment Handling of a CRT should be done only by qualified service personnel using a
123. ter 5 Controls Indicators and Connector Pin Assignments for the pin assignments of the connectors ATCA C110 1G Installation and Use Manual Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Table 1 4 ATCA C110 1G Onboard Connectors Connector Function J1 Zone 1 Connectors J20 J21 J22 and J23 Zone 2 Connectors J30 J31 and J32 Zone 3 Connectors J1 J2 J3 FIM Connectors J38 J39 J40 J41 AMC Connectors You may access the standard serial console port via the ARTM C1 10 This serial port serves as the U Boot and operating system OS console port Refer to Chapter 3 U Boot Firmware Overview for information on configuring the U Boot The console should be set up as follows Table 1 5 Serial Port Configuration Parameters for MPC8540 Parameter Setting Baud rate 115200 Data bits 8 Parity No parity Stop bits 1 Flow control None ATCA C110 1G Installation and Use Manual 23 Operating Instructions This chapter contains the following information System Initialization Hot Swap Support on page 26 Booting with Firmware on page 26 System Initialization After you verify that all necessary hardware preparation is complete and all connections are made correctly the system will be initialized The firmware is shipped from the factory with the appropriate set of defaults In most cases there is no need to modify the firmware configuration befo
124. tes the board is active Secure it by tightening the captive screws at both ends of the face plate Note If a is connected to the front blade make sure that the handles of both the RTM and the front blade are closed in order to power up the blade s payload Step 7 Connect cables to face plate if applicable Removing the ATCA C110 1G from a Powered Chassis Before you remove your carrier board please read all cautions warnings and instructions presented in this section and the guidelines explained in Before You Install or Remove an AdvancedTCA Blade on page 16 Refer to the following illustration and perform these steps when removing the carrier board Hot swap compliant boards may be installed while the system is powered on If a board is not hot swap compliant you should remove power to the slot or system before installing the board See Understand Hot Swap on page 18 for more information Note The removal procedure assumes that the board is being removed from a live chassis The procedure for removing the board when the chassis is not powered is the same except that you need not wait for the blue LED indications to proceed Data loss Removing the blade with the blue LED still blinking causes data loss Wait until the Caution blue LED is permanently illuminated before removing the blade ATCA C110 1G Installation and Use Manual 21 Chapter 1 ATCA C110 1G Baseboard Preparation and Installation Figure 1
125. umentation lists other Motorola Computer Group documents industry specifications and additional sources of related information Comments and Suggestions Motorola welcomes and appreciates your comments on its documentation We want to know what you think about our manuals and how we can make them better Mail comments to Motorola Inc Embedded Communications Computing Group Reader Comments DW164 2900 S Diablo Way Tempe Arizona 85282 You can also submit comments to the following e mail address reader comments mcg mot com In all your correspondence please list your name position and company Be sure to include the title and part number of the manual and tell how you used it Then tell us your feelings about its strengths and weaknesses and any recommendations for improvements Conventions Used in This Manual Signal Names Differential signals are denoted by a trailing positive or negative symbol For instance TX TX denotes a differential transmit signal pair A pound sign following the signal name for signals which are level significant denotes that the signal is true or valid when the signal is low For instance RESET A pound sign following the signal name for signals which are edge significant denotes that the actions initiated by that signal occur on high to low transition Bussed signal groups are represented as BUSNAME 0 N 1 where N is the bus width For instance an 8 bit address bus could b
126. unctionality yet Check with your vendor to confirm 1 Check if all backplane voltages are within their specific ranges 2 Check if power supply is capable to drive the respective loads Board defect Replace board Damaged plugs bent or broken pins backplane defect 1 Check for bent or broken pins in the ATCA slot used n Replace backplane The carrier IPMC has not enabled Payload power Check if the Shelf Manager Carrier has detected the newly inserted board 2 Check if the Shelf Manager Carrier IPMC has determined that the onboard devices power requirement is more than what can be supplied If so analyze if the carrier can really support the onboard devices power requirements 3 Check if there is a short circuit on the Payload power 12V rail An onboard power supply regulator has failed Check if the IPMC has reported a local power failure 84 ATCA C110 1G Installation and Use Manual Appendix A Troubleshooting During Boot up Procedure Problem Possible Reason Solution The board seems to have Board is under reset or is being 1 Check if the carrier IPMC has issued a Cold powered up but there are reset periodically Reset IPMI command some reason thereby no boot up prints on the preventing the board from booting up console OR the boot up prints halt midway 2 Check if the IPMC has reported a watchdog expiry event on the module
127. ure 4 2 Primary and Secondary Boot Flash Connections Default Hoe Primary Boot Flash Boot Flash Programmable S222 Signal MPC8540 Logic CPLD Backup Strapping Secondary Option Boot Flash System Management The ATCA C110 carries an Intelligent Platform Management Controller IPMC entity The IPMC is a chassis management entity on individual cards that monitor voltages temperature and chassis characteristics The IPMC communicates with the shelf manager over the IPMB 2 bus The IPMI interface is described in the following section IPMI For details about accessing the IPMC via IPMI commands as well as Sensor Data Records SDRs and Field Replaceable Unit FRU information provided by the blade refer to the ATCA C110 1G Preliminary IPMI Reference Manual as listed in Appendix D Related Documentation IPMI support on ATCA C110 1G is implemented using an IPMC block built around the Atmel AVR micro controller family The IPMC block implementation provides IPMB Interfaces Two IPMB interfaces to the back plane One local IPMB interface for interfacing the MMCs of the AMC modules and the RTM Private I2C Bus for non intelligent 2 devices Payload Interface on page 43 Serial Port 0 routed to the ARTM C110 is used as general purpose debug serial port Serial Port 1 is used for communication between the Processor and IPMI
128. ving the module To facilitate hot swap PICMG 3 0 specifies a blue LED on the face plate and board handles latch mechanism This LED is under the control of System Management Firmware IPMI The IPMI firmware will illuminate the blue hot swap LED on the face plate when it has powered down the board thus indicating that it is safe to remove the board Corruption of Data or File System Powering down or removing a blade before the operating system or other software running on the blade has been properly shut down may cause corruption of data or file systems Therefore ensure that the board has been properly shut down You should ensure that the blue hot swap LED on the faceplate is illuminated before extracting the module Refer to the Management chapter of the P CMG 3 0 Specification for more information about hot swap Control Elements The ATCA C110 1G provides the following elements as man machine interface E njector Ejector Lever and Hot Swap Switch Mechanism on page 18 W Blue hot swap LED see Face plate and LEDs on page 51 Injector Ejector Lever and Hot Swap Switch Mechanism The Hot Swap micro switch is activated by the ATCA C110 1G board ejector handles mechanism during the board insertion and extraction This switch is used to confirm insertion or to indicate a request for extraction to the IPMC The following illustrations show the typical blade ejector handles used with the ATCA C 110 1G payload cards All handles
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