Emerson MVME55006E, Installation And Use Manual

Page 1: ...Embedded Computing for Business Critical ContinuityTM MVME55006E Single Board Computer Installation and Use P N 6806800A37H September 2013 ...

Page 2: ...document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such revision or changes Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to a Emerson website The text itself may not be published commercially in print or electronic form edited translated or other...

Page 3: ...Selection 26 1 7 3 Flash Boot Bank Select Header J8 28 1 7 4 Flash 0 Programming Enable Switch S3 1 29 1 7 5 Safe Start ENV Switch S5 1 29 1 7 6 Flash 0 Block Write Protect Switch S3 2 30 1 7 7 SROM Initialization Enable Switch S5 2 30 1 7 8 PCI Bus 0 0 Speed Switch S4 1 31 1 7 9 VME SCON Select Header J27 31 1 7 10 PCI Bus 1 0 Speed Switch S4 2 32 1 7 11 EEPROM Write Protect Switch S3 3 32 1 7 12...

Page 4: ...upt Controller 49 2 6 4 I2C Serial Interface and Devices 49 2 6 5 Direct Memory Access DMA 50 2 6 6 Timers 50 2 7 Flash Memory 51 2 8 System Memory 51 2 9 PCI Local Buses and Devices 51 2 9 1 Gigabit Ethernet Interface 51 2 9 2 10 100Mb Ethernet Interface 52 2 9 3 PCI to PCI Bridges 52 2 9 4 PMC Sites 52 2 9 5 PCI IDSEL Definition 52 2 9 6 PCI Bus Arbitration 53 2 10 Asynchronous Serial Ports 53 2...

Page 5: ...ware 63 4 1 Overview 63 4 2 Implementation and Memory Requirements 63 4 3 MOTLoad Commands 63 4 3 1 Utilities 64 4 3 2 Tests 64 4 3 3 Command List 65 4 4 Using the Command Line Interface 70 4 4 1 Rules 72 4 4 2 Help 73 4 5 Firmware Settings 73 4 5 1 Default VME Settings 74 4 5 1 1 CR CSR Settings 77 4 5 1 2 Displaying VME Settings 77 4 5 1 3 Editing VME Settings 78 4 5 1 4 Deleting VME Settings 78...

Page 6: ...de 102 5 2 12 Memory Expansion Connector P4 105 5 3 Headers 108 5 3 1 Ethernet 2 PMC SBC Mode and P2 I O Selection Headers J6 J7 J28 J32 J34 J97 J110 108 5 3 1 1 Ethernet 109 5 3 1 2 PMC SBC Mode Selection 110 5 3 1 3 P2 I O Selection 111 5 3 2 Flash Boot Bank Select Header J8 115 5 3 3 VME SCON Select Header J27 115 A Specifications 117 A 1 Power Requirements 117 A 1 1 Supply Current Requirements...

Page 7: ...ter Installation and Use 6806800A37H 7 C Related Documentation 127 C 1 Emerson Network Power Embedded Computing Documents 127 C 2 Manufacturers Documents 127 C 3 Related Specifications 129 Safety Notes 131 Sicherheitshinweise 135 Index 141 ...

Page 8: ...MVME55006E Single Board Computer Installation and Use 6806800A37H Contents 8 Contents Contents ...

Page 9: ...oundary Scan Connector J18 Pin Assignments 93 Table 5 11 PMC 2 Connector J21 Pin Assignments 94 Table 5 12 PMC 2 Connector J22 Pin Assignments 95 Table 5 13 PMC 2 Connector J23 Pin Assignments 97 Table 5 14 PMC 2 Connector J24 Pin Assignments 98 Table 5 15 COM2 Planar Connector J33 Pin Assignments 99 Table 5 16 VME Connector P2 Pin Assignments PMC Mode 100 Table 5 17 VME Connector P2 Pinout with I...

Page 10: ...ingle Board Computer Installation and Use 6806800A37H 10 List of Tables Table C 1 Emerson Network Power Embedded Computing Publications 127 Table C 2 Manufacturers Documents 127 Table C 3 Related Specifications 129 ...

Page 11: ...ttings 32 Figure 1 13 S3 3 Settings 32 Figure 1 14 VIO Keying Pin Settings 33 Figure 1 15 Typical Placement of a PMC Module on a VME Module 37 Figure 1 16 PMCspan Installation on a VME Module 39 Figure 1 17 Installation into a Typical VME Chassis 42 Figure 2 1 Block Diagram 45 Figure 2 2 COM1 Asynchronous Serial Port Connections RJ 45 53 Figure 3 1 RAM500 Block Diagram 58 Figure 5 1 SBC IPMC712 Mo...

Page 12: ...MVME55006E Single Board Computer Installation and Use 6806800A37H 12 List of Figures ...

Page 13: ...nments for various headers and connectors on the MMVE5500 single board computer Appendix A Specifications provides power requirements and environmental specifications Appendix B Thermal Validation provides information to conduct thermal evaluations and identifies thermally significant components along with their maximum allowable operating temperatures Appendix C Related Documentation provides a l...

Page 14: ...er board and cable MVME7616E 001 Multifunction rear I O PMC module 8 bit SCSI one parallel port two async andtwosync asyncserialports TransitionmodulewithtwoDB 9asyncserial port connectors two HD 26 sync async serial port connectors one HD 36 parallel port connector one RJ 45 10 100 Ethernet connector includes 3 row DIN P2 adapter board and cable for 8 bit SCSI MVME7616E 011 Transition module with...

Page 15: ...foron screenoutputandcoderelatedelements or commands in body text Courier Bold Used to characterize user input and to separate it from system output Reference Used for references and for table and figure descriptions File Exit Notation for selecting a submenu text Notation for variables and keys text Notation for software buttons to click on the screen and parameter description Repeated item for e...

Page 16: ...l Indicates a hazardous situation which if not avoided could result in death or serious injury Indicates a hazardous situation which if not avoided may result in minor or moderate injury Indicates a property damage message No danger encountered Pay attention to important information Notation Description ...

Page 17: ... is factory default P2 IPMC I O is 2 3 See Figure 1 3 on page 28 and Figure 1 4 on page 28 6806800A37B March 2008 Updated to Emerson style standards 6806800A37C October 2008 Updated Table 1 2 on page 22 to correctly identify the default setting for Jumpers J28 J32 as PMC mode by putting brackets around 1 2 on both in the Settings column 6806800A37D August 2011 Added Safety Notes on page 131 and Si...

Page 18: ...MVME55006E Single Board Computer Installation and Use 6806800A37H About this Manual 18 About this Manual ...

Page 19: ...1 and P2 connectors and contains two IEEE 1386 1 PCI mezzanine card PMC slots The PMC slots are 64 bit and support both front and rear I O Additionally the MVME5500 is user configurable by setting on board jumpers Two I O modes are possible PMC mode or SBC mode also called 761 or IPMC mode The SBC mode uses the IPMC712 I O PMC and the MVME712M transition module or the IPMC761 I O PMC and the MVME7...

Page 20: ...s entire chapter including all Caution and Warning notes before you begin 1 6 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 reshipping of equipment Table 1 1 Startup Overview What you need to do Refer to Unpack the hardware Unpacking Guidelines on page 20 Configure the har...

Page 21: ...static 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...

Page 22: ...oard Figure1 1illustratestheplacementofthejumpers headers switches connectors andvarious other components on the MVME5500 There are several manually configurable headers and switches on the MVME5500 and their settings are shown in Table 1 2 Each default setting is enclosed in brackets For pin assignments on the MVME5500 refer to Chapter 5 Connector Pin Assignments Table 1 2 MVME5500 Jumper Setting...

Page 23: ... SCON Auto SCON J28 J32 PMC SBC Mode Selection Headers set both jumpers Refer to PMC SBC Mode Selection on page 25 for a notice about configuring for IPMC mode 1 2 on both 2 3 on both 1 2 on J28 2 3 on J32 PMC mode SBC IPMC761 mode SBC IPMC712 mode S4 2 PCI Bus 1 0 Speed Header OFF ON PMC board controls whether the bus runs at 33 MHz or 66 MHz Forces PCI bus 1 0 to remain at 33 MHz S3 3 EEPROM Wri...

Page 24: ...MC I O connected to P2 Table 1 2 MVME5500 Jumper Settings continued Jumpers Switches Function Settings Figure 1 1 MVME5500 Board Layout J34 4436 0207 COM1 ABT RST 10 100 CPU BFL ENET 2 ENET 1 J5 J18 J27 J28 U22 J8 J3 J1 J2 P4 J13 J14 J11 J12 J23 J24 J21 J22 P1 P2 U25 U16 U19 GigE PMC 1 PMC 2 J6 J100 J98 J99 J97 J33 J32 J4 U8 U10 U11 U12 U20 U9 U17 U15 U129 U23 U27 U2 U3 U13 U14 U4 U5 U6 U7 U26 U1 ...

Page 25: ... 2 on all four headers For J34 J97 J98 and J99 no jumpers are installed for front panel Ethernet For rear P2 Ethernet install jumpers across pins 1 2 on all four headers when in SBC IPMC761 mode 1 7 2 2 PMC SBC Mode Selection The MVME5500 is set at the factory for PMC mode The SBC IPMC761 mode should only be selected when using the IPMC761 module in conjunction with the MVME761 transition module T...

Page 26: ...ross pins 2 3 for J32 and install a jumper across pins 1 2 for J28 1 7 2 3 P2 I O Selection Nine 3 pin planar headers J102 J110 are for P2 I O selection Jumpers are installed across pins 1 2 on all nine headers when in PMC mode Install jumpers across pins 2 3 on all nine headers when in SBC IPMC761 or SBC IPMC712 mode to connect the extended SCSI signals to P2 Product Damage When J28 is configured...

Page 27: ...on and Use 6806800A37H 27 Figure 1 2 Front Panel and Rear P2 Ethernet Settings J6 J7 J6 J7 Rear P2 Ethernet Front Panel Ethernet factory configuration J100 J100 J101 J101 1 2 3 2 1 J34 3 2 1 3 2 1 1 2 3 3 2 1 1 2 3 1 2 3 3 2 1 2 1 J97 2 1 J98 J99 2 1 J34 2 1 J97 2 1 J98 2 1 J99 2 1 ...

Page 28: ...oss pins 2 3 selects Flash 1 as the boot bank Figure 1 3 J28 and J32 Settings Figure 1 4 J102 J110 Settings J28 J32 J28 J32 3 2 1 3 2 1 3 2 1 3 2 1 PMC Mode SBC IPMC712 Mode factory configuration J28 J32 3 2 1 3 2 1 SBC IPMC761 Mode J102 3 2 1 P2 PMC 2 I O J110 J102 3 2 1 P2 IPMC I O J110 factory configuration extended SCSI Figure 1 5 J8 Settings J8 1 2 3 1 2 3 Boots from Flash device 0 J8 J8 1 2 ...

Page 29: ... set to ON enables the programming this is the factory setting 1 7 5 Safe Start ENV Switch S5 1 This switch selects programmed or safe start ENV settings When set to OFF it indicates that the programmed ENV settings should be used during boot Set to ON indicates that the safe ENV settings should be used Figure 1 6 S3 1 Settings Disables Flash 0 writes 1 ON S3 1 Enables Flash 0 writes 1 ON Figure 1...

Page 30: ... erased or programmed through software Refer to the Intel J3 Flash data sheet listed in Appendix C Related Documentation for further details 1 7 7 SROM Initialization Enable Switch S5 2 This switch enables disables the GT 64260B SROM initialization When set to 2 it enables the GT 64260B device initialization via I2C SROM Set to ON disables this initialization sequence Figure 1 8 S3 2 Settings Disa...

Page 31: ...forces PCI bus 0 0 to run at 33 MHz 1 7 9 VME SCON Select Header J27 A 3 pin planar header allows the choice for auto enable disable SCON VME configuration A jumper installed across pins 1 2 configures for SCON disabled A jumper installed across pins 2 3 configures for auto SCON No jumper installed configures for SCON always enabled Figure 1 10 S4 1 Settings PMC board controls factory configuratio...

Page 32: ...at 33 MHz 1 7 11 EEPROM Write Protect Switch S3 3 This switch enables disables programming of the on board EEPROMs as a means of protecting the contents from being corrupted Set to 1 it disables EEPROM programming by driving the WP pin to a logic high Set to ON to program any of the EEPROMs at addresses A0 A6 A8 and or AA Figure 1 12 S4 2 Settings PMC board controls factory configuration Force PCI...

Page 33: ... 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 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove the chassis or system cover s as necessary for access to the VME boards 3 Carefully remove the MVME5500 from ...

Page 34: ... and press the two connectors together until they are firmly seated in place 6 Turn the entire assembly over and fasten the four short Phillips screws to the standoffs of the RAM5500 7 Reinstall the MVME5500 assembly in its proper card slot following the procedure in the next section Be sure the host board is well seated in the backplane connectors Do not damage or bend connector pins 8 Replacethe...

Page 35: ...em yourself please refer to Installing the RAM5500 Module on page 33 for installation instructions It is recommended that the memory mezzanine modules be installed prior to installing other board accessories such as PMCs IPMCs or transition modules 1 9 1 Mounting the PMC Module PMC modules mount on top of the MVME5500 Perform the following steps to install a PMCmodule on your MVME5500 Personal Inj...

Page 36: ...togroundthroughout the procedure 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove chassis or system cover s as necessary for access to the VME modules 3 IftheMVME5500hasalreadybeeninstalledinaVMEbuscardslot carefullyremove it as shown in Figure 1 17 and place it with connectors P1 and P2 facing you Remove the filler ...

Page 37: ... PMC module s mating connectors to the MVME5500 s mating connectors and press firmly into place 1 9 2 Primary PMCspan To install a PMCspan26E 002 PCI expansion module on your MVME5500 perform the following steps while referring to the figure on the next page Figure 1 15 Typical Placement of a PMC Module on a VME Module ...

Page 38: ...stbesecuredtoyourwristandtogroundthroughout the procedure 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove chassis or system cover s as necessary for access to the VME modules 3 IftheMVME5500hasalreadybeeninstalledinaVMEbuscardslot carefullyremove it as shown in Figure 1 17 and place it with connectors P1 and P2 faci...

Page 39: ...o the standoffs and align PMCspan connector P4 with MVME5100 connector J25 6 Gently press the PMCspan and MVME5500 together and verify that P4 is fully seated in J4 7 Insert four short screws Phillips type through the holes at the corners of the PMCspan and into the standoffs on the MVME5500 Tighten screws securely Figure 1 16 PMCspan Installation on a VME Module 2081 9708 PMCspan MVME5500 ...

Page 40: ... system chassis may not be grounded if it is unplugged TheESDstrapmustbesecuredtoyourwristandtogroundthroughout the procedure 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove chassis or system cover s as necessary for access to the VME module 3 If the Primary PMC Carrier Module and MVME5500 assembly is already instal...

Page 41: ...through the holes at the corners of PMCspanx6E 010 and into the standoffs on the primary PMCspanx6E 002 Tighten screws securely The screws have two different head diameters Use the screws with the smaller heads on the standoffs next to VMEbus connectors P1 and P2 You are now ready to install the module into the VME chassis Follow the procedure Installing the Board on page 41 1 10 Installing the Bo...

Page 42: ...operly seated and secure it to the chassis using the two screws located adjacent to the injector ejector levers 8 Connect the appropriate cables to the MVME5500 1 10 1 Connection to Peripherals When the MVME5500 is installed in a chassis you are ready to connect peripherals and apply power to the board Figure 1 1 on page 24 shows the locations of the various connectors while Table 1 3 lists them f...

Page 43: ...e the chassis or system cover reconnect the system to the AC or DC power source and turn the equipment power on 1 11 Startup and Operation This section gives you information about The power up procedure Switches and indicators Table 1 3 MVME5500 Connectors Connector Function J1 COM1 front panel connector J2 Dual 1000 100 10BaseT front panel connectors J3 IPMC connector J4 PCI PMC expansion connect...

Page 44: ... 13 Switches and Indicators TheMVME5500boardprovidesasinglepushbuttonswitchthatprovidesbothAbortandReset ABT RST functions When the switch is depressed for less than three seconds an abort interrupt is generated to the processor If the switch is held for more than three seconds a board hard reset is generated The MVME5500 has two front panel indicators BFL software controlled Asserted by firmware ...

Page 45: ...r Installation and Use 6806800A37H 45 Functional Description 2 1 Overview This chapter describes the MVME5500 on a block diagram level 2 2 Block Diagram Table 2 1 shows a block diagram of the overall board architecture Figure 2 1 Block Diagram ...

Page 46: ...ency at 133 MHz Memory Controller Provided by GT 64260B Supports one to four banks of SDRAM for up to 1GB per bank Processor Host Bridge Provided by GT 64260B Supports MPX mode or 60x mode PCI Interfaces Provided by GT 64260B Two independent 64 bit interfaces one compliant to PCI spec rev 2 1 Bus 0 0 and the other compliant to PCI spec rev 2 2 Bus 1 0 Bus clock frequency at 66 MHz Provided by the ...

Page 47: ...00 provides 2 5V as the SRAM I O voltage The L3 bus operates at 200 MHz NVRAM 32KB provided by MK48T37 Real Time Clock Provided by MK48T37 Watchdog Timers One in GT 64260B One in MK48T37 Each watchdog timer can generate interrupt or reset software selectable On board Peripheral Support One 10 100 1000BaseT Ethernet interface one 10 100BaseT Ethernet interface Dual 16C550 compatible UARTs PCI Mezza...

Page 48: ...Counter timers Watchdog timer Each of the device buses are de coupled from each other enabling concurrent operation of the CPU bus PCI buses and access to SDRAM Refer to the GT 64260B System Controller for PowerPC Processors Data Sheet listed in Appendix C Related Documentation for more details 2 6 1 CPU Bus Interface The GT 64260B supports MPX or 60x bus mode operation The MVME5500 board has jump...

Page 49: ...er s Reference Guide 2 6 4 I2C Serial Interface and Devices A two wire serial interface for the MVME5500 board is provided by a master slave capable I2C serial controller integrated into the GT 64260B device The I2C serial controller provides two basic functions The first function is to optionally provide GT 64260B register initialization following a reset The GT 64260B can be configured by settin...

Page 50: ...perate as a counter or a timer The timing reference is based on the GT 64260B Tclk input which is set at 133 MHz Each counter timer is capable of generating an interrupt The GT 64260B also has an internal 32 bit watchdog timer that can be configured to generate an NMI or a board reset After the watchdog timer is enabled it becomes a free running counter that must be serviced periodically to keep i...

Page 51: ...ection EEPROM If a PMC module is plugged into PMC slot 1 the memory mezzanine card cannot be used because the PMC module covers the memory mezzanine connector 2 9 PCI Local Buses and Devices The GT 64260B on the MVME5500 provides two independent 64 bit 33 66 MHz PCI buses The GT 64260B documentation refers to these buses as PCI Bus 0 and PCI Bus 1 ThedevicesonBus1aretheGT 64260BPCIbridge1 one32 64...

Page 52: ... PCI Bridges The MVME5500 uses a PCI 2 1 compliant 66 MHz capable HiNT PCI 6154 PCI to PCI bridge The primary side connects to PCI Bus 0 0 of the GT 64260B and PMC IPMC slot 1 The secondary side connects to PCI Bus 0 1 on which a PMC expansion connector and the VME controller resides 2 9 4 PMC Sites The MVME5500 board supports two PMC sites Both sites support processor PMC boards with twoIDSELsand...

Page 53: ...ous receiver transmitters UARTs interfaced to the GT 64260B device bus to provide the asynchronous serial interfaces EIA232 drivers and receivers reside on board COM1 signals are wired to an RS 232 transceiver that interfaces to the front panel RJ 45 connector COM2 signals are also wired to a transceiver that interfaces to an on board 9 pin header refer to Chapter 5 Connector Pin Assignments for m...

Page 54: ...RAM and gold plated sockets for the SNAPHAT battery A SNAPHAT battery that houses the crystal and the battery The SNAPHAT battery package is mounted on top of the SOIC MT48T37V device after the completion of the surface mount process The battery housing is keyed to prevent reverse insertion 2 12 System Control and Status Registers The MVME5500 CPU board contains System Control and Status Registers...

Page 55: ...es a Universe II controller for the VMEbus interface 2 15 PMC Expansion TheMVME5500providesaPMCexpansionconnectortoaddmorePMCinterfacesthanthetwo on the MVME5500 board The connector is a Mictor AMP 767096 3 connector 2 16 Debug Support The MVME5500 provides a boundary scan header J18 and a COP Riscwatch header for debug capability ...

Page 56: ...Functional Description MVME55006E Single Board Computer Installation and Use 6806800A37H 56 ...

Page 57: ...0 is a memory expansion module that is used on the MVME5500 single board computer It is based on a single memory mezzanine board design with two banks of memory Each bank is 256MB of ECC memory using 256Mb devices in 32MB x 8 device organization The RAM5500 provides a total added capacity of 512MB to the MVME5500 The SDRAM memory is controlled by the GT 64260B which provides single bit error corre...

Page 58: ...ccessed at address A2 Refer to the following section on SROM for more details 3 3 2 SROM The RAM5500 memory expansion module contains a single 3 3V 256 x 8 serial EEPROM device AT24C02 The serial EEPROM provides SPD storage of the module memory subsystem configuration The RAM5500 SPD is software addressable by a unique address Figure 3 1 RAM500 Block Diagram A BA WE_L RAS_L CAS_L DQM SCL SDA A1_SP...

Page 59: ...cleassembliesorAMP GIGA assemblies with ground plates Refer to Memory Expansion Connector P4 on page 105 for the P4 pin assignments Common GND pins mate to a GIGA assembly with a ground plate The GIGA assembly is an enhanced electrical performance receptacle and plug from AMP that includes receptacles loaded with contacts for grounding circuits at 9 or 10 signal circuits These ground contacts mate...

Page 60: ...Q30 DQ31 40 41 GND GND 42 43 DQ32 DQ33 44 45 DQ34 DQ35 46 47 DQ36 DQ37 48 49 DQ38 DQ39 50 51 3 3V 3 3V 52 53 DQ40 DQ41 54 55 DQ42 DQ43 56 57 DQ44 DQ45 58 59 DQ46 DQ47 60 61 GND GND 62 63 DQ48 DQ49 64 65 DQ50 DQ51 66 67 DQ52 DQ53 68 69 3 3V 3 3V 70 71 DQ54 DQ55 72 73 DQ56 DQ57 74 75 DQ58 DQ59 76 77 DQ60 DQ61 78 79 GND GND 80 Table 3 2 RAM5500 Connector P1 Pin Assignments continued Pin Signal Signal...

Page 61: ... A12 A11 96 97 A10 A09 98 99 GND GND 100 101 A08 A07 102 103 A06 A05 104 105 A04 A03 106 107 A02 A01 108 109 3 3V 3 3V 110 111 A00 CS_C_L 112 113 CS_D_L GND 114 115 DQM8 DQM7 116 117 WE_L RAS_L 118 119 GND GND 120 121 CAS_L 3 3V 122 123 3 3V DQM6 124 125 DQM5 SCL 126 127 SDA A1_SPD 128 129 A0_SPD DQM4 130 131 DQM3 DQM2 132 133 GND SDRAMCLK1 134 Table 3 2 RAM5500 Connector P1 Pin Assignments contin...

Page 62: ...nce Detect SPD Data This register is partially described for the RAM5500 within the MVME5500 Single Board Computer Programmer s Reference Guide The register is accessed through the I2C interface of the GT 64260B on the host board MVME5500 The RAM5500 SPD is software addressable by a unique address 135 GND 3 3V 136 137 DQM1 DQM0 138 139 GND GND 140 Table 3 2 RAM5500 Connector P1 Pin Assignments con...

Page 63: ...es MOTLoad is controlled through an easy to use UNIX like command line interface The MOTLoad software package is similar to many end user applications designed for the embedded market such as the real time operating systems currently available Refer to the MOTLoad Firmware Package User s Manual listed in Appendix C Related Documentation for more details 4 2 Implementation and Memory Requirements T...

Page 64: ...ets a given standard Test applications are validation tests Validation is conformance to a specification Most MOTLoad tests are designed to directly validate the functionality of a specific SBC subsystem or component These tests validate the operation of such SBC modules as dynamic memory external cache NVRAM real time clock etc All MOTLoad tests are designed to validate functionality with minimum...

Page 65: ...s and their test contents can be obtained by entering testSuite d at the MOTLoad prompt All testSuites that are included as part of a product specific MOTLoad firmware package are product specific For more information refer to the testSuite command description page in the MOTLoad Firmware Package User s Manual Test results and test status are obtained through the testStatus errorDisplay and taskAc...

Page 66: ... bvh bvw Block Verify Byte Halfword Word cdDir ISO9660 File System Directory Listing cdGet ISO9660 File System File Load clear Clear the Specified Status History Table s cm Turns on Concurrent Mode csb csh csw Calculates a Checksum Specified by Command line Options devShow Display Show Device Node Table diskBoot Disk Boot Direct Access Mass Storage Device downLoad Down Load S Record from Host ds O...

Page 67: ...Points gevDelete Global Environment Variable Delete gevDump Global Environment Variable s Dump NVRAM Header Data gevEdit Global Environment Variable Edit gevInit Global Environment Variable Area Initialize NVRAM Header gevList Global Environment Variable Labels Names Listing gevShow Global Environment Variable Show gn Go Execute User Program to Next Instruction go Go Execute User Program gt Go Exe...

Page 68: ...own Network Interface netStats Display Network Interface Statistics Data noCm Turns off Concurrent Mode pciDataRd Read PCI Device Configuration Header Register pciDataWr Write PCI Device Configuration Header Register pciDump Dump PCI Device Configuration Header Register pciShow Display PCI Device Configuration Header Register pciSpace Display PCI Device Address Space Allocation ping Ping Network H...

Page 69: ...nt testNvramRd NVRAM Read testNvramRdWr NVRAM Read Write Destructive testRam RAM Test Directory testRamAddr RAM Addressing testRamAlt RAM Alternating testRamBitToggle RAM Bit Toggle testRamBounce RAM Bounce testRamCodeCopy RAM Code Copy and Execute testRamEccMonitor Monitor for ECC Errors testRamMarch RAM March testRamPatterns RAM Patterns testRamPerm RAM Permutations testRamQuick RAM Quick testRa...

Page 70: ...tLoop Serial Internal Loopback testStatus Display the Contents of the Test Status Table testSuite Execute Test Suite testSuiteMake Make Create Test Suite testWatchdogTimer Tests the Accuracy of the Watchdog Timer Device tftpGet TFTP Get tftpPut TFTP Put time Display Date and Time transparentMode Transparent Mode Connect to Host tsShow Display Task Status upLoad Up Load Binary Data from Target vers...

Page 71: ...alid MOTLoad command is entered at the MOTLoad command line prompt MOTLoad displays a message that the command was not found Example MVME5500 mytest mytest not found MVME5500 If the user enters a partial MOTLoad command string that can be resolved to a unique valid MOTLoad command and presses the carriage return key the command is executed as if the entire command string had been entered This feat...

Page 72: ...mber when entering a MOTLoad command Multiple commands are permitted on a single command line provided they are separated by a single semicolon Spaces separate the various fields on the command line command arguments options The argument option identifier character is always preceded by a hyphen character Options are identified by a single character Option arguments immediately follow no spaces th...

Page 73: ...mited form of pattern matching Refer to the help command page Example MVME5500 help testRam Usage testRam aPh bPh iPd nPh tPd v Description RAM Test Directory Argument Option Description a Ph Address to Start Default Dynamic Allocation b Ph Block Size Default 16KB i Pd Iterations Default 1 n Ph Number of Bytes Default 1MB t Ph Time Delay Between Blocks in OS Ticks Default 1 v O Verbose Output MVME...

Page 74: ...ncoding no BLT transfers to the VMEbus and to accept addresses in PCI memory space PCI Slave Image 1 Base Address Register 91000000 Sets LSI1_BS to indicate that the lower bound of PCI memory addresses to be transferred to the VMEbus by this image is 0x91000000 PCI Slave Image 1 Bound Address Register B0000000 Sets LSI1_BD to indicate that the upper bound of PCI memory addresses to be transferred ...

Page 75: ... image is 0xB3FF0000 PCI Slave Image 3 Bound Address Register B4000000 Sets LSI3_BD to indicate that the upper bound of PCI memory addresses to be transferred by this image is 0xB4000000 PCI Slave Image 3 Translation Offset 4C000000 Sets LSI3_TO to indicate that the PCI memory address is to be translated by 0x4C000000 before presentation on the VMEbus the result of the translation is 0xB3FF0000 0x...

Page 76: ...mpatibility and the coupled window timer is disabled Special PCI Slave Image Register 00000000 The SLSI register is disabled Master Control Register 00C00000 The MAST_CTL register is set to retry forever before the PCI master signals error transfer 128 bytes on posted writes before release use VMEbus request level 3 request mode Demand Release When Done align PCI transfers on 32 bytes and use PCI ...

Page 77: ...e jumper setting See the VME64 Specification and the VME64 Extensions for details As a result a 512K byte CR CSR area can be accessed from the VMEbus using the CR CSR AM code 4 5 1 2 Displaying VME Settings To display the changeable VME setting type the following at the firmware prompt vmeCfg s m Displays Master Enable state vmeCfg s i 0 7 Displays selected Inbound Window state vmeCfg s o 0 7 Disp...

Page 78: ...ate vmeCfg e r188 Edits Special PCI Target Image Register state vmeCfg e r400 Edits Master Control Register state vmeCfg e r404 Edits Miscellaneous Control Register state vmeCfg e r40C Edits User AM Codes Register state vmeCfg e rF70 Edits VMEbus Register Access Image Control Register state 4 5 1 4 Deleting VME Settings To delete the changeable VME setting restore default value type the following ...

Page 79: ...s Manual listed in Appendix C Related Documentation remote start allows the user to obtain information about the target board download code and or data modify memory on the target and execute a downloaded program ThesetransactionsoccuracrosstheVMEbusinthecaseoftheMVME5500 MOTLoad uses one of four mailboxes in the Universe II as the inter board communication address IBCA between the host and the ta...

Page 80: ...offsets of the mailboxes in the Universe II are defined in the Universe II User Manual listed in Appendix C Related Documentation but are noted here for reference Mailbox 0 is at offset 7f348 in the CR CSR space Mailbox 1 is at offset 7f34C in the CR CSR space Mailbox 2 is at offset 7f350 in the CR CSR space Mailbox 3 is at offset 7f354 in the CR CSR space The selection of the mailbox used by remo...

Page 81: ...ace Connectors J11 J12 J13 J14 on page 88 Boundary Scan Connector J18 on page 93 PMC 2 Interface Connectors J21 J22 J23 J24 on page 94 Asynchronous Serial Port COM2 Planar Connector J33 on page 99 VMEbus Connectors P1 P2 PMC Mode on page 100 VMEbus Connectors P1 P2 SBC Mode on page 102 Memory Expansion Connector P4 on page 105 The following headers are described in this chapter Ethernet 2 PMC SBC ...

Page 82: ...s 5 2 2 Ethernet Connectors J2 Dual RJ 45 connectors are located on the front panel of the MVME5500 to provide the interfacetothe10 100 1000BaseTXEthernetports Thepinassignmentsfortheseconnectors are as follows Table 5 1 COM1 Connector J1 Pin Assignments Pin Signal 1 DCD 2 RTS 3 GNDC 4 TXD 5 RXD 6 GNDC 7 CTS 8 DTR Table 5 2 Ethernet Connector J2 Pin Assignments Pin 1000BaseTX 10 100BaseT 1 MDIO0_P...

Page 83: ...stacking height of the PMC card The pin assignments for this connector are as follows 8 MDIO3_N AC Terminated Table 5 2 Ethernet Connector J2 Pin Assignments continued Pin 1000BaseTX 10 100BaseT Table 5 3 IPMC Connector J3 Pin Assignments Pin Signal Signal Pin 1 I2CSCL I2CSDA 2 3 GND GND 4 5 DB8 GND 6 7 GND DB9 8 9 DB10 3 3V 10 11 3 3V DB11 12 13 DB12 GND 14 15 GND DB13 16 17 DB14 3 3V 18 19 3 3V ...

Page 84: ...tor Pin Assignments MVME55006E Single Board Computer Installation and Use 6806800A37H 84 35 GND GND 36 37 5 0V 5 0V 38 39 GND GND 40 Table 5 3 IPMC Connector J3 Pin Assignments continued Pin Signal Signal Pin ...

Page 85: ...e pin assignments for this connector are as follows Table 5 4 PCI PMC Expansion Connector J4 Pin Assignments Pin Signal Signal Pin 1 3 3V GND 3 3V 2 3 PCICLK PMCINTA 4 5 GND PMCINTB 6 7 PURST PMCINTC 8 9 HRESET PMCINTD 10 11 TDO TDI 12 13 TMS TCK 14 15 TRST PCIXP 16 17 PCIXGNT PCIXREQ 18 19 12V 12V 20 21 PERR SERR 22 23 LOCK SDONE 24 25 DEVSEL SBO 26 27 GND GND 28 29 TRDY IRDY 30 31 STOP FRAME 32 ...

Page 86: ...C BE2 44 45 AD1 AD0 46 47 AD3 AD2 48 49 AD5 AD4 50 51 AD7 AD6 52 53 AD9 AD8 54 55 AD11 AD10 56 57 AD13 AD12 58 59 AD15 AD14 60 61 AD17 AD16 62 63 AD19 AD18 64 65 AD21 AD20 66 67 AD23 AD22 68 69 AD25 AD24 70 71 AD27 AD26 72 73 AD29 AD28 74 75 AD31 AD30 76 Table 5 4 PCI PMC Expansion Connector J4 Pin Assignments continued Pin Signal Signal Pin ...

Page 87: ... AD33 AD32 84 85 AD35 AD34 86 87 AD37 AD36 88 89 AD39 AD38 90 91 AD41 AD40 92 93 AD43 AD42 94 95 AD45 AD44 96 97 AD47 AD46 98 99 AD49 AD48 100 101 AD51 AD50 102 103 AD53 AD52 104 105 AD55 AD54 106 107 AD57 AD56 108 109 AD59 AD58 110 111 AD61 AD60 112 113 AD63 AD62 114 Table 5 4 PCI PMC Expansion Connector J4 Pin Assignments continued Pin Signal Signal Pin Table 5 5 CPU COP Connector J5 Pin Assignm...

Page 88: ...ne card cannot be used because the PMC module covers the memory mezzanine connector 5 QREQ_L 2 5V_VIO 6 7 CPUTCK OPTPU_2 5v 8 9 CPUTMS NC 10 11 SRESET_L NC 12 13 CPURST_L KEY no pin 14 15 CHECKSTPO_L GND 16 Table 5 5 CPU COP Connector J5 Pin Assignments continued Pin Signal Signal Pin Table 5 6 PMC 1 Connector J11 Pin Assignments Pin Signal Signal Pin 1 TCK 12V 2 3 GND INTA 4 5 INTB INTC 6 7 PRESE...

Page 89: ...39 GND LOCK 40 41 PCI_RSVD PCI_RSVD 42 43 PAR GND 44 45 VIO AD15 46 47 AD12 AD11 48 49 AD09 5V 50 51 GND C BE0 52 53 AD06 AD05 54 55 AD04 GND 56 57 VIO AD03 58 59 AD02 AD01 60 61 AD00 5V 62 63 GND REQ64 64 Table 5 7 PMC 1 Connector J12 Pin Assignments Pin Signal Signal Pin 1 12V TRST 2 3 TMS TDO 4 5 TDI GND 6 7 GND PCI_RSVD 8 Table 5 6 PMC 1 Connector J11 Pin Assignments continued Pin Signal Signa...

Page 90: ...2 23 AD24 3 3V 24 25 IDSEL AD23 26 27 3 3V AD20 28 29 AD18 GND 30 31 AD16 C BE2 32 33 GND IDSELB 34 35 TRDY 3 3V 36 37 GND STOP 38 39 PERR GND 40 41 3 3V SERR 42 43 C BE1 GND 44 45 AD14 AD13 46 47 M66EN AD10 48 49 AD08 3 3V 50 51 AD07 REQB_L 52 53 3 3V GNTB_L 54 55 MOT_RSVD GND 56 57 MOT_RSVD EREADY 58 59 GND NC RESETOUT_L 60 61 ACK64 3 3V 62 Table 5 7 PMC 1 Connector J12 Pin Assignments continued...

Page 91: ... C BE7 4 5 C BE6 C BE5 6 7 C BE4 GND 8 9 VIO PAR64 10 11 AD63 AD62 12 13 AD61 GND 14 15 GND AD60 16 17 AD59 AD58 18 19 AD57 GND 20 21 VIO AD56 22 23 AD55 AD54 24 25 AD53 GND 26 27 GND AD52 28 29 AD51 AD50 30 31 AD49 GND 32 33 GND AD48 34 35 AD47 AD46 36 37 AD45 GND 38 39 VIO AD44 40 41 AD43 AD42 42 43 AD41 GND 44 45 GND AD40 46 Table 5 7 PMC 1 Connector J12 Pin Assignments continued Pin Signal Sig...

Page 92: ...PMC1_3 P2 C2 PMC1_4 P2 A2 4 5 PMC1_5 P2 C3 PMC1_6 P2 A3 6 7 PMC1_7 P2 C4 PMC1_8 P2 A4 8 9 PMC1 _9 P2 C5 PMC1_10 P2 A5 10 11 PMC1_11 P2 C6 PMC1_12 P2 A6 12 13 PMC1_13 P2 C7 PMC1_14 P2 A7 14 15 PMC1_15 P2 C8 PMC1_16 P2 A8 16 17 PMC1_17 P2 C9 PMC1_18 P2 A9 18 19 PMC1_19 P2 C10 PMC1_20 P2 A10 20 21 PMC1_21 P2 C11 PMC1_22 P2 A11 22 23 PMC1_23 P2 C12 PMC1_24 P2 A12 24 25 PMC1_25 P2 C13 PMC1_26 P2 A13 26...

Page 93: ...40 41 PMC1_41 P2 C21 PMC1_42 P2 A21 42 43 PMC1_43 P2 C22 PMC1_44 P2 A22 44 45 PMC1_45 P2 C23 PMC1_46 P2 A23 46 47 PMC1_47 P2 C24 PMC1_48 P2 A24 48 49 PMC1_49 P2 C25 PMC1_50 P2 A25 50 51 PMC1_51 P2 C26 PMC1_52 P2 A26 52 53 PMC1_53 P2 C27 PMC1_54 P2 A27 54 55 PMC1_55 P2 C28 PMC1_56 P2 A28 56 57 PMC1_57 P2 C29 PMC1_58 P2 A29 58 59 PMC1_59 P2 C30 PMC1_60 P2 A30 60 61 PMC1_61 P2 C31 PMC1_62 P2 A31 62 6...

Page 94: ...l I O interface 7 TMS GND 8 9 TCK GND 10 11 NC GND 12 13 AW GND 14 15 NC GND 16 17 NC GND 18 19 NC NC 20 Table 5 10 Boundary Scan Connector J18 Pin Assignments continued Pin Signal Signal Pin Table 5 11 PMC 2 Connector J21 Pin Assignments Pin Signal Signal Pin 1 TCK 12V 2 3 GND INTA 4 5 INTB INTC 6 7 PRESENT 5V 8 9 INTD PCI_RSVD 10 11 GND 3 3Vaux 12 13 CLK GND 14 15 GND GNT XREQ0 16 17 REQ XGNT0 5...

Page 95: ..._RSVD PCI_RSVD 42 43 PAR GND 44 45 VIO AD15 46 47 AD12 AD11 48 49 AD09 5V 50 51 GND C BE0 52 53 AD06 AD05 54 55 AD04 GND 56 57 VIO AD03 58 59 AD02 AD01 60 61 AD00 5V 62 63 GND REQ64 64 Table 5 12 PMC 2 Connector J22 Pin Assignments Pin Signal Signal Pin 1 12V TRST 2 3 TMS TDO 4 5 TDI GND 6 7 GND PCI_RSVD 8 9 PCI_RSVD PCI_RSVD 10 Table 5 11 PMC 2 Connector J21 Pin Assignments continued Pin Signal S...

Page 96: ...SEL AD23 26 27 3 3V AD20 28 29 AD18 GND 30 31 AD16 C BE2 32 33 GND IDSELB 34 35 TRDY 3 3V 36 37 GND STOP 38 39 PERR GND 40 41 3 3V SERR 42 43 C BE1 GND 44 45 AD14 AD13 46 47 M66EN AD10 48 49 AD08 3 3V 50 51 AD07 REQB_L 52 53 3 3V GNTB_L 54 55 MOT_RSVD GND 56 57 MOT_RSVD EREADY 58 59 GND NC RESETOUT_L 60 61 ACK64 3 3V 62 63 GND NC MONARCH 64 Table 5 12 PMC 2 Connector J22 Pin Assignments continued ...

Page 97: ... BE7 4 5 C BE6 C BE5 6 7 C BE4 GND 8 9 VIO PAR64 10 11 AD63 AD62 12 13 AD61 GND 14 15 GND AD60 16 17 AD59 AD58 18 19 AD57 GND 20 21 VIO AD56 22 23 AD55 AD54 24 25 AD53 GND 26 27 GND AD52 28 29 AD51 AD50 30 31 AD49 GND 32 33 GND AD48 34 35 AD47 AD46 36 37 AD45 GND 38 39 VIO AD44 40 41 AD43 AD42 42 43 AD41 GND 44 45 GND AD40 46 47 AD39 AD38 48 49 AD37 GND 50 51 GND AD36 52 53 AD35 AD34 54 ...

Page 98: ...MC2_10 P2 D7 10 11 PMC2_11 P2 Z7 PMC2_12 P2 D8 12 13 PMC2_13 P2 D9 PMC2_14 P2 Z9 14 15 PMC2_15 P2 D10 PMC2_16 P2 D11 16 17 PMC2_17 P2 Z11 PMC2_18 P2 D12 18 19 PMC2_19 P2 D13 PMC2_20 P2 Z13 20 21 PMC2_21 P2 D14 PMC2_22 P2 D15 22 23 PMC2_23 P2 Z15 PMC2_24 P2 D16 24 25 PMC2_25 P2 D17 PMC2_26 P2 Z17 26 27 PMC2_27 P2 D18 PMC2_28 P2 D19 28 29 PMC2_29 P2 Z19 PMC2_30 P2 D20 30 31 PMC2_31 P2 D21 PMC2_32 P2...

Page 99: ...C2_42 P2 D28 42 43 PMC2_43 P2 D29 PMC2_44 P2 Z29 44 45 PMC2_45 P2 D30 PMC2_46 P2 Z31 46 47 Not Used Not Used 48 49 Not Used Not Used 50 51 Not Used Not Used 52 53 Not Used Not Used 54 55 Not Used Not Used 56 57 Not Used Not Used 58 59 Not Used Not Used 60 61 Not Used Not Used 62 63 Not Used Not Used 64 Table 5 14 PMC 2 Connector J24 Pin Assignments continued Pin Signal Signal Pin Table 5 15 COM2 P...

Page 100: ...ard plugged into this P2 slot damage may occur 2 When J32 is configured for IPMC mode 12V is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur 3 J102 J110 should be configured for PMC 2 I O to connect PMC slot 2 user I O from J24 to the P2 connector The pin assignments for the P2 connector are as follows Table 5 16 VME Connector P2 Pin Assignments P...

Page 101: ...J14 34 VD19 PMC1_33 J14 33 PMC2_25 J24 25 18 GND PMC1_36 J14 36 VD20 PMC1_35 J14 35 PMC2_27 J24 27 19 PMC2_29 J24 29 PMC1_38 J14 38 VD21 PMC1_37 J14 37 PMC2_28 J24 28 20 GND PMC1_40 J14 40 VD22 PMC1_39 J14 39 PMC2_30 J24 30 21 PMC2_32 J24 32 PMC1_42 J14 42 VD23 PMC1_41 J14 41 PMC2_31 J24 31 22 GND PMC1_44 J14 44 GND PMC1_43 J14 43 PMC2_33 J24 33 23 PMC2_35 J24 35 PMC1_46 J14 46 VD24 PMC1_45 J14 45...

Page 102: ...If there is an incompatible board plugged into this P2 slot damage may occur 2 When J32 is configured for IPMC mode 12V is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur 3 J102 J110 should be configured for IPMC I O to connect the IPMC extended SCSI signals from J3 to the P2 connector The pin assignments for the P2 connector are as follows 29 PMC...

Page 103: ...B6 PMC2_22 J24 22 16 GND D C VD18 P DB7 PMC2_24 J24 24 17 PMC2_26 REQ VD19 P ACK PMC2_25 J24 25 18 GND I O VD20 P BSY PMC2_27 J24 27 19 PMC2_29 J24 29 TXD3 VD21 P PE PMC2_28 J24 28 20 GND RXD3 VD22 P SEL PMC2_30 J24 30 21 PMC2_32 J24 32 RTS3 VD23 P IME PMC2_31 J24 31 22 GND CTS3 GND P FAULT PMC2_33 J24 33 23 PMC2_35 J24 35 DTR3 VD24 TXD1_232 PMC2_34 J24 34 24 GND DCD3 VD25 RXD1 PMC2_36 J24 36 25 P...

Page 104: ... 12VF PMC2_10 J24 10 8 GND DB7 VA28 PRSTB PMC2_12 J24 12 9 DB12 DBP VA29 PRD0 PMC2_13 J24 13 10 GND ATN VA30 PRD1 PMC2_15 J24 15 11 DB13 BSY VA31 PRD2 PMC2_16 J24 16 12 GND ACK GND PRD3 PMC2_18 J24 18 13 DB14 RST 5V PRD4 PMC2_19 J24 19 14 GND MSG VD16 PRD5 PMC2_21 J24 21 15 DB15 SEL VD17 PRD6 PMC2_22 J24 22 16 GND D C VD18 PRD7 PMC2_24 J24 24 17 DBP1 REQ VD19 PRACK PMC2_25 J24 25 18 GND O I VD20 P...

Page 105: ... be used because the PMC module covers the memory mezzanine connector 23 PMC2_35 J24 35 RTXC3 VD24 TXD1_232 PMC2_34 J24 34 24 GND TRXC3 VD25 RXD1_232 PMC2_36 J24 36 25 PMC2_38 J24 38 TXD4 VD26 RTS1_232 PMC2_37 J24 37 26 GND RXD4 VD27 CTS1_232 PMC2_39 J24 39 27 PMC2_41 J24 41 RTXC4 VD28 TXD2_232 PMC2_40 J24 40 28 GND TRXC4 VD29 RXD2_232 PMC2_42 J24 42 29 PMC2_44 J24 44 VD30 RTS2_232 PMC2_43 J24 43 ...

Page 106: ... 25 MD18 MD19 26 27 MD20 MD21 28 29 MD22 MD23 30 31 3 3V 3 3V 32 33 MD24 MD25 34 35 MD26 MD27 36 37 MD28 MD29 38 39 MD30 MD31 40 41 GND GND 42 43 MD32 MD33 44 45 MD34 MD35 46 47 MD36 MD37 48 49 MD38 MD39 50 51 3 3V 3 3V 52 53 MD40 MD41 54 55 MD42 MD43 56 57 MD44 MD45 58 59 MD46 MD47 60 61 GND GND 62 63 MD48 MD49 64 Table 5 19 Memory Expansion Connector P4 Pin Assignments continued Pin Signal Signa...

Page 107: ... GND 80 81 MD62 MD63 82 83 MPAR0 MPAR1 84 85 MPAR2 MPAR3 86 87 MPAR4 MPAR5 88 89 3 3V 3 3V 90 91 MPAR6 MPAR7 92 93 BA0 BA1 94 95 MA12 MA11 96 97 MA10 MA9 98 99 GND GND 100 101 MA8 MA7 102 103 MA6 MA5 104 105 MA4 MA3 106 107 MA2 MA1 108 109 3 3V 3 3V 110 111 MA0 B2_CS 112 113 B3_CS GND 114 115 DQM5 DQM7 116 117 SDWE SDRAS 118 Table 5 19 Memory Expansion Connector P4 Pin Assignments continued Pin Si...

Page 108: ...l of the headers described below are used in conjunction with each other to select various modes of operation for 10 100BaseT Ethernet PMC SBC mode and P2 I O mode 119 GND GND 120 121 SDCAS 3 3V 122 123 3 3V DQM6 124 125 DQM5 I2CSCL 126 127 I2CSDA A1_SPD GND 128 129 A0_SPD NC DQM4 130 131 DQM3 DQM2 132 133 GND CLK_MEZZ 134 135 GND 3 3V 136 137 DQM1 DQM0 138 139 GND GND 140 Table 5 19 Memory Expans...

Page 109: ...f the rear P2 Ethernet is selected by jumpers J6 J7 J100 and J101 the Ethernet signals also connect to PMC 1 user I O connector J14 If a PMC card is plugged into PMC 1 there may be a conflictbetweentheI OfromthePMCcardandtherearEthernetsignals Thisconflictdoesnot occur with the IPMC761 or IPMC712 modules Table 5 20 Ethernet 2 Selection Headers J6 J7 J100 J101 Pin Assignments 10 100 Ethernet Receiv...

Page 110: ...J28 is configured for SBC IPMC mode 12V is supplied to P2 pin A30 If there is an incompatible board plugged into this P2 slot damage may occur 2 When J32 is configured for SBC IPMC mode 12V is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur 3 Install jumpers across pins 1 2 on both headers to select PMC mode Install jumpers across pins 2 3 on both...

Page 111: ...MC712 mode The pin assignments for these headers are as follows Table 5 23 P2 I O Selection Headers J102 J110 Pin Assignments Pin Signal Pin Signal J102 J103 1 PMC2_IO 2 1 PMC2_IO 5 2 P2_PMC2_IO 2 2 P2_PMC2_IO 5 3 IPMC_DB8_L 3 IPMC_DB9_L J104 J105 1 PMC2_IO 8 1 PMC2_IO 11 2 P2_PMC2_IO 8 2 P2_PMC2_IO 11 3 IPMC_DB10_L 3 IPMC_DB11_L J106 J107 1 PMC2_IO 14 1 PMC2_IO 17 2 P2_PMC2_IO 14 2 P2_PMC2_IO 17 ...

Page 112: ...32 P2 A1 to A18 P2 C8 to C22 P2 C23 to C26 P2 C27 to C32 P2 A19 to A24 P2 A25 to A32 Front Panel SCSI conn J5 1 to 13 31 32 J7 2 3 4 5 J8 2 3 4 5 20 8 J9 2 3 4 5 20 8 J10 2 3 4 17 5 20 8 15 J20 Pair Ethernet 12VF J2 A4 J2 A1 C1 A2 C2 J4 J2 C18 to C20 A21 J2 A29 to A31 C31 A32 C32 J2 A14 to A16 C16 A17 C17 J2 A22 to A26 C26 A27 A28 J3 J3 J2 A4 3829 3496 or 3216 3839 J2 C18 to C20 A21 J2 A29 to A31 ...

Page 113: ...A18 P1 C8 to C22 A19 A20 P1 C23 to C26 P1 C27 to C30 P1 A21 to A24 P1 C31 C32 A31 A32 J9 6 3 2 1 J7 2 to 5 J4 15 6 to 13 3 1 5 2 14 4 17 16 J1 35 Pair Ethernet 12VF J4 8 P2 A1 C1 A2 C2 J4 7 9 11 to 16 18 20 J4 35 37 39 42 J4 58 60 62 61 J4 32 31 34 33 J4 64 63 54 56 P2 A4 3829 3199 3197 C C T T J14 P2 A25 to A28 Serial MUX P14 P1 A30 J4 51 12VF P1 A25 to A28 J4 44 46 48 50 to 24 26 27 30 P1 Z1 to ...

Page 114: ...37 39 42 44 46 48 50 to 52 54 56 58 60 to 64 J3 2 to 64 even pins PMC2_IO 1 3 4 6 7 9 10 12 13 15 16 18 19 21 22 24 25 27 28 30 31 33 34 36 37 39 40 42 43 45 44 46 PMC1_IO 3 1 7 5 11 9 15 13 17 21 19 25 24 29 27 31 33 37 35 41 39 43 38 40 44 42 48 46 45 47 49 51 50 52 54 56 60 58 62 64 53 55 59 57 63 61 J24 2 5 8 11 14 17 20 23 26 J3 P2 Z1 to Z17 odd pins J14 J24 PMC2_IO 46 1 PMC2_IO 2 5 8 11 14 1...

Page 115: ...s header are as follows 5 3 3 VME SCON Select Header J27 A 3 pin 2 mm planar header allows the choice for auto enable disable SCON VME configuration A jumper installed across pins 1 2 configures for SCON disabled A jumper installed across pins 2 3 configures for auto SCON No jumper installed configures for SCON always enabled The pin assignments for this header are as follows Table 5 24 Flash Boot...

Page 116: ...Connector Pin Assignments MVME55006E Single Board Computer Installation and Use 6806800A37H 116 ...

Page 117: ...of both PMC slots In a 5 row chassis PMC current should be limited to 46 2 watts total of both PMC slots A 2 Environmental Specifications Table A 2 lists the environmental specifications along with the board dimensions Table A 1 Power Requirements Model Power 5V 5 MVME5500 0163 Typical 6 7 A Maximum 8 0 A MVME5500 0163 with memory mezzanine Typical 7 5A Maximum 9 0 A MVME5500 0163 with IPMC712 761...

Page 118: ...ity Operating 5 to 90 non condensing Non operating 5 to 95 non condensing Vibration Non operating 1 G sine sweep 5 100 Hz horizontal and vertical NEBS1 Physical Dimensions 6U 4HP wide 233 mm x 160 mm x 20 mm MTBF 207 058 hours Table A 2 MVME5500 Specifications continued Characteristics Specifications ...

Page 119: ...dix provides systems integrators with information which can be used to conduct thermal evaluations of the board in their specific system configuration It identifies thermally significant components and lists the corresponding maximum allowable component operating temperatures It also provides example procedures for component level temperature measurements B 2 Thermally Significant Components The f...

Page 120: ...nter surface of the component Air temperature refers to the ambient temperature near the component Table B 1 Thermally Significant Components Reference Designator Generic Description Max Allowable Component Temperature deg C Measurement Location U2 U3 Flash soldered 85 Ambient U16 Gigabit Ethernet 119 Case U22 System controller 110 Case U24 MPC7457 processor 103 Case U25 VME to PCI bridge 70 Ambie...

Page 121: ...lly Significant Components Secondary Side 4203 0203 U76 U71 U70 U77 U82 U81 U80 U79 U78 U85 U90 U89 U88 U87 U86 U72 U73 U59 U53 U52 U58 U44 U32 U33 U38 U39 U40 U34 U35 U36 U37 U74 U83 U48 U57 U92 U96 U100 U99 U97 U75 U98 U63 U49 U50 U51 U67 U60 U64 U54 U41 U45 U68 U61 U65 U55 U42 U46 U69 U62 U66 U56 U43 U47 ...

Page 122: ...ion of this board see Table B 1 Figure B 2 Thermally Significant Components Primary Side J34 4436 0207 COM1 ABT RST 10 100 CPU BFL ENET 2 ENET 1 J5 J18 J27 J28 U22 J8 J3 J1 J2 P4 J13 J14 J11 J12 J23 J24 J21 J22 P1 P2 U25 U16 U19 GigE PMC 1 PMC 2 J6 J100 J98 J99 J97 J33 J32 J4 U8 U10 U11 U12 U20 U9 U17 U15 U129 U23 U27 U2 U3 U13 U14 U4 U5 U6 U7 U26 U1 U18 U28 U29 U30 J101 J7 U31 U24 U124 U123 J102 ...

Page 123: ...brium has been reached B 3 2 Measuring Junction Temperature Some components have an on chip thermal measuring device such as a thermal diode For instructions on measuring temperatures using the on board device refer to the component manufacturer s documentation listed in Appendix C Related Documentation B 3 3 Measuring Local Air Temperature Measure local component ambient temperature by placing th...

Page 124: ...d the component We recommend you use a thermally conductive adhesive such as Loctite 384 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 The following figure shows one meth...

Page 125: ...ed areas with thermal grease The grease should not contact the thermocouple junction Figure B 4 Machining a Heatsink HEATSINK BOTTOM VIEW ISOMETRIC VIEW Machined groove for thermocouple wire routing Thermocouple junction bonded to component Heatsink base Thermal pad Through hole for thermocouple junction clearance may require removal of fin material Also use for alignment guidance during heatsink ...

Page 126: ...Thermal Validation MVME55006E Single Board Computer Installation and Use 6806800A37H 126 ...

Page 127: ...nal 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 C 1 Emerson Network Power Embedded Computing Publications Document Title Publication Number MVME55006ESingleBoardComputerProgr...

Page 128: ...F128K3 28F128K18 28F256K3 28F256K18 x16 3 Volt Intel StrataFlash Memory 28F128J3A 28F640J3A 28F320J3A 290667 30855103 pdf PCI 6154 HB2 PCI to PCI Bridge Data Book PLX Technology Inc 870 Maude Avenue Sunnyvale California 94085 http www plxtech com 6154_DataBook_v2 0 pdf TL16C550C Universal Asynchronous Receiver Transmitter Texas Instruments P O Box 655303 Dallas Texas 75265 http www ti com SLLS177E...

Page 129: ...nued Document Title and Source Publication Number or Search Term Table C 3 Related Specifications Document Title and Source Publication Number or Search Term VITA http www vita com VME64 Specification ANSI VITA 1 1994 VME64 Extensions ANSI VITA 1 1 1997 2eSST Source Synchronous Transfer VITA 1 5 199x PCI Special Interest Group PCI SIG http www pcisig com Peripheral Component Interconnect PCI Local...

Page 130: ...Related Documentation MVME55006E Single Board Computer Installation and Use 6806800A37H 130 ...

Page 131: ... Only personnel trained by Emerson or persons qualified in electronics or electrical engineering are authorized to install remove or maintain the product The information given in this manual is meant to complete the knowledge of a specialist and must not be used as replacement for qualified personnel Keep away from live circuits inside the equipment Operating personnel must not remove equipment co...

Page 132: ...ation on the board surface causes short circuits Do not operate the board outside the specified environmental limits Make sure the board is completely dry and there is no moisture on any surface before applying power Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or shorten its life Before touching the board or electronic components make sure ...

Page 133: ...e to module components Before installing or removing additional devices or modules read the documentation that came with the product Cabling and Connectors Product Damage RJ 45 connectors on modules are either twisted pair Ethernet TPE or E1 T1 J1 network interfaces Connecting an E1 T1 J1 line to an Ethernet connector may damage your system Make sure that TPE connectors near your working area are ...

Page 134: ...ntative for the availability of alternative officially approved battery models Data Loss Exchanging the battery can result in loss of time settings Backup power prevents the loss of data during exchange Quickly replacing the battery may save time settings Data Loss If the battery has low or insufficient power the RTC is initialized Exchange the battery before seven years of actual battery use have...

Page 135: ...itte an die für Sie zuständige Geschäftsstelle von Emerson Das Produkt wurde entwickelt um die Sicherheitsanforderungen für SELV Geräte nach der Norm EN 60950 1 für informationstechnische Einrichtungen zu erfüllen Die Verwendung des Produkts in einer anderen Anwendung erfordert eine Sicherheitsüberprüfung für diese spezifische Anwendung Einbau Wartung und Betrieb dürfen nur von durch Emerson ausge...

Page 136: ... Power durchgeführt werden können dazu führen dass der Anwender die Genehmigung zum Betrieb des Produktes verliert Boardprodukte werden in einem repräsentativen System getestet um zu zeigen dass das Board den oben aufgeführtenEMV Richtlinienentspricht EineordnungsgemässeInstallationineinemSystem welches die EMV Richtlinien erfüllt stellt sicher dass das Produkt gemäss den EMV Richtlinien betrieben...

Page 137: ...or Sie das Produkt installieren Installation Datenverlust Das Herunterfahren oder die Deinstallation eines Boards bevor das Betriebssystem oder andere auf dem Board laufende Software ordnungsmemäss beendet wurde kann zu partiellem Datenverlust sowie zu Schäden am Filesystem führen Stellen Sie sicher dass sämtliche Software auf dem Board ordnungsgemäss beendet wurde bevor Sie das Board herunterfahr...

Page 138: ... Produkt verbundenen TPE Kabels 100 m nicht überschreitet Das Produkt darf über die TPE Stecker nur mit einem Sicherheits Kleinspannungs Stromkreis SELV verbunden werden Bei Fragen wenden Sie sich an Ihren Systemverwalter Batterie Beschädigung des Blades Ein unsachgemäßer Einbau der Batterie kann gefährliche Explosionen und Beschädigungen des Blades zur Folge haben Verwenden Sie deshalb nur den Ba...

Page 139: ...licher Nutzung vergangen sind Schäden an der Platine oder dem Batteriehalter Wenn Sie die Batterie mit einem Schraubendreher entfernen können die Platine oder der Batteriehalter beschädigt werden Um Schäden zu vermeiden sollten Sie keinen Schraubendreher zum Ausbau der Batterie verwenden Umweltschutz Entsorgen Sie alte Batterien und oder Blades Systemkomponenten RTMs stets gemäß der in Ihrem Land ...

Page 140: ...MVME55006E Single Board Computer Installation and Use 6806800A37H Sicherheitshinweise 140 ...

Page 141: ...ings 74 delete 78 display 77 edit 78 restore 79 delete VME settings 78 dimensions 117 display VME settings 77 E edit VME settings 78 environmental specifications 117 ESD precautions 21 Ethernet interface 10 100Mb 52 Gigabit 51 evaluating thermal performance 119 expansion memory 57 F features hardware 46 firmware package help 70 firmware tests 64 firmware utilities 64 Flash memory 51 G Gigabit Ethe...

Page 142: ...or 47 N NVRAM 54 O operating temperatures maximum 119 P P1 connector 59 PCI bus arbitration 53 PCI IDSEL signal 52 PCI local bus devices 51 PCI to PCI bridge 52 physical dimensions 117 PMC expansion connector 55 PMC sites 33 52 power requirements 117 power apply 44 primary PMCspan installing 37 R RAM5500 57 features 57 installation 33 P1connector 59 programming issues 62 real time clock RTC 54 rel...

Page 143: ...erature measurement 120 122 123 temperature range 117 temperatures component 119 thermal performance 119 timer watchdog 54 U Universe II controller 55 unpacking guidelines 20 V vibration 117 Vio keying pin 33 VME settings 74 delete 78 display 77 edit 78 restore 79 W watchdog timer 54 ...

Page 144: ...Index MVME55006E Single Board Computer Installation and Use 6806800A37H 144 ...

Page 145: ......

Page 146: ...Network Power logo are trademarks and service marks of Emerson Electric Co All other product or service names are the property of their respective owners 2013 Emerson Electric Co Emerson Network Power The global leader in enabling Business Critical Continuity AC Power Systems Connectivity DC Power Systems Embedded Computing Embedded Power Integrated Cabinet Solutions Outside Plant Power Switching ...