Emerson MVME55006E-0163 Installation And Use Instruction
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Emerson MVME55006E-0163 Installation And Use Instruction

Emerson MVME55006E-0163 Installation And Use Instruction

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Emerson MVME55006E-0163
VMEbus Single-Board Computer
A l l t r a d e m a r k s , b r a n d n a m e s , a n d b r a n d s a p p e a r i n g h e r e i n a r e t h e p r o p e r t y o f t h e i r r e s p e c t i v e o w n e r s .
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Summary of Contents for Emerson MVME55006E-0163

  • Page 1 Emerson MVME55006E-0163 VMEbus Single-Board Computer In Stock Used and in Excellent Condition Buy Today! https://www.artisantg.com/70559-8 A l l t r a d e m a r k s , b r a n d n a m e s , a n d b r a n d s a p p e a r i n g h e r e i n a r e t h e p r o p e r t y o f t h e i r r e s p e c t i v e o w n e r s .
  • Page 2 MVME55006E Single Board Computer Installation and Use 6806800A37E October 2008...
  • Page 3 Emerson reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such revision or changes.

  • Page 4: Table Of Contents

    Contents About this Manual ..............11 Hardware Preparation and Installation .
  • Page 5 Contents Block Diagram ............. . 37 Features .
  • Page 6 Contents 4.3.3 Command List ............55 Using the Command Line Interface .
  • Page 7 Related Documentation ............105 C.1 Emerson Network Power - Embedded Computing Documents ..... . . 105 C.2 Manufacturers’...
  • Page 8 Thermally Significant Components ........99 Table C-1 Emerson Network Power - Embedded Computing Publications ....105 Table C-2 Manufacturers’...
  • Page 9 List of Tables MVME55006E Single Board Computer Installation and Use (6806800A37E)
  • Page 10 List of Figures Figure 1-1 MVME5500 Board Layout ..........20 Figure 1-2 Front Panel and Rear P2 Ethernet Settings .
  • Page 11 List of Figures MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 12: About This Manual

    Appendix C, Related Documentation, provides a listing of related Emerson manuals, vendor documentation, and industry specifications. The MVME55006E Single-Board Computer Installation and Use manual provides the information you will need to install and configure your MVME55006E single-board computer. It provides specific preparation and installation information, and data applicable to the board.
  • Page 13 About this Manual Model Number Description MVME7616E-001 Multifunction rear I/O PMC module; 8-bit SCSI, one parallel port, two async and two sync/async serial ports. Transition module with two DB-9 async serial port connectors, two HD-26 sync/async serial port connectors, one HD-36 parallel port connector, one RJ-45 10/100 Ethernet connector;...

  • Page 14: Summary Of Changes

    P2 PMC 2 I/O mode for J102-J110 is factory default P2 IPMC I/O is [2-3] Figure 1-3 on page 22 Figure 1-4 on page March 2008 Updated to Emerson style standards. 6806800A37C October 2008 Updated Table 1-2 on page 18...

  • Page 15: Comments And Suggestions

    About this Manual Comments and Suggestions We welcome and appreciate your comments on our documentation. We want to know what you think about our manuals and how we can make them better. Mail comments to us by filling out the following online form: http://www.emersonnetworkpowerembeddedcomputing.com/ >...

  • Page 16: Hardware Preparation And Installation

    Hardware Preparation and Installation Overview This chapter contains the following information: Board and accessory preparation and installation instructions ESD precautionary notes Introduction The MVME5500 is a single-board computer based on the PowerPC MPC7457 processor and the Marvell GT-64260B host bridge with a dual PCI interface and memory controller. On-board payload includes two PMC slots, two SDRAM banks, an expansion connector for two additional banks of SDRAM, 8MB boot Flash ROM, one 10/100/1000 Ethernet port, one 10/100 Ethernet port, 32MB expansion Flash ROM, two serial ports, NVRAM and a real-time clock.

  • Page 17: Overview Of Startup Procedures

    Hardware Preparation and Installation Overview of Startup Procedures Overview of Startup Procedures The following table 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.

  • Page 18: Configuring The Hardware

    Configuring the Hardware Hardware Preparation and Installation Emerson 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).

  • Page 19: Configuring The Board

    Hardware Preparation and Installation Configuring the Board 1.6.1 Configuring the Board Figure 1-1 illustrates the placement of the jumpers, headers, switches, connectors, and various 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.
  • Page 20 Configuring the Board Hardware Preparation and Installation Table 1-2 MVME5500 Jumper Settings (continued) Jumpers / Switches Function Settings S4-2 PCI Bus 1.0 Speed [OFF] PMC board controls whether Header the bus runs at 33 MHz or 66 MHz. Forces PCI bus 1.0 to remain at 33 MHz.

  • Page 21: Ethernet 2, Pmc/Sbc Mode, And P2 I/O Selection Headers

    Hardware Preparation and Installation Ethernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, The MVME5500 is factory tested and shipped with the configuration described in the following section. Figure 1-1 MVME5500 Board Layout J102 - J110 J102 - J110 U129 J6 / J100 J101 / J7...

  • Page 22: Pmc/Sbc Mode Selection

    Ethernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 – J110) Hardware For J6, J100, J7 and J101, install jumpers across pins 2-3 on all four headers for rear P2 Ethernet. For front-panel Ethernet, install jumpers across pins 1-2 on all four headers. If 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.

  • Page 23: Figure 1-2 Front Panel And Rear P2 Ethernet Settings

    Hardware Preparation and Installation Ethernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, Figure 1-2 Front Panel and Rear P2 Ethernet Settings (factory configuration) Rear P2 Ethernet Front-Panel Ethernet 3 2 1 3 2 1 1 2 3 1 2 3 J100 J100...

  • Page 24: Flash Boot Bank Select Header (J8)

    Flash Boot Bank Select Header (J8) Hardware Preparation and Installation 1.6.3 Flash Boot Bank Select Header (J8) A 3-pin planar header selects the boot Flash bank. No jumper or a jumper installed across pins 1-2 selects Flash 0 as the boot bank. A jumper installed across pins 2-3 selects Flash 1 as the boot bank.

  • Page 25: Safe Start Env Switch (S5-1)

    Hardware Preparation and Installation Safe Start ENV Switch (S5-1) 1.6.5 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.

  • Page 26: Srom Initialization Enable Switch (S5-2)

    SROM Initialization Enable Switch (S5-2) Hardware Preparation and Installation 1.6.7 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 1-9 S5-2 Settings S5-2...

  • Page 27: Vme Scon Select Header (J27)

    Hardware Preparation and Installation VME SCON Select Header (J27) 1.6.9 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.

  • Page 28: Eeprom Write Protect Switch (S3-3)

    EEPROM Write Protect Switch (S3-3) Hardware Preparation and Installation 1.6.11 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.

  • Page 29: Installing The Ram5500 Module

    Hardware Preparation and Installation Installing the RAM5500 Module Installing the RAM5500 Module Procedure To upgrade or install a RAM5500 module, refer to and proceed as follows: 1. Attach an ESD strap to your wrist. Attach the other end of the ESD strap to the chassis as a ground.

  • Page 30: Installing Pmcs

    Installing PMCs Hardware Preparation and Installation 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.

  • Page 31: Primary Pmcspan

    Hardware Preparation and Installation Primary PMCspan Procedure This procedure assumes that you have read the user’s manual that came with your PMCs. 1. Attach an ESD strap to your wrist. Attach the other end of the ESD strap to an electrical ground.

  • Page 32: Figure 1-16 Pmcspan Installation On A Vme Module

    Primary PMCspan Hardware Preparation and Installation Procedure This procedure assumes that you have read the user’s manual that was furnished with your PMCspan. 1. Attach an ESD strap to your wrist. Attach the other end of the ESD strap to an electrical ground.

  • Page 33: Secondary Pmcspan

    Hardware Preparation and Installation Secondary PMCspan 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. 1.8.3 Secondary PMCspan The PMCspanx6E-010 PCI expansion module mounts on top of a PMCspanx6E-002.

  • Page 34: Installing The Board

    Installing the Board Hardware Preparation and Installation 5. Attach the four standoffs from the PMCspanx6E-010 mounting kit to the PMCspanx6E-002 by screwing the threaded male portion of the standoffs in the locations where the screws were removed in the previous step. 6.

  • Page 35: Connection To Peripherals

    Hardware Preparation and Installation Connection to Peripherals 5. Slide the MVME5500 into the chassis until resistance is felt. Figure 1-17 Installation into a Typical VME Chassis 6. Simultaneously move the injector/ejector levers in an inward direction. 7. Verify that the MVME5500 is properly seated and secure it to the chassis using the two screws located adjacent to the injector/ejector levers.

  • Page 36: Completing The Installation

    Completing the Installation Hardware Preparation and Installation Table 1-3 MVME5500 Connectors (continued) Connector Function Boundary scan connector J21, J22, J23, J24 PMC 2 connectors COM2 planar connector P1, P2 VME rear panel connectors Memory expansion connector 1.9.2 Completing the Installation Verify that hardware is installed and the power/peripheral cables connected are appropriate for your system configuration.

  • Page 37: Table 1-4 Front-Panel Led Status Indicators

    Hardware Preparation and Installation Switches and Indicators The MVME5500 has two front-panel indicators: BFL, software controlled. Asserted by firmware (or other software) to indicate a configuration problem (or other failure). CPU, connected to a CPU bus control signal to indicate bus activity. The following table describes these indicators: Table 1-4 Front-Panel LED Status Indicators Function...

  • Page 38: Functional Description

    Functional Description Overview This chapter describes the MVME5500 on a block diagram level. Block Diagram Table 2-1 shows a block diagram of the overall board architecture. Figure 2-1 Block Diagram MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 39: Features

    Functional Description Features Features The following table lists the features of the MVME5500. Table 2-1 MVME5500 Features Summary Feature Description Processor – Single 1 GHz MPC7457 processor – Bus clock frequency at 133 MHz L3 Cache – 2MB using DDR SRAM –...

  • Page 40: Processor

    Processor Functional Description Table 2-1 MVME5500 Features Summary (continued) Feature Description PCI Mezzanine Cards – Two PMC sites (one shared with the expansion memory and has IPMC capability) PCI Expansion – One expansion connector for interface to PMCspan Miscellaneous – Reset/Abort switch –...

  • Page 41: Cpu Bus Interface

    Functional Description CPU Bus Interface 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.

  • Page 42: Direct Memory Access (Dma)

    Direct Memory Access (DMA) Functional Description The MVME5500 board contains the following I2C serial devices: 256 byte EEPROM for fixed GT-64260B initialization 8KB EEPROM for VPD 8KB EEPROM for user-defined VPD 256 byte EEPROM for SPD DS1621 temperature sensor The 8KB EEPROM devices are implemented using Atmel AT24C64 devices. These devices use two byte addressing to address the 8KB of the device.

  • Page 43: System Memory

    Functional Description System Memory System Memory System memory for the MVME5500 is provided by one to four banks of ECC synchronous DRAM in two banks. During system initialization, the firmware determines the presence and configuration of each memory bank installed by reading the contents of the serial presence detection (SPD) EEPROM on the board, and another one on the expansion memory module.

  • Page 44: Pci-To-Pci Bridges

    PCI-to-PCI Bridges Functional Description 2.9.3 PCI-to-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.

  • Page 45: Asynchronous Serial Ports

    Functional Description Asynchronous Serial Ports 2.10 Asynchronous Serial Ports The MVME5500 board uses two TL16C550C universal asynchronous 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.

  • Page 46: System Control And Status Registers

    System Control and Status Registers Functional Description 2.12 System Control and Status Registers The MVME5500 CPU board contains System Control and Status Registers mapped into Bank 1 of the GT-64260B device bus interface. Refer for the MMVE5500 Single-Board Computer Programmer’s Reference Guide for details. 2.13 Sources of Reset The sources of reset on the MVME5500 are the following:...
  • Page 47 Functional Description Debug Support MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 48: Ram55006E Memory Expansion Module

    RAM55006E Memory Expansion Module Overview The RAM55006E memory expansion module can be used on the MVME5500 as an option for additional memory capability. The expansion module has two banks of SDRAM with up to 512MB of available ECC memory. The RAM55006E incorporates a serial ROM (SROM) for system memory serial presence detect (SPD) data.

  • Page 49: Srom

    RAM55006E Memory Expansion Module SROM The RAM5500 SPD uses the SPD JEDEC standard definition and is accessed at address $A2. Refer to the following section on SROM for more details. Figure 3-1 RAM500 Block Diagram CLK (0:8) Bank of 9 (x8) SDRAM SROM Clock...

  • Page 50: Table 3-2 Ram5500 Connector (P1) Pin Assignments

    Memory Expansion Connector Pin Assignments RAM55006E Memory Expansion Module *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 with grounding plates on both sides of the plug assemblies.
  • Page 51 RAM55006E Memory Expansion Module Memory Expansion Connector Pin Assignments Table 3-2 RAM5500 Connector (P1) Pin Assignments (continued) Signal Signal DQ50 DQ51 DQ52 DQ53 +3.3V +3.3V DQ54 DQ55 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 GND* GND* DQ62 DQ63 CKD00 CKD01 CKD02 CKD03 CKD04 CKD05...

  • Page 52: Ram5500 Programming Issues

    RAM5500 Programming Issues RAM55006E Memory Expansion Module Table 3-2 RAM5500 Connector (P1) Pin Assignments (continued) Signal Signal DQM1 DQM0 GND* GND* RAM5500 Programming Issues The RAM5500 contains no user programmable register, other than the SPD data. 3.5.1 Serial Presence Detect (SPD) Data This register is partially described for the RAM5500 within the MVME5500 Single Board Computer Programmer’s Reference Guide.
  • Page 53 RAM55006E Memory Expansion Module Serial Presence Detect (SPD) Data MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 54: Motload Firmware

    DRAM, external cache, Flash). Typically, the smallest amount of on-board DRAM that a Emerson SBC has is 32MB. Each supported Emerson product line has its own unique MOTLoad binary image(s). Currently the largest MOTLoad compressed image is less than 1MB in size.

  • Page 55: Utilities

    MOTLoad Firmware Utilities 4.3.1 Utilities The definition of a MOTLoad utility application is very broad. Simply stated, it is considered a MOTLoad command if it is not a MOTLoad test. Typically, MOTLoad utility applications are applications that aid the user in some way (that is, they do something useful). From the perspective of MOTLoad, examples of utility applications are: configuration, data/status displays, data manipulation, help routines, data/status monitors, etc.

  • Page 56: Command List

    Command List MOTLoad Firmware Test results and test status are obtained through the testStatus, errorDisplay, and taskActive commands. Refer to the appropriate command description page in the MOTLoad Firmware Package User’s Manual for more information. 4.3.3 Command List The following table provides a list of all current MOTLoad commands. Products supported by MOTLoad may or may not employ the full command set.
  • Page 57 MOTLoad Firmware Command List Table 4-1 MOTLoad Commands (continued) Command Description 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 One-Line Instruction Disassembler echo Echo a Line of Text elfLoader ELF Object File Loader errorDisplay...
  • Page 58 Command List MOTLoad Firmware Table 4-1 MOTLoad Commands (continued) Command Description Memory Display Bytes/Halfwords/Words memShow Display Memory Allocation Memory Modify Bytes/Halfwords/Words mpuFork Execute program from idle processor mpuShow Display multi-processor control structure mpuStart Start the other MPU netBoot Network Boot (BOOT/TFTP) netShow Display Network Interface Configuration Data netShut...
  • Page 59 MOTLoad Firmware Command List Table 4-1 MOTLoad Commands (continued) Command Description testEnetPtP Ethernet Point-to-Point 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...

  • Page 60: Using The Command Line Interface

    Using the Command Line Interface MOTLoad Firmware Table 4-1 MOTLoad Commands (continued) Command Description waitProbe Wait for I/O Probe to Complete Using the Command Line Interface Interaction with MOTLoad is performed via a command line interface through a serial port on the single board computer, which is connected to a terminal or terminal emulator (for example, Window’s Hypercomm).

  • Page 61: Rules

    MOTLoad Firmware Rules Copyright: Motorola Inc.1999-2005, All Rights Reserved MOTLoad RTOS Version 2.0, PAL Version 1.0 RM01 Mon Aug 29 15:24:13 MST 2005 MVME5500> If the partial command string cannot be resolved to a single unique command, MOTLoad informs the user that the command was ambiguous. Example: MVME5500>...

  • Page 62: Firmware Settings

    Firmware Settings MOTLoad Firmware 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...
  • Page 63 MOTLoad Firmware Default VME Settings Sets LSI1_TO to indicate that the PCI memory address is to be translated by 0x70000000 before presentation on the VMEbus; the result of the translation is: 0x91000000 + 0x70000000 = 0x101000000, thus 0x01000000 on the VMEbus. PCI Slave Image 2 Control = C0410000 Sets LSI2_CTL to indicate that this image is enabled, write posting is enabled, VMEbus data width is 16 bits, VMEbus address space is A24, data and non-supervisory AM...
  • Page 64 Default VME Settings MOTLoad Firmware VMEbus Slave Image 0 Translation Offset = 00000000 Sets VSI0_TO to define that no translation of the VMEbus address is to occur when transferred to the local PCI bus. According to the CHRP map in use by MOTLoad, this will result in transfers to local DRAM;...

  • Page 65: Cr/Csr Settings

    MOTLoad Firmware Default VME Settings 4.5.1.1 CR/CSR Settings The firmware supports both Auto Slot ID and Geographical Addressing for assigning the CR/CSR base address dependent on a hardware 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.

  • Page 66: Deleting Vme Settings

    Default VME Settings MOTLoad Firmware 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 at the firmware prompt: vmeCfg -d -m...

  • Page 67: Remote Start

    MOTLoad Firmware Remote Start Remote Start As described in the MOTLoad Firmware Package User'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. These transactions occur across the VMEbus in the case of the MVME5500.

  • Page 68: Connector Pin Assignments

    Connector Pin Assignments Introduction This chapter provides pin assignments for various headers and connectors on the MMVE5500 single-board computer. Asynchronous Serial Port Connector (J1) on page 68 Ethernet Connectors (J2) on page 68 IPMC Connector (J3) on page 69 PCI/PMC Expansion Connector (J4) on page 70 CPU COP Connector (J5) on page 72 PMC 1 Interface Connectors (J11, J12, J13, J14) on page 73 Boundary Scan Connector (J18) on page 77...

  • Page 69: Asynchronous Serial Port Connector (J1)

    Connector Pin Assignments Asynchronous Serial Port Connector (J1) 5.2.1 Asynchronous Serial Port Connector (J1) An RJ-45 receptacle is located on the front panel of the MVME5500 board to provide the interface to the COM1 serial port. The pin assignments for this connector are as follows: Table 5-1 COM1 Connector (J1) Pin Assignments Signal GNDC...

  • Page 70: Ipmc Connector (J3)

    IPMC Connector (J3) Connector Pin Assignments 5.2.3 IPMC Connector (J3) One 40-pin Molex .635 mm (.025") pitch board-to-board receptacle (52885) is used to provide a planar interface to IPMC module signals. This receptacle mates with the Molex 53627 plug thus providing the 10.0 mm stacking height of the PMC card. The pin assignments for this connector are as follows: Table 5-3 IPMC Connector (J3) Pin Assignments Signal...

  • Page 71: Pci/Pmc Expansion Connector (J4)

    Connector Pin Assignments PCI/PMC Expansion Connector (J4) 5.2.4 PCI/PMC Expansion Connector (J4) One 114-pin Mictor connector with a center row of power and ground pins is used to provide PCI/PMC expansion capability. The pin assignments for this connector are as follows: Table 5-4 PCI/PMC Expansion Connector (J4) Pin Assignments Signal Signal...
  • Page 72 PCI/PMC Expansion Connector (J4) Connector Pin Assignments Table 5-4 PCI/PMC Expansion Connector (J4) Pin Assignments (continued) Signal Signal PCIRST# C/BE1# C/BE0# C/BE3# C/BE2# AD11 AD10 AD13 AD12 AD15 AD14 AD17 AD16 AD19 AD18 AD21 AD20 AD23 AD22 AD25 AD24 AD27 AD26 AD29 AD28...

  • Page 73: Cpu Cop Connector (J5)

    Connector Pin Assignments CPU COP Connector (J5) Table 5-4 PCI/PMC Expansion Connector (J4) Pin Assignments (continued) Signal Signal PAR64 Reserved C/BE5# C/BE4# C/BE7# C/BE6# AD33 AD32 AD35 AD34 AD37 AD36 AD39 AD38 AD41 AD40 AD43 AD42 AD45 AD44 AD47 AD46 AD49 AD48 AD51...

  • Page 74: Pmc 1 Interface Connectors (J11, J12, J13, J14)

    PMC 1 Interface Connectors (J11, J12, J13, J14) Connector Pin Assignments 5.2.6 PMC 1 Interface Connectors (J11, J12, J13, J14) There are four 64-pin SMT connectors for the PMC 1 slot on the MVME5500 to provide a 32/64- bit PCI interface and optional I/O interface. 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.

  • Page 75: Table 5-7 Pmc 1 Connector (J12) Pin Assignments

    Connector Pin Assignments PMC 1 Interface Connectors (J11, J12, J13, J14) Table 5-6 PMC 1 Connector (J11) Pin Assignments (continued) Signal Signal AD00 REQ64# Table 5-7 PMC 1 Connector (J12) Pin Assignments Signal Signal +12V TRST# PCI_RSVD PCI_RSVD PCI_RSVD MOT_RSVD +3.3V RST# MOT_RSVD...

  • Page 76: Table 5-8 Pmc 1 Connector (J13) Pin Assignments

    PMC 1 Interface Connectors (J11, J12, J13, J14) Connector Pin Assignments Table 5-7 PMC 1 Connector (J12) Pin Assignments (continued) Signal Signal ACK64# +3.3V NC (MONARCH#) Table 5-8 PMC 1 Connector (J13) Pin Assignments Signal Signal PCI_RSVD C/BE7# C/BE6# C/BE5# C/BE4# PAR64 AD63...

  • Page 77: Table 5-9 Pmc 1 Connector (J14) Pin Assignments

    Connector Pin Assignments PMC 1 Interface Connectors (J11, J12, J13, J14) Table 5-8 PMC 1 Connector (J13) Pin Assignments (continued) Signal Signal PCI_RSVD PCI_RSVD Table 5-9 PMC 1 Connector (J14) Pin Assignments Signal Signal PMC1_1 (P2-C1) PMC1_2 (P2-A1) PMC1_3 (P2-C2) PMC1_4 (P2-A2) PMC1_5 (P2-C3) PMC1_6 (P2-A3)

  • Page 78: Boundary Scan Connector (J18)

    Boundary Scan Connector (J18) Connector Pin Assignments Table 5-9 PMC 1 Connector (J14) Pin Assignments (continued) Signal Signal PMC1_61 (P2-C31) PMC1_62 (P2-A31) PMC1_63 (P2-C32) PMC1_64 (P2-A32) 5.2.7 Boundary Scan Connector (J18) The boundary scan connector is used to provide boundary scan testing of all on-board JTAG devices in a single scan chain.

  • Page 79: Table 5-12 Pmc 2 Connector (J22) Pin Assignments

    Connector Pin Assignments PMC 2 Interface Connectors (J21, J22, J23, J24) Table 5-11 PMC 2 Connector (J21) Pin Assignments (continued) Signal Signal AD31 AD28 AD27 AD25 C/BE3# AD22 AD21 AD19 AD17 FRAME# IRDY# DEVSEL# LOCK# PCI_RSVD PCI_RSVD AD15 AD12 AD11 AD09 C/BE0# AD06...

  • Page 80: Table 5-13 Pmc 2 Connector (J23) Pin Assignments

    PMC 2 Interface Connectors (J21, J22, J23, J24) Connector Pin Assignments Table 5-12 PMC 2 Connector (J22) Pin Assignments (continued) Signal Signal AD30 AD29 AD26 AD24 +3.3V IDSEL AD23 +3.3V AD20 AD18 AD16 C/BE2# IDSELB TRDY# +3.3V STOP# PERR# +3.3V SERR# C/BE1# AD14...

  • Page 81: Table 5-14 Pmc 2 Connector (J24) Pin Assignments

    Connector Pin Assignments PMC 2 Interface Connectors (J21, J22, J23, J24) Table 5-13 PMC 2 Connector (J23) Pin Assignments (continued) Signal Signal AD57 AD56 AD55 AD54 AD53 AD52 AD51 AD50 AD49 AD48 AD47 AD46 AD45 AD44 AD43 AD42 AD41 AD40 AD39 AD38 AD37...

  • Page 82: Asynchronous Serial Port (Com2) Planar Connector (J33)

    Asynchronous Serial Port (COM2) Planar Connector (J33) Connector Pin Assignments Table 5-14 PMC 2 Connector (J24) Pin Assignments (continued) Signal Signal PMC2_19 (P2-D13) PMC2_20 (P2-Z13) PMC2_21 (P2-D14) PMC2_22 (P2-D15) PMC2_23 (P2-Z15) PMC2_24 (P2-D16) PMC2_25 (P2-D17) PMC2_26 (P2-Z17) PMC2_27 (P2-D18) PMC2_28 (P2-D19) PMC2_29 (P2-Z19) PMC2_30 (P2-D20) PMC2_31 (P2-D21)

  • Page 83: Vmebus Connectors (P1 & P2) (Pmc Mode)

    Connector Pin Assignments VMEbus Connectors (P1 & P2) (PMC Mode) 5.2.10 VMEbus Connectors (P1 & P2) (PMC Mode) The VME P1 and P2 connectors are 160-pin DINs. The P1 connector provides power and VME signals for 24-bit address and 16-bit data. The pin assignments for the P1 connector are specified by the VME64 Extension Standard (refer to Appendix C, Related Documentation, for...

  • Page 84: Vmebus Connectors (P1 & P2) (Sbc Mode)

    VMEbus Connectors (P1 & P2) (SBC Mode) Connector Pin Assignments Table 5-16 VME Connector (P2) Pin Assignments (PMC Mode) (continued) ROW Z ROW A ROW B ROW C ROW D PMC2_23 PMC1_30 (J14-30) VD17 PMC1_29 (J14-29) PMC2_22 (J24-22) (J24-23) PMC1_32 (J14-32) VD18 PMC1_31 (J14-31) PMC2_24 (J24-24)

  • Page 85: Table 5-17 Vme Connector (P2) Pinout With Ipmc712

    Connector Pin Assignments VMEbus Connectors (P1 & P2) (SBC Mode) Row B of the P2 connector provides power to the MVME5500 and to the upper eight VMEbus address lines, and additional 16 VMEbus data lines. Please read the configuration notes below as they apply to the P2 connector.

  • Page 86: Table 5-18 Vme Connector (P2) Pinouts With Ipmc761

    VMEbus Connectors (P1 & P2) (SBC Mode) Connector Pin Assignments Table 5-17 VME Connector (P2) Pinout with IPMC712 (continued) Row Z Row A Row B Row C Row D RXD4 VD27 CTS1 PMC2_39 (J24-39) PMC2_41 (J24-41) RTS4 VD28 TXD2 PMC2_40 (J24-40) TRXC4 VD29 RXD2...

  • Page 87: Memory Expansion Connector (P4)

    Connector Pin Assignments Memory Expansion Connector (P4) Table 5-18 VME Connector (P2) Pinouts with IPMC761 (continued) Row Z Row A Row B Row C Row D RXD4 VD27 CTS1_232 PMC2_39 (J24-39) PMC2_41 (J24-41) RTXC4 VD28 TXD2_232 PMC2_40 (J24-40) TRXC4 VD29 RXD2_232 PMC2_42 (J24-42) PMC2_44 (J24-44)
  • Page 88 Memory Expansion Connector (P4) Connector Pin Assignments Table 5-19 Memory Expansion Connector (P4) Pin Assignments (continued) Signal Signal MD24 MD25 MD26 MD27 MD28 MD29 MD30 MD31 MD32 MD33 MD34 MD35 MD36 MD37 MD38 MD39 +3.3V +3.3V MD40 MD41 MD42 MD43 MD44 MD45 MD46...

  • Page 89: Headers

    Connector Pin Assignments Headers Table 5-19 Memory Expansion Connector (P4) Pin Assignments (continued) Signal Signal +3.3V +3.3V B2_CS# B3_CS# DQM5 DQM7 SDWE# SDRAS# SDCAS# +3.3V +3.3V DQM6 DQM5 I2CSCL I2CSDA A1_SPD (GND) A0_SPD (NC) DQM4 DQM3 DQM2 CLK_MEZZ +3.3V DQM1 DQM0 Headers This section discusses the various headers associated with the MVME5500.

  • Page 90: Ethernet

    Ethernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 – J110) Connector Pin 5.3.1.1 Ethernet Four 3-pin 2 mm planar headers and four 2-pin 2 mm planar headers are for 10/100/BaseT Ethernet 2 selection. Ethernet 1 is the Gigabit Ethernet port and is front panel only. The pin assignments for these headers are as follows: Table 5-20 Ethernet 2 Selection Headers (J6, J7, J100, J101) Pin Assignments 10/100 Ethernet Receive Pairs...

  • Page 91: Pmc/Sbc Mode Selection

    Connector Pin AssignmentsEthernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 5.3.1.2 PMC/SBC Mode Selection Two 3-pin planar headers on the MVME5500 are for PMC/SBC mode selection. For PMC mode, install jumpers across pins 1-2 on both headers. For SBC/IPMC761 mode, install jumpers across pins 2-3 on both headers.

  • Page 92: P2 I/O Selection

    Ethernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 – J110) Connector Pin 5.3.1.3 P2 I/O Selection Nine 3-pin 2 mm planar headers are for P2 I/O selection. Install jumpers across pins 1-2 on all nine headers to select PMC 2 I/O for P2 in PMC mode.

  • Page 93: Figure 5-1 Sbc/Ipmc712 Mode

    Connector Pin AssignmentsEthernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 Figure 5-1 SBC/IPMC712 Mode MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 94: Figure 5-2 Sbc/Ipmc761 Mode

    Ethernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 – J110) Connector Pin Figure 5-2 SBC/IPMC761 Mode MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 95: Figure 5-3 Pmc Mode

    Connector Pin AssignmentsEthernet 2, PMC/SBC Mode, and P2 I/O Selection Headers (J6, J7, J28, J32, J34, J97 Figure 5-3 PMC Mode MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 96: Flash Boot Bank Select Header (J8)

    Flash Boot Bank Select Header (J8) Connector Pin Assignments 5.3.2 Flash Boot Bank Select Header (J8) A 3-pin 2 mm planar header selects the boot Flash bank. No jumper or a jumper installed across pins 1-2 selects Flash 0 as the boot bank. A jumper installed across pins 2-3 selects Flash 1 as the boot bank.
  • Page 97 Connector Pin Assignments VME SCON Select Header (J27) MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 98: Specifications

    Specifications Power Requirements In its standard configuration, the MVME5500 requires +5V, +12V, and –12V for operation. On-board converters supply the processor core voltage, +3.3V, +1.5V, +1.8V, and +2.5V. A.1.1 Supply Current Requirements Table A-1 provides an estimate of the typical and maximum current required from each of the input supply voltages.
  • Page 99 Specifications Environmental Specifications Table A-2 MVME5500 Specifications (continued) Characteristics Specifications MTBF 207,058 hours MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 100: Thermal Validation

    These operating conditions vary depending on system design. While Emerson performs thermal analysis in a representative system to verify operation within specified ranges, refer to Appendix A, Specifications, you should evaluate the thermal performance of the board in your application.

  • Page 101: Figure B-1 Thermally Significant Components-Secondary Side

    Thermal Validation Thermally Significant Components Table B-1 Thermally Significant Components (continued) Max. Allowable Component Reference Temperature Measurement Designator Generic Description (deg. C) Location VME-to-PCI bridge Ambient Clock buffer Case PCI bridge Ambient U41-43, U45- SDRAM Case 47, U54-56, U60-62, U64- 66, U67-69 U123-124 L3 Cache...

  • Page 102: Component Temperature Measurement

    Component Temperature Measurement Thermal Validation Figure B-2 Thermally Significant Components—Primary Side J102 - J110 J102 - J110 U129 J6 / J100 J101 / J7 U126 U123 U124 4436 0207 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 B-1.

  • Page 103: Measuring Junction Temperature

    Thermal Validation Measuring Junction Temperature 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.

  • Page 104: Figure B-4 Machining A Heatsink

    Measuring Case Temperature Thermal Validation 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 machined areas with thermal grease. The grease should not contact the thermocouple junction. Figure B-4 Machining a Heatsink Machined groove for...
  • Page 105 Thermal Validation Measuring Case Temperature MVME55006E Single Board Computer Installation and Use (6806800A37E)

  • Page 106: Related Documentation

    Documents The Emerson Network Power - Embedded Computing publications listed below are referenced in this manual. You can obtain electronic copies of Emerson Network Power - Embedded Computing publications by contacting your local Emerson sales office. For documentation of final released (GA) products, you can also visit the following website: http://www.emersonnetworkpowerembeddedcomputing.com...
  • Page 107 Related Documentation Manufacturers’ Documents Table C-2 Manufacturers’ Documents (continued) Publication Number or Document Title and Source Search Term GT-64260B System Controller for PowerPC Processors Data Sheet MV-S100414-00B Marvell Technologies, Ltd., http://www.marvell.com Intel Corportation, http://www.intel.com Intel 82544EI Gigabit Ethernet Controller with Integrated PHY Data 82544.pdf Sheet LXT971A 10/100Mbit PHY...

  • Page 108: Related Specifications

    Related Specifications 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 C-3 Related Specifications Publication Number Document Title and Source...
  • Page 109 Related Documentation Related Specifications MVME55006E Single Board Computer Installation and Use (6806800A37E)
  • Page 110 Index Numerics evaluating thermal performance expansion memory 10/100Mb Ethernet features, hardware abort/reset switch firmware package help air temperature range firmware tests ambient temperature, measuring firmware utilities ambient temperatures Flash memory applying power asynchronous serial ports Gigabit Ethernet GT-64260B block diagram CPU bus interface board DMA controller...
  • Page 111 installation P1connector memory programming issues Flash real-time clock (RTC) system relative humidity memory expansion module reset, sources of features restore VME settings installation programming issues MOTLoad serial ports command characteristics serial presence detect command line help settings, VME command line interface signalling voltage (Vio) command line rules sources of reset...

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