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SMART Embedded Computing MVME7100ET Installation And Use Manual

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MVME7100ET Single Board Computer
Installation and Use
P/N: 6806800K87G
October 2019

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  • Page 1 MVME7100ET Single Board Computer Installation and Use P/N: 6806800K87G October 2019...
  • Page 2 Computing” and the SMART Embedded Computing logo are trademarks of SMART Modular Technologies, Inc. All other names and logos referred to are trade names, trademarks, or registered trademarks of their respective owners. These materials are provided by SMART Embedded Computing as a service to its customers and may be used for informational purposes only. Disclaimer* SMART Embedded Computing (SMART EC) assumes no responsibility for errors or omissions in these materials.

  • Page 3: Table Of Contents

    Table of Contents About this Manual ............. . . 11 Safety Notes.
  • Page 4 Table of Contents 2.5.3 XMCspan ............43 Installing and Removing the Board .
  • Page 5 Table of Contents 4.10 PCI-E Port 0 ............74 4.10.1 VME Controller.
  • Page 6 Related Documentation ............109 B.1 SMART Embedded Computing Documentation ....... . 109 B.2 Manufacturers’...
  • Page 7 MVME7100ET Specifications ........
  • Page 8 Table of Contents MVME7100 Single Board Computer Installation and Use (6806800K87G)
  • Page 9 List of Figures Figure 2-1 Primary Side Thermally Significant Components ......34 Figure 2-2 Secondary Side Thermally Significant Components ..... . . 35 Figure 2-3 Switch Locations .
  • Page 10 Table of Contents MVME7100 Single Board Computer Installation and Use (6806800K87G)

  • Page 11: About This Manual

    About this Manual Overview of Contents This manual provides the information required to install and configure an MVME7100ET Single Board Computer. Additionally, this manual provides specific preparation and installation information and data applicable to the board. The MVME7100ET is a high-performance, dual core processor board featuring the NXP 8641D with a dedicated bridge to each processor.
  • Page 12 KBAUD Kilo Baud Local Bus Controller NAND (Not and) Flash that is used for storage (Not or) Flash that is used for executing code PCI-X Peripheral Component Interconnect -X Programmable Interrupt Controller MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 13 Static Random Access Memory TSEC Three-Speed Ethernet Controller 2eSST Two edge Source Synchronous Transfer UART Universal Asynchronous Receiver/Transmitter Volts Input/Output Voltage VITA VMEbus International Trade Association VMEbus (Versa Module Eurocard) Vital Product Data Watts MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 14 Logical OR 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 MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 15 Computing Template. Updated Freescale to NXP; updated RoHS compliance 6806800K87F May 2016 Removed Declaration of Conformity. 6806800K87E June 2014 Re-branded to Artesyn template. Standard Compliances on Updated 6806800K87D December 2012 page 27 MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 16 Part Number Publication Date Description Safety Notes on page 17 Updated 6806800K87C September 2011 Sicherheitshinweise on page 21 MVME7100ET Updated 6806800K87B July 2011 Specifications on page 31 6806800K87A September 2010 First edition MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 17: Safety Notes

    Failure to comply with these precautions or with specific warnings elsewhere in this manual could result in personal injury or damage to the equipment. SMART Embedded Computing intends to provide all necessary information to install and handle the product in this manual. Because of the complexity of this product and its various uses, we do not guarantee that the given information is complete.
  • Page 18 Product Damage Only use injector handles for board insertion to avoid damage to the front panel and/or PCB. Deformation of the front panel can cause an electrical short or other board malfunction. MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 19 If the respective battery model is not available, contact your local SMART Embedded Computing sales representative for the availability of alternative, officially approved battery models.
  • Page 20 PCB and Battery Holder Damage Removing the battery with a screw driver may damage the PCB or the battery holder. To prevent damage, do not use a screw driver to remove the battery from its holder. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 21: Sicherheitshinweise

    Verletzungen oder Schäden am Produkt zur Folge haben. SMART Embedded Computing ist darauf bedacht, alle notwendigen Informationen zum Einbau und zum Umgang mit dem Produkt in diesem Handbuch bereit zu stellen. Da es sich jedoch um ein komplexes Produkt mit vielfältigen Einsatzmöglichkeiten handelt, können wir die Vollständigkeit der im Handbuch enthaltenen Informationen nicht...
  • Page 22 Funktionen belegt sein. Das Ändern dieser Schalter kann im normalen Betrieb Störungen auslösen. Verstellen Sie nur solche Schalter, die nicht mit 'Reserved' gekennzeichnet sind. Prüfen und ggf. ändern Sie die Einstellungen der nicht mit 'Reserved' gekennzeichneten Schalter, bevor Sie das Produkt installieren. MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 23 Stellen Sie sicher, dass die Länge eines mit Ihrem 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. MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 24 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 gültigen Gesetzgebung, wenn möglich immer umweltfreundlich. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 25: Introduction

    The MVME7100ET Single Board Computeris a VMEbus board based on the MC8640D and MC8641D integrated PowerPC processors. It is a full 6U board and occupies a single VME card slot with PMC cards installed. The MVME7100ET is compliant with the VITA standards VMEbus, 2eSST, and PCI-X as listed in Appendix B, Related Documentation on page 109.
  • Page 26 VME64 Extensions (ANSI/VITA 1.1-1997) compliant (5 row backplane 160-pin VME connector) VME Interface 2eSST (ANSI/VITA 1.5-2003) compliant Two five-row P1 and P2 backplane connectors One Tsi148 VMEbus controller Form Factor Standard 6U VME, one slot MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 27: Standard Compliances

    Switches for VME geographical addressing in a three-row backplane VxWorks OS support Software Support Linux OS support Standard Compliances The MVME7100ET is designed to be CE compliant and to meet the following requirements. Table 1-2 Board Standard Compliances Standard Description UL 60950-1...

  • Page 28: Mechanical Data

    Weight 0.680kg Ordering Information Refer to the data sheet for the MVME7100ET Single Board Computer for a complete list of available variants and accessories. Refer to Appendix B, Related Documentation on page or consult your local SMART Embedded Computing sales representative for the availability of other variants.

  • Page 29: Hardware Preparation And Installation

     Two single-wide or one double-wide PCI Mezzanine Card (PMC) slot for added versatility.  One transition module for support of the mapped I/O from the MVME7100ET baseboard to the P2 connector.  Up to two optional XMCspan cards. The following table lists the tasks that you are required to do before you can use this board.

  • Page 30: Unpacking And Inspecting The Board

    Requirements Make sure that the board, when operated in your particular system configuration, meets the requirements specified in the next sections. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 31: Environmental Requirements

    Sweep rate: 0.25 octaves/minute Designed to operate up to 100% relative humidity, Non Humidity condensing The RTC field removable battery should be removed, if MVME7100ET has to be stored beyond its operational temperature range. NOTICE Product Damage High humidity and condensation on the board surface causes short circuits.

  • Page 32: Power Requirements

    Maximum: 60W @ +5V Typical: 45W @ +5V MVME7100ET-0173 Maximum: 60W @ +5V The following table shows the power available when the MVME7100ET is installed in either a 3-row or 5-row chassis and when PMCs are present. Chassis Type Available Power...

  • Page 33: Thermally Significant Components

    PCI-Express Bridge 115°C Ambient VME Bridge 90°C Junction U10, U11, U12, U13, U14, U56, U57, U58, U59, DDR2 SDRAM 95°C Case U6, U60, U61, U62, U63, U64, U7, U8, U9 105°C Junction MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 34: Figure 2-1 Primary Side Thermally Significant Components

    Hardware Preparation and Installation Hardware Preparation and Installation Figure 2-1 Primary Side Thermally Significant Components MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 35: Equipment Requirements

    Transition module and connecting cables Configuring the Board To produce the desired configuration and ensure proper operation of the MVME7100ET, you may need to carry out certain hardware modifications before installing the module. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 36: Figure 2-3 Switch Locations

    Hardware Preparation and Installation Hardware Preparation and Installation The MVME7100ET provides software control over most options. By setting bits in control registers after installing the module in a system, you can modify its configuration. The MVME7100ET control registers are described in the MVME7100ET Programmer’s Reference.

  • Page 37: Smt Configuration Switch, S1

    2.4.1 SMT Configuration Switch, S1 An 8-position SMT configuration switch (S1) is located on the MVME7100ET to control the flash bank write-protect, select the flash boot image, and control the safe start ENV settings. The default setting on all switch positions is OFF and is indicated by brackets in Table 2-5.

  • Page 38: Safe Start Switch

    2.4.1.4 JTAG Pass-Thru The JTAG Pass-Thru switch is in the OFF position for normal operation. The switch is ON for pass-through mode. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 39: Low Memory Offset

    MVME7100ET. Applications not using the 5-row backplane can use the geographical address switch to assign a geographical address per the following diagram. More information regarding GA address switch assignments can be found in the MVME7100ET Single Board Computer Programmer’s Reference.

  • Page 40: Vme System Controller Select, S2

    Before installing the MVME721ET transition module, you may need to manually configure the switch and install a PMC I/O Module (PIM). Refer Chapter 5, Transition Module on page 79, for switch settings and PIM installation. MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 41 9. Connect the appropriate cables to the transition module. To remove the transition module from the chassis, reverse the procedure and press the red locking tabs (IEEE handles only) to extract the board. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 42: Pmc

    MVME7100ET. 4. Insert the four short phillips-head screws (provided with the PMC) through the holes on the bottom side of the MVME7100ET and the PMC front bezel and into rear standoffs. Tighten the screws. Refer to Figure 2-6 on page...

  • Page 43: Xmcspan

    Hardware Preparation and Installation 5. Reinstall the MVME7100ET assembly in its proper card slot. Be sure the module is well seated in the backplane connectors. Do not damage or bend connector pins. 6. If the PMC module was installed in a non-hot swap chassis, replace the chassis or system cover(s), reconnect the system to the AC or DC power source and turn the equipment power on.

  • Page 44: Installing And Removing The Board

    2. Remove any filler panel that might fill that slot. 3. Install the top and bottom edge of the MVME7100ET into the guides of the chassis. 4. Ensure that the levers of the two injector/ejectors are in the outward position.

  • Page 45: Completing The Installation

    The MVME7100ET is designed to operate as an application-specific computing blade or an intelligent I/O board/carrier. It can be used in any slot in a VME chassis. When the MVME7100ET is installed in a chassis, you are ready to connect peripherals and apply power to the board.
  • Page 46 Kernel 2.6.25 on a 2-processor MVME7100 localhost login: Login as root. The /root/README.MVME7100_LINUX file provides a brief overview of MVME7100ET Linux. Contact SMART Embedded Computing for kernel patches and additional information on using MVME7100ET Linux. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 47: Controls, Leds, And Connectors

    Chapter 3 Controls, LEDs, and Connectors Overview This chapter summarizes the controls, LEDs, connectors, and headers for the MVME7100ET baseboard. Connectors for the MVME721ET transition module can be found in Rear Panel Connectors on page Board Layout The following figure shows the components, LEDs, connectors, and the reset switch on the MVME7100ET.

  • Page 48: Front Panel

    3.3.1 Reset/Abort Switch The MVME7100ET has a single push button switch to provide both the abort and reset functions. When the switch is depressed for less than 3 seconds, an abort interrupt is generated to the MC8641D PIC. If the switch is held for more than 3 seconds, a board hard reset is generated.

  • Page 49: Leds

    Controls, LEDs, and Connectors 3.3.2 LEDs The table below describes the LEDs on the front panel of the MVME7100ET. Refer to Figure 3-1 on page 47 for LED locations. Table 3-1 Front Panel LEDs Label Function Location Color Description This indicator is illuminated...

  • Page 50: Connectors

    3.3.3 Connectors This section describes the pin assignments and signals for the connectors on the MVME7100ET. The table below lists the standard connectors on the MVME7100ET baseboard. Refer to Figure 3-1 on page 47 for connector locations. Pin assignments for the connectors are in the following sections.

  • Page 51: Xmc Expansion Connector (J6)

    Signal TX0_P RX0_P TX0_N RX0_N TX1_P RX1_P TX1_N RX1_N TX2_P RX2_P TX2_N RX2_N TX3_P RX3_P TX3_N RX3_N REFCLK_P No Connect REFCLK_N No Connect No Connect No Connect No Connect PCIE_END_N INT_N RESET_N MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 52: Ethernet Connectors (J4A/J4B)

    Gigabit Ethernet interfaces are routed to P2 for rear I/O. These connectors use standard pin assignments and are as follows: Table 3-4 Ethernet Connectors (J4A/J4B) Pin Assignments Pin # 10/100/1000 Mb/s _DA+ _DA- _DB+ MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 53: Pci Mezzanine Card (Pmc) Connectors (J11-J14, J21-J23)

    3.3.3.3 PCI Mezzanine Card (PMC) Connectors (J11-J14, J21-J23) There are seven 64-pin SMT connectors on the MVME7100ET to provide 32/64-bit PCI interfaces and P2 I/O for one optional add-on PMC. PMC slot connector J14 contains the signals that go to VME P2 I/O rows A, C, D, and Z.

  • Page 54: Table 3-6 Pmc Slot 1 Connector (J12) Pin Assignments

    AD00 REQ64# Table 3-6 PMC Slot 1 Connector (J12) Pin Assignments Signal Signal +12V TRST# Not Used Not Used Not Used Pull-up +3.3V RST# Pull-down +3.3V Pull-down Not Used AD30 AD29 AD26 MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 55: Table 3-7 Pmc Slot 1 Connector (J13) Pin Assignments

    GNT1B# Not Used Not Used EREADY0 Not Used ACK64# +3.3V No Connect (MONARCH#) Table 3-7 PMC Slot 1 Connector (J13) Pin Assignments Signal Signal Reserved C/BE7# C/BE6# C/BE5# C/BE4# +3.3V (VIO) PAR64 MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 56 AD55 AD54 AD53 AD52 AD51 AD50 AD49 AD48 AD47 AD46 AD45 +3.3V (VIO) AD44 AD43 AD42 AD41 AD40 AD39 AD38 AD37 AD36 AD35 AD34 AD33 +3.3V (VIO) AD32 Reserved Reserved Reserved Reserved MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 57: Table 3-8 Pmc Slot 1 Connector (J14) Pin Assignments

    PMC1_41 (P2-C21) PMC1_42 (P2-A21) PMC1_43 (P2-C22) PMC1_44 (P2-A22) PMC1_45 (P2-C23) PMC1_46 (P2-A23) PMC1_47 (P2-C24) PMC1_48 (P2-A24) PMC1_49 (P2-C25) PMC1_50 (P2-A25) PMC1_51 (P2-C26) PMC1_52 (P2-A26) PMC1_53 (P2-C27) PMC1_54 (P2-A27) PMC1_55 (P2-C28) PMC1_56 (P2-A28) MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 58: Table 3-9 Pmc Slot 2 Connector (J21) Pin Assignments

    PMC Slot 2 Connector (J21) Pin Assignments Signal Signal -12V INTC# INTD# INTA# PMCPRSNT1# INTB# PCI_RSVD +3.3Vaux PMCGNT1# PMCREQ1# +3.3V (VIO) AD31 AD28 AD27 AD25 C/BE3# AD22 AD21 AD19 +3.3V (VIO) AD17 FRAME# IRDY# DEVSEL# LOCK# PCI_RSVD PCI_RSVD MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 59: Table 3-10 Pmc Slot 2 Connector (J22) Pin Assignments

    PMC Slot 2 Connector (J22) Pin Assignments Signal Signal +12V TRST# Not Used Not Used Not Used Pull-up +3.3V RST# Pull-down +3.3V Pull-down Not Used AD30 AD29 AD26 AD24 +3.3V IDSEL1 AD23 +3.3V AD20 AD18 AD16 C/BE2# MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 60: Table 3-11 Pmc Slot 2 Connector (J23) Pin Assignments

    Not Used ACK64# +3.3V No Connect (MONARCH#) Table 3-11 PMC Slot 2 Connector (J23) Pin Assignments Signal Signal Reserved C/BE7# C/BE6# C/BE5# C/BE4# +3.3V (VIO) PAR64 AD63 AD62 AD61 AD60 AD59 AD58 AD57 MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 61: Serial Port Connector (Com1/J1)

    There is one front access asynchronous serial port interface (SP0) that is routed to the mini DB-9 front-panel connector. The pin assignments for these connectors are as follows: Table 3-12 COM1 Port Connector Pin Assignments Signal No connect MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 62: Vmebus P1 Connector

    BG1OUT* Reserved BG2IN* Reserved Reserved BG2OUT* GAP_L SYSCLK BG3IN* SYSFAIL* GA0_L Reserved BG3OUT* BERR* GA1_L DS1* BR0* SYSRESET* Reserved Reserved DS0* BR1* LWORD* GA2_L WRITE* BR2* Reserved Reserved BR3* GA3_L DTACK* Reserved MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 63: Vmebus P2 Connector

    The VME P2 connector is a 160-pin DIN. Row B of the P2 connector provides power to the MVME7100ET and to the upper eight VMEbus address lines and additional 16 VMEbus data lines. The Z, A, C, and D pin assignments for the P2 connector are the same for both...
  • Page 64 PMC1_IO47 E2-3+ SP4RX PMC1_IO50 VD26 PMC1_IO49 PMC1_IO52 VD27 PMC1_IO51 E2-2- SP4TX PMC1_IO54 VD28 PMC1_IO53 E2-2+ PMC1_IO56 VD29 PMC1_IO55 SP4CTS PMC1_IO58 VD30 PMC1_IO57 E2-1- PMC1_IO60 VD31 PMC1_IO59 E2-1+ SP4RTS PMC1_IO62 PMC1_IO61 PMC1_IO64 PMC1_IO63 MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 65: Mvme721Et Pmc I/O Module (Pim) Connectors (J10, J14)

    PMC Host I/O connector J10 routes only power and ground from VME P2. There are no Host I/O signals on this connector. The MVME7100ET routes PMC I/O from J14 of PMC Slot 1 to VME P2 rows A and C. The MVME721ET routes these signals (pin-for-pin) from VME P2 to PMC I/O Module connector J14.

  • Page 66: Headers

    No Connect No Connect No Connect Headers This section describes the pin assignments of the Headers on the MVME7100ET. 3.4.1 Processor COP Header (P4) There is one standard 16-pin header that provides access to the COP function. The pin assignments for this header are as follows:...

  • Page 67: Boundary Scan Header (P5)

    Boundary Scan Header (P5) Pin Assignments Signal Signal TRST_N (BSCANEN_N) No Connect AUTOWR_N No Connect No Connect No Connect NOTE: Pin 10 must be grounded in the cable in order to enable boundary scan. MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 68 Controls, LEDs, and Connectors Controls, LEDs, and Connectors MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 69: Functional Description

    Functional Description Overview The MVME7100ET VMEbus board is based on the MC8640D (1.067GHz versions) and the MC8641D (1.33GHz versions) Integrated Processors. The MVME7100ET provides front panel access to one serial port with a mini DB-9 connector and two 10/100/1000 Ethernet ports with two RJ-45 connectors.

  • Page 70: Block Diagram

    Functional Description Functional Description Block Diagram The following figure is a block diagram of the MVME7100ET architecture. Figure 4-1 Block Diagram MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 71: Processor

    Functional Description Processor The MVME7100ET is designed to support the MC864xD (dual e600 core) processor. The processor is configured to operate at 1.067GHz or 1.33GHz core frequency with a corresponding DDR400 Mb or DDR533 DDR2 memory bus. The MVME7100ET supports the power-on reset (POR) pin sampling method for processor reset configuration.

  • Page 72: System Memory

    I/O registers. The LBC has programmable timing modes to support devices of different access times, as well as device widths of 8, 16, and 32 bits. The MVME7100ET uses the LBC in GPCM mode to interface to two physical banks of on-board flash, an on- board Quad UART (QUART), an MRAM, and on-board 32-bit timers along with control/status registers.

  • Page 73: Flash Memory

    Functional Description A hardware flash bank write protect switch is provided on the MVME7100ET to enable write protection of the NOR Flash. Regardless of the state of the software flash write protect bit in the NOR Flash Control/Status register, write protection is enabled when this switch is ON.

  • Page 74: Control And Timers Pld

    115 Kbaud. Refer to the ST16C554D data sheet for additional details and/or programming information. 4.8.4 Control and Timers PLD The MVME7100ET Control and Timers PLD resides on the local bus. The Control and Timers PLD provides the following functions on the board:  Local bus address latch ...

  • Page 75: 4.10.1 Vme Controller

    Functional Description 4.10.1 VME Controller The VMEbus interface for the MVME7100ET is provided by the Tsi148 VMEbus controller. The Tsi148 provides the required VME, VME extensions, and 2eSST functions. TI SN74VMEH22501 transceivers are used to buffer the VME signals between the Tsi148 and the VME backplane.

  • Page 76: Power Supply Filtering And Fusing

    4.12.3 Power Supply Filtering and Fusing Each of the switching power supply inputs on the MVME7100ET will have an inductor to reduce switching noise from being fed back onto the +5.0V input. The LTC3828 supplies will each have a 10A fuse to protect the supplies from over-current in case of component failure.

  • Page 77: Reset Control Logic

    Functional Description 4.14 Reset Control Logic There are multiple sources of reset on the MVME7100ET. The following sources generate a board level reset:  Power-up  Reset switch  Watchdog timer  System control register (BRD_RST)  VMEbus reset A board level hard reset generates a reset for the entire SBC including the processor, local PCI/PCI-X buses, Ethernet PHYs, serial ports, flash devices, and PLD(s).
  • Page 78 Functional Description Functional Description MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 79: Transition Module

    Transition Module Layout The following illustration shows the component layout and connectors on the MVME721ET transition module. Figure 5-1 Component Layout S1 SMT Switch MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 80: Features

    The MVME721ET transition module is for I/O routing through the rear of a compact VMEbus chassis. It connects directly to the VME backplane in chassis’ with an 80mm deep rear transition area. The MVME721ET is designed for use with the host MVME7100ET board. It has these features:...

  • Page 81: Seeprom Address Switch, S1

    Figure 5-1 on page Figure 5-3 S1 Switch Positions Table 5-2 SEEPROM Address Switch Assignments (RTM) Position Function A(2) A(1) A(0) Default (OFF) Table 5-3 Switch Settings and Device Addresses Device A(2:0) Address $AA (default) MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 82: Rear Panel Connectors

    PMC I/O (PIM) connector J10 routes only power and ground from VME P2 connector. There are no host I/O signals on this connector. The MVME7100ET routes PMC I/O from J14 of PMC Slot 1 to VME P2 rows A and C. The MVME721ET routes these signals (pin- for-pin) from VME P2 to PMC I/O module connector J14.

  • Page 83: Pmc Input/Output Module

    PIM front bezel and rear standoffs. Tighten the screws. Refer to the following figure for proper screw/board alignment. The example below may not accurately represent your MVME7100ET. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 84: Figure 5-5 Installing The Pim

    Transition Module Transition Module Figure 5-5 Installing the PIM PIM Alignment MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 85: Motload Firmware

    Implementation and Memory Requirements The implementation of MOTLoad and its memory requirements are product specific. The MVME7100ET single-board computer (SBC) is offered with a range of memory (for example, DRAM or flash). Typically, the smallest amount of on-board DRAM that a SBC has is 32MB.

  • Page 86: Tests

    MOTLoad Firmware Package User’s Manual. 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. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 87: Command List

    Block Move Byte/Halfword/Word Assign/Delete/Display User-Program Break-Points Block Search Byte/Halfword/Word Block Verify Byte/Halfword/Word ISO9660 File System Directory Listing cdDir ISO9660 File System File Load cdGet Clear the Specified Status/History Table(s) clear Turns on Concurrent Mode MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 88 Global Environment Variable Area Initialize (NVRAM Header) gevInit Global Environment Variable Labels (Names) Listing gevList Global Environment Variable Show gevShow Go Execute User-Program to Next Instruction Go Execute User-Program Go Execute User-Program to Temporary Break-Point Display History Buffer MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 89 Display PCI Device Address Space Allocation pciSpace Ping Network Host ping Port Set portSet Display Port Device Configuration Data portShow User Program Register Display Reset System reset User Program Register Set Set Date and Time MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 90 RAM March testRamMarch RAM Patterns testRamPatterns RAM Permutations testRamPerm RAM Quick testRamQuick RAM Random Data Patterns testRamRandom RTC Alarm testRtcAlarm RTC Reset testRtcReset RTC Rollover testRtcRollOver RTC Tick testRtcTick Serial External Loopback testSerialExtLoop MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 91: Using The Command Line Interface

    MOTLoad then performs the specified action. An example of a MOTLoad command line prompt is shown below. The MOTLoad prompt changes according to what product it is used on (for example, MVME6100, MVME3100, MVME7100). Example: MVME7100> MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 92: Rules

    There are a few things to remember 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). MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 93: Help

    -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 MVME7100> MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 94: Firmware Settings

    6.5.1 Default VME Settings As shipped from the factory, the MVME7100ET has the following VME configuration programmed via Global Environment Variables (GEVs) for the Tsi148 VME controller. The firmware allows certain VME settings to be changed in order for the user to customize the environment.
  • Page 95 Outbound Image 1 2eSST Broadcast Select Register = 00000000 MVME7100> Outbound window 1 (OTAT1) is enabled, 2eSST timing at SST320, transfer mode of 2eSST, A32/D32 Supervisory access. The window accepts transfers on MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 96 PCI-X Local Bus from 0xB3FF0000-0xB3FF0000 and translates them onto the VMEbus using an offset of 0x4C000000, thus an access to 0xB3FF0000 on the PCI-X Local Bus becomes an access to 0xFFFF0000 on the VMEbus. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 97: Control Register/Control Status Register Settings

     To display selected Outbound Window state: vmeCfg –s –o(0 - 7)  To display Master Control Register state: vmeCfg –s –r234  To display Miscellaneous Control Register state: vmeCfg –s –r238 MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 98: Editing Vme Settings

    Deletes selected Outbound Window state: vmeCfg –d –o(0 - 7)  Deletes Master Control Register state: vmeCfg –d –r234  Deletes Control Register state: vmeCfg –d –r238  Deletes CRG Attribute Register state: vmeCfg –d –r414 MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 99: Restoring Default Vme Settings

    These transactions occur across the VMEbus in the case of the MVME7100ET. MOTLoad uses one of four mailboxes in the Tsi148 VME controller as the inter-board communication address (IBCA) between the host and the target.

  • Page 100: Boot Images

    MOTLoad Firmware MOTLoad Firmware The MVME7100ET uses a TSi148 for its PCI/X-to-VME bus bridge. The offsets of the mailboxes in the TSi148 are defined in the TSi148 VMEBus PCI/X-to-VME User Manual, listed in Appendix B, Related Documentation, but are noted here for reference:...

  • Page 101: Checksum Algorithm

    IMAGE_MCG If set, this flag defines the image as being an Alternate MOTLoad, as opposed to USER, image. This bit should not be set by developers of alternate boot images. MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 102: User Images

    If specified by COPY_TO_RAM, the image has been copied to RAM at the address specified by ImageRamAddress.  CPU register R1 (the stack pointer) has been initialized to a value near the end of RAM.  CPU register R3 is added to the following structure: MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 103: Alternate Boot Data Structure

    Some later versions of MOTLoad support alternate boot images and a safe start recovery procedure. If safe start is available on the MVME7100ET, alternate boot images are supported. With alternate boot image support, the boot loader code in the boot block examines the upper 8 MB of the flash bank for alternate boot images.
  • Page 104 Addr FFE00000 Size 00100000 Flags 00000003 Name: MOTLoad Addr FFD00000 Size 00100000 Flags 00000003 Name: MOTLoad boot> c NOPQRSTUVabcdefghijk#lmn3opqrsstuvxyzaWXZ Copyright Motorola Inc. 1999-2004, All Rights Reserved MOTLoad RTOS Version 2.0, PAL Version 0.b EA02 MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 105: Startup Sequence

    MVME7100ET Single Board Computer Installation and Use (6806800K87G)
  • Page 106 MOTLoad Firmware MOTLoad Firmware MVME7100ET Single Board Computer Installation and Use (6806800K87G)

  • Page 107: Battery Exchange

    Appendix A Battery Exchange Battery Exchange Some blade variants contain an on-board battery. The battery location is shown in the following figure. Figure A-1 Battery Location MVME7100 Single Board Computer Installation and Use (6806800K87G)
  • Page 108 3. Dispose of the old battery according to your country’s legislation and in an environmentally safe way. The RTC field removable battery should be removed, if MVME7100ET has to be stored beyond its operational temperature range. MVME7100 Single Board Computer Installation and Use (6806800K87G)

  • Page 109: Related Documentation

    Table B-1 SMART EC Documentation Document Title Publication Number MVME7100 Data Sheet MVME7100-DS MVME7100ET Single Board Computer Programmer’s Reference 6806800K88 MOTLoad Firmware Package User’s Manual 6806800C24 XMCspan Installation and Use 6806800H03 Manufacturers’ Documents For additional information, refer to the following table for manufacturers’ data sheets or user’s manuals.
  • Page 110 Related Documentation Related Documentation Table B-2 Manufacturer’s Publications (continued) Document Title and Source Publication Number 2-Wire Serial EEPROM Rev. 1116K-SEEPR- 512K (65,536 x 8) 1/04 AT24C512 NXP Corporation MC864xD Integrated Host Processor Reference Manual MC864xD Errata MC864xD Integrated Processor Hardware Specifications NXP 512 MB MRAM Texas Instruments Data Sheet...

  • Page 111: Related Specifications

    Related Documentation Table B-2 Manufacturer’s Publications (continued) Document Title and Source Publication Number Broadcom Corporation BCM5482S 5482S-DS09-R 10/100/1000BASE-T Gigabit Ethernet Transceiver 2/13/09 PLX Technology PEX8112AA Version 1.2 ExpressLane PCI Express-to-PCI Bridge Data Book ExpressLane PEX 8114BC Version 3.0 PCI Express-to-PCI/PCI-X Bridge Data Book ExpressLane PEX 8525AA Version 0.95...
  • Page 112 Related Documentation Related Documentation Table B-3 Related Specifications (continued) Organization and Standard Document Title Universal Serial Bus Revision 2.0 Universal Serial Bus Specification April 27, 2000 PCI Special Interest Group PCI Rev 2.2 PCI Local Bus Specification, Revision 2.2 December 18, 1998 PCI-X Electrical and Mechanical Addendum to the PCI Local Bus PCI-X EM 2.0a Specification, Revision 2.0a...
  • Page 114 © 2019 SMART Embedded Computing™, Inc. All Rights Reserved. The stylized “S” and “SMART” is a registered trademark of SMART Modular Technologies, Inc. and “SMART Embedded Computing” and the SMART Embedded Computing logo are trademarks of SMART Modular Technologies, Inc. All other names and logos...

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