Motorola MVME6100 manual VMEbus Interface, PMCspan Interface, Flash Memory, System Memory

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Chapter 4 Functional Description

PCI Bus Arbitration

PCI arbitration is performed by the MV64360 system controller. The MV64360 integrates two PCI arbiters, one for each PCI interface (PCI bus 0/1). Each arbiter can handle up to six external agents plus one internal agent (PCI bus 0/1 master). The internal PCI arbiter REQ#/GNT# signals are multiplexed on the MV64360 MPP pins. The internal PCI arbiter is disabled by default (the MPP pins function as general-purpose inputs). Software configures the MPP pins to function as request/grant pairs for the internal PCI arbiter. The arbitration pairs for the MVME6100 are assigned to the MPP pins as shown in the MVME6100 Programmer’s Guide.

VMEbus Interface

The VMEbus interface is provided by the Tsi148 ASIC. Refer to the Tsi148 User’s Manual available from Tundra Semiconductor for additional information as listed in Appendix 1, Related Documentation. 2eSST operations are not supported on 3-row backplanes. You must use VME64x (VITA 1.5) compatible backplanes, such as 5-row backplanes, to achieve maximum VMEbus performance.

PMCspan Interface

The MVME6100 provides a PCI expansion connector to add more PMC interfaces than the two on the MVME6100 board. The PMCspan interface is provided through the PCI6520 PCIx/PCIx bridge.

Flash Memory

The MVME6100 contains two banks of flash memory accessed via the device controller bus contained within the MV64360 device. Both banks are soldered on board and have different write-protection schemes.

System Memory

MVME6100 system memory consists of double-data-rate SDRAMs. The DDR SDRAMs support two data transfers per clock cycle. The memory device is a standard monolithic (32M x 8 or 64M x 8) DDR, 8-bit wide, 66-pin, TSSOPII package. Both banks are provided on board the MVME6100 and operate at 133 MHz clock frequency with both banks populated.

Asynchronous Serial Ports

The MVME6100 board contains one EXAR ST16C554D quad UART (QUART) device connected to the MV64360 device controller bus to provide asynchronous debug ports. The QUART supports up to four asynchronous serial ports, two of which are used on the MVME6100.

42MVME6100 Installation and Use (V6100A/IH2)

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Contents V6100A/IH2 Installation and UseTrademarks Safety Summary Flammability Limited and Restricted Rights Legend Contents Functional Description Specifications List of Figures List of Tables Gigabit Ethernet Connectors J9, J93 Pin AssignmentOverview of Contents About This ManualComments and Suggestions About This Manual Conventions Used in This ManualHardware Preparation and Installation IntroductionDescription Getting Started Hardware Preparation and InstallationOverview of Startup Procedures Unpacking GuidelinesStartup Overview MVME6100 Preparation Hardware ConfigurationJumper Switch Function Settings MVME6100 Jumper and Switch SettingsMVME6100 Layout PMC/IPMC Selection Headers J10, J15 J18, J25 J28 Scon Header J7Srom Configuration Switch S3 Srom Configuration Switch S3No Srominit Positio Function Flash Boot Bank Select Configuration Switch S4Hardware Installation Installing the MVME6100 into a ChassisConfiguration Switch S4 Connection to Peripherals Completing the InstallationMVME6100 Connectors Connector FunctionStartup and Operation Applying PowerSwitches and Indicators Front-Panel LED Status IndicatorsMOTLoad Implementation and Memory Requirements MOTLoad CommandsMOTLoad Firmware OverviewMOTLoad Tests MOTLoad Utility ApplicationsCommand Line Interface Using MOTLoadCommand Line Rules Command Line HelpMOTLoad Command List MOTLoad CommandsCommand Description MOTLoad Commands MOTLoad Commands MOTLoad Commands MVME6100 vmeCfg -s -m Default VME SettingsMVME6100 vmeCfg -s -o1 Firmware Settings CR/CSR SettingsDisplaying VME Settings VmeCfg -e -r40C Editing VME SettingsDeleting VME Settings Restoring Default VME SettingsRemote Start Slot Position CS/CSR Starting Address Alternate Boot Images and Safe Start Firmware Startup Sequence Following ResetFirmware Scan for Boot Image Address Usage Valid Boot Images Checksum AlgorithmName Type Size Name Value Interpretation MOTLoad Image FlagsUser Images MOTLoad Image FlagsAlternate Boot Data Structure Functional Description FeaturesMVME6100 Features Summary Feature DescriptionMVME6100 Block Diagram Block DiagramProcessor L3 CacheSystem Controller Memory Controller Interface CPU Bus InterfaceDevice Bus Parameters Device Controller InterfacePCI/PCI-X Interfaces Gigabit Ethernet MACsFour Channel Independent DMA Controller General-Purpose Timers/CountersWatchdog Timer I2O Message UnitInterrupt Controller System Memory VMEbus InterfacePMCspan Interface Flash MemoryPCI Mezzanine Card Slots Debug Support Real-Time Clock/NVRAM/Watchdog TimerReset Control Logic Idsel RoutingPin Assignments Pin Signal ConnectorsPMC Expansion Connector J4 PMC Expansion Connector J4 Pin AssignmentsPAR Gigabit Ethernet Connectors J9, J93 Gigabit Ethernet Connectors J9, J93 Pin AssignmentPin # Signal 1000 Mb/s 10/100 Mb/s PMC Slot 1 Connector J11 Pin Assignments PCI Mezzanine Card PMC Connectors J11 J14, J21 J24PMC Slot 1 Connector J12 Pin Assignments PMC Slot 1 Connector J13 Pin Assignments PMC Slot 1 Connector J14 Pin Assignments PMC Slot 2 Connector J21 Pin Assignments PMC Slot 2 Connector J22 Pin Assignments PMC Slot 2 Connector J23 Pin Assignments 10. PMC Slot 2 Connector J24 Pin Assignments 11. COM1 Connector J19 Pin Assignments COM1 Connector J1912. VMEbus P1 Connector Pin Assignments VMEbus P1 Connector13. VMEbus P2 Connector Pin Assignments PMC Mode VMEBus P2 Connector PMC ModeP2IOGLAN1M VMEbus P2 Connector Ipmc Mode 14. VME P2 Connector Pinouts with IPMC712Pin Row Z Row a Row B Row C Row D 15. VME P2 Connector Pinouts with IPMC761 16. Scon Header J7 Pin Assignments Headers18. PMC/IPMC Configuration Jumper Block Boundary Scan Header J817. Boundary Scan Header J8 Pin Assignments 19. COM2 Planar Serial Port Header J29 Pin Assignments COM2 Header J2921. Processor JTAG/COP RISCWatch Header J42 Pin Assignments Processor JTAG/COP Header J42Supply Current Requirements SpecificationsPower Requirements Environmental SpecificationsAppendix a Specifications Thermally Significant Components Thermal ValidationDesignator Generic Description Deg. C Location Table B-1. Thermally Significant ComponentsMax. Allowable Component Reference MeasurementFigure B-1. Thermally Significant Components-Primary Side Figure B-2. Thermally Significant Components-Secondary Side Preparation Component Temperature MeasurementMeasuring Junction Temperature Measuring Case TemperatureFigure B-3. Mounting a Thermocouple Under a Heatsink Figure B-4. Measuring Local Air Temperature Measuring Local Air TemperatureMotorola Embedded Communications Computing Documents Related DocumentationManufacturers’ Documents Table C-2. Manufacturers’ DocumentsDocument Title and Source Publication Number Table C-3. Related Specifications Related SpecificationsTable C-3. Related Specifications Index Index