MVME5100Single Board ComputerInstallation and UseV5100A/IH4July 2003 Edition
xEMC Compliance ...A-3APPENDIX B TroubleshootingSolv
5-18 Computer Group Literature Center Web SitePin Assignments549 AD09 +5V 5051 GND C/BE0# 5253 AD06 AD05 5455 AD04 GND 5657 +5V (Vio) AD03 5859 AD02 A
Connectorshttp://www.motorola.com/computer/literature 5-19523 AD24 +3.3V 2425 IDSEL2 AD23 2627 +3.3V AD20 2829 AD18 GND 3031 AD16 C/BE2# 3233 GND Not
5-20 Computer Group Literature Center Web SitePin Assignments5Table 5-11. PMC Slot 2 Connector (J23) Pin AssignmentsPin Assignment Pin1 Reserved GND
Connectorshttp://www.motorola.com/computer/literature 5-21547 AD39 AD38 4849 AD37 GND 5051 GND AD36 5253 AD35 AD34 5455 AD33 GND 5657 +5V (Vio) AD32 5
5-22 Computer Group Literature Center Web SitePin Assignments525 PMC2_25 (P2-D17) PMC2_26 (P2-Z17) 26 27 PMC2_27 (P2-D18) PMC2_28 (P2-D19) 28 29 PMC2_
Connectorshttp://www.motorola.com/computer/literature 5-235VMEbus Connectors P1 & P2 Pin Assignments (PMC mode)The VMEbus connector P1 provides po
5-24 Computer Group Literature Center Web SitePin Assignments514GND PMC1_28 (J14-28) VD16 PMC1_27 (J14-27) PMC2_21 (J24-21)15PMC2_23 (J24-23) PMC1_30
Connectorshttp://www.motorola.com/computer/literature 5-255VMEbus P1 & P2 Connector Pin Assignments (SBC Mode)The VMEbus connector P1 provides pow
5-26 Computer Group Literature Center Web SitePin Assignments57 DB11# DB6# VA27 +12VF PMC2_10 (J24-10)8 GND DB7# VA28 PRSTB# PMC2_12 (J24-12)9 DB12# D
Connectorshttp://www.motorola.com/computer/literature 5-275Note Rows A and C and Z’s (Z1, 3, 5 , 7, 9, 11, 13, 15, and 17) functionality is provided b
xiList of FiguresFigure 1-1. MVME5100 Layout ...1-9Figure 1-2. MVME5100 I
5-28 Computer Group Literature Center Web SitePin Assignments5Note Since the P2 adaptor card for the MVmE712M is a three (3) row connector, signals on
Connectorshttp://www.motorola.com/computer/literature 5-29510 BaseT/100 BaseTx Connector Pin AssignmentsThe board’s dual 10 BaseT/100 BaseTx RJ45 conn
5-30 Computer Group Literature Center Web SitePin Assignments5COM1 and COM2 Connector Pin AssignmentsA standard RJ45 connector located on the front pa
6-166Programming the MVME51xxIntroductionThis chapter provides basic information useful in programming the MVME51xx. This includes a description of me
6-2 Computer Group Literature Center Web SiteProgramming the MVME51xx6Processor Bus Memory MapThe processor memory map configuration is under the cont
Memory Mapshttp://www.motorola.com/computer/literature 6-36For an example of the CHRP memory map, refer to the following table. For detailed processor
6-4 Computer Group Literature Center Web SiteProgramming the MVME51xx6Notes1. Programmable via Hawk ASIC.2. The actual Power Plus II size of each ROM/
Memory Mapshttp://www.motorola.com/computer/literature 6-56PCI Memory MapFollowing a reset, the Hawk ASIC disables all PCI slave map decoders. The MVM
6-6 Computer Group Literature Center Web SiteProgramming the MVME51xx6VMEbus Memory MapThe VMEbus is programmable. Like other parts of the MVME510x me
Programming Considerationshttp://www.motorola.com/computer/literature 6-76❏ PMC Slot 2 (PCI mezzanine card)❏ PCI Expansion SlotThe Winbond W83C554 PIB
xii
6-8 Computer Group Literature Center Web SiteProgramming the MVME51xx6Figure 6-1. VMEbus Master MappingVMEBUS11553.00 9609VME A24VME A16VME A24VME A1
Programming Considerationshttp://www.motorola.com/computer/literature 6-96The arbitration assignments for the MVME510x are shown in Table 6-4.Interrup
6-10 Computer Group Literature Center Web SiteProgramming the MVME51xx6Figure 6-2. MVME510x Interrupt Architecture11559.00 9609PIB(8529 Pair)Processo
Programming Considerationshttp://www.motorola.com/computer/literature 6-116The MVME510x routes the interrupts from the PMCs and PCI expansion slots as
6-12 Computer Group Literature Center Web SiteProgramming the MVME51xx65. PCI/ISA I/O Reset function controlled by the Clock Divisor register in the P
Programming Considerationshttp://www.motorola.com/computer/literature 6-136Endian IssuesThe MVME510x supports both little-endian (e.g., Windows NT) an
6-14 Computer Group Literature Center Web SiteProgramming the MVME51xx6endian mode, no endian issues should arise for Ethernet data. Big-endian softwa
A-1AASpecificationsThis appendix lists general specifications and power characteristics for the MVME5100 Single Board Computer. It also provides infor
A-2 Computer Group Literature Center Web SiteSpecificationsAPower RequirementsPower requirements for the MVME5100 Single Board Computer depend on the
Cooling Requirementshttp://www.motorola.com/computer/literature A-3ACooling RequirementsRefer to Appendix E, "Thermal Requirements" for more
xiiiList of TablesTable 1-1. Manually Configured Headers/Jumpers ...1-4Table 3-1. Debugger Commands ..
BB-1BTroubleshootingSolving Startup ProblemsIn the event of difficulty with your MVME5100, perform the simple troubleshooting steps listed in the tabl
Solving Startup ProblemsB-2 Computer Group Literature Center Web SiteBII. There is a display on the terminal; however, keyboard and/or mouse input has
Troubleshootinghttp://www.motorola.com/computer/literature B-3BIV. Debug prompt PPC6-Bug> appears at powerup; the board does not autoboot(Continued
Solving Startup ProblemsB-4 Computer Group Literature Center Web SiteBV. The debugger is in system mode; the board autoboots, or the board has passed
CC-1CRelated DocumentationMotorola Computer Group DocumentsThe Motorola publications listed below are referenced in this manual. You can obtain paper
Manufacturers’ DocumentsC-2 Computer Group Literature Center Web SiteCManufacturers’ DocumentsFor additional information, refer to the following table
Related Documentationhttp://www.motorola.com/computer/literature C-3C2-Wire Serial CMOS EEPROM Data SheetAtmel CorporationSan Jose, CAAT2 4C0 4Intel G
Related SpecificationsC-4 Computer Group Literature Center Web SiteCRelated SpecificationsFor additional information, refer to the following table for
DD-1DRAM500 Memory ExpansionModuleOverviewThe RAM500 memory expansion module can be used on the MVME5100 as an option for additional memory capability
xivTable C-3. Related Specifications ... C-4Table D-1. RAM500 Feature Summary
Functional DescriptionD-2 Computer Group Literature Center Web SiteDFunctional DescriptionThe following sections describe the physical and electrical
RAM500 Memory Expansion Modulehttp://www.motorola.com/computer/literature D-3DWhen populated, the optional RAM500 memory expansion memory blocks shoul
Functional DescriptionD-4 Computer Group Literature Center Web SiteDFigure D-1. RAM500 Block DiagramBottom-side MVME5100-MEZ ConnectorA,BA,WE_L,RAS_L
RAM500 Memory Expansion Modulehttp://www.motorola.com/computer/literature D-5DSROMThe RAM500 memory expansion module contains a single 3.3V, 256 x 8,
RAM500 Module InstallationD-6 Computer Group Literature Center Web SiteDthat standoffs are installed in the three mounting holes on the module.5. With
RAM500 Memory Expansion Modulehttp://www.motorola.com/computer/literature D-7D8. Turn the entire assembly over, and fasten the three nuts provided to
RAM500 ConnectorsD-8 Computer Group Literature Center Web SiteDTable D-3. RAM500 Bottom Side Connector (P1)Pin Assignments1 GND* GND* 23 DQ00 DQ01 45
RAM500 Memory Expansion Modulehttp://www.motorola.com/computer/literature D-9D63 DQ48 DQ49 6465 DQ50 DQ51 6667 DQ52 DQ53 6869 +3.3V +3.3V 7071 DQ54 DQ
RAM500 ConnectorsD-10 Computer Group Literature Center Web SiteD*Common GND pins mate to a GIGA assembly with a ground plate. The GIGA assembly is an
RAM500 Memory Expansion Modulehttp://www.motorola.com/computer/literature D-11D13 DQ08 DQ09 1415 DQ10 DQ11 1617 DQ12 DQ13 1819 DQ14 DQ15 2021 GND* GND
xvAbout This ManualThe MVME51xx Single Board Computer Installation and Use provides the information you will need to install and configure your MVME51
RAM500 ConnectorsD-12 Computer Group Literature Center Web SiteD75 DQ58 DQ59 7677 DQ60 DQ61 7879 GND* GND* 8081 DQ62 DQ63 8283 CKD00 CKD01 8485 CKD02
RAM500 Memory Expansion Modulehttp://www.motorola.com/computer/literature D-13D*Common GND pins mate to GIGA assemblies with ground plates.RAM500 Prog
EE-1EThermal AnalysisAmbient temperature, air flow, board electrical operation, and software operation affect board component temperatures. To evaluat
E-2 Computer Group Literature Center Web SiteThermal AnalysisEThe preferred temperature measurement location for a component may be:❏ junction - refer
Thermally Significant Componentshttp://www.motorola.com/computer/literature E-3ENote An MVME5100 Single Board Computer and an IPMC761 I/O board was te
E-4 Computer Group Literature Center Web SiteThermal AnalysisEFigure E-1. Thermally Significant Components on the MVME5100 Single Board Computer - Pr
Thermally Significant Componentshttp://www.motorola.com/computer/literature E-5EFigure E-2. Thermally Significant Components on the IPMC761 Module -
E-6 Computer Group Literature Center Web SiteThermal AnalysisEComponent Temperature MeasurementThis section outlines general temperature measurement m
Component Temperature Measurementhttp://www.motorola.com/computer/literature E-7ENote Machining a heatsink base reduces the contact area between the h
xviMVME712M Transition module connectors: One DB-25 sync/async serial port, three DB-25 async serial ports, one AUI connector, one D-36 parallel port,
E-8 Computer Group Literature Center Web SiteThermal AnalysisEFigure E-3. Mounting a Thermocouple Under a HeatsinkHEATSINK BOTTOM VIEWISOMETRIC VIEWM
Component Temperature Measurementhttp://www.motorola.com/computer/literature E-9EMeasuring Local Air TemperatureMeasure local component ambient temper
IN-1IndexAAbort (interrupt) signal 2-1ABT switch (S1) 2-1AltiVec™ technology 4-3assembly language 3-3Asynchronous Communications 4-8Auto Boot Abort De
IndexIN-2 Computer Group Literature Center Web SiteINDEXDECchip 21143 LAN controller 6-6diagnosticsdirectory 3-26hardware 3-26prompt 3-2test groups 3-
http://www.motorola.com/computer/literature IN-3INDEXII/O modesdescribed (PMC and SBC) 4-3IACK and BG signals 1-17IDSEL routing 4-9initializationperfo
IndexIN-4 Computer Group Literature Center Web SiteINDEXNetwork Auto Boot enable 3-14NIOT debugger commandusing 3-15Non-Volatile RAM (NVRAM) 3-7non-vo
http://www.motorola.com/computer/literature IN-5INDEXPPC6-Bug> 3-2, 3-26PPC6-Diag> 3-2, 3-26PPCBugas initialization firmware 2-4basics 3-1comman
IndexIN-6 Computer Group Literature Center Web SiteINDEXTtemperatureoperating A-1storage A-1terminal setup 1-17testing the hardware 3-26thermal analys
xviiSummary of ChangesThe following changes were made for the 4th revision of this manual.Overview of ContentsThe following paragraphs briefly describ
xviiiChapter 2, Operation, provides a description of the operational functions of the MVME5100 including tips on applying power, a description of the
xixComments and SuggestionsMotorola welcomes and appreciates your comments on its documentation. We want to know what you think about our manuals and
© Copyright 2003 Motorola, Inc.All rights reserved.Printed in the United States of America.Motorola and the Motorola logo are registered trademarks an
xx<CR> represents the carriage return or Enter key.CTRLrepresents the Control key. Execute control characters by pressing the Ctrl key and the l
1-111Hardware Preparationand InstallationIntroductionThis chapter provides information on hardware preparation and installation for the MVME5100 Seri
1-2 Computer Group Literature Center Web SiteHardware Preparation and Installation1The following equipment list is appropriate for use in an MVME5100
Preparationhttp://www.motorola.com/computer/literature 1-31protected working surface. Do not slide the component over any surface. In the case of a P
1-4 Computer Group Literature Center Web SiteHardware Preparation and Installation1It is important to note that some options are not software-programm
Preparationhttp://www.motorola.com/computer/literature 1-51Refer to the section titled Jumper Settings on the next page for additional information.Not
1-6 Computer Group Literature Center Web SiteHardware Preparation and Installation1PMC/SBC (761/IPMC) Mode SelectionThere are five headers associated
Preparationhttp://www.motorola.com/computer/literature 1-71Whether the MVME5100 operates as a VMEbus master or as a VMEbus slave, it is configured for
1-8 Computer Group Literature Center Web SiteHardware Preparation and Installation1InstallationThis section discusses the installation of PMCs onto th
Installationhttp://www.motorola.com/computer/literature 1-91Figure 1-1. MVME5100 Layout2788 07002788 0700P1 P2J22 J24 J12 J14J4J5J6J21 J23 J11 J13XU1
Safety SummaryThe following general safety precautions must be observed during all phases of operation, service, and repair of thisequipment. Failure
1-10 Computer Group Literature Center Web SiteHardware Preparation and Installation1PMC ModulesPMC modules mount on top of the MVME5100. Perform the f
Installationhttp://www.motorola.com/computer/literature 1-111Figure 1-2. MVME5100 Installation and Removal From a VMEbus ChassisFigure 1-3. Typical
1-12 Computer Group Literature Center Web SiteHardware Preparation and Installation1Primary PMCspanTo install a PMCspan-002 PCI expansion module on yo
Installationhttp://www.motorola.com/computer/literature 1-1315. Place the PMCspan on top of the MVME5100. Align the mounting holes in each corner to t
1-14 Computer Group Literature Center Web SiteHardware Preparation and Installation17. Insert four short screws (Phillips type) through the holes at t
Installationhttp://www.motorola.com/computer/literature 1-1514. Remove four screws (Phillips type) from the standoffs in each corner of the primary PC
1-16 Computer Group Literature Center Web SiteHardware Preparation and Installation17. Gently press the two PMCspan modules together and verify that P
Installationhttp://www.motorola.com/computer/literature 1-1713. Remove the filler panel from the VMEbus chassis card slot where you are going to insta
1-18 Computer Group Literature Center Web SiteHardware Preparation and Installation18. Replace the chassis or system cover(s) and cable peripherals to
2-122OperationIntroductionThis chapter provides operating instructions for the MVME5100 Single Board Computer. It includes necessary information about
FlammabilityAll Motorola PWBs (printed wiring boards) are manufactured with a flammability rating of 94V-0 by UL-recognized manufacturers.EMI Caution!
2-2 Computer Group Literature Center Web SiteOperation2The on-board Universe ASIC includes both a global and a local reset driver. When the ASIC oper
System Poweruphttp://www.motorola.com/computer/literature 2-3210/100 BASE T PortsThe two RJ-45 ports labeled 10/100 BASE T provide the 10BaseT/100Base
2-4 Computer Group Literature Center Web SiteOperation2Initialization ProcessThe MPU, hardware, and firmware initialization process is performed by th
System Poweruphttp://www.motorola.com/computer/literature 2-52Figure 2-1. Boot-Up SequenceSTARTUPINITIALIZATIONMONITORBOOTINGPOSTPowerup/reset initia
3-133PPCBug FirmwareIntroductionThe PPCBug firmware is the layer of software just above the hardware. The firmware provides the proper initialization
3-2 Computer Group Literature Center Web SitePPCBug Firmware3❏ A self-test at powerup feature which verifies the integrity of the systemPPCBug consist
Using PPCBughttp://www.motorola.com/computer/literature 3-33Implementation and Memory RequirementsPPCBug is written largely in the C programming langu
3-4 Computer Group Literature Center Web SitePPCBug Firmware3For example, if a breakpoint has been specified, then control returns to the debugger whe
Using PPCBughttp://www.motorola.com/computer/literature 3-538. Delays for 750 milliseconds.9. Determines the CPU base board type.10. Sizes the local r
CE Notice (European Community)Motorola Computer Group products with the CE marking comply with the EMC Directive (89/336/EEC). Compliance with this di
3-6 Computer Group Literature Center Web SitePPCBug Firmware327. Calculates and displays the MPU clock speed, verifies that the MPU clock speed matche
Default Settingshttp://www.motorola.com/computer/literature 3-73CNFG - Configure Board Information BlockUse this command to display and configure the
3-8 Computer Group Literature Center Web SitePPCBug Firmware3Refer to the PPCBug Firmware Package User's Manual for a description of the use of E
Default Settingshttp://www.motorola.com/computer/literature 3-93Note: The bug does not automatically acquire all of the memory it is allowed. It accu
3-10 Computer Group Literature Center Web SitePPCBug Firmware3Auto-Initialize of NVRAM Header Enable [Y/N] = Y?Network PReP-Boot Mode Enable [Y/N] = N
Default Settingshttp://www.motorola.com/computer/literature 3-113Primary SCSI Data Bus Width [W/N] = N? Secondary SCSI identifier = 07? Select the ide
3-12 Computer Group Literature Center Web SitePPCBug Firmware3Auto Boot at powerup only [Y/N] = N?Auto Boot Scan Enable [Y/N] = Y? Auto Boot Scan De
Default Settingshttp://www.motorola.com/computer/literature 3-133Auto Boot Abort Delay = 7?The time in seconds that the Autoboot sequence will delay b
3-14 Computer Group Literature Center Web SitePPCBug Firmware3ROM Boot Direct Ending Address = FFFFFFFC? The last location tested when PPCBug searches
Default Settingshttp://www.motorola.com/computer/literature 3-153!CautionIf you use the NIOT debugger command, these parameters need to be saved somew
Limited and Restricted Rights LegendIf the documentation contained herein is supplied, directly or indirectly, to the U.S. Government, the following n
3-16 Computer Group Literature Center Web SitePPCBug Firmware3ROM Bank B Access Speed (ns) = 70?This defines the minimum access speed for the Bank B F
Default Settingshttp://www.motorola.com/computer/literature 3-173Serial Startup Code LF Enable [Y/N]=N?A line feed can be inserted after each code is
3-18 Computer Group Literature Center Web SitePPCBug Firmware3The configured value is written into the LSI0_TO register of the Universe chip.PCI Slave
Default Settingshttp://www.motorola.com/computer/literature 3-193The configured value is written into the LSI3_BS register of the Universe chip.PCI Sl
3-20 Computer Group Literature Center Web SitePPCBug Firmware3VMEbus Slave Image 1 Translation Offset = 00000000?The configured value is written into
Default Settingshttp://www.motorola.com/computer/literature 3-213Special PCI Slave Image Register = 00000000?The configured value is written into the
3-22 Computer Group Literature Center Web SitePPCBug Firmware3The string 'NULL' on a new line terminates the command line entries. All PPCBu
Standard Commandshttp://www.motorola.com/computer/literature 3-233CNFG Configure Board Information BlockCS Checksum a Block of dataCSAR PCI Configurat
3-24 Computer Group Literature Center Web SitePPCBug Firmware3IOI I/O InquiryIOP I/O Physical to DiskIOT I/O “Teach” for Configuring Disk ControllerIR
Standard Commandshttp://www.motorola.com/computer/literature 3-253NOCM No Concurrent ModeNOMA Macro DeleteNOMAL Disable Macro Expansion ListingNOPA Pr
viiContentsAbout This ManualSummary of Changes...xviiOver
3-26 Computer Group Literature Center Web SitePPCBug Firmware3!CautionAlthough a command (PFLASH) to allow the erasing and reprogramming of Flash memo
Standard Commandshttp://www.motorola.com/computer/literature 3-273PPCBug Diagnostics Manual, listed in Appendix C, Related Documentation for complete
4-144Functional DescriptionIntroductionThis chapter provides a functional description for the MVME5100 Single Board Computer. The MVME5100 is a high-
4-2 Computer Group Literature Center Web SiteFunctional Description4L2 Cache (Optional) 1MB (MPC750 or MPC755) or 2MB (MPC7410) using burst-mode SRAM
Features Descriptionshttp://www.motorola.com/computer/literature 4-34Features DescriptionsGeneralAs stated earlier, the MVME5100 is a high-performance
4-4 Computer Group Literature Center Web SiteFunctional Description4The following diagram illustrates the architecture of the MVME5100 Single Board Co
Features Descriptionshttp://www.motorola.com/computer/literature 4-54ProcessorThe MVME5100 incorporates a BGA foot print that supports both the MCP741
4-6 Computer Group Literature Center Web SiteFunctional Description4Application Note: For Am29DL322C or Am29DL323C, 32Megabit (4M x 8-Bit/2M x 16-bit)
Features Descriptionshttp://www.motorola.com/computer/literature 4-74P2 Input/Output (I/O) ModesThe MVME5100 has two P2 I/O modes (SBC and PMC) that a
viiiDEBUG Port ... 2-3System Powerup ...
4-8 Computer Group Literature Center Web SiteFunctional Description4Every board is assigned two Ethernet Station Addresses. The address is $0001AFXXXX
Features Descriptionshttp://www.motorola.com/computer/literature 4-94This is accomplished by using the corresponding on-board IPMC712 or IPMC761 conne
5-155Pin AssignmentsIntroductionThis chapter provides information on pin assignments for various jumpers and connectors on the MVME5100 Single Board C
5-2 Computer Group Literature Center Web SitePin Assignments5Jumper SettingsThe following table provides information about the jumper settings associa
Connectorshttp://www.motorola.com/computer/literature 5-35ConnectorsIPMC761 Connector (J3) Pin AssignmentsThis connetor is used to provide an interfac
5-4 Computer Group Literature Center Web SitePin Assignments5Memory Expansion Connector (J8) Pin AssignmentsThis connector is used to provide memory e
Connectorshttp://www.motorola.com/computer/literature 5-5547 DQ36 DQ37 4849 DQ38 DQ39 5051 +3.3V +3.3V 5253 DQ40 DQ41 5455 DQ42 DQ43 5657 DQ44 DQ45 58
5-6 Computer Group Literature Center Web SitePin Assignments5Note PIN 130, 131, MEZZ1_L, MEZZ2_L, configures the board’s local bus frequency. If a sin
Connectorshttp://www.motorola.com/computer/literature 5-75PCI Expansion Connector (J25) Pin AssignmentsThis connector is used to provide PCI/PMC expan
ixCHAPTER 5 Pin AssignmentsIntroduction...
5-8 Computer Group Literature Center Web SitePin Assignments539 PAR+5VPCIRST# 4041 C/BE1# C/BE0# 4243 C/BE3# C/BE2# 4445 AD1 AD0 4647 AD3 AD2 4849 AD5
Connectorshttp://www.motorola.com/computer/literature 5-9577 PAR64GNDReserved 7879 C/BE5# C/BE4# 8081 C/BE7# C/BE6# 8283 AD33 AD32 8485 AD35 AD34 8687
5-10 Computer Group Literature Center Web SitePin Assignments5PCI Mezzanine Card (PMC) ConnectorsThese connectors provide 32/64-bit PCI interfaces and
Connectorshttp://www.motorola.com/computer/literature 5-11549 AD09 +5V 5051 GND C/BE0# 5253 AD06 AD05 5455 AD04 GND 5657 +5V (Vio) AD03 5859 AD02 AD01
5-12 Computer Group Literature Center Web SitePin Assignments5Table 5-6. PMC Slot 1 Connector (J12) Pin AssignmentsPin Assignment Pin1 +12V TRST# 23T
Connectorshttp://www.motorola.com/computer/literature 5-135 59 GND Not Used 6061 ACK64# +3.3V 6263 GND Not Used 64Table 5-7. PMC Slot 1 Connec
5-14 Computer Group Literature Center Web SitePin Assignments535 AD47 AD46 3637 AD45 GND 3839 +5V (Vio) AD44 4041 AD43 AD42 4243 AD41 GND 4445 GND AD4
Connectorshttp://www.motorola.com/computer/literature 5-155Table 5-8. PMC Slot 1 Connector (J14)Pin AssignmentsPin Assignment Pin1 Jumper Configurabl
5-16 Computer Group Literature Center Web SitePin Assignments5Jumper configuration is dependent upon P2 I/O mode chosen (PMC or SBC Mode, also known a
Connectorshttp://www.motorola.com/computer/literature 5-175Table 5-9. PMC Slot 2 Connector (J21) Pin AssignmentsPin Assignment Pin1TCK -12V 23 GND IN
Commentaires sur ces manuels