MVME7100 Installation and Use - Artesyn Embedded Technologies
Contents
1. Battery AAA Bis aE MVME7100 Single Board Computer Installation and Use 6806800E08C 117 Battery Exchange The battery provides data retention of seven years summing up all periods of actual data use Emerson therefore assumes that there usually is no need to exchange the battery except for example in case of long term spare part handling NOTICE Board System Damage Incorrect exchange of lithium batteries can result in a hazardous explosion When exchanging the on board lithium battery make sure that the new and the old battery are exactly the same battery models If the respective battery model is not available contact your local Emerson sales representative for the availability of alternative officially approved battery models Data Loss Exchanging the battery can result in loss of time settings Backup power pre2. U6 U7 U8 U9 U10 U11 U12 U13 U14 EDHO s ALT EN MT MVME7100 Single Board Computer Installation and Use 6806800E08C 31 Hardware Preparation and Installation Figure 2 2 Secondary Side Thermally Significant Components 2 3 5 Equipment Requirements The following equipment is recommended to complete an MVME7100 system e VMEbus system enclosure e System console terminal e Operating system and or application software o Transition module and connecting cables 32 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation 2 4 Configuring the Board To produce the desired configuration and ensure pr
3. A 34 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation The following sections describe the on board switches and their configurations for the MVME7100 NOTICE Board Malfunction Switches marked as reserved might carry production related functions and can cause the board to malfunction if their setting is changed Do not change settings of switches marked as reserved The setting of switches which are not marked as reserved has to be checked and changed before board installation MVME7100 Single Board Computer Installation and Use 6806800E08C 35 Hardware Preparation and Installation U DD 2 4 1 SMT Configuration Switch S1 An 8 position SMT configuration switch S1 is located on the MVME7100 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 Figure 2 4 SMT Configuration Switch Position 1 Normal ENV ON Boot Block A WP Disabled Normal Operation Normal Operation PMC 133 MHz Master WP oO N O oa A WO N aoaggaan Reserved Table 2 5 Configuration Switch Settings S1 Switch Description Setting Function S1 1
4. 24 bit address and 16 bit data The pin assignments for the P1 connector is as follows Table 3 14 VMEbus P1 Connector Pin Assignments ROW Z ROW A ROW B ROW C ROW D 1 Reserved DOO BBSY D08 5V 1 2 GND D01 BCLR D09 GND 2 3 Reserved D02 ACFAIL D10 Reserved 3 4 GND D03 BGOIN D11 Reserved 4 5 Reserved D04 BGOOUT D12 Reserved 5 6 GND D05 BG1IN D13 Reserved 6 7 Reserved D06 BG1OUT D14 Reserved 7 8 GND D07 BG2IN D15 Reserved 8 9 Reserved GND BG2OUT GND GAP_L 9 10 GND SYSCLK BG3IN SYSFAIL GAO_L 10 11 Reserved GND BG3OUT BERR GAI_L 11 12 GND DS1 BRO SYSRESET Reserved 12 13 Reserved DSO BR1 LWORD GA2_L 13 14 GND WRITE BR2 AM5 Reserved 14 15 Reserved GND BR3 A23 GA3_L 15 16 GND DTACK AMO A22 Reserved 16 17 Reserved GND AM1 A21 GA4_L 17 18 GND AS AM2 A20 Reserved 18 19 Reserved GND AM3 A19 Reserved 19 20 GND IACK GND A18 Reserved 20 21 Reserved IACKIN SERA A17 Reserved 21 22 GND IACKOUT SERB A16 Reserved 22 23 Reserved AM4 GND A15 Reserved 23 MVME7100 Single Board Computer Installation and Use 6806800E08C 65 Controls LEDs and Connectors Table 3 14 VMEbus P1 Connector Pin Assignments continued ROW Z ROW A ROW B ROW C ROW D 24 GND A07 IRQ7 A14 Reserved 24 25 Reserved A06 IRQ6 A13 Reserved 25 26 GND A05 IRQ5 A12 Reserved 26 27 Reserved A04 IR
5. One stop bit per character MVME7100 Single Board Computer Installation and Use 6806800E08C 45 Hardware Preparation and Installation 2 8 46 e Parity disabled no parity e Baud rate of 9600 baud Verify that hardware is installed and the power peripheral cables connected are appropriate for your system configuration Replace the chassis or system cover reconnect the chassis to the AC or DC power source and turn the equipment power on Factory Installed Linux A bootable ramdisk based Linux image based on the 2 6 25 kernel is available in NOR flash To boot this image use the following MOTLOAD commands MVME7100 gt bmw af8000000 bf 8 00000 c4000000 MVME7100 gt execP 14000400 The image should boot to the following prompt Emerson Network Power Embedded Computing Linux 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 MVME7100 Linux Contact Emerson Network Power Embedded Computing for kernel patches and additional information on using MVME7100 Linux MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors 3 1 Overview This chapter summarizes the controls LEDs connectors and headers for the MVME7100 baseboard Connectors for the MVME7216E transition module can be found in Rear Panel Connectors on page 85 MVME7100 Single Board Computer Installation and Use 680
6. Chapter 5 Transition Module describes the MVME7216E transition module used with the MVME7100 Chapter 6 MOTLoad Firmware describes the role process and commands employed by the MVME7100 diagnostic and initialization firmware MOTLoad This chapter also briefly describes how to use the debugger commands Appendix A Battery Exchange describes the procedure for replacing a battery Appendix B Related Documentation provides listings for publications manufacturer s documents and related industry specification for this product Safety Notes contains the cautions and warnings applicable to the use of this product Sicherheitshinweise is a German translation of the Safety Notes chapter MVME7100 Single Board Computer Installation and Use 6806800E08C 11 About this Manual Abbreviations This document uses the following abbreviations TERM MEANING A Amps A D Analog Digital ANSI American National Standard Institute ASIC Application Specific Integrated Circuit BGA Ball Grid Array BLT Block Transfer CCB Core Complex Bus CE Chip Enable CFM Cubic Feet per Minute CHRP PowerPC Common Hardware Reference Platform CMC Common Mezzanine Card COM Communications COP Common On chip Processor COTS Commercial Off the Shelf CPU Central Processing Unit CRC Cyclic Redundancy Check DDR Double Data Rate oC Degrees Celsius DLL Delay Locked Loop DMA Direct Me
7. NOR Flash 128 MB soldered flash with two alternate 1 MB boot sectors selectable via hardware switch H W switch or S W bit write protection for entire logical bank MVME7100 Single Board Computer Installation and Use 6806800E08C 19 Introduction Table 1 1 Features List continued Function Features NAND Flash Up to two devices available 4GB 1 device 8GB 1 device 16GB 2devices NVRAM One 512 KB MRAM extended temperature range 40 C to 105 C 40 F to 221 F Two 64 KB serial EEPROMs PCI_E 8X Port to XMC Expansion 8X Port to 5 Port PCI Express switch I O One front panel mini DB 9 connector for front I O one serial channel Two front panel RJ 45 connectors with integrated LEDs for front I O two 10 100 1000 Ethernet channels One front panel USB Type A upright receptacle for front I O one USB 2 0 channel PMC site 1 front I O and rear P2 I O PMC site 2 front I O USB One four channel USB 2 0 controller one channel for front panel I O Ethernet Four 10 100 1000 MC864xD Ethernet channels two front panel Ethernet connectors and two channels for rear P2 I O Serial Interface One 16550 compatible 9 6 to 115 2 Kbaud MC864xD asynchronous serial channel one channel for front panel I O One quad UART QUART controller to provide four 16550 compatible 9 6 to 115 2 Kbaud asynchronous serial channels four channels for rear P2 1 0 Timers Four 32 bit MC864xD timers Fou
8. PMC 2 PMC 1 USER 1 COMM 1 gt BT RST 0 Jah FAIL 2 SPEED GENET 1 ACT SPEED GENET 2 ACT I 3 3 1 Reset Abort Switch The MVME7 100 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 If the MVME7100 is the VMEbus system controller a VME SYSRESET is generated MVME7100 Single Board Computer Installation and Use 6806800E08C 49 Controls LEDs and Connectors 3 32 LEDs The next table describes the LEDs on the front panel ofthe MVME7100 Refer to Figure 3 1 on page 48 for LED locations Table 3 1 Front Panel LEDs Label Function Location Color Description BFL Board Fail Front panel Red This indicator is illuminated during a hard reset and remains illuminated until software turns it off The LED is controlled by bit 14 BDFAIL of the VSTAT register in the Tsi148 USR1 User Defined Front panel Red Yellow This indicator is illuminated by S W assertion of its corresponding register bits in the Status Indicator Register See the Programmer s Guide for further detail GNET1 SPEED TSEC1 Link Speed Front panel Off No link Yellow 10 100 BASE T operation Green 1000 BASE T operation GNET1 ACT TSEC1Activity Front panel Off No activity Blinking Green
9. A battery backup circuit for the RTC is provided on board The Maxim digital temperature sensor measures of temperature of the board and also connects to the temperature diode on the MC864xD The temperature sensor also provides an alarm interrupt routed to the MC864xD PIC through the control PLD MVME7100 Single Board Computer Installation and Use 6806800E08C 73 Functional Description o O 4 5 4 6 4 7 The I2C interface is routed to the P2 connector for access to the serial EEPROM located on the transition module The device address for the transition module serial EEPROM is user selectable using the configuration switches Refer to Chapter 5 Transition Module for information on the switches For programming information see the MVME7100 Single Board Computer Programmer s Reference System Memory The MC864xD includes two memory controllers The MVME7100 supports one bank of memory on each controller The MVME7100 supports 512 MB 1 GB and 2 GB DDR2 SDRAMS This provides memory configurations of 1 GB 2 GB and 4 GB The MVME7100 supports memory speeds up to DDR533 Timers Timing functions for the MVME7100 are provided by four global high resolution timers integrated into the MC864xD plus four additional independent 32 bit timers The four integrated 32 bit timers are clocked by the RTC input which is driven by a 1 MHz clock Refer to the MC864xD reference manual listed in Appendix B Related Documentation Manu
10. Activity proportional to bandwidth utilization GNET2 SPEED TSEC2 Link Speed Front panel Off No link Yellow 10 100 BASE T operation Green 1000 BASE T operation GNET2 ACT TSEC2 Activity Front panel Off No activity Blinking Green Activity proportional to bandwidth utilization 50 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors 3 3 3 Connectors This section describes the pin assignments and signals for the connectors on the MVME7100 The next table lists the standard connectors on the MVME7 100 baseboard Refer to Figure 3 1 on page 48 for connector locations Pin assignments for the connectors are in the following sections Some connectors use standard pin assignments in compliance withthe VMEbus IEEE PCI and ANSI VITA specifications Links to these specifications are located at Appendix B Related Specifications on page 122 Table 3 2 Baseboard Connectors Reference Designator Function Notes J6 XMC Expansion 8X PCI E to XMCSpan J4A TSEC 1 10 100 1000 Ethernet RJ 45 J4B TSEC 2 10 100 1000 Ethernet RJ 45 J11 J12 J13 J14 PMC1 Implementing all recommended and J21 J22 J23 PMC2 optional VITA32 signals except RESETOUT Ji Port 0 Serial Port 1 Mini DB 9 console serial port P1 VME five row P1 P2 VME five row P2 on SBCand RTM TSEC3 signals assigned to E1 1 thru E1 4 TSEC4 signals assigned to E2 1 thru E2 4 Serial ports 2 5 J2 USB
11. VIO AD32 58 59 Reserved Reserved 60 61 Reserved GND 62 63 GND Reserved 64 Table 3 8 PMC Slot 1 Connector J14 Pin Assignments Pin Signal Signal Pin 1 PMC1_1 P2 C1 PMC1_2 P2 A1 2 3 PMC1_3 P2 C2 PMC1_4 P2 A2 4 5 PMC1_5 P2 C3 PMC1_6 P2 A3 6 7 PMC1_7 P2 C4 PMC1_8 P2 A4 8 9 PMC1 _9 P2 C5 PMC1_10 P2 A5 10 11 PMC1_11 P2 C6 PMC1_12 P2 A6 12 13 PMC1_13 P2 C7 PMC1_14 P2 A7 14 58 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 8 PMC Slot 1 Connector J14 Pin Assignments continued Pin Signal Signal Pin 15 PMC1_15 P2 C8 PMC1_16 P2 A8 16 17 PMC1_17 P2 C9 PMC1_18 P2 A9 18 19 PMC1_19 P2 C10 PMC1_20 P2 A10 20 21 PMC1PMC1_21 P2 C11 PMC1_22 P2 A11 22 23 PMC1_23 P2 C12 PMC1_24 P2 A12 24 25 PMC1_25 P2 C13 PMC1_26 P2 A13 26 27 PMC1_27 P2 C14 PMC1_28 P2 A14 28 29 PMC1_29 P2 C15 PMC1_30 P2 A15 30 31 PMC1_31 P2 C16 PMC1_32 P2 A16 32 33 PMC1_33 P2 C17 PMC1_34 P2 A17 34 35 PMC1_35 P2 C18 PMC1_36 P2 A18 36 37 PMC1_37 P2 C19 PMC1_38 P2 A19 38 39 PMC1_39 P2 C20 PMC1_40 P2 A20 40 41 PMC1_41 P2 C21 PMC1_42 P2 A21 42 43 PMC1_43 P2 C22 PMC1_44 P2 A22 44 45 PMC1_45 P2 C23 PMC1_46 P2 A23 46 47 PMC1_47 P2 C24 PMC1_48 P2 A24 48 49 PMC1_49 P2 C25 PMC1_50 P2 A25 50 51 PMC1_51 P2 C26 PMC1_52 P2 A26 52 53 PM
12. r 00000000 r Regist Translation Offset Low 2eSST Broadcast Select r Regist r 70000000 Register 00000000 Outbound window 1 OTAT1 is enabled 2eSST timing at SST320 transfer mode of 2eSST A32 D32 Supervisory access The window accepts transfers on the PCI X Local Bus from 0x91000000 0xAFFF0000 and translates them onto the VMEbus using an offset of 0x70000000 thus an access to 0x91000000 on the PCI X Local Bus becomes an access to 0x01000000 on the VMEbus MVME7100 gt vmeCfg s 02 Displaying the selected Default VME Setting interpreted as Outbound Outbound Outbound Outbound Outbound Outbound Outbound Outbound MVME7100 gt MVME7100 Single Board Computer Installation and Use 6806800E08C Image Image Image Image Image Image Image Image 2 2 2 2 2 2 2 2 follows Attribute Register Starting Address Upp Starting Address Low Ending Address Upper Ending Address Lower 80001061 r Register 00000000 r Register B0000000 Register 00000000 Register BOFF0000 r 00000000 Translation Offset Upp Translation Offset Low r Regist r 40000000 2eSST Broadcast Select r Regist Register 00000000 105 MOTLoad Firmware Outbound window 2 OTAT2 is enabled 2eSST timing at SST320 transfer mode of SCT A24 D32 Supervisory access The window accepts transfers on the PCI X Local Bus from 0xB0000000 0xBOFF0000 and trans
13. 3 TMS TDO 4 5 TDI GND 6 7 GND Not Used 8 9 Not Used Not Used 10 11 Pull up 3 3V 12 13 RST Pull down 14 15 3 3V Pull down 16 17 Not Used GND 18 19 AD30 AD29 20 21 GND AD26 22 23 AD24 3 3V 24 25 IDSEL1 AD23 26 27 3 3V AD20 28 29 AD18 GND 30 31 AD16 C BE2 32 33 GND IDSEL1B 34 35 TRDY 3 3V 36 37 GND STOP 38 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 10 PMC Slot 2 Connector J22 Pin Assignments continued Pin Signal Signal Pin 39 PERR GND 40 41 3 3V SERR 42 43 C BE1 GND 44 45 AD14 AD13 46 47 M66EN AD10 48 49 ADO08 3 3V 50 51 ADO7 REQ1B 52 53 3 3V GNT1B 54 55 Not Used GND 56 57 Not Used EREADY1 58 59 GND Not Used 60 61 ACK64 3 3V 62 63 GND No Connect MONARCH 64 Table 3 11 PMC Slot 2 Connector J23 Pin Assignments Pin Signal Signal Pin 1 Reserved GND 2 3 GND C BE7 4 5 C BE6 C BES 6 7 C BE4 GND 8 9 3 3V VIO PAR64 10 11 AD63 AD62 12 13 AD61 GND 14 15 GND AD60 16 17 AD59 AD58 18 19 AD57 GND 20 21 3 3V VIO AD56 22 62 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 11 PMC Slot 2 Connector J23 Pin Assignments continued Pin Signal Signal Pin 23 AD55 AD54 24 25 AD53 GND 26 27
14. 6806800E08C Hardware Preparation and Installation 7 Verify that the MVME7100 is properly seated and secure it to the chassis using the two screws located adjacent to the injector ejector levers 8 Connect the appropriate cables to the MVME7100 To remove the board from the chassis reverse the procedure and press the red locking tabs IEEE handles only to extract the board 2 7 Completing the Installation The MVME7100 is designed to operate as an application specific compute blade or an intelligent I O board carrier It can be used in any slot in a VME chassis When the MVME7100 is installed in a chassis you are ready to connect peripherals and apply power to the board Figure 3 1 on page 48 and Figure 5 1 on page 82 show the locations of the various connectors on the MVME7100 and MVME7216E NOTICE Product Damage RJ 45 connectors on modules are either twisted pair Ethernet TPE or E1 T1 J1 network interfaces Connecting an E1 T1 J1 line to an Ethernet connector may damage your system Make sure that TPE connectors near your working area are clearly marked as network connectors e Verify that the length of an electric cable connected to a TPE bushing does not exceed 100 meters Make sure the TPE bushing of the system is connected only to safety extra low voltage circuits SELV circuits If in doubt ask your system administrator The console settings for the MVME7100 are e Eight bits per character
15. Mezzanine Card PMC Connectors J11 J14 J21 J23 54 3 3 3 4 Serial Port Connector COM1 J1 0 cece eee eee eee e tenes 64 333 5 USB Connector PB nee ee Degen 64 3 3 3 6 VMEbusP1 Connector 60 cece cece ence teen cnet cence nn 65 3 3 3 7 VMEbus P2 Connector 00 c cece cece nee eee ee nenne nenn 66 BA Heades sunena eas ares nen Sealed ad nee er 67 3 4 1 Processor COP Header P4 0 ccc cece cece ence cence ee seen een een nenn 68 3 4 2 Boundary Scan Header P5 cece ccc cece cence teen een eee eeeeeneneens 68 A F nctianal Description ne e g bis cv Sie dle sain E E indian d wieiaiaiange 71 Ast OVGIVIEW en eth dspace ee erraten ee fee 71 4 2 Block Diagrany une seen 72 e e ar eek 73 4 4 12CSerialInterfaceandDevices 0 cece cece cence ene ne ene nennen 73 4 5 System Memory u een 74 4 6 TIMOS wasser eg reed Bee ee 74 4 7 Ethernet Interfaces 2 0 0 cece cece cece eee e ene e enn eee n ene n eee n teense neeeneeennees 74 4 8 lLocallB usInterfate u a a a se Coeeees 75 4 8 1 Flash Memo u nahe 75 4 82 INVRAM seen ee a ln ed 76 4 8 3 Quad UART QUART eek ee 76 MVME7100 Single Board Computer Installation and Use 6806800E08C Contents 4 8 4 Controland Timers PLD ccc ccc e eee e eee eee ene teen eee eeeeenees 76 4 9 DUART Interface 2 0 ccc ccc cece nee ene e teen een ee enerenes see snenenerene nen 77 4 10 PCIFE POTTO peririnirici c
16. Safe Start OFF Use normal ENV ON Use safe ENV 1 2 Boot Block B OFF Flash memory map normal and boot block A selected Select ON Boot block B selected mapped to highest address 1 3 Flash Bank WP OFF Entire flash not write protected ON Flash is write protected S1 4 JTAG Pass Thru OFF Normal operation ON Pass Thru mode S1 5 CORE1 Low OFF Normal operation Memory Offset ON 36 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation Table 2 5 Configuration Switch Settings ST continued Switch Description Setting Function S1 6 PMC 133 MHz OFF PMC 100 MHz maximum ON PMC 133 MHz maximum S1 7 Master WP OFF Master write protect disabled ON Master write protect enabled 1 8 Reserved 1 Switch status is readable from System Status Register 1 bit 5 2 4 1 1 2 4 1 2 2 4 1 3 2 4 1 4 2 4 1 5 Safe Start Switch When the SAFE_START switch is OFF it indicates that the normal ENV setting should be used When the switch is set to ON GEVs VPD and SPD settings are ignored and known safe values are used Boot Block B Select When the switch is OFF the flash memory map is normal and block A is selected as shown in Figure 3 When the switch is ON block B is mapped to the highest address Flash Bank Write Protect When the FLASH BANK WP switch is OFF it indicates that the entire NOR flash is not write protected NO
17. Sie sollten au erdem alle anderen Vorsichtsma nahmen treffen die f r den Betrieb des Produktes innerhalb Ihrer Betriebsumgebung notwendig sind Wenn Sie diese Vorsichtsma nahmen oder Sicherheitshinweise die an anderer Stelle diese Handbuchs enthalten sind nicht beachten kann das Verletzungen oder Sch den am Produkt zur Folge haben Emerson 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 vielf ltigen Einsatzm glichkeiten handelt k nnen wir die Vollst ndigkeit der im Handbuch enthaltenen Informationen nicht garantieren Falls Sie weitere Informationen ben tigen sollten wenden Sie sich bitte an die f r Sie zust ndige Gesch ftsstelle von Emerson Das Produkt wurde entwickelt um die Sicherheitsanforderungen f r SELV Ger te nach der Norm EN 60950 1 f r informationstechnische Einrichtungen zu erf llen Die Verwendung des Produkts in einer anderen Anwendung erfordert eine Sicherheits berpr fung f r diese spezifische Anwendung Einbau Wartung und Betrieb d rfen nur von durch Emerson ausgebildeter oder im Bereich Elektronik oder Elektrotechnik qualifiziertem Personal durchgef hrt werden Die in diesem Handbuch enthaltenen Informationen dienen ausschlie lich dazu das Wissen von Fachpersonal zu erg nzen k nnen dieses jedoch nicht ersetzen Halten Sie sich von stromf hrenden Leitungen innerhalb des
18. Signal Pin 1 No Connect No Connect 2 3 No Connect No Connect 4 5 5V No Connect 6 7 No Connect No Connect 8 9 No Connect 3 3V 10 11 No Connect No Connect 12 13 GND No Connect 14 15 No Connect No Connect 16 17 No Connect GND 18 19 No Connect No Connect 20 21 5V No Connect 22 23 No Connect No Connect 24 25 No Connect 3 3V 26 27 No Connect No Connect 28 29 GND No Connect 30 31 No Connect No Connect 32 33 No Connect GND 34 MVME7100 Single Board Computer Installation and Use 6806800E08C Transition Module Table 5 6 MVME721 Host I O Connector J10 Pin Assignments continued Pin Signal Signal Pin 35 No Connect No Connect 36 37 5V No Connect 38 39 No Connect No Connect 40 41 No Connect 3 3V 42 43 No Connect No Connect 44 45 GND No Connect 46 47 No Connect No Connect 48 49 No Connect GND 50 51 No Connect No Connect 52 53 5V No Connect 54 55 No Connect No Connect 56 57 No Connect 3 3V 58 59 No Connect No Connect 60 61 No Connect No Connect 62 63 No Connect No Connect 64 5 5 2 Ethernet Connectors GIGE J2B GIGE J2A The MVME7100 routes two 10 100 1000Mb s full duplex Ethernet interfaces to the VMEbus P2 connector The MVME7216E routes these from the P2 connector to the RJ 45 connectors on RTM panel These connectors include integrated LEDs for speed and activity indication The pin assignments for these connectors are as follows Table 5 7 Ethe
19. X EM 2 0a Revision 2 0a August 22 2003 PCI X Protocol Addendum to the PCI Local Bus Specification Revision 2 0a PCI X PT 2 0a July 22 2003 Institute for Electrical and Electronics Engineers Inc Draft Standard for a Common Mezzanine Card Family CMC P1386 2001 Draft Standard Physical and Environmental Layer for PCI Mezzanine Cards P1386 2001 PMC MVME7100 Single Board Computer Installation and Use 6806800E08C 123 Related Documentation 124 MVME7100 Single Board Computer Installation and Use 6806800E08C Safety Notes EMC This section provides warnings that precede potentially dangerous procedures throughout this manual Instructions contained in the warnings must be followed during all phases of operation service and repair of this equipment You should also employ all other safety precautions necessary for the operation of the equipment in your operating environment Failure to comply with these precautions or with specific warnings elsewhere in this manual could result in personal injury or damage to the equipment Emerson 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 If you need additional information ask your Emerson representative This product is a Safety Extra Low Voltage SELV device designed to meet the EN60950 1 requiremen
20. also supports a limited form of pattern matching Refer to the help command page Example MVME7100 gt help testRam MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware 6 5 6 5 1 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 MVME7100 gt Firmware Settings The following sections provide additional information pertaining to the MVME7100 VME bus interface settings as configured by MOTLoad A few VME settings are controlled by hardware jumpers while the majority of the VME settings are managed by the firmware command utility vmeCfg VME settings in MOTLoad are preserved through the use of Global Environment Variables GEVs Configuration GEVs are executed only at power on reset Therefore if VME configuration changes are implemented through vmeCfg and board reset must be effected for the changes to be implemented in MOTLoad Default VME Settings As shipped from the factory the MVME7100 has the following VME configuration programmed via Global Environment Variables GEVs for the Tsil48 VME controller The firmware allows certain VME settings to be changed in ord
21. are routed through on board RS 232 drivers and receivers to the P2 connector where the signals can be picked up by a transition module The reference clock frequency for the QUART is 1 8432 MHz All UART ports are capable of signaling at up to 115 Kbaud Refer to the ST16C554D datasheet for additional details and or programming information Control and Timers PLD The MVME7100 Control and Timers PLD resides on the local bus The Control and Timers PLD provides the following functions on the board e Local bus address latch e Chip selects for flash banks MRAM and Quad UART e System control and status registers e Four 32 bit tick timers Watch Dog Timer e RTC1 MHz reference clock MVME7100 Single Board Computer Installation and Use 6806800E08C Functional Description 4 9 4 10 4 10 1 DUART Interface The MVME7100 provides a front access asynchronous serial port interface using Serial Port 0 from the MC864xD DUART The TTL level signals SIN SOUT RTS and CTS from Serial Port 0 are routed through on board RS 232 drivers and receivers to the mini DB 9 front panel connector PCI E Port 0 One 8x PCI E port from the MC864xD processor is connected to a five port PEX8533 PCI E switch Each downstream port from the PCI E switch is connected to a PCI PCI X bridge The MVME7100 implements four separate PCI PCI X bus segments PCI X bus 1 connects to PMC site 1 using a PEX81 14 bridge and is configured dynamically with onboard
22. as follows Inbound Image 0 Attribute Register 000227AF Inbound Image 0 Starting Address Upper Register 00000000 Inbound Image 0 Starting Address Lower Register 00000000 Inbound Image 0 Ending Address Upper Register 00000000 0 0 0 Inbound Image Ending Address Lower Register 1FFF0000 Inbound Image Translation Offset Upper Register 00000000 Inbound Image Translation Offset Lower Register 00000000 MVME7100 gt 104 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware Inbound window 0 ITATO is not enabled Virtual FIFO at 256 bytes 2eSST timing at SST320 respond to 2eSST 2eVME MBLT and BLT cycles A32 address space respond to Supervisor User Program and Data cycles Image maps from 0x00000000 to 0x1FFFO000 on the VMEbus translates 1x1 to the PCI X bus thus 1x1 to local memory To enable this window set bit 31 of ITATO to 1 MVME7100 gt vmeCfg s ol Displaying the selected Default VME Setting interpreted as Outbound Outbound Outbound Outbound Outbound Outbound Outbound Outbound MVME7100 gt Image Image Image Image Image Image Image Image 1 1 1 1 1 1 al 1 follows Attribute Register Starting Address Upp Starting Address Low Ending Address Upper Ending Address Lower Translation Offset Upp 80001462 r Register 00000000 r Register 91000000 Register 00000000 Register AFFF0000
23. command string cannot be resolved to a single unique command MOTLoad informs the user that the command was ambiguous Example MVME7100 gt te te ambiguous MVME7100 gt MVME7 100 Single Board Computer Installation and Use 6806800E08C 101 MOTLoad Firmware 6 4 1 6 4 2 102 Rules There are a few things to remember when entering aMOTLoad command e Multiple commands are permitted on a single command line provided they are separated by a single semicolon e Spaces separate the various fields on the command line command arguments options e The argument option identifier character is always preceded by a hyphen character e Options are identified by a single character e Option arguments immediately follow no spaces the option e Allcommands command options and device tree strings are case sensitive Example MVME7100 gt flashProgram d dev flash0 n00100000 For more information on MOTLoad operation and function refer to the MOTLoad Firmware Package User s Manual Help Each MOTLoad firmware package has an extensive product specific help facility that can be accessed through the help command The user can enter help atthe MOTLoad command line to display a complete listing of all available tests and utilities Example MVME7100 gt help For help with a specific test or utility the user can enter the following at the MOTLoad prompt help lt command_name gt The help command
24. ence enn neces eee eenenaes 95 Table 6 2 MOT Load imag Flags u ae 111 Table B 1 Emerson Network Power Embedded Computing Publications 119 Table B 2 Manufacturer s Publications 0 0 c cece cect cece eee eee seen nennen nn 119 Table B 3 Related Specifications 0 0 0 ccc ccc cece cece cence nee nen ne nennen nennen 122 8 MVME7100 Single Board Computer Installation and Use 6806800E08C List of Figures Figure 2 1 Primary Side Thermally Significant Components 0 sees eee ences 31 Figure 2 2 Secondary Side Thermally Significant Components 00ee cece eee 32 Figure 2 3 Switch LOCATIONS i004 sccceuwthasian sates ee 34 Figure 2 4 SMT Configuration Switch Position cece eee eee eee eee eens 36 Figure 2 5 Geographical Address Switch Position sce e eee eee eee eee eens 38 Figure 2 6 Typical Placement of a PMC Module ona VME Module 20 0eeeee 43 Figure 3 1 Component Layout u ee tes wate astra ie 48 Figure 3 2 Front Panel LEDs Connectors Switch 0 cece e eee e centre cence eens 49 Figure 4 1 Block Diagram rs doer eeag ee sc ES 72 Figure 5 1 COMPONEHELAYVOUE 2 e550 seas Eee nee 82 Figure 5 2 Block Diagram 2 te nen oy SHEET TRO ee 83 Figure 5 3 S1 Switch Positions 4 0 sense 84 Figure 5 4 Rear Panel Connectors and LEDS eee e cece e cece e teen eee n en eenee 86 Figure 5 5 Installing the PIM u mn en 91 Figure A 1 Ba
25. forced air cooling Nonoperating 40 C to 85 C 40 F to 185 F Temperature change 0 5 C min according to NEBS Standard GR 63 CORE Relative humidity 5 to 90 noncondensing 5 to 90 noncondesning Vibration 1 Gsine sweep 5 100 Hz horizontal and vertical NEBS1 Shock 20 G peak half sine 11mSec Free Fall 100 mm unpackaged per GR 63 CORE MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation NOTICE Product Damage High humidity and condensation on the board surface causes short circuits Do not operate the board outside the specified environmental limits Make sure the board is completely dry and there is no moisture on any surface before applying power 2 3 2 Power Requirements The MVME7100 uses only 5 0 V from the VMEbus backplane On board power supplies generate the required voltages for the various ICs The MVME 7100 connects the 12 V and 12 V supplies from the backplane to the PMC sites while the 3 3 V power supplied to the PMC sites comes from the 5 0 V backplane power A maximum of 10 A of 3 3 V power is available to the PMC sites however the 90 W 5 0 V limit must be observed as well as any cooling limitations The next table provides an estimate of the typical and maximum power required Table 2 3 Power Requirements Board Variant Power MVME7100 0161 Typical 40 W 5 V M
26. found the USER boot image executes A return to the boot block code is not anticipated e Ifa valid USER boot image is not found search the active flash bank possibly interactively for a valid Alternate MOTLoad boot image anticipated to be an upgrade of alternate MOTLoad firmware If found the image is executed A return to the boot block code is not anticipated e Execute the recovery image of the firmware in the boot block if no valid USER or alternate MOTLoad image is found MVME7 100 Single Board Computer Installation and Use 6806800E08C 115 MOTLoad Firmware During startup interactive mode may be entered by either setting the Safe Start jumper switch or by sending an lt ESC gt to the console serial port within five seconds of the board reset During interactive mode the user has the option to display locations at which valid boot images were discovered specify which discovered image is to be executed or specify that the recovery image in the boot block of the active flash bank is to be executed 116 MVME7100 Single Board Computer Installation and Use 6806800E08C Appendix A Battery Exchange A 1 Battery Exchange Some blade variants contain an on board battery The battery location is shown in the following figure Figure A 1 Battery Location
27. logic to operate in 33 66 MHz PCI or 66 100 MHz PCI X mode depending on the PMC installed PCI X bus 2 connects to PMC site 2 using a PEX81 14 bridge and is configured dynamically with onboard logic to operate in 33 66 MHz PCI or 66 100 MHz PCI X mode depending on the PMC installed PCI X bus 3 connects to the Tsi148 using a PEX8114 bridge and is configured for 133 MHz PCI X mode PCI bus 4 connects to the USB controller using a PEX8112 bridge and is configured for 33 MHz PCI mode since the USB controller is only 33 MHz capable VME Controller The VMEbus interface for the MVME7100 is provided by the Tsil48 VMEbus controller The Tsi148 provides the required VME VME extensions and 2eSST functions TISN74VMEH22501 transceivers are used to buffer the VME signals between the Tsi148 and the VME backplane Refer to the Tsil48 user s manual for additional details and or programming information MVME7100 Single Board Computer Installation and Use 6806800E08C 77 Functional Description 4 10 2 4 11 4 12 4 12 1 USB The NEC uPD720101 USB 2 0 Host Controller provides USB ports with integrated transceivers for connectivity with any USB compliant device or hub USB channel 1 is routed to a single USB connector located at the front panel DC power to the front panel USB port is supplied via a USB power switch which provides soft start current limiting over current detection and power enable for port 1 Refer to the uPD720101 da
28. 0 7 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 To display CRG Attribute Register state vmeCfg s r414 107 MOTLoad Firmware 6 5 4 6 5 5 108 Editing VME Settings To editthe changeable VME setting type the following at the firmware prompt e Edits Master Enable state vmeCfg e m e Edits selected Inbound Window state vmeCfg e i 0 7 e Edits selected Outbound Window state vmeCfg e o 0 7 e Edits Master Control Register state vmeCfg e r234 e Edits Control Register state vmeCfg e r238 e Edits CRG Attribute Register state vmeCfg e r414 Deleting VME Settings To delete the changeable VME setting restore default value type the following at the firmware prompt e Deletes Master Enable state vmeCfg d m e Deletes selected Inbound Window state vmeCfg d i 0 7 Deletes selected Outbound Window state vmeCfg d o 0 7 e Deletes Master Control Register state vmeCfg d r234 e Deletes Control Register state vmeCfg d r238 e Deletes CRG Attribute Register state vmeCfg d r414 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware 6 5 6 6 6 Restoring Default VME Settings To restore all ofthe changeable VME setting back to their default settings type the following at the fi
29. 08 display VME settings 107 disposal of product 22 26 E edit VME settings 108 EMC requirements 21 environment customization 103 environmental requirements 21 26 F feedback 17 firmware bootloader 113 firmware command utility 103 firmware package help 100 firmware scan 114 firmware startup sequence 115 firmware tests 94 firmware utilities 93 firmware safe start 114 G global environment variables 103 H help command MOTLoad 102 inspecting shipment 26 installation completing 45 L Linux 46 list of commands MOTLoad 95 lithium battery 118 M MOTLoad alternate boot data structure 113 command characteristics 100 command line help 102 command line interface 100 command line rules 102 command types 93 command versus test 93 commands 95 described 93 how employed 93 image flags 111 interface 100 memory requirements 93 prompt explained 100 requirements 93 test applications 94 test suites 95 tests described 94 userimages 112 utilities 93 MVME7100 Single Board Computer Installation and Use 6806800E08C 135 Index O T on board battery 118 thermal requirements 26 ordering product 22 transition module p PIM installation 89 PIM installation 89 U PMC 25 41 userimages 114 power requirements 26 product how to order 22 V VME configuration 103 R VME settings 103 109 remote start 109 delete 108 replacing the battery 118 display 107 restoring VME settings 109 edit 108 restore 109 S vmeCfg
30. 103 settings VME 103 specifications X board 27 XMCspan 25 43 standard compliancy 21 startup overview 25 136 MVME7100 Single Board Computer Installation and Use 6806800E08C HOW TO REACH LITERATURE AND TECHNICAL SUPPORT For literature training and technical assistance and support programs visit www emersonnetworkpower com embeddedcomputing Emerson Network Power www emersonnetworkpower com embeddedcomputing The global leader in enabling Business Critical Continuity J AC Power Systems Embedded Computing J Outside Plant I Services I Connectivity fj Embedded Power JJ Power Switching amp Control jj Site Monitoring BI DC Power Systems Integrated Cabinet Solutions Precision Cooling I Surge amp Signal Protection Emerson Business Critical Continuity Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co All other product or service names are the property of their respective owners 2009 Emerson Electric Co
31. 2B GIGE J2A 6c cece eee eee eee e eee e ee eenee 88 5 5 3 Serial Port Connectors COM2 COM5 J1A D 0 0 cece cece e eee nenn 89 5 6 PMCInput Output Module 1 0 0 0 cece cece eee eee eee e ene eee eee n ene nenn 89 6 MOlload Firmware u nen end 93 Gell OVERVIEW er er re ee ee 93 6 2 Implementation and Memory Requirements 0c cee e eee eee nett nennen nenne 93 6 3 MOTLoad Commands sss sie sn pen ehaaewea te 93 63 1 Vlies oz as dea ne Bea Te dee Saved ne ee 93 6 3 2 TEE nee a RON Soa deine eee eee eee eee 94 MVME7100 Single Board Computer Installation and Use 6806800E08C Contents 6 33 Commandilist 4 24302 er ee ee here 95 6 4 Using the Command Line Interface cece cece eee e nee nen teen ennees 100 6 4 1 RUGS parkean ee e asia en as 102 6 4 2 Help sn ee RB ehe ba 102 6 5 EirmWare Settings unserer lo ey eee teat eee ketene ewan 103 6 5 1 Default VME Settings 0c cece ccc cece cence eee eee ene nennen 103 6 5 2 Control Register Control Status Register Settings 0e cece cece eee eens 107 6 5 3 Displaying VME Settings 0 cece cece cence nett nen ee eeneenneees 107 6 5 4 Editing VME Settings 0 cece ccc cece eee nen een eee eeeeeenneees 108 6 5 5 Deleting VME Settings nenne benennen 108 6 5 6 Restoring Default VME Settings cece eee eee eee ene ene nennen 109 6 6 Remote Start 4 Bee er 109 6 7 BOOtIMAQES
32. 35 TRDY 3 3V 36 37 GND STOP 38 39 PERR GND 40 41 3 3V SERR 42 43 C BEI GND 44 45 AD14 AD13 46 56 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 6 PMC Slot 1 Connector J12 Pin Assignments continued Pin Signal Signal Pin 47 M66EN AD10 48 49 ADO8 3 3V 50 51 ADO7 REQ1B 52 53 3 3V GNT1B 54 55 Not Used GND 56 57 Not Used EREADYO 58 59 GND Not Used 60 61 ACK64 3 3V 62 63 GND No Connect MONARCH 64 Table 3 7 PMC Slot 1 Connector J13 Pin Assignments Pin Signal Signal Pin 1 Reserved GND 2 3 GND C BE7 4 5 C BE6 C BE5 6 7 C BE4 GND 8 9 3 3V VIO PAR64 10 11 AD63 AD62 12 13 AD61 GND 14 15 GND AD60 16 17 AD59 AD58 18 19 AD57 GND 20 21 3 3V VIO AD56 22 23 AD55 AD54 24 25 AD53 GND 26 27 GND AD52 28 29 AD51 AD50 30 MVME7100 Single Board Computer Installation and Use 6806800E08C 57 Controls LEDs and Connectors Table 3 7 PMC Slot 1 Connector J13 Pin Assignments continued Pin Signal Signal Pin 31 AD49 GND 32 33 GND AD48 34 35 AD47 AD46 36 37 AD45 GND 38 39 3 3V VIO AD44 40 41 AD43 AD42 42 43 AD41 GND 44 45 GND AD40 46 47 AD39 AD38 48 49 AD37 GND 50 51 GND AD36 52 53 AD35 AD34 54 55 AD33 GND 56 57 3 3V
33. 6800E08C 47 Controls LEDs and Connectors ee 3 2 Board Layout The following figure shows the components LEDs connectors and the reset switch on the MVME7100 Figure 3 1 Component Layout S1 S2 J21J22 J1 at Sink J JAN J4B 3 48 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors 3 3 Front Panel The following switch LEDs and connectors are available on the MVME7 100 front panel Refer to Figure 3 1 for the location of each Figure 3 2 Front Panel LEDs Connectors Switch
34. 6_N RX6_N 56 57 GND GND 58 59 TX7_P RX7_P 60 61 TX7_N RX7_N 62 63 GND GND 64 65 No Connect No Connect 66 67 No Connect No Connect 68 69 TDI TDO 70 71 TRST_N I2C_CLK 72 73 TMS I2C_DATA 74 75 TCK PRESENT_N 76 MVME7100 Single Board Computer Installation and Use 6806800E08C 53 Controls LEDs and Connectors 3 3 3 2 Ethernet Connectors J4A J4B There are four 10 100 1000 Mb s full duplex Ethernet interfaces using the MC8641D Triple Speed Ethernet Controllers TSECs Two Gigabit Ethernet interfaces are routed to the two front panel R 45 connectors with integrated LEDs for speed and activity indication The other 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 Mbjs 1 _DA _DA _DB _DC olsIlaolu al wI In J m 3 3 3 3 PCI Mezzanine Card PMC Connectors J11 J14 J21 J23 There are seven 64 pin SMT connectors on the MVME7100 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 The pin assignments for these connectors are as follows Table 3 5 PMC Slot 1 Connector J11 Pin Assignments Pin Signal Signal Pin 1 TCK 12V 2 3 GND INTA 4 5 INTB INTC 6 7 PMCPRSNT1 5V 8 54 MVME7100 S
35. 800E08C Functional Description 4 3 4 4 Processor The MVME7100 is designed to support the MC864xD dual e600 core processor The processor is configured to operate at 1 067 GHz or 1 33 GHz core frequency with a corresponding DDR400 Mb or DDR533 DDR2 memory bus The MVME7100 supports the power on reset POR pin sampling method for processor reset configuration The states ofthe various configuration pins on the processor are sampled when reset is de asserted to determine the desired operating modes Combinations of pull up and pull down resistors are used to setthe options Some options are fixed and some are selectable at build time by installing the proper pull up pull down resistor Refer to the MC864xD reference manual listed in Appendix B Related Documentation Manufacturers Documents on page 119 for additional details and or programming information I2C Serial Interface and Devices The MVME7100 provides the following on board I C serial devices connectedtothe MC864xD I C controller 0 interface e 8KB serial EEPROM for VPD Two 64 KB serial EEPROMs for user configuration data storage e Two 256 byte serial EEPROMs for SPD e Maxim DS1375 Real Time Clock Maxim MAX6649 temperature sensor e 8KBserial EEPROM on RTM VPD The RTC implemented on the MVME7 100 provides an alarm interrupt routed to the MC864xD PIC through the control PLD ADS32KHz temperature controlled crystal oscillator provides the RTC clock reference
36. 9 1 1 Features 34 ee a an aaa nano Gia ale Bel ee ee pis 19 1 2 Standard Compliances 2 os nseneeeenneneaneoennnensnn nennen sonen nennen 21 1 3 Mechanical Data mus sea ee Reken hen 22 1 4 Ordering Information 2 22esssesseeeseeeseeeeeeeeeesneneneesnenen esse nenn eens 22 1 4 1 Supported Board Models cece cece eee eee e ene eee ene e nen nenn 23 1 4 2 Board ACCESSOFICS 0 cece cece eee cee ence een enn eee n een e sense neeenneee 23 2 Hardware Preparation and Installation 0 cece cee cece cece eee ee ee ee nennen 25 2 1 QVEINIOW ine ee op wh paid gala le winds 0 6 een ee 25 2 2 Unpacking and Inspecting the Board 0 cece eee eee een cent eee neneees 26 2 3 Requirements 5 4 4 0506 5 tee creas ea wae ae en EE aS 27 2 3 1 Environmental Requirements 0 2 sce e cece eee eee eee ence nee e cence aes 27 2 3 2 Power Requirements een kenne nen 28 2 3 3 Thermal Requirements 0 0 cece eee i nnui ta SERE nenee nennen nenn 29 2 3 4 Thermally Significant Components 0 eee e cece eee eee e ene nen 29 2 3 5 Equipment Requirements un ann en 32 2 4 Configuring the Board 0 cece cece ene nnn n eee e tne eeenennens 33 2 4 1 SMT Configuration Switch 1 2 0 cece ccc nent e nee e nennen 36 2 4 1 1 Sate Start Switch 2 en ae 37 2 4 1 2 Boot Block BSelect 0 cece cece eee e eee nennen nenn 37 2 4 1 3 Flash Bank Write Protect 1 0 2 0 e
37. AAKKKAAKKAAKKAAKKAHKKAAXKAAKKKAKKKK 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 XXKKAR AAA AAR MAKKAH MIA RAM MAK MICK ANIKI OOOO 00000000000 COO OOO OO OOOO KAAAKKAAKAKAAKAAXKAAXKAAKKAAKKAAKAAXKAAXKKAAKK AKK Indicates a property damage message AAAAAARAAKAA KA AKRAM KKH KH HHH KH I KEKE HICK HK MHI KI HK HIE KK HEI CK KK IKK KXXXKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK Fp 0000000000 No danger encountered Pay attention to important 2000000000000000000000000000000000000000000000000X l nfo rmation Summary of Changes This is the first edition of the MVME7100 Single Board Computer Installation and Use Part Number Publication Date Description 6806800E08A November 2008 First edition 6806800E08B May 2010 Updated Section 3 3 3 Connectors and Section 5 5 Rear Panel Connectors 6806800E08C August 2011 Updated Safety Notes on page 125 and Sicherheitshinweise on page 129 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 MVME7100 Single Board Computer Installation and Use 6806800E08C 7 About this Manual Mail comments to us by filling out the following online form http www emersonnet
38. B boundary for a defined set of flags that identify the image as being POST USER or Alternate MOTLoad POST is a user developed Power On Self Test that would perform a set of diagnostics and then return to the boot loader image USER would be a boot image such as the VxWorks bootrom which would perform board initialization A bootable VxWorks kernel would also be a USER image Boot images are not restricted to being 1 MB or less in size however they must begin on a 1 MB boundary within the 8 MB of the scanned flash bank The flash bank structure is shown below Address Usage OxFFFOOOOO to OxFFFFFFFF Boot block Recovery code OxFFEO0000 to OXFFFFFFFF Backup MOTLoad image OxFFDO0000 to OxFFDFFFFF First possible alternate image OxFFCO0000 to OxFFCFFFFF Second possible alternate image Alternate boot images OxFF899999 to OxFF8FFFFF Bottom of flash flash size varies per product The scan is performed downwards beginning at the location of the first possible alternate image and searches first for POST then USER and finally Alternate MOTLoad images In the case of multiple images of the same type control is passed to the first image encountered in the scan Safe Start whether invoked by hitting ESC on the console within the first five seconds following power on reset or by setting the Safe Start jumper interrupts the scan process The user may then display the available boot images and select the desired image The
39. C requirements legal on system level predefined Emerson CISPR 24 system EN 55022 EN 55024 FCC Part 15 Industry Canada ICES 003 VCCI Japan AS NZS CISPR 22 EN 300 386 NEBS Standard GR 1089 CORE NEBS Standard GR 63 CORE Environmental Requirements ETSI EN 300 019 series Directive 2002 95 EC Directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment RoHS 1 3 Mechanical Data This section provides details on the board s mechanical data Table 1 3 Mechanical Data Characteristic Value Dimensions D x Wx H 6U 4HP wide 233 mm x 160 mm x 20 mm Weight 0 680 kg 1 4 Ordering Information When ordering board variants or board accessories use the order numbers given in the following tables 22 MVME7100 Single Board Computer Installation and Use 6806800E08C Introduction 1 4 1 Supported Board Models At the time of publication of this manual the MVME7100 Single Board Computer is available in the configurations shown below Table 1 4 Board Variants Marketing Processor MVME7100 0161 MC8640D 1 067 GHz 1 GB DDR 4 GB NAND Flash Scanbe handles MVME7100 0163 MC8640D 1 067 GHz 1 GB DDR 4 GB NAND Flash IEEE handles MVME7100 0171 MC8641D 1 33 GHz 2 GB DDR 8 GB NAND Flash Scanbe handles MVME7100 0173 MC8641D 1 33 GHz 2 GB DDR 8 GB NAND Flash IEEE handles 1 4 2 Board Accessories This table list
40. C1_53 P2 C27 PMC1_54 P2 A27 54 55 PMC1_55 P2 C28 PMC1_56 P2 A28 56 57 PMC1_57 P2 C29 PMC1_58 P2 A29 58 59 PMC1_59 P2 C30 PMC1_60 P2 A30 60 61 PMC1_61 P2 C31 PMC1_62 P2 A31 62 63 PMC1_63 P2 C32 PMC1_64 P2 A32 64 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 9 PMC Slot 2 Connector J21 Pin Assignments Pin Signal Signal Pin 1 TCK 12V 2 3 GND INTC 4 5 INTD INTA 6 7 PMCPRSNTI 5V 8 9 INTB PCI_RSVD 10 11 GND 3 3Vaux 12 13 CLK GND 14 15 GND PMCGNT1 16 17 PMCREQ1 5V 18 19 3 3V VIO AD31 20 21 AD28 AD27 22 23 AD25 GND 24 25 GND C BE3 26 27 AD22 AD21 28 29 AD19 5V 30 31 3 3V VIO AD17 32 33 FRAME GND 34 35 GND IRDY 36 37 DEVSEL 5V 38 39 GND LOCK 40 41 PCI_RSVD PCI_RSVD 42 43 PAR GND 44 45 3 3V VIO AD15 46 47 AD12 AD11 48 49 ADO9 5V 50 51 GND C BEO 52 53 ADO6 ADO5 54 60 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 9 PMC Slot 2 Connector J21 Pin Assignments continued Pin Signal Signal Pin 55 AD04 GND 56 57 3 3V VIO AD03 58 59 AD02 AD01 60 61 ADOO 5V 62 63 GND REQ64 64 Table 3 10 PMC Slot 2 Connector J22 Pin Assignments Pin Signal Signal Pin 1 12V TRST 2
41. CG 0x00000002 Alternate MOTLoad image IMAGE_POST 0x00000004 POST image MVME7100 Single Board Computer Installation and Use 6806800E08C 111 MOTLoad Firmware Table 6 2 MOTLoad Image Flags continued Name DONT_AUTO_RUN 0x00000008 Image notto be executed Value Interpretation 6 7 3 112 e COPY_TO_RAM If set this flag indicates that the image is to be copied to RAM at the address specified in the header before control is passed If not set the image will be executed in flash In both instances control will be passed at the image offset specified in the header from the base ofthe image 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 IMAGE_POST If set this flag defines the image as being a power on self test image This bit flag is used to indicate that the image is a diagnostic and should be run prior to running either USER or MCG boot images POST images are expected but not required to return to the boot block code upon completion DONT_AUTO_RUN If set this flag indicates that the image is not to be selected for automatic execution A user through the interactive command facility may specify the image to be executed MOTLoad currently uses an Image Flag value of 0x3 which identifies itself as an Alternate MOTLoad image that executes from RAM MOTLoad currently does not supp
42. Corporation MC864xD Integrated Host Processor Reference Manual MC864xD Errata MC864xD Integrated Processor Hardware Specifications Freescale 512 MB MRAM Texas Instruments Data Sheet SN74VMEH22501 8 bit Universal Bus Transceiver and Two 1 bit Bus Transceivers with Split LVTTL Port Feedback Path and 3 state Outputs Exar SCES357E Revised March 2004 ST16C554 554D ST68C554 Quad UART with 16 Byte FIFO s Version 4 0 1 June 2006 Maxim Integrated Products DS1375 Serial Real Time Clock REV 121203 MAX3221E MAX3223E MAX3243E 15kV ESD Protected 1A 3 0V to 5 5V 250kbps RS 232 Transceivers with AutoShutdown 19 1283 Rev 5 10 03 120 MVME7100 Single Board Computer Installation and Use 6806800E08C Related Documentation Table B 2 Manufacturer s Publications continued Document Title and Source Publication Number MAX811 MAX812 19 0411 4 Pin uP Voltage Monitors Rev3 With Manual Reset Input 3 99 MAX6649 Digital Temperature Sensor 19 2450 Rev 3 05 07 Tundra Semiconductor Corporation Tsi148 PCI X to VME Bus Bridge User Manual FN 80A3020 MA001_08 MVME7 100 Single Board Computer Installation and Use 6806800E08C 121 Related Documentation Table B 2 Manufacturer s Publications continued Document Title and Source Publication Number Broadcom Corporation BCM5482S 5482S DS06 R 10 100 1000BASE T Gigabit Ethernet
43. D Not and Flash that is used for storage NOR Not or Flash that is used for executing code OS Operating System PBGA Plastic Ball Grid Array PCI Peripheral Component Interconnect PCI X Peripheral Component Interconnect X PIC Programmable Interrupt Controller PIM PCI Mezzanine Card Input Output Module PMC PCI Mezzanine Card IEEE P1386 1 PLD Programmable Logic Device PLL Phase Locked Loop POR Power On Reset Ppm Parts Per Million PRD Product Requirements Document PReP PowerPC Reference Platform PrPMC Processor PCI Mezzanine Card QUART Quad Universal Asynchronous Receiver Transmitter RAM Random Access Memory Rcv Receive RGMII Reduced Gigabit Media Independent Interface ROM Read Only Memory RTBI Reduced Ten Bit Interface RTC Real Time Clock 14 MVME7100 Single Board Computer Installation and Use 6806800E08C About this Manual TERM MEANING RTM Rear Transition Module sATA Serial AT Attachment SBC Single Board Computer SDRAM Synchronous Dynamic Random Access Memory SMT Surface Mount Technology SODIMM Small Outline Dual In line Memory Module SPD Serial Presence Detect SRAM Static Random Access Memory S W Software TBI Ten Bit Interface TSEC Three Speed Ethernet Controller 2eSST Two edge Source Synchronous Transfer UART Universal Asynchronous Receiver Transmitter USB Universal Serial Bus V Volts VIO Input Output Voltage VITA VMEbus Internatio
44. E Embedded Computing for Business Critical Continuity MVME7100 Single Board Computer Installation and Use P N 6806800E08C August 2011 N EMERSON Network Power 2011 Emerson All rights reserved Trademarks Emerson Business Critical Continuity Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co 2011 Emerson Electric Co All other product or service names are the property of their respective owners Intel is a trademark or registered trademark of Intel Corporation or its subsidiaries in the United States and other countries Java and all other Java based marks are trademarks or registered trademarks of Sun Microsystems Inc in the U S and other countries Microsoft Windows and Windows Me are registered trademarks of Microsoft Corporation and Windows XP is a trademark of Microsoft Corporation PICMG CompactPCI AdvancedTCA and the PICMG CompactPCI and AdvancedTCA logos are registered trademarks of the PCI Industrial Computer Manufacturers Group UNIX is a registered trademark of The Open Group in the United States and other countries Notice While reasonable efforts have been made to assure the accuracy of this document Emerson assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Emerson reserves the right to revise this document and to make changes from tim
45. GND AD52 28 29 AD51 AD50 30 31 AD49 GND 32 33 GND AD48 34 35 AD47 AD46 36 37 AD45 GND 38 39 3 3V VIO AD44 40 41 AD43 AD42 42 43 AD41 GND 44 45 GND AD40 46 47 AD39 AD38 48 49 AD37 GND 50 51 GND AD36 52 53 AD35 AD34 54 55 AD33 GND 56 57 3 3V VIO AD32 58 59 Reserved Reserved 60 61 Reserved GND 62 63 GND Reserved 64 MVME7100 Single Board Computer Installation and Use 6806800E08C 63 Controls LEDs and Connectors 3 3 3 4 Serial Port Connector COM1 Jj1 There is one front access asynchronous serial port interface SPO that is routed to the mini DB 9 front panel connector You can use the Emerson part SERIAL MINI D2 to convert to a DB9 male connector The pin assignments for these connectors are as follows Table 3 12 COM1 Port Connector Pin Assignments Pin Signal 1 No connect RX TX No Connect GND No Connect RTS CTS olol nN Ds wm AJ WI N No Connect 3 3 3 5 USB Connector J2 There is one USB Type A connector located on the MVME7100 front panel The pin assignments are as follows Table 3 13 USB Connector J2 Pin Assignments Pin Signal 1 USB_VBUS 5 0V 2 USB_DATA 3 USB_DATA 4 GND 64 MVME7100 Single Board Computer Installation and Use 6806800E08C 3 3 3 6 VMEbus P1 Connector Controls LEDs and Connectors The VME P1 connector is a 160 pin DIN The Pl connector provides power and VME signals for
46. Header Register pciDataWr Write PCI Device Configuration Header Register pciDump Dump PCI Device Configuration Header Register pciShow Display PCI Device Configuration Header Register pciSpace Display PCI Device Address Space Allocation ping Ping Network Host portSet Port Set portShow Display Port Device Configuration Data rd User Program Register Display reset Reset System rs User Program Register Set set Set Date and Time sromRead SROM Read sromWrite SROM Write sta Symbol Table Attach stl Symbol Table Lookup stop Stop Date and Time Power Save Mode taskActive Display the Contents of the Active Task Table tc Trace Single Step User Program td Trace Single Step User Program to Address 98 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware Table 6 1 MOTLoad Commands continued Command Description testDisk Test Disk 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 RAM March testRamPatterns RAM Patterns testRamPerm RAM Permutations testRamQuick RAM Quick testRamRandom RAM Random Data Patterns testRtcAlarm RTC Alarm testR
47. LINK 16 GND PMC1_IO32 VD18 PMC1_IO31 E1_ACT 17 SP3RX PMC1_1034 VD19 PMC1_IO33 E2_LINK 18 GND PMC1_IO36 VD20 PMC1_IO35 E2_ACT 19 SP3TX PMC1_1038 VD21 PMC1_IO37 GND 20 GND PMC1_IO40 VD22 PMC1_IO39 E2 4 21 SP3CTS PMC1_I042 VD23 PMC1_1041 E2 4 22 GND PMC1_1044 GND PMC1_1043 GND 23 SP3RTS PMC1_1046 VD24 PMC1_1045 E2 3 24 GND PMC1_1048 VD25 PMC1_1047 E2 3 25 SPARX PMC1_IO50 VD26 PMC1_IO49 GND 26 GND PMC1_IO52 VD27 PMC1_I051 E2 2 27 SPATX PMC1_IO54 VD28 PMC1_I053 E2 2 28 GND PMC1_IO56 VD29 PMC1_IO55 GND 29 SPACTS PMC1_IO58 VD30 PMC1_I057 E2 1 30 GND PMC1_IO60 VD31 PMC1_IO59 E2 1 31 SPARTS PMC1_IO62 GND PMC1_1061 GND 32 GND PMC1_1064 5V PMC1_1063 5V 3 4 Headers This section describes the pin assignments of the Headers on the MVME7100 MVME7100 Single Board Computer Installation and Use 6806800E08C 67 Controls LEDs and Connectors 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 Table 3 16 Processor COP Header PA Pin Assignments Pin Signal Signal Pin 1 CPU_TDO No Connect 2 3 CPU_TDI CPU_TRST_L 4 5 Pullup CPU_VIO 3 3V 6 7 CPU_TCK CPU_CKSTPI_L 8 9 CPU_TMS No Connect 10 11 CPU_SRST_L GND 12 13 CPU_HRST_L KEY no pin 14 15 CPU_CKSTPO_L GND 16 Pin 6 3 3V has a 100 W resistor to 3 3V 3 4 2 Boundary Scan Header P5 The 20 pin
48. ME7100 Single Board Computer Installation and Use 6806800E08C 125 Safety Notes Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense Changes or modifications not expressly approved by Emerson Network Power could void the user s authority to operate the equipment Board products are tested in a representative system to show compliance with the above mentioned requirements A proper installation in a compliant system will maintain the required performance Use only shielded cables when connecting peripherals to assure that appropriate radio frequency emissions compliance is maintained Operation Product Damage High humidity and condensation on the board surface causes short circuits Do not operate the board outside the specified environmental limits Make sure the board is completely dry and there is no moisture on any surface before applying power Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or shorten their life Before touching the board or electronic components make sure that you are working in an ESD safe environment Board Malfunction Switches marked as reserved might carry production related functions and can cause the board to malfunction if their setting is changed Do not change settings of switches marked as reserved The setti
49. OTLoad Firmware Table 6 1 MOTLoad Commands continued Command Description bmb Block Move Byte Halfword Word bmh bmw br Assign Delete Display User Program Break Points bsb Block Search Byte Halfword Word bsh bsw bvb Block Verify Byte Halfword Word bvh bvw cdDir ISO9660 File System Directory Listing cdGet ISO9660 File System File Load clear Clear the Specified Status History Table s cm Turns on Concurrent Mode csb Calculates a Checksum Specified by Command line Options csh csw devShow Display Show Device Node Table diskBoot Disk Boot Direct Access Mass Storage Device download Down Load S Record from Host ds One Line Instruction Disassembler echo Echo a Line of Text elfLoader ELF Object File Loader errorDisplay Display the Contents of the Test Error Status Table eval Evaluate Expression execProgram Execute Program fatDir FAT File System Directory Listing fatGet FAT File System File Load 96 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware Table 6 1 MOTLoad Commands continued Command Description fdShow Display Show File Discriptor flashLock Flash Memory Sector Lock flashProgram Flash Memory Program flashShow Display Flash Memory Device Configuration Data flashUnlock Flash Memory Sector Unlock gd Go Execute User Program Direct Ign
50. Produktes fern Entfernen Sie auf keinen Fall Abdeckungen am Produkt Nur werksseitig zugelassenes Wartungspersonal oder anderweitig qualifiziertes Wartungspersonal darf Abdeckungen entfernen um Komponenten zu ersetzen oder andere Anpassungen vorzunehmen Installieren Sie keine Ersatzteile oder f hren Sie keine unerlaubten Ver nderungen am Produkt durch sonst verf llt die Garantie Wenden Sie sich f r Wartung oder Reparatur bitte an die f r Sie zust ndige Gesch ftsstelle von Emerson So stellen Sie sicher dass alle sicherheitsrelevanten Aspekte beachtet werden MVME7100 Single Board Computer Installation and Use 6806800E08C 129 Sicherheitshinweise UN En EMV Das Produkt wurde in einem Emerson Standardsystem getestet Es erf llt die f r digitale Ger te der Klasse A g ltigen Grenzwerte in einem solchen System gem den FCCRichtlinien Abschnitt 15 bzw EN 55022 Klasse A Diese Grenzwerte sollen einen angemessenen Schutz vor St rstrahlung beim Betrieb des Produktes in Gewerbe sowie Industriegebieten gew hrleisten Das Produkt arbeitet im Hochfrequenzbereich und erzeugt St rstrahlung Bei unsachgem em Einbau und anderem als in diesem Handbuch beschriebenen Betrieb k nnen St rungen im Hochfrequenzbereich auftreten Wird das Produkt in einem Wohngebiet betrieben so kann dies mit grosser Wahrscheinlichkeit zu starken St rungen f hren welche dann auf Kosten des Produktanwenders beseitigt werden m ssen nderungen ode
51. Q4 All Reserved 27 28 GND A03 IRQ3 A10 Reserved 28 29 Reserved A02 IRQ2 A09 Reserved 29 30 GND A01 IRQ1 A08 Reserved 30 31 Reserved 12V 5VSTDBY 12V GND 31 32 GND 5V 5V 5V 5V 32 3 3 3 7 VMEbus P2 Connector The VME P2 connector is a 160 pin DIN Row B of the P2 connector provides power to the MVME7100 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 the MVME7100 and MVME7216E and are as follows Table 3 15 VME P2 Connector Pinouts Pin P2 Z P2 A P2 B P2 C P2 D 1 SP1RX PMC1_IO2 5V PMC1_IO1 E1 1 2 GND PMC1_IO4 GND PMC1_IO3 E1 1 3 SPITX PMC1_IO6 VRETRY_L PMC1_IO5 GND 4 GND PMC1_IO8 VA24 PMC1_IO7 E1 2 5 SP1CTS PMC1_IO10 VA25 PMC1_IO9 E1 2 6 GND PMC1_IO12 VA26 PMC1_IO11 GND 7 SPIRTS PMC1_I014 VA27 PMC1_IO13 E1 3 8 GND PMC1_IO16 VA28 PMC1_IO15 E1 3 9 SP2RX PMC1_IO18 VA29 PMC1_IO17 GND 10 GND PMC1_IO20 VA30 PMC1_IO19 E1 4 66 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 15 VME P2 Connector Pinouts continued Pin P2 Z P2 A P2 B P2 C P2 D 11 SP2TX PMC1_IO22 VA31 PMC1_IO21 E1 4 12 GND PMC1_IO24 GND PMC1_IO23 GND 13 SP2CTS PMC1_IO26 5V PMC1_IO25 I2C_SDA 14 GND PMC1_IO28 VD16 PMC1_IO27 I2C_SCL 15 SP2RTS PMC1_IO30 VD17 PMC1_IO29 E1_
52. R flash is used for executing code When the switch is ON it indicates that the flash is write protected and any writes to the flash devices are blocked by hardware JTAG Pass Thru The JTAG Pass Thru switch is in the OFF position for normal operation The switch is ON for pass through mode Low Memory Offset The CORE1 Low Memory Offset switch is in the OFF position for normal operation The switch is ON for enabling this feature MVME7100 Single Board Computer Installation and Use 6806800E08C 37 Hardware Preparation and Installation 2 4 1 6 2 4 1 7 2 4 2 Figure 2 5 38 2 3 4 5 6 7 8 PMC 133 MHz The PMC 133 MHz switch is OFF for normal operation When the switch is ON the maximum frequency of operation for the PMC sites is 133 MHz 133 MHz operation should not be enabled unless the PMC modules are designed to support 133 MHz operation When the switch is OFF the maximum frequency is 100 MHz Master WP The Master Write Protect WP switch is OFF for normal operation When this switch is ON writes to the NOR Flash NAND Flash MRAM and I C EEPROMs are disabled When the switch is OFF writes to the non volatile devices may be allowed depending on other switches and control bits Geographical Address Switch S2 The Tsi148 VMEbus Status Register provides the VMEbus geographical address of the MVME7100 Applications not using the 5 row backplane can use the geographical address switch to as
53. Single channel upright USB connector USB1 on front P4 Processor COP header P5 Boundary Scan header MVME7100 Single Board Computer Installation and Use 6806800E08C 51 Controls LEDs and Connectors 3 3 3 1 XMC Expansion Connector J6 One 76 pin Mictor connector with a center row of ground pins is used to provide XMC expansion capability The pin assignments for this connector are as follows Table 3 3 XMC Expansion Connector J6 Pin Assignments Pin Signal Signal Pin 1 GND GND GND 2 3 TXO_P RXO_P 4 5 TXO_N RXO_N 6 7 GND GND 8 9 TX1_P RX1_P 10 11 TX1_N RX1_N 12 13 GND GND 14 15 TX2_P RX2_P 16 17 TX2_N RX2_N 18 19 GND GND 20 21 TX3_P RX3_P 22 23 TX3_N RX3_N 24 25 GND GND 26 27 REFCLK_P No Connect 28 29 REFCLK_N No Connect 30 31 GND GND 32 33 No Connect No Connect 34 35 No Connect PCIE_END_N 36 37 INT_N RESET_N 38 52 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 3 XMC Expansion Connector J6 Pin Assignments continued Pin Signal Signal Pin 39 GND 5V GND 40 41 TX4_P RX4_P 42 43 TX4_N RX4_N 44 45 GND GND 46 47 TX5_P RX5_P 48 49 TX5_N RX5_N 50 51 GND GND 52 53 TX6_P RX6_P 54 55 TX
54. Transceiver 2 15 07 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 5 Port 24 Lane Versatile PCI Express Switch Data Book B 3 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 B 3 Related Specifications Organization and Standard Document Title VITA Standards Organization VME64 ANSI VITA 1 1994 VME64 Extensions ANSI VITA 1 1 1997 2eSST Source Synchronous Transfer ANSI VITA 1 5 2003 Processor PMC ANSI VITA 32 2003 PCI X for PMC and Processor PMC ANSI VITA 39 2003 122 MVME7100 Single Board Computer Installation and Use 6806800E08C Related Documentation Table B 3 Related Specifications continued Organization and Standard Document Title PMC I O Module PIM Draft Standard VITA 36 Draft Rev 0 1 July 19 1999 Universal Serial Bus Universal Serial Bus Specification Revision 2 0 April 27 2000 PCI Special Interest Group PCI Local Bus Specification Revision 2 2 PCI Rev 2 2 December 18 1998 PCI X Electrical and Mechanical Addendum to the PCI Local Bus Specification PCI
55. ansition Module 5 4 SEEPROM Address Switch S1 A 4 position SMT configuration switch is located on the MVME7216E transition module to set the device address of the RTM serial EEPROM device The switch settings are defined in the next table To see switch location refer to Figure 5 1 on page 82 Figure 5 3 S1 Switch Positions ON N w gt Table 5 2 SEEPROM Address Switch Assignments RTM Position sw4 SW3 sw2 sw1 Function WP A 2 A 1 A 0 Default OFF 0 1 1 1 Table 5 3 Switch Settings and Device Addresses SW4 SW3 sw2 sw1 A 2 0 Device Address OFF ON ON ON 000 A0 OFF ON ON OFF 001 A2 OFF ON OFF ON 010 A4 OFF ON OFF OFF 011 A6 OFF OFF ON ON 100 A8 OFF OFF ON OFF 101 AA default OFF OFF OFF ON 110 AC OFF OFF OFF OFF 111 AE 84 MVME7100 Single Board Computer Installation and Use 6806800E08C Transition Module 5 5 Rear Panel Connectors The MVME7216E transition module provides these connectors All connectors use standard pin assignments in compliance with the VMEbus specifications Table 5 4 Transition Module Connectors Connector Function J1A J1B J1C J1D COM port connectors J2A 10 100 1000Mb s Ethernet connector J2B 10 100 1000Mb s Ethernet connector j10 PIM power ground J14 PIM I O P2 VME backplane connector PMC I O PIM connector J10
56. asurement location for a component may be junction case or ambient as specified in the table Junction temperature refers to the temperature measured by an on chip thermal device Case temperature refers to the temperature at the top center surface of the component Air temperature refers to the ambient temperature near the component Table 2 4 Thermally Significant Components Maximum Allowable Reference Component Temperature in Designator Generic Description Centigrade Measurement Location U27 U4 Gb Ethernet Transceiver 0 to 70 Ambient MVME7100 Single Board Computer Installation and Use 6806800E08C 29 Hardware Preparation and Installation Table 2 4 Thermally Significant Components Maximum Allowable Reference Component Temperature in Designator Generic Description Centigrade Measurement Location U25 U26 U28 PCI X PCI Express Bridge 40 to 85 Ambient U22 PCI Express Bridge 40 to 85 Ambient U24 VME Bridge 0 to 70 Ambient U10 U11 U12 DDR2 SDRAM 0 to 95 Case U13 U14 U56 U57 U58 U59 U6 U60 U61 U62 U63 U64 U7 U8 U9 U20 MPU 0 to 105 Junction 30 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation Figure 2 1 Primary Side Thermally Significant Components
57. aximum 55W 5 V MVME7100 0163 Typical 40 W 5 V Maximum 55 W 5 V MVME7100 0171 Typical 45 W 5 V Maximum 60 W 5 V MVME7100 0173 Typical 45 W 5 V Maximum 60 W 5 V 28 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation The following table shows the power available when the MVME7100 is installed in either a 3 row or 5 row chassis and when PMCs are present Chassis Type Available Power Power With PMCs 3 Row 70 W maximum Below 70 W 5 Row 90 W maximum Below 90 W 1 Keep below power limit Cooling limitations must be considered 2 3 3 2 3 4 Thermal Requirements The MVME7100 module requires a minimum air flow of 10 CFM uniformly distributed across the board with the airflow traveling from the heat sink to the PMC2 site when operating at a 55 C 131 F ambient temperature Thermally Significant Components The following table summarizes components that exhibit significant temperature rises These are the components that should be monitored in order to assess thermal performance The table also supplies the component reference designator and the maximum allowable operating temperature You can find components on the board by their reference designators as shown in Figure 2 1 and Figure 2 2 on the next page Versions of the board that are not fully populated may not contain some of these components The preferred me
58. boundary scan header provides an interface for programming the on board PLDs and for boundary scan testing debug purposes The pin assignments for this header are as follows Table 3 17 Boundary Scan Header P5 Pin Assignments Pin Signal Signal Pin 1 TCK GND 2 3 TDO GND 4 5 TMS GND 6 7 TRST_N GND 8 9 TDI BSCANEN_N 10 68 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 17 Boundary Scan Header P5 Pin Assignments continued Pin Signal Signal Pin 11 KEY No Connect 12 13 GND AUTOWR_N 14 15 GND No Connect 16 17 GND No Connect 18 19 GND No Connect 20 Pin 10 must be grounded in the cable in order to enable boundary scan MVME7100 Single Board Computer Installation and Use 6806800E08C 69 Controls LEDs and Connectors 70 MVME7100 Single Board Computer Installation and Use 6806800E08C Functional Description Chapter 4 U 4 1 Overview The MVME7100 VMEbus board is based on the MC8640D 1 067 GHz versions and the MC8641D 1 33 GHz versions Integrated Processors The MVME7 100 provides front panel access to one serial port with a mini DB 9 connector two 10 100 1000 Ethernet ports with two RJ 45 connectors and one USB port with one type A connector The front panel includes a fail indicator LED user defined indicator LED and a reset abort switch The MVME7216E transition module provid
59. ch digung des Produktes und der Zusatzmodule f hren Lesen Sie daher vor der Installation von Zusatzmodulen die zugeh rige Dokumentation MVME7100 Single Board Computer Installation and Use 6806800E08C 131 Sicherheitshinweise Kabel und Stecker Batterie 132 Besch digung des Produktes Bei den RJ 45 Steckern die sich an dem Produkt befinden handelt es sich entweder um Twisted Pair Ethernet TPE oder um E1 T1 J1 Stecker Beachten Sie dass ein versehentliches Anschlie en einer E1 T1 J1 Leitung an einen TPE Stecker das Produkt zerst ren kann e Kennzeichnen Sie deshalb TPE Anschl sse in der N he Ihres Arbeitsplatzes deutlich als Netzwerkanschl sse e Stellen Sie sicher dass die L nge eines mit Ihrem Produkt verbundenen TPE Kabels 100 m nicht berschreitet e Das Produkt darf ber die TPE Stecker nur mit einem Sicherheits Kleinspannungs Stromkreis SELV verbunden werden Bei Fragen wenden Sie sich an Ihren Systemverwalter Besch digung des Blades Ein unsachgem er Einbau der Batterie kann gef hrliche Explosionen und Besch digungen des Blades zur Folge haben Verwenden Sie deshalb nur den Batterietyp der auch bereits eingesetzt wurde und befolgen Sie die Installationsanleitung Datenverlust Wenn Sie die Batterie austauschen k nnen die Zeiteinstellungen verloren gehen Eine Backupversorgung verhindert den Datenverlust w hrend des Austauschs Wenn Sie die Batterie schnell austauschen bleiben die Zei
60. cksum unsigned integer 1 Image checksum ImageSize unsigned integer 1 Must be a multiple of 4 ImageName unsigned character 20 User defined 110 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware Name Type Size Notes ImageRamAddress unsigned integer 1 RAM address ImageOffset unsigned integer 1 Offset from header start to entry ImageFlags unsigned integer 1 Refer to Image Flags on page 111 ImageVersion unsigned integer 1 User defined Reserved unsigned integer 8 Reserved for expansion 6 7 1 Checksum Algorithm The checksum algorithm is a simple unsigned word add of each word 4 byte location in the image The image must be a multiple of 4 bytes in length word aligned The content of the checksum location in the header is not part of the checksum calculation The calculation assumes the location to be zero The algorithm is implemented using the following code Unsigned int checksum Unsigned int startPtr starting address Unsigned int endPtr ending address IA unsigned int checksum 0 while startPtr lt endPtr checksum startPtr startPtrt t return checksum 6 7 2 Image Flags The image flags of the header define various bit options that control how the image will be executed Table 6 2 MOTLoad Image Flags Name Value Interpretation COPY_TO_RAM 0x00000001 Copy image to RAM at ImageRamAddress before execution IMAGE_M
61. d Inspecting the Board on page 26 Configure the hardware by setting jumpers Configuring the Board on page 33 and SEEPROM Address on the board and RTM Switch ST on page 84 Install the MVME7216E transition modulein Transition Module on page 40 the chassis Install PMC module if required Installing Accessories on page 39 Install XMCspan module if required XMCspan Installation and Use 6806800H03 Install the MVME7100 in the chassis Installing and Removing the Board on page 44 Attach cabling and apply power Completing the Installation on page 45 Install PIM on transition module if required PMC Input Output Module on page 89 Ensure that the firmware initializes the MVME7100 Chapter 6 MOTLoad Firmware Initialize the board Chapter 6 MOTLoad Firmware Examine and or change environmental parameters MVME7 100 Single Board Computer Programmer s Reference MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation Table 2 1 Startup Overview continued Task Page Program the board as needed for your MVME7 100 Single Board Computer Programmer s Reference applications 2 2 Unpacking and Inspecting the Board Read all notices and cautions prior to unpacking the product NOTICE Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or short
62. ddress Ending Address Upper Ending Address Lower 80001065 Upper Register 00000000 Lower Register B1000000 Register 00000000 Register B1FF0000 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware Outbound Image 7 Translation Offset Upper Register 00000000 Outbound Image 7 Translation Offset Lower Register 4F000000 Outbound Image 7 2eSST Broadcast Select Register 00000000 6 5 2 6 5 3 MVME7100 Single Board Computer Installation and Use 6806800E08C MVME7100 gt Outbound window 7 OTAT7 is enabled 2eSST timing at SST320 transfer mode of SCT CR CSR Supervisory access The window accepts transfers on the PCI X Local Bus from 0xB1000000 0xB1FF0000 and translates them onto the VMEbus using an offset of 0x4F000000 thus an access to 0xB1000000 on the PCI X Local Bus becomes an access to 0x00000000 on the VMEbus Control Register Control Status Register Settings The CR CSR base address is initialized to the appropriate setting based on the Geographical address that is the VME slot number See the VME64 Specification and the VME64 Extensions for details As a result a512 KB CR CSR area can be accessed from the VMEbus using the CR CSR AM code Displaying VME Settings To display the changeable VME setting type the following at the firmware prompt To display Master Enable state vmeCfg s m To display selected Inbound Window state vmeCfg s i
63. driven by a 1 MHz clock generated by the Control and Timers PLD This provides a fixed clock reference for the MC864xD PIC timers which software can use as a known timing reference Local Bus Controller Clock Divisor The Local Bus Controller LBC clock output is connected to the PLD but is not used by the internal logic Reset Control Logic There are multiple sources of reset on the MVME7 100 The following sources generate a board level reset Power up Reset switch e Watchdog timer e System control register BRD_RST e 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 If the MVME7100 is configured as the VME system controller the VMEbus and local Tsi148 reset input are also reset Real Time Clock Battery There is an on board battery holder that provides easy replacement of a 3 0 V button cell lithium battery BR2325 which provides back up power to the on board Real Time Clock A battery switching circuit provides automatic switching between the 3 3 V and battery voltages MVME7100 Single Board Computer Installation and Use 6806800E08C Chapter 5 Transition Module 5 1 Overview This chapter provides information on the MVME7216E transition module s features It also includes a drawing of the module showing the components and rear panel connectors MVME7100 Single Board Computer In
64. e PMC module on top of the baseboard The four connectors on the underside of the PMC module should then connect smoothly with the corresponding connectors on the MVME7100 4 Insert the four short phillips head screws provided with the PMC through the holes on the bottom side of the MVME7100 and the PMC front bezel and into rear standoffs Tighten the screws Refer to Figure 2 6 on page 43 5 Reinstall the MVME7100 assembly in its proper card slot Be sure the module is well seated in the backplane connectors Do not damage or bend connector pins 42 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation 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 Figure 2 6 Typical Placement of a PMC Module on a VME Module 2 5 3 XMCspan The XMCspan is a carrier module that provides PCI Express expansion capability to the MVME7100 Refer to the XMCspan Installation and Use manual part number 6806800H03 for details about the XMCspan and the installation procedure MVME7100 Single Board Computer Installation and Use 6806800E08C 43 Hardware Preparation and Installation 2 6 Installing and Removing the Board This section describes a recommended procedure for installing a board module in a chassis The MVME7100 does not support hot swap you should r
65. e to time in the content hereof without obligation of Emerson to notify any person of such revision or changes Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to a Emerson website The text itself may not be published commercially in print or electronic form edited translated or otherwise altered without the permission of Emerson It is possible that this publication may contain reference to or information about Emerson products machines and programs programming or services that are not available in your country Such references or information must not be construed to mean that Emerson intends to announce such Emerson products programming or services in your country Limited and Restricted Rights Legend If the documentation contained herein is supplied directly or indirectly to the U S Government the following notice shall apply unless otherwise agreed to in writing by Emerson Use duplication or disclosure by the Government is subject to restrictions as set forth in subparagraph b 3 of the Rights in Technical Data clause at DFARS 252 227 7013 Nov 1995 and of the Rights in Noncommercial Computer Software and Documentation clause at DFARS 252 227 7014 Jun 1995 Contact Address Emerson Network Power Embedded Computing 2900 South Diablo Way Suite 190 Tempe AZ 85282 USA Contents About this Manual u a se nn 11 T Introduction aan 1
66. e use ofthetestSuite command The expert operator can customize their testing by defining and creating a custom testSuite s The list of built in and user defined MOTLoad testSuites and their test contents can be obtained by enteringtestSuite dat the MOTLoad prompt All testSuites that are included as part of a product specific MOTLoad firmware package are product specific For more information refertothetestSuite command description page in the 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 inthe MOTLoad Firmware Package User s Manual for more information 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 Typing help at the MOTLoad command prompt will display all commands supported by MOTLoad for a given product Table 6 1 MOTLoad Commands Command Description as One Line Instruction Assembler bcb Block Compare Byte Halfword Word bch bcw bdTempShow Display Current Board Temperature bfb Block Fill Byte Halfword Word bfh bfw blkCp Block Copy blkFmt Block Format bIkRd Block Read blkShow Block Show Device Configuration Data blkVe Block Verify blkWr Block Write MVME7100 Single Board Computer Installation and Use 6806800E08C M
67. ed by the boot loader after execution of a POST image or other alternate boot image is executed It is intended to provide a user a mechanism to pass POST image results to subsequent boot images The boot loader performs no other initialization of the board than that specified prior to the transfer of control to either a POST USER or Alternate MOTLoad image Alternate boot images need to initialize the board to whatever state the image may further require for its execution POST images are expected but not required to return to the boot loader Upon return the boot loader proceeds with the scan for an executable alternate boot image POST images that return control to the boot loader must ensure that upon return the state of the board is consistent with the state that the board was in at POST entry USER images should not return control to the boot loader MVME7 100 Single Board Computer Installation and Use 6806800E08C 113 MOTLoad Firmware 6 7 5 Alternate Boot Images and Safe Start Some later versions of MOTLoad support alternate boot images and a safe start recovery procedure If safe start is available on the MVME7100 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 If an image is found control is passed to the image 6 7 6 Boot Image Firmware Scan The scan is performed by examining each 1 M
68. ee e cee cece eeene ene teens 37 2 4 1 4 JTAGPass Thru 1 2 eee cece eee e nee e eee e nee neeeeeneeas 37 2 4 1 5 Low Memory Offset 0 ccc cece cece eee e teen een esse nern tenes 37 2 4 1 6 PME 133 MHz o2c cece 122 pone nes He 38 ZANT Master WP u se goeeee ge elameae oe eee kee 38 2 4 2 Geographical Address Switch S2 0 ee cee cece e eee eee eee tenn aes 38 2 4 3 VME System Controller Select S2 cece cece cence teen ene nennen nenn 39 2 5 IPistallinG ACCOSSOM ES cece ecesayireacchue es ietek n dle ee eae eine duet ASAI cab a 39 2 5 1 Transition Module Hr ee ea 40 2 5 2 PMC sen een een bes bee 41 2 5 3 XMESPan es sche cid dh te erh nee ee 43 MVME7100 Single Board Computer Installation and Use 6806800E08C 3 Contents 2 6 Installing and Removing the Board 222202 es seen eeeeneeen nenn nennen nenn 44 2 7 Completing the Installation 0 cece cece eee e een e ene nennen nenne 45 2 8 Factory Installed Linux 0 s00 ctaceeg4 nee EEr Ra 46 3 Controls LEDs and Connectors ss aa san ee 47 3 1 OVEIVIEW anne een 47 3 2 Board Layout essen ee ee ee 48 33 Front Panel sur 2 A Na a np 49 3 3 1 Reset Abort Switch nennen baw ee eeetoage hbeeedy 49 332 LEDs nee 50 3 33 CONNeel ls e nee nenne kenne Rennen 51 3 3 3 1 XMC Expansion Connector J6 1 20 eee eee eee teen een e eee 52 3 3 3 2 Ethernet Connectors J4A J4B cece eee cette nennen 54 3 3 3 3 PCI
69. ee ee eee e eee eee eens 60 PMC Slot 2 Connector J22 Pin Assignments 0c cece e cent teen ee eens 61 PMC Slot 2 Connector J23 Pin Assignments 0 cece e eee teen eee eens 62 COM1 Port Connector Pin Assignments 00 cece cece eee eee eens 64 USB Connector J2 Pin Assignments ccc cece cece ence eee eee erenn 64 VMEbus P1 Connector Pin Assignments 0 cece eee eneren rnnr nennen 65 VME P2 Connector Pinouts 4 ee een 66 Processor COP Header P4 Pin Assignments ccc cece eee e eee ee ee seen 68 Boundary Scan Header P5 Pin Assignments ccceee eee ee eee ee eeeeee 68 Clock Frequencies 00 cece cece cece eee ene cen e nennen nennen nenn 79 Transition Module Features 0 cece cece cece ete ene e ene nenn nenn rennen 83 SEEPROM Address Switch Assignments RTM cceeee eee e eee ee eeeeeee 84 Switch Settings and Device Addresses 0c cece cece e eee eee eee nre 84 Transition Module Connectors cece ence ene nee nennen nenne 85 Transition Module LEDs cece cece eee e nent ene nne cence eens 86 MVME721 Host I O Connector J10 Pin Assignments 0 0 eee e eee eens 87 Ethernet Connectors Pin Assignment cece eee e eee e cece nerse rre 88 COM Port Connector Pin Assignments 0 cece eee eee eee eee eee e teenies 89 List of Tables Table 6 1 MOTLoad Commands 0 cece cece cece ene
70. emove power to the slot or system before installing the module Before installing the MVME7100 ensure that the serial ports and switches are properly configured Installation and Removal Procedure Before you install your module please read all cautions warnings and instructions presented in this section NOTICE Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or shorten their life Before touching the board or electronic components make sure that you are working in an ESD safe environment 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 Use the following steps to install the MVME7100 into your computer chassis 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to an electrical ground The ESD strap must be secured to your wrist and to ground throughout the procedure Remove any filler panel that might fill that slot Install the top and bottom edge of the MVME7 100 into the guides of the chassis Ensure that the levers of the two injector ejectors are in the outward position Slide the MVME7 100 into the chassis until resistance is felt a vw A U N Simultaneously move the injector ejector levers in an inward direction 44 MVME7100 Single Board Computer Installation and Use
71. en their life Before touching the board or electronic components make sure that you are working in an ESD safe environment Shipment Inspection To inspect the shipment perform the following steps 1 Verify that you have received all items of your shipment 2 Check for damage and report any damage or differences to customer service 3 Remove the desiccant bag shipped together with the board and dispose of it according to your country s legislation tz The product is thoroughly inspected before shipment If any damage occurred during transportation or any items are missing contact customer service immediately 26 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation 2 3 Requirements Make sure that the board when operated in your particular system configuration meets the requirements specified in the next sections 2 3 1 Environmental Requirements The following table lists the currently available specifications for the environmental characteristics of the MVME7100 A complete functional description of the MVME7100 baseboard appears in Chapter 4 Functional Description N Operating temperatures refer to the temperature of the air circulating around the board and not Sy 4 to the component temperature Table 2 2 MVME7100 Specifications Characteristics Operating temperature Operating 0 C to 55 C 32 F to 131 F entry air with
72. er for the user to customize the environment The following is a description of the default VME settings that are changeable by the user For more information refer to the MOTLoad User s Manual and Tundra s Tsi148 User Manual listed in Appendix B Related Documentation MVME7100 gt vmeCfg s m Displaying the selected Default VME Setting interpreted as follows VME PCI Master Enable Y N Y MVME7100 gt MVME7100 Single Board Computer Installation and Use 6806800E08C 103 MOTLoad Firmware The PCI Master is enabled MVME7100 gt vmeCcfg s r234 Displaying the selected Default VME Setting interpreted as follows VMEbus Master Control Register 00000003 IVME7100 gt The VMEbus Master Control Register is set to the default RESET condition MVME7100 gt vmeCfg s r238 Displaying the selected Default VME Setting interpreted as follows VMEbus Control Register 00000008 MVME7100 gt The VMEbus Control Register is set to a Global Timeout of 2048 useconds MVME7100 gt wmeCfg s r414 Displaying the selected Default VME Setting interpreted as follows CRG Attribute Register 00000000 CRG Base Address Upper Register 00000000 CRG Base Address Lower Register 00000000 MVME7100 gt The CRG Attribute Register is set to the default RESET condition MVME7100 gt vmeCfg s i0 Displaying the selected Default VME Setting interpreted
73. er supplies to avoid any component damage If the 5 0 V power supply is still good during a fail condition a planar red LED PWR FAIL D9 is illuminated to indicate the power supply fail condition Power Supply Filtering and Fusing Each of the switching power supply inputs on the MVME7100 will have an inductor to reduce switching noise from being fed back onto the 5 0 V input The LTC3828 supplies will each have a 10 A fuse to protect the supplies from over current in case of component failure Clock Distribution The clock function generates and distributes all of the clocks required for system operation The PCI E clocks are generated using an eight output differential clock driver The PCI PCI X bus clocks are generated by the bridge chips from the PCI E clock Additional clocks required by individual devices are generated near the devices using individual oscillators For clock assignments refer to the MVME7100 Single Board Computer Programmer s Reference manual System Clock The system clock is driven by an oscillator The following table defines the clock frequencies for various configurations Table 4 1 Clock Frequencies SYSCLK Core MPX Platform DDR2 66 67 MHz 1 3 GHz 533 MHz 266 MHz 66 67 MHz 1 067 GHz 533 MHz 266 MHz MVME7100 Single Board Computer Installation and Use 6806800E08C 79 Functional Description 4 13 2 4 13 3 4 14 4 15 Real Time Clock Input The RTC clock input is
74. es rear panel access to four serial ports with one RJ 45 connector per port and two 10 100 1000 Ethernet ports with two RJ 45 connectors The transition module also provides two planar connectors for one PIM with front I O The block diagram for the MVME7100 Single Board Computer is shown in Figure 4 1 and the block diagram for the MVME7216E transition module is shown in Figure 5 2 MVME7100 Single Board Computer Installation and Use 6806800E08C 71 Functional Description 4 2 Block Diagram The following figure is a block diagram of the MVME7100 architecture Figure 4 1 Block Diagram GigE GigE USB RJ 45 RJ 45 COM PMC1 Front IO PMC2 Front IO Front Panel T SSS Up to 4 GB DDR2 Memory SPD PHY XCVR 5482 Serial Port 0 RTC DS1375 2 ne MC864xD GigE 3 x Device TSEC3 Processor GIgE 4 Bus CPLD Temp pacads MAX6649 Timers Regs Serial Ports 1 4 MRAM Flash an 512 KB 160554 128 MB 4 or 8 GB XMCspan PCI E E2P E2P PEX8114 PEX8114 E2P E2P PEX8114 PEX8112 VME USB uPD720101 all az Tsit48 XCVR RS 232 COM2 GigE 4 COMS GigE 3 PMC 1 Jn4 IO 72 MVME7100 Single Board Computer Installation and Use 6806
75. evresi nirre Po oui RA E Waa Meee erential eres eed enads 77 4 10 1 VME Controller 0 cece ccc cece cece deraino net e nena teen ene ren ern een 77 A102 USB aaa id way ea eher 78 4 11 AMC EXpaNsSlON s 2 44 nennen san nee ran 78 4 12 Power S pplies unse anne ee a 78 4 12 1 PowerSequencing 2 000 cook er ee Rees eee AEN 78 4 12 2 Power Supply Monitor 0 c cece cece ence e eee e teen ne nennen 79 4 12 3 Power Supply Filtering and FUSING 0 ccc cece cece cence eee e eee neeenees 79 4 13 GlOck DISENDULION s users en E e a 79 4 13 1 System Clock cence eee ce ware senecadec eh nenn 79 4 13 2 Real Time Clock Input 0 cece eee eee eee namen nennen tenes 80 4 13 3 Local Bus Controller Clock Divisor 0 cece eee e cence eee e rreraren 80 4 14 Reset Control Logic 00 c cece eee ne eee ene e cent ne tne een eeetneees 80 4 15 Real Time Clock Battery cece cece eee eee eee n eee bene eeteeeenneees 80 5 Transition Module eass rennen 81 5 1 OVEIIIEW ke ah ee es kb 81 5 2 Transition Module Layout 0 ccc cece cence nee e nee n eee n een e ene enneees 82 53 Features nein 83 5 4 SEEPROM Address Switch S11 cece cece ene nen eee nee ene rennen nenn 84 5 5 RearPanel Connectors cece ccc cece nee nee e teen ence ee nenn seen nenne 85 5 5 1 MVME7216E PMC I O Module PIM Connectors J10 J14 00 cece eee eee eee 87 5 5 2 Ethernet Connectors GIGE J
76. f 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 MVME7100 Single Board Computer Installation and Use 6806800E08C 93 MOTLoad Firmware 6 3 2 Operationally MOTLoad utility applications differ from MOTLoad test applications in several ways Only one utility application operates at any given time that is multiple utility applications cannot be executing concurrently e Utility applications may interact with the user Most test applications do not Tests AMOtTLoad test application determines whether or not the hardware meets a given standard Test applications are validation tests Validation is conformance to a specification Most MOTLoad tests are designed to directly validate the functionality of a specific SBC subsystem or component It is possible for a board s component to fail in the user application but pass specification conformance These tests validate the operation of such SBC modules as dynamic memory external cache NVRAM real time clock etc All MOTLoad tests are designed to validate functionality with minimum user interaction Once launched mos
77. facturers Documents on page 119 for additional details and or programming information The clock source for the four 32 bit timers in the PLD is 25 MHz The timer prescaler must be configured to generate a 1 MHz timer reference For programming information see MVME7100 Single Board Computer Programmer s Reference Ethernet Interfaces The MVME7100 provides four 10 100 1000 Mbps full duplex Ethernet interfaces using the MC864xD Ethernet Controllers Two Broadcom BCM5482S PHYs are used The Ethernet ports on the MC864xD are configured to operate in RGMII mode Two Gigabit Ethernet interfaces are routed to front panel RJ 45 connectors with integrated LEDs for speed and activity indication The other two Gigabit Ethernet interfaces are routed to P2 for rear I O For programming information see MVME7100 Single Board Computer Programmer s Reference MVME7100 Single Board Computer Installation and Use 6806800E08C Functional Description 4 8 4 8 1 Local Bus Interface The MVME7100 uses the MC864xD Local Bus Controller LBC for access to on board flash and 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 MVME7100 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 Access timing for each device type is prog
78. feature is provided to enable recovery in cases when the programmed Alternate Boot Image is no longer desired The following output is an example of an interactive Safe Start 114 MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware ABCDEInteractive Boot Mode Entered boot gt Interactive boot commands d show directory of alternate boot images c continue with normal startup Vg squirt r addr p addr MO St has Va sthas boot gt d without executing any alternate boot image ss execute specified or default alternate image ss execute specified or default POST image help screen help screen Addr FFEO0000 Size 00100000 Flags 00000003 Name MOTLoad Addr FFDO0000 Size 00100000 Flags 00000003 Name MOTLoad boot gt c NOPORSTUVabcdefghijk lmn30pqrsstuvxyzaWXxZ Copyright Motorola Inc 1999 2004 All Rights Reserved MOTLoad RTOS Version 2 0 PAL Version 0 b EAO2 MVME7100 gt 6 8 Startup Sequence The firmware startup sequence following reset of MOTLoad is to e Initialize cache MMU FPU and other CPU internal items Initialize the memory controller e Search the active flash bank possibly interactively for a valid Power On Self Test POST image If found the POST images executes Once completed the POST image returns and startup continues e Search the active flash bank possibly interactively for a valid USER boot image If
79. ingle Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 5 PMC Slot 1 Connector J11 Pin Assignments continued Pin Signal Signal Pin 9 INTD PCI_RSVD 10 11 GND 3 3Vaux 12 13 CLK GND 14 15 GND PMCGNTI 16 17 PMCREQ1 5V 18 19 3 3V VIO AD31 20 21 AD28 AD27 22 23 AD25 GND 24 25 GND C BE3 26 27 AD22 AD21 28 29 AD19 5V 30 31 3 3V VIO AD17 32 33 FRAME GND 34 35 GND IRDY 36 37 DEVSEL 5V 38 39 GND LOCK 40 41 PCI_RSVD PCI_RSVD 42 43 PAR GND 44 45 3 3V VIO AD15 46 47 AD12 AD11 48 49 ADO9 5V 50 51 GND C BEO 52 53 ADO6 AD05 54 55 AD04 GND 56 57 3 3V VIO AD03 58 59 AD02 ADO1 60 61 ADOO 5V 62 MVME7100 Single Board Computer Installation and Use 6806800E08C Controls LEDs and Connectors Table 3 5 PMC Slot 1 Connector J11 Pin Assignments continued Pin Signal Signal Pin 63 GND REQ64 64 Table 3 6 PMC Slot 1 Connector J12 Pin Assignments Pin Signal Signal Pin 1 12V TRST 2 3 TMS TDO 4 5 TDI GND 6 7 GND Not Used 8 9 Not Used Not Used 10 11 Pull up 3 3V 12 13 RST Pull down 14 15 3 3V Pull down 16 17 Not Used GND 18 19 AD30 AD29 20 21 GND AD26 22 23 AD24 3 3V 24 25 IDSEL1 AD23 26 27 3 3V AD20 28 29 AD18 GND 30 31 AD16 C BE2 32 33 GND IDSEL1B 34
80. lates them onto the VMEbus using an offset of 0x40000000 thus an access to 0xB0000000 on the PCI X Local Bus becomes an access to 0xF0000000 on the VMEbus MVME7100 gt vmeCfg s 03 Displaying the selected Default VME Setting interpreted as Outbound Outbound Outbound Outbound Outbound Outbound Outbound Outbound MVME7100 gt Image Image Image Image Image Image Image Image WWWW WWW Ww follows Attribute Register Starting Address Starting Address Ending Address Upper Ending Address Lower 80001061 Upper Register 00000000 Lower Register B3FF0000 Register 00000000 Register B3FF0000 Translation Offset Upp Translation Offset Low r Regist r 00000000 r 4C000000 r Regist 2eSST Broadcast Select Register 00000000 Outbound window 3 OTAT3 is enabled 2eSST timing at SST320 transfer mode of SCT A16 D32 Supervisory access The window accepts transfers on the PCI X Local Bus from 0xB3FF0000 0xB3FF0000 and translates them onto the VMEbus using an offset of 0x4C000000 thus an access to OxB3FF0000 on the PCI X Local Bus becomes an access to OxFFFF0000 on the VMEbus MVME7100 gt vmeCfg s 07 Displaying the selected Default VME Setting interpreted as Outbound Outbound Outbound Outbound Outbound 106 Image Image Image Image Image 7 JX NNN follows Attribute Register Starting Address Starting A
81. le 5 5 Table 5 6 Table 5 7 Table 5 8 MVME7100 Single Board Computer Installation and Use 6806800E08C Features LSE anne nee nee ee 19 Board Standard Compliances 0 ccc cece cece cee eee eee eee e eee eeenneee 21 Mechanical Data 0 5 20 cwra eee ieee ae an ea dees ieetageae aoe 22 Board Variants u en ne an ehe 23 Startup OVervieW ee hatecad whale slat aa ae Bee wae ee eee 25 MVME7100 Specifications cece eee eee eee nee teen an nennen 27 Power Requirements nenn nenn 28 Thermally Significant Components 0 cece cece eee eee n eee rreren 29 Configuration Switch Settings S1 0 0 cece cee eee cece eee eee eee eee rren 36 VME System Controller and GA Switch Settings 2 c cece eee cence eees 39 Front Panel LEDs u nn ot eu ee eae bes een 50 Baseboard Connectors cece cee eee e eee e ence ence tne n eee e eee neeennees 51 XMC Expansion Connector J6 Pin Assignments 0 cece cece rreren 52 Ethernet Connectors J4A J4B Pin Assignments 0ccee cece eee eee eeee 54 PMC Slot 1 Connector J11 Pin Assignments 0ceeeee cece eee e eee eens 54 PMC Slot 1 Connector J12 Pin Assignments 0ce cece eee e eee e eee eens 56 PMC Slot 1 Connector J13 Pin Assignments 0ce eee ence eee eee eeeee 57 PMC Slot 1 Connector J14 Pin Assignments 00 cece eee ee eee e eee eeeee 58 PMC Slot 2 Connector J21 Pin Assignments 0c
82. ll as a vehicle from which user applications can be booted A secondary function ofthe MOTLoad firmware is to serve in some respects as a test suite providing individual tests for certain devices This chapter includes a list of standard MOTLoad commands the default VME and firmware settings that are changeable by the user remote start and the alternate boot procedure MOTLoad is controlled through an easy to use UNIX like command line interface The MOTLoad software package is similar to many end user applications designed for the embedded market such as the real time operating systems currently available Refer to the MOTLoad Firmware Package User s Manual listed in Appendix B Related Documentation for more details Implementation and Memory Requirements The implementation of MOTLoad and its memory requirements are product specific The MVME7100 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 32 MB Each supported product line has its own unique MOTLoad binary image s Currently the largest MOTLoad compressed image is less than 1 MB in size MOTLoad Commands MOTLoad supports two types of commands applications utilities and tests Both types of commands are invoked from the MOTLoad command line in a similar fashion Beyond that MOTLoad utilities and MOTLoad tests are distinctly different Utilities The definition o
83. ly support low current high speed signals and thus do not support current bearing power supply usage In most cases the PMCs are already in place on the baseboard The user configured switches are accessible with the PMCs installed The onboard PMC sites are configured to support 3 3 V I O PMC modules The onboard PMC sites do not support 5 0 V I O PMC modules Follow these steps to install a PMC onto the MVME7 100 board MVME7100 Single Board Computer Installation and Use 6806800E08C 41 Hardware Preparation and Installation Installation Procedure Read all notices and follow these steps to install a PMC on the baseboard NOTICE Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or shorten their life Before touching the board or electronic components make sure that you are working in an ESD safe environment Product Damage Inserting or removing modules with power applied may result in damage to module components Before installing or removing additional devices or modules read the documentation that came with the product 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to the chassis as a ground The ESD strap must be secured to your wrist and to ground throughout the procedure 2 Remove the PCI filler from the front panel 3 Slide the edge connector of the PMC module into the front panel opening from behind and place th
84. merson Network Power Embedded Computing Publications Document Title Publication Number MVME7100 Single Board Computer Programmer s Reference 6806800E82 MOTLoad Firmware Package User s Manual 6806800C24 XMCspan Installlation and Use 6806300H03 B 2 Manufacturers Documents For additional information refer to the following table for manufacturers data sheets or user s manuals As an additional help a source for the listed document is provided Please note that while these sources have been verified the information is subject to change without notice Table B 2 Manufacturer s Publications Document Title and Source Publication Number AMD Data Sheet Revision AAmendment 4 May S29GLxxxN MirrorBitTM Flash Family 13 2004 29GL512N S29GL256N S29GL128N 512 Megabit 256 Megabit and 128 Megabit 3 0 Volt only Page Mode Flash Memory featuring 110 nm MirrorBit process technology Atmel Corporation MVME7100 Single Board Computer Installation and Use 6806800E08C 119 Related Documentation Table B 2 Manufacturer s Publications continued Document Title and Source 2 Wire Serial EEPROM 32K 4096 x 8 64K 8192 x 8 AT24C32C AT24C64C Publication Number 5174B SEEPR 12 06 2 Wire Serial EEPROM 512K 65 536 x 8 AT24C512 Rev 1116K SEEPR 1 04 NEC Corporation Data Sheet PD720101 USB2 0 Host Controller S16265EJ3VODS00 April 2003 Freescale
85. mory Access DRAM Dynamic Random Access Memory DUART Dual Universal Asynchronous Receiver Transmitter ECC Error Correction Code EEPROM Electrically Erasable Programmable Read Only Memory EPROM Erasable Programmable Read Only Memory 12 MVME7100 Single Board Computer Installation and Use 6806800E08C About this Manual TERM MEANING FCC Federal Communications Commission FEC Fast Ethernet Controller FIFO First In First Out F W Firmware fpBGA Flip chip Plastic Ball Grid Array GB Gigabytes Gbit Gigabit Gbps Gigabits Per Second GMI Gigabit Media Independent Interface GPCM General Purpose Chip select Machine GPR General Purpose Register H w Hardware ID Identification IDMA Independent Direct Memory Access I O Input Output IEEE Institute of Electrical and Electronics Engineers 12C Inter IC JTAG Joint Test Access Group KB Kilobytes KBAUD Kilo Baud LBC Local Bus Controller LCD Liquid Crystal Display LED Light Emitting Diode LSB Least Significant Byte MB Megabytes Mbit Megabit MBLT Multiplexed Block Transfer Mbps Megabits Per Second MVME7100 Single Board Computer Installation and Use 6806800E08C 13 About this Manual TERM MEANING MHz Megahertz MII Media Independent Interface MSB Most Significant Byte Msb Most Significant Bit MTBF Mean Time Between Failure NAN
86. nal Trade Association VME VMEbus Versa Module Eurocard VPD Vital Product Data W Watts Xmit Transmit MVME7100 Single Board Computer Installation and Use 6806800E08C 15 About this Manual Conventions The following table describes the conventions used throughout this manual Notation Description 0x00000000 Typical notation for hexadecimal numbers digits are O through F for example used for addresses and offsets 00000 Same for binary numbers digits are 0 and 1 bold Used to emphasize a word Screen Used for on screen output and code related elements or commands in body text Courier Bold Used to characterize user input and to separate it from system output Reference Used for references and for table and figure descriptions File gt Exit Notation for selecting a submenu lt text gt Notation for variables and keys text Notation for software buttons to click on the screen and parameter description Repeated item for example node 1 node 2 node 12 Omission of information from example command that is not necessary at the time being Ranges for example 0 4 means one of the integers 0 1 2 3 and 4 used in registers Logical OR 16 MVME7100 Single Board Computer Installation and Use 6806800E08C About this Manual Notation Description A KRKMAKKAAK MAAK MIMAKI KIKI KR I IK CE BOG 0000000 020000000000 C00 OUUR IIR OG OL AKXAAKKAAXKAAKK
87. ng of switches which are not marked as reserved has to be checked and changed before board installation 126 MVME7100 Single Board Computer Installation and Use 6806800E08C Safety Notes Installation Data Loss Powering down or removing a board before the operating system or other software running on the board has been properly shut down may cause corruption of data or file systems Make sure all software is completely shut down before removing power from the board or removing the board from the chassis Product Damage Only use injector handles for board insertion to avoid damage to the front panel and or PCB Deformation ofthe front panel can cause an electrical short or other board malfunction Product Damage Inserting or removing modules with power applied may result in damage to module components Before installing or removing additional devices or modules read the documentation that came with the product Cabling and Connectors Product Damage RJ 45 connectors on modules are either twisted pair Ethernet TPE or E1 T1 J1 network interfaces Connecting an E1 T1 J1 line to an Ethernet connector may damage your system Make sure that TPE connectors near your working area are clearly marked as network connectors e Verify that the length of an electric cable connected to a TPE bushing does not exceed 100 meters Make sure the TPE bushing of the system is connected only to safety extra low voltage circuits SELV ci
88. ntation but are noted here for reference Mailbox 0 is at offset 7f610 in the CR Mailbox 1 is at offset 7f614 in the CR Mailbox 2 is at offset 7f618 in the CR Mailbox 3 is at offset 7f61C in the CR CSR space CSR space CSR space CSR space ofS ee Lee Al The selection of the mailbox used by remote start on an individual MVME7100 is determined by the setting of a global environment variable GEV The default mailbox is zero Another GEV controls whether remote start is enabled default or disabled Refer to the Remote Start appendix in the MOTLoad Firmware Package User s Manual for remote start GEV definitions The MVME7100 s IBCA needs to be mapped appropriately through the master s VMEbus bridge For example to use remote start using mailbox 0 on an MVME7100 installed in slot 5 the master would need a mapping to support reads and writes of address 0x002ff610 in VME CR CSR space 0x280000 0x7f610 Boot Images Valid boot images whether POST USER or Alternate MOTLoad are located on 1 MB boundaries within the upper 8 MB of flash The image may exceed 1 MB in size An image is determined valid through the presence of two valid image keys and other sanity checks A valid boot image begins with a structure as defined in the following table Name Type Size Notes UserDefined unsigned integer 8 User defined ImageKey 1 unsigned integer 1 0x414c5420 ImageKey 2 unsigned integer 1 0x424f4f54 ImageChe
89. oper operation of the MVME7100 you may need to carry out certain hardware modifications before installing the module The MVME7100 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 MVME7100 control registers are described in the MVME7100 Programmer s Reference MVME7100 Single Board Computer Installation and Use 6806800E08C 33 Hardware Preparation and Installation Prior to installing PMC modules on the MVME7100 baseboard ensure that all switches that are user configurable are set properly To do this refer to Figure 2 3 or the board itself for the location of specific switches and set the switches according to the following descriptions Figure 2 3 Switch Locations anl HN
90. or installing the MVME7216E transition module PMCs and the XMCspan on the baseboard MVME7100 Single Board Computer Installation and Use 6806800E08C 39 Hardware Preparation and Installation 2 5 1 40 Transition Module The MVME7216E does not support hot swap You should remove power to the rear slot or system before installing the module Before installing the MVME7216E transition module you may need to manually configure the switch and install a PMC I O Module PIM Refer to Chapter 5 Transition Module for switch settings and PIM installation NOTICE Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or shorten their life Before touching the board or electronic components make sure that you are working in an ESD safe environment 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 Board Malfunction Switches marked as reserved might carry production related functions and can cause the board to malfunction if their setting is changed Do not change settings of switches marked as reserved The setting of switches which are not marked as reserved has to be checked and changed before board installation Installation and Removal Procedure To begin the installation of the transition module in a chassi
91. ore Break Points gevDelete Global Environment Variable Delete gevDump Global Environment Variable s Dump NVRAM Header Data gevEdit Global Environment Variable Edit gevinit Global Environment Variable Area Initialize NVRAM Header gevList Global Environment Variable Labels Names Listing gevShow Global Environment Variable Show gn Go Execute User Program to Next Instruction go Go Execute User Program gt Go Execute User Program to Temporary Break Point hbd Display History Buffer hbx Execute History Buffer Entry help Display Command Test Help Strings I2CacheShow Display state of L2 Cache and L2CR register contents I3CacheShow Display state of L3 Cache and L3CR register contents mdb Memory Display Bytes Halfwords Words mdh mdw memShow Display Memory Allocation mmb Memory Modify Bytes Halfwords Words mmh mmw mpuFork Execute program from idle processor MVME7100 Single Board Computer Installation and Use 6806800E08C 97 MOTLoad Firmware Table 6 1 MOTLoad Commands continued Command Description mpuShow Display multi processor control structure mpuStart Start the other MPU netBoot Network Boot BOOT TFTP netShow Display Network Interface Configuration Data netShut Disable Shutdown Network Interface netStats Display Network Interface Statistics Data noCm Turns off Concurrent Mode pciDataRd Read PCI Device Configuration
92. ort execution from flash User Images These images are user developer boot code for example a VxWorks bootrom image Such images may expect the system software state to be as follows upon entry e TheMMU is disabled L1 instruction cache has been initialized and is enabled L1 data cache has been initialized invalidated and is disabled MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware 6 7 4 e L2 cache is disabled e L3 cache is disabled RAM has been initialized and is mapped starting at CPU address 0 If RAM ECC or parity is supported RAM has been scrubbed of ECC or parity errors e The active flash bank boot is mapped from the upper end of the address space e If specified by COPY_TO_RAM the image has been copied to RAM at the address specified by ImageRamAddress e CPU register R1 the stack pointer has been initialized to a value near the end of RAM e CPU register R3 is added to the following structure typedef struct altBootData unsigned int ramSize board s RAM size in MB void flashPtr ptr to this image in flash char boardType 16 name string eg MVME7100 void globalData 16K zeroed user defined unsigned int reserved 12 altBootData_t Alternate Boot Data Structure The globalData field of the alternate boot data structure points to an area of RAM which was initialized to zeroes by the boot loader This area of RAM is not clear
93. r 32 bit timers in a PLD Watchdog Timer One watchdog timer in PLD 20 MVME7100 Single Board Computer Installation and Use 6806800E08C Introduction Table 1 1 Features List continued Function Features VME Interface VME64 ANSI VITA 1 1994 compliant 3 row backplane 96 pin VME connector VME64 Extensions ANSI VITA 1 1 1997 compliant 5 row backplane 160 pin VME connector 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 Miscellaneous One front panel RESET ABORT switch Six front panel status indicators Two 10 100 1000 Ethernet link speed and activity 4 total Board fail User S W controlled LED Planar status indicators One standard 16 pin JTAG COP header Boundary scan support Switches for VME geographical addressing in a three row backplane Software Support VxWorks OS support Linux OS support 1 2 Standard Compliances The MVME7 100 is designed to be CE compliant and to meet the following standard requirements Table 1 2 Board Standard Compliances Standard Description UL 60950 1 Safety Requirements legal EN 60950 1 IEC 60950 1 CAN CSA C22 2 No 60950 1 MVME7100 Single Board Computer Installation and Use 6806800E08C 21 Introduction Table 1 2 Board Standard Compliances continued Standard Description CISPR 22 EM
94. r Modifikationen am Produkt welche ohne ausdr ckliche Genehmigung von Emerson Network Power durchgef hrt werden k nnen dazu f hren dass der Anwender die Genehmigung zum Betrieb des Produktes verliert Boardprodukte werden in einem repr sentativen System getestet um zu zeigen dass das Board den oben aufgef hrten EMV Richtlinien entspricht Eine ordnungsgem sse Installation in einem System welches die EMV Richtlinien erf llt stellt sicher dass das Produkt gem ss den EMV Richtlinien betrieben wird Verwenden Sie nur abgeschirmte Kabel zum Anschluss von Zusatzmodulen So ist sichergestellt dass sich die Aussendung von Hochfrequenzstrahlung im Rahmen der erlaubten Grenzwerte bewegt Warnung Dies ist eine Einrichtung der Klasse A Diese Einrichtung kann im Wohnbereich Funkst rungen verursachen In diesem Fall kann vom Betreiber verlangt werden angemessene Ma nahmen durchzuf hren Betrieb 1 Besch digung des Produktes Hohe Luftfeuchtigkeit und Kondensat auf der Oberfl che des Produktes k nnen zu Kurzschl ssen f hren Betreiben Sie das Produkt nur innerhalb der angegebenen Grenzwerte f r die relative Luftfeuchtigkeit und Temperatur Stellen Sie vor dem Einschalten des Stroms sicher dass sich auf dem Produkt kein Kondensat befindet 130 MVME7100 Single Board Computer Installation and Use 6806800E08C Sicherheitshinweise Besch digung von Schaltkreisen Elektrostatische Entladung und unsachgem er Ein und Ausbau des P
95. rammable and depends on the device timing data found in the VPD during initialization A hardware flash bank write protect switch is provided on the MVME7100 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 When this switch is OFF write protection is controlled by the state of the software flash write protect bits and can only be disabled by clearing this bit in the NOR Flash Control Status register Note that the F_WE_HW bit reflects the state of the switch and is only software readable whereas the F_WP_SW bit supports both read and write operations The MVME7100 provides a dual boot option for booting from one of two separate boot images in the boot flash bank which are referred to as boot block A and boot block B Boot blocks A and B are each 1 MBin size and are located at the top highest address 2 MB of the boot flash memory space Block A is located at the highest 1 MB block and block B is the next highest 1 MB block A flash boot block switch is used to select between boot block A and boot block B When the switch is OFF the flash memory map is normal and block A is selected as shown in Figure 3 When the switch is ON block B is mapped to the highest address as shown in Figure 4 The MAP_SELECT bit in the flash Control Status register can disable the jumper and restore the memory map to the no
96. rcuits If in doubt ask your system administrator MVME7100 Single Board Computer Installation and Use 6806800E08C 127 Safety Notes Battery 128 Board System Damage Incorrect exchange of lithium batteries can result in a hazardous explosion When exchanging the on board lithium battery make sure that the new and the old battery are exactly the same battery models If the respective battery model is not available contact your local Emerson sales representative for the availability of alternative officially approved battery models Data Loss Exchanging the battery can result in loss of time settings Backup power prevents the loss of data during exchange Quickly replacing the battery may save time settings Data Loss If the battery has low or insufficient power the RTC is initialized Exchange the battery before seven years of actual battery use have elapsed 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 MVME7100 Single Board Computer Installation and Use 6806800E08C Sicherheitshinweise o CM Dieses Kapitel enth lt Hinweise die potentiell gef hrlichen Prozeduren innerhalb dieses Handbuchs vorrangestellt sind Beachten Sie unbedingt in allen Phasen des Betriebs der Wartung und der Reparatur des Systems die Anweisungen die diesen Hinweisen enthalten sind
97. rmal configuration with block A selected Flash Memory The MVME7100 is designed to provide 128 MB of soldered on NOR flash memory Two AMD 3 3 V devices are configured to operate in 16 bit mode to form a 32 bit flash bank This flash bank is also the boot bank and is connected to LBC Chip Select 0 and 1 Also included is a second bank of NAND flash up to 32 GB connected to LBC Chip Select 2 The VPD flash packet s will determine which devices are populated and the size of the devices Programming details can be found in the MVME7100 Single Board Computer Programmer s Reference manual MVME7 100 Single Board Computer Installation and Use 6806800E08C 75 Functional Description 4 8 2 4 8 3 4 8 4 NVRAM The MVME7100 includes one Freescale 512 MB MRAM device connected to the MC864xD device control bus to provide a non volatile memory that has unlimited writes fast access and long term data retention without power The MRAM device selected is also an extended temperature device with an operating range from 40 C to 105 C 40 F to 221 F The MRAM is organized as 256 K by 16 Refer to the datasheet for additional information Quad UART QUART The MVME7100 contains one Quad UART device connected to the MC864xD device control bus to provide additional asynchronous serial ports The Quad UART provides four asynchronous serial ports which are routed to the P2 connector The TTL level signals of RX TX CTS and RTS from each port
98. rmware prompt vmeCfg z Remote Start As described in the MOTLoad Firmware Package User s Manual listed in Appendix B 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 MVME7100 MOTLoad uses one of four mailboxes in the Tsil48 VME controller as the inter board communication address IBCA between the host and the target CR CSR slave addresses configured by MOTLoad are assigned according to the installation slot inthe backplane as indicated by the VME64 Specification For reference the following values are provided 1 CS CSR Starting Address Slot Position 0x0008 0000 0x0010 0000 0x0018 0000 0x0020 0000 0x0028 0000 0x0030 0000 0x0038 0000 0x0040 0000 0x0048 0000 0x0050 0000 0x0058 0000 wm gt wol lolwnian uf aA win 0x0060 0000 MVME7100 Single Board Computer Installation and Use 6806800E08C 109 MOTLoad Firmware 6 7 For further details on CR CSR space please refer to the VME64 Specification listed in Appendix B Related Documentation The MVME7100 uses a TSi148 for its PCI X to VME bus bridge The offsets of the mailboxes in the TSi148 are defined in the TSiT48 VMEBus PCI X to VME User Manual listed in Appendix B Related Docume
99. rnet Connectors Pin Assignment Pin Signal 1000 Mb s 10 100 Mb s 1 MDIOO _DA TD 2 MDIOO _DA TD 3 MDIO1 _DB RD 88 MVME7100 Single Board Computer Installation and Use 6806800E08C Table 5 7 Ethernet Connectors Pin Assignment Transition Module Pin Signal 1000 Mb s 10 100 Mb s 4 MDIO1 _DC Not Used 5 MDIO2 _DG Not Used 6 MDIO2 _DB RD 7 MDIO3 _DD Not Used 8 MDIO3 _DD Not Used 5 5 3 Serial Port Connectors COM2 COM5 J1A D 5 6 MVME7100 Single Board Computer Installation and Use 6806800E08C The MVME7100 routes four asynchronous serial port interfaces SP1 SP4 to the VMEbus P2 connector The MVME7216E routes these from the P2 connector to the R 45 connectors on RTM panel The pin assignments for these connectors are as follows Table 5 8 COM Port Connector Pin Assignments Pin Signal 1 No connect RTS CoO NT OD Om BR WwW N 7 x No connect PMC Input Output Module If a PMC Input output Module PIM has already been installed on the MVME7216E or you are installing a transition module as it has been shipped from the factory disregard this procedure and refer to Transition Module on page 40 Transition Module Procedure For PIM installation perform the following steps 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to the chassis as a gro
100. roduktes kann Schaltkreise besch digen oder ihre Lebensdauer verk rzen Bevor Sie das Produkt oder elektronische Komponenten ber hren vergewissern Sie sich da Sie in einem ESD gesch tzten Bereich arbeiten Fehlfunktion des Produktes Schalter die mit Reserved gekennzeichnet sind k nnen mit produktionsrelevanten Funktionen belegt sein Das ndern dieser Schalter kann im normalen Betrieb St rungen ausl sen Verstellen Sie nur solche Schalter die nicht mit Reserved gekennzeichnet sind Pr fen und ggf ndern Sie die Einstellungen der nicht mit Reserved gekennzeichneten Schalter bevor Sie das Produkt installieren Installation Datenverlust Das Herunterfahren oder die Deinstallation eines Boards bevor das Betriebssystem oder andere auf dem Board laufende Software ordnungsmem ss beendet wurde kann zu partiellem Datenverlust sowie zu Sch den am Filesystem f hren Stellen Sie sicher dass s mtliche Software auf dem Board ordnungsgem ss beendet wurde bevor Sie das Board herunterfahren oder das Board aus dem Chassis entfernen Besch digung des Produktes Fehlerhafte Installation des Produktes kann zu einer Besch digung des Produktes f hren Verwenden Sie die Handles um das Produkt zu installieren deinstallieren Auf diese Weise vermeiden Sie dass das Face Plate oder die Platine deformiert oder zerst rt wird Besch digung des Produktes und von Zusatzmodulen Fehlerhafte Installation von Zusatzmodulen kann zur Bes
101. routes only power and ground from VME P2 connector There are no host I O signals on this connector The MVME7100 routes PMC I O from J14 of PMC Slot 1 to VME P2 rows A and C The MVME7216E routes these signals pin for pin from VME P2 to PMC I O module connector J14 MVME7100 Single Board Computer Installation and Use 6806800E08C 85 Transition Module Figure5 4 Rear Panel Connectors and LEDs G Enet 1 G Enet 2 PMC Site There are two sets of ACT and SPEED LEDs one set for each Ethernet connector They are described in the next table Table 5 5 Transition Module LEDs LED Function ACT Activity or Ethernet or Gigabit E Ethernet connector 86 MVME7100 Single Board Computer Installation and Use 6806800E08C Transition Module Table 5 5 Transition Module LEDs continued LED Function SPEED 10 100 1000Mb s of Ethernet connectors 5 5 1 MVME7216E 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 MVME7100 routes PMC I O from J14 of PMC Slot 1 to VME P2 rows A and C The MVME7216E routes these signals pin for pin from VME P2 to PMC I O Module connector J14 See Table 5 6 and Table 3 8 for the pin assignments Table 5 6 MVME721 Host I O Connector J10 Pin Assignments Pin Signal
102. s proceed as follows 1 Turn all equipment power OFF and disconnect the power cable from the AC power source 2 Remove the chassis cover as instructed in the equipment user s manual 3 Remove the filler panel s from the appropriate card slot s at the rear of the chassis if the chassis has a rear card cage 4 Install the top and bottom edge of the transition module into the rear guides of the chassis MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation 2 5 2 Ensure that the levers of the two injector ejectors are in the outward position Slide the transition module into the chassis until resistance is felt Simultaneously move the injector ejector levers in an inward direction oO nN 9 u Verify that the transition module is properly seated and secure it to the chassis using the two screws located adjacent to the injector ejector levers 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 PMC The PMC connectors are placed to support two single width PMCs or one double width PMC PMC site 1 supports front PMC I O and rear PMC I O via the Jn4 connector PMC 1 I O is routed to the VME P2 connector PMC site 2 only supports front PMC I O and does not have a Jn4 connector The PMC 1 n4 user I O signals on
103. s the available expansion and transition modules for the MVME7100 Model Number Description MVME7216E 001 Transition module 6E XMCSPAN 001 XMC Expansion IEEE handles XMCSPAN 002 XMC Expansion Scanbe handles The IPMC712 and IPMC761 I O modules are not supported on the MVME7100 SBC MVME7100 Single Board Computer Installation and Use 6806800E08C 23 Introduction 24 MVME7100 Single Board Computer Installation and Use 6806800E08C Chapter 2 Hardware Preparation and Installation 2 1 Overview This chapter provides startup and safety instructions related to this product hardware preparation instruction that includes default switch settings System considerations and installation instructions for the baseboard PMC and transition module are also described in this chapter A fully implemented MVME7100 consists ofthe baseboard plus e Two single wide or one double wide PCI Mezzanine Card PMC slot for added versatility e One transition module for support of the mapped I O from the MVME7100 baseboard to the P2 connector e Upto two optional XMCspan cards The following table lists the things you will need to do before you can use this board and tells you 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 Table 2 1 Startup Overview Task Unpack the hardware Page Unpacking an
104. sign a geographical address per the following diagram More information regarding GA address switch assignments can be found in the MVME7100 Single Board Computer Programmer s Reference Geographical Address Switch Position ON a Table i oes table See Table See Table GAP 0 GAP 1 GA4 0 GA4 1 GA3 0 GA3 1 GA2 0 GA2 1 GAt 0 GA1 1 GAO 0 GAG 1 MVME7100 Single Board Computer Installation and Use 6806800E08C Hardware Preparation and Installation 2 4 3 VME System Controller Select S2 Positions 1 and 2 of S2 are used to select VME System Controller selection The default is for automatic determination of SYSCON Table 2 6 VME System Controller and GA Switch Settings Position Function Default 52 1 VME SCON Auto Auto SCON S2 2 VME SCON SEL Non SCON 52 3 GAP 1 52 4 GA4 1 52 5 GA3 1 52 6 GA2 1 52 7 GA1 1 52 8 GAO 1 1 The VME SCON MAN switch is OFF to select Auto SCON mode The switch is ON to select manual SCON mode which works in conjunction with the VME SCON SEL switch 2 The VME SCON SEL switch is OFF to select non SCON mode The switch is ON to select always SCON mode This switch is only effective when the VME SCON MAN switch is ON 2 5 If you are installing the optional MVME7216E transition module refer to Transition Module on page 40 for configuration switch settings Installing Accessories This section describes the procedures f
105. stallation and Use 6806800E08C 81 Transition Module 5 2 Transition Module Layout The following illustration shows the component layout and connectors on the MVME7216E transition module Figure5 1 Component Layout J10 S1 SMT Switch J14 82 MVME7100 Single Board Computer Installation and Use 6806800E08C Transition Module 5 3 Features The MVME7216E 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 80 mm deep rear transition area The MVME7216E is designed for use with the host MVME7100 board It has these features Table 5 1 Transition Module Features Function I O Features One five row P2 backplane connector for serial and Ethernet I O passed from the SBC Four RJ 45 connectors for rear panel I O four asynchronous serial channels Two RJ 45 connectors with integrated LEDs for rear panel I O two 10 100 1000 Ethernet channels One PIM site with rear panel I O Figure 5 2 12C Bus 8 KB PMC 1 Jn4 IO Block Diagram Serial Port 1 Serial Port 2 Serial Port 3 Serial Port 4 GigE GigE Serial Serial Serial Serial RJ 45 RJ 45 RJ 45 RJ 45 Ry 45 RJ 45 PIM IO Rear Panel MVME7 100 Single Board Computer Installation and Use 6806800E08C 83 Tr
106. t MOTLoad tests operate automatically without any user interaction There are a few tests where the functionality being validated requires user interaction that is switch tests interactive plug in hardware modules etc Most MOTLoad test results error data status data are logged not printed Test results are not preserved and therefore not available to user applications subsequent to their execution All MOTLoad tests commands have complete and separate descriptions refer to the MOTLoad Firmware Package User s Manual for this information All devices that are available to MOTLoad for validation verification testing are represented by a unique device path string Most MOTLoad tests require the operator to specify a test device at the MOTLoad command line when invoking the test A listing of all device path strings can be displayed through the devShow command If an SBC device does not have a device path string it is not supported by MOTLoad and can not be directly tested There are a few exceptions to the device path string requirement like testing RAM which is not considered a true device and can be directly tested without a device path string Refer to the devShow command description page in the MOTLoad Firmware Package User s Manual MVME7100 Single Board Computer Installation and Use 6806800E08C 6 3 3 MOTLoad Firmware Most MOTLoad tests can be organized to execute as a group of related tests a testSuite through th
107. tasheet for additional details and or programming information XMC Expansion The MVME7100 provides an additional XMC PMC module capability through the use of a 78 pin stacking connector This connector is connected to the second PCI Express port on the processor Up to four additional XMC PMC modules may be added by using two expansion boards Refer to the XMCspan datasheet for additional details and or programming information Power Supplies The MVME7100 on board voltages will be generated using Linear Tech LTC3828 dual output two phase controllers and LTC3416 single output controllers The following sections detail the MVME7100 power requirements Power Sequencing In order to meet the power sequencing requirements of the various components on the MVME7100 the power supply controllers implement voltage tracking which allows the power supply outputs to track each other coincidentally during power up and power down The 3 3 V supply output will be used as the tracking reference All supply outputs will reach their final values within 20 milliseconds during power up MVME7100 Single Board Computer Installation and Use 6806800E08C Functional Description 4 12 2 4 12 3 4 13 4 13 1 Power Supply Monitor Logic is provided on board to monitor the PGOOD signal from the LTC3828 and LTC3416 regulators to determine if the power supply outputs are within tolerance If any of the power supplies fail this logic shuts off the pow
108. tcReset RTC Reset testRtcRollOver RTC Rollover testRtcTick RTC Tick testSerialExtLoop Serial External Loopback testSeriallntLoop Serial Internal Loopback testStatus Display the Contents of the Test Status Table testSuite Execute Test Suite testSuiteMake Make Create Test Suite testWatchdogTimer Tests the Accuracy ofthe Watchdog Timer Device tftpGet TFTP Get MVME7100 Single Board Computer Installation and Use 6806800E08C 99 MOTLoad Firmware Table 6 1 MOTLoad Commands continued Command Description tftpPut TFTP Put time Display Date and Time transparentMode Transparent Mode Connect to Host tsShow Display Task Status upLoad Up Load Binary Data from Target version Display Version String s vmeCfg Manages user specified VME configuration parameters vpdDisplay VPD Display vpdEdit VPD Edit wait Wait for Test Completion waitProbe Wait for I O Probe to Complete 6 4 100 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 The default MOTLoad serial port settings are 9600 baud 8 bits no parity The MOTLoad command line interface is similar to a UNIX command line shell interface Commands are initiated by entering a valid MOTLoad command a te
109. teinstellungen m glicherweise erhalten MVME7100 Single Board Computer Installation and Use 6806800E08C Sicherheitshinweise Datenverlust Wenn die Batterie wenig oder unzureichend mit Spannung versorgt wird wird der RTC initialisiert Tauschen Sie die Batterie aus bevor sieben Jahre tats chlicher Nutzung vergangen sind Sch den an der Platine oder dem Batteriehalter Wenn Sie die Batterie mit einem Schraubendreher entfernen k nnen die Platine oder der Batteriehalter besch digt werden Um Sch den zu vermeiden sollten Sie keinen Schraubendreher zum Ausbau der Batterie verwenden Umweltschutz Entsorgen Sie alte Batterien und oder Blades Systemkomponenten RTMs stets gem der in Ihrem Land g ltigen Gesetzgebung wenn m glich immer umweltfreundlich MVME7100 Single Board Computer Installation and Use 6806800E08C 133 Sicherheitshinweise 134 MVME7100 Single Board Computer Installation and Use 6806800E08C Index A alternate bootimages 114 battery exchange 118 board initialization 113 bootcode 112 boot images types 110 bootloader 113 C checksum 111 command line rules MOTLoad 102 command line rules and help 100 comments and suggestions 17 completing the installation 45 compliances 21 contact address 17 control register 109 control status register 109 conventions 16 D damage reporting 26 default VME settings 103 delete 108 display 107 edit 108 restore 109 delete VME settings 1
110. ts for Information Technology Equipment The use of the product in any other application may require safety evaluation specific to that application Only personnel trained by Emerson or persons qualified in electronics or electrical engineering are authorized to install remove or maintain the product The information given in this manual is meant to complete the knowledge of a specialist and must not be used as replacement for qualified personnel Keep away from live circuits inside the equipment Operating personnel must not remove equipment covers Only Factory Authorized Service Personnel or other qualified service personnel may remove equipment covers for internal subassembly or component replacement or any internal adjustment Do not install substitute parts or perform any unauthorized modification of the equipment or the warranty may be voided Contact your local Emerson representative for service and repair to make sure that all safety features are maintained This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications MV
111. ttery Location nun 117 MVME7100 Single Board Computer Installation and Use 6806800E08C 9 List of Figures 10 MVME7100 Single Board Computer Installation and Use 6806800E08C About this Manual C I O OM OOOO i OO Overview of Contents This manual provides the information required to install and configure an MVME7100 Single Board Computer Additionally this manual provides specific preparation and installation information and data applicable to the board The MVME7100 is a high performance dual core processor board featuring the Freescale 8641D with a dedicated bridge to each processor This manual is divided into the following chapters and appendices Chapter 1 Introduction lists the features of the MVME7100 baseboard standard compliances and model numbers for boards and accessories Chapter 2 Hardware Preparation and Installation includes a description of the MVME7100 unpacking instructions environmental thermal and power requirements and howto prepare and install the baseboard transition module and PMC module Chapter 3 Controls LEDs and Connectors provides an illustration of the board components and front panel details This chapter also gives descriptions for the onboard and front panel LEDs and connectors Chapter 4 Functional Description describes the major features of the MVME7100 baseboard These descriptions include both programming and hardware characteristics of major components
112. und The ESD strap must be secured to your wrist and to ground throughout the procedure Carefully remove the transition module from its packaging and lay it flat on a stable surface Remove the PIM filler from the front panel of the transition module Slide the face plate front bezel of the PIM module into the front panel opening from behind and place the PIM module on top of the transition module aligned with the appropriate two PIM connectors The two connectors on the underside of the PIM module should then connect smoothly with the corresponding connectors on the transition module J10 and J14 Insert the four short Phillips screws provided with the PIM through the holes on the bottom side of the transition module into the 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 MVME7100 MVME7100 Single Board Computer Installation and Use 6806800E08C Transition Module Figure5 5 Installing the PIM PIM Alignment MVME7100 Single Board Computer Installation and Use 6806800E08C 91 Transition Module 92 MVME7100 Single Board Computer Installation and Use 6806800E08C Chapter 6 MOTLoad Firmware 6 1 6 2 6 3 6 3 1 Overview The MOTLoad firmware package serves as a board power up and initialization package as we
113. urn cae shee EAs dea deta es REALE ee 110 6 7 1 Checksum Algorithm cece cece cece cence ne enn e E teens tenes 111 6 7 2 Image Flags unsre ea Die el 111 6 7 3 WUserilmages see Reese Dee 112 6 7 4 Alternate Boot Data Structure 0 0 0 cece cece cent eee ee en ee rennen 113 6 7 5 Alternate Boot Images and Safe Start 0 cece eect erneer 114 6 7 6 Boot Image Firmware Scan 2 eee eect teen een e eee e eens 114 6 3 Startup Sequence aussen niheesee 115 A Battery Exchange sn ee 117 A l Battery Exchange nun se kein 117 B Related Doc ment tion u 0 0 uun0 000000000 ein 119 B 1 Emerson Network Power Embedded Computing Documents 0ee eee ee 119 B 2 Manufacturers Documents 0c e cece e cece ene snin ianei ornis nennen 119 B 3 Related Specifications 0 cece ccc cece ene nen nen eee eee enneeeneees 122 Safety NOES ii u a Waseca a ecko a ar a Aa A se mews 125 Sicherheitshinweise 0 eas 129 Index ee une ee ee 135 6 MVME7100 Single Board Computer Installation and Use 6806800E08C List of Tables Table 1 1 Table 1 2 Table 1 3 Table 1 4 Table 2 1 Table 2 2 Table 2 3 Table 2 4 Table 2 5 Table 2 6 Table 3 1 Table 3 2 Table 3 3 Table 3 4 Table 3 5 Table 3 6 Table 3 7 Table 3 8 Table 3 9 Table 3 10 Table 3 11 Table 3 12 Table 3 13 Table 3 14 Table 3 15 Table 3 16 Table 3 17 Table 4 1 Table 5 1 Table 5 2 Table 5 3 Table 5 4 Tab
114. vents the loss of data during exchange Quickly replacing the battery may save time settings Data Loss If the battery has low or insufficient power the RTC is initialized Exchange the battery before seven years of actual battery use have elapsed 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 Exchange Procedure To exchange the battery proceed as follows 1 Remove the old battery 2 Install the new battery with the plus sign facing up 3 Dispose of the old battery according to your country s legislation and in an environmentally safe way 118 MVME7100 Single Board Computer Installation and Use 6806800E08C Appendix B Related Documentation B 1 Emerson Network Power Embedded Computing 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 www emersonnetworkpower com embeddedcomputing gt Solution Services gt Technical Documentation Search This site provides the most up to date copies of Emerson Network Power Embedded Computing product documentation Table B 1 E
115. workpowerembeddedcomputing com gt Contact Us gt Online Form In Area of Interest select Technical Documentation Be sure to include the title part number and revision of the manual and tell us how you used it MVME7100 Single Board Computer Installation and Use 6806800E08C Chapter 1 Introduction 1 1 Features The MVME7100 Single Board Computer is 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 MVME7100 is compliant with the VITA standards VMEbus 2eSST and PCI X as listed in Appendix B Related Documentation Table 1 1 Features List Function Features Processor Host Controller One MC864xD Integrated Processor Memory Controller Two e600 cores with integrated L2 Core frequency of 1 067 or 1 33 GHz One integrated four channel DMA controller Two integrated PCIE interfaces Four integrated 10 100 1000 Ethernet controllers One integrated DUART Two integrated I C controllers One integrated Programmable Interrupt Controller One integrated Local Bus Controller Two integrated DDR2 SDRAM controllers System Memory Two banks of DDR2 SDRAM with ECC 1GB 2 GB or 4 GB 1 C One 8 KB VPD serial EEPROM Two 64 KB user configuration serial EEPROMs One Real Time Clock RTC with removable battery Dual temperature sensor Two SPDs for memory Connection to XMCspan and rear transition module
116. xt string at the MOTLoad command line prompt and pressing the carriage return key to signify the end of input MOTLoad then performs the specified action An example of a MOTLoad command line promptis shown below The MOTLoad prompt changes according to what product it is used on for example MVME6100 MVME3100 MVME7 100 Example MVME7100 gt If an invalid MOTLoad command is entered at the MOTLoad command line prompt MOTLoad displays a message that the command was not found MVME7100 Single Board Computer Installation and Use 6806800E08C MOTLoad Firmware Example MVME7100 gt mytest mytest not found MVME7100 gt If the user enters a partial MOTLoad command string that can be resolved to a unique valid MOTLoad command and presses the carriage return key the command is executed as if the entire command string had been entered This feature is a user input shortcut that minimizes the required amount of command line input MOTLoad is an ever changing firmware package so user input shortcuts may change as command additions are made Example MVME7100 gt ver sion Copyright Motorola Inc 1999 2005 All Rights Reserved MOTLoad RTOS Version 2 0 PAL Version 1 0 RMO1 Mon Aug 29 15 24 13 MST 2005 MVME7100 gt Example MVME7100 gt ver Copyright Motorola Inc 1999 2005 All Rights Reserved MOTLoad RTOS Version 2 0 PAL Version 1 0 RMO1 Mon Aug 29 15 24 13 MST 2005 MVME7100 gt If the partial
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