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1. 020 0123 00 0 359 ISWLAV U124 4436 0207 B 3 Component Temperature Measurement The following sections outline general temperature measurement methods For the specific types of measurements required for thermal evaluation of this board see Table B 1 122 MVME55006E Single Board Computer Installation and Use 6806800A37H Thermal Validation B 3 1 Preparation We recommend 40 AWG American wire gauge thermocouples for all thermal measurements Larger gauge thermocouples can wick heat away from the components and disturb air flowing past the board Allow the board to reach thermal equilibrium before taking measurements Most circuit boards will reach thermal equilibrium within 30 minutes After the warm up period monitor a small number of components over time to assure that equilibrium has been reached B 3 2 Measuring Junction Temperature Some components have an on chip thermal measuring device such as a thermal diode For instructions on measuring temperatures using the on board device refer to the component manufacturer s documentation listed in Appendix C Related Documentation B 3 3 Me
2. 81 5 1 Introduction 22 4 ee a see 81 D2 qd se Zur zen ee ee a ehe see 81 5 2 1 Asynchronous Serial Port 1 82 MVME55006E Single Board Computer Installation and Use 6806800A37H 5 Contents 5 2 2 Ethernet Connectors J2 0 cece cece eee nee nn 82 5 2 3 IPMC Connector BB ee 83 5 2 4 PCI PMC Expansion Connector JA III 85 5 2 5 CPU COP 5 nn 87 5 2 6 1 Interface Connectors 11 12 13 14 88 5 2 7 Boundary Scan Connector 18 93 5 2 8 PMC 2 Interface Connectors 21 22 23 24 94 5 2 9 Asynchronous Serial Port COM2 Planar Connector J33 99 5 2 10 VMEbus Connectors P1 amp P2 Mode 100 5 2 11 VMEbus Connectors P1 amp P2 SBC Mode 102 5 2 12 Memory Expansion Connector 4 e cence nee 105 5 3 n E 108 5 3 1 Ethernet 2 PMC SBC Mode and P2 I O Selection Headers J6 7 J28 J32 34 J97 J110 108 RR lic 109 5 3 1 2 PMC SBC Mode Selection 110 5 3 1 3
3. 32 1 7 12 Setting the PMC Vio Keying Pin RI 33 1 8 Installing the RAM5500 Module he 33 1 9 Installing PMCS Osee eoe ee 35 1 9 1 Mounting the II 35 1 92 Primary oci e anne 37 1 9 3 Secondary eee cece cece e e hehe 40 1 10 Installing the Board a ea ede oboe ase 41 1 10 1 Connection to 5 renee namen een nen nennen 42 1 10 2 Completing the Installation 43 1 11 Startup and Operation errem nee eret mee e done ERR RR Rm nn 43 MVME55006E Single Board Computer Installation and Use 6806800A37H 3 Contents 1 12 Applying Power speaker 44 1 13 Switches and Indicators 44 2 Functional Description 2 herr en na 45 2 1 OVEIVIEW x isses UE ie reo bU cere E ES E mine 45 22 BlockDiagram ret RR erre E Eee De 45 2 3 uplse e en en 46 2 4 gnati T 47 MEE las eco eek 47 2 6 System Controller vee ee 48 2 6 1 GPU B slrt rface ore nee ete e ei e rines 48 2 6 2 Memory Controller Interface 48 2 6 3 Interrupt Controller cece usn eee eee eee ee mn 49 2 6 4 12 Seri
4. 88 Table 5 7 1 Connector J12 Pin Assignments 89 Table 5 8 1 Connector J13 Pin Assignments 91 Table 5 9 PMC 1 Connector J14 Pin Assignments 92 Table 5 10 Boundary Scan Connector J18 Pin Assignments 93 Table 5 11 PMC 2 Connector J21 Pin Assignments 94 Table 5 12 PMC 2 Connector J22 Pin Assignments 95 Table 5 13 PMC 2 Connector J23 Pin Assignments 97 Table 5 14 PMC 2 Connector J24 Pin Assignments 98 Table 5 15 COM2 Planar Connector J33 Pin Assignments 99 Table 5 16 VME Connector P2 Pin Assignments PMC Mode 100 Table 5 17 VME Connector P2 Pinout with IPMC712 102 Table 5 18 VME Connector P2 Pinouts with IPMC761 104 Table 5 19 Memory Expansion Connector P4 Pin Assignments 105 Table 5 20 Ethernet 2 Selection Headers J6 J7 100 J101 Pin Assignments 109 Table 5 21 Ethernet 2 Selection Headers J34 J97 J98 J99 Pin Assignments 109 Table 5 22 PMC SBC Mode Selection Headers 28 J32 Pin Assign
5. bh Ob Er Bp Or py 6 Lv GE ZE 18 Le s GZ 6L Tv 68 re rer 616 6 OL LOWd 980108 87 92 bz 0102 LOWd 19 81 910111 8 0 of Hi sel OF LOWd v2 19 id 6618 mou Jejdepy 02 EYL EEBS ZOI ZOWd OOSSSWAW uo Aujiqedeo 1 JO PIM 010 0 Dd 910N 1 97 OF ZOWd 1 79 OF LOWd ver vir suid ppo er x 01 L7 cd OLE 2017 1 92 2 0c LV vL LL 8 S 2 ver 926608 Vv E LL 8 S Z OI ZOWd lt oey LO d vo 0 9 od 09 1 09 0 LOWd 9 9 cek jaweuly id lt joued OF LOWd ver ser jeweuly 01467 001 01 90929 19 6288 epoy OoSsaWAW MVME55006E Single Board Computer Installation and Use 6806800A37H 114 Connector Pin Assignments 5 3 2 Flash Boot Bank Select Header J8 A3 pin 2mm planar header selects the boot Flash bank No jumper or a jumper installed across pins 1 2 selects Flash 0 as the boot bank A jumper installed across pins 2 3 selects Flash 1 as the boot bank The pin assignments for this header are as follows Table 5 24 Flash Boot Bank Select Header 8 Pin Assignments Signal
6. ene hh hh 57 3 3 1 RAM5500 Description cerca eat Ra re 57 3 3 2 nenne RS AX ERR GEREN Oop ERE EX EU ER EE PS 58 8 3 5 d cM a eee 59 3 4 Memory Expansion Connector Pin Assignments 59 3 5 5500 Programming Issues 0 cee eee Hm 62 3 5 1 Serial Presence Detect SPD Data 00 cece cece cece een 62 4 MOTLoad Firmware 32 45 se PER 63 4 T Overview Gee hie CLE Re re e eR aee eee Rule weld ERR bane 63 4 2 Implementation and Memory Requirements 63 4 3 MOTEo ad Commands x ool cs een ee aa ey 63 4 3 1 Utiliti8s noster eee an teenies tytn eave een een LEN E EE 64 43 2 TESTS ia en 64 4 3 3 Command Lists aa as ehe ee 65 4 4 Using the Command Line Interface ee 70 4AT RUES sax ET 72 AAD Helper Hs Be gies 73 4 5 Firmware Settings use en 73 4 5 1 Default VME Settings Cr ex esta 74 4 5 1 1 CRJCSRSettings rest eR er pendence XR ERR Dr RE 77 4 5 1 2 Displaying VME Settings esses 77 4 5 1 3 Editing VME Settings III 78 4 5 1 4 Deleting VME Settings 78 4 5 1 5 Restoring Default VME 5 lt 79 4 6 REMOtE Start in 79 5 Connector Pin Assignments au RR
7. gle 256 x 8 I2C SROM for SPD data SDRAM Do 512MB mezzanine memory two banks of 256MB memory in each at 133 MHz uble bit error detect single bit error correct across 72 bits 3 3 Functional Description Thefollowing sections describe the physical and electrical structure of the RAM5500 memory expansion module 3 3 1 5500 Description The RAM5500 is a memory expansion module that is used on the MVME5500 single board computer It is based on a single memory mezzanine board design with two banks of memory Each bank is 256MB of ECC memory using 256Mb devices in 32MB x 8 device organization The RAM5500 provides a total added capacity of 512MB to the MVME5500 The SDRAM memory is controlled by the GT 64260B which provides single bit error correction and double bit error detection ECC is calculated over 72 bits The on board I2C SROM contains SPD data for the two banks which is used by the memory controller for configuration Refer to the MVME5500 Single Board Computer Programmer s Reference Guide V5500A PG for more information MVME55006E Single Boa rd Computer Installation and Use 6806800A37H 57 RAM55006E Memory Expansion Module The RAM5500 memory expansion module is connected to the host board with a 140 pin AMP 4mm Free Height plug connector This memory expansion module draws 3 3V through this connector The RAM5500 SPD uses the SPD JEDEC standard definition and is accessed at
8. Table 4 1 MOTLoad Commands continued Command Description 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 of the Watchdog Timer Device tftpGet TFTP Get 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 4 4 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 70 MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware The MOTLoad command line interface is similar to a UNIX command line shell interface Commands are initiated by entering a valid MOTLoad command a text string at the MOTLoad command line prompt and pressing the carriage return key to signify the end of input MOTLoad
9. factory configuration extended SCSI P2 PMC 2 P2 IPMC J102 J102 J110 321 J110 321 1 7 3 Flash Boot Bank Select Header J8 A 3 pin planar header selects the boot Flash bank No jumper or a jumper installed across pins 1 2 selects Flash 0 as the boot bank A jumper installed across pins 2 3 selects Flash 1 as the boot bank Figure 1 5 J8 Settings J8 J8 J8 3 3 3 Boots from Flash device 0 Boots from Flash device 0 Boots from Flash device 1 factory configuration 28 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 1 7 4 1 7 5 Flash 0 Programming Enable Switch S3 1 This switch enables disables programming of Flash 0 as a means of protecting the contents from being corrupted The switch set to OFF disables all Flash 0 programming The switch set to ON enables the programming this is the factory setting Figure 1 6 53 1 Settings S3 1 Disables Flash 0 writes Enables Flash 0 writes Safe Start ENV Switch S5 1 This switch selects programmed or safe start ENV settings When set to OFF it indicates that the programmed ENV settings should be used during boot Set to ON indicates that the safe ENV settings should be used Figure 1 7 55 1 Settings S5 1 1 B 1 ON 1 C E on 2 2 Normal ENV set
10. 11 3 IPMC_DB10_L IPMC_DB11_L 1106 1107 1 PMC2_IO 14 1 PMC2 IO 17 2 P2 PMC2 IO 14 2 P2 2 IO 17 3 IPMC_DB12_L 3 IPMC_DB13_L J108 J109 1 PMC2 IO 20 1 PMC2_IO 23 2 P2 PMC2 IO 20 P2 PMC2 IO 23 3 DB14 L 3 IPMC DB15 L 1110 1 PMC2_IO 26 2 P2_PMC2_IO 26 3 IPMC_DBP1_L MVME55006E Single Board Computer Installation and Use 6806800A37H 111 Connector Pin Assignments SBC IPMC712 Mode Figure 5 1 SL 8 02 9 Lb ve 2 Olr 8ev 42v 929 9ev 01 Zev er LLO LZLV OLO O LW OL pL Y 2r 2 O 2EV LEO LeV 01 62v er LZY 020 810 er ELV ZLO LLY 89 8Y LO LY 90 OV GO vO Mog joeuuooiJalul ISOS uld og er 5 ZY 6585 s 5 82V ev 920 92v 01 zev er LLO ZIV 9LO 91V OL LEO LEW 01 62v er LZY 020 01 8LO er ZEV 0 Sc V Cd 0 6L V Gd 659 01 09 920 0 609 OOSSAWAW eui uo An gedeo 10 epIM 010 0 OWd ZEV 0 ScV cd vov 01 6LW ed 9 0 09 929 0 629 v WOO WOO z WO9 L WOO uod ELV ZLO 229 01 89 Zd 01 89 Zd Ce one 81V 0l LV 2d BLY Ol 1525 LLY Ol lt bons suid ppo en
11. 201 ZEZLOWdI ZW 90 9Y fig ee gO vO en 97 s o2 Zl HL LLB S Zver 09 vir er lt lt 09 0F xi oev ogy 3 1 Zd Ag lt zer bv 25 5 EDON LOWd 8 Zd holz ON Lor 19 Wey Ogi 00 lt posing 4 9P oued vo Zd eo vo LO 2 uv Zd zf 9LZE 10 96 moi Jejdepy Ol LOWd ver eer 10014 o z6r 19943 001 01 90929 10 6285 ZLZOWI OGS oossaWAW MVME55006E Single Board Computer Installation and Use 6806800A37H 112 Connector Pin Assignments SBC IPMC761 Mode Figure 5 2 0 Bev ZEV ZED Zd LEO LEW 01 62V 2d LeV 0cO 01 810 ed SLY ELY Sor 9G YS 9 9 LE cE VP 19 29 09 86 er 68 LESE 0 2 92 vc O 00890116 80 0196 14 LEO Ld ve 01 LeV Ld 0 9 01 25 14 929 01629 14 OOSSSWAW eui uo Ajjiqedeo Bureo 10 010 0 Sjeu Dd 9ION 82 01 ZEV LEO ed O lt 059 01 L20 ed 900 01 609 OZV 61 0189 Y NW 12495 O9 09 09 d lelleJed 595 ZLO ZLY LLO 81
12. MOTLoad Firmware PCI Slave Image 2 Bound Address Register B1000000 Sets LSI2 BD to indicate that the upper bound of PCI memory addresses to be transferred by this image is 0xB1000000 PCI Slave Image 2 Translation Offset 400000000 Sets LSI2_TO to indicate that the PCI memory address is to be translated by 0x40000000 before presentation on the VMEbus the result of the translation is 0 0000000 0x40000000 0xF0000000 thus 0xF0000000 on the VMEbus PCI Slave Image 3 Control C0400000 Sets LSI3_CTL to indicate that this image is enabled write posting is enabled VMEbus data width is 16 bits VMEbus address space is A16 data and non supervisory AM encoding no BLT transfers to the VMEbus and to accept addresses in PCI memory space PCI Slave Image 3 Base Address Register B3FF0000 Sets LSI3_BS to indicate that the lower bound of PCI memory addresses to be transferred to the VMEbus by this image is OxB3FF0000 PCI Slave Image 3 Bound Address Register B4000000 Sets LSI3 BD to indicate that the upper bound of PCI memory addresses to be transferred by this image is OxB4000000 PCI Slave Image 3 Translation Offset 4C000000 Sets LSI3 TO to indicate that the PCI memory address is to be translated by 0x4C000000 before presentation on the VMEbus the result of the translation is OXB3FF0000 0x4C000000 OxFFFF0000 thus OxFFFF0000 on the VMEbus PCI Slave Image 4 7 These images are set
13. ROW PMC1_2 14 2 PMC1_4 J14 4 ROWB 5V GND ROW C PMC1_1 14 1 P2_RX PMC1_3 114 3 P2_RX ROWD PMC2_1 24 1 PMC2_3 24 3 PMC2_5 24 5 PMC2_8 J24 8 PMC1_6 14 6 PMC1_8 J14 8 PMC1_10 J14 10 RETRY No connect VA24 VA25 PMC1_5 J14 5 2_ PMC1_7 14 7 2_ PMC1_9 14 9 PMC2_4 J24 4 PMC2_6 J24 6 PMC2_7 24 7 GND 12 J14 12 VA26 PMC1_11 J14 11 PMC2_9 24 9 PMC2_11 J24 11 PMC1_14 J14 14 PMC1_16 J14 16 VA27 VA28 PMC1_13 14 13 15 14 15 PMC2 10 24 10 PMC2 12 24 12 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 16 VME Connector P2 Pin Assignments PMC Mode continued Pin ROWZ ROW ROW ROW C ROWD 9 PMC2 14 PMC1_18 J14 18 VA29 17 114 17 PMC2 13 J24 13 J24 14 10 GND PMC1_20 J14 20 VA30 19 J14 19 2 15 J24 15 2 17 22 14 22 VA31 PMC1_21 14 21 PMC2_16 24 16 124 17 GND PMC1_24 J14 24 GND PMC1_23 J14 23 PMC2_18 J24 18 PMC2_20 PMC1_26 J14 26 5V PMC1_25 14 25 PMC2 19 J24 19 J24 20 14 GND PMC1_28 J14 28 VD16 PMC1_27 J14 27 PMC2_21 J24 21 15 PMC2 23 PMC1_30 J14 30 VD17 PMCI 29 14 29 2 22 24 22 J24 23 16 GND PMC1
14. 5V 18 AD31 20 AD27 22 GND 24 C BE3 26 o 4 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 11 PMC 2 Connector J21 Pin Assignments continued Pin Signal Signal Pin AD22 AD21 28 AD19 30 FRAME GND 34 GND IRDY 36 DEVSEL 5V 38 LOCK 40 PCI RSVD PCI RSVD 42 w w w ot 45 AD15 46 47 AD11 48 49 5V 50 51 C BEO 52 AD03 58 ADO1 60 5V 62 REQ64 64 GND PCI RSVD PCI RSVD PCI RSVD MVME55006E Single Board Computer Installation and Use 6806800A37H 95 Connector Pin Assignments Table 5 12 PMC 2 Connector J22 Pin Assignments continued Pi Signal Signal Pin n 13 RST MOT_RSVD 15 3 3V MOT_RSVD 7 1 GND 19 AD29 21 AD26 3 3V GND C BE2 IDSELB 3 3V 3 3V C BEI AD14 M66EN 3 3V L MOT RSVD GND MOT RSVD EREADY GND NC RESETOUT 1 59 63 GND NC MONARCH 96 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 13 PMC 2 Connector J23 Pin Assignments Pin Signal gt RSVD C BE7 C BE6 C BE4 VIO AD63 AD61 MVME55006E Single Board Computer Installation and Use 6806800A37H 97 Connector Pin Assignments Table 5 13 PMC 2 Connec
15. Pin Signal Pin Signal 1 1 Fused 12 0V Fused 12 0V P2 PMCI IO 60 2 P2 PMCI IO 13 tad PMCI IO 60 3 PMCI IO 13 110 1 When J28 is configured for SBC IPMC mode 12V is supplied to P2 pin A30 If there is an incompatible board plugged into this P2 slot damage may occur 2 When J32 is configured for SBC IPMC mode 12V is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur 3 Install jumpers across pins 1 2 on both headersto select PMC mode Install jumpers across pins 2 3 on both headers to select SBC IPMC761 mode Install a jumper across pins 2 3 on 32 and install a jumper across pins 1 2 on J28 to select SBC IPMC712 mode MVME55006E Single Board Computer Installation and Use 6806800A37H 5 3 1 3 Connector Pin Assignments P21 O Selection Nine 3 pin 2 mm planar headers are for P2 1 0 selection Install jumpers across pins 1 2 on all nine headers to select PMC 2 I O for P2 in PMC mode Install jumpers across pins 2 3 on all nine headers to select IPMC I O for P2 in SBC IPMC761 or SBC IPMC712 mode The pin assignments for these headers are as follows Table 5 23 P2 I O Selection Headers J102 J110 Pin Assignments Pin Signal Pin Signal 1102 1103 1 PMC2_IO 2 PMC2_IO 5 2 P2_PMC2_IO 2 P2_PMC2_IO 5 3 IPMC_DBS_L 3 IPMC_DB9_L 1104 1105 1 PMC2_IO 8 1 PMC2 IO 11 2 P2 PMC2 IO 8 2 2_ 2_1
16. Selection iot ERA heed e EE EE eS 111 5 3 2 Flash Boot Bank Select Header J8 teen teen eee 115 5 3 3 VMESCON Select Header 27 een een en 115 A Specifitatlols CIT VISUS pan S d 117 AT PowerRequiretments uere ta hl Lehr hh ree abs sehn Ra 117 A 1 1 Supply Current Requirements m 117 A 2 Environmental Specifications cece cece een nen en eee nee 117 B Thermal Validation 0000 005060080 119 MEO III PEDE 119 B 2 Thermally Significant Components eee III 119 Component Temperature Measurement 122 3 1 Preparation EET 123 B 3 2 Measuring Junction Temperature 123 B 3 3 Measuring Local Air Temperature 123 B 3 4 Measuring Case 124 MVME55006E Single Board Computer Installation and Use 6806800A37H Contents C Related Documentation ccc ccc ccc cece cece cece cent eee hh n nnn 127 C 1 Emerson Network Power Embedded Computing Documents 127 C 2 Manufacturers Documents eee 127 Related Specifications cece een ene ees 129 Safety Notes ans na
17. mtliche Software auf dem Board ordnungsgemass 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 Besch digung des Produktes und der Zusatzmodule f hren Lesen Sie daher vor der Installation von Zusatzmodulen die zugeh rige Dokumentation MVME55006E Single Board Computer Installation and Use 6806800A37H 137 Sicherheitshinweise Kabel und Stecker Batterie 138 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 1 Stecker Beachten Sie dass ein versehentliches Anschlie en einer E1 T1 1 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 F
18. 0 I V Ld 81V 01 LLY 89 lt Borir 20 ZY 99 suid ppo sud ppo 2017 19791 9Y G9 Y9 Zd LIZOL 12 14 17 17 4 2 L e 51 O19 91 f SOS 89 9z c 0c LV vL LV e s e ver 09 p1n I lt x 4nz x 09 0 LOWd Zd Bor 920 1S oey oey Te Sp Gp ed ed 96 17 elt lt lt EINE lt zd Bor 8 19 LO isis ed vf LOZOWdI ON 101 jeujeu3 ae 5 lt TF x E E iin 2981 OF LONd ven 1014 jeuieu3 v v0 v9 id 001 01 oy o PEST 001 01 2 5 809279 19 4616 ID 658 6615 aulay g L 19 94 9845 L9 3INAW jeydepy 00SS3IAAU 113 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments PMC Mode Figure 5 3 lt Sr Ep Or 6E ZE 9E ve EE Ol sud pe gz G2 be 12 _ PIAC El 6210 6 9 OL CON Od 2600180 92 90 ZEY 167 627 oea Id 0 61 2 suid ppo LLZ O 17 14 19 9 2S 09 LOWd v9 m oey opog gg gg 89 99 699 29 89 09 99 YG 26 09 ld s egoog 19 6v Lv Sv Ov
19. 5V 5 2 11 VMEbus Connectors P1 amp P2 SBC Mode The VME P1 and P2 connectors are 160 pin DINs The P1 connector provides power and VME signals for 24 bit address and 16 bit data The pin assignments for the P1 connector are specified by the VME64 Extension Standard refer to Appendix C Related Documentation for the link to this specification Row B of the P2 connector provides power to the MVME5500 and to the upper eight VMEbus address lines and additional 16 VMEbus data lines Please read the configuration notes below as they apply to the P2 connector 1 When J28 is configured for IPMC mode 12V is supplied to P2 pin A30 If there is an incompatible board plugged into this P2 slot damage may occur 2 When J32 is configured for IPMC mode 12V is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur 3 102 110 should be configured for IPMC I O to connect the IPMC extended SCSI signals from to the P2 connector The pin assignments for the P2 connector are as follows Table 5 17 VME Connector P2 Pinout with IPMC712 Pin Row Z Row A Row B Row C Row D 1 PMC2 2 DBO 5V RD 10 100 PMC2_1 J24 1 2 GND DB1 GND RD 10 100 PMC2_3 J24 3 PMC2_5 DB2 N C 10 100 PMC2_4 24 4 102 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 17 VME Connector P2 Pinout with IPMC712
20. 7 Edits selected Inbound Window state vmeCfg e o 0 7 Edits selected Outbound Window state vmeCfg e r184 Edits PCI Miscellaneous Register state vmeCfg e r188 Edits Special PCI Target Image Register state vmeCfg e r400 Edits Master Control Register state vmeCfg e r404 Edits Miscellaneous Control Register state vmeCfg e r40C Edits User AM Codes Register state vmeCfg e rF70 Edits VMEbus Register Access Image Control Register state Deleting VME Settings To delete the changeable VME setting restore default value type the following at the firmware prompt vmeCfg d m Deletes Master Enable state vmeCfg d i 0 7 Deletes selected Inbound Window state vmeCfg d o 0 7 Deletes selected Outbound Window state vmeCfg d r184 MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware 4 5 1 5 4 6 Deletes PCI Miscellaneous Register state vmeCfg d r188 Deletes Special PCI Target Image Register state vmeCfg d r400 Deletes Master Control Register state vmeCfg d r404 Deletes Miscellaneous Control Register state vmeCfg d r40C Deletes User AM Codes Register state vmeCfg d rF70 Deletes VMEbus Register Access Image Control Register state Restoring Default VME Settings To restore all of the changeable VME setting back to their default settings type the following at the firmware prompt vmeCfg z Remote Start As described in the MOTL
21. 83 Connector Pin Assignments Table 5 3 IPMC Connector J3 Pin Assignments continued 84 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments 5 2 4 PCI PMC Expansion Connector One 114 pin Mictor connector with a center row of power and ground pins is used to provide PCI PMC expansion capability The pin assignments for this connector are as follows Table 5 4 PCI PMC Expansion Connector J4 Pin Assignments Pin Signal Signal Pin 3 3V 3 3V PCICLK PMCINTA GND PMCINTB PURST PMCINTC HRESET PMCINTD TDO TDI TMS TCK TRST PCIXP PCIXGNT PCIXREQ 12V 12V PERR SERR LOCK SDONE DEVSEL SBO GND GND TRDY IRDY STOP FRAME GND GND ACK64 Reserved REQ64 Reserved MVME55006E Single Board Computer Installation and Use 6806800A37H 85 Connector Pin Assignments Table 5 4 PCI PMC Expansion Connector J4 Pin Assignments continued Pin Signal Signal Pin PCIRST C BE1 C BEO C BE3 C BE2 45 AD1 ADO 47 AD3 AD2 AD5 AD4 AD7 AD6 AD9 AD8 AD11 AD10 AD13 AD12 AD15 AD14 AD17 AD16 AD19 AD18 AD21 AD20 AD23 AD22 AD25 AD24 AD27 AD26 AD29 AD28 AD31 AD30 86 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 4 PCI PMC Expansion Connector J4
22. BAO 94 A12 A11 96 A10 A09 98 99 GND GND 100 101 A08 A07 102 103 A06 A05 104 105 A04 A03 106 A02 A01 108 3 3V 3 3V 110 111 A00 CS CL 112 113 CSDL GND 114 115 DQMS DQM7 116 117 WE L RAS L 118 GND GND 120 CAS 3 3V 122 123 3 3V DQM6 124 125 DOM5 SCL 126 127 SDA A1_SPD 128 129 A0 SPD 130 DQN3 2 132 GND SDRAMCLK1 134 MVME55006E Single Board Computer Installation and Use 6806800A37H 61 RAM55006E Memory Expansion Module Table 3 2 RAM5500 Connector P1 Pin Assignments continued Pin Signal Signal Pin 3 5 5500 Programming Issues The RAM5500 contains no user programmable register other than the SPD data 3 5 1 Serial Presence Detect SPD Data This register is partially described for the RAM5500 within the MVME5500 Single Board Computer Programmer s Reference Guide The register is accessed through the I2C interface of the GT 64260B on the host board MVME5500 The RAM5500 SPD is software addressable by aunique address 62 MVME55006E Single Board Computer Installation and Use 6806800A37H Chapter 4 MOTLoad Firmware 4 1 4 2 4 3 Overview This chapter describes the basic features of the MOTLoad firmware product designed as the next generation initialization debugger and diagnostic tool for high performance embedded board products using state of the art system memory controllers and bridge chips such as the GT 64260B In addition to an overview of the
23. Example MVME5500 gt te te ambiguous MVME5500 gt Rules There are a few things to remember when entering a MOTLoad command e Multiple commands are permitted on a single command line provided they are separated by a single semicolon Spaces separate the various fields on the command line command arguments options e Theargument option identifier character is always preceded by a hyphen character e Optionsare identified by a single character e Option arguments immediately follow no spaces the option e All commands command options and device tree strings are case sensitive Example MVME5500 flashProgram d dev flash0 n00100000 For more information on MOTLoad operation and function refer to the MOTLoad Firmware Package User s Manual MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware 4 4 2 4 5 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 at the command line to display a complete listing of all available tests and utilities Example MVME5500 help For help with a specific test or utility the user can enter the following at the MOTLoad prompt help command name The help command also supports a limited form of pattern matching Refer to the help command page Example MVME5500 help testRam Usage testRam a
24. Introduction This chapter provides pin assignments for various headers and connectors on the MMVE5500 single board computer Asynchronous Serial Port Connector 1 on page 82 Ethernet Connectors 2 page 82 IPMC Connector J3 on page 83 PCI PMC Expansion Connector J4 on page 85 CPU COP Connector 5 on page 87 PMC 1 Interface Connectors J11 12 13 14 on page 88 Boundary Scan Connector 18 on page 93 PMC 2 Interface Connectors J21 22 23 J24 on page 94 Asynchronous Serial Port COM2 Planar Connector 33 on page 99 VMEbus Connectors P1 amp P2 PMC Mode on page 100 VMEbus Connectors P1 amp P2 SBC Mode on page 102 Memory Expansion Connector P4 on page 105 The following headers are described in this chapter Ethernet 2 PMC SBC Mode and P2 I O Selection Headers J6 J7 28 J32 34 J97 110 on page 108 Flash Boot Bank Select Header J8 on page 115 VME SCON Select Header 27 on page 115 Connectors This section discusses the various connectors on the MVME5500 MVME55006E Single Board Computer Installation and Use 6806800A37H 81 Connector Pin Assignments 5 2 1 Asynchronous Serial Port Connector 1 An RJ 45 receptacle is located on the front panel of the MVME5500 board to provide the interface to the serial port The pin assignments for this connector are as follows Table 5 1 COM1 Connector J1 Pin Assignments Pin Signal 4 TXD
25. address A2 Refer to the following section on SROM for more details Figure 3 1 500 Block Diagram CLK 0 8 Bank of 9 x8 SDRAM PLL Clock Driver A1 SPD CLK1 A0 SPD MVME5500 Mezzanine Connector 3 3 2 5 The RAM5500 memory expansion module contains a single 3 3V 256 x 8 serial EEPROM device AT24C02 The serial EEPROM provides SPD storage of the module memory subsystem configuration The RAM5500 SPD is software addressable by a unique address 58 MVME55006E Single Board Computer Installation and Use 6806800A37H RAM55006E Memory Expansion Module 3 3 Clocks The host board provides one SDRAM clock to the memory expansion connector The frequency of the RAM5500 CLKS is the same as the host board This clock is used to generate the on board SDRAM clocks using a phase lock loop zero delay clock driver UJ IN Memory Expansion Connector Pin Assignments The P1 connector on the RAM5500 is a 140 pin AMP 4mm Free Height mating plug This plug includes common ground contacts that mate with standard AMP receptacle assemblies or AMP GIGA assemblies with ground plates Refer to Memory Expansion Connector P4 on page 105 for the P4 pin assignments Common GND pins mate to a GIGA assembly with a ground plate The GIGA assembly is an enhanced electrical performance receptacle and plug from AMP that includes receptacles loaded with contacts for grounding circuits at 9 or 1
26. ae aan ren RN a 131 Sicherheitshinweise E qa RE Eq MURS RUF ERE RAE VM MR EN NER EE 135 asia seas UST RUNI DUI ESPERE Na Re at aqua Erw RN VE dpi 141 MVME55006E Single Board Computer Installation and Use 6806800A37H 7 Contents 8 MVME55006E Single Board Computer Installation and Use 6806800A37H List of Tables Table 1 1 Startup OVervieW are ee 20 Table 1 2 MVME5500 Jumper Settings lesse 22 Table 1 3 5500 COnNGCtOMrs 2420 emere Rie Ehe ur pri 43 Table 1 4 Front Panel LED Status Indicators ee 44 Table 2 1 MVME5500 Features Summary 46 Table 3 1 RAM5500 Feature Summary hh 57 Table 3 2 RAM5500 Connector P1 Pin 5 0 lt 59 Table 4 1 MOTLoad Commands cece em hh 65 Table 5 1 COMI Connector J1 Pin Assignments 82 Table 5 2 Ethernet Connector J2 Pin Assignments 82 Table 5 3 IPMC Connector 3 Pin Assignments 83 Table 5 4 PCI PMC Expansion Connector Pin Assignments 85 Table 5 5 CPU COP Connector 5 Pin Assignments 87 Table 5 6 1 Connector J11 Pin Assignments
27. amp Memory Controller Discovery HiNT PCI 6154 Local PCI Bus 0 1 PMCspan 33 MHz 32 64 bit Connector Universe Il PCI VME A32 D64 bit 133 MHz Local PCI Bus 1 0 33 66 MHz 32 64 bit 10 100 1000 BaseTX Gigabit Ethernet A FP C FP I O On board 9 Pin Header 10 100 PHY Jumpers 4199 0703 MVME55006E Single Board Computer Installation and Use 6806800A37H 45 Functional Description 2 3 Features The following table lists the features of the MVME5500 Table 2 1 MVME5500 Features Summary Processor Single 1 GHz MPC7457 processor Bus clock frequency at 133 MHz L3 Cache 2MB using SDR SRAM Bus clock frequency at 200 MHz Flash 8MB Flash soldered on board 32MB expansion Flash soldered on board System Memory Two banks on board for 512MB using 256MB devices Expansion connector for a mezzanine board with two banks for 512MB using 256Mb devices Double bit error detect single bit error correct across 72 bits Bus clock frequency at 133 MHz Memory Controller Provided by GT 64260B Supports one to four banks of SDRAM for up to 1GB per bank Processor Host Bridge Provided by GT 64260B Supports MPX mode or 60x mode PCI Interfaces Provided by GT 64260B Two independent 64 bit interfaces one compliant to PCI spec rev 2 1 Bus 0 0 and the other compliant to PCI spec rev 2
28. and creating a custom testSuite s The list of built in and user defined MOTLoad testSuites and their test contents can be obtained by entering testSuite dat the MOTLoad prompt All testSuites that are included as part of a product specific MOTLoad firmware package are product specific For more information refer to the testSuite command description page in the MOTLoad Firmware Package User s Manual Test results and test status are obtained through the test Status errorDisplay and taskActive commands Refer to the appropriate command description page in the 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 4 1 MOTLoad Commands Command as Description One Line Instruction Assembler bcb bch bcw bdTempShow Display Current Board Temperature Block Compare Byte Halfword Word bfb bfh bfw Block Fill Byte Halfword Word Block Copy MVME55006E Single Board Computer Installation and Use 6806800A37H 65 MOTLoad Firmware Table 4 1 MOTLoad Commands continued Command Description blkFmt Block Format bIkRd Block Read blkShow Block Show Device Configuration Data
29. continued Pin Row Z Row A Row B Row C Row D DB3 VA24 TD 10 100 PMC2_6 24 6 PMC2_8 DB4 VA25 PMC2_7 24 7 s oe os 12V LAN PMC2_10 J24 10 PRSTB PMC2_12 24 12 P DBO PMC2_13 24 13 PMC2_15 24 15 J x 5V PMC2_19 24 19 PMC2_21 J24 21 J PMC2 22 24 22 PMC2 24 24 24 REQ VD19 P ACK PMC2_25 24 25 O VD20 P BSY PMC2_27 24 27 PMC2_28 P SEL PMC2_30 P IME PMC2_31 P FAULT PMC2_33 GND J GND MC2_38 24 38 GND PMC2_41 J24 41 GND PMC2_44 24 44 54 VD30 RTS2 PMC2 43 J24 43 GND DTR4 VD31 CTS2 2 45 24 45 MVME55006E Single Board Computer Installation and Use 6806800A37H 103 Connector Pin Assignments Table 5 17 VME Connector P2 Pinout with IPMC712 continued Pin Row Z RowA Row B Row C Row D Dr eo fore Im mee me w Table 5 18 VME Connector P2 Pinouts with IPMC76 1 5 D 10 100 PMC2 1 J24 1 GND RD 10 100 PMC2_3 J24 3 RETRY TD 10 100 PMC2_4 24 4 VA24 TD 10 100 PMC2_6 24 6 DB10 DB4 VA25 Not Used PMC2_7 24 7 6 DBS VA26 Not Used PMC2_9 J24 9 12VF PMC2_10 24 10 PRSTB PMC2_12 24 12 PRDO PMC2_13 J24 13 BR ojoj N PRD1 PMC2_15 J24 15 DB13 BSY VA31 PR
30. each of which can be programmed to operate as a counter or a timer The timing reference is based on the GT 64260B Tclk input which is set at 133 MHz Each counter timer is capable of generating an interrupt The GT 64260B also has an internal 32 bit watchdog timer that can be configured to generate an NMI or a board reset After the watchdog timer is enabled it becomes a free running counter that must be serviced periodically to keep it from expiring Following reset the watchdog timer is disabled The watchdog timer has two output pins WDNMI and WDE The WDNMI is asserted after the timer is enabled and the 24 bit NMI VAL count is reached The WDNMI pin is connected to one ofthe GT 64260B interrupt input pins so that an interrupt is generated when the VAL count is reached The WDE pin is asserted after the watchdog timer is enabled and the 32 bit watchdog count expires The WDE pin is connected to the board reset logic so that a board reset is generated when WDE is asserted For additional details refer to the GT 64260B System Controller for PowerPC Processors Data Sheet listed in Appendix C Related Documentation MVME55006E Single Board Computer Installation and Use 6806800A37H Functional Description 2 7 2 8 2 9 2 9 1 Flash Memory The MVME5500 contains two banks of Flash memory accessed via the device controller contained within the GT 64260B The standard MVME5500 product is built with the 128Mb devices Sys
31. 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 15 About this Manual Notation Description Indicates a hazardous situation which if not avoided could result in death or serious injury 3OCOOCODOCOOOCUCOQDOOO0COO00 00 00000000000000000000000 CC RCCOXOXOROROCXCOXOXCOORCROXOLOIOROK XOXOROKCOXCOXOOCOQOOOO00O0O0000O00000C Indicates hazardous situation which if not avoided may result in minor or moderate injury XOCCOOUCICOU XO COOCXOGQUK OUS XCQCOUCOOQUEOCQGOUXOQDOCOOO0GG KKAAKK AAK KAAK OOOO OOOO KAKI Indicates a property damage message 7 No danger encountered P
32. product this chapter includes a list of standard MOTLoad commands and the default VME settings that are changeable by the user as allowed by the firmware The MOTLoad firmware package serves as a board power up and initialization package as well as a vehicle from which user applications can be booted A secondary function of the firmware is to serve in some respects as a test suite providing individual tests for certain devices 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 C Related Documentation for more details Implementation and Memory Requirements The implementation of MOTLoad and its memory requirements are product specific The MVME5500 single board computer SBC is offered with a wide range of memory for example DRAM external cache Flash Typically the smallest amount of on board DRAM that a Emerson SBC has is 32MB Each supported Emerson product line has its own unique MOTLoad binary image s Currently the largest MOTLoad compressed image is less than 1MB in size 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 fashi
33. that the system chassis may not be grounded if it is unplugged The ESD strap must be secured to your wrist and to ground throughout the procedure 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove chassis or system cover s as necessary for access to the VME modules 3 Ifthe MVME5500 has already been installed in a VMEbus card slot carefully remove it as shown in Figure 1 17 and place it with connectors P1 and P2 facing you Remove the filler plate s from the front panel of the MVME5500 4 Insertthe appropriate number of Phillips screws typically 4 from the bottom of the MVME5500 into the standoffs on the PMC module and tighten the screws refer to Figure 1 15 36 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 5 Align the PMC module s mating connectors to the MVME5500 s mating connectors and press firmly into place Figure 1 15 Typical Placement of a PMC Module on a VME Module 1 9 2 Primary PMCspan To install a PMCspan26E 002 PCI expansion module on your MVME5500 perform the following steps while referring to the figure on the next page MVME55006E Single Board Computer Installation and Use 6806800A37H 37 Hardware Preparation and Installation Procedure This procedure assumes that you have read the user s manual that was furnished with your PMCspan 1 Atta
34. the AC or DC power off and remove the AC cord or DC power lines from the system Remove the chassis or system cover s as necessary for access to the VME boards 3 Carefully remove the MVME5500 from its VME card slot and lay it flat with connectors P1 and P2 facing you 4 Inspectthe RAM5500 module that is being installed on the MVME5500 host board to ensure that standoffs are installed in the four mounting holes on the module MVME55006E Single Board Computer Installation and Use 6806800A37H 33 Hardware Preparation and Installation 5 With standoffs installed in the four mounting holes on the RAM5500 module align the standoffs and the P1 connector on the module with the four holes and the P4 connector on the MVME5500 host board and press the two connectors together until they are firmly seated in place 6 Turn the entire assembly over and fasten the four short Phillips screws to the standoffs of the RAM5500 7 Reinstall the MVME5500 assembly in its proper card slot following the procedure in the next section Be sure the host board is well seated in the backplane connectors Do not damage or bend connector pins 8 Replace the chassis or system cover s reconnect the system to the AC or DC power source and turn the equipment power on 34 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 1 9 1 9 1 Installing PMCs This section discusses the installatio
35. uz 019 223 222 Jus J21 J22 05 Uis U25 04 J102 J110 xu2 XU1 J23 J24 J102 J110 BH 54 3 M vis Je vet U23 017 BB U129 RAG J32 014 J6 4100 J99 Sis uaa 98 U13 u12 hs Ed doy 3101 197 eo un p onc 314 B es 433 E 332 o 026 EN ug 929 0125 126 us sz 55 u1 51 0123 price p P o u24 0 J28 0 0 GE U31 m 0124 m S L J4 J28 4436 0207 24 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 1 7 2 1 7 2 1 1 7 2 2 Ethernet 2 PMC SBC Mode and P2 I O Selection Headers J6 7 J28 J32 J34 J97 J110 All of the headers described below are used in conjunction with each other to select various modes of operation for 10 100BaseT Ethernet PMC SBC mode and P2 I O mode Ethernet Four 3 pin planar headers J6 J7 100 J101 and four 2 pin planar headers J34 J97 J98 J99 are for 10 100 BaseT Ethernet 2 selection Ethernet 1 is the Gigabit Ethernet port and is front panel only For J6 J100 J7 and J101 install jumpers across pins 2 3 on all four headers for rear P2 Ethernet For front panel Ethernet install jumpers across pins 1 2 on all four headers If the rear P2 Ethernet is selected by jumpers J6 7 J100 and J101 the Ethernet signals also connect to PMC 1 user I O conn
36. 0 signal circuits These ground contacts mate with grounding plates on both sides of the plug assemblies Table 3 2 RAM5500 Connector P1 Pin Assignments Pin Signal Signal Pin 1 GND GND 2 3 DQ00 DQ01 4 5 2002 2003 6 0004 0005 8 DQ06 DQ07 10 11 3 3V 3 3V 12 13 0008 0009 14 15 0011 16 17 0012 DQ13 18 DQ14 DQ15 20 GND GND 22 23 DQ16 DQ17 24 25 DQ18 DQ19 26 MVME55006E Single Board Computer Installation and Use 6806800A37H 59 RAM55006E Memory Expansion Module Table 3 2 RAM5500 Connector P1 Pin Assignments continued Pin Signal Signal Pin DQ20 0021 28 0022 0023 30 3 3V 3 3V 32 33 DQ24 DQ25 34 35 DQ26 DQ27 36 37 DQ28 DQ29 38 39 DQ30 DQ31 40 GND GND 42 DQ32 DQ33 44 45 DQ34 DQ35 46 47 DQ36 DQ37 48 49 DQ38 DQ39 50 51 3 3V 3 3V 52 DQ40 DQ41 54 DQ42 DQ43 56 57 DQ44 DQ45 58 59 DQ46 DQ47 60 61 GND GND 62 63 DQ48 DQ49 64 DQ50 DQ51 66 DQ52 DQ53 68 69 3 3V 3 3V 70 71 DQ54 DQ55 72 73 DQ56 DQ57 74 75 DQ58 DQ59 76 DQ60 DQ61 78 GND GND 80 60 MVME55006E Single Board Computer Installation and Use 6806800A37H RAM55006E Memory Expansion Module Table 3 2 RAM5500 Connector P1 Pin Assignments continued Pin Signal Signal Pin DQ62 DQ63 82 CKDOO CKDO1 84 CKDO2 CKD03 86 87 CKD04 CKDO5 88 89 3 3V 3 3V 90 91 CKDO6 CKD07 92 93 BAI
37. 00 and J101 For front panel Ethernet install jumpers across pins 1 2 on all four headers If the rear P2 Ethernet is selected by jumpers J6 J7 100 and J101 the Ethernet signals also connect to PMC 1 user I O connector 14 If a PMC card is plugged into PMC 1 there may be a conflict between the I O from the PMC card and the rear Ethernet signals This conflict does not occur with the IPMC761 or IPMC712 modules Table 5 21 Ethernet 2 Selection Headers J34 J97 J98 J99 Pin Assignments PMCI IO 5 MVME55006E Single Board Computer Installation and Use 6806800A37H 109 Connector Pin Assignments 5 3 1 2 Table 5 21 Ethernet 2 Selection Headers J34 J97 J98 J99 Pin Assignments continued Pin Signal Pin Signal ree For rear P2 Ethernet install jumpers on all four headers 34 J97 J98 and J99 when in SBC IPMC761 mode No jumpers are installed for front panel Ethernet PMC SBC Mode Selection Two 3 pin planar headers on the MVME5500 are for PMC SBC mode selection For PMC mode install jumpers across pins 1 2 on both headers For SBC IPMC761 mode install jumpers across pins 2 3 on both headers For SBC IPMC712 mode install a jumper across pins 2 3 for J32 and install a jumper across pins 1 2 for 28 Selection notes follow the table The pin assignments forthese headers are as follows Table 5 22 PMC SBC Mode Selection Headers 28 J32 Pin Assignments J28 J32
38. 2 Bus 1 0 Bus clock frequency at 66 MHz Provided by the HiNT PCI 6154 secondary interface One 64 bit interface compliant to PCI spec rev 2 1 Bus 0 1 Bus clock frequency at 33 MHz Interrupt Controller Provided by GT 64260B Interrupt sources internal to GT 64260B Upto 32 external interrupt inputs Up to seven interrupt outputs Counters Timers Eight 32 bit counters timers in GT 64260B 12 Provided by GT 64260B Master or slave capable On board serial EEPROMs for VPD SPD GT 64260B init and user data storage 46 MVME55006E Single Board Computer Installation and Use 6806800A37H Functional Description 2 4 2 5 Table 2 1 MVME5500 Features Summary continued Feature Description NVRAM 32KB provided by MK48T37 Real Time Clock Provided by MK48T37 Watchdog Timers One in GT 64260B One in MK48T37 Each watchdog timer can generate interrupt or reset software selectable On board Peripheral Support One 10 100 1000BaseT Ethernet interface one 10 100BaseT Ethernet interface Dual 16C550 compatible UARTs PCI Mezzanine Cards Two PMC sites one shared with the expansion memory and has IPMC capability PCI Expansion One expansion connector for interface to PMCspan Miscellaneous Reset Abort switch Front panel status indicators Run and Board Fail Processor The MVME5500 supports the MPC7457 processor in the 483 pin CBGA package The p
39. 25 MVME55006E Single Board Computer Installation and Use 6806800A37H 11 List of Figures 12 MVME55006E Single Board Computer Installation and Use 6806800A37H About this Manual Overview of Contents This manual is divided into the following chapters and appendices Chapter 1 Hardware Preparation and Installation provides MVME5500 board preparation and installation instructions for both the board and accessories Also included are the power up procedure Chapter 2 Functional Description describes the MVME5500 on a block diagram level Chapter 3 RAM55006E Memory Expansion Module provides a description of the RAM5500 memory expansion module as well as installation instructions and connector pin assignments Chapter 4 MOTLoad Firmware describes the basic features of the MOTLoad firmware product Chapter 5 Connector Pin Assignments provides pin assignments for various headers and connectors on the MMVE5500 single board computer Appendix A Specifications provides power requirements and environmental specifications Appendix B Thermal Validation provides information to conduct thermal evaluations and identifies thermally significant components along with their maximum allowable operating temperatures Appendix C Related Documentation provides a listing of related Emerson manuals vendor documentation and industry specifications Safety Notes summarizes the safety instructions in the manual Si
40. 3_CS GND 114 DOMS DQM7 116 SDWE SDRAS 118 MVME55006E Single Board Computer Installation and Use 6806800A37H 107 Connector Pin Assignments Table 5 19 Memory Expansion Connector P4 Pin Assignments continued Pin Signal Signal Pin GND GND 120 SDCAS 3 3V 122 3 3V DOM6 124 125 DOM5 I2CSCL 126 127 I2CSDA A1 SPD GND 128 129 A0 SPD NC 130 131 DQM3 DQM2 132 GND CLK MEZZ 134 GND 3 3V 136 137 DOM1 DQMO 138 139 GND GND 140 5 3 Headers This section discusses the various headers associated with the MVME5500 Ul 3 1 Ethernet 2 PMC SBC Mode and 21 Selection Headers 6 7 28 J32 J34 J97 J110 All of the headers described below are used in conjunction with each other to select various modes of operation for 10 100BaseT Ethernet PMC SBC mode and P2 I O mode 08 MVME55006E Single Board Computer Installation and Use 6806800A37H 5 3 1 1 Connector Pin Assignments Ethernet Four 3 pin 2 mm planar headers and four 2 pin 2 mm planar headers are for 10 100 BaseT Ethernet 2 selection Ethernet 1 is the Gigabit Ethernet port and is front panel only The pin assignments for these headers are as follows Table 5 20 Ethernet 2 Selection Headers J6 J7 J100 J101 Pin Assignments 10 100 Ethernet Receive Pairs 10 100 Ethernet Transmit Pairs For rear P2 Ethernet install jumpers across pins 2 3 on all four headers 6 7 1
41. 5 RXD 6 GNDC 7 CTS Ul 2 2 Ethernet Connectors J2 Dual RJ 45 connectors are located on the front panel of the MVME5500 to provide the interface to the 10 100 1000BaseTX Ethernet ports The pin assignments forthese connectors are as follows Table 5 2 Ethernet Connector 2 Pin Assignments Pin 1000BaseTX 10 100BaseT MDIOO P MDIOO_N MDIO1_P RD MDIO2_P AC Terminated MDIO2_N AC Terminated MDIO1_N RD MDIO3_P AC Terminated 82 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 2 Ethernet Connector 2 Pin Assignments continued Pin 1000BaseTX 10 100BaseT 8 5 MDIO3 N AC Terminated IPMC Connector One 40 pin Molex 635 mm 025 pitch board to board receptacle 52885 is used to provide a planar interface to IPMC module signals This receptacle mates with the Molex 53627 plug thus providing the 10 0 mm stacking height of the PMC card The pin assignments for this connector are as follows Table 5 3 IPMC Connector J3 Pin Assignments Pin Signal Signal Pin 1 I2CSCL I2CSDA 2 3 GND GND 4 5 DB8 GND 6 7 GND DB9 8 9 DB10 3 3V 10 DB11 12 GND 14 DB13 16 3 3V 18 19 3 3V DB15 20 GND 22 No Connect 24 25 IPMC_INT 3 3V 26 27 3 3V REQ 28 29 GNT GND 30 31 GND 3 3V 32 33 5 0V 5 0V 34 MVME55006E Single Board Computer Installation and Use 6806800A37H
42. 800A37H 91 Connector Pin Assignments Table 5 8 PMC 1 Connector 13 Pin Assignments continued PCI RSVD PCI RSVD PMCI 1 2 1 PMC1_2 P2 A1 PMCI 3 P2 C2 PMCI 5 P2 C3 PMCI 7 P2 C4 PMCI _9 P2 C5 11 P2 C6 PMC1_4 P2 A2 PMC1_6 P2 A3 PMC1_8 P2 A4 10 P2 A5 12 P2 A6 PMC1_13 P2 C7 PMC1_14 P2 A7 15 2 8 PMC1_17 P2 C9 0 21 PMC1_21 P2 C11 23 P2 C12 16 P2 A8 18 P2 A9 0 22 1 24 2 11 25 P2 C13 PMC1_26 2 13 27 P2 C14 PMC1_28 2 14 29 2 15 92 30 P2 A15 P2 A12 MVME55006E Single Board Computer Installation and Use 6806800A37H Table 5 9 PMC 1 Connector 14 Pin Assignments continued Connector Pin Assignments Pin 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 Signal PMC1_37 P2 C19 Signal PMC1_38 P2 A19 Pin 38 39 PMC1_40 P2 A20 40 41 41 2 21 42 P2 A21 42 43 45 4 PMC1_43 P2 C22 39 P2 C20 PMC1_45 P2 C23 PMC1_49 P2 C25 1 44 P2
43. A 2 Environmental Specifications Table A 2 lists the environmental specifications along with the board dimensions Table A 2 MVME5500 Specifications Characteristics Specifications 0 to 55 C forced air cooling required 400 LFM linear feet per minute of forced air cooling is recommended for operation in the upper temperature range Operating Temperature Storage Temperature 40 to 70 C MVME55006E Single Board Computer Installation and Use 6806800A37H 117 Specifications Table A 2 MVME5500 Specifications continued Characteristics Specifications Operating 5 to 90 non condensing Non operating 5 to 95 non condensing Relative Humidity Vibration Non operating 1 G sine sweep 5 100 Hz horizontal and vertical NEBS1 Physical Dimensions 6U 4HP wide 233 mm x 160 mm x 20 mm MTBF 207 058 hours 118 MVME55006E Single Board Computer Installation and Use 6806800A37H Thermal Validation O OM B 1 Overview Board component temperatures are affected by ambient temperature air flow board electrical operation and software operation In order to evaluate the thermal performance of a circuit board assembly it is necessary to test the board under actual operating conditions These operating conditions vary depending on system design While Emerson performs thermal analysis in a representative system to verify operation within specified ranges refer to Appendix A S
44. A22 46 P2 A23 50 P2 A25 44 46 50 51 PMC1_51 P2 C26 52 P2 A26 52 53 PMC1_54 P2 A27 54 55 57 59 59 P2 C30 60 P2 A30 60 61 55 2 28 57 2 29 53 2 27 61 P2 C31 56 P2 A28 PMC1_58 P2 A29 PMC1_62 P2 A31 56 58 62 63 63 P2 C32 PMC1_64 P2 A32 9 Tree m 64 5 2 7 Boundary Scan Connector 18 The boundary scan connector is used to provide boundary scan testing of all on board devices in a single scan chain Table 5 10 Boundary Scan Connector 18 Pin Assignments MVME55006E Single Board Computer Installation and Use 6806800A37H 93 Connector Pin Assignments Table 5 10 Boundary Scan Connector J18 Pin Assignments continued Pin Signal Signal Pin 5 2 8 PMC2 Interface Connectors 21 22 J23 J24 There are four 64 pin SMT connectors for the PMC 2 slot on the MVME5500 to provide 32 64 bit PCI interface and optional I O interface Table 5 11 PMC 2 Connector J21 Pin Assignments Pin Signal Signal Pin 12V 2 INTA 4 5V 8 PCI RSVD 10 3 3Vaux 12 GND 14 GNT XREQO 16
45. A37H Hardware Preparation and Installation If the shipping carton is damaged upon receipt request that the carrier s agent be present during the unpacking and inspection of the equipment NOTICE Product Damage Avoid touching areas of integrated circuitry static discharge can damage circuits Inserting or removing modules with power applied may result in damage to module components ESD Emerson strongly recommends that you use an antistatic wrist strap and a conductive foam pad when installing or upgrading a system Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a grounded staticfree surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if it is unplugged Personal Injury or Death Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing and adjusting 1 7 Configuring the Hardware This section discusses certain hardware and software tasks that may need to be performed pr
46. A37H 39 Hardware Preparation and Installation 1 9 3 Secondary PMCspan The PMCspanx6E 010 PCI expansion module mounts on top of a PMCspanx6E 002 To install a PMCspanx6E 010 perform the following steps while referring to the figure on the next page Personal Injury or Death Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing and adjusting NOTICE Product Damage Inserting or removing modules with power applied may result in damage to module components Avoid touching areas of integrated circuitry static discharge can damage these circuits Procedure This procedure assumes that you have read the user s manual that was furnished with the PMCspan and that you have installed the selected PMC modules on your PMCspan according tothe instructions provided in the PMCspan and PMC manuals 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to an electrical ground Note that the system chassis may not be grounded if it is unplugged The ESD strap must be secured to your wrist and to ground throughout the procedure 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove chassis or system cover s as necessary for access to the VME module 3 If the Primary PMC Carrier Module and MVME5500 assembly is already installed in the VME chassis carefully remove i
47. C module covers the memory mezzanine connector Table 5 19 Memory Expansion Connector P4 Pin Assignments Signal Signal Pin GND GND 2 MDO MD1 4 5 MD2 MD3 6 7 MD4 MD5 8 9 MD6 MD7 10 MVME55006E Single Board Computer Installation and Use 6806800A37H 105 Pin Signal Signal Pin 3 3V 3 3V 12 MD8 MD9 14 MD10 MD11 16 17 MD12 MD13 18 19 MD14 MD15 20 21 GND GND 22 23 MD16 MD17 24 MD18 MD19 26 MD20 MD21 28 29 MD22 MD23 30 31 3 3V 3 3V 32 33 MD24 MD25 34 35 MD26 MD27 36 MD28 MD29 38 MD30 MD31 40 41 GND GND 42 43 MD32 MD33 44 45 MD34 MD35 46 47 MD36 MD37 48 MD38 MD39 50 3 3V 3 3V 52 53 MD40 MD41 54 55 MD42 MD43 56 57 MD44 MD45 58 59 MD46 MD47 60 GND GND 62 MD48 MD49 64 06 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 19 Memory Expansion Connector P4 Pin Assignments continued Pin Signal Signal Pin MD50 MD51 66 MD52 MD53 68 3 3V 3 3V 70 71 MD54 MD55 72 73 MD56 MD57 74 75 MD58 MD59 76 77 MD60 MD61 78 GND GND 80 MD62 MD63 82 83 MPARO 1 84 85 2 MPAR3 86 87 MPAR4 MPARS 88 89 3 3V 3 3V 90 MPAR6 MPAR7 92 BAO BA1 94 95 MA12 MA11 96 97 MA10 98 99 GND GND 100 101 MAS MA7 102 MA6 MA5 104 MA4 MA3 106 107 MA2 MA1 108 109 3 3V 3 3V 110 111 MAO B2_CS 112 113 B
48. D2 PMC2_16 J24 16 ACK PRD3 PMC2_18 J24 18 PMC2_19 24 19 PMC2 21 J24 21 PMC2 22 24 22 PMC2 24 24 24 PMC2 29 J24 29 PRPE PMC2 28 24 28 GND PRSEL 2 30 J24 30 2 32 24 32 INIT PMC2_31 J24 31 GND PRFLT PMC2_33 24 33 104 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 18 VME Connector P2 Pinouts with IPMC761 continued Pin RowZ Row A Row B Row C RowD 23 PMC2_35 J24 35 RTXC3 VD24 TXD1 232 PMC2 34 24 34 24 GND TRXC3 VD25 RXD1 232 PMC2 36 24 36 25 PMC2_38 J24 38 TXD4 VD26 RTS1_232 PMC2 37 24 37 26 GND CTS1 232 PMC2 39 24 39 27 PMC2 41 24 41 TXD2 232 PMC2 40 24 40 28 GND RXD2 232 PMC2 42 24 42 2 PMC2 44 24 44 RTS2 232 PMC2 43 24 43 9 30 GND 12VF VD31 CTS2 232 PMC2 45 24 45 31 PMC2_46 24 46 MSYNC GND MDO 32 GND MDI MCLK 5V Functionality for rows A and C and 7 71 3 5 7 9 11 13 15 and 17 is provided by the IPMC761 in slot 1 and the MVME5500 Ethernet port 2 5 2 12 Memory Expansion Connector P4 One 140 pin connector is used to provide memory expansion capability This connector interfaces to up to two additional banks of memory The pin assignments for this connector are as follows Ifa PMC module is plugged into PMC slot 1 the memory mezzanine card cannot be used because the PM
49. E Embedded Computing for Business Critical Continuity MVME55006E Single Board Computer Installation and Use P N 6806800A37H September 2013 EMERSON Network Power 2013 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 9 2013 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 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 fro
50. E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 6 PMC 1 Connector 11 Pin Assignments continued Pin Signal Signal Pin E AD22 AD21 28 AD19 5V 30 AD17 32 FRAME GND 34 GND IRDY 36 DEVSEL 5V 38 PCI RSVD PCI RSVD 42 43 GND 44 45 AD15 46 47 AD11 48 49 5V 50 GND C BEO 52 55 GND 56 57 ADO3 58 59 ADO1 60 5V 62 Table 5 7 PMC 1 Connector 12 Pin Assignments TRST TDO GND PCI RSVD MVME55006E Single Board Computer Installation and Use 6806800A37H 89 Connector Pin Assignments Table 5 7 PMC 1 Connector 12 Pin Assignments continued Pin Signal PCI RSVD MOT RSVD RST Signal PCI RSVD 3 3V MOT RSVD MOT RSVD Pin GND AD29 AD26 AD20 GND C BE2 PERR IDSELB 3 3V C BEI AD14 ADO7 REQB_L 3 3V GNTB L MOT RSVD GND MOT RSVD EREADY NC RESETOUT 1 ACK64 3 3V 90 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 7 PMC 1 Connector 12 Pin Assignments continued m Table 5 8 PMC 1 Connector 13 Pin Assignments Pin Signal C BE7 C BE6 C BES C BEA MVME55006E Single Board Computer Installation and Use 6806
51. Figure 1 9 55 2 Settings RO ERN ELE GUN TURO Soph sede 30 Figure 1 10 S4 1 Settinds sec pre e eU E E EO RD UR Rs 31 Figure 1 11 27 Settings deii ce he CR Rer RERO EE aden RATEN Re 31 Figure 1 12 54 2 Settngs ee terre LORI Le bee 32 Figure 1 13 59 3 Settings sii dest per HOURS M Rd ra 32 Figure 1 14 VIO Keying Pin Settings ss rer tere ER e Rx PER GOs ede Er ES 33 Figure 1 15 Typical Placement of a Module on a Module 37 Figure 1 16 PMCspan Installation on a VME Module 39 Figure 1 17 Installation into a Typical VME Chassis 42 Figure 2 1 Block Diagram een RYE E Ren 45 Figure 2 2 COMI Asynchronous Serial Port Connections RJ 45 53 Figure 3 1 RAM500 Block Diagram inaia a ES 58 Figure 5 1 SBC IPMC712 nee UE Re 112 Figure 5 2 SBC IPMCZ61 MOde ence eerie eee re RR UR HU OR ings 113 Figure 5 3 PMG Mode een nalen 114 Figure B 1 Thermally Significant Components Secondary Side 121 Figure B 2 Thermally Significant Components Primary Side 122 Figure B 3 Thermalcouple eee eect nennen 123 Figure B 4 Machining a Heatsink 1
52. I Miscellaneous Register 10000000 The LMISC register is set for Universe compatibility and the coupled window timer is disabled Special PCI Slave Image Register 00000000 The SLSI register is disabled Master Control Register 00C00000 The MAST_CTL register is set to retry forever before the PCI master signals error transfer 128 bytes on posted writes before release use VMEbus request level 3 request mode Demand Release When Done align PCI transfers on 32 bytes and use PCI bus 0 Miscellaneous Control Register 52040000 Sets MISC register to utilize 256 second VMEbus timeout round robin arbitration 256 second arbitration timeout do not use Bl mode and assertion of VIRQ1 is to be ignored User AM Codes 40400000 Sets USER AM to indicate a user AM code of 0 Theresulting map is therefore PCI addresses 0x91000000 0xB0000000 VMEbus A32 D32 space addresses 0x01000000 0x2000000 PCI addresses 0xB0000000 0xB1000000 VMEbus A24 D16 space addresses 0 0000000 OxF1000000 PCI addresses OxB3FF0000 0xB4000000 VMEbus A16 D16 space addresses OxFFFFOOOO OxFFFFFFFF 76 MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware 4 5 1 1 4 5 1 2 VMEbus A32 D32 addresses from 0x00000000 to local DRAM size address th local memory of the MVME5500 The following sections provide additional information pertaining to the VME firmware s
53. PROM programming Header Enables EEPROM programming ON J34 97 98 Ethernet 2 Selection 1 2 on all Rear P2 Ethernet 199 Headers see also J6 100 7 101 Refer to a note on page 25 for a configuration limitation No jumpers installed set when in SBC IPMC761 mode Front panel Ethernet MVME55006E Single Board Computer Installation and Use 6806800A37H 23 Hardware Preparation and Installation Table 1 2 MVME5500 Jumper Settings continued Jumpers Switches Function Settings J102 J110 P2 I O Selection Headers 1 2 PMC 2 I O connected to P2 2 3 IPMC I O connected to P2 Items in brackets are factory default settings The MVME5500is factory tested and shipped with the configuration described in the following section Figure 1 1 500 Board Layout o B J5 118 J27 J8 2 88888808 8888888888 goo CEO ms v 1
54. Ph 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 Verbose Output MVME5500 Firmware Settings The following sections provide additional information pertaining pertaining to the MVME5500 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 73 MOTLoad Firmware 4 5 1 Default VME Settings As shipped from the factory the firmware on the MVME5500 will program default values into the Universe Il VME Interface chip The firmware allows certain VME settings to be changed in order for the user to customize his her 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 Universe Il User Manual listed in Appendix C Related Documentation VME3PCI Master Enable Y N Do not set up or enable the VMEbus Interface Y Set up and enable the VMEbus Interface PCI Slave Image 0 This image is set to zeroes and thus disabled PCI
55. Pin 1 GND 2 BANK SEL 3 3 3V 5 3 3 VME SCON Select Header J27 A 3 pin 2 mm planar header allows the choice for auto enable disable SCON VME configuration A jumper installed across pins 1 2 configures for SCON disabled A jumper installed across pins 2 3 configures for auto SCON No jumper installed configures for SCON always enabled The pin assignments for this header are as follows Table 5 25 VME SCON Select Header 27 Pin Assignments MVME55006E Single Board Computer Installation and Use 6806800A37H 115 Connector Pin Assignments 116 MVME55006E Single Board Computer Installation and Use 6806800A37H Specifications A 1 Power Requirements In its standard configuration the MVME5500 requires 5V 12V and 12V for operation On board converters supply the processor core voltage 3 3V 1 5V 1 8V and 2 5V A 1 1 Supply Current Requirements Table A 1 provides an estimate of the typical and maximum current required from each of the input supply voltages Table A 1 Power Requirements Model Power 5V 5 MVME5500 0163 Typical 6 7 A Maximum 8 0 A MVME5500 0163 with memory mezzanine Typical 7 5A Maximum 9 0A MVME5500 0163 with IPMC712 761 Typical 7 60 A Maximum 9 2 A In a 3 row chassis PMC current should be limited to 19 8 watts total of both PMC slots In a 5 row chassis PMC current should be limited to 46 2 watts total of both PMC slots
56. Pin Assignments continued Pin Signal Signal Pin Reserved C BES C BE4 C BE7 C BEG 83 AD33 AD32 85 AD35 AD34 87 AD37 AD36 89 AD39 AD38 95 AD45 AD44 AD47 AD46 AD49 AD48 AD51 AD50 AD53 AD52 AD55 AD54 AD57 AD56 AD59 AD58 AD61 AD60 AD63 AD62 5 2 5 Connector 5 The processor has a 0 100 COP header for use with the MPC7457 COP controllers Table 5 5 CPU COP Connector 5 Pin Assignments Pin Signal Signal Pin MVME55006E Single Board Computer Installation and Use 6806800A37H 87 Connector Pin Assignments Table 5 5 CPU COP Connector 5 Pin Assignments continued Signal Signal QREQ_L 2 5V_VIO CPUTCK OPTPU_2 5v 8 SRESET_L 13 CPURST_L KEY no pin 14 15 CHECKSTPO_L GND 16 5 2 6 PMC1 Interface Connectors 11 12 13 14 There are four 64 pin SMT connectors for the PMC 1 slot on the MVME5500 to provide 32 64 bit PCI interface and optional I O interface If a PMC module is plugged into PMC slot 1 the memory mezzanine card cannot be used because the PMC module covers the memory mezzanine connector Table 5 6 PMC 1 Connector 11 Pin Assignments INTB INTC 6 Signal Signal Pin TCK 12V 2 GND INTA 4 5V 8 PCI RSVD 10 3 3Vaux 12 REQ XGNTO 5V 18 GND 14 GNT XREQO 16 AD31 20 21 AD28 AD27 22 23 AD25 GND 24 88 MVME55006
57. Slave Image 1 Control C0820000 Sets LSI1_CTL to indicate that this image is enabled write posting is enabled VMEbus data width is 32 bits VMEbus address space is A32 data and non supervisory AM encoding no BLT transfers to the VMEbus and to accept addresses in PCI memory space PCI Slave Image 1 Base Address Register 91000000 Sets LSI1_BS to indicate that the lower bound of PCI memory addresses to be transferred to the VMEbus by this image is 0x91000000 PCI Slave Image 1 Bound Address Register B0000000 Sets LSI1 BD to indicate that the upper bound of PCI memory addresses to be transferred by this image is 0xB0000000 PCI Slave Image 1 Translation Offset 70000000 Sets LSI1_TO to indicate that the PCI memory address is to be translated by 0x70000000 before presentation on the VMEbus the result of the translation is 0 91000000 0x70000000 0x101000000 thus 0x01000000 on the VMEbus PCI Slave Image 2 Control C0410000 Sets LSI2_CTL to indicate that this image is enabled write posting is enabled VMEbus data width is 16 bits VMEbus address space is A24 data and non supervisory AM encoding no BLT transfers to the VMEbus and to accept addresses in PCI memory space PCI Slave Image 2 Base Address Register B0000000 Sets LSI2_BS to indicate that the lower bound of PCI memory addresses to be transferred to the VMEbus by this image is 0xB0000000 MVME55006E Single Board Computer Installation and Use 6806800A37H
58. _32 J14 32 VD18 PMC1_31 J14 31 2 24 J24 24 17 PMC2 26 PMC1_34 J14 34 VD19 PMC1_33 114 33 PMC2_25 24 25 J24 26 18 GND PMC1_36 J14 36 VD20 PMC1_35 J14 35 2 27 24 27 PMC2_29 PMC1_38 J14 38 VD21 37 114 37 2 28 24 28 24 29 GND PMC1_40 J14 40 VD22 PMC1_39 J14 39 PMC2 30 J24 30 2 32 42 14 42 VD23 PMCI 41 J14 41 PMC2 31 J24 31 J24 32 22 GND PMC1_44 J14 44 GND PMC1_43 J14 43 PMC2 33 24 33 23 PMC2 35 46 J14 46 VD24 PMCI 45 14 45 PMC2 34 24 34 J24 35 24 GND PMC1_48 J14 48 VD25 PMC1_47 J14 47 2 36 24 36 25 2 38 50 14 50 VD26 PMCI 49 14 49 PMC2 37 24 37 J24 38 26 GND 52 J14 52 VD27 51 J14 51 2 39 24 39 27 PMC2_41 54 14 54 VD28 53 14 53 2 40 24 40 24 41 28 GND PMC1_56 J14 56 VD29 PMC1_55 J14 55 PMC2_42 24 42 MVME55006E Single Board Computer Installation and Use 6806800A37H 101 Connector Pin Assignments Table 5 16 VME Connector P2 Pin Assignments PMC Mode continued Pin ROWZ ROW ROW ROW C ROWD 29 2 44 PMC1_58 J14 58 PMC1_57 14 57 PMC2_43 24 43 J24 44 30 GND PMCI 60 14 60 PMC1_59 J14 59 2 45 J24 45 31 PMC2 46 62 J14 62 GND PMCI 61 114 61 GND J24 46 32 GND PMC1_64 J14 64 5V 63 J14 63
59. al Interface and Devices 0 0 49 2 6 5 Direct Memory Access 00 e cece cece cece nh eee 50 2 6 0 TIMES 50 2 7 FHasliMemoty eere IHRER IR eins 2 51 2 8 System MeMO esee ek ex Xr le ee 51 2 9 PCl Local Buses and Devices eee re pepe ete ee bREe ee 51 2 9 1 Gigabit Ethernet cece eee nee ee 51 2 9 2 10 100Mb Ethernet Interface 1 0 2 cece cece een e 52 2 9 3 PCl to PCl Bridges d Rr RR ERE Dae ences 52 2 0 4 51 coste rete Ue bere eem ee epa dese 52 2 9 5 PELIDSEL Definition eere ceri ente ee Bene 52 2 9 6 Arbitration iier EX PERS biked eed rea 53 2 10 Asynchronous Serial Ports ee pp ee een 53 2 11 Real Time Clock and e m hme e eer 54 2 12 System Control and Status Registers 54 2 13 50 5 esto e EY ECC ERA ha 54 2 14 VME Interface nen ee 55 2 15 pP RE kenn 55 2 16 Debug SUPPO creisses obere ee eh 55 MVME55006E Single Board Computer Installation and Use 6806800A37H Contents 3 55006 Memory Expansion 57 3 1 bance ge eden bee 57 3 2 Features PET 57 3 3 Functional Description
60. asuring Local Air Temperature Measure local component ambient temperature by placing the thermocouple downstream of the component This method is conservative since it includes heating of the air by the component The following figure illustrates one method of mounting the thermocouple Figure B 3 Thermalcouple Placement Tape thermocouple wire to top of component Thermocouple Y junction wy Air dm cod N EN PWB MVME55006E Single Board Computer Installation and Use 6806800A37H 123 Thermal Validation B 3 4 124 Measuring Case Temperature Measure the case temperature at the center of the top of the component Make sure there is good thermal contact between the thermocouple junction and the component We recommend you use a thermally conductive adhesive such as Loctite 384 If components are covered by mechanical parts such as heatsinks you will need to machine these parts to route the thermocouple wire Make sure that the thermocouple junction contacts only the electrical component Also make sure that heatsinks lay flat on electrical components The following figure shows one method of machining a heatsink base to provide a thermocouple routing path MVME55006E Single Board Computer Installation and Use 6806800A37H MVME55006E Single Board Computer Installation and Use 6806800A37H Thermal Validation Ma
61. ay attention to important 9 90O00000000000000000000000000000000000000000000000 i nfo rm ati on 16 MVME55006E Single Board Computer Installation and Use 6806800A37H About this Manual TT Summary of Changes This manual has been revised and replaces all prior editions January 2007 Default setting for J102 110 is 1 2 see Figure 1 2 on page 6806800A37A 27 February 2007 Default setting for J32 is 1 2 6806800A37B Default setting for J28 is 1 2 PMC Mode for J28 and J32 is factory default P2 PMC 2 I O mode for 102 110 is factory default P2 IPMC I O is 2 3 See Figure 1 3 on page 28 and Figure 1 4 on page 28 March 2008 Updated to Emerson style standards 6806800A37C October 2008 Updated Table 1 2 on page 22 to correctly identify the 6806800A37D default setting for Jumpers J28 J32 as mode by putting brackets around 1 2 on both in the Settings column August 2011 Added Safety Notes on page 131 and Sicherheitshinweiseon 6806800A37E page 135 December 2012 Added Declaration of Conformity on page 19 6806800A37G September 2013 Updated 3 Cache on page 47 Intel Ethernet Controller 6806800A37H 82544El replaced with 82545GM MVME55006E Single Board Computer Installation and Use 6806800A37H 17 About this Manual 18 MVME55006E Single Board Computer Installation and Use 6806800A37H Chapter 1 Hardware Preparation and Installation 1 1 1 2 1 3 O
62. blkVe Block Verify blkWr Block Write 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 byw cdDir 1509660 File System Directory Listing cdGet 1509660 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 66 MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware Table 4 1 MOTLoad Commands continued Command Description 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 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 Ignore Break Points gevDelete Global Environment Variable Delete gevDump Global Environment Variable s Dump NVRAM Heade
63. ce PCI bus 1 0 PCI 1 0 bus speed to run at 33 MHz factory configuration EEPROM Write Protect Switch S3 3 This switch enables disables programming of the on board EEPROMs as a means of protecting the contents from being corrupted Set to 1 it disables EEPROM programming by driving the WP pin to a logic high Set to ON to program any of the EEPROMs at addresses AO A6 A8 and or AA Figure 1 13 53 3 Settings S3 3 1 ON 1 ON 2 2 1 4 4 Disables EEPROM Enables EEPROM programming programming factory configuration MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 1 7 12 Setting the PMC Vio Keying Pin Signalling voltage Vio is determined by the location of the PMC Vio keying pin Each site can be independently configured for either 5V or 3 3V signalling The option selected can be determined by observing the location of the Vio keying pin Figure 1 14 Keying Pin Settings e Cc Co 5V key option on PMC board 3 3V key option on a PMC board 1 3 Installing the RAM5500 Module Procedure To upgrade or install a RAM5500 module refer to and proceed as follows 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to the chassis as a ground The ESD strap must be secured to your wrist and to ground throughout the procedure 2 Perform an operating system shutdown Turn
64. ch an ESD strap to your wrist Attach the other end of the ESD strap to an electrical ground Note that the system chassis may not be grounded if it is unplugged The ESD strap must be secured to your wrist and to ground throughout the procedure 2 Perform an operating system shutdown Turn the AC or DC power off and remove the AC cord or DC power lines from the system Remove chassis or system cover s as necessary for access to the VME modules 3 Ifthe MVME5500 has already been installed in a VMEbus card slot carefully remove it as shown in Figure 1 17 and place it with connectors P1 and P2 facing you 4 Attach the four standoffs to the MVME5500 For each standoff Insertthe threaded end into the standoff hole at each corner of the MVME5500 and thread the locking nuts into the standoff tips and tighten 38 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 5 Place the PMCspan on top of the MVME5500 Align the mounting holes in each corner to the standoffs and align PMCspan connector P4 with MVME5100 connector J25 Figure 1 16 PMCspan Installation on a VME Module 6 Gently press the PMCspan and MVME5500 together and verify that P4 is fully seated in J4 7 Insert four short screws Phillips type through the holes at the corners of the PMCspan and into the standoffs on the MVME5500 Tighten screws securely MVME55006E Single Board Computer Installation and Use 6806800
65. cherheitshinweise is a German translation of the Safety Notes chapter The MVME55006E Single Board Computer Installation and Use manual provides the information you will need to install and configure your MVME55006E single board computer It provides specific preparation and installation information and data applicable to the board The MVME55006E single board computer will hereafter be referred to as the MVME5500 MVME55006E Single Board Computer Installation and Use 6806800A37H 13 About this Manual As of the printing date of this manual the MVME5500 supports the models listed below Model Number Description MVME55006E 0161R 1 GHz MPC7457 processor 512MB SDRAM Scanbe handles MVME55006E 0163R 1 GHz MPC7457 processor 512MB SDRAM IEEE handles RAM55006E 007 Memory expansion 512MB SDRAM IPMC7126E 002 Multifunction rear I O PMC module 8 bit SCSI Ultra Wide SCSI one parallel port three async and one sync async serial ports MVME712M6E Transition module with one DB 25 sync async serial port three DB 25 async serial port one AUI connector one D 36 parallel port and one 50 pin 8 bit SCSI includes 3 row DIN P2 adapter board and cable MVME7616E 001 Multifunction rear I O PMC module 8 bit SCSI one parallel port two async and two sync async serial ports Transition module with two DB 9 async serial port connectors two HD 26 sync async serial port connectors one HD 36 parallel port connector one RJ 45 10 100 Ethernet
66. chining a heatsink base reduces the contact area between the heatsink and the electrical component You can partially compensate for this effect by filling the machined areas with thermal grease The grease should not contact the thermocouple junction Figure B 4 Machining a Heatsink lt Machined groove for thermocouple wire routing Thermocouple junction bonded to component ISOMETRIC VIEW Through hole for thermocouple Machined groove for junction clearance may require thermocouple wire removal of fin material routing Also use for alignment guidance during heatsink installation Thermal pad Heatsink base HEATSINK BOTTOM VIEW 125 Thermal Validation 126 MVME55006E Single Board Computer Installation and Use 6806800A37H Appendix C Related Documentation C 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 http www emersonnetworkpowerembeddedcomputing com gt Solution Services Technical Documentation Search This site provides the most up to date copies of Emerson Network Power Embedded Computing product documentation Table G1 Emerson Network Power Embedded Computin
67. connector includes 3 row DIN P2 adapter board and cable for 8 bit SCSI MVME7616E 011 Transition module with two DB 9 async serial port connectors two HD 26 sync async serial port connectors one HD 36 parallel port connector one RJ 45 10 100 Ethernet connector includes 5 row DIN P2 adapter board and cable for 16 bit SCSI requires backplane with 5 row DIN connectors PMCSPAN26E 002 Primary PMCSPAN with original VME IEEE ejector handles PMCSPAN26E 010 Secondary PMCSPAN with original VME IEEE ejector handles PMCSPAN16E 002 Primary PMCSPAN with Scanbe ejector handles PMCSPAN16E 010 Secondary PMCSPAN with Scanbe ejector handles 14 MVME55006E Single Board Computer Installation and Use 6806800A37H About this Manual Conventions The following table describes the conventions used throughout this manual Notation 0x00000000 Description Typical notation for hexadecimal numbers digits are 0 through F for example used for addresses and offsets 0b0000 Same for binary numbers digits are 0 and 1 bold Screen Courier Bold Used to emphasize a word Used for on screen output and code related elements or commands in body text Used to characterize user input and to separate it from system output Reference File gt Exit lt text gt text Used for references and for table and figure descriptions Notation for selecting a submenu Notation for variables and keys Notation
68. e GT 64260B can be configured by setting jumper 17 to automatically read data out of a serial EEPROM following a reset and initialize any number of internal registers Inthe second function the controller is used by the system software to read the contents of the VPD EEPROM contained on the MVME5500 board along with the SPD EEPROM s to further initialize the memory controller and other interfaces The MVME5500 board contains the following I2C serial devices e 256 byte EEPROM for fixed GT 64260B initialization e 8KB EEPROM for VPD e 8KB EEPROM for user defined VPD MVME55006E Single Board Computer Installation and Use 6806800A37H 49 Functional Description 2 6 5 2 6 6 e 256 byte EEPROM for SPD e 051621 temperature sensor The 8KB EEPROM devices are implemented using Atmel AT24C64 devices These devices use two byte addressing to address the 8KB of the device Direct Memory Access DMA The GT 64260B has an 8 channel DMA controller integrated in the device Each DMA channel is capable of moving data between any source and any destination This controller can be programmed to move up to 16MB of data per transaction The GT 64260B DMA channels also support chained mode of operation For additional details regarding the GT 64260B DMA capability refer to the GT 64260B System Controller for PowerPC Processors Data Sheet listed in Appendix C Related Documentation Timers The GT 64260B supplies eight 32 bit counters timers
69. ector 14 If a PMC card is plugged into PMC slot 1 there may be a conflict between the I O from the PMC card and the rear Ethernet signals This conflict does not occur with the IPMC761 or IPMC712 modules For J34 J97 J98 and J99 no jumpers are installed for front panel Ethernet For rear P2 Ethernet install jumpers across pins 1 2 on all four headers when in SBC IPMC761 mode PMC SBC Mode Selection The MVME5500 is set at the factory for PMC mode The SBC IPMC761 mode should only be selected when using the IPMC761 module in conjunction with the MVME761 transition module The PMC mode should be selected when using PMC modules with specific user I O in conjunction with the corresponding transition module PMC mode should also be selected when using PrPMC modules MVME55006E Single Board Computer Installation and Use 6806800A37H 25 Hardware Preparation and Installation 1 7 2 3 26 Two 3 pin planar headers J28 J32 control the supply of 12 volts to the P2 connector one or both of these voltages are required the MVME712 or MVME761 module when operating in SBC mode For PMC mode jumpers are installed across pins 1 2 on both headers For SBC IPMC761 mode install jumpers across pins 2 3 on both headers For SBC IPMC712 mode install a jumper across pins 2 3 for 32 and install a jumper across pins 1 2 for 28 Product Damage When 28 is configured for SBC IPMC mode 12V is supplied to P2 pin A30 If there is an i
70. emoving 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 MVME55006E Single Board Computer Installation and Use 6806800A37H Sicherheitshinweise ee 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 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 Einricht
71. ent is provided Please note that while these sources have been verified the information is subject to change without notice Table C3 Related Specifications Publication Number or Document Title and Source Search Term VITA http www vita com VME64 Specification ANSI VITA 1 1994 VME64 Extensions ANSI VITA 1 1 1997 2eSST Source Synchronous Transfer VITA 1 5 199x PCI Special Interest Group PCI SIG http www pcisig com Peripheral Component Interconnect PCI Local Bus Specification PCI Local Bus Revision 2 0 2 1 2 2 Specification IEEE http standards ieee org IEEE Common Mezzanine Card Specification CMC Institute of Electrical P1386 Draft 2 0 and Electronics Engineers Inc IEEE PCI Mezzanine Card Specification PMC P1386 1 Draft 2 0 Institute of Electrical and Electronics Engineers Inc MVME55006E Single Board Computer Installation and Use 6806800A37H 129 Related Documentation 130 MVME55006E Single Board Computer Installation and Use 6806800A37H Safety Notes ee 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 specif
72. erte 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 oder 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 ordnungsgemasse 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 1 Besch d
73. etails An on board 1 8432 MHz oscillator provides the baud rate clock for the UARTs Figure 2 2 COMI Asynchronous Serial Port Connections RJ 45 TL16C550C 7 E m RJ45 Connector o 2 MOBO MVME55006E Single Board Computer Installation and Use 6806800A37H 53 Functional Description 2 11 2 12 2 13 Real Time Clock and NVRAM The SGS Thomson M48T37V is used by the MVME5500 board to provide 32KB of non volatile static RAM real time clock and watchdog timer The watchdog timer if enabled can be programmed to generate either an interrupt or system reset if it expires Refer to the MK48T37V Data Sheet for programming information The M48T37V consists of two parts A44 pin 330mil SOIC device that contains the RTC the oscillator 32KB of SRAM and gold plated sockets for the SNAPHAT battery ASNAPHAT battery that houses the crystal and the battery The SNAPHAT battery package is mounted on top of the SOIC MT48T37V device after the completion of the surface mount process The battery housing is keyed to prevent reverse insertion System Control and Status Registers The MVME5500 CPU board contains System Control and Status Registers mapped into Bank 1 of the GT 64260B device bus interface Refer for the MMVE5500 Single Board Computer Programmer s Reference Guide for details Sources of Reset The sources of reset on the MVME5500 are the fo
74. ettings of the MVME5500 A few VME settings are controlled by hardware jumpers while the majority of the VME settings are managed by the firmware command utility vmeC g CR CSR Settings The firmware supports both Auto Slot ID and Geographical Addressing for assigning the CR CSR base address dependent on a hardware jumper setting See the VME64 Specification and the VME64 Extensions for details As a result a 512K byte CR CSR area can be accessed from the VMEbus using the CR CSR AM code Displaying VME Settings To display the changeable VME setting type the following at the firmware prompt vmeCfg s m Displays Master Enable state vmeCfg s i 0 7 Displays selected Inbound Window state vmeCfg s o 0 7 Displays selected Outbound Window state vmeCfg s r184 Displays PCI Miscellaneous Register state vmeCfg s r188 Displays Special PCI Target Image Register state vmeCfg s r400 Displays Master Control Register state vmeCfg s r404 Displays Miscellaneous Control Register state vmeCfg s r40C Displays User AM Codes Register state vmeCfg s rF70 Displays VMEbus Register Access Image Control Register state MVME55006E Single Board Computer Installation and Use 6806800A37H 77 MOTLoad Firmware 4 5 1 3 4 5 1 4 Editing VME Settings To edit the changeable VME setting type the following at the firmware prompt vmeCfg e m Edits Master Enable state vmeCfg e i 0
75. g Publications Document Title Publication Number MVME55006E Single Board Computer Programmer s Reference Guide 6806800H16 MVME7616E Transition Module Installation and Use 6806800A43 MVME712M6E Transition Module Installation and Use 6806800A44 MOTLoad Firmware Package User s Manual 6806800C24 IPMC7126E 7616E I O Module Installation and Use 6806800A45 PMCSPAN PMC Adapter Carrier Board Installation and Use 6806800A59 C 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 G2 Manufacturers Documents MPC7450 RISC Microprocessor User s Manual MPC7450UM D Rev 2 Freescale Product Information http www freescale com Publication Number or Search Document Title and Source Term MVME55006E Single Board Computer Installation and Use 6806800A37H 127 Related Documentation Table G2 Manufacturers Documents continued Publication Number or Search Document Title and Source Term MPC7450 RISC Microprocessor Hardware Specification MPC7450EC D Rev 3 Freescale Product Information http www freescale com GT 64260B System Controller for PowerPC Processors Data Sheet MV S100414 00B Marvell Technologies Ltd http w
76. h slot will start at 0x0058 0000 CR CSR space for a board in the cth slot will start at 0x0060 0000 For further details CR CSR space please refer to the VME64 Specification listed in Appendix C Related Documentation The MVME5500 uses a Tundra Universe Il for its VME bridge The offsets of the mailboxes in the Universe Il are defined in the Universe Il User Manual listed in Appendix C Related Documentation but are noted here for reference Mailbox 0 is at offset 7f348 in the CR Mailbox 1 is at offset 7f34C in the CR Mailbox 2 is at offset 71350 in the CR Mailbox 3 is at offset 71354 in the CR CSR space CSR space CSR space CSR space mo The selection of the mailbox used by remote start on an individual MVME5500 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 chapter in the MOTLoad Firmware Package User s Manual for remote start GEV definitions The MVME5500 s IBCA needs to be mapped appropriately through the master s VMEbus bridge For example to use remote start using mailbox 0 on an MVME5500 installed in slot 5 the master would need a mapping to support reads and writes of address 0x002ff348 in VME CR CSR space 0x280000 0x71348 80 MVME55006E Single Board Computer Installation and Use 6806800A37H Chapter 5 Connector Pin Assignments 5 1 5 2
77. ic 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 requirements 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 mai
78. idelines 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 MVME5500 into the guides of the chassis Only use injector handles for board insertion to avoid damage deformation to the front panel and or PCB MVME55006E Single Board Computer Installation and Use 6806800A37H 41 Hardware Preparation and Installation Figure 1 17 1 10 1 42 4 Ensure that the levers of the two injector ejectors are in the outward position 5 Slide the MVME5500 into the chassis until resistance is felt Installation into a Typical VME Chassis 6 Simultaneously move the injector ejector levers in an inward direction 7 Verify that the MVME5500 is properly seated and secure it to the chassis using the two screws located adjacent to the injector ejector levers 8 Connect the appropriate cables to the MVME5500 Connection to Peripherals When the MVME5500 is installed in a chassis you are ready to connect peripherals and apply power to the board Figure 1 1 on page 24 shows the locations of the various connectors while Table 1 3 lists them for you Refer to Chapter 5 Connector Pin Assignments for the pin assignments of the connectors listed below MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation Ifa PMC module is plugged into PMC slot 1 the memo
79. igung des Produktes Hohe Luftfeuchtigkeit und Kondensat auf der Oberflache 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 MVME55006E Single Board Computer Installation and Use 6806800A37H Sicherheitshinweise Besch digung von Schaltkreisen Elektrostatische Entladung und unsachgem er Ein und Ausbau des Produktes 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 Andern 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 andern 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
80. ior to installing the board in a chassis MVME55006E Single Board Computer Installation and Use 6806800A37H 21 Hardware Preparation and Installation 1 7 1 To produce the desired configuration and ensure proper operation of the MVME5500 you may need to carry out certain hardware modifications before installing the module Most options on the MVME5500 are software configurable Configuration changes are made by setting bits in control registers after the board is installed in a system Jumpers and switches are used to control those options that are not software configurable These settings are described further on in this section If you are resetting the board jumpers or switches from their default settings it is important to verify that all settings are reset properly Configuring the Board Figure 1 1 illustrates the placement of the jumpers headers switches connectors and various other components on the MVME5500 There are several manually configurable headers and switches on the MVME5500 and their settings are shown in Table 1 2 Each default setting is enclosed in brackets For pin assignments on the MVME5500 refer to Chapter 5 Connector Pin Assignments Table 1 2 MVME5500 Jumper Settings Jumpers Switches 16 100 7 1101 Function Settings Ethernet 2 Selection 2 3 onall Rear P2 Ethernet SBC mode Headers 1 2 on all Front panel Ethernet see also 34 J97 98 J99 Refer to the hint on page 7 f
81. is 66 MHz capable Slot 2 is connected to PCI Bus 1 0 of the GT 64260B and is also 66 MHz capable If a PMC module is plugged into PMC slot 1 the memory mezzanine card cannot be used because the PMC module covers the memory mezzanine connector PCI IDSEL Definition PCI device configuration registers are accessed by using the IDSEL signal of each PCI agent to an signal as defined in the Peripheral Component Interconnect PCI Local Bus Specification Revision 2 2 IDSEL definitions for the MVME5500 are shown in the MVME5500 Single Board Computer Programmer s Reference Guide MVME55006E Single Board Computer Installation and Use 6806800A37H Functional Description 2 9 6 PCI Bus Arbitration PCI arbitration for the MVME5500 PCI Buses 0 0 and 1 0 is provided by an external arbiter PLD The arbiter PLD implements a round robin priority algorithm PCI arbitration for PCI Bus 0 1 is provided by the HiNT PCI 6154 secondary internal arbiter 2 10 Asynchronous Serial Ports The MVME5500 board uses two TL16C550C universal asynchronous receiver transmitters UARTs interfaced to the GT 64260B device bus to provide the asynchronous serial interfaces EIA232 drivers and receivers reside on board COMI signals are wired to an RS 232 transceiver that interfaces to the front panel R 45 connector COM2 signals are also wired to a transceiver that interfaces to an on board 9 pin header refer to Chapter 5 Connector Pin Assignments for more d
82. jumper build option resistors to select either operating mode at power up Memory Controller Interface The GT 64260B can access up to four banks of SDRAM for a total of 1GB of SDRAM memory The memory bus is capable of operating up to 133 MHz The MVME5500 board has two banks on board and a connector for an expansion mezzanine board with two additional banks MVME55006E Single Board Computer Installation and Use 6806800A37H Functional Description 2 6 3 2 6 4 Interrupt Controller The MVME5500 uses the interrupt controller integrated into GT 64260B to manage the GT 64260B internal interrupts as well as the external interrupt requests The external interrupt sources include the following e On board PMC interrupts e LAN interrupts e VME interrupts e RTCinterrupt e Watchdog timer interrupts e Abort switch interrupt e External UART interrupts The interrupt controller provides up to seven interrupt output pins for various interrupt functions For additional details regarding the external interrupt assignments refer to the MVME5500 Single Board Computer Programmer s Reference Guide I2C Serial Interface and Devices two wire serial interface for the MVME5500 board is provided by a master slave capable I2C serial controller integrated into the GT 64260B device The I2C serial controller provides two basic functions The first function is to optionally provide GT 64260B register initialization following a reset Th
83. ller 50 I2C serial interface devices 49 interrupt controller 49 memory controller interface 48 57 timers 50 system memory 51 MVME55006E Single Board Computer Installation and Use 6806800A37H Index T V temperature measurement 120 122 123 vibration 117 temperature range 117 Vio keying pin 33 temperatures component 119 VME settings 74 thermal performance 119 delete 78 timer watchdog 54 display 77 edit 78 U restore 79 Universe Il controller 55 unpacking guidelines 20 Ww watchdog timer 54 143 MVME55006E Single Board Computer Installation and Use 6806800A37H Index 144 MVME55006E Single Board Computer Installation and Use 6806800A37H HOW TO REACH LITERATURE AND TECHNICAL SUPPORT Tempe Arizona USA 1 800 759 1107 1 602 438 5720 Munich Germany 49 89 9608 0 For literature training and technical assistance and support programs visit www emersonnetworkpowerembeddedcomputing com Emerson Network Power www emersonnetworkpowerembeddedcomputing com The global leader in enabling Business Critical Continuity J Power Systems Embedded Computing Outside Plant I Services I Connectivity u Embedded Power J 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 Elec
84. llowing e Power up Abort Reset Switch Watchdog Timer GT 64260B Watchdog Timer System Control register bit VME Bus Reset MVME55006E Single Board Computer Installation and Use 6806800A37H Functional Description ee 2 14 VME Interface The MVME5500 provides a Universe Il controller for the VMEbus interface 2 15 PMC Expansion The MVME5500 provides a PMC expansion connector to add more PMC interfaces than the two on the MVME5500 board The connector is a Mictor AMP 767096 3 connector 2 16 Debug Support The MVME5500 provides a boundary scan header J18 and a COP Riscwatch header for debug capability MVME55006E Single Board Computer Installation and Use 6806800A37H 55 Functional Description 56 MVME55006E Single Board Computer Installation and Use 6806800A37H RAM55006E Memory Expansion Module Chapter 3 3 1 Overview The RAM55006E memory expansion module can be used on the MVME5500 as an option for additional memory capability The expansion module has two banks of SDRAM with up to 512MB of available ECC memory The RAM55006E incorporates a serial ROM SROM for system memory serial presence detect SPD data The RAM55006E will hereafter be called the RAM5500 3 2 Featu The follow Table 3 1 RAM5500 Feat Form Factor Sin Dual Sided Mezzanine res ing table lists the features of the RAM5500 memory expansion module ure Summary
85. m time 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 user 13 1 Hardware Preparati
86. ments 110 Table 5 23 P2 I O Selection Headers J102 110 Pin 111 Table 5 24 Flash Boot Bank Select Header 8 Pin Assignments 115 Table 5 25 VME SCON Select Header J27 Pin Assignments 115 Table A 1 Power Requirements u aussen e RE a eo er Lei 117 Table A 2 MVME5500 Specifications llle 117 Table B 1 Thermally Significant Components 0 eee e eee eee eee e een eee 120 MVME55006E Single Board Computer Installation and Use 6806800A37H 9 List of Tables Table G1 Emerson Network Power Embedded Computing Publications 127 Table C2 Manufacturers Documents 127 Table C3 Related Specifications cece cence een ence ene een een nern 129 10 MVME55006E Single Board Computer Installation and Use 6806800A37H List of Figures Figure 1 1 MVME5500 Board Layout III 24 Figure 1 2 Front Panel and Rear P2 Ethernet Settings 27 Figure 1 3 128 and 32 Settings ee esse 28 Figure 1 4 192 110 Settings seen PERPE OU REFERO 28 Figure 1 5 18 Settings ser 28 Figure 1 6 53 1 Settings ac ae 29 Figure 1 7 59 1 Settings une hota te tne ede e ciate O E 29 Figure 1 8 SEA une 30
87. n Once launched most 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 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 MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware 4 3 3 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 Most MOTLoad tests can be organized to execute as a group of related tests a testSuite through the use of the test Suite command The expert operator can customize their testing by defining
88. n of a PMC module onto the MVME5500 and the installation of a primary and secondary PMCspan module onto the PMC MVME5500 processor module If you have ordered one or more of the optional RAM500 memory mezzanine boards for the MVME5500 ensure that they are installed on the board prior to proceeding If they have not been installed by the factory and you are installing them yourself please refer to Installing the RAM5500 Module on page 33 for installation instructions It is recommended that the memory mezzanine modules be installed prior to installing other board accessories such as PMCs IPMCs or transition modules Mounting the PMC Module PMC modules mount on top of the MVME5500 Perform the following steps to install a PMCmodule on your MVME5500 Personal Injury or Death Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing and adjusting NOTICE Product Damage Inserting or removing modules with power applied may result in damage to module components Avoid touching areas of integrated circuitry static discharge can damage these circuits MVME55006E Single Board Computer Installation and Use 6806800A37H 35 Hardware Preparation and Installation Procedure This procedure assumes that you have read the user s manual that came with your PMCs 1 Attach an ESD strap to your wrist Attach the other end of the ESD strap to an electrical ground Note
89. ncompatible board plugged into this P2 slot damage may occur When J32 is configured for SBC IPMC mode 12 is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur P2 1 O Selection Nine 3 pin planar headers J102 110 are for P2 I O selection Jumpers are installed across pins 1 2 on all nine headers when in PMC mode Install jumpers across pins 2 3 on all nine headers when in SBC IPMC761 or SBC IPMC712 mode to connectthe extended SCSI signals to P2 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation Figure 1 2 Front Panel and Rear P2 Ethernet Settings factory configuration Rear P2 Ethernet Front Panel Ethernet 46 J6 E 321 321 J7 Om J7 123 123 J100 EM J100 32 1 3 2 1 J101 CN J101 123 123 J34 J34 N N 97 EN J97 1 2 1 2 Jos J98 1 2 1 2 Joo J99 N N MVME55006E Single Board Computer Installation and Use 6806800A37H 27 Hardware Preparation and Installation Figure 1 3 J28 and 32 Settings factory configuration PMC Mode SBC IPMC761 Mode SBC IPMC712 Mode J28 J28 428 OM 321 321 321 J32 J32 J32 MO 321 321 321 Figure 1 4 102 110 Settings
90. ndard front panel mounted 45 connector MVME55006E Single Board Computer Installation and Use 6806800A37H 51 Functional Description 2 9 2 2 9 3 2 9 4 2 9 5 10 100Mb Ethernet Interface The 10 100Mb Ethernet interface Ethernet 2 comes from the GT 64260B and connects to an external PHY This port can be routed to a front panel RJ 45 connector or to the P2 connector with user configurable jumpers Each Ethernet interface is assigned an Ethernet Station Address The address is unique for each device The Ethernet Station Address is displayed on a label affixed to the board The assembly policy is to assign MAC addresses in such a manner that the higher value MAC address is assigned to Ethernet port 1 and the lower to Ethernet port 2 In addition the Gigabit Ethernet address is stored in a configuration ROM interfaced to the 82545GM device while the 10 100Mb Ethernet address is stored in the on board VPD serial EEPROM PCI to PCI Bridges The MVME5500 uses a PCI 2 1 compliant 66 MHz capable HiNT PCI 6154 PCI to PCI bridge The primary side connects to PCI Bus 0 0 of the GT 64260B and PMC IPMC slot 1 The secondary side connects to PCI Bus 0 1 on which a PMC expansion connector and the VME controller resides PMC Sites The MVME5500 board supports two PMC sites Both sites support processor PMC boards with two IDSELs and two arbitration request grant pairs Slot 1 is connected to PCI Bus 0 0 ofthe GT 64260B and
91. nfiguration 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 68 MVME55006E Single Board Computer Installation and Use 6806800A37H MOTLoad Firmware Table 4 1 MOTLoad Commands continued Command Description 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 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 testRtcReset RTC Reset testRtcRollOver RTC Rollover testRtcTick RTC Tick MVME55006E Single Board Computer Installation and Use 6806800A37H 69 MOTLoad Firmware
92. nfiguring the on board jumpers Declaration of Conformity For Declaration of conformity refer 5 00 Series Declaration of Conformity MVME55006E Single Board Computer Installation and Use 6806800A37H 19 Hardware Preparation and Installation O O 1 4 Getting Started This section provides an overview of the steps necessary to install and power up the MVME5500 and a brief section on unpacking and ESD precautions 1 5 Overview of Startup Procedures The following table lists the things you will need to do before you can use this board and tells where to find the information you need to perform each step Be sure to read this entire chapter including all Caution and Warning notes before you begin Table 1 1 Startup Overview What you need to do Refer to Unpack the hardware Unpacking Guidelines on page 20 Configure the hardware by setting jumpers Configuring the Board on page 22 on the board Install the MVME5500 board in a chassis Procedure on page 41 Connect any other equipment you willbe Connection to Peripherals on page 42 using Verify the hardware is installed Completing the Installation on page 43 1 6 Unpacking Guidelines Unpack the equipment from the shipping carton Refer to the packing list and verify that all items are present Save the packing material for storing and reshipping of equipment 20 MVME55006E Single Board Computer Installation and Use 6806800
93. ng up the MVME5500 brings up the MotLoad prompt MVME5500 gt Switches and Indicators The MVME5500 board provides a single push button switch that provides both Abort and Reset ABT RST functions When the switch is depressed for less than three seconds an abort interrupt is generated to the processor If the switch is held for more than three seconds a board hard reset is generated The MVME5500 has two front panel indicators software controlled Asserted by firmware or other software to indicate a configuration problem or other failure e CPU connected to a CPU bus control signal to indicate bus activity Thefollowing table describes these indicators Table 1 4 Front Panel LED Status Indicators Description CPU bus is busy Function CPU Bus Activity Green Board Fail BFL Yellow Board has a failure MVME55006E Single Board Computer Installation and Use 6806800A37H Functional Description 2 1 Overview This chapter describes the MVME5500 on a block diagram level 2 2 Block Diagram Table 2 1 shows a block diagram of the overall board architecture Figure2 1 Block Diagram L3 Cache SDRAM 200 MHz Mezzanine 2MB 512MB Flash 32MB expansion Processor SDRAM 7455 512 T ARTS 8MB 1 GHz 133 MHz soldered on board Local PCI Bus 0 0 33 66 MHz 32 64 bit PCI Bridge
94. nstallation and Use 6806800A37H Index Numerics 10 100Mb Ethernet 52 A abort reset switch 44 air temperature range 117 ambient temperature measuring 123 ambient temperatures 120 applying power 44 asynchronous serial ports 53 B block diagram 45 board component temperatures 119 connectors 42 description 19 dimensions 117 board fail LED 44 boundary scan header J18 55 C clocks RAM5500 59 command line rules MOTLoad 72 command line rules and help 70 completing the installation 43 connectors list of 42 conventions 15 CPU bus activity LED 44 CR CSR settings 77 D debug 55 default VME settings 74 delete 78 display 77 edit 78 restore 79 delete VME settings 78 dimensions 117 display VME settings 77 E edit VME settings 78 environmental specifications 117 ESD precautions 21 Ethernet interface 10 100Mb 52 Gigabit 51 evaluating thermal performance 119 expansion memory 57 F features hardware 46 firmware package help 70 firmware tests 64 firmware utilities 64 Flash memory 51 G Gigabit Ethernet 51 GT 64260B 48 CPU bus interface 48 DMA controller 50 I2C serial interface devices 49 interrupt controller 49 memory controller interface 48 57 timers 50 H hardware features 46 hardware preparations 22 headers setting 22 heatsink machining 124 help command MOTLoad 73 humidity 117 indicators 44 install RAM5500 33 installation completing 43 installing PCI mezzanine cards 35 PMC
95. nt Components Max Allowable Component Reference Temperature deg Measurement Designator Generic Description C Location U2 U3 Flash soldered 85 Ambient U16 Gigabit Ethernet 119 Case U22 System controller 110 Case U24 MPC7457 processor 103 Case U25 VME to PCI bridge 70 Ambient U27 Clock buffer 95 Case U31 PCI bridge 70 Ambient U41 43 U45 SDRAM 85 Case 47 U54 56 U60 62 U64 66 U67 69 U123 124 L3 Cache 115 Case 120 MVME55006E Single Board Computer Installation and Use 6806800A37H Thermal Validation FigureB 1 Thermally Significant Components Secondary Side o 2 4203 0203 MVME55006E Single Board Computer Installation and Use 6806800A37H 121 Thermal Validation Figure B 2 Thermally Significant Components Primary Side 6050009905 9888888888 qa U19 88 U16 Ue J102 J110 XU1 J102 J110 54 3 U18 U27 017 0129 4
96. ntained EMC Results pending testing 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 131 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 the
97. oad Firmware Package User s Manual listed in Appendix C Related Documentation remote start allows the user to obtain information about the target board download code and or data modify memory on the target and execute a downloaded program These transactions occur across the VMEbus in the case ofthe MVME5500 MOTLoad uses one of four mailboxes in the Universe Il 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 CR CSR space for a board in the 1st slot will start at 0x0008 0000 CSR space for a board in the 2nd slot will start at 0x0010 0000 CSR space for a board in the 3rd slot will start at 0x0018 0000 CR CSR space for a board in the 4th slot will start at 0x0020 0000 MVME55006E Single Board Computer Installation and Use 6806800A37H 79 MOTLoad Firmware CR CSR space for a board in the 5th slot will start at 0x0028 0000 CR CSR space for a board in the 6th slot will start at 0x0030 0000 R CSR space for a board in the 7th slot will start at 0x0038 0000 R CSR space for a board in the 8th slot will start at 0x0040 0000 R CSR space for a board in the 9th slot will start at 0 0048 0000 R CSR space for a board in the ath slot will start at 0x0050 0000 CR CSR space for a board in the bt
98. on Beyond that MOTLoad utilities MOTLoad tests are distinctly different MVME55006E Single Board Computer Installation and Use 6806800A37H 63 MOTLoad Firmware 4 3 1 4 3 2 Utilities The definition of a utility application is very broad Simply stated it is considered 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 Operationally MOTLoad utility applications differ from MOTLoad test applications in several ways e 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 A MOTLoad 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 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 interactio
99. on and Installation 0 cece cece cece cece eee eee 19 LI OVENI EW PTS 19 1 2 Introduction i rrr een 19 1 3 Declaration of Conformity cece cece een He hme 19 1 4 Getting Started ror tose bees RUE OPER ie ee a 20 1 5 Overview of Startup Procedures 20 16 Unpacking Guidelines PER Eher AR DEN rn 20 1 7 Configuring the Hardware mee 21 1 7 1 Configuring the Board ccc cece me 22 1 7 2 Ethernet 2 PMC SBC Mode and P2 I O Selection Headers J6 J7 J28 32 34 J97 J110 25 17 2 Ethernet arena Be a 25 1 7 2 2 PMC SBC Mode Selection 25 1 7 2 3 P21 O Selection tmt Ee merde 26 1 7 3 Flash Boot Bank Select Header J8 00 c cece cece ence eee e ne e 28 1 7 4 Flash 0 Programming Enable Switch 53 1 29 1 7 5 Safe Start ENV Switch 55 1 en 29 1 7 6 Flash 0 Block Write Protect Switch S3 2 0 cece cece cnet e eee ne en 30 1 7 7 SROM Initialization Enable Switch 55 2 30 1 7 8 PCI Bus 0 0 Speed Switch 4 1 eee cece eee eee II 31 1 7 9 VME SCON Select Header 27 c cece cece eee teen eens 31 1 7 10 PCI Bus 1 0 Speed Switch S4 2 lesse 32 1 7 11 EEPROM Write Protect Switch S3 3
100. or a configuration limitation Flash Boot Bank Select Header Boots from Flash 0 Boots from Flash 0 No jumper installed 1 2 2 3 Boots from Flash 1 Flash 0 Programming OFF Disables Flash 0 writes Enable Header ON Enables Flash 0 writes S5 1 Safe Start ENV Header OFF Normal ENV settings used during boot ON Safe ENV settings used during boot 22 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation Table 1 2 MVME5500 Jumper Settings continued Jumpers Switches Function Settings Flash 0 Block Write Protect OFF Disables Flash 0 3 block writes Header Enables Flash 0 3 block writes ON Non Standard Option OFF For factory use only Header SROM Initialization Enable OFF Enables SROM initialization Switch ON Disables SROM initialization PCI Bus 0 0 Speed Header OFF PMC board controls whether the bus runs at 33 MHz or 66 MHz Forces PCI bus 0 0 to remain at ON 33MHz VME SCON Select Header No jumper installed Always SCON 1 2 No SCON 2 3 Auto SCON 128 32 PMC SBC Mode Selection 1 2 on both PMC mode Headers 2 3 on both SBC IPMC761 mode set both jumpers Refer to PMC SBC Mode SBC IPMC712 mode notice about configuring 2 3 on 32 for IPMC mode PCI Bus 1 0 Speed Header OFF PMC board controls whether the bus runs at 33 MHz or 66 MHz Forces PCI bus 1 0 to remain at ON 33 MHz EEPROM Write Protect OFF Disables EE
101. pecifications you should evaluate the thermal performance of the board in your application This appendix provides systems integrators with information which can be used to conduct thermal evaluations of the board in their specific system configuration It identifies thermally significant components and lists the corresponding maximum allowable component operating temperatures It also provides example procedures for component level temperature measurements B 2 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 B 2 and Figure B 1 Versions of the board that are not fully populated may not contain some of these components MVME55006E Single Board Computer Installation and Use 6806800A37H 119 Thermal Validation The preferred measurement location for a component may be junction case or air 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 B 1 Thermally Significa
102. product Cabling and Connectors Product Damage RJ 45 connectors on modules are either twisted pair Ethernet TPE or E1 T1 1 network interfaces Connecting an E1 T1 1 line to an Ethernet connector may damage your system e 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 e 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 133 Safety Notes Battery 134 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 R
103. r 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 67 MOTLoad Firmware Table 4 1 MOTLoad Commands continued Command Description 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 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 Header Register pciDataWr Write PCI Device Configuration Header Register pciDump Dump PCI Device Configuration Header Register pcishow Display PCI Device Co
104. ragen 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 Zeiteinstellungen m glicherweise erhalten MVME55006E Single Board Computer Installation and Use 6806800A37H 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 139 Sicherheitshinweise 140 MVME55006E Single Board Computer I
105. re is no moisture on any surface before applying power Damage of Circuits Electrostatic discharge and incorrect installation and removal can damage circuits or shorten its 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 setting of switches which are not marked as reserved has to be checked and changed before board installation 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 132 MVME55006E Single Board Computer Installation and Use 6806800A37H Safety Notes 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 of the 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
106. rocessor consists of a processor core an internal 256KB L2 and an internal L3 tag and controller which supports a backside L3 cache L3 Cache The MVME5500 uses two 8Mb SDR synchronous SRAM devices for the processor s L3 cache data SRAM This gives the processor a total of 2MB of L3 cache These SRAM devices require a 3 3V core voltage The MVME5500 provides 2 5V as the SRAM I O voltage The L3 bus operates at 200 MHz MVME55006E Single Board Computer Installation and Use 6806800A37H 47 Functional Description 2 6 2 6 1 2 6 2 System Controller The GT 64260B system controller for PowerPC architecture processors is a single chip solution that provides the following features A64 bit interface to the CPU bus A64 bit SDRAM interface A 32 bit generic device interface for Flash etc e Two 64 bit 66 MHz PCI bus interfaces e Three 10 100Mb Ethernet MAC ports two ports not used ADMA engine for moving data between the buses e Aninterrupt controller e Anl2C device controller PowerPC bus arbiter Counter timers e Watchdog timer Each ofthe device buses are de coupled from each other enabling concurrent operation ofthe CPU bus PCI buses and access to SDRAM Refer to the GT 64260B System Controller for PowerPC Processors Data Sheet listed in Appendix C Related Documentation for more details CPU Bus Interface The GT 64260B supports MPX or 60x bus mode operation The MVME5500 board has
107. ry mezzanine card cannot be used because the PMC module covers the memory mezzanine connector Table 1 3 MVME5500 Connectors Connector Function Ji COM1 front panel connector J2 Dual 1000 100 10BaseT front panel connectors 13 IPMC connector expansion connector 5 CPU COP connector J11 J12 113 J14 PMC 1 connectors J18 Boundary scan connector J21 J22 J23 J24 PMC 2 connectors 133 COM2 planar connector P1 P2 VME rear panel connectors P4 Memory expansion connector 1 10 2 Completing the Installation Verify that hardwareis installed and the power peripheral cables connected are appropriate for your system configuration Replace the chassis or system cover reconnect the system to the AC or DC power source and turn the equipment power on 1 11 Startup and Operation This section gives you information about e Thepower up procedure e Switches and indicators MVME55006E Single Board Computer Installation and Use 6806800A37H 43 Hardware Preparation and Installation 1 12 44 Applying Power After you verify that all necessary hardware preparation is complete and all connections are made correctly you can apply power to the system When you are ready to apply power to the MVME5500 e Verify that the chassis power supply voltage setting matches the voltage present in the country of use if the power supply in your system is not auto sensing e On poweri
108. span 37 primary PMCspan 37 MVME55006E Single Board Computer Installation and Use 6806800A37H 141 Index J jumper settings 22 25 32 L L3 cache 47 LEDs board fail 44 CPU bus activity 44 LFM 117 list of commands MOTLoad 65 M memory Flash 51 system 51 memory expansion module 57 features 57 installation 33 programming issues 62 MOTLoad command characteristics 71 command line help 73 command line interface 70 command line rules 72 command types 63 command versus test 64 commands 65 described 63 how employed 63 interface 70 memory requirements 63 prompt explained 71 test applications 64 test suites 65 tests described 64 utilities 64 MPC7455 processor 47 N NVRAM 54 operating temperatures maximum 119 142 P P1 connector 59 PCI bus arbitration 53 PCI IDSEL signal 52 PCI local bus devices 51 PCI to PCI bridge 52 physical dimensions 117 PMC expansion connector 55 PMCsites 33 52 power requirements 117 power apply 44 primary PMCspan installing 37 R RAM5500 57 features 57 installation 33 Piconnector 59 programming issues 62 real time clock RTC 54 relative humidity 117 reset sources of 54 restore VME settings 79 S serial ports 53 serial presence detect 62 settings VME 74 signalling voltage Vio 33 sources of reset 54 specifications 117 SROM RAM5500 58 startup overview 20 switch abort reset 44 system controller 48 CPU bus interface 48 DMA contro
109. t 33 MHz rather than the standard method of allowing the PMC board to control whether the bus runs at 33 MHz or 66 MHz Set to 1 it allows the PMC board to choose the PCI 0 0 bus speed Set to ON forces PCI bus 0 0 to run at 33 MHz Figure 1 10 54 1 Settings S4 1 1 ON 1 IT ON 2 2 PMC board controls Force PCI bus 0 0 PCI 0 0 bus speed to run at 33 MHz factory configuration 1 7 9 VME SCON Select Header 27 A 3 pin planar header allows the choice for auto enable disable SCON VME configuration A jumper installed across pins 1 2 configures for SCON disabled A jumper installed across pins 2 3 configures for auto SCON No jumper installed configures for SCON always enabled Figure 1 11 27 Settings J27 J27 J27 3 3 Always SCON No SCON Auto SCON factory configuration MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 1 7 10 PCI Bus 1 0 Speed Switch S4 2 1 7 11 This switch can force PCI bus 1 0 to run at 33 MHz ratherthan the standard method of allowing the PMC board to control whether the bus runs at 33 MHz or66 MHz Setto 1 it allows the PMC board to choose the PCI 1 0 bus speed Set to ON forces PCI bus 1 0 to run at 33 MHz Figure 1 12 54 2 Settings S4 2 1 ON 1 ON 2 m 2 E PMC board controls For
110. t as shown in Figure 1 17 and place it with connectors Pl and P2 facing you 40 MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation Remove four screws Phillips type from the standoffs in each corner of the primary PCI expansion module Attach the four standoffs from the PMCspanx6E 010 mounting kit to the PMCspanx6E 002 by screwing the threaded male portion of the standoffs in the locations where the screws were removed in the previous step Place the PMCspanx6E 010 on top of the PMCspanx6E 002 Align the mounting holes in each cornerto the standoffs and align PMCspanx6E 010 connector P3 with PMCspanx6E 002 connector 3 Gently press the two PMCspan modules together and verify that P3 is fully seated in J3 Insertthe four screws Phillips type through the holes at the corners of PMCspanx6E 010 and into the standoffs on the primary PMCspanx6E 002 Tighten screws securely The screws have two different head diameters Use the screws with the smaller heads on the standoffs next to VMEbus connectors P1 and P2 You are now ready to install the module into the VME chassis Follow the procedure Installing the Board on page 41 Installing the Board Procedure Use the following steps to install the MVME5500 into your computer chassis Attach an ESD strap to your wrist Attach the other end of the ESD strap to electrical ground refer to Unpacking Gu
111. tem Memory System memory for the MVME5500 is provided by one to four banks of ECC synchronous DRAM in two banks During system initialization the firmware determines the presence and configuration of each memory bank installed by reading the contents of the serial presence detection SPD EEPROM on the board and another one on the expansion memory module The system firmware then initializes the GT 64260B memory controller for proper operation based on the contents of the serial presence detection EEPROM Ifa PMC module is plugged into PMC slot 1 the memory mezzanine card cannot be used because the PMC module covers the memory mezzanine connector PCI Local Buses and Devices The GT 64260B on the MVME5500 provides two independent 64 bit 33 66 MHz PCI buses The GT 64260B documentation refers to these buses as PCI Bus 0 and PCI Bus 1 The devices on Bus 1 are the GT 64260B PCI bridge 1 one 32 64 bit PMC slot and an 82545GM LAN device The devices on Bus 0 are the GT 64260B PCI bridge 0 one 32 64 bit PMC slot and a HiNT PCI 6154 PCI to PCI bridge For the purpose of this document Bus 1 is also identified as PCI Bus 1 0 and Bus O is also identified as PCI Bus 0 0 Gigabit Ethernet Interface The MVME5500 provides a Gigabit Ethernet transceiver interface 1000BaseT using an Intel 82545GM integrated Ethernet device Ethernet 1 It also supports 100BaseTX and 10BaseT modes of operation The Ethernet interface is accessed via an industry sta
112. 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 MVME5500 Example MVME5500 gt If an invalid MOTLoad command is entered at the MOTLoad command line prompt MOTLoad displays a message that the command was not found Example MVME5500 gt mytest mytest not found MVME5500 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 MVME5500 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 MVME5500 gt Example MVME5500 gt ver MVME55006E Single Board Computer Installation and Use 6806800A37H 71 MOTLoad Firmware 4 4 1 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 MVME5500 gt If the partial command string cannot be resolved to a single unique command MOTLoad informs the user that the command was ambiguous
113. tings used Safe ENV settings used during boot during boot factory configuration MVME55006E Single Board Computer Installation and Use 6806800A37H 29 Hardware Preparation and Installation 1 7 6 1 7 7 Flash 0 Block Write Protect Switch S3 2 This switch supports the Intel Flash family write protect feature Set to OFF it enables the lock down mechanism Blocks locked down cannot be unlocked with the unlock command The switch must be set to ON in order to override the lock down function and enable blocks to be erased or programmed through software Refer to the Intel 3 Flash data sheet listed in Appendix C Related Documentation for further details Figure 1 8 53 2 Settings S3 2 1 ON 1 ON 2 N 3 2 m 3 3 4 4 Disable Flash 0 J3 Enable Flash 0 J3 block writes block writes factory configuration SROM Initialization Enable Switch S5 2 This switch enables disables the GT 64260B SROM initialization When set to 2 it enables the GT 64260B device initialization via I2C SROM Set to ON disables this initialization sequence Figure 1 9 S5 2 Settings S5 2 1 ON 1 ON 2 2 C E Enable SROM initialization Disable SROM initialization factory configuration MVME55006E Single Board Computer Installation and Use 6806800A37H Hardware Preparation and Installation 1 7 3 Bus 0 0 Speed Switch 54 1 This switch can force PCI bus 0 0 to run a
114. to zeroes and thus disabled VMEbus Slave Image 0 Control 0 20000 Sets VSIO CTLto indicate that this image is enabled write and read posting is enabled program data and supervisory AM coding data width is 32 bits VMEbus A32 address space 64 bit PCI transfers are disabled PCI Lock on RMW cycles are disabled and to transfer into PCI memory space VMEbus Slave Image 0 Base Address Register 00000000 Sets VSIO_BS to define the lower bound of VME addresses to be transferred to the local PCI bus is 0x00000000 VMEbus Slave Image 0 Bound Address Register Local DRAM Size Sets VSIO BD to define that the upper bound of VME addresses to be equal to the size of local DRAM MVME55006E Single Board Computer Installation and Use 6806800A37H 75 MOTLoad Firmware VMEbus Slave Image 0 Translation Offset 00000000 Sets VSIO_TO to define that no translation of the VMEbus address is to occur when transferred to the local PCI bus According to the CHRP map in use by MOTLoad this will result in transfers to local DRAM that is 0 00000000 on the VMEbus is 0x00000000 in local DRAM VMEbus Slave Image 1 7 These images are set to zeroes and thus disabled VMEbus Register Access Image Control Register 00000000 The VRAI_CTL register is disabled VMEbus Register Access Image Base Address Register 00000000 The contents of the VRAI BS register not applicable since the image is disabled PC
115. tor J23 Pin Assignments continued Pin Signal Signal Pin GND 56 GND 62 61 PCI RSVD 63 GND PCI RSVD 64 Table 5 14 PMC 2 Connector 24 Pin Assignments Pin Signal Signal Pin 1 PMC2_1 P2 D1 PMC2 2 P2 Z1 2 Kerzen PMC2_7 P2 D5 PMC2_8 P2 Z5 8 PMC2_9 P2 D6 PMC2_10 P2 D7 10 PMC2_11 P2 Z7 PMC2 12 P2 D8 12 PMC2_13 P2 D9 2_14 2 79 14 19 PMC2_19 P2 D13 PMC2_20 P2 Z13 20 21 PMC2_21 P2 D14 PMC2_22 P2 D15 22 23 PMC2_23 P2 Z15 PMC2_24 P2 D16 24 25 PMC2_25 P2 D17 PMC2_26 P2 Z17 26 27 PMC2_27 P2 D18 PMC2_28 P2 D19 28 3 PMC2_31 P2 D21 PMC2 32 P2 Z21 32 33 PMC2 33 P2 D22 PMC2 34 P2 D23 34 35 PMC2_35 P2 Z23 PMC2_36 P2 D24 36 37 PMC2_37 P2 D25 PMC2_38 P2 Z25 38 98 MVME55006E Single Board Computer Installation and Use 6806800A37H Connector Pin Assignments Table 5 14 PMC 2 Connector J24 Pin Assignments continued Pin Signal Signal Pin 45 PMC2_45 P2 D30 PMC2_46 P2 Z31 46 47 Not Used Not Used 48 49 Not Used Not Used 50 51 Not Used Not Used 52 57 Not Used Not Used 58 59 Not Used Not Used 60 61 Not Used Not Used 62 63 Not Used Not Used 64 5 2 9 Asynchronous Serial Port COM2 Planar Connector 33 A 10 pin 0 100 planar connector provides the interface to a second asynchronous serial debug port The pin assignments for this connec
116. tor are as follows Table 5 15 COM2 Planar Connector J33 Pin Assignments Pin 1 COM2 DCD COM2 DSR COM2 RTS 3 COM2 RX Signal Signal COM2_TX COM2_CTS 7 COM2_DTR COM2_RI 8 9 GND KEY no pin 10 MVME55006E Single Board Computer Installation and Use 6806800A37H 99 Connector Pin Assignments 5 2 10 VMEbus Connectors P1 amp P2 PMC Mode The VME P1 and P2 connectors are 160 pin DINs The P1 connector provides power and VME signals for 24 bit address and 16 bit data The pin assignments for the P1 connector are specified by the VME64 Extension Standard refer to Appendix C Related Documentation for the link to this specification Row B of the P2 connector provides power to the MVME5500 and to the upper eight VMEbus address lines and additional 16 VMEbus data lines Please read the notes belowas they pertain to the P2 connector 1 When J28 is configured for IPMC mode 12V is supplied to P2 pin A30 If there is an incompatible board plugged into this P2 slot damage may occur 2 When J32 is configured for IPMC mode 12V is supplied to P2 pin C7 If there is an incompatible board plugged into this P2 slot damage may occur 3 102 110 should be configured for PMC 2 I O to connect PMC slot 2 user I O from J24 to the P2 connector The pin assignments for the P2 connector are as follows Table 5 16 VME Connector P2 Pin Assignments PMC Mode Pin ROWZ 1 PMC2 2 24 2 GND
117. tric Co All other product or service names are the property of their respective owners 2013 Emerson Electric Co
118. ungen 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 ausgebildetem 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 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 MVME55006E Single Board Computer Installation and Use 6806800A37H 135 Sicherheitshinweise EMV Betrieb 136 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 Richtlinien Abschnitt 15 bzw EN 55022 Klasse A Diese Grenzw
119. verview This chapter contains the following information e Board and accessory preparation and installation instructions ESD precautionary notes Introduction The MVME5500 is a single board computer based on the PowerPC MPC7457 processor and the Marvell GT 64260B host bridge with a dual PCI interface and memory controller On board payload includes two PMC slots two SDRAM banks an expansion connector for two additional banks of SDRAM 8MB boot Flash ROM one 10 100 1000 Ethernet port one 10 100 Ethernet port 32MB expansion Flash ROM two serial ports NVRAM and a real time clock The MVME5500 interfaces to a VMEbus system via its P1 and P2 connectors and contains two IEEE 1386 1 PCI mezzanine card PMC slots The PMC slots are 64 bit and support both front and rear I O Additionally the MVME5500 is user configurable by setting on board jumpers Two O modes are possible PMC mode or SBC mode also called 761 or IPMC mode The SBC mode uses the IPMC712 I O PMC and the MVME712M transition module or the IPMC761 I O PMC and the MVME761 transition module The SBC mode is backwards compatible with the MVME761 transition module and the P2 adapter card excluding I O routing used on the MVME5100 product This mode is accomplished by configuring the on board jumpers and by attaching an IPMC761 PMC in PMC slot 1 Secondary Ethernet is configured to the rear PMC mode is backwards compatible with the MVME5100 and is accomplished by co
120. ww marvell com Intel Corportation http www intel com Intel 82545GM Gigabit Ethernet Controller with Integrated PHY Data 82545GM pdf Sheet LXT971A 10 100Mbit PHY 3 Volt Synchronous Intel StrataFlash Memory 28F640K3 28F640K18 28F128K3 28F128K18 28F256K3 28F256K18 x16 3 Volt Intel StrataFlash Memory 290667 28F128 3A 28F640J3A 28F320 3A 30855103 pdf PCI 6154 HB2 PCI to PCI Bridge Data Book 6154 DataBook v2 0 pdf PLX Technology Inc 870 Maude Avenue Sunnyvale California 94085 http www plxtech com TL16C550C Universal Asynchronous Receiver Transmitter SLLS177E Texas Instruments P O Box 655303 Dallas Texas 75265 http www ti com 3 3V 5V 256Kbit 32Kx8 Timekeeper SRAM M48T37V ST Microelectronics 1000 East Bell Road Phoenix AZ 85022 http www st com stonline 2 Wire Serial CMOS EEPROM AT24C02 Atmel Corporation 24 4 San Jose CA AT24C64 http www atmel com AT24C256 AT24C512 128 MVME55006E Single Board Computer Installation and Use 6806800A37H Related Documentation Table G2 Manufacturers Documents continued Publication Number or Search Document Title and Source Term Universe Il User Manual 8091142 MD300 01 pdf Tundra Semiconductor Corporation CA91C042 http www tundra com C 3 Related Specifications For additional information refer to the following table for related specifications As an additional help a source for the listed docum

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