Home

CPC510 - The wide range of industrial Box

1. DER reddo Fig 2 1 Block diagram of CPG5T0 iie t Re e puer Ong e ve dase Cpu am Fig 2 2 XS6 connector for installation of MIC584 mezzanine board Fig 2 3 USBT USB2 CORFIGCLOIS su e user Ryu PvP EE Ure SUR ET UNES Fig 2 4 DisplayPort CORFIGCEOF xor o eb erae bre RA ee pu ud aee e E Pec Fig 2 5 External view of RJ45 Ethernet 2 Fig 2 6 External view of MicroSD 8 ee es rere res nnne Fig 3 1 Numbering of CPC510 interfaces in the Compact PCI Serial backplane Fig 3 2 Example of standard implementation of Compact PCI Serial system Fig 3 3 Example of multiprocessor system Fig 3 4 Algorithm of the initial system start up from Manual switching off position D3 54 Fig 3 5 Algorithm of system switching off by ejector handle or soft based via 55 Fig 3 6 System switching off algorithm by Power 56 Fig 3 7 Algorithm of system switching on from Soft ON 55 57 Fig 3 8 Backplane SATA interfaces supported by 51
2. Sueded ev ADR 25 2 2 Peculiarities of functional 8 2 000000 26 2 3 System extension possibilities 0 66 000000000000 hehehe 28 24 Peripherals ictor ie e a EA ERN APR RETE EA YER FANE 29 V NEN I 29 2 4 1 1 Watchdog timer iioii eri eee ui ua Lew eee une EE VR eyes 30 242 BINO M 36 2 4 3 Devices local 5 8 92999 37 2 4 4 SEE 37 2 4 4 1 37 2 4 4 2 High speed FRAM memory for storing user 37 2 2 4 2 2 FRAM module 2 2 2 38 2 5 IMC Pm 40 2 5 1 CompactPCI Serial 00600000000 00000 40 2 5 2 Connector for mezzanine board 2 9 40 2 5 3 Keyboard mouse 06 606000000001 EENE EAEAN 41 2 9 4 USB Interfaces stie dG haved Melon 42 ARAD a a E E E N A AA 42 2 5 6 Serial interfaces RS 232 5 485 43 2 5 7 Parallel port 006 660
3. Voltage V Minimum V Maximum V Current consumption MAX V CPCI 45V STBY 4 75 5 25 2 12 11 4 12 6 6 If the supply voltage exceeds the specified limits board functionality cannot be guaranteed The backplane should ensure an optimum allocation of the supply voltages It is recommended to use only those backplanes which should have two power rails for each of the voltages Connection of power lines and backplane should guarantee minimum losses and stable performance capabilities Long feeding lines small section conductors and high resistant connections should be avoided It is recommended to use power supply units with voltage control function It could also require the use of relevant backplane The load supplying capacity should be sufficient for considering possible deviations of electronic component characteristics 7 3 Compliance with safety requirements for CPC510 CPC510 complies with the general safety requirements for information technology equipment as defined in IEC 60950 2002 standard for the equipment connected to electric mains voltage up to 600V 7 4 Operating conditions IDevice ensures safe operation in case of the following climatic and mechanical effects CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 77 510 CPU Board Fastwel XE Specification Table 7 2 Parameters of the climatic and mechanical parameters CPC510 Type of effect
4. 20002000000000 81 Ao CompactPCI connector of MIC590 Gard aso oid lus a 83 ANNEX 84 B Useful Abbreviations Acronyms and 21 00 0 84 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 Fastwel 7 List of tables Table 1 1 CPC510 hardware 15 Table 2 1 Interface modules used for improvement of CPC510 I O functionalities 28 Table 2 2 Addresses of SMBus devices Table 2 3 Purpose of the XS6 connector s contacts for installation of MIC584 Table 2 4 Purpose of USB1 and USB2 connector contacts located on the front panel of 510 42 Table 2 4 1 Purpose of DisplayPort connector 43 Table 2 5 Purpose of Gigabit Ethernet connector 45 Table 2 6 Designation and functions of LEDs of 510 eene rene 47 Table 2 7 GP LED configuration and control registers P HH 47 Table 2 8 Designation of LED register control bits 49 Table 2 9 Combinations of GP indicator s control m 49 Tab
5. a 10 MANUFACTURER S 000202 11 Warranty EE PERRA ESSET Hebr MEUS 11 Liability Limitation ose esee oe eere me eh nae tne mde be anon eens sods 11 Warranty Period iro e dn 11 Limitation of warranty liabilities nnne nen 11 Returning a product for 2 2 2 1 6000 00000000 seems he eene nnne 11 1 INTRODUGCTION rere AE 12 BEO UID PER 12 1 2 Technical characteristics exero an pete xu nah Manet kir ente rU METRO xd 13 1 3 CPC510 hardware nennen nennen nnns 15 1 4 Delivery Checklist tas Sec lag Dea etes ege c rd UR Ee 17 ES 17 1 6 External view and nenne 18 1 6 1 External view of 510 18 1 6 2 Layout of main 19 1 6 3 Front panel De 23 2 SPECIFICATIONS oiii Io EUH piu Fes arene RARE E Ue veneers 25 2 1 Block diagram isse Ede ee ERR HER Rame ERE veh Re RENE ERES
6. Weight of the packed boards CPC510 01 0 9 in kg no more than CPC510 02 1 05 Note Retain all original packaging at least until the warranty period is over You may need it for shipments or for storage of the product CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 17 510 Fastwel 7 Specification 1 6 External view and element layout The following figures will help to identify components understand their relationship and functions The versions might have some insignificant variations not shown on diagrams and photos 1 6 1 External view of CPC510 Fig 1 2 External view of CPC510 01with the installed heat sink R1 External view of the board versions might have some variations from the one shown on the Figure The Figure shows CPC510 01 version with the installed heat sink R1 4HP CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 18 510 Fastwel 7 Specification 1 6 2 Layout of main components Fig 1 3 Layout of main components of CPC510 top view m il E rx 4 m m eren COLE External view of the board versions might have some variations from the one shown the Figure This figure shows the top side of CPC510 Heat sink is not shown CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 19 510 Fastwel 7 Specification
7. By entering any figure in the port 80h the mode is switched on in Timer Init Register By writing or reading using addresses in two windows basic window addresses are specified in the relevant registers Window Base Address address mask is specified in the register Windows 1 amp 2 Address mask register the mode is selected in Timer Init Register Window size is from 1 to 16 byte depending on the value in the mask register Access to watchdog timer registers Device configuration is based on Plug and Play architecture Registers of the watchdog timer can be accessed via standard I O registers index and data when entering the configuration mode CONFIG PORT 302h Write INDEX PORT 302h Read Write DATA PORT 303h Read Write Configuration mode The device enters the configuration mode when the following configuration key is written in the CONFIG PORT Configuration key lt 46 gt lt 57 gt Device exits the configuration mode when the following configuration key is written in the CONFIG PORT Configuration key lt 57h gt lt 46h gt INDEX and DATA ports are available only in configuration mode Device programming Sequence of operations during device programming CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 30 510 Fastwel XE Specification Enter configuration mode MOV DX 302H MOV AL 46H OUT DX AL MOV AL 57H OUT DX AL Write LDN to the r
8. Fastwel 7 2 6 2 LED register initialization Sequence of operations at the time of device initialization Enter the configuration mode MOV DX 302H MOV AL 46H OUT DX AL MOV AL 57H OUT DX AL Write an LDN of the register to the register LED register has a logical number 5 MOV DX 302H MOV AL 7 OUT DX AL MOV DX 303H MOV AL 5 OUT DX AL Set the base device number in the field e g 31dh MOV DX 302H MOV AL 60H OUT DX AL MOV DX 303H MOV AL 3H OUT DX AL MOV DX 302H MOV AL 61H OUT DX AL MOV DX 303H MOV AL 1dH OUT DX AL Activate the device MOV DX 302H MOV AL 30H OUT DX AL MOV DX 303H MOV AL 1H OUT DX AL Exit the configuration mode MOV DX 302H MOV AL 57H OUT DX AL MOV AL 46H OUT DX AL Specification CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 48 510 Fastwel Specification 2 6 2 1 Designation of separate bits of the LED register Designation of separate bits of the LED control register is shown in the table below Table 2 8 Designation of LED register control bits Redundant bits Read as 0 GP red GP red GP green GP green LED LED LED LED Bit1 Bito Bit1 Bito GP is a two color LED indicator has two independent read and green light emitting diodes Therefore green red or orange LEDs are available red and green are switched on simultaneously depending on the combination of activated dio
9. Exit the configuration mode MOV DX 302H MOV AL 57H OUT DX AL MOV AL 46H OUT DX AL Further operation with FRAM is in field by the addresses 310h 313h Writing a byte of data 32h to FRAM by the address 144h MOV DX 310H MOV AL 44H OUT DX AL MOV DX 311H MOV AL 01H OUT DX AL MOV DX 312h MOV AL 32h OUT DX AL Writing a byte of data from FRAM by the address 101h MOV DX 310H MOV AL 01H OUT DX AL MOV DX 311H MOV AL 01H OUT DX AL MOV DX 312h IN AL DX Specification CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 39 510 CPU Board Fastwel XE Specification 2 5 Board interfaces 2 5 1 CompactPCI Serial connectors CPC510 is developed in accordance with CompactPCI Serial bus architecture The board uses five connectors of CompactPCI Serial interfaces see Fig 1 3 Location of main components on CPC510 board top view Serial standard enables to use the device under severe operation conditions with the increased number of extension connectors 2 5 2 Connector for mezzanine board installation In order to connector peripherals to the board interface boards are used see Table 2 1 Interface boards used to expand functionalities of CPC510 MIC584 mezzanine board is connected on the right side of CPC510 CPU board to the XS6 connector Connector Socket High Speed 60 pin see Fig 1 3 and Fig 2 2 Description of MIC584 is given in
10. OVH 1305 9882 USB1 GP O STG gt A button programmable Handle Lower fixing screw External view of the board versions might have some variations from the one shown on the Figure CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 23 510 Fastwel 7 Specification Fig 1 10 Front panel of CPC510 02 40 64 mt E N Upper fixing screw 5 v A NS OVH O GP USB2 USB1 O Eth1 B button O Eth2 A button programmable Lower fixing screw External view of the board versions might have some variations from the one shown on the Figure A and B buttons have mechanical functions they are intended for installation de installation of CPC510 board see subparagraphs 4 2 Installation procedure of CPC510 and 4 3 De installation procedure Apart from that A button is a programmable switch designed for manual power off reset if necessary CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 24 Specification Fastwel LE CPC510 CPU Board 2 Specifications 2 1 Block diagram Fig 2 1 Block diagram of CPC510 Front Panel Serial J1 J2 2014Fastwel Ver 1 00 CPC510 3U Compact PCI CPU Board 25 510 CPU Board Fastwel XE Specification 2 2 Peculiarities of functional units Intel IvyBridge CPU Intel 32 bit 2
11. SoM System on a module SSD Solid State Disk TFT Thin Film Transistor TTL Transistor Transistor Logic UART Universal Asynchronous Receiver Transmitter UHCI Universal Host Controller Interface USB Universal Serial Bus UTP Unshielded Twisted Pair CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 86
12. Specification Fig 3 8 Backplane SATA interfaces supported by CPC510 Fat Pipe Fat Pipe SATA SATA SATA SATA SATA System Perip Perip Perip PORTS PORTS PORT2 PORT PORTO Slot 0 Slot 1 Slot 2 Slot 3 6 8 EM PC E PCE x4 Gen2 a 2 Gen 2 Genz SATA 5 4 3 2 1 Intel BD82QM77 installed on board of CPC510 makes it possible to work with both stand alone storage devices and generate the so called RAIDs Operation mode can be set via BIOS menu Advanced SATA Configuration SATA Mode Selection The following versions available AHCI connection of storage devices via Serial ATA protocol IDE connection of storage devices via ATA compatible protocol RAID connection of the storage devices via Serial ATA protocol with a possibility to arrange the storage devices into an array In AHCI mode by default all the storage devices connected to 1 6 ports are available All functions of the Serial ATA protocol are supported NCQ Link Power state etc The transfer speed corresponds to the declared one IDE mode is meant for using in old versions of OS Legacy that do not support Serial ATA protocol This mode supports only the storage devices connected to SATA ports 1 4 Therefore presence of two IDE controllers with four storage devices is simulated In which case the operation speed of SATA storage devices is independent of
13. 00 51 510 Fastwel 7 Specification The power supply unit installed in the sub rack supports the control function but the control signals and standby supply output are not connected In order to implement the control function it is necessary to connect the required signals to the Utility see www schroff biz Fig 3 2 Example of standard implementation of Compact PCI Serial system In addition to operation both as a system host module CPC510 supports operation in peripheral slot as an endpoint The PLX switches installed onboard of the PCI Express PLX module enable to implement nontransparent mode NT mode for one of the downstream ports see Table 5 1 This enables to isolate CPU boards among the boards using PCI Express connections Such a connection makes it possible to build multiprocessor cluster systems In general using a standard 9 slot backplane CPC510 CPU Board in a system slot enables to arrange operation of two CPC510 01 boards with a connection via PCI Express x8 Gen2 bus 40 Gb s and four CPC510 01 boards with a connection via PCI Express x4 Gen2 bus 20 Gb s The rest two peripheral slots can be used for the storage system e g KIC550 Software booting on peripheral CPU boards may be carried out both from the integrated MicroSD memory card and via RIO backplane connector when there is a relevant rear board An example of multiprocessor system implementation is shown on Fig 3 Componen
14. 4 cores CPU is based on the improved Nehalem core with 22 nm technology The CPU is a highly integrated solution combining several CPU cores 2 channel SDRAM DDR3 and DDR3L controller with ECC memory support and 3D 2D graphics adapter The CPU is designed for application in embedded systems and is implemented in BGA package Panther Point PCH Highly integrated interface controller including standard IBM PC AT platform peripherals MEMORY The board have up to 8GB DDR3 SDRAM 1333 1600MHz DDR3L SDRAM 1066 1333MHz soldered BIOS For storing BIOS two SPI bus based 32 Mb Flash microchips are used RTC CMOS Real time clock is integrated into PCH When the power is switched off RTC is powered from a lithium battery installed on the board BIOS Setup settings are stored in FRAM FRAM FM25W256 Nonvolatile memory 256 Kb may be used for storing user data and BIOS SETUP settings MicroSD Bridge USB2241 The board is equipped with MicroSD interface connected to USB 2 0 port Ethernet controller Intel 82580 The board has 2 built in Gigabit Ethernet interfaces 2 ports are routed to the front panel connectors Interfaces are implemented in Intel high speed server controller USB 2 0 The board is equipped with 13 USB 2 0 channels 2x USB2 0 ports are routed to the front panel connectors 2x USB2 0 ports are routed to the mezzanine connector 8x 4 USB2 0 ports are routed to the backplane connector 1
15. DORIL SDRAM 819248 Soldered DORIL SORAM Installed operating system Version Windows 7 Embedded IWin7e 1 CPC510 board with i7 3555LE CPU 2 5 GHz is manufactured for a commercial operating temperature range from 0 to 70 C 2 All CPC510 versions with 2 5 GHz CPUs are manufactured with high profile heat sinks R2 8 HP 3 CPC510 versions with 1 7 GHz CPU for industrial temperature range are manufactured with high profile heat sinks R2 8HP Heat sink R1 is made in 4HP size see Fig 1 2 External view of CPC510 01 with the installed heat sink R1 heat sink R2 is a combined version 4HP 8HP CPC510 02 version see Fig 1 1 includes MIC590 board MIC590 is installed to the left from CPC510 CPU Board MIC590 is designed for extending CPC510 functionalities additional video ports More detailed information on MIC590 is given in the Annex CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 16 510 CPU Board Fastwel XE Specification 1 4 CPC510 delivery checklist The board delivery kit contains CPC510 or CPC510 along with MIC590 board of video PCI bridge functionalities extension Package The following boards will be supplied as an option MIC584 mezzanine board with the extended functionalities KIC550 board Carrier board 2 5 storage device or 2 5 SSD 1 5 Package CPC510 is packed in a box with the following dimensions 350 x 260 x 70 mm
16. Fig 1 4 Layout of CPC510 main components top view External view of the board versions might have some variations from the one shown on the Figure This Figure shows the lower side of CPC510 board As opposed to CPC510 02 version CPC510 01 has no XS8 and XS9 connectors For CPC510 version see Fig 1 1 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 20 510 Fastwel 7 Specification Fig 1 5 CPC510 01 board with the installed heat sink R1 External view of the board versions might have some variations from the one shown on the Figure Heat sink with a profile increased for the purpose of heat removal improvement no more than 15 2 mm from the board level makes no obstacles for the board use in CompactPCI sub rack CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 21 510 Fastwel 7 Specification Fig 1 6 CPC510 01 Board with the installed heat sink R2 8HP iss E 1 4064 E 3 an T rr External view of the board versions might have some variations from the one shown on the Figure CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 22 510 Fastwel 7 Specification 1 6 3 Front panel Fig 1 9 Front panel of CPC510 01 Upper fixing screw PE
17. I O channels 2 GB s Ethernet controllers 2x routed to the front panel 12x USB 2 0 ports supporting HS FS and LS data rates 2x on the front panel 2x on the mezzanine 8x on the backplane connector 4x USB 3 0 ports routed to the backplane connector 6x SATA ports 4x ports are routed to the backplane connector 1x to the mezzanine board 1 switchable backplane mezzanine board 1x DisplayPort routed to MIC590 board to the front panel of CPC510 02 1x LVDS routed to MIC590 board 2x DisplayPorts on the front panel HD Audio routed to the mezzanine connector LPC routed to the mezzanine connector CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 12 510 CPU Board Fastwel XE Specification 1 2 Technical characteristics Intel Ivy Bridge CPU with 2 or 4 cores RAM DDR3 SDRAM 1333 1600 MHz or DDR3L SDRAM 1066 1333 MHz with ECC up to 8 GB soldered 2x channels Video output simultaneous output to 3 displays 2x DisplayPort connectors resolution up to 2560x1600 60 Hz routed to the front panel DisplayPort Interface resolution up to 2560x1600 60 Hz routed to MIC590 board to the front panel of CPC510 02 LVDS interface dual channel 25 112 MHz 18 24 bit pixel compatible with ANSI TIA EIA 644 specification routed to MIC590 LVDS connector is located on MIC590 board CPC510 02 version see Fig A 1 LPC bus Routed to the mezzanine connector PCI E b
18. Parameter name Parameter value Document Change of temperatures Low temperature 40 C 0 IEC 60068 2 14 High temperature 85 70 Humidity Relative humidity Up to 80 non IEC 68 2 14 84 condensing Damp heat 55 for Relative humidity Up to 93 IEC 68 2 30 82 coated equipment Sinusoidal vibration Range of frequencies 10 500 IEC 60068 2 6 Hz Acceleration g 5 Single shocks Peak acceleration 100 IEC 60068 2 27 Multiple shocks Peak acceleration 50 IEC 60068 2 29 Number of shocks 1000 For commercial version Note The tested devices comply with the declared mechanical load requirements provided that the followings conditions are met Additional fixing of USB devices is required e g fixing with mastic adhesive 7 5 Cooling system requirements The board should be able to operate within the declared temperature ranges with the forced air cooling as part of its structure The total maximum output dissipated by CPU and South Bridge amounts to 50W In addition to it heat sink removes heat from the network controller and two Express Switches It is recommended to make preliminary thermal calculation of the cooling system Chip Dissipated heat W Maximum temperature IvyBridge CPU 17 25 45 100 PCI E Switch 2x 5 125 Gigabit Ethernet Controller 2 100 PantherPoint PCH 4 5 100 DDR3 1600 8GB ECC 12 Tcase 85 capacity is specified at maximum
19. V XP3 connector bus 32 bit clock frequency of 33 66 MHz Operation mode System Master support for up to seven Bus Mastering devices Support for PCI Local Bus Rev 3 0 specification Support for 3 3V and 5V VIO Left sided location of board makes it possible to connect standard Compact PCI backplane for the creation of hybrid systems PCI Express bus ports x1 transit of PCI Express PCH ports of CPC510 Complies with the PCI Express 1 0a specification CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 79 510 Fastwel Specification Complies with the PICMG 2 30 Compact PCI PluslO Specificaton Allows for a module binding CPC510 MIC590 installation into a hybrid backplane complies with the PICMG 2 30 specification In which case a simultaneous support for four Legacy CompactPCI peripheral devices and three Compact PCI Serial peripheral devices is provided Though SATA and USB interconnects which are parts of the PICMG 2 30 Specification are not available Power supply The MIC590 board power consumption is 2 W without regard to the consumption of the TFT panel and the illumination invertor The maximum power consumption of a TFT panel connected to the MIC590 module is 6 W and that of the illumination circuits is 10 W for Upow 5V or 30 W for Upow 12V The module does not utilize the voltage generated at the Compact PCI backpla
20. connectors They make it possible to connect 3U Compact PCI Serial extension boards with a set of links x1 x2 x4 5 Gb s PCI E x8 interface FAT Pipe PCI E Switch PLX8624 2x PCI E Gen2 x8 channels are routed to J1 and J2 CPCI Serial connectors They make it possible to connect Compact PCI Serial extension boards with a set of links x1 x2 x4 x8 5 Gb s Support of the NON Transparent mode FatPipe 1 port for implementation of multiprocessor systems 4x channel PCI E interface PCH Host 4 x PCI E Gen2 channels are routed to the mezzanine connector on the left side They enable to implement a PCI E bridge to PCI PCI X on MIC590 which will offer an opportunity to create Legacy Serial hybrid systems SPI The interface is implemented in FPGA on LPC bus Supports FRAM memory chip located on the board Maximum clock frequency 25 MHz Audio Support can be implemented via mezzanine Watchdog Hardware reset timer is implemented in FPGA on LPC bus Reset and power supply monitoring CPU reset signal is generated from the following sources supervisor when power supply is switched on Reset button button on the ejector handle of the CPU module Watchdog timer Reset signal of PCI bus in the Slave mode Switches Jumpers The board is equipped with the switches having the following functions see paragraph 5 BIOS Setup reset to default settings Forced selection of the Transparent mode CPC5
21. detecting non operating PSUs both external and integrated into CPC510 board The diagnostics results are indicated in accordance with the number of SYS red LED CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 54 510 CPU Board Fastwel 7 Specification flashes After diagnostics the main power supply from CPU board is switched off and only LED indication system will operate Final system switching off both CPU board and peripheral modules is possible only for power supply units supporting control of the relevant setting in BIOS menu only CPC510 board can be switched off if necessary If PSU doesn t support the control function only CPU board will be switched off S5 mode The switching off procedure can be activated by the ejector handle button if the relevant settings have been made in BIOS menu programmable switching off is via ACPI OC see Fig 3 5 or Power Button see Fig 3 6 Fig 3 5 Algorithm of system soft off System is OFF 50 state Vsup 12V Vstby 5 Blue SYS LEd is OFF m m of the ejector handle button status Is hte button pressed Is it permitted to process the button state Check for switching off signal availability 55 from PSU switching The button is off by PS_ON Yes pressed for more signal than 4 seconds System is OFF S5 state Vsup 0V Vstby 5 Blue SYS LED is ON x CPC510 3U Compact PCI CPU
22. frequency and maximum CPU load The maximum crystal die temperature is specified before SpeedStep is switched on When the temperature rises Tcase 70 CPU performance is reduced CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 78 510 CPU Board Fastwel XE Specification Annex A A MIC590 Board A 1 Introduction MIC590 board is designed to be used jointly with CPC510 CPU board and serves to extend basic functions of the specified CPU board MIC590 is intended for the systems used under harsh conditions MIC590 is contained in CPC510 02 CPU board see Fig 1 7 and Fig 1 8 CPC510 versions are shown on Fig 1 1 In terms of design MIC590 is installed to the left from CPC510 CPU board and is fed from the backplane MIC590 board is implemented in 3U Eurocard format The board has the following structure of I O channels 32 bit PCI PCI X Bus clock frequency of 33 66 MHz Master mode Support for up to seven Bus Mastering devices Display Port interface Dual channel LVDS interface compatible with ANSI TIA EIA 644 specification A 2 MIC590 functional capabilities Video outputs DisplayPort connector resolution up to 2560x1600 60 Hz routed to the front panel Dual channel LVDS interface 25 MHz 112 MHz up to 224 Mpx s switchable between the onboard connector and via RIO backplane Support for TFT panel power control with the supply voltage of 3 3 V and lighting circuits of 5 V or 12
23. mezzanine connector 8x 4x 05 2 0 ports are routed to the backplane connector 1x USB2 0 port is used for implementation of MicroSD interface USB3 0 ports are routed to the backplane connectors when using USB 3 0 4x USB 2 0 ports are utilized by USB 3 0 ports FRAM 32 KB where 1 KB is intended for Bios Setup settings implemented with SPI FPGA bus Real time clock Supplied by CR2032 3 B lithium battery Audio HD Audio interface routed to the mezzanine connector Watchdog timer Internal with a possibility of programmed control SGPIO interface Support for signaling according to the SFF 8485 Specification Hardware monitor Implemented via SMBUS interface Monitoring of three supply voltages Monitoring of the CPU temperature Monitoring of the PCB temperature Indication Board Startup Diagnostics LED Hot Swapping LED SATA Drives Access LED Temperature state LED PCI Express Interconnections state LED Two software controlled LEDs user defined OS Compatibility Windows 7 Linux 2 6 Power Requirements Power voltage 12V 5V STBY optional Operating temperature range Industrial Modification from 40 to 85 Commercial Modification from 0 C to 70 C Humidity Up to 8096 non condensing Vibration Single shock resistance 5g 100g MTBF No less than 100 000 hours CPC510 3U Compact PCI
24. modes 10Base T 100Base TX and 1000Base T Fig 2 5 External view of RJ45 Ethernet connector Act Link Front panel of CPC510 is equipped with 2 Gigabit Ethernet ports 8 1 510 30 Compact PCI CPU Board 2014Fastwel Ver 1 00 44 510 Fastwel 2 Specification 2 5 8 1 Purpose of RJ45 connector contacts RJ45 connectors enable to use 10Base T 100Base TX and 1000Base T interfaces from the front panel Table 2 5 Purpose of Gigabit Ethernet connector contacts 1 TX O TX 2 TX DA 3 RX RX BI_DB 4 BI_DC 5 BI DC 6 RX BI DB 7 BI_DD 8 BI DD 2 5 8 2 Status LEDs of Ethernet channel The green Line LED is on if the line is connected The green Act LED is on if PC receives and transfers packages via RJ45 connector 2 5 9 MicroSD connector CPC510 is equipped with XS10 connector that supports MicroSDHC cards The MicroSD interface is transmitted to the internal USB 2 0 port MicroSDHC has a storage capacity up to 64 GB Below you can see an external view of MicroSD connector with the installed memory card Fig 2 6 External view of MicroSD connector MicroSD connector with the installed memory n XS10 510 Compact PCI CPU Board 2014Fastwel Ver 1 00 45 510 CPU Bo
25. supply 600060000000 rennen nnns 63 3 2 2 Peculiarities of data storage system 63 3 2 3 Using CPC510 01 as additional computing 2 9 64 3 3 Extended hybrid Compact PCI Serial 65 3 4 Additional features of 510 66 4 INSTALLATION rettet UE 67 4 1 Safety requiremehnls En ettet nee rae bebe dat 67 4 2 Installation procedure 510 2 2 0000 006000 660000000 68 4 3 Board 2 1 1 0 060000000000 nnn nsns 69 4 4 Installation of CPC510 peripheral 2 2 20 0 0 0000000 70 4 4 1 Installation of MicroSD memory enne nenne 70 4 4 2 Connection of USB 99 nsns nee 70 4 4 3 Battery replacement esee eine hne EEE nane nra ru ERKEN naa 71 4 5 Installation of MIC584 mezzanine 0 00 02 0 2 00 0000 eene 71 4446 Installation of SOWAT 71 5 SYSTEM SETTINGS ists re seo e toy
26. the simulated UDMA mode and can reach up to 3 Gb s Hardware of BD82QM 77 controller Rapid Storage Technology enables to build data storage array using the storage devices connected to SATA ports RAID building available options RAID 0 Striping This version makes it possible to write read simultaneously to all RAID discs support up to 6 storage devices therefore increasing the storage system performance by several times In which case the total array capacity will be equal to the double volume of array disc with CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 58 510 Fastwel XE Specification the minimum capacity In which case fault tolerance remains at a low level RAID O Disk O Disk 1 RAID 1 Mirroring This RAID type enables to improve data storage reliability via mirror writing of data to the second array disc Performance of the information storage system in this case is lower and general RAID volume is equal to the one of RAID disc which has minimum capacity RAID 1 Disk O Disk 1 e RAID 10 is a nested RAID system combination of RAID 1 and RAID 0 The combination is known as a stripe of mirrors which provides serial data writing to several discs as in RAID 0 This architecture represents an array similar to RAID 0 where the segments are not separate discs but RAID 1 arrays RAID 10 requires a minimum of four SATA drives CPC510 3U Compact PCI CPU Board 20
27. 0 58 Fig 3 9 Installation of CPC510 02 into two meme 62 Fig 3 10 Example of system generation on the basis of PICMG 2 30 backplane Plus I O and CPC510 02 CPU DOAN EET 63 Fig 3 11 Example of PICMG 2 30 system generation with the main CPC506 03 CPU board and additional on board CPC510 01 computing 64 Fig 3 12 Example of the assembled backplanes the extended hybrid 65 Fig 5 1 Switch of SA1 operating mode of CPC510 Fig A 1 MIC590 board side that faces CPC510 Fig A 2 Block diagram of 590 ru md ree epu eed dna dee tne Pa RU eats Eras epu bye Fig A 3 J1 and J2 CompactPCI All information in this document is provided for reference only with no warranty of its suitability for any specific purpose This information has been thoroughly checked and is believed to be entirely reliable and consistent with the product that it describes However Fastwel accepts no responsibility for inaccuracies omissions or their consequences as well as liability arising from the use or application of any product or example described in this document Fastwel Co Ltd reserves the right to change modify and improve this document or the products described in it at Fastwel s discretion without further notice Software described in this document is provided
28. 000000000 44 2 5 8 Gigabit Ethernet 2 0 2 1 0 60000000000 hehehe eee 44 2 5 8 1 Purpose of RJ45 connector 2 2 9 92 45 2 5 8 2 Status LEDs of Ethernet channel sess 45 2 5 9 MicroSD EEE EEE 45 2 5 10 SATA 1 4 2 4 00 4000060 0000600 ASEENA EARE een 46 2 5 11 HD high definition 606000000000 nehmen nnn 46 26 PED Ep 47 2 6 1 GP LED configuration and control registers logical device 5 47 2 6 2 LED register 96 9 eene 48 2 6 2 1 Designation of separate bits of the LED 49 3 APPLICATION OF CPC 510 22 22 Ra nu HERR FERA RES EE hoes 50 3 4 Compact PCI Serial Syslem ioi ioter rere teen het ra 50 3 1 1 Board to board connections 9999 50 3 1 2 Interaction with power supply 2 2 2 00 0020000029 00 53 3 1 3 Peculiarities of information storage 57 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification 3 2 Compact PCI Plus 61 3 2 1 Power
29. 10 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 27 510 CPU Board Indication Fastwel Specification User LEDs for start diagnostics and operation of storage devices are routed to the front panel The LEDs are described in subparagraph 2 6 2 3 System extension possibilities In order to connect peripherals to the board especially video audio interfaces and serial ports it is required to use interface modules mezzanines boards MIC584 mezzanine extension board MIC590 mezzanine board included into CPC510 02 see Section A MIC590 board interface module KIC550 for extension of CPU board functionalities see Table 2 1 MIC584 Board contains the following set of interfaces 2xUSB 2 0 2XSATA Audio IN OUT MIC 4 5 232 2xRS 485 e LPT PS 2 keyboard mouse KIC550 Board contains the following set of interfaces 1xUSB 2 0 3 0 2 5 SATA storage device CFast MIC590 board contains the following set of interfaces 1xDisplayPort Dual channel LVDS interface with illumination control PCI E bridge to PCI PCI X Table 2 1 Interface modules used for improvement of CPC510 I O functionalities MIC584 Mezzanine extension module description is given in the User Manual XS6 connector MIC590 the board is installed in CPC510 02 Mezzanine extension board Internal connectors of CPC510 02 KIC550 Interface Module for extension of the CPU board fun
30. 14Fastwel Ver 1 00 59 510 Fastwel 7 Specification RAID 10 Fault tolerant array with duplication and parallel processing 2 RAID 5 This type provides high efficient storage retaining fail safety for 3 or more discs Data blocks and check sums are cyclic written to all the RAID discs Capacity of RAID5 is calculated using the formula n 1 hddsize where n number of discs in RAID and hddsize size of the disc with minimum capacity Operation of recording information to RAID 5 volume requires additional resources and the efficiency falls since additional calculations and write operations but during the reading process as compared to a separate storage device there is time gain since data flows from several array discs can be processed in parallel RAID 5 is good for applications that require large volume of data storage retaining fail safety RAID 5 Disk O Disk 1 Disk 2 Disk 3 More detailed information on operation of RAID based on Intel chipsets can be found in the document Intel Rapid Storage Technology User Guide Hev 1 0 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 60 510 CPU Board Fastwel Specification KIC550 01 or its equivalent can be used as board carrier for SATA storage device If it is used as the storage system of 550 for transferring data it is possible to simultaneously use both SATA and PCI Express interfaces In which case on
31. 510 Fastwel Specification A 5 CompactPCI connector of MIC590 board MIC590 is designed in correspondence with the CompactPCI bus architecture MIC590 Uses two connectors of CompactPCI interface J1 J2 they are numbered in accordance with international specification The standard is electrically identical to the local PCI bus but it had some improvements which make it possible to use them under harsh operating conditions with the increased amount of extension slots Fig 3 J1 42 connectors J2 J1 Note Pinrows F and Z are GND pins On MIC590 connectors are indicated as follows XS3 corresponds to J1 connector of the CompactPCI specification and XS4 corresponds to J2 connector of the CompactPCI 2 30 specification MIC590 connectors XS3 XS4 are indicated as shown on Fog 1 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 83 510 CPU Board Annex B Fastwel Specification B Useful Abbreviations Acronyms and Short cuts Abbreviation Meaning ACPI Advanced Configuration and Power Interface AGP Accelerated Graphics Port AGTL Advanced Gunning Transceiver Logic BIOS Basic Input Output System BMC Baseboard Management Controller CRT display Cathode Ray Tube Display DAC Digital Analog Converter DDR SDRAM Double Data Rate Synchronous Dynamic
32. 6 SATA interface is supported in slots from 8 to 4 and USB 3 0 interfaces in slots from 1 to 4 see Fig 3 1 SATA interface of the slot 4 can be soft switched via the menu of system BIOS switched for being used MIC584 In which case SATA interface will be supported in the 8 to 5 slots When CPC510 02 is used MIC590 occupies a free space guide rails should be installed to the left of the system slot without connecting to the backplane Fig 3 1 Numbering of CPC510 interfaces in the Compact PCI Serial backplane Pipe Fat Pipe System Perip Perip Perip Ferip Penp Perip Perip Slot 0 Slot 1 Slot 2 Slot 3 Slot 4 Slot 5 Slot 6 Slot 7 Slot 8 PClexp USB 2 0 1 2 3 4 6 7 8 USB 3 0 1 2 3 4 SATA 5 4 3 2 1 Fig 3 2 has a picture of implemented standard configuration of Compact PCI Serial system is shown The system shown on Fig 3 2 contains the following components 24579 420 Schroff 4 U 9 slot with rear I O and PSU shielded 19 chassis 300 W CompactPCI CPU board CPC510 02 MIC584 01 mezzanine board G211 Serial Quad Gigabit Ethernet Interface MenMicro G213 3U CompactPCI Serial XMC PMC Carrier with the installed G460 Dual Display Graphics XMC Module with AMD ATI E4690 GPU AdLink 3x 3U modules KIC550 01 CPCI Serial PCIE SATA carrier of storage devices CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1
33. Board Reset function gt is permitted No Procedure of Reset signal generation 2014Fastwel Ver 1 00 55 510 CPU Board Fastwel 7 Fig 3 6 System switching off algorithm by Power Button System is OFF 50 state Vsup 12V Vstby 5V Blue SYS LED is OFF d Check for Power Button state Is the button pressed Button is pressed for more than 4 No System request seconds for button action processing Is change to Switched Off system state permitted System is OFF S5 state Vsup 0V Vstby 5 Blue SYS LED is ON Specification After algorithm execution system or CPC510 CPU board only changes its state to Soft OFF or S5 From the state there are two states available complete shutdown Manual switching off state D3 or on the other hand complete OFF position S0 Change to the 50 position is carried out by pressing the ejector handle button or Power Button see Fig 3 7 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 56 510 Fastwel XE Specification Fig 3 7 Algorithm of system switching on from Soft ON S5 state System is OFF 55 State Vsup 0V Vstby 5 Blue SYS LED is 1 S p Check for the state of ejector state button 15 the button pressed Check for the state of Power Button Is the button pressed PSU switching on by PS
34. C510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 32 510 CPU Board Fastwel TE Specification port base address registers Index 60h 7 0 Base Adress 15 8 Write Read Bits 15 8 of the base address of current logical device Index 60h 7 0 Base Adress 7 0 Write Read Bits 7 0 of the base address of current logical device Primary interrupt select register index 70h Index 70h Bt Names Description 7 4 Not used 3 0 Interrupt_select Write Read 00h Interrupt is switched off 01h IRQ1 02h SMI 03h IRQ3 04h IRQ4 05h IRQ5 06h IRQ6 07h IRQ7 08h IRQ8 interrupt is switched off 09h IRQ9 Oah IRQ10 Obh IRQ1 1 Och IRQ12 Odh IRQ13 interrupt is switched off Oeh IRQ14 interrupt is switched off Ofh IRQ15 interrupt is switched off CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 33 510 CPU Board Timer Init register Fastwel Specification Index 1 7 5 Not used 4 P80E Write Read Counter reset when data is written to port 80h 1 switched on 0 switched off WND2 WR EN Write Read Counter reset with the write cycle to window 2 1 switched on 0 switched off WND2 RD EN Write Read Counter reset with the write cycle to window 2 1 switched on 0 switched off WND1 WR EN Read Write Counter reset with the
35. CPU Board 2014Fastwel Ver 1 00 14 510 Fastwel Ley Specification Weight CPC510 01 with heat sink no more than 550 g CPC510 02 with MIC590 with heat sink no more than 700 g 1 3 CPC510 hardware configurations CPC510 is currently manufactured according to the following table Table 1 1 CPC510 hardware configurations Variable data for the versions ny 1 CPC510 CPU Board AEAN Temperature range There are two except for the module with i72C2 5 CPU types of hardware configurations from 40 to 85 C for industrial operating temperature range from 0 to 70 C for commercial temperature range Configurations with 2 5 GHz CPUs should be equipped with the forced air cooling systems see subparagraph 7 1 3 Board cooling recommendations By using an order sample client may choose a required version see Fig 1 1 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 15 510 Fastwel 7 Specification Fig 1 1 Configuration table of CPC510 CPC510 01 1211 RAM4096 HRH C Conformal coating Version Description Intel i7 3517UE DC 2047 1 7 GHz 1600 MHz MEO 4 17 W BGATO23 CPU Intel i7 3555LE DC 2047 25 GHz 1600 4 MB 25 W BGA1023 CPU Soldered RAM 4098 Soldered
36. ERU FERA 72 5 1 Operating mode 8 2 0 0000 00 nennen 72 5 2 Reset of BIOS to factory settings and switching over to Transparent 72 6 EMT 74 ADDITIONAL 2 1 10 000 9 75 7 1 Temperature mode 75 7 1 1 Passive temperature 1 7 1 2 Heat dissipation by heat sink and system 76 7 1 3 Board cooling recommendations esses eene 76 7 2 Power consumption 510 77 7 3 Compliance with safety requirements for 510 77 7 4 Op rating conditions scie 77 7 5 Cooling system 2 0 00 0000000 enne n sens nnn 78 ANNEX pL 79 nao iate 79 1 PEE 79 A 2 MIC590 functional capabilities sess He 79 External view of MIC590 mezzanine 80 A 4 Functional units of 590
37. Fastwel 4755 Tree M CPC510 3U Compact PCI CPU Board User Manual Revision 1 00 The product described in this manual is compliant with all related CE standards CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel Specification Product Title CPC510 Document name CPC510 User Manual Manual version 1 00 Reference document IMEC 421459 510 Copyright 2012 2013 Fastwel Co Ltd All rights reserved Revision Record 1 00 Initial version CPC510 April 2013 Contact Information Fastwel Co Lid Fastwel Corporation US Address 108 Profsoyuznaya st 55 Washington St 310 Moscow 117437 Brooklyn New York 11201 Russian Federation USA Tel 7 495 232 1681 1 718 554 3686 Fax 7 495 232 1654 1 718 797 0600 E mail info fastwel com sales fastwel com Web http www fastwel com http www fastwel com CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification TABLE OF CONTENTS TRADEMARKS 7 OWNERSHIP RIGHTS 7 2 E 7 2222520 8 TRANSPORTATION UNPACKING AND 10 Ep 10 B aieea 41 2 caged ne dale I 10
38. I 3544 001 4 Port RS 422 485 Isolated Serial Communications Card AdLink CP346 4 Port RS 232 RS 422 485 Serial Communications Card Kontron cPCI 7841 NulPC Dual CAN interface Module AdLink 3U CPCI Serial CPC510 02 CPU board Fastwel MIC584 01 mezzanine board Fastwel 5211 30 Serial Quad Gigabit Ethernet Interface MenMicro KIC550 01 3U CPCI Serial PCIE SATA carried for storage devices Fastwel 3 2 1 Power supply unit PICMG 2 30 standard does not support the function of power supply unit control Therefore CPC510 02 operates with PSU without the control support see subsection 3 1 2 3 2 2 Peculiarities of data storage system implementation As opposed to Compact PCI Serial version when PICMG 2 30 backplane is used SATA interfaces of CPC510 02 remain unavailable In which case in order to store information the following options are suggested MicroSD storage device installed in CPC510 02 SATA interfaces used routed via MIC584 Use KIC550 in PCI Express mode see Fig 3 10 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 63 CPC510 CPU Board Fastwel 4 Specification 3 2 3 Using CPC510 01 as additional computing device If necessary CPC510 01 can be part of PICMG 2 30 system as additional computing device installed into the peripheral Compact PCI Serial connector of PICMG 2 30 backplane In which case depending on the specific type of backplane according to sp
39. Random Access Memory DMA Direct Memory Access DMI Direct Media Interface DVMT Dynamic Video Memory Technology ECC Error Correction Code EEPROM Electrically Erasable Programmable Read Only Memory Enhanced Host Controller Interface Universal Serial Bus specification CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 84 510 CPU Board Fastwel Specification Abbreviation Meaning EIDE Enhanced Integrated Drive Electronics EOS Electrical Overstress ESD Electrostatically Sensitive Device Electrostatic Discharge FSB Frequency System Bus FWH Firmware Hub GMCH Graphics and Memory Controller Hub gt Inter Intergrated Circuit LCD Liquid crystal display LPC Low Pin Count LVDS Low Voltage Differential Signal MDI Media Dependent Interface PC Personal Computer PIO Programmed Input Output PLCC Plastic Leaded Chip Carrier PM Peripheral Management Controller POST Power On Self Test PSB Processor System Bus CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 85 510 CPU Board Fastwel LBs Specification Abbreviation Meaning PWM output Pulse Width Modulation RAMDAC Random Access Memory Digital to Analog Converter RTC Real Time Clock SMB System Management Bus SMBus System Management Bus SODIMM Small Outline Dual In Line Memory Module
40. USB 2 0 type A USB1 and USB2 connectors are to be installed on the front panel 3 EI UE B Table 2 4 Purpose of USB1 and USB2 connector contacts located on the front panel of CPC510 VCC signal Differential USB Differential USB GND signal 2 5 5 DisplayPort DisplayPort connector on the front panel of CPC510 see subparagraph 1 5 3 is designed for the connection of digital displays with the resolution up to 2560x1600 60 Hz The output also enables to connect DVI D monitors via adapter Prototype version does not support this function CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 42 510 Fastwel Ley Specification Fig 2 4 DisplayPort connector DisplayPort D Table 2 4 1 Purpose of DisplayPort connector contacts XS6 DP NEO GND LANEO NE1 N LANE1 LANE2 N LANE2 LANE3 GND conric2 AX 18 He DETECT i gt NEN c ENS NEL m NT 2 5 6 Serial interfaces RS 232 n RS 485 Serial interfaces implemented via LPC interface are available only where MIC584 mezzanine extension board is used see Description of MIC584 given in the relevant User Manual MIC584 is equipped with 6 serial ports COM1 RS232 interface 9 pin D Sub connector on the front panel of MIC584 COM2 COM4 RS232 interfaces routed to 10 pin
41. _ON signal Execution of malfunctio Check for the supply diagnostics algorithm vote ave No Red SYS LED is Vsup 12V flashing is ON gt 50 state Vsup 12V Vstby 5V Blue LED is OFF 3 1 3 Peculiarities of information storage system According to the 1 specification CPC510 supports operation of information storage devices installed into the backplane extension slots see Fig 1 The storage devices are numbered from the rightmost slot see Fig 3 8 As it has been already mentioned CPC510 board can simultaneously support up to six SATA storage devices from 0 to 5 In which case SATA port 5 is permanently rooted for the use on 584 and SATA port 4 be switched between slot 4 of the mezzanine board and SATA interface of MIC584 SATA port 4 can be switched to MIC584 automatically using CPC510 board in the peripheral slot or software based from the BIOS menu By default port 4 is connected to the mezzanine board during installation of CPC510 in the system slot Other SATA ports 0 3 are routed to the Compact PCI Serial mezzanine board The rest of the mezzanine board slots do not support operation with SATA storage devices In terms of speed performance there are ports supporting transfer speeds up to 6 Gb s SATA ports 0 and 1 and ports supporting transfer speeds up to 3 Gb s SATA ports 2 5 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 57 510 Fastwel
42. alfunction 3 GP Two colors red and green Red programmable Green programmable During the start green LED demonstrates the state of the start up process 4 PE Two colors red and green Red communication error over PCI Express interface Green Led steady connection over PCI Express interface Green flashing connection over PCI Express is limited 5 OVH Two colors red and green Red CPU overheating memory and PCH Orange flashing CPU overheating memory and PCH before critical point borderline state Support of the signaling system according to the SFF 8485 specification 2 6 1 GP LED configuration and control registers logical device 5 Table 2 7 GP LED configuration and control registers P 30h R W 00h Activate Bit 0 in 1 module s LED is active Base 0 R W 01h LED data register 3 0 The rest bits are not important and are read as 0 60h R W Base 15 8 I O port base address bits 15 8 61h R W Base 7 0 I O port base address bits 7 0 For operation with GP indicator you ll need to set a base device address and activate it LDN 5 similarly to the watchdog timer or FRAM module Control of GP indicator operation is carried out via the LED register LED is modified in the field regarding the set base address CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 47 510
43. alue Timer Initial Value Register 23 0 Base 3h 7 0 Timer_Initial_Value 7 0 Read Write Bits 7 0 of the counter s initial value Base 4h 7 0 Timer Initial Value 15 8 Read Write Bits 15 8 of the counter s initial value Base 5h 7 0 Timer Initial Value 23 16 Read Write Bits 23 16 of the counter s initial value CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 Fastwel XE Specification Status Register Base 6h 7 3 Redundant 2 STM Read Write Flag of the second timeout Set in 1 provided that TMF 1 and RSTE 1 Reset by writing 17 1 SME Read Flag of SMI generation per timeout If SMI mode is selected in the interrupt register the flag will be set in 1 index 70h 0 TMF Write Read Timeout flag The flag is set into 1 when the timer counter is set to zero In which case an interrupt will be generated for the flag Reset is carried out by writing 1 or writing to 80h port or when windows 1 and 2 are addressed if these modes are switched on Control Register Base 7h 7 2 Redundant 1 CNTE Write Read Counter decrement 1 Switched on 0 Switched off 0 RSTE Read Write Board reset per timeout 1 Reset is allowed 0 Reset is prohibited 2 4 2 Battery CPC510 uses one 3 0 V lithium battery for RTC power supply Please use Panasonic BR2032 or compatible
44. ard see Fig 1 4 Location of major components of CPC510 bottom view A 4 Functional units of MIC590 The block diagram of the device is shown on the following figure Fig A 2 Block diagram of MIC590 PCle ins Clock Buffer PI6C20800 Generator Invertor ICS650R 04 Control LVDS Interface Invertor Control LVDS Interface TFT Panel Connectors Front Panel PICMG 2 30 Extension J2 7 9 110 LVDS Multiplexor 2xPI3L301D Display Port Il LVDS Z Interface E Fg 11 PCI Bus 32 bit 33 66MHz Mezzanine Connectors Display Port The port is designed for connection of a digital display with the DisplayPort interface or for the further conversion to other video standards Maximum resolutions supported 2560x1600 60 Hz One port is routed to the front panel of the board LVDS Port LVDS Multiplexor PI3L301D The port is designed for the connection of a digital TFT panel with dual channel LVDS interface Maximum resolution supported 1600 1200 60 Hz For universal applications both in rear I O systems 32 bit Legacy Compact PCI backplanes and in systems with no rear I O an automatic I O direction selector switch of LVDS interface is provided Direction of LVDS interface output to the RIO is set automatically during installation of RIO board Control circuits of illumination control and power supply sequence are supported CPC510 3U Compact PCI CPU Boar
45. ard Fastwel XE Specification 2 5 10 SATA interface SATA interface RAID 0 1 5 10 support SATA Il interface One interface is permanently routed to the mezzanine connector One interface can be switched between backplane connector and mezzanine connector Two ports are routed to the backplane connector SATA III interface Two interfaces are routed to the backplane connector It should be noted that Fastwel Group manufactures MIC584 in two versions MIC584 01 and MIC584 02 and both of them are compatible with CPC510 Version MIC584 01 is equipped with SATA connectors If a user installs MIC584 02 mezzanine board on CPC510 then CPC510 together with MIC584 02 will be operating properly except for the two SATA channels which will not be implemented Detailed description of MIC584 is given in the User Manual 2 5 11 HD high definition audio Audio interface is implemented on MIC584 mezzanine board Linear Headphones output Microphone output More detailed information is described in the relevant User Manual CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 46 510 CPU Board Fastwel Specification 2 6 LEDs The front panel of CPC510 is equipped with LEDs described in the table below Table 2 6 Designation and functions of LEDs of CPC 510 Description 1 SYS Two colors read and blue Blue Power Off mode Red 2 STG Hardware m
46. batteries see 4 4 3 Battery change The board can function without battery in which case the real time clock will not work CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 36 510 CPU Board Fastwel XE Specification 2 4 3 Devices on local SMBus CPC510 has SMBus System Management Bus which ensures functions of system monitoring and configuration This bus uses 2 wire interface I2C It enables to connect several serial access devices microchips of LM87 hardware monitor memory EEPROM clock signal generator Table 2 2 Addresses of SMBus devices 1 2 Clock signal generator SLG8SP533V 2 0 2 Memory module SPD EEPROM 3 5CH Hardware monitor LM87 PCB amp CPU Sensor 4 4CH Temperature monitor LM95235 RAM Sensor Two temperature monitors control CPU crystal die and memory chips temperature The temperature monitor upon request may provide information to software tools of current system state control which enables operation of the board in the safe temperature mode 2 4 4 Nonvolatile memory 2 4 4 1 MicroSD The board is equipped with XS10 connector for the MicroSDHC type card see Page 1 4 Location of main CPC510 components bottom view MicroSD interface utilizes one of the internal USB 2 0 ports 2 4 4 2 High speed FRAM memory for storing user date The board is equipped with a high speed FRAM memory module 32 KB used to store proprietary information 1 KB used b
47. ctionalities description is given in the User Manual Compact Serial connector CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 28 510 CPU Board Fastwel XE Specification MIC584 is connected from the right side of CPC510 CPU board while MIC590 is installed on the left side One of the major advantages to install modules in such a way is that you don t have to use cable connections which makes it easier to install or de install CPU module from the system enclosure 2 4 Peripherals CPC510 has the following peripherals 2 4 1 Timers CPC510 is equipped with various types of timers RTC Real Time Clock PCH contains real time clock compatible with 146818 with 256 bytes of battery powered C MOS memory The clock has functions of time keeping alarm clock programmable function of intermittent interruption and a calendar for 100 years Counter Timer Similar as with PC AT the module has three 8254 type counters timers integrated to PCH Additional timer PCH includes an additional programmable timer that prevents system blocking during its startup With the first timer overrun signal SMI is generated which calls a subroutine to exit the program hanging of the system If the timer overruns for the second time then a system Reset signal is generated for release the system from hanging Watchdog Timer The watchdog timer is meant to eliminate system blocking both at the tim
48. d 2014Fastwel Ver 1 00 81 510 CPU Board Fastwel XE Specification On MIC590 the LVDS port is routed to the XP1 signal connector of Hirose DF13 30DP 1 25V type XP2 connector of JST B 5B PH KL LF SN type for invertor connection For utilizing LVDS interface on RIO the contacts of UHM S110B3 5AP1 TG30 type connector are used PICMG 2 30 Compact PCI interface PCI E to PCI Bridge PI7C9X110 Compact PCI interface is designed for the connection of Legacy devices corresponding to PICMG 2 0 specification Compact PCI interface is generated via Pericom PCI 55 PI7C9X110 bridge The primary interface is a PCI E Gen1 x1 channel generated on CPC510 The PCI interface enables operation of up to seven 32 bit peripheral Bus Mastering boards with operating frequencies 33 66 MHz PCI Express interface PCI Express interface is designed for the connection of high speed peripheral devices and corresponds to the PCI Express Specification Rev 1 0a 3x PClExpress ports x1 Gen 1 are generated in PCH microchip of CPC510 transit via the MIC590 board routed to the UHM S110B3 5AP1 TG30 type connector and connector pin assignment corresponds to the requirements of PICMG 2 30 specification which enables to implement hybrid system with 3 peripheral boards of the Compact PCI PluslO specification or Compact PCI Serial and 4 peripheral Legacy Compact PCI boards CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 82
49. des Thus an independent programmed control of each LED via the LED register is supported State of each LED is described by two bits The following combinations are supported Table 2 9 Combinations of GP indicator s control bits 0 0 LED is OFF 0 1 LED is flashing with a frequency of 8 Hz 1 0 LED is flashing with a frequency of 1 Hz 1 1 LED is constantly ON CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 49 510 CPU Board Fastwel XE Specification 3 Application of CPC510 CPC510 board is designed for operation as part of the Compact PCI Serial Legacy Compact PCI and hybrid Plus I O systems The board corresponds to 5 0 R1 0 1 and Compact PCI Plus IO R1 0 2 specifications The board is manufactured as two versions CPC510 01 and CPC510 02 CPC510 02 is different because it is equipped with MIC590 Therefore CPC510 02 version is an assembly of two boards with a minimum width of 8HP MIC590 interfaces make it possible to use CPC510 02 in the Compact PCI Plus IO systems or in the systems with Legacy Serial combination Below there are examples of various systems based on CPC510 3 1 Compact PCI Serial system 3 1 1 Board to board connections Compact PCI Serial system is a major area of CPC510 board application since it enables to implement all the advantages of Intel Core both in terms of the processing power and high speed board to board connections According to 1 speci
50. e connector along the guide rails and slightly push on it until the contacts fully fit into the connector Notice We recommend using MicroSD cards formatted on this device Attention While replacing MicroSD card be careful since the cooling heat sink will be hot 4 4 2 Connection of USB devices CPC510 supports the use of any computer peripheral USB devices Plug amp Play e g keyboard mouse printer etc Notice USB devices be connected or disconnected while the power of devices and head system is on CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 70 510 CPU Board Fastwel XE Specification 4 4 3 Battery replacement Replacement of lithium battery requires the same battery or a battery recommended by the manufacturer for replacement The most likely match is Panasonic BR2032 or other compatible batteries Important notice During battery replacement please follow the battery polarity Battery should be replaced with the identical one or the one recommended by manufacturer The used battery should be recycled according to the set standards An expected period of operation of the battery with capacity of 190 mAh is approximately 5 6 years if operated 8 hours a day at the ambient temperature of 30 However battery life strongly depends on operating temperature as well as on how long system appears to be off is recommended to change the battery each 4 5 years of operation before th
51. e end of its service life 4 5 Installation of MIC584 mezzanine board MIC584 is installed into XS6 connector of CPC510 Sequence of MIC584 installation into the CPU board is demonstrated in the User Manual for MIC584 4 6 Installation of software Installation procedure of Ethernet drivers and drivers of all the installed peripheral devices is described in files supplied with the drivers This User Manual does not also contain description of operating system installation procedure Please refer to the documents attached to the operating system CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 71 510 CPU Board Fastwel XE Specification 5 System settings 5 1 Operating mode of PCI Express Operating mode of PCI Express 3 x1 5 2 Reset of BIOS to factory settings and switching over to Transparent mode If the system fails to boot e g due to improper BIOS configuration or incorrect password the setting parameters stored in CMOS can be cleared by SA1 switch located in the top right corner of the board see Fig 1 3 Fig 5 1 Switch of SA1 operating mode of CPC510 ON 12 SA1 enables to perform the following actions Reset BIOS Setup to default settings Forced change of the board to the Transparent mode The switch position is shown in the table Table 5 1 Possible options of CPC510 board configuration using SA1 switch Switch number Switch purpose SA1 switch pos
52. e of its startup and during its operation When the watchdog is actuated Reset signal interruption or SMI are generated Actuation time is set via BIOS Setup menu During the system startup BIOS code execution is controlled by the watchdog timer CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 29 510 CPU Board Fastwel XE Specification 2 4 1 1 Watchdog timer The watchdog is implemented in FPGA as a device based on the LPC bus The watchdog timer consists of 24 digit register of the counter Timer Current Value Register decremented at the frequency of 32 768 kHz and initial value register Timer Initial Value Register When the counter register is set to zero either interruption or NMI or automatic board reset can be generated Response time be set from 0 up to 512 seconds at a pitch of 30 525 Without the preliminary initialization default delay period of the watchdog timer actuation shall amount to a maximum value of 512 seconds Below you can find formula for calculation of the duration of actuation delay TWD us depending on the Timer Initial Value Register KWD TWD us KWD 106 215 E g KWD 1 000001h corresponding to the time of actuation delay 30 52us and the KWD 16777215 FFFFFFh of the delay time which is 512 seconds Counter reset to the initial value can be carried out in a number of different ways By entering any figure in the counter register Timer Current Value Register
53. e of the storage devices installed on KIC550 is available by using SATA and the other one by PCI Express interface via PCI Express SATA bridge installed on KIC550 It is possible to increase a total number of the storage devices by reconfiguring of KIC550 for operation only with PCI Express interface In which case both storage devices on KIC550 become available via Express interface Then the storage devices on KIC550 boards in peripheral slots 8 and 7 will have only SATA interface in slots from 6 to 4 hybrid PCI Express SATA interfaces and in slots 3 to1 only PCI Express interface The backplane slots in which PCI Express interfaces are available supported by CPC510 are shown on Fig 3 8 More detailed information on operation with KIC550 is available on www fastwel com 3 2 Compact PCI Plus I O system Using CPC510 in hybrid system makes it possible in additional peripheral Compact PCI Serial modules to use 32 bit Compact PCI modules For operation with PICMG 2 30 backplane only CPC510 02 version can be used assembly of CPC510 and MIC590 The system based on CPC510 02 CPU board and PICMG 2 30 backplane combines a high performance computing device with Intel Core technology with a wide range of peripheral modules The use of a common backplane makes the system highly compact and reduces a set of the components used Apart from that the CPC510 02 makes it possible to perform a gradual transition from the standard Legacy o
54. ecification 2 the width of PCI Express channel can be varied from x1 to x4 Fig 3 11 Example of PICMG 2 30 system generation with the main CPC506 03 CPU board and additional on board CPC510 01 computing device 2 Fig 3 11 shows an example of such a system Components used in the system left to right 24579 405 shielded 4U 19 chassis 8 slots with rear I O connectors and 300 W power supply unit Schroff cPCI 3544 001 4 Port RS 422 485 Isolated Serial Communications Card AdLink CP 341 Dual Ethernet Module Kontron e CPCI Plus I O CPC506 03 CPU board Fastwel CPCI Serial CPC510 01 CPU board Fastwel MIC584 01 mezzanine board Fastwel 2 X3U boards CPCI Serial PCIE SATA storage device carrier KIC550 01 Fastwel CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 64 510 Fastwel 7 Specification 3 3 Extended hybrid Compact PCI Serial system An extended Compact PCI Serial system is a combination of a full size 9 slot Compact PCI Serial backplane and 8 slot 32 bit Compact PCI backplane Unlike PICMG 2 30 the extended system enables Legacy Compact PCI interface retaining advantages of Compact PCI Serial system The number of slots in each of the backplanes can be reduced depending on the specific requirements to the system All the components participating in the extended hybrid system are standard ones which makes the system less expensive and system tasks les
55. egister watchdog timer has a logical number 1 MOV DX 302H MOV AL 7 OUT DX AL MOV DX 303H MOV AL 1 OUT DX AL Watchdog timer s registers are available for writing and reading E g reading of the 3eh register status and writing its value back MOV DX 302H MOV AL 3EH OUT DX AL MOV DX 303H IN AL DX OUT DX AL Exit the configuration mode MOV DX 302H MOV AL 57H OUT DX AL MOV AL 46H OUT DX AL Global configuration registers 7h R W Oih LDN Logical Device Number register index 7h Index 7h 7 0 LDN Write Read Writing to this register selects the logical device CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 31 510 Fastwel 7 Specification Configuration registers of the logical device 1 WDT Activate Timer current value 7 0 Timer current value 15 8 Timer current value 23 16 Timer initial value 7 0 Timer initial value 15 8 Timer initial value 23 16 Status register Control register Base 15 8 port base address bits 15 8 Base 2 0 should be 0 rc Wow bas ares om Wow vaso ates ST con 4 Window 1 Mask bits 7 4 Window 2 Mask bits 3 0 Activate register Index 30h 7 1 Not used 0 Activate Write Read 1 This logical device is switched on 2 This logical device is switched off CP
56. enclosure Specially developed cooling heat sinks ensure the best basis for stable operation and long term reliability When they are used together with the system enclosure which provides opportunity to control airflow parameters the controlled dissipation of heat energy is guaranteed All CPC510 versions are equipped with the optimally designed cooling heat sinks Their size form and structure ensure the best thermal resistance values Rth Furthermore they are designed for heavy use of the forced air system of enclosures of the modern CompactPCI systems While designing solutions for CPC510 the developer should take into account system thermal performance in general He she should use such system enclosure which meets heat removal requirements During thermal calculations it is required to consider the role of peripheral devices in the general system heat dissipation The peripheral devices in turn should be equipped with thermal performance characteristics corresponding to the operating temperature range of the board and system in general Attention Since Fastwel Group will not be responsible for damages to CPC510 and other equipment caused by CPU overheating system developers and end users are strongly recommended to make sure that peripherals of CPC510 do meet the imposed temperature requirements 7 1 3 Board cooling recommendations For all the boards the forced air cooling function extends the temperatures range where CPU ope
57. fication for the standard 9 slot backplane the system slot can support the following functionalities of board to board connections Up to 2 PCI Express interfaces x8 Fat Pipe Up to 6 PCI Express interfaces x4 Up to 8 USB 2 0 3 0 interfaces Up to 8 SATA interfaces Up to 8 Gigabit Ethernet interfaces In which case each Gigabit Ethernet interface can have a Star or Full Mesh interconnection types Out of the above interfaces CPC510 supports 2x PCI Express interfaces x8 Gen 2 Fat Pipe 4x PCI Express interfaces x4 Gen 2 8x USB 2 0 interfaces 4x USB 3 0 interfaces 5x SATA interfaces A number of the supported interfaces makes it possible to create high efficient and compact scalable systems Apart from that lack of board to board and device to device connections enables to increase reliability and repair capability Standard Compact PCI Serial system includes one CPU module host installed into red system slot System and a set of peripheral units installed into peripheral slots Perip The implemented connection pattern is Star Gigabit Ethernet interface will not be considered since it is not supported by CPC510 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 50 510 Fastwel XE Specification It should be noted that there are less than 8 PCI Express SATA and USB 3 0 interfaces available for CPC510 Therefore PCI Express interface is supported in peripheral slots from 1 to
58. graph related to how to handle high voltages ATTENTION ELECTROSTATIC SENSITIVE DEVICE This symbol and sign informs you that the electronic boards and their components are sensitive to static electricity Therefore it is required to be extra extra cautious when handling and testing it so as to ensure its integrity and working capacity of the device ATTENTION HOT SURFACE This symbol and sign warns you about the danger of touching a hot surface of the device ATTENTION This sign encourages you to pay attention to the Manual s aspects which incomplete understanding and ignoring may pose a danger to your health or could lead to the equipment damages NOTE This sign indicates that there are text fragments which require careful consideration gt 510 30 Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification Safety requirements This product of Fastwel LLC has been developed and tested in order to provide the compliance with the electric safety requirements Its design provides for a longtime failsafe operation The product life cycle can be sufficiently reduced due to its improper use during unpacking and installation process Therefore for the sake of your safety you ll need to comply with the below listed recommendations in order to provide the correct operation of the device HIGH VOLTAGE SAFE HANDLING PROCEDURES ATTENTION All the works with this device should be pe
59. harge from the clothes as well from the tools before using them Do not touch electronic components and connector contacts If your professional workplace has antistatic protection don t neglect to use it CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 67 510 CPU Board Fastwel XE Specification 4 2 Installation procedure of CPC510 In order to install CPC510 to the system follow the below procedure 1 Make sure that the safety requirements specified in the previous chapter are met Attention Non compliance with the following instruction could lead to the board damages and improper operation of the system 2 Before installation make sure that the board has configuration corresponding to application requirements Information on installation of peripheral and I O devices is given in the relevant sections of Chapter 4 Information related to the CPU board installation of MIC584 can be found in the User Manual of MIC584 3 If CPC510 operates with mezzanine board before installing CPC510 into the system connect mezzanine board to the relevant connector of CPC510 see subsections 2 5 2 Connector for mezzanine board and 4 5 Installation of MIC584 mezzanine board Attention The following operations should be performed with care in order to prevent damaging both CPC510 and other system devices 4 For CPC510 installation please do the following Before starting the installation process makes sure that system p
60. he sequence described in section 5 2 When device operates without batteries it is sufficient only to reboot the power supply unit 2 Enhanced SpeedStep when crystal die core temperature exceeds 100 C CPU will be dynamically switched to the low power consumption mode with the reduced operating voltage of the core and intrinsic multiplication factor 3 External temperature monitor LM87 is designed for collecting information on CPU temperature and board surface temperature An additional temperature monitor controls the temperature of memory chips This information could be used by control program in order to take the necessary measures If CPC510 operates under CompactPCI normal operating conditions with the sufficient air circulation there is no need for the temperature control function However in cases where environmental parameters are not the best possible ones for the board based on Intel IvyBridge temperature control functions are activated to ensure operation stability Thermal mode control makes it possible for the developers to create cheap solutions not compromising on system reliability and integrity Attention While carrying out supervisory tasks and performance tasks all thermal control functions should be disabled Otherwise erroneous results can be obtained _ CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 75 510 CPU Board Fastwel XE Specification 7 1 2 Heat dissipation by heat sink and system
61. he supported operating systems when CPC510 is used without MIC584 SSN EF 45 A8 9 AM 5 a A20 A2 A24 A25 A26 A29 CPC510 Compact CPU Board 2014Fastwel Ver 1 00 41 510 Fastwel XE Specification 2 5 4 USB interfaces CPC510 is equipped with the following USB ports 13x USB 1 1 ports 12 Mb s USB 2 0 480 Mb s and 4x USB 3 0 ports 4 8 Gb s 2x USB2 0 ports are routed to the front panel connectors 2x USB2 0 ports are routed to the mezzanine connector 8 4 x USB2 0 ports are routed to the backplane connector 1x USB2 0 port is used for MicroSD interface 4x USB3 0 ports are routed to the backplane connectors when USB 3 0 is used 4x USB 2 0 ports are utilized by USB 3 0 ports The ports support high speed full speed and low speed modes USB 2 0 in the high speed mode enables to transfer data with the speed up to 480 Mb s which is 40 times faster than in the full speed mode USB 1 1 Each port makes it possible to connect one USB peripheral devices In order to connect more devices it is required to use an external hub USB power supply source is protected with an automatic fuse for 500 mA Fig 2 3 USB1 USB2 connectors 1 2 3 A Two standard
62. ition Function shown on the see Fig 5 1 enclosure 1 Reset of BIOS Setup OFF Position when delivered 1 52 Reset of BIOS Setup gs settings to default settings 2 Forced change of the ON Board automatic change board to the Transparent to the Transparent mode mode by default 2 OFF Forced change of the board to the Transparent mode CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 72 510 Fastwel Sequence of BIOS setup settings to factory settings 1 Switch off the power supply 2 Remove CPC510 from the sub rack 3 Set the SA1 1 operating mode switch to ON position for 5 seconds 4 Return the SA1 1 switch to OFF position 5 Install CPC510 into the sub rack 6 Switch on the power CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 Specification 73 510 CPU Board Fastwel XE Specification 6 Phoenix BIOS Your PC has an adapted Phoenix amp BIOS version being a standard system for IBM PC AT compatible PCs It supports Intel amp x86 CPUs and Intel x86 compatible CPUs provides a low level support for CPU memory and subsystems Using BIOS Setup you can change BIOS parameters and control special PC operating modes This program is activated by pressing of F2 button and uses menu system for making changes as well as for switching on and switching off special functions It makes possible for you to change the main system setting parameters These pa
63. le 5 1 Possible options of CPC510 board configuration using SA1 73 Table 7 1 Power consumption parameters 510 78 Table 7 2 Parameters of the climatic and mechanical parameters 510 79 mE 85 Specification CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification List of figures Fig 1 1 Configuration table 510 Fig 1 2 External view of CPC510 01with the installed heat sink 1 Fig 1 3 Layout of main components of CPC510 top mene Fig 1 4 Layout of CPC510 main components top view Fig 1 5 CPC510 01 board with the installed heat sink 1 Fig 1 6 CPC510 01 Board with the installed heat sink R2 8 Fig 1 7 CPC510 02 Board with the installed heat sink R1 4HP and 590 Fig 1 8 CPC510 02 Board with the installed heat sink R2 8HP and 590 Fig 1 9 Front panel ot CPCbTO 0T EEEE E Fig 1 10 Front paneliot GPG510 02 reet torre
64. methods button CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 53 510 Fastwel ZA Specification The Power Button located on the control panel of 19 chassis programmable by the ejector handle button see section BIOS Description or ACPI program module of the used OS The Power Button is connected to the Utility which is located on the Compact PCI Serial backplane This connector is also used for the PSU control input PS as well as external Reset button Fig 3 4 Algorithm of the initial system start up from Physical switching off position N System is OFF D3 state Vsup 0V Vstdy 0V System switching Vsup 0V Vstby 5V SYS blue LED is ON ejector handle status Is the handle ON Ejector Check of the close Power supply is switched on implementation of troubleshooting algorithm procedure 7 Check of the supply voltage level Vsup 12V SYS red LED is flashing s System is ON S0 state Vsup 12V Vstby 5V SYS blue LED is The initial start up algorithm from a fully release condition D3 see Fig 3 4 of the system is similar for all the types of CPC510 application If the PSU does not support control and therefore has no 5 V_stby power source the specified voltage is generated in a standard way directly on CPC510 The diagnostics procedure mentioned in the algorithm is designed for
65. mpact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification TRANSPORTATION UNPACKING AND STORAGE Transportation The device should be transported in original manufacturers separate packaging transport packaging which contains an individual antistatic bag and a cardboard box in the closed transport automobile railway air transportation in heated and pressurized compartments in storage conditions 5 defined in the IEC 721 2 1 standard GOST standard 15150 69 or in storage conditions 3 during sea transportation The packaged modules should be transported in accordance with the shipping rules specified for this particular type of transport During handling and transportation operations the packaged modules should not undergo sharp pounding falls shocks and exposure to atmospheric precipitation The goods should be stored in a carrier vehicle in such a manner which will prevent their moving Unpacking Prior to unpacking before transportation at subzero temperature of ambient air the modules should be kept within 6 hours under storage conditions 1 defined in the IEC 721 2 1 standard GOST standard 15150 69 It is prohibited to place the packaged module close to the heat source prior to unpacking Retain all original packaging at least until the warranty period is over You may need it for shipments or for storage of the product After unpacking the product you should inspect it for visible damage tha
66. ne for feeding its internal circuits Compatibility with OS MIC590 is compatible with the software which is designed for joint operation with CPC510 CPU board A 3 External view of MIC590 mezzanine board External view of MIC590 is shown on the following figure Fig A 1 MIC590 board side that faces CPC510 162 64 2 Ji 2 9 6 106 C s 1 a 8 Backlight 1101 i 00 n d 27 XS4 5 53 E n oo 55 0 T 0 0 5 0 100 88 9 8 FI Cll 000 On ee ooo 32322232323 Co Li C335 ejeje 1 0 qoc WAWSW W2W3 1 E L 7 177 4 510 Compact PCI CPU Board 2014Fastwel Ver 1 00 80 510 Fastwel Ley Specification When CPC510 02 CPU board is delivered to consumers XS1 and XS2 connectors of the MIC590 board are installed into XS8 and XS9 connectors of the CPC510 CPU bo
67. oard box in which the product had been supplied Failure to package in antistatic material will VOID all warranties of the Customer on a unilateral basis 4 The customer pays for shipping the product to Fastwel or to an official Fastwel representative or dealer CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 11 510 CPU Board Fastwel XE Specification 1 Introduction 1 1 Overview CPC510 is a highly integrated 3U CPCI Serial solution for using in real time systems manufacturing control high speed collection and processing of data CPC510 is another product in the range of 3U CPCI modules manufactured by Fastwel Group The board is based on the Intel Ivy Bridge CPU 2 or 4 core CPUs which has one of the highest performances in its class CPC510 uses high speed I O interfaces PCI Express Gigabit Ethernet and modern technologies for video data processing Modular structure of the device enables a flexible setting of the system for particular fields which optimizes a price quality relationship To expand CPC510 functionalities MIC584 mezzanine module is used Its detailed description is given in the User Manual Stable operation of CPC510 enables its use in all industrial applications Components on which CPC510 is based are carefully selected in accordance with the embedded system applicability criteria which make the module perfectly fit for the long life cycle systems The module has the following structure of
68. on an is basis without warranty Fastwel assumes no liability for consequential or incidental damages originated by the use of this software This document contains information which is property of Fastwel Co Ltd It is not allowed to reproduce it or transmit by any means to translate the document or to convert it to any electronic form in full or in parts without antecedent written approval of Fastwel Co Ltd or one of its officially authorized agents Fastwel and Fastwel logo are trademarks owned by Fastwel Co Ltd Moscow Russian Federation Ethernet is a registered trademark of Xerox Corporation IEEE is a registered trademark of the Institute of Electrical and Electronics Engineers Inc Intel is a trademark of Intel Corporation Pentium M and Celeron M are trademarks of Intel Corporation Microsoft is a trademark of the Microsoft corporation In addition this document may include names company logos and trademarks which are registered trademarks and therefore are property of their respective owners Fastwel welcomes suggestions remarks and proposals regarding the form and the content of this Manual CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification Trademarks Fastwel logotype is a trademark belonging to Fastwel Group Co Ltd Moscow Russian Federation Besides this document may contain names corporate logotypes and trademarks being registered trademarks consequen
69. ower supply is off Attention While performing the following operation do not apply too much force putting the board connector into the backplane connector Use the front panel handle to install the board into the connector Carefully insert the board into the required slot moving it along the guide rails until it touches the backplane connector Using the front panel handle push the board into the backplane connector The board is inserted to the end when the handle makes the relevant sound If CPC510 02 board is used it is necessary that both handles make this sound see Fig 1 10 Front panel of CPC510 02 Fasten the board by two fixing screws on the front panel of CPC510 01 see Fig 1 9 Front panel of CPC510 01 If CPC510 02 board is installed it is required to fasten it with four fixing screws see Fig 1 10 Connect all required external interface cables to the board Make sure that both CPC510 and all the connected cables are fixed securely CPC510 is ready for work CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 68 510 CPU Board Fastwel XE Specification 4 3 Board removal procedure In order to remove the board you should perform the following 1 Make sure that all the safety requirements of section 4 1 are met Special consideration should be given to the warning of the heat sink temperature Attention The following operations should be performed with care to prevent damages to neithe
70. r CPC510 nor other system devices 2 Before starting the removal of CPC510 make sure that the system power supply is off 3 Disconnect all interface cables from the board 4 Remove the front panel fixing screws Attention Board handling requires additional care since cooling heat sink could be heated Do not touch the heat sink during the board replacement 5 Unlock the front panel handle by pressing A button and moving it down remove the board from the backplane connector see Fig 1 9 Front panel of CPC510 01 If CPC510 02 is used it is required to simultaneously press A and B buttons and move the both handles down see Fig 1 10 6 After the board is removed from the backplane connector drag it from the enclosure along guide rails 7 Itis upto you what to do with the board next CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 69 510 CPU Board Fastwel XE Specification 4 4 Installation of CPC510 peripheral devices CPC510 is available for connection of many various peripheral devices which installation methods could vary greatly The next sections contain only general guidelines for installation rather than detailed algorithms 4 4 1 Installation of MicroSD memory cards CPC510 is equipped with XS10 connector for MicroSD memory card External view of the Secure Digital connector with the installed memory card is shown on Fig 2 6 Carefully insert the properly positioned Secure Digital card into th
71. r PICMG 2 30 systems to the new Compact PCI standard with minimum material expenses CPC510 02 board is installed in two slots The board itself is installed in the backplane slot 5 while MIC590 is installed in the system slot 4 red of PICMG 2 30 respectively CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 61 CPC510 CPU Board Fastwel Ley Specification Fig 3 9 Installation of CPC510 02 into two slots CPCI PICMG 2 30 Serial Attention Installation of Compact PCI Serial connectors of CPC510 board always should be carried out into the relevant Compact PCI Serial backplane connectors Otherwise the connectors could be deactivated due to mechanical damages Below is the list of interfaces available in the PICMG 2 30 system with CPC510 02 CPU Board Up to 3 devices on 32 bit Compact PCI bus 33 MHz or 66 MHz supporting 3 3 V or 5V VIO slots 1 to 3 Up to 3 devices on PCI Express bus x1 Gen 2 slots 6 to 8 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 62 510 Fastwel 7 Specification Fig 3 10 Example of system generation on the basis of PICMG 2 30 backplane Plus and CPC510 02 CPU board Fig 3 10 shows an example of the implementation of PICMG 2 30 system PICMG 2 30 with CPC510 02 CPU board Components used in the system left to right Shielded 19 chassis 24579 405 4 U 8 slots with rear I O connectors and power supply unit of 300W Schroff cPC
72. rameters are stored in a special storage zone of the flash BIOS microchip which stores information after system power supply is off CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 74 510 CPU Board Fastwel XE Specification 7 Additional information 7 1 Temperature mode control Intel IvyBridge CPUS operate under severe thermal conditions This requires special measures for maintaining temperature of the CPU crystal die within the limits of acceptable values The following sections provide developers of CPC510 based systems with information required for meeting temperatures standards and requirements 7 1 1 Passive temperature control The structure of CPC510 temperature conditions control can be represented as particular functions which purpose is to protect CPU and reduce its power consumption The use of thermal control circuits allows CPU to maintain safe operating temperature without special software drivers and interrupt handling procedures CPU thermal protection functions 1 Catastrophic shutdown detector ensures CPU switching off when the crystal die reaches the temperature of about 105 C in case of the cooling system malfunction This function is always active in order to protect SPU in any case Temperature controller circuit is not switched off automatically when the temperature goes below the thermal trip level BIOS settings should be reset for system reboot Reset of BIOS settings is carried out according to t
73. rates with maximum efficiency Therefore those who use systems based on CPC510 are strongly recommended to use sub racks with integrated internal air cooling We do not recommend using the boards with R1 heat sink 4HP without air cooling Since if such boards are used in the sub rack without cooling theses boards tend to self heating due to the lack of convection between flared fins of the heat sink with a fine pitch In which case even a minimum air cooling is able to significantly expand the operating range of ambient temperature values It is not recommended to use the board with 2 5 GHz without air cooling High CPU capacity heats up both the heat sink and PCB itself which has a negative impact on operation of all the components installed on the board It is recommended to use standard Schroff sub rack fans for the use in systems based on CPC510 CPU boards CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 76 510 CPU Board Fastwel XE Specification 7 2 Power consumption of CPC510 Supply voltage 5V_STBY 12V Consideration should be given to the specified requirements essential to ensure stability and reliability The below table contains values of the maximum permissible voltages on power lines exceeding of which could lead to the board damages Power supply units which will be used with CPC510 should be tested with respect to compliance with such requirements Table 7 1 Power consumption parameters of CPC510
74. rformed only by the employees who have sufficient qualification to do it CAUTION HIGH VOLTAGE Before installing the board into the system please make sure that the mains supply has been switched off This also refers to installation of mezzanine boards In the course of installation repairs and maintenance of the device there is a serious risk of electric shock therefore always unplug the power cord at the time of operation This also refers to other feeder cables BOARD HANDLING PROCEDURES Electrostatic Sensitive Device ESD The electronic boards and their components are sensitive to the static electricity Therefore it is required to pay additional attention while handling these devices in order to ensure their safety and operability Store this product in its protective packaging while it is not used for operational purposes f possible unpack or pack this product only at EOS ESD safe workplaces Otherwise it is important to be electrically discharged before touching the product This can be done by touching a metal part of your system case with your hand or tool It is particularly important to observe antistatic precautions when setting jumpers or replacing components product contains batteries for RTC or memory back up ensure that the module is not placed on conductive surfaces including antistatic mats or sponges This can cause short circuit and result in damage to the battery and PCB CPC510 3U Co
75. s double sided IDC2 10 XP11 XP13 connectors of MIC584 5 6 RS485 interfaces routed to the 10 pins double sided IDC2 10 XP7 connector of MIC584 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 43 510 CPU Board Fastwel XE Specification The serial ports are fully compatible with 16C550 controller and include a full set of modem matching and control signals support generation of maskable interrupts and transfer of data at the speeds up to 460 8 Kb s 2 5 7 Parallel port interface Standard parallel interface IEEE1284 ECP EPP SPP is implemented in MIC584 via LPC interface and is available only via MIC584 mezzanine extension board MIC584 see Description of MIC584 given in the relevant User Manual 2 5 8 Gigabit Ethernet interface The board has two ports 10Base T 100Base TX 1000Base T Ethernet based on the high speed server controller Intel amp 82580 Controller s architecture is optimized for achieving a high performance at the minimum energy consumption Controller is connected to the system via a high performance PCI E bus Intel amp 82580 architecture includes receive and transmit queues to limit the traffic on PCI E bus as well as PCI E interface maximizing the use of data packages for efficient bus load RJ45 Gigabit Ethernet connectors are located on the front panel of CPC510 and are marked with XS5 Interfaces ensure an automatic detection of transfer speed and switching among data transfer
76. s time consuming Fig 3 12 Example of the assembled backplanes in the extended hybrid system eeeees 3 b 4 LY gt SAN WDD AZZ 7 In the example shown Fig 3 12 the following components used CPCI 32 bit 8 slot backplane system slot on the right 23006 300 Schroff CPCI Serial 9 slot backplane 23007 614 Schroff 24563 473 shielded 30 19 chassis CPC510 02 can be installed into red slots of the backplanes CPC510 02 board can be installed In which case the left red slot is used for MIC590 and the right red slot for CPC510 Since a standard Compact PCI Serial backplane is used all functions of board to board connections power control and storage devices for Compact PCI Serial version see p 1 are supported Up to 8 Compact PCI 32 bit devices can be supported As compared to PICMG 2 30 system Compact PCI 32 bit backplane makes it possible to route LVDS interface from MIC590 to the rear I O board Switching is performed automatically while the RIO board is installed corresponding to the relevant slot to the left CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 65 510 CPU Board Fastwel Le Specification 3 4 Additional features of CPC510 CPC510 structure enables to create a wide range of devices with various functionalities Availability of board to board connectors with PCI Expre
77. ss x4 SATA LPC interfaces makes it possible to design highly reliable and efficient compact systems by designing optional mezzanine boards CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 66 510 CPU Board Fastwel Xy Specification 4 Installation CPC510 can be easily installed However it is necessary to strictly follow the below rules warnings and procedures in order to properly install the board avoid damages to the device system components as well as personnel injuries 4 1 Safety requirements When handling CPC510 you should strictly follow the safety requirements below Fastwel Group is not responsible for any damages caused as the result of failure to comply with these requirements Caution Be careful when handling the board since the het sink could be too hot Do not touch the heat sink during the board removal In addition to it do not put the board on any surface or in any packaging until the board and heat sink reach ambient temperature Attention Switch off the power of CompactPCI system before installing the board into a free slot Violation of this rule could pose danger to your life and health as well as lead to system and board damages Electrostatic Sensitive Device ESD board contains elements sensitive to electrostatic charges In order to avoid board damages the following safety precautions should be observed Before touching the board remove static c
78. t The Manufacturer shall not be liable for the damage inflicted to the Consumer s property because of the product breakdown in the process of its utilization Warranty Period The warranty period for the products made by Fastwel Group is 24 months since the sale date unless otherwise provided by the supply contract The warranty period for the custom made products is 36 months since the sale date unless otherwise provided by the supply contract Limitation of warranty liabilities The above warranty liabilities shall not be applied To the products including software which were repaired or were amended by the employees that do not represent the manufacturer Exceptions are the cases where the customer has made repairs or made amendments to the devices in the strict compliance with instructions preliminary agreed and approved by the manufacturer in writing To the products broken down due to unacceptable polarity reversal to the opposite sign of the power supply improper operation transportation storage installation mounting or accident Returning a product for repair 1 Apply to Fastwel company or to any of the Fastwel s official representatives for the Product Return Authorization 2 Attach a failure inspection report with a product to be returned in the form accepted by the Manufacturer with a description of the failure circumstances and symptoms 3 Place the product in the consumer packaging antistatic bag and cardb
79. t could have occurred during shipping or unpacking If damage is observed usually in the form of bent component leads or loose socketed components contact Fastwel s official distributor from which you have purchased the product for additional instructions Storage Module storage conditions for group 1 are defined in the IEC 721 2 1 standard GOST standard 15150 69 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 10 510 CPU Board Fastwel XE Specification MANUFACTURER S WARRANTY Warranty Liabilities The Manufacturer hereby guarantees the product conformity with the requirements of the 4013 025 7278251 1 09 technical conditions provided that the Consumer complies with the operating storage transportation and installation conditions and procedures specified by the accompanying documents The Manufacturer hereby guarantees that the products supplied thereby are free from defects in workmanship and materials provided operation and maintenance norms were observed during the currently established warranty period The Manufacturer s obligation under this warranty is to repair or replace free of charge any defective electronic component being a part of a returned product Products that broke down through the Manufacturer s fault during the warranty period will be repaired free of charge Otherwise the Consumer will be invoiced as per the current labor remuneration rates and expendable materials cost Liability Limitation Righ
80. the relevant User Manual MIC590 is installed on the left side of CPC510 version 02 An extension slot closest to CPC510 will be used CPC510 02 board is supplied pre assembled together with MIC590 see Fig 1 7 and Fig 1 8 Fig 2 2 XS6 connector for installation of MIC584 mezzanine board A30 A1 30 1 56 connector is located at the top of CPC510 see Fig 1 3 Location of main components CPC510 top view CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 40 510 CPU Board gt 10 AM GND GND A15 A16 A17 AZ SDOUT A18 A uhi 9 Fastwel 7 Table 2 3 Purpose of the XS6 connector s contacts for installation of MIC584 USB Ert m TT m E TC TS yum LPC AD1 LPC AD2 LPC AD3 LPC Specification KBRST A20GATE m mm USB OC 1 TS US INIT 3V3 GND BIOS_DIS 2 5 3 Keyboard mouse interface CPC510 makes is possible to connect keyboard mouse via USB port on the front panel In addition to it PS 2 keyboard mouse interface is implemented on MIC584 via LPC interface and is available via MIC584 extension board see description of MIC584 given in the relevant User Manual Connector for keyboard and mouse PS 2 6 pin MiniDIN connector are located on the front panel of MIC584 CPC510 has a keyboard controller emulator which is program compatible with 8042 and is implemented in FPGA This is required for proper operation of t
81. tly property rights to them belong to their respective legitimate owners Ownership Rights This document contains information being the property of Fastwel Group Co Ltd It can neither be copied nor transferred with the utilization of known media nor be stored in data storage and search systems without the prior written authorization of Fastwel Group Co Ltd To our best knowledge the data in this document does not contain errors However Fastwel Group Co Ltd cannot take responsibility for any inaccuracies and their consequences as well as responsibility arising as a result of utilization or application of any diagram product or example cited in this document Fastwel Group Co Ltd reserves the right to alter and update both this document and the product presented therein at its own discretion without additional notification Copyright This document cannot be copied reproduced transferred or converted to any electronic or machine readable form without prior written permission of Fastwel Co Ltd CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 510 CPU Board Fastwel XE Specification NOTATIONS CAUTION HIGH VOLTAGE This symbol and sign warns you about the dangers related to electric discharges gt 60 V when touching the device and its components Non compliance with the safety measures mentioned or prescribed by the rules may pose a danger to your life or health or could damage the product Please read the below subpara
82. ts used in the system 24579 420 Schroff 4 U 9 slot with rear I O and ATX PSU shielded 19 chassis 300 W CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 52 510 Fastwel XE Specification CPCI Serial CPC510 02 CPU Board Fastwel MIC584 01 mezzanine Board Fastwel 2x 3U CPCI Serial CPC510 01 CPU Boards Fastwel G211 3U CompactPCI Serial Quad Gigabit Ethernet Interface MenMicro 3 x 3U Boards CPCI Serial PCIE SATA storage device carrier KIC550 01 Fastwel Fig 3 3 Example of multiprocessor system implementation 3 1 2 Interaction with power supply unit CPC510 has a universal power supply circuit that enables operation with the power supply unit in two modes with control support of the power supply unit similarly to the control used in ATX PSU and without control support While operating CPC510 each of the specified modes can be used in the system slot of Compact PCI Serial mezzanine board Control of the power supply unit is supported in CPC510 only when it is installed in the system slot of the Compact PCI Serial backplane In which case the PSU should support the control function and should be equipped with Integrated source of standby supply voltage 5V_stby with a minimum load current from 1 A Switch on input PS Logic of the PSU control is determined by FPGA microcode of CPC510 The control can be carried out by any of the following
83. us Processor hosts Support of PCI E 2 0 up to 5 GT s Routed via PCI E switch to J1 and J2 CPCI Serial connectors supporting up to two devices x8 Support of the Non Transparent operation mode for FatPipe 1 Routed to PCI E switch to the J4 CPCI Serial connector supporting x4 devices PCH hosts PCI E 2 0 support up to 5 GT s Routed to the mezzanine board on the left side Supports up to 3 x PCI Express devices x1 in accordance with PICMG 2 30 specification SMBUS Compatibility with 2 0 specification Speed up to 100 Kbps FLASH BIOS 2x32 Mb SPI Flash MicroSD interface Support of SDHC 2 0 Connected to USB 2 0 interface SATA interface Support of RAID 0 1 5 10 SATA Il interface One interface is permanently routed to the mezzanine connector Single interface switchable between the backplane and mezzanine connectors 2x ports are routed to the backplane connector SATA III interface 2x interfaces are routed to the backplane connector 2x LAN 10 100 1000 Mbit ports on PCI E x4 Gen2 2x ports are routed to the front panel connectors Implementation of a server network adapter CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 13 510 CPU Board Fastwel XE Specification USB ports 13x USB 1 1 ports 12 Mb s USB 2 0 480 Mb s and 4 USB 3 0 ports 4 8 Gb s 2x USB2 0 ports are routed to the front panel connectors 2x USB2 0 ports are routed to the
84. write cycle to window 1 1 switched on 0 switched off WND1 RD EN Write Read Counter reset with the write cycle from window 1 1 switched on 0 switched off Window 1 port base address registers Index f2h 7 0 Window1_Base_Adress 7 0 Write Read Bits 7 0 of the base address of window 1 Index f3h 7 0 Window1_Base_Adress 15 8 Write Read Bits 15 8 of the base address of window 1 Window 2 port base address registers Index f4h 7 0 Window2 Base Adress 7 0 Write Read Bits 7 0 of the base address of window 2 Index f5h 7 0 Window2_Base_Adress 15 8 Write Read Bits 15 8 of the base address of window 2 CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 34 510 Fastwel Specification Windows 1 amp 2 address mask register Index feh 7 4 Window1 MASK 3 0 Write Read Bits 3 0 of the address mask of window 1 3 0 Window2_MASK 3 0 Read Write Bits 3 0 of the address mask of window 2 Description of I O registers of WDT controller Timer Current Value Register 23 0 Base 0h 7 0 Timer_Current_Value 7 0 Write Read Bits 7 0 of the counter s current value Base 1h 7 0 Timer_Current_Value 15 8 Read Write Bits 15 8 of the counter s current value Base 2h 7 0 Timer_Current_Value 23 16 Read Write Bits 23 16 of the counter s current v
85. x USB2 0 port is used for MicroSD interface USB 3 0 The board has 4x USB 3 0 channels They are routed to the backplane connector When the board is installed in the peripheral slot USB interface routed to the J1 connector is switched off automatically SATA interface SATA II and SATA III interfaces are used RAID 0 1 5 10 support SATA II 4x interfaces for connection of storage devices are routed to the mezzanine connector and backplane connector CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 26 510 CPU Board Fastwel XE Specification SATA III 2x interfaces for connection of storage devices are routed to the backplane connector Display Port The ports are intended for the connection of digital display with DisplayPort interface or for further conversion to other video standards Maximum resolutions supported 2560 1600 960 GHz 2x ports are routed to the front panel of the board 1x port is routed to MIC590 front panel of CPC510 02 LVDS interface LVDS interface is designed for the connection of digital panel with LVDS interface dual channel 25 112 MHz 18 24 bit pixel compatible with ANSI TIA EIA 644DisplayPort specification or for the further conversion to other video standards Maximum resolutions supported 1600x1200 60 GHz LVDS is routed to MIC590 LVDS connector is shown on Fig A 1 PCI E x4 interface PCI E Switch PLX8624 4x PCI E Gen2 x4 channels are routed to J4 CPCI Serial
86. y manufacturer and 31 KB for critical user data Registers and FRAM device programming are described further CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 37 510 Fastwel Specification 2 2 4 2 1 FRAM registers logical device 3 30h R W Activate 2 OAOH 0 2 3 5CH For using FRAM it is required to set a base device address and activate it LDN 3 similarly as with the watchdog timer Further FRAM operation is carried out in the field of I O regarding the set base address Bit lt 0 gt in the control register Base 3 activates an automatic mode of address increase during write read of data register base 2 2 2 4 2 2 FRAM module programming Sequence of operations during device startup Enter the configuration mode MOV DX 302H MOV AL 46H OUT DX AL MOV AL 57H OUT DX AL Write LDN to the register FRAM has logical number 3 MOV DX 302H MOV AL 7 OUT DX AL MOV DX 303H MOV AL 3 OUT DX AL Set the base address of the device in the I O field e g 310h MOV DX 302H MOV AL 60H OUT DX AL MOV DX 303H MOV AL 3H OUT DX AL CPC510 3U Compact PCI CPU Board 2014Fastwel Ver 1 00 38 510 Fastwel 7 MOV DX 302H MOV AL 61H OUT DX AL MOV DX 303H MOV AL 10H OUT DX AL Activate the device MOV DX 302H MOV AL 30H OUT DX AL MOV DX 303H MOV AL 1H OUT DX AL

CPC510 - The wide range of industrial Box

Contents

Download Pdf Manuals

Related Search

Related Contents