USER`S MANUAL
Contents
1. Intel i7 620UE Processor 4GB All Processor Types 5V 7 3A typical 11A maximum 5V 5 9A typical 9 0A maximum 5V 5 0A typical 7 6A maximum 3 3V 3 1A typical 4 8A maximum VOLTAGE 3 3V 3 25V 3 45V 5V 5 2 5 CPU SPEED Intel i7 610E Processor Intel i7 620LE Processor Intel i7 620UE Processor 2 53 GHz dual core 2 0 GHz dual core 1 06 GHz dual core ONBOARD MEMORY Intel i7 610E or i7 620LE Processor Intel i7 620UE Processor 4GB single channel DDR3 ECC 1066 MHz 4GB single channel DDR3 ECC 800 MHz GRAPHICS CONTROLLER Intel Integrated HD Graphics 2048 x 1536 max resolution 32 bit color max VGA 1920 x 1200 max resolution 32 bit color max DVI D ETHERNET CONTROLLER Intel 82580EB Quad Port Gigabit Ethernet Introduction INTEGRATED SATA 300 CONTROLLER SATAO SATA1 via P1 SATA2 SATAS via P2 INTEGRATED NAND FLASH SSD 8GB on SATA4 STEREO AUDIO IDT 92HD81Bx HDA CODEC Line Level Stereo Input and Output via P2 USB Two USB 2 0 via front panel Two USB 2 0 via P1 Two USB 2 0 via P2 16550 compatible 3 Com 1 and Com2 via P2 RS 2320r RS 422 485 selectable Com 4 via front panel connector RS 232 only SERIAL PORTS REGULATORY COMPLIANCE European Union CE 3 Electromagnetic Compatibility 89 336 EEC RoHS Compliant Build Levels The XVPX 6300 is available in three electrically2. FRONT PANEL TIED TO GND Orb Chassis Ground 2 3 FRONT PANEL ISOLATED RTCRST 1 2 default NORMAL OPERATION 2 3 CLEAR CMOS RTC To clear CMOS memory briefly move this jumper to position 2 3 Be sure to move it back to position 1 2 before reapplying power VIDSEL 1 2 air default VGA ON FPANEL CONN 2 3 conduction default VGA ON P2 CONN In position 1 2 the VGA display is available on the front panel connector In position 2 3 the VGA display is available on the P2 connector Connectors VPX Connectors PO Connector PO Wafer A B c D E F G 1 3 3 V 3 3 V 3 3 V UNUSED UNUSED UNUSED UNUSED 2 3 3 V 3 3 V 3 3 V UNUSED UNUSED UNUSED UNUSED 3 5V 5V 5V UNUSED 5V 5V 5V 4 NVRMO SYSRESET GND UNUSED GND UNUSED UNUSED 5 SMB_DATA SMB_CLK GND 3V3_AUX GND GA4 GAP 6 GAO GA1 GND UNUSED GND GA2 GA3 7 UNUSED UNUSED GND UNUSED UNUSED GND UNUSED 8 GND UNUSED UNUSED GND 100M_CLKO_P 100M_CLKO_N GND P1 Connector P1 Wafer A B c D E F G 1 PCIEO_RXP1 PCIEO_RXN1 GND PCIEO_TXP1 PCIEO_TXN1 GND GPO 2 GND PCIEO_RXP2 PCIEO_RXN2 GND PCIEO_TXP2 PCIEO_TXN2 GND 3 PCIEO_RXP3 PCIEO_RXN3 GND PCIEO_TXP3 PCIEO_TXN3 GND VBAT 4 GND PCIEO_RXP4 PCIEO_RXN4 GND PCIEO_TXP4 PCIEO_TXN4 GND 5 PCIE1_RXP1 PCIE1_RXN1 GND PCIE1_TXP1 PCIE1_TXN1 GND SYS_CON 6 GND PCIE1_RXP2 PCIE1_RXN2 GND PCIE1_TXP2 PCIE1_TXN2 GND 7 PCIE1_RXP3 PCIE1_RXN3
3. GND PCIE1_TXP3 PCIE1_TXN3 GND UNUSED 8 GND PCIE1_RXP4 PCIE1_RXN4 GND PCIE1_TXP4 PCIE1_TXN4 GND 9 SATAO_RXP SATAO_RXN GND SATAO_TXP SATAO_TXN GND ENETO_LINK 2 2 Installation and Setup 10 GND SATA1_RXP SATA1_RXN GND SATA1_TXP SATA1_TXN GND 11 USB_P1_P USB_P1_N GND USB_P2 P USB_P2 N GND ENET1_LINK 12 GND USB_5V_P1_P2 USB 5V _P1_ P2 GND USB_5V_P3_P4 USB_5V_P3_P4 GND 13 ENETO_PO_P ENETO_PO_N GND ENETO_P1_P ENETO_P1_N GND UNUSED 14 GND ENETO_P2 P ENETO_P2_N GND ENETO_P3_P ENETO_P3_N GND ont A ENET1_PO_P ENET1_PO_N GND ENET1_P1_P ENET1_P1_N GND GPI Beate B SGMII_RX_P2_P SGMII_RX_P2_N GND SGMII_TX_P2_P SGMII_TX_P2_N GND GPI Rone A GND ENET1_P2 P ENET1_P2_N GND ENET1_P3_P ENET1_P3_N GND Rone B GND SGMII_RX_P1_P SGMII_RX_P1_N GND SGMII_TX_P1_P SGMII_TX_P1_N GND P2 Connector P2 Wafer A B C D E F G 1 AUD_LINEIN_L AGND_AUDIO GND AUD_LINEOUT_L AGND_AUDIO GND CRT_RED 2 GND AUD_LINEIN_R AGND_AUDIO GND AUD_LINEOUT_R AGND_AUDIO GND 3 AUD_SENSE_B AGND_AUDIO GND GND GND GND CRT_GRN 4 GND USB P3 P USB P3 N GND USB _P4 P USB P4 N GND 5 DVI_PO_P DVI_PO_N GND DVI_P1_P DVLP1_N GND CRT_BLU 6 GND DVILP2 P DVI_P2_N GND CLK_DVI_P CLK_DVLN GND 7 DVI_SDA GND GND DVI_SCL GND GND CRT_VSYNC 8 GND DVI_HPD GND GND UNUSED GND GND 9 COM1_TX COM1_ 422 485 TX GND COM1_RX COM1_ 422
4. SSD operates normally in read write mode VPX NVMRO signal is driven low to the rest of the system Read Only Onboard 8GB NANDFlash SSD operates in dummy write mode Any writes in this mode appear to be written but are gone after a power cycle VPX NVMRO signal is not driven Auto Determined by state of VPX SYS_CON pin SYS_CONH LOW Read Write SYS_CON HIGH Read Only Console Redirection Port Serial Port 0 COM1 on P2 connector Serial Port 1 COM2 on P2 connector Serial Port 3 COM4 on FPANEL connector Rear Serial Port Protocol RS 232 COM1 and COM2 on P2 connector use RS 232 protocol RS 422 485 COM1 and COM2 on P2 connector use RS 422 or RS 485 protocol Enable PXE Boot Enabled Enables boot from LAN Disabled Disables boot from LAN DVI Enabled Enables DVI port on P2 connector Disabled Disables DVI port on P2 connector CPU Turbo Mode The Intel i7 processors have a Turbo Mode feature that is essentially an on demand overclocking mechanism that can run the CPU temporarily faster than the maximum rated CPU frequency when both cores of the CPU are not 100 utilized This mode of operation results in large instantaneous dynamic swings in power supply current As a result spurious resets of the board may be experienced with Turbo Mode enabled if the power supply and or backplane combination are insufficient Turbo Mode can be enabled disabled in the BIOS setup It can be found in the Advanced gt Thermal Conf
5. compatible build levels each of which is carefully tailored to a particular set of requirements and environments All three levels fully support the power and versatility of VPX so no matter how large or diversified your project absolute compatibility is assured at all stages of development The three build levels have three basic mechanical configurations both in accordance with the VITA 46 0 VPX standard and the Vita 48 REDI standard 1 Air convection cooled modules are intended for use in standard industrial chassis 2 Conduction cooled modules are intended for use in sealed Air Transportable Racking ATR and other conduction cooled environments 3 REDI cover Conduction cooled modules are intended for use in sealed Air Transportable Racking ATR and other conduction cooled environments Conduction cooled modules include conformal coating as standard Ordering Information XVPX 6300 ABCD X A THERMAL 1 Air cooled 2 Conduction cooled 3 REDI covers 2 i17 620UE 3 i7 620LE 4 i7 610E 4 4GB with Profile A 5 4GB with Profile B Blank Standard temperature E Extended temperature B CPU C MEMORY 8 CTRL PLANE D EXTENDED TEMPERATURE X SOLDER L Lead solder LF Lead free solder PROFILE A MOD3 PAY 2F2T 16 2 5 3 Dual 1000BaseT Gigabit Ethernet PROFILE B MOD3 PAY 2F2U 16 2 5 3 Dual 1000Base BX amp Single 1
6. designated work areas only Designated ESD safe work areas must be checked periodically to ensure their continued safety from ESD The areas should be monitored for the following a Proper grounding methods b Static dissipation of work surfaces c Static dissipation of floor surfaces d Operation of ion blowers and ion air guns Designated work areas must be kept free of static generating materials such as styrofoam vinyl plastic fabrics or any other static generating materials Work areas must be kept clean and neat in order to prevent contamination of the work area Introduction 5 Modules should be handled by the edges Avoid touching the component leads NOTE When not installed in a system modules must be enclosed in shielded bags or boxes There are three types of ESD protective enclosure materials this module was shipped in an approved ESD bag 6 Whenever handling the module the operator must be properly grounded by one of the following a Wearing a wrist strap connected to earth ground b Wearing heel grounders and have both feet on a static dissipative floor surface 7 Stacking of modules should be avoided to prevent physical damage Operational Block Diagram 1 PCle 100MHz Common Clock on REFCLK INTEL i7 DDR3 CH A 2 4GB DDR3 ARRANDALE SOLDERED DOWN PCle X4 PCle X4 1 GbE 09
7. record your current version number and the reason for the request Ethernet Controller An Intel 82580EB network controller provides 2 channels of 10 100 1000BaseT Profile A or one channel of 10 100 1000BaseT plus two channels of 1000base BX Profile B Ethernet on the VPX P1 connector This follows the Vita 46 6 specification for Gigabyte Ethernet over the backplane On the Air Cooled version there is also one additional Ethernet port on the front panel Storage Devices Onboard NANDFlash SSD The XVPX 6300 features an onboard 8GB NANDFlash SSD This SSD is attached via the SATA4 interface and available to operating systems as storage or can have a bootable operating system installed on it Serial ATA connection via P1 and P2 The XVPX 6300 features four SATA 300 drive interfaces out the rear P1 and P2 VPX connectors The use of the optional rear transition module XVPX 9630 allows for the connection of two drives using standard SATA cables VPXbus Interface The XVPX 6300 interface to VPXbus is via two PCle x4 connections from the i7 directly to the VPX backplane on Fat Pipe A and Fat Pipe B Note Due to a BIOS limitation certain option cards containing Option ROMs connected to Fat Pipe B that are behind a PCle switch such as Xembedded models XVPX 9400 and XVPX 9425 may not boot properly These cards will behave normally if connected to Fat Pipe A Serial Ports The serial UART provides one Serial RS 232 out the fron
8. 000BaseT Gigabit Ethernet Installation and Setup Chapter 2 Installation and Setup Below is the outline of the XVPX 6300 showing the jumper locations The module comes in a standard configuration which may not be compatible with your application The following information will help you understand how to configure this module RTCRST FPRST ME_DIS CS_PGM VIDSEL ORBGND Fig 2 1 shows the jumper locations on the XVPX 6300 Jumper Settings The following section describes the XVPX 6300 jumpers with their default positions and functions CS_PGM 1 2 default NORMAL OPERATION 2 3 FACTORY USE ONLY This jumper must be in the 1 2 position for normal operation The XVPX 6300 will not boot with this jumper in 2 3 position 2 1 Installation and Setup FPRST 1 2 default FRONT PANEL BUTTON RESETS SYSTEM AND ALSO VPX IF SW1 3 IS ON 2 3 NO PUSHBUTTON RESET In position 1 2 the front panel reset button will reset the XVPX 6300 and also reset the VPX interface if SW1 3 is ON In position 2 3 the front panel button will not cause any resets ME_DIS 1 2 default NORMAL OPERATION 2 3 FACTORY USE ONLY This jumper must be in position 1 2 for normal operation Position 2 3 is used when updating the ME Engine portion of the System Flash Only use this position if instructed by Xembedded Support ORBGND 1 2 default
9. 30 100 plus DVI and 3 pin RS 232 Jumpers The XVPX 9630 only has one jumper setting ORB front panel ground ORBGND 1 2 default ORB GND TIED TO DIGITAL GND 2 3 ORB GND ISOLATED 3 1 Accessory Modules Connectors This section provides pin outs for some of the XVPX 9940 connectors Refer to the EMC warning at the beginning of this manual before attaching cables AUDIO 1 LINE OUT LEFT 2 LINE OUT RIGHT 3 GROUND 4 LINE IN LEFT 5 LINE IN RIGHT FPANEL The FPANEL connector ports USB1 USB2 COM1 and VGA can be accessed through standard connectors by using the supplied FPANEL dongle cable P N 201157 Note that the DB 9 serial connector on this dongle cable is wired as a DTE port 1 GND 2 USB Port 0 3 USB Port 0 4 GND 5 5V USB POWER 6 VGA DDC DATA 7 VGA RED 8 VGA GREEN 9 VGA BLUE 10 GND 11 USB Port 1 12 USB Port 1 13 GND 14 5V VGA POWER 15 VGA DDC CLK 16 GND RED 17 GND GREEN 18 GND BLUE 19 COM1 422 485 RX 20 COM1 422 485 TX 21 NC 22 NC 23 COM1 TX 24 COM4 RX 25 VGA VSYNC 26 VGA HSYNC Battery The XVPX 9630 can supply VBAT power to the XVPX 6300 and the rest of the VPX chassis by installing a standard BR1225 or CR1225 coin cell Please ensure there is not another source of VBAT in the chassis before installing the coin cell in the XVPX 9630 3 2
10. 485 RX GND CRT_HSYNC 10 GND COM2_TX COM2_ 422 485 TX GND COM2_RX COM2_ 422 485 RX GND 11 SATA2_RXP SATA2_RXN GND SATA2_TXP SATA2_TXN GND CRT_DATA 12 GND SATA3_RXP SATA3_RXN GND SATA3_TXP SATA3_TXN GND 13 PCIE1_RXP PCIE1_RXN GND PCIE1_TXP PCIE1_TXN GND CRT_CLK 14 GND PCIE2_RXP PCIE2_RXN GND PCIE2_TXP PCIE2_TXN GND 15 100M_CLK1_P 100M_CLK1_N GND 100M_CLK2_P 100M_CLK2_N GND PLT_RST 16 GND CLKREQ_CLK1 GND GND CLKREQ_CLK2 GND GND Installation and Setup P2 I O Signal Requirements This section provides the information necessary to interface with the P2 I O signals without using a XVPX 9630 RTM module VGA For proper operation of the VGA display 1500hm termination to GND is required on the CRT_ RED CRT_GRN and CRT_BLU signals Failure to apply this termination may result in poor display quality and improper operation of Intel HD Graphics control panel in Windows Also for proper monitor detection the CRT_CLK and CRT_DATA lines should be level shifted to 5V See the following for suggested interface schematic y HHH 1 ORB ND ORB GND Egi 025 anD It is strongly suggested that ESD protection be included in interface circuitry on the VGA and USB ports Failure to do so may cause damage the XVPX 6300 in the event of an ESD discharge into the I O pins 2 4 Installation and Setup FPANEL The FP
11. ANEL connector ports USB1 USB2 COM4 and VGA can be accessed through standard connectors by using the supplied FPANEL dongle cable P N 201157 Note that the DB 9 serial connector on this dongle cable is wired as a DTE port 1 GND 2 USB Port 0 3 USB Port 0 4 GND 5 5V USB POWER 6 VGA DDC DATA 7 VGA RED 8 VGA GREEN 9 VGA BLUE 10 GND 11 USB Port 1 12 USB Port 1 13 GND 14 5V VGA POWER 15 VGA DDC CLK 16 GND RED 17 GND GREEN 18 GND BLUE 19 COM4 CTS 20 COM4 RTS 21 COM4 DSR 22 COM4 DTR 23 COM4 TXD 24 COM4 RXD 25 VGA VSYNC 26 VGA HSYNC Front Panel Layout Fig 3 1 shows an air cooled front panel 2 5 Installation and Setup Front Panel LEDs and Reset Switch The reset switch can be configured in the BIOS to either reset the XVPX 6300 or to reset both the VPXbus and the XVPX 6300 The green pass and red fail LEDs are used as an indication of board health during the BIOS boot up As the BIOS starts the POST the red fail LED will be turned off When the BIOS completes POST the green PASS LED is turned on Software Programmable Features There are several BIOS programmable features available in the Xembedded section of the BIOS setup Main Xembedded Advanced Jecurirty Boot Exit Ch o m Item Specific Help gt Autom RAAAAAAAAAAAAAAAAAAAAAAAAR Receive VPX Reset Auto PCI Express Co
12. Acromag kd THE LEADER IN INDUSTRIAL 1 0 XVPX 6300 Single Slot VPX Intel Core i7 Processor Module USER S MANUAL ACROMAG INCORPORATED Tel 248 295 0310 30765 South Wixom Road Fax 248 624 9234 P O BOX 437 Email solutions acromag com Wixom MI 48393 7037 U S A Copyright 2012 Acromag Inc Printed in the USA Data and specifications are subject to change without notice 8500 983 F12L010 Trademark Information Brand or product names are trademarks or registered trademarks of their respective owners Intel and Core are registered trademarks and Celeron is a trademark of Intel Corporation Windows Windows XP and Windows 70 are registered trademarks of Microsoft Corporation in the US and in other countries Copyright Information This document is copyrighted by Xembedded LLC Xembedded and shall not be reproduced or copied without expressed written authorization from Xembedded The information contained within this document is subject to change without notice Xembedded does not guarantee the accuracy of the information Associated Documents Due to the complexity of some of the parts used on the XVPX 6300 it is not possible to include all of the detailed data on all such devices in this manual A list of the specifications and data sheets that provide additional information is as follows VPX Standards VITA 46 0 VITA 46 6 VITA 65 0 http www vita com PLX http www plx com WARNING This is a
13. Class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures Warning for European Users Electromagnetic Compatibility European Union Directive 89 336 EEC requires that this apparatus comply with relevant ITE EMC standards EMC compliance demands that this apparatus is installed within a VPX enclosure designed to contain electromagnetic radiation and which will provide protection for the apparatus with regard to electromagnetic immunity This enclosure must be fully shielded An example of such an enclosure is a Schroff 7U EMC RFI VPX System chassis which includes a front cover to complete the enclosure The connection of non shielded equipment interface cables to this equipment will invalidate European Free Trade Area EFTA EMC compliance and may result in electromagnetic interference and or susceptibility levels that are in violation of regulations which apply to the legal operation of this device It is the responsibility of the system integrator and or user to apply the following directions as well as those in the user manual which relate to installation and configuration All interface cables should be shielded both inside and outside of the VPX enclosure Braid foil type shields are recommended for serial parallel and SCSI interface cables Where as external mouse cables are not generally shielded an internal mouse interface cable must either be shi
14. E AS e A dd TEE E E E A A TEA EAE ANA 2 6 PGI Express COmmon Glock carcinoma 2 7 NAND Flash Enable a aa a aae aa a aa iia 2 7 NAND Flas K NVMROSettiNg i in oann ic 2 7 Gonsole Redirection Porten n rana e a aaa a taa aa a aaa a aaa asa E a aa aaan Ea aaaea raS aa aaa Ea a aa he AEA SAAE GS 2 7 Rear Seral Port Protocolar 2 7 Enable PXE Bootsy E T E E E A E tits 2 7 A NN 2 7 CRU TUDO MOG e aE n E EAE ALEE EE NERIENE AE N EENE AEE dee E IC A AAA EAE dnd 2 7 Sta A A 2 8 Board Keying oia atadas 2 8 Installation NOteS cocida 2 8 Chapter 3 Accessory MOdUlES a r li d s 3 1 KN PX 96SO EENE EAE E E TE E A EEE A TS 3 1 JUMNPLSIS A Ae AER AEEA ARE ERRARE RRA 3 1 COMMEGCIONS erranari eaS dd AA RAE ADRIE igtuatdecehesuaziadsssdicehedetdiaecats dcdhwauteiadeshddiebeause taeavidcctiasuneted 3 2 PAIN EE ATEA Ai tri 3 2 Batty E EA EE ATEOS ie 3 2 Introduction Chapter 1 Introduction Module Features The XVPX 6300 offers the following features Intel Core i7 Processor Available models are all dual core i7 610E at 2 53GHz i7 620LE at 2GHz and i7 620UE at 1 06GHz 4GB of DDR3 SDRAM running at 1033MHz 610E 620LE or 800MHz 620UE Four channels of SATA 300 out the P1 and P2 rear connectors Use the XVPX 9630 to provide the connectors needed to connect external SATA drives Quad Gigabit Ethernet controller with o One 10 100 1000BaseT port out the front panel RJ 45 connector o One 10 100 1000BaseT port out the P1 to support rear Ethernet s
15. NtEfa CE acoso coria cooerner a a O Oran Aa Ei 1 3 Seral PONS RO O NA 1 3 Real Time CIO K aare a ca sxceees bance ca ANA ET sa cde taste cea ance baeede cau A ETATE AE 1 3 Environmental Specifications cccccccccesseeceececeeeeeeeaeeeeaeeceaeeeceaeeeeaaeseaeeeaeeeceaeseeaaeseaeeeceaeeeeaaeseeaeeeneeeeseaeeseaaeseeneeee 1 4 ElammabililY oo AA 1 4 EMI EMC Regulatory COMPplianCe oooonnnncinncnnnccnnnncnnnccnnnncccnnnnnn aran cnc 1 4 I2C Bus and Temperature SENSO occcinnnccinnccinnccono cananea 1 4 Hardware Specifications taaan 1 5 B ld Levels cota tro a OEA E T AIR ARA 1 6 Ordering Informal taaan in ia eden aaa A EE ASR 1 6 Chapter 2 Installation and Setup ccssccsceceeseeesseeeeeeeeenseeeeeeeesaaeenseeeeneeeeseaeseseeesnseaeseaesescaesesneeseseeeseaeseseaeenseaeeees 2 1 J mper Settings ueni ieiunii a ae ee A A AE ve ace ee aA iY 2 1 COME Sci aa a EEEE A A A E NE E IIA sheen 2 2 MPA CON NECIOS gt 2255 aida A A A EA N EEE a aA 2 2 FPANEL iiine A A A A Ja ee el Fa 2 5 Front Panel Layout aoier aai naar EAE EAEE VEEE ete vee POEA A ER VAA ETE VET E VOR idol 2 5 Front Panel LEDs and Reset SwitCh ccceccceceseeeeeeeeeeneeeeeeeeceaeseeaaeesaneeceaeeseaaesaaeeeaeeesaaesseaaeseeeeseaeeeeaeeeeneeeeaes 2 6 Software Programmable Features ccccccceesceceeeeeceeeeesaeseeneeceaeeecaaesaeeceeeeeceaeeeeaaesgaeeesaeeeeaaeseeaeeseeeesaeeeeaeesenees 2 6 YPX RESET Diyen iii a a A a E E E a TEN 2 6 Receive VEA RESET rero Enare
16. O LL Z 6 1 1000BASE T QUAD GIGABIT ETHERNET o or z i OASE EX INTEL B2090DB pole 2 USB 2 0 T SATA BASED Ai 2 USB 2 0 3GB s SATA NAND FLASH Z 2 3GB s SATA 8GB xt Q INTEL QM57 PCH A AUDIO LINE IN LINE OUT IBEXPEAKEM SPI BIOS E 2 USB 2 0 Z 2 3GB s SATA VGA O o e 2 PCle X1 1 RS 232 oe Oo SINGLE LINK DVI A 2 PCle 100MHz Common Clock X 14 Q lt Ol ro lt x a gt Ww 2 RS 232 422 485 SERIAL BIOS SOFTWARE SELECTABLE POMAR eer WIDER ow BRIDGE SWITCH VGA gt Architecture CPU Chip The Intel i7 processors have a new micro architecture but remain software compatible with previous members of the Intel microprocessor family The Intel Core i7 610E 620LE and 620UE all contain two cores that can run independent processes potentially doubling performance With a maximum junction temperature of 105 C the Intel Core 7 processors are capable of withstanding a great deal of thermal stress The 18 watt Intel Core 7 620UE 1 06 GHz dual core processors provide low power options and the 35W Intel Core i7 610E 2 53GHz dual core processors provide higher performance options 1 2 Introduction Onboard Memory SDRAM Memory The XVPX 6300 is configured with 4GB of DDR3 memory soldered down Flash BIOS The XVPX 6300 system BIOS is contained in an 8MB flash device to facilitate system BIOS updates Contact Xembedded support for available updates at support xembedded com if needed Be sure to
17. elded or looped 1 turn through a ferrite bead at the enclosure point of exit bulkhead connector External cable connectors must be metal with metal back shells and provide 360 degree protection about the interface wires The cable shield must be terminated directly to the metal connector shell shield ground drain wires alone are not adequate VPX panel mount connectors that provide interface to external cables e g RS232 USB keyboard mouse etc must have metal housings and provide direct connection to the metal VPX chassis Connector ground drain wires are not adequate Environmental Protection Statement This product has been manufactured to satisfy environmental protection requirements where possible Many of the components used structural parts printed circuit boards connectors batteries etc are capable of being recycled Final disposition of this product after its service life must be accomplished in accordance with applicable country state or local laws or regulations REVISION DESCRIPTION DATE A Initial Release 6 10 B Edits 9 11 Updated PCB artwork and made numerous E 4 12 changes Added warning about option ROM usage on E1 FAT PIPE B Added testing conditions for 9 12 temperature specifications This VPX Single Slot Intel Core i7 Processor Modules designed to be used in a VPX backplane that supports module profiles MOD3 PAY 2F2T 16 2 5 3 or MOD3 PAY 2F2U 16 2 5 3 Use of this module in any ot
18. her backplane profile could result in damage to this module or others in the chassis Note Technical Support In the unlikely event that you experience problems with your product contact Technical Support Please be prepared to provide contact information and details of your problem You may be asked for further details when calling TELEPHONE 248 295 0885 FAX 248 624 9234 Support may also be obtained via email E mail to xembedded acromag com Table of Contents Chapter T Introduction cuties t aa tae eluata aa ee Eaa aaa daara oaa aa ie hace 1 1 Module FOAatures coi aa aa A S E EE E Ea 1 1 Module and Backplane Profiles 0 0 cccccceecceceeseeceeeeeeeeeeeeeeeceeeeneceeeeaececesaaeeeeeeneaeeesaeeeeesneececesneeeeeeneeeeeesnaeeeesennnaes 1 1 o eenen ete sete we bate nti ae ita rath teed ae eee ede ha ete eet te eee edt etl ete eee a a ets 1 1 ESD Safe Work Area GuidelineS 0 ccccceeeeeeeeeceeeeeeeeeneeceeeeecaaeseeaaeeeaeeeseaeeecaaesecaeeseeeeesaeessaaeseeeeeseaeeesiaeeseeeenaes 1 1 Operational Block Diagram cccccceceeeeeeeneeeeeeeceeeeecaaeeeeaaeceeneeceaeeecaaeseeaeeseeeeesaaeeeeaaeseeeesaeeesaaesseaeeseeeeseaeeesaeeeenees 1 2 ACIS CLUS as ok vo ss een aa a once nate ro ae pea eae dee eee ade ce ee Pa ede ey a ie eee Ei 1 2 CPU GAO cli ia eget verse Ste ates 1 2 OnboardiMem ony cita rial o pate ees ots lei ira 1 3 Ethernet Controller eian ar Ina Ti NIE ear Ta ST 1 3 Storage DEVICES vicio aa 1 3 VEXDUSI
19. here is one I2C bus to access the FRU Field Replaceable Unit which can store user data This device will also report board temperature and status Caution The XVPX 6300 requires air flow of at least 200 LFM for the air cooled version If the conduction cooled XVPX 6300 is operating on an extender card it requires air flow of at least 300 LFM across it Versions using the REDI covers MUST NOT operate outside of a fully configured and fully installed conduction cooled REDI system With the covers installed conduction is the only cooling method Introduction ENVIRONMENTAL SPECIFICATION OPERATING NON OPERATING THERMAL Air cooled Air cooled Air cooled 610E 0 to 55 C w 200 Ifm airflow 40 to 85 C 620LE 0 to 65 C w 200 Ifm airflow 620UE 0 to 70 C w 200 Ifm airflow Extended air cooled Extended air cooled Extended air cooled 610E 20 to 60 C w 200 Ifm airflow 40 to 85C 620LE 20 to 70 C w 200 Ifm airflow 620UE 20 to 75 C w 200 Ifm airflow Conduction cooled Conduction cooled si All 40 to 85 C pa i o measured at board heatsink rail HUMIDITY 20 80 RH non condensing SHOCK 30 g peak acceleration 11msec 50 g peak acceleration 11 msec duration duration VIBRATION 0 015 0 38mm peak to peak 0 030 0 76mm peak to peak 5 2000 Hz displacement 2 5 g maximum displacement 5 g maximum acceleration acceleration COMPLIANCE VITA 46 4 PCle x4 port VITA 46 6 Dual Gigabit Ethe
20. iguration 2 7 Installation and Setup Note With Turbo Mode enabled a power supply and or backplane combination incapable of supplying large instantaneous current surges may result in spurious resets of the board Installation The XVPX 6300 can connect to other cards on the VPX bus through two Fat Pipes PCle x4 but also supports smaller link widths Review the Safety Notices section before installing the board The following notices also apply Caution The XVPX 6300 has been specifically designed for use with 3U VPX backplanes and may not be compatible with some 6U backplanes Plugging the board into an unsupported 6U VPX backplane may cause permanent component damage Consult the enclosure documentation to ensure that the XVPX 6300 s power requirements are compatible with those supplied by the backplane Board Keying The 3U VPX backplane specification requires all backplane slots to have two guide pins one above the JO connector and one below the J2 connector As well as providing correct alignment these pins are keyed to prevent cards from being inserted into incorrect backplane slot s to avoid electrical incompatibility The XVPX 6300 has receptacles for these guide pins see the Connectors section By default these are not keyed Please contact the factory to discuss keying requirements Installation Notes 1 Keying may dictate the backplane slot s into which the XVPX6300 can be inserted 2 Air cooled ver
21. mmon Clock Auto 3 Set VPX Reset a gt Nand Flash Enable Enabled 3 Attributes to Auto 4 Nand Flash NVMRO Setting Auto gt Enabled or Disabled 37 Console Redirection Port Serial Port 0 3 Rear Serial Port Protocol RS 232 3 NOTE In Auto mode a Enable PXE Boot Disabled 3 settings will be H z DVI Enabled 3 determined by the e a SYSCON 3 s s 3 r 3 If board is SYSCON 3 gt this setting is a gt gt Enabled Board will z E gt drive out VPX Reset Al 3 gt s s 3 s VPX RESET Driven Enabled Local XVPX 6300 i7 PLT_RESET drives VPX SYS_RESET Disabled Local XVPX 6300 i7 PLT_RESET does not drive VPX SYS_RESET Auto Determined by state of VPX SYS_CON pin SYS_CON LOW Enabled SYS_CON HIGH Disabled Receive VPX RESET Enabled VPX SYS_RESET will reset the XVPX 6300 Disabled VPX SYS_RESET will not reset the XVPX 6300 Auto Determined by state of VPX SYS_CON pin SYS_CON LOW Disabled SYS_CON HIGH Enabled 2 6 Installation and Setup PCI Express Common Clock Enabled Drives out 100MHZ clock on VPX PO REFCLK pins Disabled Does not drive out 100MHZ clock on VPX PO REFCLK pins Auto Determined by state of VPX SYS_CON pin SYS_CON LOW Enabled SYS_CON HIGH Disabled NAND Flash Enable Enabled Onboard 8GB NANDFlash SSD is enabled for use Disabled Onboard 8GB NANDFlash SSD is disabled and cannot be used NAND Flash NVMRO Setting Read Write Onboard 8GB NANDFlash
22. rnet ports VITA 48 VPX REDI covers and VITA 65 VPX System specs and practices FORM FACTOR 3U VPXbus 6 5 165 1mm 94 100 1mm 8 20mm Designed to meet these temp specifications regardless of system utilization without PMC XMC installed Lesser system utilization and or higher airflow may allow higher operating temp although in no case should 85 C be exceeded CPU temp should be closely monitored for max junction temp of 105 C using a program such as Argus Monitor if exceeding the temps stated here Every board tested to ensure these temp specifications regardless of system utilization without PMC XMC installed Lesser system utilization and or higher airflow may allow higher operating temp although in no case should 85 C be exceeded CPU temp should be closely monitored for max junction temp of 105 C using a program such as Argus Monitor if exceeding the temps stated here Every board tested to ensure these temp specifications Tested under Windows 7 with Passmark BurnInTest version 5 0 running CPU Memory and 3D Graphics tests simultaneously During application testing CPU temp should be closely monitored for max junction temp of 105 C using a program such as Argus Monitor if exceeding measured rail temp of 70 C thermocouple inside provided heatsink hole Hardware Specifications CHARACTERISTIC SPECIFICATION POWER Intel i7 610E Processor 8GB Intel i7 620LE Processor 8GB
23. sions have an ejector handle to ensure that the backplane connectors mate properly with the backplane The captive screws at the top and bottom of the front panel allow the XVPX 6300 to be tightly secured in position which provides continuity with system chassis ground 3 Conduction cooled and REDI versions have screw driven wedge locks at the top and bottom of the board to provide the necessary mechanical thermal interface Correct adjustment requires a calibrated torque wrench set to between 0 6 and 0 8 Nm 4 In an air cooled development enclosure when making I O connections from the backplane connectors use of Xembedded s RTM modules or some equivalent system ensures optimum operation with regard to EMI 2 8 Accessory Modules Chapter 3 Accessory Modules XVPX 9630 The optional XVPX 9630 Rear Transition Module is used for easy interfacing to the XVPX 6300 s P1 and P2 I O The base board contains a standard 15 pin VGA 2 standard USB A 2 standard 7 pin SATA and 5 pin audio PIM modules are used to add additional connectors Standard and Custom PIMs are available Fig 4 1 shows the XVPX 9630 101 The following configurations are available XVPX 9630 100 Rear Transition Module with VGA 2 USB 2 SATA Serial audio and SMBUS XVPX 9630 101 Same as XVPX 9630 100 plus Ethernet 2 SATA and 3 pin RS 232 XVPX 9630 102 Same as XVPX 9630 100 plus Dual Ethernet and 3 pin RS 232 XVPX 9630 103 Same as XVPX 96
24. t air cooled only on the 26 pin cable and two serial ports out the back switchable from RS 232 to RS 422 485 by changing the value in the BIOS setup screen Note this setting affects both ports at the same time Real Time Clock The RTC is part of the Intel QM57 device and is powered from the P3V3_AUX rail over the backplane or by the VPX VBAT supply As long one of these is present the system clock is maintained if all power is removed the RTC function is reset Introduction Environmental Specifications Flammability The circuit board is made by an UL recognized manufacturer and has a flammability rating of UL94V 1 EMI EMC Regulatory Compliance Caution This module generates uses and can radiate electromagnetic energy It may cause or be susceptible to EMI if not installed and used in a cabinet with adequate EMI protection The XVPX 6300 is designed using good EMC practices and when used in a suitably EMC compliant chassis should maintain the compliance of the total system The XVPX 6300 also complies with EN60950 product safety which is essentially the requirement for the Low Voltage Directive 73 23 EEC Air cooled build levels of the XVPX 6300 are designed for use in systems meeting VDE class B EN and FCC regulations for EMC emissions and susceptibility Conduction cooled and REDI build levels of the XVPX 6300 are intended for integration into EMC hardened cabinets boxes 12C Bus and Temperature Sensor T
25. upports VITA 46 6 o Either a second 10 100 1000BaseT port out the P1 Profile A or two 1000BaseBX ports out the P1 Profile B Both profiles support VITA 46 6 Two PCle x4 connections to the VPX backplane Fat Pipe A and Fat Pipe B Three serial ports o Two switchable RS 232 RS 422 RS 485 serial ports Com 1 amp 2 on P2 o One RS 232 serial port on front panel Com 4 Six Universal Serial Bus USB 2 0 ports o Two on front panel connector o Four out the P1and P2 rear connectors Front panel RESET switch with indicating lights Red for fail and green for pass Ejector type handles in IEEE 1101 10 CompactPCI type Conduction cooled models available supporting 40C to 85C operational temperature range Stereo audio line in and line out on P2 rear connector VGA switchable between front panel and P2 connector DVI D on P2 rear connector Module and Backplane Profiles This VPX Single Slot Intel Core i7 Processor Modules designed to be used in a VPX backplane that supports module profiles MOD3 PAY 2F2T 16 2 5 3 or MOD3 PAY 2F2U 16 2 5 3 Use of this module in any other backplane profile could result in damage to this module or others in the chassis Handling Modules should be handled in ESD safe work areas in order to prevent damage to sensitive components from electrostatic discharges These areas must be designed and maintained to prevent ESD damage ESD Safe Work Area Guidelines Module should be handled at properly
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