cPCI-6210 Series 6U CompactPCI Processor Blade with Quad-Core Intel® Core™ i7 User’s Manual Manual Rev. 2.03 Revision Date: November 13, 2014 Part No: 50-15079-1020 Advance Technologies; Automate the World.
Revision History ii Revision Release Date Description of Change(s) 2.00 23/02/2012 Initial release 2.01 26/03/2012 Correct LAN1/2 locations; LAN3/4 signal names in J3/5 pin definitions; LVDS support note 2.02 14/04/2014 Correct SW9 COM1 setting 2.
cPCI-6210 Preface Copyright 2012 ADLINK Technology Inc. This document contains proprietary information protected by copyright. All rights are reserved. No part of this manual may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
Using this Manual Audience and Scope The cPCI-6210 User’s Manual is intended for hardware technicians and systems operators with knowledge of installing, configuring and operating industrial grade CompactPCI modules. Manual Organization This manual is organized as follows: Chapter 1, Overview: Introduces the cPCI-6210, its features, block diagrams, and package contents. Chapter 2, Specifications: Presents detailed specification information, and power consumption.
cPCI-6210 Conventions Take note of the following conventions used throughout this manual to make sure that users perform certain tasks and instructions properly. Additional information, aids, and tips that help users perform tasks. NOTE: CAUTION: WARNING: Preface Information to prevent minor physical injury, component damage, data loss, and/or program corruption when trying to complete a task.
This page intentionally left blank.
cPCI-6210 Table of Contents Revision History...................................................................... ii Preface .................................................................................... iii List of Tables.......................................................................... xi List of Figures ...................................................................... xiii 1 Overview ............................................................................. 1 1.1 Introduction ...
4.2 cPCI-6210D Assembly Layout ........................................... 24 4.3 cPCI-6210(D) Front Panel ................................................. 25 4.4 Connector Pin Assignments............................................... 27 4.5 Switch and Jumper Settings .............................................. 46 5 Getting Started .................................................................. 49 5.1 CPU and Heatsink ............................................................. 49 5.
cPCI-6210 9.3 OEM Commands Summary Table................................... 115 9.4 CompactPCI Address Map .............................................. 119 9.5 Communications with IPMC............................................. 120 9.6 IPMI Sensors List............................................................. 120 9.7 Relevant Documents ....................................................... 121 Important Safety Instructions ............................................ 123 Getting Service.
This page intentionally left blank.
cPCI-6210 List of Tables Table 2-1: Table 2-2: Table 2-3: Table 4-1: Table 4-2: Table 4-3: Table 4-4: Table 4-5: Table 4-6: Table 4-7: Table 4-8: Table 4-9: Table 4-10: Table 4-11: Table 4-12: Table 4-13: Table 4-14: Table 4-15: Table 4-16: Table 4-17: Table 4-18: Table 4-19: Table 4-20: Table 4-21: Table 4-22: Table 4-23: Table 4-24: Table 4-25: Table 4-26: Table 4-27: List of Tables cPCI-6210 Specifications ......................................... 9 cPCI-6210 I/O Connectivity .........................
This page intentionally left blank.
cPCI-6210 List of Figures Figure 1-1: Figure 4-1: Figure 4-2: Figure 4-3: List of Figures cPCI-6210 Series Block Diagram .............................. 3 cPCI-6210(D) Series Board Layout ......................... 23 cPCI-6210D Assembly Layout................................. 24 cPCI-6210(D) Front Panel Layout ...........................
This page intentionally left blank.
cPCI-6210 1 Overview 1.1 Introduction The cPCI-6210 Series is a 6U CompactPCI single board computer in single-slot (4HP) or dual-slot (8HP) width form factor featuring the 2nd generation Intel® Core™ i7/i5 processors in FCPGA988 socket, with both graphics and memory controllers integrated in the processor. The cPCI-6210 supports dual channel DDR3-1066/1333 SDRAM via two SO-DIMM sockets, up to 16GB. Accompanying the processor is the QM67 Platform Controller Hub.
1.2 Features 2 X 6U CompactPCI blade in 4HP or 8HP width form factor X Supports 2nd generation Intel® Core™ i7/i5 processors in FCPGA988 socket (Core™ i7-2710QE: 4 cores, 6M cache, 2.
cPCI-6210 PMC PCIe x8 BIOS PCIe x1 PCIe x4 SPI PCIe x1 DVI-I USB1 USB2 DP USB3 LAN3 DP-D RGB DVI-B 2x PCIe x1 DMI Intel Core™ i7 or Celeron® QM67 PCH FDI LPC 200-pin SO-DIMM 200-pin SO-DIMM SATA0 PCIe x1 PCIe x4 DDR3 1066/1333 SIO ITE8783 COM6 BMC IPMB 0/1 J1/J2 Intel Intel 82574L 82574L PCIe x8 ® PI7C9X130 3x USB Intel 82579LM TI XIO2001 B2B PCIe x4 LAN1 LAN2 2x COM, KB/MS XMC PCI 32-bit/66MHz COM1 Front Panel COM5 KB/MS 1.
1.
cPCI-6210 1.5 Package Contents The cPCI-6210 is packaged with the components listed below (RTMs and adapter kits are optional). If any of the items in the contents list are missing or damaged, retain the shipping carton and packing material and contact the dealer for inspection. Please obtain authorization before returning any product to ADLINK. The packing contents of non-standard configurations may vary depending on customer requests.
The contents of non-standard cPCI-6210 Series configurations may vary depending on customer requests. NOTE: CAUTION: 6 This product must be protected from static discharge and physical shock. Never remove any of the components except at a static-free workstation. Use the anti-static bag shipped with the product when putting the board on a surface. Wear an anti-static wrist strap properly grounded on one of the system's ESD ground jacks when installing or servicing system components.
cPCI-6210 2 Specifications 2.1 cPCI-6210 Specifications CompactPCI Standard PICMG® 2.0 CompactPCI® Rev. 3.0 PICMG® 2.1 Hot Swap Specification Rev.2.0 PICMG® 2.9 System Management Bus Rev. 1.0 PICMG® 2.16 Packet Switching Backplane Rev.1.0 Standard 6U CompactPCI® Board size: 233.23 mm x 160mm Mechanical cPCI-6210: Single slot (4HP, 20.32mm) width with single slot height heatsink cPCI-6210D: Dual slot (8HP, 40.
Ethernet Serial Ports USB Audio TPM Up to four 10/100/1000BASE-T ports One Intel® 82579LM PHY controller for LAN2 and three PCIe x1 Intel® 82574L GbE controllers for LAN1/3/4 LAN1/2/3 on front panel and LAN3 switchable to J3 for PICMG 2.16 support LAN4 routed to J3 for PICMG 2.16 Up to four serial ports One RS-232/422/485 serial port1 on front panel, additional RS-232 port onboard (output to front panel by cable in cPCI-6210D version) Two serial ports routed to rear I/O Up to three USB 2.
cPCI-6210 BIOS AMI® EFI BIOS 64Mbit SPI flash memory OS Support Microsoft Windows XP Professional Microsoft Windows 7 64-bit Red Hat Enterprise Linux 6 64-bit Fedora 14 32-bit Other OS support on request Standard: 0°C to 60°C Operating Extended Temperature: -40°C to +70°C 3 Temperature Extreme Extended Temperature*: -40°C to +85°C (w/ forced airflow) (*Core™ i7-2510E or Celeron® B810, 8HP only) Storage temperature Humidity -40°C to 85°C 95% @60°C non-condensing Shock 15G peak-to-peak, 11ms duration,
2.2 I/O Connectivity cPCI-6210 Processor Blade cPCI-6210 cPCI-6210D RTM1 Function Faceplate Board Faceplate Board J3/J5 Gigabit Ethernet Y x3 Y x3 Y x22 COM Y Y x2 Y x2 USB 2.0 Y x3 Y x3 Y x6 DVI-I Y Y Y (DVI-D) Y (RGB) 3 RGB DP Y Y SATA Y x2 Y x2 CFast Y Y CF Y4 Y4 PS/2 KB/MS Y Y HDA Y x2 Y Y LEDs Y x4 Y x4 Reset Button Y Y Table 2-2: cPCI-6210 I/O Connectivity Notes: 1. Signals are passed through to the RTM.
cPCI-6210 2.3 Power Requirements In order to guarantee a stable functionality of the system, it is recommended to provide more power than the system requires. An industrial power supply unit should be able to provide at least twice as much power as the entire system requires of each voltage. An ATX power supply unit should be able to provide at least three times as much power as the entire system requires. The tolerance of the voltage lines described in the CompactPCI specification (PICMG 2.0 R3.
Power Consumption This section provides information on the power consumption of the cPCI-6210 Series with different CPUs, 2x 4GB DDR3-1066 SO-DIMM memory and onboard 160GB SATA hard disk. The cPCI-6210 is powered by 5V and 3.3V. Power consumption at 100% CPU usage was measured by running the Intel Thermal Analysis Tool (TAT) and Turbo Boost and Hyper-Threading Technology were enabled. Intel® Core i7-2710QE OS/Mode Current 5V Current 3.3v Total Power DOS/Idle mode 2.54 A 1.36 A 17.
cPCI-6210 2.4 Thermal Requirements This section provides information on the thermal requirements of the cPCI-6210 Series. Cooling of the board and its components is provided by the thermal module (passive heatsink) and is dependent on sufficient airflow from the chassis. The amount of thermal energy that can by dissipated from the board is dependent on the ambient air temperature and the airflow rate of the chassis.
Intel® Core™ i7-2710QE (cPCI-6210) 70 Max. Air Inlet Temp. (°C) 60 50 40 30 20 10 0 12 15 18 21 24 27 Airflow Rate (CFM) 100% CPU Loading 75% CPU Loading Intel® Core™ i7-2710QE (cPCI-6210D) 80 Max. Air Inlet Temp.
cPCI-6210 Intel® Core™ i5-2510E (cPCI-6210) 80 Max. Air Inlet Temp. (°C) 70 60 50 40 30 20 10 0 9 12 15 18 21 24 27 Airflow Rate (CFM) 100% CPU Loading 75% CPU Loading Intel® Core™ i5-2510E (cPCI-6210D) 90 Max. Air Inlet Temp.
This page intentionally left blank.
cPCI-6210 3 Functional Description The following sections describe the cPCI-6210 Series features and functions. 3.1 Processor Intel® Core™ i7 Processor The 2nd Generation Intel® Core™ processor family mobile and Intel® Celeron® processor family mobile are the next generation of 64-bit, multi-core mobile processor built on 32- nanometer process technology. Based on a new micro-architecture, the processor is designed for a two-chip platform.
Supported Technologies X Intel® Virtualization Technology for Directed I/O (Intel® VT-d) X Intel® Virtualization Technology (Intel® VT-x) X Intel® Hyper-Threading Technology X Intel® 64 Architecture X Execute Disable Bit X Intel® Turbo Boost Technology Interfaces X Two channels of DDR3 memory with a maximum of one SO-DIMM per channel X Memory DDR3 data transfer rates of 1066 MT/s, 1333 MT/s, and 1600 MT/s X 64-bit wide channels X DDR3 I/O Voltage of 1.
cPCI-6210 3.2 Chipset Mobile Intel® QM67 Express Chipset The cPCI-6210 Series is equipped with the Mobile Intel® QM67 Express Chipset, also referred to as PCH (Platform Controller Hub), to provide extensive I/O support. Functions and capabilities include: X PCI Express Base Specification, Revision 2.0 support for up to eight ports with transfer rate up to 5 GT/s X ACPI Power Management Logic Support, Revision 4.
3.3 PMC/XMC The cPCI-6210D Series supports one PMC or XMC site for front panel I/O expansion. The PMC site provides a maximum 32-bit/66MHz PCI bus link using a TI XIO2001 PCIe-to-PCI bridge and PCIe x1 link. The PMC site supports +3.3V and 5V signaling. The XMC site provides a x8 PCIe lane. 3.
cPCI-6210 3.6 Trusted Platform Module Upon request, the cPCI-6210 supports the Infineon SLB 9635 TT 1.2 Trusted Platform Module (TPM), a security controller with cryptographic functionality that provides users a secure environment in e-commerce transactions and Internet communications. The key features the TPM provides are: X Hardware hash accelerator for SHA-1 algorithm. X Advanced Crypto Engine (ACE) for asymmetric key operations (up to 2048-bit key length) to make hardware protection.
3.7 Battery The cPCI-6210 is equipped with a 3.0V "coin cell" lithium battery for the Real Time Clock (RTC). The lithium battery must be replaced with an identical battery or a battery type recommended by the manufacturer. A Rayovac BR2032 with -40°C to +85°C operating temperature support is equipped on board by default 3.8 Intel® Active Management Technology Intel® Active Management Technology (Intel® AMT) is a hardware based technology for remotely managing and securing PCs out-of-band.
cPCI-6210 4 Board Interfaces This chapter describes the board layout, connector pin assignments, and jumper settings of the cPCI-6210 Series. 4.
4.
cPCI-6210 4.3 cPCI-6210(D) Front Panel cPCI-6210 Status LEDs DisplayPort Reset Button DVI-I GbE 1/2/3 USB 2.0 COM1 USB 2.
Status LEDs HD WD PW HS RST LED Color Power (PW) Green Hot Swap (HS) Blue Condition Off Indication System is off On System is on Off Handles closed, System is on Fast Blink Preparing to shut down system (LED: 0.1s on, 0.9s off) On Handles open and blade ready to be removed Voltages out of tolerance: Slow Blink1 3.3V, 5V, 12V, 1.
cPCI-6210 4.
RJ-45 Gigabit Ethernet Connectors Pin # 10BASE-T/ 100BASE-TX 1000BASE-T 1 TX+ LAN_TX0+ 2 TX- LAN_TX0- 3 RX+ LAN_TX1+ 4 -- LAN_TX2+ 5 -- LAN_TX2- 6 RX- LAN_TX1- 7 -- LAN_TX3+ 8 -- LAN_TX3+ 1 Speed 8 Activity Table 4-3: GbE Connector Pin Definitions Status Speed LED (Green/Amber) Activity LED (Amber) Network link is not established or system powered off OFF OFF OFF ON Active OFF Blinking Link Green ON Active Green Blinking Link Amber ON Active Amber Blinki
cPCI-6210 COM1 Connector (DB-9) Pin # RS-232 RS-422 RS-485 1 DCD-L — — 2 RXD RXD- — 3 TXD TXD- TXD- 4 DSR-L — — 5 Ground — — 6 DSR-L — — 7 RTS-L TXD+ TXD+ 8 CTS-L RXD+ — 9 — — — Table 4-4: COM1 Connector Pin Definition NOTE: The COM1 RS-422/485 pin definitions are different from the common DB-9 pin definitions. An RS-422/485 DB-9 male-female adapter dongle is provided to allow compatibility with common RS-422/485 pin definitions.
COM1 Connector with RS-422/485 Dongle (DB-9) Pin # RS-422 RS-485 1 TXD- TXD- 2 TXD+ TXD+ 3 RXD+ — 4 RXD- — 5 — — 6 — — 7 — — 8 — — 9 — — Table 4-6: COM1 Connector with RS-422/485 Dongle Pin Definition COM5 Box Header Pin # RS-232 1 DCD-L 2 DSR-L 3 RXD 4 RTS-L 5 TXD 6 CTS-L 7 DTR-L 8 RI-L 9 Ground 10 NC 1 2 9 10 Table 4-7: COM5 Box Header Definition 30 Board Interfaces
cPCI-6210 COM5 Connector (DB-9) Pin # RS-232 1 DCD-L 2 RXD 3 TXD 4 DSR-L 5 Ground 6 DSR-L 7 RTS-L 8 CTS-L 9 RI-L Table 4-8: COM5 Connector Pin Definition The COM5 DB-9 front panel connector is only available on the cPCI-6210D (8HP) version.
DVI-I Connector Pin # Signal Pin # Signal 1 TMDS Data2- 16 Hot Plug Detect 2 TMDS Data2+ 17 TMDS Data0- 3 GND 18 TMDSData0+ 4 NC 19 GND 5 NC 20 NC 6 DDC Clock [SCL] 21 NC 7 DDC Data [SDA] 22 GND 8 Analog vertical sync 23 TMDS Clock + 9 TMDS Data1- 24 TMDS Clock - 10 TMDS Data1+ C1 Analog Red 11 GND C2 Analog Green 12 NC C3 Analog Blue 13 NC C4 Analog Horizontal Sync 14 +5 V Power C5 Analog GND Return 15 GND Table 4-9: DVI-I Connector Pin Definiti
cPCI-6210 DisplayPort Connector Pin # Signal Pin # Signal 1 CN_DP0_P 2 Ground 3 CN_DP0_N 4 CN_DP1_P 5 Ground 6 CN_DP1_N 7 CN_DP2_P 8 Ground 9 CN_DP2_N 10 CN_DP3_P 11 Ground 12 CN_DP3_N 13 CN_CAD-L 14 CN_CEC 15 CN_AUX_P 16 Ground 17 CN_AUX_N 18 DDP_HPD 19 Ground 20 P3V3 1 2 19 20 Table 4-10: DisplayPort Pin Definition Serial ATA Connector (CN15) Pin # Signal 1 2 3 4 5 6 7 GND TX+ TXGND RXRX+ GND 1 7 Table 4-11: Serial ATA Connector Pin Definition Board
CFast Socket (CN17) Pin # Signal Name Ground S1 SATA_TX-P S2 SATA_TX-N S3 Ground S4 SATA_RX-N S5 SATA_RX-P S6 Ground S7 CFast_CDI P1 Ground P2 NC P3 NC P4 NC P5 NC P6 Ground P7 CFast_LED1 P8 CFast_LED2 P9 NC P10 NC P11 NC P12 P3V3 P13 P3V3 P14 Ground P15 Ground P16 CFast_CDO P17 1 24 P1 S1 Table 4-12: CFast Socket Pin Definition 34 Board Interfaces
cPCI-6210 Serial ATA Connector on DB-6920SAT Pin # Signal S1 GND S2 TX+ S3 TX- S4 GND S1 S5 RX- Signal S6 RX+ S7 GND P1 NC P2 NC P3 NC P4 GND P5 GND P6 GND P7 5V P8 5V P9 5V P10 GND P11 NC P12 GND P13~P15 NC S7 P1 Power P15 Table 4-13: DB-6920SAT SATA Connector Pin Definition Board Interfaces 35
DB-6920SAT Connector (CN12) Signal Name Pin # Pin # Signal Name GND 1 2 GND GND 3 4 GND GND 5 6 GND GND 7 8 GND GND 9 10 GND GND 11 12 GND GND 13 14 GND GND 15 16 GND GND 17 18 GND GND 19 20 GND GND 21 22 GND GND 23 24 GND GND 25 26 GND GND 27 28 GND GND 29 30 GND P3V3 31 32 P5V P3V3 33 34 P5V P3V3 35 36 P5V P3V3 37 38 P5V P1V8 39 40 12V P1V8 41 42 12V P1V8 43 44 12V GND 45 46 GND GND 47 48 SATA-TXN0 GND 49
cPCI-6210 PMC Connectors on DB-6210L2 (JN1, JN2) Pin# JN1 Signal JN2 Signal 1 PMC_TCK P12V 2 N12V* PMC_TRST-L 3 GND PMC_TMS 4 PCIX_INTA-L NC (PMC_TDO) 5 PCIX_INTB-L PMC_TDI 6 PCIX_INTC-L GND 7 PMC_MOD-L1 GND 8 P5V NC 9 PCIX_INTD-L NC 10 NC NC 11 GND PMC_MOD-L2 12 P3V3_PMCAUX P3V3 13 CLK66_PCIX_PMC PMC_RST-L 14 GND PMC_MOD-L3 15 GND P3V3 16 PCIX_GNT-L0 PMC_MOD-L4 17 PCIX_REQ-L0 PMC_PME-L 18 P5V GND 19 PMC_VIO PCIX_AD30 20 PCIX_AD31 PCIX_AD29 21
Pin# JN1 Signal JN2 Signal 33 PCIX_FRAME-L GND 34 GND NC 35 GND PCIX_TRDY-L 36 PCIX_IRDY-L P3V3 37 PCIX_DEVSEL-L GND 38 P5V PCIX_STOP-L 39 PCIX_PCIXCAP PCIX_PERR-L 40 PCIX_LOCK-L GND 41 NC P3V3 42 NC PCIX_SERR-L 43 PCIX_PAR PCIX_CBE-L1 44 GND GND 45 PMC_VIO PCIX_AD14 46 PCIX_AD15 PCIX_AD13 47 PCIX_AD12 PCIX_M66EN 48 PCIX_AD11 PCIX_AD10 49 PCIX_AD9 PCIX_AD8 50 P5V P3V3 51 GND PCIX_AD7 52 PCIX_CBE-L0 NC 53 PCIX_AD6 P3V3 54 PCIX_AD5 NC 55 PC
cPCI-6210 XMC Connector on DB-6210L2 Pin# A B C D E F 1 RXP RXN 3.3V NC NC VPWR 2 GND GND Not used GND GND PCIE_RST-L 3 NC NC 3.3V NC NC VPWR 4 GND GND Not used GND GND Not used 5 NC NC 3.3V NC NC VPWR 6 GND GND Not used GND GND +12V 7 NC NC 3.
DB-6210L2 Connector (CN9) Signal Name Pin # Pin # Signal Name GND 2 1 GND PCIE_A_RXP0 4 3 PCIE_A_TXP0 PCIE_A_RXN0 6 5 PCIE_A_TXN0 GND 8 7 GND PCIE_A_RXP1 10 9 PCIE_A_TXP1 PCIE_A_RXN1 12 11 PCIE_A_TXN1 GND 14 13 GND PCIE_A_RXP2 16 15 PCIE_A_TXP2 PCIE_A_RXN2 18 17 PCIE_A_TXN2 60 GND 20 19 GND PCIE_A_RXP3 22 21 PCIE_A_TXP3 PCIE_A_RXN3 24 23 PCIE_A_TXN3 GND 26 25 GND CLK-P 28 27 PCIE_RST-L CLK-N 30 29 GND GND 32 31 SML_DAT XMC1_RST-L 34 33
cPCI-6210 DB-6210L2 Connector (CN10) Signal Name Pin # Pin # Signal Name GND 2 1 GND PCIE_B_RXP0 4 3 PCIE_B_TXP0 PCIE_B_RXN0 6 5 PCIE_B_TXN0 GND 8 7 GND PCIE_B_RXP1 10 9 PCIE_B_TXP1 PCIE_B_RXN1 12 11 PCIE_B_TXN1 GND 14 13 GND PCIE_B_RXP2 16 15 PCIE_B_TXP2 PCIE_B_RXN2 18 17 PCIE_B_TXN2 GND 20 19 GND PCIE_B_RXP3 22 21 PCIE_B_TXP3 PCIE_B_RXN3 24 23 PCIE_B_TXN3 GND 26 25 GND PCIE_B_RXP4 28 27 PCIE_B_TXP4 PCIE_B_RXN4 30 29 PCIE_B_TXN4 GND 32 31
CompactPCI J1 Connector Pin Assignment Pin Z A B C D E F 25 GND +5V REQ64# ENUM# +3.
cPCI-6210 CompactPCI J2 Connector Pin Assignment Pin Z A B C D E F 22 GND GA4 GA3 GA2 GA1 GA0 GND GND 21 GND CLK6 GND NC NC NC 20 GND CLK5 GND NC GND NC GND 19 GND GND GND NC NC NC GND 18 GND NC NC NC GND NC GND GND 17 GND NC GND RSTBTN# REQ6# GNT6# 16 GND NC NC DEG# GND NC GND 15 GND NC GND FAL# REQ5# GNT5# GND 14 GND AD35 AD34 AD33 GND AD32 GND 13 GND AD38 GND V(I/O) AD37 AD36 GND 12 GND AD42 AD41 AD40 GND AD39 G
CompactPCI J3 Pin Assignment Pin Z A B C D E F 19 GND P5V P5V P12V P5V P5V GND 18 GND LAN3_D0+ LAN3_D0- GND LAN3_D2+ LAN3_D2- GND 17 GND LAN3_D1+ LAN3_D1- GND LAN3_D3+ LAN3_D3- GND 16 GND LAN4_D0+ LAN4_D0- GND LAN4_D2+ LAN4_D2- GND 15 GND LAN4_D1+ LAN4_D1- GND LAN4_D3+ LAN4_D3- GND 14 GND USB-OC4# USB-OC5# USB-OC6# USB-OC7# USB-OC8# GND 13 GND USB-P7+ USB-P7- GND USB-P8+ USB-P8- GND 12 GND USB-P5+ USB-P5- GND USB-P6+ USB-P6- GND 11 GND USB-P3+
cPCI-6210 CompactPCI J5 Pin Assignment Pin Z A B C D E F 22 GND NC LAN4_LINK_ACT# +3.3V LAN3_LINK_ACT# +3.
4.5 Switch and Jumper Settings Refer to “cPCI-6210(D) Series Board Layout” on page 23 for switch locations. Load BIOS Default Switch (SW2) Press switch SW2 to load the default BIOS settings. Front/Rear VGA/LAN Selection Switch (SW3) Switch SW3 sets the VGA and LAN3 outputs to the front panel or to the rear panel of the RTM. The default VGA and LAN3 outputs are set to the front panel.
cPCI-6210 Mode Switch (SW6) Switch SW6 is a multi purpose switch that allows users to define the board operating mode. Four pins independently control the mode setting. All are set to OFF by default. ON 1 Pin# Status 1 4 3 4 Description OFF Not used. ON Not used. OFF When the system does not include a CMM (Chassis Management Module), set this pin to OFF to allow IPMI to run in "without CMM mode". ON When the system includes a CMM, set this pin to ON to allow IPMI to run in "with CMM mode".
COM1/Debug Switch (SW8) Switch SW8 sets the COM1 serial port as a standard RS-232 serial port or as an IPMI debugging port. ON 1 3 2 4 Mode 1 2 3 4 RS-232 COM port (default) ON ON OFF OFF IPMI debugging port OFF OFF ON ON Table 4-25: COM1/Debug Switch Settings COM1 Mode Selection Switches (SW9,SW10) Switch SW9 sets the COM1 serial port to RS-232 or RS-422/485 mode and SW10 sets COM1 to RS-422 or RS-485 mode. When the SW9 is set to RS-232 mode, SW10 has no function.
cPCI-6210 5 Getting Started This chapter describes the installation of the following components to the cPCI-6210 and rear transition modules: X CFast card X CompactFlash card X 2.5” SATA hard drive X PMC/XMC module installation 5.1 CPU and Heatsink The cPCI-6210 Series comes with CPU and heatsink pre-installed. Removal of heatsink/CPU by users is not recommended. Please contact your ADLINK service representative for assistance. 5.2 CFast Card Installation Installing a CFast card – cPCI-6210 1.
2. Turn the board over (solder side up) and remove the two screws securing the CFast card retention bracket as indicated below. 3. Remove the CFast card retention bracket from the board.
cPCI-6210 4. Turn the board over (component side up), then align and insert the CFast card into the slot until it is properly seated. 5. Align the CFast card retention bracket with the screw holes as indicated.
6. Turn the board over (solder side up) and secure CFast card retention bracket to the board with two screws. 7. The CFast card installation is now complete.
cPCI-6210 5.3 CompactFlash Card Installation A CompactFlash card can be installed on the cPCI-6210 Series using the DB-6920CF CompactFlash adapter (ordering code "DB-CF-SA"). Note that the CompactFlash adapter occupies the same space as the 2.5” SATA drive and both cannot be installed at the same time. Installing a CF card – cPCI-6210 1. Locate the DB-6920CF CompactFlash adapter, CF retention bracket and four screws in the CompactFlash kit DB-CF-SA.
2. Align the CompactFlash adapter with the onboard SATA connector (CN12) and press down firmly until it is properly seated. 3. Turn the board over (solder side down) and secure adapter with two screws as shown.
cPCI-6210 4. Turn the board over (component side up) and insert a CompactFlash card into the slot on the adapter. Install the CF retention bracket with two screws as shown.
5.4 2.5” SATA Drive Installation The cPCI-6210D provides space to install a slim type 2.5” SATA drive. Installing a SATA Drive 1. Locate the DB-6920SAT daughter board in the package contents and connect it to 2.5” slim type drive. Mount the SATA drive onto the bracket as shown. Drive Bracket DB-6920SAT SATA Drive Make sure the adapter board is under the drive bracket to avoid damaging the SATA drive connectors.
cPCI-6210 2. Secure the SATA drive onto the bracket with the four screws provided in the package. This unit is now referred to as the “drive assembly”. 3. Locate the board-to-board SATA connector (CN12) on the cPCI-6210 as indicated below.
4. Align the drive assembly so that the connector on the DB-6920SAT mates with the board-to-board connector (CN12) on the cPCI-6210 as shown. Press down on the DB-6920SAT until it is properly seated. 5. Secure the top side of the drive assembly with two screws shown as below. Turn the board over (solder side up) to continue securing the drive assembly. Support the hard drive assembly to avoid damaging the SATA connectors when turning the board over to proceed with Step 6.
cPCI-6210 6. Secure the bottom side of the drive assembly with four screws shown as below. 7. The SATA drive installation is now complete.
5.5 PMC/XMC Module Installation The 8HP width cPCI-6210D provides space to install a PMC or XMC module. Installing a PMC/XMC Module 1. Remove the four screws indicated below to disassemble the DB-6210L2 daughter board from the cPCI-6210D. 2. Mount the PMC/XMC module to the DB-6210L2 and secure it using four screws provided by PMC/XMC supplier from the solder side of the DB-6210L2.
cPCI-6210 3. Mount the PMC/XMC assembly onto the cPCI-6210D and secure the PMC/XMC assembly with the four screws removed in Step 1 as shown below.
This page intentionally left blank.
cPCI-6210 6 Driver Installation The cPCI-6210 drivers can be found on the ADLINK All-In-One DVD at X:\cPCI\cPCI-6210\ or from the ADLINK website (http://www.adlinktech.com). ADLINK provides validated drivers for Windows XP Professional and Windows 7. We recommend using these drivers to ensure compatibility. The VxWorks BSP can be downloaded from the cPCI- 6210 product page on the ADLINK website. 6.1 Driver Installation Procedure The following describes the driver installation procedures for Windows XP.
7. Install the TPM driver by extracting and running the program in …\TPM\Infineon_Trusted_Platform_Module_2.1.1.0.zip. 8. Install the audio driver and utilities by extracting and running the program in …\Audio\RealTek_High_Definition_Audio _WINXP_5.10.0.6029.zip. 9. Install the Intel® Management Engine Interface driver by following the steps below: 64 Z R-click on My Computer, select Manage, and open the Device Manager.
cPCI-6210 Z Select "Install from a list or specific location (Advanced)" and click Next. Z Extract the contents of …\cPCI-6210\Chipset\Intel _Management_Engine_Interface_AllOS_7.0.0.1144.zip. Select "Search for the best driver in these locations" and "Include this location in the search". Click Browse and navigate to the folder "MEI" where you extracted the contents of the zip file, and then click OK. Click Next to continue. Z When driver installation has completed, click Finish to close the wizard.
This page intentionally left blank.
cPCI-6210 7 Utilities 7.1 Watchdog Timer This section describes the operation of the cPCI-6210’s watchdog timer (WDT). The primary function of the WDT is to monitor the cPCI-6210's operation and to reset the system if a software application fails to function as programmed.
For a detailed programming sample, refer to the sample code provided on the ADLINK All-In-One CD. You can find it in the following directory: X:\cPCI\cPCI-6210\WDT. Sample Code The sample program written in C shown below offers an interactive way to test the Watchdog Timer under DOS. #include #include
cPCI-6210 //Exit index port void Exit_IT8783_Config(unsigned int flag) { if(flag) IT8783_ioPort = 0x4e; outportb(IT8783_ioPort, 0x02); outportb(IT8783_ioPort+1, 0x02); } //Check chip void Get_IT8783_ID(unsigned int &ID1, unsigned int &ID2) { outportb(IT8783_ioPort, 0x20); ID1 = inportb(IT8783_ioPort+1); outportb(IT8783_ioPort, 0x21); ID2 = inportb(IT8783_ioPort+1); } //WDT and LED program void IT8783_3_WDTRun(unsigned int count_value, unsigned int PLEDflag) //for cPCI-6510 { unsigned long tempCount; unsigne
outportb(IT8783_ioPort, 0xC5); registerValue = inportb(IT8783_ioPort + 1); registerValue &= 0xfe; // set GP60 is alternate function outportb(IT8783_ioPort+1, registerValue); outportb(IT8783_ioPort, 0xCD); registerValue = inportb(IT8783_ioPort + 1); registerValue |= 0x01; // set GP60 is output outportb(IT8783_ioPort+1, registerValue); outportb(IT8783_ioPort, 0xf8); outportb(IT8783_ioPort+1, 0x30); / PLED mapping to GP60 / outportb(IT8783_ioPort, 0xf9); registerValue = inportb(IT8783_ioPort + 1); registerVa
cPCI-6210 registerValue &= 0x8f; registerValue |= 0x10; //enable WDT output through PowerOK! outportb(IT8783_ioPort+1, registerValue); // set WDT count is minute tempCount = count_value / 60; if((count_value%60) > 30) tempCount++; if(tempCount > 65535) tempCount = 65535; printf("WDT timeout in %d minutes.\n", tempCount); } else { outportb(IT8783_ioPort, 0x72); registerValue = inportb(IT8783_ioPort+1); registerValue |= 0x80; tempCount = count_value; if(tempCount != 0) { printf("WDT timeout in %d seconds.
7.2 Using the Trusted Platform Module This section describes the operation of the cPCI-6210’s Trusted Platform Module (TPM). Enabling TPM in BIOS The TPM is set to "Disabled" by default. Users wishing to use the TPM must first enable it in BIOS as follows: NOTE: TPM is not supported by default. If you require TPM for your application, please contact your sales representative to order a model that supports TPM. 1. Under the "Advanced" section in BIOS, choose "Trusted Computing". 2.
cPCI-6210 3. Set "TPM State" Enabled. Save settings and exit BIOS. Using the TPM Utility A utility for managing the TPM settings, the Infineon Security Platform Settings Tool, is provided with the TPM driver located on the All-In-One DVD in the following directory: X:\cPCI\cPCI-6210\TPM. Make sure you have installed the TPM driver as described in 6.1 Driver Installation Procedure on page 63. 1.
2. The Infineon Security Platform Settings Tool is shown in the screen capture below. 3. Click on the "User Settings" tab, then follow the on screen instructions to build a security platform.
cPCI-6210 4. Prepare a removable media to store important passwords and data and follow the on screen instructions.
7.3 BIOS Recovery The cPCI-6210 Series features AMI® EFI BIOS with BIOS recovery. If the BIOS becomes corrupted and you are unable to boot your system, the system will sound 4 beeps. Follow the instructions below to re-flash the BIOS and recover the system. 1. Download the BIOS recovery file "C6210000.ROM" from the product website at: www.adlinktech.com/PD/web/PD_detail.php?cKind=&pid=1013 2. Prepare a bootable USB flash drive and copy the recovery file "C6210000.ROM" to the root directory. 3.
cPCI-6210 6. During the BIOS recovery process, you will see the following: 7. After the flash update is completed, power down the system and restart. The system should now boot up normally. After BIOS recovery, follow the instructions in Section 7.4 or Section 7.5 to restore your original BIOS version.
7.4 BIOS Update - DOS Method Follow the instructions below to update the BIOS or restore a previous BIOS version using a DOS bootable storage device. 1. Download the required BIOS file from the product website: www.adlinktech.com/PD/web/PD_detail.php?cKind=&pid=1013 2. Prepare a DOS bootable floppy disk or USB flash drive and unzip the contents of the BIOS file to the disk 3. Boot the system using the floppy disk or USB drive prepared above and run the file pBIOS.bat 4. Restart the system (if requested) 7.
cPCI-6210 2. The BIOS Updater will display the contents of the selected storage device. Navigate to the desired BIOS ROM file and press . If the file has been saved in a subdirectory, select the subdirectory and press to view its contents. 3. After you have selected the desired BIOS ROM file, the BIOS Updater will ask you to confirm that you wish to update the BIOS on your target system. Select "Yes" and press to begin the BIOS update.
4. After the update process is complete, system will automatically reboot.
cPCI-6210 8 BIOS Setup Utility The following chapter describes basic navigation for the AMIBIOS®8 BIOS setup utility. 8.1 Starting the BIOS To enter the setup screen, follow these steps: 1. Power on the motherboard 2. Press the < Delete > key on your keyboard when you see the following text prompt: < Press DEL to run Setup > 3. After you press the < Delete > key, the main BIOS setup menu displays. You can access the other setup screens from the main BIOS setup menu.
Setup Menu The main BIOS setup menu is the first screen that you can navigate. Each main BIOS setup menu option is described in this user’s guide. The Main BIOS setup menu screen has two main frames. The left frame displays all the options that can be configured. "Grayed" options cannot be configured, "Blue" options can be. The right frame displays the key legend. Above the key legend is an area reserved for a text message. When an option is selected in the left frame, it is highlighted in white.
cPCI-6210 Navigation Note: There is a hot key legend located in the right frame on most setup screens. Keyboard Commands Enter Selects the highlighted option or submenu. <> The Left and Right "Arrow" keys allow you to select a setup screen. ^v The Up and Down "Arrow" keys allow you to select a setup screen. +- The Plus and Minus keys allow you to change the field value of a particular setup item. Tab Moves the cursor to the next configurable item or to the next field.
8.2 Main Setup When you first enter the Setup Utility, you will enter the Main setup screen. You can always return to the Main setup screen by selecting the Main tab. There are two Main Setup options. They are described in this section. The Main BIOS Setup screen is shown below. System & Board Info BIOS Vendor Displays the BIOS vendor. Core Version Displays the BIOS core version. Project Version Displays the current BIOS revision. Build Data Displays the BIOS build data.
cPCI-6210 System Time/System Date Use this option to change the system time and date. Highlight System Time or System Date using the < Arrow > keys. Enter new values using the keyboard. Press the < Tab > key or the < Arrow > keys to move between fields. The date must be entered in MM/DD/YY format. The time is entered in HH:MM:SS format. Note: The time is in 24-hour format. For example, 5:30 A.M. appears as 05:30:00, and 5:30 P.M. as 17:30:00.
8.3 Advanced BIOS Setup Select the Advanced tab from the setup screen to enter the Advanced BIOS Setup screen. You can select any of the items in the left frame of the screen, such as SuperIO Configuration, to go to the sub menu for that item. You can display an Advanced BIOS Setup option by highlighting it using the < Arrow > keys. The Advanced BIOS Setup screen is shown below. The sub menus are described on the following pages. Launch PXE OpROM Boot option for legacy network devices.
cPCI-6210 8.3.1 PCI Subsystem Settings PCI Latency Timer Value to be programmed into PCI Latency Timer Register. Options: 32 PCI Bus Clocks, 64 PCI Bus Clocks, 96 PCI Bus Clocks, 128 PCI Bus Clocks, 160 PCI Bus Clocks, 192 PCI Bus Clocks, 224 PCI Bus Clocks, 248 PCI Bus Clocks. ASPM Support Set the ASPM (Active State Power Management) level.
8.3.2 Trusted Computing Trusted computing is an industry standard to make personal computers more secure through a dedicated hardware chip, called a Trusted Platform Module (TPM). This option allows you to enable or disable the TPM support.
cPCI-6210 8.3.3 CPU Configuration Hyper-Threading Enables/disables Hyper-Threading Technology. Active Processor Cores Number of cores to enable in each processor package. Options: All, 1, 2. Intel Virtualization Enables/disables Intel Virtualization Technology.
8.3.4 SATA Configuration SATA Controllers This item specifies enables/disables the SATA Controllers. SATA Mode The SATA interface can be configured as a legacy IDE, RAID and AHCI mode.
cPCI-6210 8.3.5 PCH-FW Configuration The setup screen reports “Management Engine Technology Parameters” information.
8.3.6 AMT Configuration Intel AMT Enable/Disable the Intel® Active Management Technology BIOS extension.
cPCI-6210 8.3.7 USB Configuration Legacy USB Support Legacy USB Support refers to USB mouse and keyboard support. Normally if this option is not enabled, any attached USB mouse or keyboard will not become available until a USB compatible operating system is fully booted with all USB drivers loaded. When this option is enabled, any attached USB device (such as mouse or keyboard) can function even when there is no USB driver loaded on the system (e.g. during boot and while using DOS).
Device Reset Timeout USB mass storage device Start Unit command timeout. Device Power-up Delay Maximum time the device will take before it properly reports itself to the Host Controller. "Auto" uses these default values: for a Root port it is 100ms, for a Hub port the delay is taken from the Hub descriptor.
cPCI-6210 8.3.8 Super IO Configuration Serial Port 1/2/3/5/6 Configuration Each sub-menu allows you to Enable/Disable and set the parameters of Serial Ports 1, 2 (RTM), 3 (RTM), 5 (Front Panel), 6 (IPMI).
8.3.
cPCI-6210 8.3.10 Serial Port Console Redirection The settings specify how the host computer and the remote computer will exchange data. Both computers should have the same or compatible settings. Console Redirection Enable or disable Console Redirection.
Console Redirection Settings Terminal Type VT-UTF8 is the preferred terminal type for out-of-band management. The next best choice is VT100+ and then VT100. Options: VT100, VT100+, VT-UTF8, ASNI. Bits per Second Select the bit rate (bits/second) you want the serial port to use for console redirection. Options: 115200, 57600, 19200, 9600. Data Bits Select the data bits you want the serial port to use for console redirection. Set this value to 7 or 8.
cPCI-6210 Communication with slow devices may require more than 1 stop bit. Set this value to 1 or 2. Flow Control Set this option to select Flow Control for console redirection. The settings for this value are Noneand Hardware RTS/CTS. Flow control can prevent data loss from buffer overflow. When sending data, if the receiving buffers are full, a 'stop' signal can be sent to stop the data flow. Once the buffers are empty, a 'start' signal can be sent to re-start the flow.
8.3.11 Sandy Bridge PPM Configuration (Processor Power Management) EIST Enables/disables Enhanced Intel SpeedStep® Technology (EIST) Turbo Mode Enables/disables Turbo Mode.
cPCI-6210 8.4 Chipset Configuration Select the Chipset tab from the setup screen to enter the Chipset BIOS Setup screen. You can select any of Chipset BIOS Setup options by highlighting it using the < Arrow > keys. The Chipset BIOS Setup screen is shown below.
8.4.1 System Agent (SA) Configuratio VT-d Enables/disables Intel® Virtualization Technology for Directed I/O (VT-d). Graphics Configuration Primary Display Allows you to select which graphics controller to use as the primary boot device. Options: Auto, IGFX, PEG, PCI. Internal Graphics Allows you to select enable/disable.the internal graphics.
cPCI-6210 DVMT Pre-Allocated Select DVMT 5.0 Pre-Allocated Graphics Memory size (fixed) used by the internal graphics device. DVMT Total Gfx Mem Select DVMT5.0 Total Graphic Memory size used by internal graphics device. Options: 128MB, 256MB, Maximum. Memory Information PCH-IO Configuration PCH LAN Controller Enable or disable onboard NIC (Intel 82579). Note: In AT Mode, system must be shutdown and restarted when this option has been changed.
Azalia HD Audio The onboard HDA Controller. Set this value to Enabled, Disabled, Auto (enabled if present, disabled otherwise). Azalia Docking Support Enable or disable Azalia Docking Support of Audio Controller. Azalia Internal HDMI Codec Enable or disable internal HDMI codec for Azalia. USB Configuration EHCI1/2 Controller 1 USB 2.0 (EHCI) support. Set this value to Enable/Disable.
cPCI-6210 PCI Express Configuration Use these submenus to enable/disable PCI Express Root Port 1 (Rear), PCI Express Root Port 5 /7/8 (GbE Intel 82574L).
8.5 Boot Configuration Select the Boot tab from the setup screen to enter the Boot Configuration screen. You can select any of the items in the left frame of the screen to go to the sub menu for that item. You can display a Boot Configuration option by highlighting it using the < Arrow > keys. The Boot Configuration screen is shown below: Setup Prompt Timeout Number of seconds to wait for setup activation key. 65535 (0xFFFF) means indefinite waiting.
cPCI-6210 8.6 Security Setup Administrator Password Use this option to set a password for administrators with full control of the BIOS setup utility. User Password Use this option to set a password for users with limited access to the BIOS setup utility.
8.7 Save & Exit Select the Save & Exit tab from the setup screen to enter the Save & Exit setup screen. You can display a Save & Exit BIOS setup option by highlighting it using the < Arrow > keys. The Save & Exit BIOS setup screen is shown below. Save Changes and Exit When you have completed the system configuration changes, select this option to leave Setup and reboot the computer so the new system configuration parameters can take effect.
cPCI-6210 Save Changes Save changes made so far to any of the setup options. Discard Changes Discard changes made so far to any of the setup options. Restore Defaults Restore/Load Defaults values for all the setup options. Save as User Defaults Save changes made so far as User Defaults. Restore User Defaults Restore the User Defaults to all setup options Boot Override Use the up/down arrow keys to highlight a boot device to immediately exit the BIOS Setup and boot from the selected device.
This page intentionally left blank.
cPCI-6210 9 IPMI User Guide 9.1 Introduction This chapter is written for those who already have a basic understanding of the newest implementation of the baseboard management controller (BMC) of the Intelligent Platform Management Interface (IPMI) specification rev. 2.0. It also describes the OEM extension IPMI command usages which are not listed in the IPMI specification. 9.2 Summary of Commands Supported by BMR-AVR-cPCI The table below lists all the commands supported by the IPMC.
Command IPMI Spec NetFn CMD Get Device GUID 20.8 App Broadcast "Get Device ID" 20.9 App Description (Required by PICMG 3.0/2.9) This command returns a GUID (Globally Unique ID), also referred to as a UUID 08h (Universally Unique IDentifier), for the management controller. (Optional/Optional) This is a broadcast version of the ‘Get Device ID’ command that is provided for 01h the ‘discovery’ of Intelligent Devices on the IPMB. (Mandatory/Mandatory) IPMI Messaging Support Commands Send Message 22.
cPCI-6210 Command IPMI Spec NetFn CMD Get Event Receiver 29.2 S/E Platform Event Message 29.3 S/E Description (Required by PICMG 3.0/2.9) This global command is used to retrieve the present setting for the Event Receiver Slave Address and LUN. This command 01h is only applicable to management controllers that act as IPMB Event Generators. (Mandatory/Optional) This command may be thought of as a request for the BMC to process the event data that the command contains.
Command IPMI Spec NetFn CMD Set Sensor Event Enable 35.10 S/E 28h Get Sensor Event Enable 35.11 S/E 29h Get Sensor Event Status 35.13 S/E 2Bh Get Sensor Reading 35.14 S/E 2Dh Get Sensor Type 35.16 S/E 2Fh Description (Required by PICMG 3.0/2.9) This command provides the ability to disable or enable Event Message Generation for individual sensor events. The command is also used to enable or disable sensors in their entirety using the disable scanning bit.
cPCI-6210 9.
OemRescanGaInput This command is used to rescan the geo-address input pins and reset the IPMB address according to the input value. Action Byte Value 0 C0h NetFn/LUN for OEM 1 22h OEM defined command Request Response Description 0 Complete Code 00h means OK 1 New IPMB address New IPMB address value OemTestFunction Internal test purposes only.
cPCI-6210 OemReportGeoAddress This command can report the IPMB address, the GA pin input status, and the event forwarding control value. Action Byte Value 0 C0h NetFn/LUN for OEM 1 F0h OEM defined command 0 Complete Code 00h means OK 1 IPMB address IPMB address value Request Response Description 2 GA value GA pin input status 3 Control value Current control value of event forwarding OemEnableSmbus This command is used to turn on the I2C bus when it is off during boot up process.
OemDispDebugVariable This command can report up to 5 interval values for debug purposes. For developers only. Action Request Response Byte Value Description 0 C0h NetFn/LUN for OEM 1 F4h OEM defined command 0 Complete Code 00h means OK 1 *Debug variable 1 2 *Debug variable 2 3 *Debug variable 3 4 *Debug variable 4 5 *Debug variable 5 OemResetHost This command is implemented to control the system’s status if rebooting is required. Operators can control the system remotely.
cPCI-6210 OemPowerOn This command is implemented to control the system’s status if power-on is required. Operators can control the system remotely. Action Byte Value 0 C0h NetFn/LUN for OEM 1 F7h OEM defined command 0 Complete Code 00h means OK Request Response Description 9.4 CompactPCI Address Map Since more than one system may be installed in a single chassis, we allocate each IPMB address based on GA input as peripheral cards.
9.5 Communications with IPMC Operating systems need to use a serial port to communicate with the IPMC. The resource setting of the serial port must be IO: 0x2F0 and IRQ: 7. The communication setting of the serial port must be BaudRate: 9600, DataBit: 8, ParityCheck: None, StopBit: 1, and FlowControl: None. In Windows XP, use "COM6" to communicate with the IPMC. 9.
cPCI-6210 9.7 Relevant Documents Document Title Intelligent Platform Management Interface Specification v2.0 PICMG 2.9 D1.0 CompactPCI System Management Specification Intelligent Platform Management Bus Communications Protocol Specification v0.9 IPMI User Guide Revision Source Document Revision 1.0 Intel Corp. February 12, 2004 http://www.intel.com/design/ servers/ipmi/spec.htm January 21, 2000 Document Revision 0.15 Intel Corp. June 24, 1997 http://www.intel.com/design/ servers/ipmi/license_ipmi.
This page intentionally left blank.
cPCI-6210 Important Safety Instructions For user safety, please read and follow all instructions, WARNINGS, CAUTIONS, and NOTES marked in this manual and on the associated equipment before handling/operating the equipment. X Read these safety instructions carefully. X Keep this user’s manual for future reference. X Read the specifications section of this manual for detailed information on the operating environment of this equipment.
X Never attempt to fix the equipment. Equipment should only be serviced by qualified personnel. A Lithium-type battery may be provided for uninterrupted, backup or emergency power. WARNING: X 124 Risk of explosion if battery is replaced with one of an incorrect type. Dispose of used batteries appropriately.
cPCI-6210 Getting Service Contact us should you require any service or assistance. ADLINK Technology, Inc. Address: 9F, No.166 Jian Yi Road, Zhonghe District New Taipei City 235, Taiwan ᄅؑקխࡉ৬ԫሁ 166 ᇆ 9 ᑔ Tel: +886-2-8226-5877 Fax: +886-2-8226-5717 Email: service@adlinktech.com Ampro ADLINK Technology, Inc. Address: 5215 Hellyer Avenue, #110 San Jose, CA 95138, USA Tel: +1-408-360-0200 Toll Free: +1-800-966-5200 (USA only) Fax: +1-408-360-0222 Email: info@adlinktech.com ADLINK Technology (China) Co.
ADLINK Technology, Inc. (French Liaison Office) Address: 6 allée de Londres, Immeuble Ceylan 91940 Les Ulis, France Tel: +33 (0) 1 60 12 35 66 Fax: +33 (0) 1 60 12 35 66 Email: france@adlinktech.com ADLINK Technology Japan Corporation Address: ͱ101-0045 ᵅҀ䛑गҷ⬄ऎ⼲⬄䤯 ⬎ފ3-7-4 ⼲⬄ 374 ɛɳ 4F KANDA374 Bldg. 4F, 3-7-4 Kanda Kajicho, Chiyoda-ku, Tokyo 101-0045, Japan Tel: +81-3-4455-3722 Fax: +81-3-5209-6013 Email: japan@adlinktech.com ADLINK Technology, Inc.
