cPCI-6810/6820 Series 6U CompactPCI Dual / Single Pentium TM III SBC and Rear I/O Transition Modules User’s Guide Recycled Paper
© Copyright 2003 ADLINK Technology Inc.; All Rights Reserved. Manual Rev. 1.01: November 24, 2003 Part No: 50-15016-200 The information in this document is subject to change without prior notice in order to improve reliability, design and function and does not represent a commitment on the part of the manufacturer.
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Table of Contents Chapter 1 Introduction ............................................................................ 1 1.1 Checklist ............................................................................................. 2 1.1.1 cPCI-6810 or cPCI-6820 Front Board .................................. 2 1.1.2 cPCI-R6820 RTM................................................................. 2 1.2 Features ............................................................................................. 3 1.2.
2.3 Connectors Pin Assignment.............................................................. 27 2.3.1 Keyboard Connector .......................................................... 27 2.3.2 Mouse Connector ............................................................... 27 2.3.3 Keyboard and Mouse Combo Connector ........................... 27 2.3.4 Serial Port Connectors ....................................................... 28 2.3.5 VGA Connector .............................................................
Appendix A IPMI Functions List ........................................................... 51 A.2 IPMI Address Map ............................................................................ 53 Appendix B WatchDog Timer Programming Guide ............................ 54 B.1 WDT Setup Procedures.................................................................... 55 Appendix C Power Consumption ......................................................... 57 Appendix D SMBus Address Map ..........................
List of Tables Table 1: Table 2: Table 3: Table 4: Table 5: Table 6: Table 7: Table 8: Table 9: Table 10: Table 11: Table 12: Table 13: Table 14: Table 15: Table 16: Table 17: Table 18: Table 19: Table 20: Table 21: Table 22: Table 23: Table 24: Table 25: Table 26: Table 27: Table 28: cPCI-6810/6820 Memory Configurations ................................ 7 PMC Options......................................................................... 10 I/O Connectivity.................................................
1 Introduction The ADLINK’s cPCI-6810/6820 series Single Board Computer (SBC) and its corresponding rear I/O transition module makes it a powerful and flexible CompactPCI universal system/peripheral slot processor board based on the Intel mobile Pentium-III/Tualatin CPU. This board is specially designed to add system functional density to 6U CompactPCI platform for communication, high-density servers and Telecom applications.
The topics covered in this chapter are: • Model Variations • Checklist • Features • Specifications • Block diagram 1.1 Checklist The cPCI-6820 series products support both front and rear panel I/O. The front board (the SBC) and the cPCI-R6820 RTM are sold separately. The CPU configurations can be single or dual CPU. 1.1.1 cPCI-6810 or cPCI-6820 Front Board The cPCI-6810/6820 CPU module may be equipped with different capacities of RAM, HDD and PCM depending on requirements.
1.2 Features 1.2.1 cPCI-6810/6820 Features • PICMG 2.16 CompactPCI Packet Switching Backplane (cPSB) Compliant • PICMG 2.
1.3 Functional Block PWM SC1471 SC1405 CPU1 Tualatin BGA2 CPU2 Tualatin BGA2 PWM SC1471 SC1405 CPU BUS Bridge HiNT HB6 J 2 J 1 66MHz/64-bit PCI BUS 64-bit PMC slot 2 J 3 64-bit PMC slot 1 Single/Dual layer SO-DIMM socket Server Works CNB30LE Dual port G-bit LAN 82546EB 33MHz/32-bit PCI BUS F C&T 69000 Graphics controller PMC I/O GigaLAN * 2 Sever Works CSB5 rev. 2.1 IDE1 On-board conn.
1.3.1 CompactPCI Bus Interface The cPCI-6810/6820 operates in a 6U CompactPCI system. The CompactPCI standard is electrically identical to the PCI local bus standard but has been enhanced to work in harsh environments and support more peripheral slots. Additionally, when used in a Hot Swap compliant backplane and in accordance with the CompactPCI Hot Swap Specification, PICMG 2.1, Version 1.0, the cPCI-6810/6820 supports hosting hot swappable peripherals in a powered system.
Key features • Large 1K Byte total buffering supporting concurrent Primary and Secondary operation as well as traffic isolation. • Multiple output clock pins and 9 pairs of REQ/GNT signals support up to 9 bus masters directly on secondary bus without external clock buffer and bus arbiter.
1.3.4 Processor The cPCI-6810/6820 motherboard is based on the RCC/ServerWorks Champion LE chipset and supports a single or dual Intel Mobile Pentium III processor – M. The supported CPU package is a micro-FCBGA. The Mobile Intel Pentium III Processor is a 0.18-micron product, which is a highly integrated assembly with all its immediate system-level support. This mobile version of the Pentium III processor runs at a lower voltage than the desktop version.
1.3.6 Interrupts Two enhanced interrupt controllers provide the cPCI-6810/6820 with a total of 15 interrupt inputs.
1.3.9 Baseboard Management The Zircon CP baseboard management controller is used to manage all aspects of the system board. The features are summarized as follows.
1.3.11 PCI Mezzanine Card (PMC) Interface The cPCI-6810/6820 supports up two PMC expansion slots (only one slot on cPCI-6820). The PMC support 3.3V PCI environment and operates at up to 64bit/66MHz. The PMC expansion card is on the secondary PCI bus of CNB30LE, i.e., it’s on PCI bus 1. Table below list the PMC availability depending on the cPCI-6810/6820 model. Model # PMC 1 (with rear I/O) PMC 2 2.
1.3.14 Video (Only available on cPCI-6820) The display interface is featured by Asiliant Technologies (former called Chips and Technologies) 69000 PCI graphics accelerator. The 2MB SDRAM is integrated in the 69000 as a display memory and internally operates at 83MHz. The 69000 integrates 8-bit 135MHz RAMDAC and can support up to 640x480x24bpp, 800x600x24bpp, 1024x768x16bpp, and 1280x1024x8bpp display modes. The CRT interconnections are available on the both front panel of cPCI-6820 and rear I/O board. 1.3.
1.3.18 Keyboard/Mouse Controller Two 6-pin circular DIN connectors are located on the front panel of single-processor version of cPCI-6810/6820, for example cPCI-6810, for keyboard and mouse connections. The power provided to the keyboard and mouse is protected by a polyswitch rated at 1.1A. The keyboard and mouse interface are also available on the rear I/O board 1.4 Specifications 1.4.1 Specifications of cPCI-6820 front board CompactPCI Compliancy • PICMG 2.0 CompactPCI core specification R3.
• CPU, memory operating frequency auto-detection • Bootable from USB storage devices including USB-Floppy, USB-ZIP USB-CD-ROM and USB-HDD.
• Two 16C550 UART compatible RS-232 COM ports. COM1 on the front with RJ-45 type connector. COM2 is on the J3 and can be accessed on the RTM. • PS2 keyboard and mouse connector: 9 cPCI-6820: With 6-pin circular DIN connectors on both the front board and RTM. 9 cPCI-6810: Connectors on RTM only. • W82782D built-in monitoring CPU temperatures, FAN speed, system temperature, V core and DC voltages.
1.4.2 Specifications of cPCI-R6820 RTM Form Factor 2 • Standard 6U CompactPCI rear I/O (board size: 233.35x80mm ) • 1-slot (4TE/HP, 20.32mm) wide, include space of 2.5 inches HDD Connection Interface • RTM signals are from CompactPCI rJ3 and rJ5 connectors, without rJ1, rJ2 and rJ4.
Environment • Operating temperature: 0 ~ 50 °C (Note 1) • Storage temperature: -20 ~ 80 °C • Humidity: 5% ~ 95% non-condensed • Shock: 15G peak-to-peak, 11 ms duration, 3 axes, 3 times / axis non-operation • Vibration: (Note 3) 9 None-operation: 1.88G rms, 5~500Hz, 3 axes, with package 9 Operation: 0.5G rms, 5~500Hz, each axis with flash disk drive Note: 1. Certified with ADLINK thermal design. dependent on the cooling design The thermal performance is 2.
Power Requirement (Typical) Typical Current and Maximum Current cPCI-6810A/P9 cPCI-6810A/P9 with HDD cPCI-6810A/1G cPCI-6810A/1G (Without PMC, VGA cards & RTM) cPCI-6810/1G with HDD cPCI-6820A/P9 cPCI-6820A/P9 with HDD cPCI-6820B/1G cPCI-6820B/1G with HDD cPCI-6820B/1G (Without PMC card ) cPCI-6820A /1G +5V (+/-5%) 2.28A 3.73A 2.94A 3.73A+HDD 2.50A 3.88A +3.3V (+/-5%) 4.10A 14.636A 4.82A 14.636A 4.10A 14.636A +12V (+/-5%) 3mA 8mA 3mA 8mA 3mA 8mA -12V (+/-5%) 0mA 0mA 0mA 0mA 0mA 0mA 1.44A 3.73A 3.
I/O Connectivity I/O Serial Port (COM1) Serial Port (COM2) cPCI-6820 cPCI-6810 Faceplate Board Faceplate Board RJ-45 ----- -- -- PS2 Keyboard PS2 --PS2 Mouse PS2 --VGA DB-15 --USB (port 0, port 1) USB x 2 -USB x 2 USB (port 2, port 3) ---Gigabit Ethernet Port 1 -2.16 -Gigabit Ethernet Port 2 -2.16 -ATA-100 Primary IDE -44-pin -ATA-100 Secondary IDE -- -- -- ------2.16 2.
1.5 Model Variations The cPCI-6810/6820 series products include the following 4 base configurations. All models have the CPU pre-mounted. The number of SO-DIMM sockets and PMC slots are varied depending on the model. If a HDD is installed on board, it may occupy and sacrifice one PMC socket space. Note that the RTM is sold separately and are not listed in the following table. Slot Width CPU Memory sockets Max. SO-DIMM# Max. Memory 2.
The following table lists the recommended chassis available from ADLINK, which are compatible with the cPCI-6810/6820 series SBC.
2 Jumpers and Connectors This chapter will familiarize the user with the cPCI-6810/6820 before getting started; it will provide information about the board layout, connector definitions, and jumper setup.
2.1 2.1.1 cPCI-6820 / 6810 Board Outline and Illustratoin cPCI-6820 Top and Front View J5 PMC Slot #1 SO-DIMM 3,4 KBD SO-DIMM 1,2 MS J3 VGA Battery J2 USB BATTERY COM1 LED’s J1 CPU 1 Figure 2.
cPCI-6820 Model comparison table cPCI-6820A/P9 cPCI-6820B/P9 No. of Memory sockets 3 4 SO-DIMM 1,2 Dual SODIMM Dual SODIMM SO-DIMM 3,4 Single SODIMM Dual SODIMM (1) Max. Memory 1.5 GB 2.0 GB (1) HDD Installation Possible Not Feasible PMC slot # (without HDD) 1 0 (2) 0 PMC slot # (with HDD) 0 Table 7: Comparison of cPCI-6820A and cPCI-6820B Note: 1. Because of dual stack SO-DIMM 3,4 sockets are installed, there is no space for a HDD. 2.
2.1.2 cPCI-6810 Top and Front View J5 PMC Slot #1 SO-DIMM 3,4 SO-DIMM 1,2 PMC Slot #2 J3 J2 USB BATTERY COM 1 J1 LED’s CPU 0 Figure 3.
cPCI-6810 Model comparison table No. of Memory sockets SO-DIMM 1, 2 SO-DIMM 3, 4 Max. Memory HDD Installation PMC slot # (without HDD) PMC slot # (with HDD) cPCI-6810A/P9 2 Single SODIMM Single SODIMM 1.0 GB Possible 2 (2) 1 cPCI-6810B/P9 3 (1) Dual SODIMM Single SODIMM 1.5 GB Possible (1) 1 0 (2) Table 8: Comparison of cPCI-6810A and cPCI-6810B Note: 1. Dual stack SO-DIMM 1,2 socket will occupy the PMC slot space, so only 1 PMC slot is available on the cPCI-6810B. 2.
2.2 cPCI-R6820 Board Outline and Illustratoin 2.2.1 cPCI-R6820 Top and Front View USB3 USB2 GbE #2 LAN1 44-pin Secondary ID LAN2 40-pin Primary ID COM 2 USB 2 USB 3 GbE #1 CompactPCI rJ5 COM2 Secondary IDE on CF Socket KB/MS CompactPCI rJ3 2.5 inches Drive bay Figure 4.
2.3 2.3.1 Connectors Pin Assignment Keyboard Connector Pin # 1 2 3 4 5 6 Signal KBDATA NC GND +5V KBCLK NC Function Keyboard Data No Connect Ground Power Keyboard Clock No connect Table 9: Keyboard Connector Note: Circular DIN keyboard connector is available on the cPCI-6820 only. The cPCI-6810 does not support a keyboard connector. 2.3.
2.3.
2.3.5 VGA Connector 15 5 11 1 Signal Name Red Blue GND GND +5V. N.C. HSYNC NC Pin # 1 3 5 7 9 11 13 15 Pin # 2 4 6 8 10 12 14 Signal Name Green N.C. GND GND GND N.C. VSYNC Table 14: VGA Connector on cPCI-6820 and RTM 2.3.6 USB Connector Pin # 1 2 3 4 Signal Name VCC USBUSB+ Ground Table 15: USB Connector 2.3.
2.3.8 General Purpose LED definitions LED IDE Media Access Color Power OK Green Red Status OFF ON OFF ON OFF Hot swappable status Blue ON Description IDE idle IDE access System is not power-on or power failed Power ON Board inserted and power on OK. Board inserted but not power on yet. Table 17: General Purpose LED definitions 2.3.
2.3.10 44-pin IDE Port Signal RESETDD7 DD6 DD5 DD4 DD3 DD2 DD1 DD0 Ground DMARQ DIOWDIORIORDY DMACKINTRQ DA1 DA0 CS0DASP+5V Ground Pin # 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 Pin # 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 Signal Ground DD8 DD9 DD10 DD11 DD12 DD13 DD14 DD15 N.
2.3.11 40-pin IDE Port Signal RESETDD7 DD6 DD5 DD4 DD3 DD2 DD1 DD0 Ground DMARQ DIOWDIORIORDY DMACKINTRQ DA1 DA0 CS0DASP- Pin # 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 Pin # 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 Signal Ground DD8 DD9 DD10 DD11 DD12 DD13 DD14 DD15 +5V (for DOM) Ground Ground Ground CSEL Ground reserved PDIAGDA2 CS1Ground Table 20: 40-pin Primary and Secondary IDE channels on the RTM 2.3.
2.3.13 CompactPCI J1 Pin Assignments Pin 25 24 23 22 21 20 19 18 17 16 15 12-14 11 10 9 8 7 6 5 4 3 2 1 Pin Z GND GND GND GND GND GND GND GND GND GND GND A +5V AD [1] +3.3V AD [7] +3.3V AD [12] +3.3V SERR# +3.3V DEVSEL# +3.
2.3.
2.3.15 CompactPCI J3 and rJ3 Pin Assignments Pin 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 Pin Z GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND Z A GND LPa_DA0+ LPa_DB0+ LPb_DA1+ LPb_DB1+ (1) +3.3V PMCIO5 PMCIO10 PMCIO15 PMCIO20 PMCIO25 PMCIO30 PMCIO35 PMCIO40 PMCIO45 PMCIO50 PMCIO55 PMCIO60 (2) VIO A B (1) +12V LPa_DA0LPa_DB0LPb_DA1LPb_DB1(1) +3.
2.3.
2.3.17 PMC Connector Pin Assignments PMC J11/J21 and J12/J22 Connector Pin Assignments Signal Name J11 J21 Pin # J11 J21 Pin # Signal Name Signal Name J11 J21 Pin # J11 J21 Pin # Signal Name TCK (3) 1 2 -12V +12V 1 2 TRST# (3) (2) GND 3 4 INTA# TMS 3 4 TDO (1) INTB# 5 6 INTC# TDI (2) 5 6 GND BM1 (1) 7 8 +5V GND 7 8 N/C INTD# 9 10 N/C N/C 9 10 N/C BM2 (2) GND 11 12 +3.3V 11 12 +3.3V CLKP1 13 14 GND RST# 13 14 BM3 (3) GND 15 16 GNT0# +3.
PMC J13/J23 and J24 Connector Pin Assignments Signal Name N/C GND CBE [6] CBE [5] VIO (4) AD63 AD61 GND AD59 AD57 VIO (4) AD55 AD53 GND AD51 AD49 GND AD47 AD45 VIO (4) AD43 AD41 GND AD39 AD37 GND AD35 AD33 VIO (4) N/C N/C GND J13 J23 Pin # 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 J13 J23 Pin # 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 Signal Name Signal Name J24 Pin # J24 Pin # Signal Name GND CBE [7]
2.3.18 IDE Setting Jumper on the RTM A CompactFlash (CF) socket is available on the RTM as a Secondary IDE port. A 3-pin jumper (CN12) is used to set the CF card as either master or 3 2 1 CF card is a Master IDE device 3 2 1 CF card is a Slave IDE device (default factory setting) slave device of the IDE channel. 2.3.19 GbE Connection Selection The cPCI-6820 supports dual Ethernet connection for PICMG2.16 compliant backplanes and the RTM. While using the PICMG 2.
S3, S4: LAN2 Connecting Selection LAN 2 Connecting Connect to PICMG 2.16 Backplane Connect to Rear Panel (Default) Switch S3 Pin# State S3-1 ON S3-2 ON S3-3 ON S3-4 ON S3-1 OFF S3-2 OFF S3-3 OFF S3-4 OFF Switch S4 Pin# State S4-1 OFF S4-2 OFF S4-3 OFF S4-4 OFF S4-1 ON S4-2 ON S4-3 ON S4-4 ON Table 27: LAN2 Connecting Selection 0 DO NOT set S1 and S2 or S3 and S4 to “ON” at the same time. It may cause the ethernet to malfunction or even damage the board devices. 2.3.
3 Getting Started This chapter provides information on how to install necessary components on the cPCI-6810/6820 and cPCI-R6820 RTM. The topics covered are: • CPU and heat sink • Memory module installation • HDD installation on main board • HDD installation on RTM • CF installation on RTM • PMC installation • RTM installation • Main board installation 3.
3.2 Memory Module Installation The cPCI-6810/6820 SBC supports up to four sockets of 144-pin PC-133 registered ECC SO-DIMM’s. The maximum memory capacity is therefore 2G bytes. If memory modules are pre-installed when you receive the your package, this section can be skipped. The chipset supports 64Mb, 128Mb, 256Mb, and 512Mb memory technologies. The supported DRAM types are listed in the following table.
3.3 HDD Installation on Main Board A slim-type 2.5-inch HDD can be mounted to the cPCI-6810/6820 main board. If a HDD is pre-installed when you receive the cPCI-R6820 product package, this section maybe skipped. Step 1: Remove the PMC Key-bolt of the PMC slot #1. Step 2: Screw the bolts on to the HDD; attach a 44-pin IDE cable. Step 3: Install the assembly on to the board; tighten the 4 screws from the bottom side of the main board to secure the HDD in to place.
3.6 PCI Mezzenine Card (PMC) Installation The PMC slots are designed as 5V and / or as a universal PCI interface. The PMC sites are keyed to prevent users from installing a 3.3V only PMC module. The rear I/O signals on the J14 of the upper PMC slot are routed to J3 of the 6810/6820 main-board. Refer to section 2.3.15 and 2.3.17 for detail PMC I/O signal routing. If a HDD is mounted to the main board, the HDD will occupy the upper PMC slot #1.
3.8 Main Board Installation Use the following procedure to install the cPCI-6810/6820 main board to its CompatPCI chassis. Step 1: Refer to the relevant chassis user manual for pre-preparation of the chassis before installing the main board. Users need to assign a slot to the board. Be sure to select the correct slot (system or peripheral) depending the operation purpose of the board. The system power may now be powered on. Step 2: Remove the blank face panel from the slot.
4 Device Driver Installation To install the drivers for the cPCI-8610/8620, refer to the installation information in this chapter. Basic information is presented in this section, however, for more detailed installation information for non-Windows Operating Systems, refer to the extensive explanation inside the ADLINK CD.
4.1 VGA Drivers Installation This section describes the VGA driver installation for the onboard VGA controller M69000. The relative drivers are located in X:\CHIPDRV\VGA\69000 directory of the ADLINK CD: where X: is the location of the CD-ROM drive. The VGA drivers for Windows 98/95, Windows NT and Windows 2000 are included. 4.1.1 Driver Installation on Windows NT Windows NT may install the standard VGA driver.
4.1.2 Driver Installation on Red Hat Linux 7.3 The standard Linux installation procedure will install the graphic driver for the VGA chip. However, under the Red Hat Linux 7.3 or higher versions, the standard VGA driver is not fully compatible with the C&T69000 VGA chip. The installation of the Red Hat Linux 7.3 may hang after entering X-Windows. To fix this compatibility issue, two configuration files must be modified under text mode. Both files are locate at the /etc/X11 directory • XF86Config . . . .
4.2 LAN Drivers Installation This chapter describes the LAN driver installation for the onboard Ethernet controller Intel 82546EB. All associated drivers are located under the following ADLINK CD directory: X:\CHIPDRV\LAN\82546EB, where X: is the location of the CD-ROM drive. 4.2.1 Software and Drivers Support The 82546EB drivers supports the following OS or platforms: • Windows 2000, Windows NT All the above drivers are included in the ADLINK CD.
4.2.2 Driver Installation on Windows NT Run “ pro2kxp.exe” in x:\chipdrv\LAN\82546EB to extract the files needed for the installation. Files will be extracted to c:\IntelPRO, where X is the CD-ROM drive. Windows NT may ask to install a LAN driver from its own library of drivers. To guarantee compatibility, manually updated the LAN driver, which comes with the ADLINK CD. After installing Windows NT, update to the new driver using the following procedures. 1.
A IPMI Functions List The following table lists the IPMI V1.0 functions that are supported by the cPCI-6810 and cPCI-6820. IPMI V1.
Get Event Receiver Platform Event (a.k.a.
SEL Device Commands Get SEL Info Get SEL Allocation Info Reserve SEL Get SEL Entry Add SEL Entry Partial Add SEL Entry Delete SEL Entry Clear SEL Get SEL Time Set SEL Time √(1) √(1) √(1) √(1) √(1) √(1) (3) √(1) √(1) √(1) (1)Supported on PCB rev.A3 or higher. (2)The SDR information are read only. (3) The SEL storage is not supported random access Not available yet means an addition on-board EEPROM to store information. This requires a re-spin of A3 version board.
B WatchDog Timer Programming Guide The Watchdog Timer (WDT) can monitor the system’s status. Once a value is given to the WDT, the timer will begin to count down. If the system idles or hangs, the system will reboot itself when the timer times out. The Watch Dog timer includes an 8-bit timer clocked by a 1-minute internal clock that is derived from the battery-backed 32.768KHz crystal clock generator.
B.1 WDT Setup Procedures Followings are the Watch Dog Timer setup procedures: 1. Set pin 55 of PC87417 as Watch Dog Timer output pin ÆSet Bit 7 of SIOCF2 Register (Index: 22H) to 1, for example: 2. • o 2E 22 • o 2F 80 Set Logic Device to System Wake-Up Control (SWC) ÆSet Logic Device Number Register (Index: 07H) to 04H, for example: 3. 4.
6. Select Bank 3 for Watch Dog Timer from SWC base address. ÆSet Bit 1-0 of BANKSEL Register (I/O Base: 840H, Offset: 0FH) to 11, for example: • 7. o 84F 03 Set the count down value for Watch Dog timer. ÆSet count down value to WDTO Register (I/O Base: 840H, Offset: 11H) 00000000: Reserved 00000001: 1 minute 00000010: 2 minutes : : 11111111: 255 minutes For example: • 8.
C Power Consumption Hardware Environment: • Single or Dual LV P-III 933M or 1GHz • Memory: 1GB (512MB x 2) or 1.5GB (512MBx3) • HDD: FUJITSU MHR2040AT 40GB installed on RTM (Max. current requirement is 0.55A @ +5V • CompactFlash: PQI 64MB Flash Card • PMC card: ADLINK PMC-8615 Gigabit Ethernet Card • PMC VGA card: ADLINK PMC-8217V (only available with CRUX-SP) Software Environment: • OS: Windows 2000 Professional • KPOWER.EXE • HCT 9.
The power requirements of cPCI-6820 series products are shown in the following table. Typical Current and Maximum Current cPCI-6810A/P9 cPCI-6810A/P9 with HDD cPCI-6810A/1G cPCI-6810A/1G (Without PMC, VGA cards & RTM) cPCI-6810/1G with HDD cPCI-6820A/P9 cPCI-6820A/P9 with HDD cPCI-6820B/1G cPCI-6820B/1G with HDD cPCI-6820B/1G (Without PMC card ) cPCI-6820A /1G 58 • Appendix C +5V (+/-5%) 2.28A 3.73A 2.94A 3.73A+HDD 2.50A 3.88A 1.44A 3.73A +3.3V (+/-5%) 4.10A 14.636A 4.82A 14.636A 4.10A 14.636A 3.64A 14.
D SMBus Address Map The SMBus address Map on cPCI-6820 products are as following.
Warranty Policy Thank you for choosing ADLINK. To understand your rights and enjoy all the after-sales services we offer, please read the following carefully. 1. Before using ADLINK’s products, please read the user manual and follow the instructions exactly. When sending in damaged products for repair, please attach an RMA application form. 2. All ADLINK products come with a two-year guarantee, free of repair charge. 3.
4. Customers are responsible for the fees regarding transportation of damaged products to our company or to the sales office. 5. To ensure the speed and quality of product repair, please download an RMA application form from our company website www.adlinktech.com. Damaged products with RMA forms attached receive priority. For further questions, please contact our FAE staff. ADLINK: service@adlinktech.com Test & Measurement Product Segment: NuDAQ@adlinktech.
