PCI-6886 PCI Intel® Celeron® M 600MHz 0L2 Half-sized SBC with VGA/ LVDS/LAN/USB2.
Copyright This document is copyrighted, © 2005. All rights are reserved. The original manufacturer reserves the right to make improvements to the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of the original manufacturer. Information provided in this manual is intended to be accurate and reliable.
Packing List Before you begin installing your card, please make sure that the following materials have been shipped: • 1 PCI-6886 all-in one single board computer • 1 startup manual • 1 CD-ROM or disks for utility, drivers, and manual (in PDF format) • 1 power cable p/n:1700000265 • 1 Y cable for PS/2 Keyboard, PS/2 Mouse p/n:1700060202 • 1 FDD cable(600mm) p/n:1701340603 • 1 Parallel port cable p/n:17002600250 • 1 EIDE (HDD) cable p/n:1701400452 • 1 ATX feature cable p/n: 1700001276 • Mini Jumper p/n:16533
Model No. List PCI-6886F-M0A1 Description PCI Celeron M 600M 0L2 Slot PC W/852GM PCI-6886FG-M0A1 PCI Celeron M 600M 0L2 Slot PC W/852GM,Giga LAN Additional Information and Assistance Visit the Advantech web site at www.advantech.com where you can find the latest information about the product. Step 1. Contact your distributor, sales representative, or Advantech's customer service center for technical support if you need additional assistance.
FCC This device complies with the requirements in part 15 of the FCC rules: Operation is subject to the following two conditions: 1.This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may cause undesired operation This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules.
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Contents Chapter 1 General Information ........................................2 1.1 1.2 1.3 Introduction ....................................................................... 2 Features ............................................................................. 2 Specifications .................................................................... 3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.4 Chapter Standard SBC Functions................................................. 3 Display Interface.............
2.19 Front Panel Connector (CN1) ......................................... 19 2.19.1 2.19.2 2.19.3 2.19.4 2.19.5 2.20 2.21 2.22 2.23 2.24 2.25 Chapter Reset (Pin7&Pin8) ....................................................... 19 HDD LED (Pin1&Pin2)................................................ 19 Power LED (Pin 3 & Pin 4) .......................................... 20 Suspend LED(Pin 5 & Pin 6)........................................ 20 Power Button (Pin 9 & Pin10)......................................
4.2.13 Exit Without Saving...................................................... 41 Figure 4.13:Quit without saving ................................... 41 Chapter 5 PCI SVGA Setup ............................................44 5.1 Introduction ..................................................................... 44 5.1.1 5.1.2 5.1.3 5.2 Installation of the SVGA Driver ..................................... 45 5.2.1 5.3 Chapter Installation for Windows 2000/XP ...............................
Table B.9:LCD INV power connector (CN20) ............ 72 B.10 DIO connector(CN2)....................................................... 73 B.11 LVDS connector(CN15) ................................................. 74 B.12 LPT connector(CN6)....................................................... 75 B.13 COM 1, 2 Connector (CN13, CN14) .............................. 76 B.14 COM 3, 4 Connector (CN8)............................................ 77 B.15 Audio I/F connector(CN17) .....................
CHAPTER 1 General Information This chapter gives background information on the PCI-6886.
Chapter 1 General Information 1.1 Introduction The PCI-6886 series is a half-sized PCI bus CPU card designed with powerful Intel Celeron M processor, with Intel 852GM and 6300ESB chipset, which supports enhanced Intel "SpeedStep" technology and Dynamic Video Memory Technology. For maximum performance, PCI6886 also supports two 200PIN SODIMM socket that Non-ECC DDR memory up to 2GB. These chipsets are specifically for embedded computing and provide an optimized on-board integrated graphics solution.
• Supports 4 x USB2.0 port • Supports 2 Channel 36bits LVDS for LCD • Supports 400MHz Front Side Bus • Supports 200-MHz, and 266-MHz DDR SDRAM 1.3 Specifications 1.3.1 Standard SBC Functions • CPU:Intel Celeron M 600MHz(0 KB) onboard:(PCI-6886FM0A1,PCI-6886FG-M0A1).
1.3.2 Display Interface • Chipset: Intel 852GM • Memory size: Optimized Shared Memory Architecture,supports up to 64 MB frame buffer using system memory • Display modes: CRT Modes: up to 1600 x 1200 @32bpp (85Hz); LCD Modes: up to UXGA panel resolutipn with frequency range from 25-MHz to 112-MHz • LCD Interface: 2 Channel LVDS (up to 36-bit) • LVDS: Hirose connector support dual channel LVDS panel 1.3.
1.4 Board layout: dimensions Figure 1.
Figure 1.
CHAPTER 2 Installation This chapter explains the setup procedures of PCI-6886 hardware, including instructions on setting jumpers and connecting peripherals, switches and indicators. Be sure to read all safety precautions before you begin the installation procedure.
Chapter 2 Installation 2.1 Jumpers The PCI-6886 has a number of jumpers that allow you to configure your system to suit your application. The table below lists the functions of the various jumpers. Table 2.
2.2 Connectors On-board connectors link the PCI-6886 to external devices such as hard disk drives, a keyboard, or floppy drives. The table below lists the function of each of the board’s connectors. Table 2.
2.3 Locating Connectors(component side) Figure 2.
2.4 Locating Connectors(solder side) Figure 2.
2.5 Setting Jumpers You may configure your card to match the needs of your application by setting jumpers. A jumper is a metal bridge used to close an electric circuit. It consists of two metal pins and a small metal clip (often protected by a plastic cover) that slides over the pins to connect them. To “close” a jumper, you connect the pins with the clip. To “open” a jumper, you remove the clip. Sometimes a jumper will have three pins, labeled 1, 2 and 3.
2.6 COM2 RS232/422/485 Select(JP1) Table 2.3: COM2 RS232/422/485 Select *1-2 RS232 3-4 RS422 5-6 RS485 * : Default setting 2.7 Clear CMOS (JP2) Warning! To avoid damaging the computer, always turn off the power supply before setting “Clear CMOS.” Before turning on the power supply, set the jumper back to “3.0 V Battery On.” This jumper is used to erase CMOS data(including the setting of date, time and password) and reset system BIOS information. The procedure for clearing CMOS is: 1.
2.8 LVDS Panel Power Select(JP3) 1 2 3 1 2 3 Table 2.5: LVDS Panel Power Select Pin Function 1-2 +5V 2-3 +3.3V 2.9 PCI Card Power Select(JP4) 1 2 3 1 2 3 Table 2.6: PCI Card Power Select Pin Function *1-2 +5V 2-3 +3.3V * : Default setting 2.10 Installing SODIMMs Notes The modules can only fit into a socket one way. The gold pins must point down into the SODIMM socket. The procedure for installing SODIMMs appears below. Please follow these steps carefully. 1.
point down into the SODIMM socket. 3. Slip the SODIMM into the socket at a 45 degree angle and carefully fit the bottom of the card against the connectors. 4. Gently push the SODIMM into a perpendicular position until the clips on the ends of the SODIMM sockets snap into place. 5. Check to ensure that the SODIMM is correctly seated and all connector contacts touch. The SODIMM should not move around in its socket. 2.11 ATX power control connector (CN5) The PCI-6886 support ATX power.
2.12 Printer port connector (CN6) Normally, the parallel port is used to connect the card to a printer. The PCI-6886 includes a multi-mode (ECP/EPP/SPP) parallel port accessed via CN6 and a 26-pin flat-cable connector. You will need an adapter cable if you use a traditional DB-25 connector. The adapter cable has a 26-pin connector on one end, and a DB-25 connector on the other. The parallel port is designated as LPT1, and can be disabled or changed to LPT2 or LPT3 in the system BIOS setup.
3. If you are connecting a 5.25” floppy drive, line up the slot in the printed circuit board with the blocked-off part of the cable connector. If you are connecting a 3.5” floppy drive, you may have trouble determining which pin is number one. Look for a number printed on the circuit board indicating pin number one. In addition, the connector on the floppy drive may have a slot. When the slot is up, pin number one should be on the right.
2.16 VGA/LVDS interface connections The PCI-6886’s display interface can drive conventional CRT displays and is capable of driving a wide range of LVDS flat panel displays as well. The board has two display connectors: one for standard CRT VGA monitors, and one for LVDS flat panel displays. 2.16.1 CRT display connector (CN11) CN11 is a standard 15-pin connector used for conventional CRT displays. Users can drive a standard progressive scan analog monitor with pixel resolution up to 1600 x 1200 at 85 Hz.
use a standard USB connector. The adapter cable has a 5 x 2-pin connector on one end and a USB connector on the other. The USB interfaces can be disabled in the system BIOS setup. 2.18 Ethernet configuration The PCI-6886 is equipped with a high performance 32-bit PCI-bus Ethernet interface which is fully compliant with IEEE 802.3U 10/100Mbps CSMA/CD standards. It is supported by all major network operating systems.
The HDD LED indicator would light when HDD works. 2.19.3 Power LED (Pin 3 & Pin 4) Pin 3 & Pin4 The Power LED indicator would light when the power is on. 2.19.4 Suspend LED(Pin 5 & Pin 6) Pin5&Pin6 The Suspend LED indicator would light when the computer is suspend. 2.19.5 Power Button (Pin 9 & Pin10) The PCI-6886 provides an ATX power input connector. When connected with PIN 9 & PIN 10, it enables power On/Off from the chassis. 2.
2.23 AC'97 interface Connector (CN17) PCI-6886 can support separate independent PCI functions for Audio and Modem, which is compliant to AC'97 Version 2.2 standard. The AC'97 interface is a 5 x 2 pin box header. The PCI-6886 can support Audio with the addition of optional PCM-231A-00A1. Detailed pin assignment refer to Appendix B. 2.24 DIO connector (CN2) The PCI-6886 supports DIO interface by CN2, which is a 5 x 2 dual line pin header, supply 8 general purpose input or output ports.
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CHAPTER 3 Software Configuration This chapter details the software configuration information. It shows you how to configure the card to match your application requirements. Award System BIOS will be covered in Chapter 4.
Chapter 3 Software Configuration 3.1 Introduction The system BIOS and custom drivers are located in a 512 KB, 32-pin (JEDEC spec.) Flash ROM device, designated U10. A single Flash chip holds the system BIOS, VGA BIOS, and network Boot ROM image. The display can be configured via software. This method minimizes the number of chips and eases configuration. You can change the display BIOS simply by reprogramming the Flash chip.
2. At the prompt, type AWDFLASH.EXE and press . The VGA configuration program will then display the following: Figure 3.1: VGA setup screen 3. At the prompt, enter the new BIN file which supports your display. When you are sure that you have entered the file name correctly press . 4. The screen will ask “Do you want to save BIOS?”. If you change your mind or have made a mistake, press N to abort and end the setup procedure.
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CHAPTER 4 Chapter 4 Ducks that Need Love! Award BIOS Setup This chapter describes how to set BIOS configuration data.
Chapter 4 Award BIOS Setup 4.1 System test and initialization These routines test and initialize board hardware. If the routines encounter an error during the tests, you will either hear a few short beeps or see an error message on the screen. There are two kinds of errors: fatal and non-fatal. The system can usually continue the boot up sequence with non-fatal errors.
4.2 Award BIOS setup Award’s BIOS ROM has a built-in Setup program that allows users to modify the basic system configuration. This type of information is stored in battery-backed CMOS RAM so that it retains the Setup information when the power is turned off. 4.2.1 Entering setup Power on the computer and press immediately. This will allow you to enter Setup. Figure 4.
4.2.2 Standard CMOS Features setup When you choose the Standard CMOS Features option from the Initial Setup Screen menu, the screen shown below is displayed. This standard Setup Menu allows users to configure system components such as date, time, hard disk drive, floppy drive and display. Once a field is highlighted, on-line help information is displayed in the right top of the Menu screen. Figure 4.
4.2.3 Advanced BIOS Features setup By choosing the Advanced BIOS Features Setup option from the Initial Setup Screen menu, the screen below is displayed. This sample screen contains the manufacturer’s default values for the PCI-6886 Series. Figure 4.
4.2.4 Advanced Chipset Features setup By choosing the Advanced Chipset Features option from the Initial Setup Screen menu, the screen below is displayed. This sample screen contains the manufacturer’s default values for the PCI-6886 Series. Figure 4.
4.2.5 Integrated Peripherals Choosing the Integrated Peripherals option from the Initial Setup Screen menu should produce the screen below. Here we see the manufacturer’s default values for the PCI-6886 Series. Figure 4.
4.2.6 Power Management Setup By choosing the Power Management Setup option from the Initial Setup Screen menu, the screen below is displayed. This sample screen contains the manufacturer’s default values for the PCI-6886 Series. Figure 4.
4.2.7 PnP/PCI Configurations By choosing the PnP/PCI Configurations option from the Initial Setup Screen menu, the screen below is displayed. This sample screen contains the manufacturer’s default values for the PCI-6886 Series. Figure 4.
4.2.8 PC Health Status The PC Health Status option displays information such as CPU and motherboard temperatures, fan speeds, and core voltage. Figure 4.
4.2.9 Frequency/Voltage Control By choosing the Frequency/Voltage Control option from the Initial Setup Screen menu, the screen below is displayed. This sample screen contains the manufacturer’s default values for the PCI-6886 Figure 4.9: Frequency/Voltage Control Caution Incorrect settings in Frequency/Voltage Control may damage the system CPU, video adapter, or other hardware.
4.2.10 Load Optimized Defaults Load Optimized Defaults loads the default system values directly from ROM. If the stored record created by the Setup program should ever become corrupted (and therefore unusable), these defaults will load automatically when you turn the PCI-6886 Series system on. Figure 4.10: Load BIOS defaults screen 4.2.
1. Choose the Set Password option from the CMOS Setup Utility main menu and press . 2. When you see “Enter Password,” enter the desired password and press . 3. At the “Confirm Password” prompt, retype the desired password, then press . 4. Select Save to CMOS and EXIT, type , then . Figure 4.11: Set password To Change Password 1. Choose the Set Password option from the CMOS Setup Utility main menu and press . 2.
6. Select Save to CMOS and EXIT, type , then . To Disable Password 1. Choose the Set Password option from the CMOS Setup Utility main menu and press . 2. When you see “Enter Password,” enter the existing password and press . 3. You will see “Confirm Password.” Type it again, and press . 4. Select Set Password again, and at the “Enter Password” prompt, don’t enter anything; just press . 5.
If you select this option and press then , the values entered in the setup utilities will be recorded in the chipset’s CMOS memory. The microprocessor will check this every time you turn your system on and use the settings to configure the system. This record is required for the system to operate. 4.2.13 Exit Without Saving Figure 4.13: Quit without saving Selecting this option and pressing lets you exit the Setup program without recording any new values or changing old ones.
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CHAPTER PCI SVGA Setup Introduction Installation of SVGA drivers -for Windows 2000/XP Further information 5
Chapter 5 PCI SVGA Setup 5.1 Introduction The board has an onboard interface. The specifications and features are described as follows: 5.1.1 Chipset The PCI-6886 uses a Intel 852GM + 6300ESB chipset for its graphic controller. It supports LVDS LCD displays, conventional CRT monitors. 5.1.2 Display memory The 852GM chip with optimized Shared Memory Architecture, supports up to 64 MB frame buffer using system memory to provide LVDS mode with frequency range from 25-MHz to 112-MHz.
5.2 Installation of the SVGA Driver Complete the following steps to install the SVGA driver. Follow the procedures in the flow chart that apply to the operating system that you are using within your board. Notes: 1. The windows illustrations in this chapter are intended as examples only. Please follow the listed steps, and pay attention to the instructions which appear on your screen. 2. For convenience, the CD-ROM drive is designated as "D" throughout this chapter. 5.2.
2. Press the "Next" button. 3. Press the "Next" button.
4. In order to continue setup, you must accept the agreement, press the "Yes" button and wait a minute. 5. Choose the option "Yes, I want to restart my computer now." and press the "Finish" button.
5.3 Further Information For further information about the AGP/VGA installation in your PCA6886, including driver updates, troubleshooting guides and FAQ lists, visit the following web resources: Intel website: www.intel.com. Advantech websites: www.advantech.com www.advantech.com.
CHAPTER 6 PCI Bus Ethernet Interface This chapter provides information on Ethernet configuration.
Chapter 6 PCI Bus Ethernet Interface 6.1 Introduction The board is equipped with a high performance 32-bit Ethernet chipset which is fully compliant with 802.3u 100BASE-T or 802.3z/ab 1000BASE-T. It is supported by major network operating systems. It is also both 100Base-T and 10Base-T compatible. The Ethernet port provides a standard RJ-45 jack. The network boot feature can be utilized by incorporating the boot ROM image files for the appropriate network operating system.
1. Select “ Ethernet Controller” from Device Manager. 2. Select “Update Driver”.
3. Click the “Next” button. 4. Click the “Next” button.
5. Please choose “Continue Anyway”. 6.
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CHAPTER 7 Audio Setup • Introduction • Installation of audio driver for Windows XP 55 Chapter 7
Chapter 7 Audio Setup 7.1 Introduction The PCI-6886 supports AC97 audio through the optional audio module PCM-231A-00A1. Notes The audio function needs external AUDIO board e.g. PCM-231. 7.2 Driver installation 7.2.1 Before you begin Please read the instructions in this chapter carefully before you attempt installation. The audio drivers for the PCI-6886 board are located on the audio driver CD. Run the supplied SETUP program to install the drivers; don't copy the files manually.
1. Select the path: D:\wdm_a357, then double click to run "Install Shield Wizard". 2. Press the "Next" button and wait for a moment.
3. Choose the option "Continue Anyway”. 4. Choose the option "Yes, I want to restart my computer now", then click "Finish" button to reboot your computer.
Appendix A Programming GPIO & Watchdog Timer The board is equipped with a watchdog timer that resets the CPU if processing comes to a standstill for any reason. This feature ensures system reliability in industrial standalone or unmanned environments.
Appendix A Programming GPIO & Watchdog Timer A.1 Supported GPIO Register Bellow are detailed description of the GPIO addresses and programming sample. A.1.1 GPIO Registers CRF0 (GP10-GP17 I/O selection register. Default 0xFF) When set to a '1', respective GPIO port is programmed as an input port. When set to a '0', respective GPIO port is programmed as an output port. CRF1 (GP10-GP17 data register. Default 0x00) If a port is programmed to be an output port, then its respective bit can be read/written.
A.1.2 GPIO Example program-1 -----------------------------------------------Enter the extended function mode, interruptible double-write -----------------------------------------------MOV DX,2EH MOV AL,87H OUT DX,AL OUT DX,AL --------------------------------------------------------------Configurate logical device 7(GP10~GP17), configuration register CRF0,CRF1,CRF2 --------------------------------------------------------------MOV DX,2EH MOV AL,07H ; point to Logical Device Number Reg.
OUT DX,AL MOV DX,2FH MOV AL,??H ; Put the output value into AL OUT DX,AL -----------------------------------------Exit extended function mode | -----------------------------------------MOV DX,2EH MOV AL,AAH OUT DX,AL A.
Outportb (0x2e,0xaa); //Exit Configuration Mode 3, Disable Watchdog Outportb (0x2e,0x87); Outportb (0x2e,0x87); //Entry Configuration Mode Outportb (0x2e,0x07); //Select Register Index 0x07 Outportb (0x2f,0x08); //Select LDN 8 Outportb (0x2e,0x30); //Select LDN 8 Register Index 0x30 Outportb (0x2f,0x00); //Disable Watchdog Timer Device Outportb (0x2e,0xaa); //Exit Configuration Mode 63 Appendix A
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Appendix B Pin Assignments This appendix contains information of a detailed or specialized nature.
Appendix B Pin Assignments B.1 ATX power connector (CN5) Table B.
B.2 Floppy connector (CN4) Table B.2: Floppy Connector (CN4) Pin Signal 1 GND 3 GND 5 GND 7 GND 9 GND 11 GND 13 GND 14 GND 17 GND 19 GND 21 GND 23 GND 25 GND 27 GND 29 GND 31 GND 33 GND *low active Pin Signal 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 RWC# NC DS Index# MOA# DSB# DSA# MOB# DIR# STEP# WD# WE# Track0# WP# RDATA# HEAD# DSKCHG# 67 Appx.
B.3 Primary IDE Connector (CN3) Table B.
B.4 Secondary IDE Connector(Slave) (CN7) Table B.4: Secondary IDE connector (CN7) Pin Signal Pin Signal 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 IDE RESET D7 D6 D5 D4 D3 D2 D1 D0 GND REQ IOW IOR READY DACK IRQ14 A1 A0 CS1# Active +5V GND 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 GND D8 D9 D10 D11 D12 D13 D14 D15 NC GND GND GND Cable Select GND NC ATA check A2 CS3# GND +5V NC 69 1 2 3 4 41 42 43 44 Appx.
B.5 CompactFlash connector(CN21) Table B.
B.6 LAN,RJ45 connector(CN12) Table B.6: LAN,RJ45 connector(CN12) 10/100M Pin Signal Pin Signal 1 2 3 4 TX+ TXRX+ NC 10/100/1000M 5 6 7 8 NC RXNC NC 1 2 3 4 MDI0MDIO+ MDI1+ MDI- 5 6 7 8 MDI2+ MDI2MDI3+ MDI3+ B.7 USB1, 2 connector(CN10) Table B.7: USB 1, 2 connector(CN10) Pin Signal Pin Signal 1 3 5 7 9 +5V USB0USB0+ USB GND GND 2 4 6 8 10 +5V USB1USB1+ USB GND NC 71 Appx.
B.8 USB 3, 4 connector(CN9) Table B.8: USB 3, 4 connector(CN9) Pin Signal Pin Signal 1 3 5 7 9 +5V USB0USB0+ USB GND GND 2 4 6 8 10 +5V USB1USB1+ USB GND NC B.9 LCD INV power connector(CN20) Table B.
B.10 DIO connector(CN2) Table B.10: DIO connector(CN2) Pin Signal Pin Signal 1 3 5 7 9 IO0 IO1 IO2 IO3 +5V 2 4 6 8 10 IO4 IO5 IO6 IO7 GND 73 Appx.
B.11 LVDS connector(CN15) Table B.11: LVDS connector (CN15) Pin Signal Pin Signal 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 +5V/3.3V GND +5V/3.3V LVDS0_N0 LVDS0_P0 GND LVDS0_N1 LVDS0_P1 GND LVDS0_N2 LVDS0_P2 GND LVDS0_C0N LVDS0_C0P GND LVDS_DDC OCLK GND NC/ LVDS0_N3 NC/ LVDSS0_P3 NC 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 +5V/3.3V GND +5V/3.3V LVDS1_N0 LVDS1_P0 GND LVDS1_N1 LVDS1_P1 GND LVDS1_N2 LVDS1_P2 GND LVDS1_C0N LVDS1_C0P GND LVDS_DDCPDATA 34 36 GND NC/LVDS1_N3 38 NC/LVDS1_P3 40 +0.
B.12 LPT connector(CN6) Table B.12: LPT connector(CN6) Pin Signal Pin Signal 1 3 5 7 9 11 13 15 17 19 21 23 25 STB# D0 D1 D2 D3 D4 D5 D6 D7 ACK# BUSY PE SLCT 2 4 6 8 10 12 14 16 18 20 22 24 26 AFD# ERR INIT# SLIN GND GND GND GND GND GND GND GND NC 75 Appx.
B.13 COM 1, 2 Connector (CN13, CN14) 9 8 7 6 5 4 3 2 1 Table B.13: COM connector (CN 13, CN14) COM1 connector (CN13) Pin 1 2 3 4 5 Signal COM2 connector (CN14) Pin Signal Pin Signal Pin Signal 6 7 8 9 DSR RTS CTS RI 1 3 5 7 9 11 DCD SIN SOUT DTRGND TXD422+/ 485+ RXD422+ 2 4 6 8 10 12 DSR RTS CTS RI N.C.
B.14 COM 3, 4 Connector (CN8) Table B.14: COM3,4 Connector(CN8) Pin Signal Pin Signal 1 3 5 7 9 11 13 15 17 19 DCD3 SIN3 SOUT3 DTR3 GND DCD4 SIN4 SOUT4 DTR4 GND 2 4 6 8 10 12 14 16 18 20 DSR3 RTS3 CTS3 RI3 GND DSR4 RTS4 CTS4 RI4 GND B.15 Audio I/F connector(CN17) Table B.15: Audio I/F connector(CN17) Pin Signal Pin Signal 1 3 5 7 9 +5V DATA IN GND DATA OUT +5V 2 4 6 8 10 BitCLK GND Sync ACRST NC 77 Appx.
B.16 D-SUB VGA connector(CN11) 5 1 10 6 15 11 Table B.16: D-SUB VGA connector(CN11) Pin Signal Pin Signal 1 2 3 4 5 6 7 8 R G B NC GND GND GND GND 9 10 11 12 13 14 15 +5V GND NC S-DATA HSYNC VSYNC S-CLK B.17 MINI PS/2_KB/Mouse connector(CN19) Table B.
B.18 EXT_KB connector(CN18) Table B.18: EXT_KB/Mouse connector(CN18) Pin Signal 1 2 3 4 5 KBCLK KBDATA NC GND +5V B.19 HDD LED/Reset/Power Button(CN1) 2 4 1 6 8 10 3 5 7 9 Table B.19: HDD LED/Reset/Power Button(CN1) Pin Signal Pin Signal 1 3 5 7 9 +5V +5V SUSPEND RESET PWR_Button 2 4 6 8 10 HDD_LED GND 5VSB GND GND 79 Appx.
B.20 DVI connector (CN16) Table B.20: DVI connector(CN16) Pin Signal Pin Signal 1 3 5 7 9 11 13 15 17 19 TDC0TDC0+ GND TDC1TDC1+ GND TDC2+ TDC2+ VCC NC 2 4 6 8 10 12 14 16 18 20 VCC TDCCLKTDCCLK+ GND MDVICLK MDVIDATA HOT_DETECT MI2CDATA MI2CCLK NC B.21 CPU FAN connector (FAN1) 1 2 3 Table B.
B.22 Serial ATA (SA1,SA2) Table B.22: Serial ATA (SA1, SA2) Pin Signal 1 2 3 4 5 6 7 GND TX+ TXGND RXRX+ GND 81 Appx.
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Appendix C System Assignments This appendix contains information of a detailed nature. It includes: • • • • System I/O ports 1st MB memory map DMA channel assignments Interrupt assignments 83 Appx.
Appendix C System Assignments C.1 System I/O Ports Table C.1: System I/O ports Addr.
Table C.1: System I/O ports Addr. range (Hex) Device CF8-CFB CFC-CFF D00-FFFF PCI Configuration Address PCI Configuration Data -available for system use- C.2 1st MB memory map Table C.2: 1st MB memory map Addr.
C.4 Interrupt assignments Table C.
Appendix D Intel Speedstep Technology • Introduction and Installation
Appendix D Intel Speedstep Technology D.1 Intel® Pentium® M SpeedStep instruction Mobile Intel® Pentium® M processors with Enhanced Intel SpeedStep® technology let users customize high performance computing on their PC.The Enhanced Intel SpeedStep technology provides the Pentium M processor a flexible, multi-point operating mode, completely self managed, and with a very low CPU and memory unavailability time, which optimizes its power and performance according to demand.
89 Appendix D
Step 3. Discover the different CPU freq.
The Result of Pentium M speed stepping: 1.1G---600MHz / 800MHz / 1.1GHz( Intel® Pentium® M) 1.6G---600MHz / 800MHz / 1.0GHz /1.2GHz / 1.4GHz / 1.
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