Intel CELERON PCI 6886 User Manual

PCI-6886  
PCI Intel® Celeron® M 600MHz  
0L2 Half-sized SBC with VGA/  
LVDS/LAN/USB2.0/SATA and  
SDD  
User’s Manual  
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:1653302122  
If any of these items are missing or damaged, contact your distributor or  
sales representative immediately.  
Optional Items:  
• 1701140201 COM2 cable (2.00mm)  
• 1700001166 COM3&COM4 cable with bracket (2.00mm)  
• 1703100260 USB cable adapter (2.00mm)  
• CF-HDD-ADP CompactFlash 50-pin to IDE 44-pin adapter  
• PCM-231A-00A1 Audio module with Line-in, Line-out, mic  
iii  
Model No. List  
Description  
PCI-6886F-M0A1  
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 cus-  
tomer service center for technical support if you need additional  
assistance. Please have the following information ready before  
you call:  
• Product name and serial number  
• Description of your peripheral attachments  
• Description of your software (operating system, version, application  
software, etc.)  
• A complete description of the problem  
• The exact wording of any error messages  
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This device complies with the requirements in  
part 15 of the FCC rules: Operation is subject to  
the following two conditions:  
FCC  
1.This device may not cause harmful interfer-  
ence, 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. These lim-  
its are designed to provide reasonable protection  
against harmful interference when the equipment  
is operated in a commercial environment. This  
equipment generates, uses, and can radiate  
radio frequency energy and, if not installed and  
used in accordance with the instruction manual,  
may cause harmful interference to radio commu-  
nications. Operation of this device in a residential  
area is likely to cause harmful interference in  
which case the user will be required to correct  
the interference at his/her own expense. The  
user is advised that any equipment changes or  
modifications not expressly approved by the  
party responsible for compliance would void the  
compliance to FCC regulations and therefore,  
the user's authority to operate the equipment.  
Caution!  
Achtung!  
There is a danger of a new battery exploding if it  
is incorrectly installed. Do not attempt to  
recharge, force open, or heat the battery.  
Replace the battery only with the same or equiv-  
alent type recommended by the manufacturer.  
Discard used batteries according to the manufac-  
turer’s instructions.  
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2.10 Installing SODIMMs........................... 14  
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1
General Information  
This chapter gives background  
information on the PCI-6886.  
Sections include:  
Introduction  
Features  
Specifications  
Board layout and dimensions  
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, PCI-  
6886 also supports two 200PIN SODIMM socket that Non-ECC DDR  
memory up to 2GB. These chipsets are specifically for embedded com-  
puting and provide an optimized on-board integrated graphics solution.  
"SpeedStep" technology intelligently focuses system power where the  
CPU needs it and automatically regulates power usage to preserve battery  
life.  
Other on-board features include 2 EIDEs, 2 SATAs, 1 FDD, 1 LPT, 4  
USB2.0s, 4 serial ports(3 x RS-232 and 1 x RS-232/422/485), PS/2 Key-  
Board/mouse, watchdog, and a DIO interface. The SSD solution supports  
Type I/II CompactFlash cards.  
This product uses a Intel 852GM supports VGA/LVDS interface, 2  
channel (36-bit) LVDS LCD panel . PCI-6886 supports AC97 audio with  
the addition of the optional PCM-231A-00A1 audio module.  
The Ethernet interface supports 10/100M Base-T by Intel  
82551ER(82551QM optional), and 1000M Base-T by Intel 82540EM  
(PCI-6886FG-M0A1).Its dimension is follow standard PCI slot PC, this  
make it can match with all half-sized chasis and can operate in high vibra-  
tion environment.  
1.2 Features  
• Intel new generation Celeron M 600MHz 0L2 cache Processor  
Embedded  
• Fanless operation at 0~60°C (PCI-6886F-M0A1 & PCI-6886FG-  
M0A1)  
• On board PCI VGA/LVDS/DVI display  
• 1000BASE-T Ethernet on board(PCI-6886FG-M0A1)  
• Supports 2 SATA  
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• 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-6886F-  
M0A1,PCI-6886FG-M0A1). Supports 400MHz FSB processors  
• System chipsets: Intel 852GM + 6300ESB  
BIOS: Award 4Mbit Flash memory  
System memory: 200 pin SODIMMx2, support Non-ECC double data  
rate (DDR) 128MB to 2GB, accepts 128/256/512/1000MB DDR  
200/266 DRAM  
2nd cache memory: N/A  
Enhanced IDE Interface: Supports two enhanced IDE channels. Pri-  
mary channel supports ATA-100 mode; Secondary channel only  
supports ATA-33 and PIO mode. CFC card occupies secondary  
master  
• Serial Ports: Four serial ports: COM1, COM3, COM4: RS232, COM2:  
RS232/422/485  
• Parallel Ports: one parallel port, support SPP/EPP/ECP  
• Keyboard/Mouse Connector:Supports standard PC/AT Keyboard and  
a PS/2 Mouse  
• Power Management: Supports Power Saving Mode including Normal/  
Standard/Suspend modes. APM 1.2 compliant.  
• FDD interface: Support up to two FDD devices  
• DIO interface: Supports 8 general purpose input/output ports  
Watchdog Timer: 0~255 Sec, System reset  
Expansion Interface: 32-bit PCI Slot, support PCI 2.2  
Battery: Lithium 3V/195 mAH  
USB: 4 USB ports, USB 2.0 compliant  
SATA Chip: Intel 6300ESB  
SATA Connector: Two COMAX C504C (180 angle) connectors, sup-  
ports data transfer rates up to 150 Mbyte/s, support RAID 0.1  
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Chapter 1 General Information  
   
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  
1.3.3 DVI  
Chipset: Chrontel CH7009  
• Drives a DVI display at a pixel rate of up to 165MHz, supporting  
UXGA resolution displays  
• DVI hot plug detection  
• Compliant with DVI Specification 1.0  
1.3.4 Solid State Disk  
• Supports CompactFlash Type I/II disks  
1.3.5 PCI bus Ethernet interface  
Chipset: Intel 82540EM(Gigabit), Intel 82551ER/82551QM(optional)  
Connection: on-board RJ-45  
Interface: IEEE 802.3 z/ab(1000BASE-T) or IEEE 802.3u(100BASE-  
T) protocol compatible  
BootROM: build-in-system(Supported by 82540EM and  
82551QM(optional))  
1.3.6 Mechanical and Environmental  
Dimensions (L x W): 185 x 122 mm(7.3” x 4.8”)  
Power supply voltage: +5 V, +5V STB, +12V  
Power requirements:  
Max:(Run Kpower under Win2000+SP4)  
2.42A@5V,0.32A@12V,(w/CeleronM 600M0L2+512M)  
Typical:(Run Kpower under Win2000+SP4)  
1.91A@5V,0.31A@12V,(w/CeleronM 600M0L2+512M)  
Operating temperature: 0 ~ 60°C (32 ~ 140°F),operation  
Operating humidity: 0% ~ 90% Relative Humidity, Non condensing  
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1.4 Board layout: dimensions  
Figure 1.1: Board layout: dimensions (component side)  
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Chapter 1 General Information  
 
Figure 1.2: Board layout: dimensions (solder side)  
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2
Installation  
This chapter explains the setup procedures  
of PCI-6886 hardware, including instruc-  
tions 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 2.1: Jumpers  
Label  
Function  
JP1  
JP2  
JP3  
JP4  
COM2 RS232/422/485 Selection  
CMOS Clear  
LVDS Panel Power Selection  
PCI Card Power Selection  
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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 func-  
tion of each of the board’s connectors.  
Table 2.2: Connectors  
Label  
Function  
CN1  
Front Pannel Connector  
Digital I/O Connector  
Primary IDE Connector  
Floppy Connector  
CN2  
CN3  
CN4  
CN5  
ATX power Connector  
Printer port Connector  
Secondary IDE Connector  
COM port 3, 4  
CN6  
CN7  
CN8  
CN9  
USB port 3, 4  
CN10  
CN11  
CN12  
CN13  
CN14  
CN15  
CN16  
CN17  
CN18  
CN19  
CN20  
CN21  
SA1  
USB port 1, 2  
D-SUB VGA Connector  
LAN RJ45 Connector  
COM port1  
COM port 2  
LVDS Connector  
DVI Connector  
AC'97 interface Connector  
External KeyBoard Connector  
MINI PS/2_KB/Mouse Connector  
LCD inverter power connector  
CompactFlash Socket  
SATA Connector  
SA2  
SATA Connector  
FAN1  
CPU FAN Connector  
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Chapter 2 Installation  
 
2.3 Locating Connectors(component side)  
Figure 2.1: Jumper&Connector Locations  
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2.4 Locating Connectors(solder side)  
Figure 2.2: Connectors (component side)  
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Chapter 2 Installation  
 
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 cir-  
cuit. 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. In this case you would connect either pins 1 and 2, or 2 and 3.  
open  
closed  
closed 2-3  
The jumper settings are schematically depicted in this manual as follows:.  
open  
closed  
closed 2-3  
A pair of needle-nose pliers may be helpful when working with jumpers.  
If you have any doubts about the best hardware configuration for your  
application, contact your local distributor or sales representative before  
you make any changes.  
Generally, you simply need a standard cable to make most connections.  
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2.6 COM2 RS232/422/485 Select(JP1)  
Table 2.3: COM2 RS232/422/485 Select  
*1-2  
3-4  
5-6  
RS232  
RS422  
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.  
3.  
Turn off the system.  
Short pin 1 and pin 2.  
Turn on the system. The BIOS is now reset to its default setting  
Table 2.4: CMOS clear (JP2)  
clear CMOS  
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Chapter 2 Installation  
   
2.8 LVDS Panel Power Select(JP3)  
1
2
3
1
2
3
Table 2.5: LVDS Panel Power Select  
Pin  
1-2  
2-3  
Function  
+5V  
+3.3V  
2.9 PCI Card Power Select(JP4)  
1
2
3
1
2
3
Table 2.6: PCI Card Power Select  
Pin  
*1-2  
2-3  
Function  
+5V  
+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. Make sure that all power supplies to the system are switched off  
2. Install the SODIMM card. Install the SODIMM so that its gold pins  
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point down into the SODIMM socket.  
3. Slip the SODIMM into the socket at a 45 degree angle and care-  
fully 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 con-  
nector contacts touch. The SODIMM should not move around in its  
socket.  
2.11 ATX power control connector (CN5)  
The PCI-6886 support ATX power. CN5 supplies main power (+5V,  
+12V, 5VSB), and it is a 6 x 2 power connector, w/Fixed Lock, type:  
4200-WS-A1.  
Notice  
The PCI-6886 can support ATX feature func-  
tion. When the PCI-6886 is used as a stand  
alone card, the 12-pin main power connector  
(CN5) must be connected to the power supply.  
If the PCI-6886 is used with a passive back-  
plane, the main power connector (CN5) should  
not be connected as the card will be powered  
from the backplane. But when the ATX feature  
function is needed, the ATX feature cable (p/n:  
1700001276) should be connected with ATX  
feature connector on backplane, one side of  
1700001276 is 12pin header, it should be con-  
nected with CN5; the other side is 3-pin  
header, it should be connected with the ATX  
feature connector on backplane.  
Important  
Make sure that the ATX power supply can take  
at least a 10 mA load on the 5 V standby lead  
(5VSB). If not, you may have difficulty power-  
ing on your system.  
15  
Chapter 2 Installation  
 
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.  
The parallel port interrupt channel is designated to be IRQ7.  
You can select ECP/EPP DMA channel via BIOS setup.  
2.13 CompactFlash Card Socket  
The PCI-6886 provides a 50-pin socket for CompactFlash card type I/II.  
2.13.1 CompactFlash(CN21)  
The CompactFlash card occupies a secondary IDE channel which can be  
enabled/disabled via the BIOS settings.  
2.14 Floppy drive connector (CN4)  
You can attach up to two floppy drives to the PCI-6886’s on-board con-  
troller. You can use any combination of 5.25” (360 KB and 1.2 MB) and/  
or 3.5” (720 KB, 1.44 MB, and 2.88 MB) drives.  
A 34-pin daisy-chain drive connector cable is required for a dual-drive  
system. On one end of the cable is a 34-pin flat-cable connector. On the  
other end are two sets of floppy disk drive connectors. Each set consists  
of a 34-pin flat-cable connector (usually used for 3.5” drives) and a  
printed-circuit board connector (usually used for 5.25” drives).  
2.14.1 Connecting the floppy drive  
1.  
Plug the 34-pin flat-cable connector into CN4. Make sure that the  
red wire corresponds to pin one on the connector.  
2.  
Attach the appropriate connector on the other end of the cable to  
the floppy drive(s). You can use only one connector in the set. The  
set on the end (after the twist in the cable) connects to the A: drive.  
The set in the middle connects to the B: drive.  
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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 connec-  
tor.  
If you are connecting a 3.5” floppy drive, you may have trouble determin-  
ing 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. Check the documentation that came with the drive for more  
information.  
If you desire, connect the B: drive to the connectors in the middle of the  
cable as described above.  
In case you need to make your own cable, you can find the pin assign-  
ments for the board’s connector in Appendix B.  
2.15 IDE connector(CN3,CN7)  
The PCI-6886 provides two IDE channels to which you can attach up to  
four Enhanced Integrated Device Electronics hard disk drives or  
CDROM to the PCI-6886’s internal controller. The PCI-6886's IDE con-  
troller uses a PCI interface. This advanced IDE controller supports faster  
data transfer, PIO Mode 3 or Mode 4, UDMA 33/66/100 mode.  
2.15.1 Connecting the hard drive  
Connecting drives is done in a daisy-chain fashion. It requires one of two  
cables (not included in this package), depending on the drive size. 1.8"  
and 2.5" drives need a 1 x 44-pin to 2 x 44-pin flat-cable connector. 3.5"  
drives use a 1 x 44-pin to 2 x 40-pin connector.  
Wire number 1 on the cable is red or blue, and the other wires are gray.  
1.  
Connect one end of the cable to CN3,CN7. Make sure that the red  
(or blue) wire corresponds to pin 1 on the connector, which is  
labeled on the board (on the right side).  
2.  
Plug the other end of the cable into the Enhanced IDE hard drive,  
with pin 1 on the cable corresponding to pin 1 on the hard drive.  
(See your hard drive’s documentation for the location of the con-  
nector.)  
If desired, connect a second drive as described above.  
Unlike floppy drives, IDE hard drives can connect to either end of the  
cable. If you install two drives, you will need to set one as the master and  
one as the slave by using jumpers on the drives. If you install only one  
drive, set it as the master.  
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Chapter 2 Installation  
   
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. Pin assignments for CRT display  
connector CN11 are detailed in Appendix B.  
2.16.2 LVDS LCD panel connector(CN15)  
PCI-6886 uses the Intel 852GM to supports single or dual-channel LVDS  
panels up to UXGA panel resolution with frequency range from 25MHz  
to 112MHz.  
The display mode can be 2 channels (2 x 18bit) LVDS LCD panel dis-  
plays Users can connector to either an 18, 24, or 36 bit LVDS LCD with  
CN15.  
2.16.3 LCD inverter connector(CN20)  
The LCD inverter is connected to CN20 via a 5-pin connector to provide  
+5V/+12V power.  
2.16.4 DVI connector (CN16)  
Digital Visual Interface (DVI) is the standard interface for high-perfor-  
mance connection between PCs and Flat Panel Displays, Digital CRT dis-  
plays, Projectors, and HDTV. The PCI-6886 is able to drive a DVI  
connector display at a pixel rate of up to 165MHz, supporting UXGA res-  
olution displays and hot plug detection.  
2.17 USB connectors (CN9,CN10)  
The PCI-6886 board provides up to four USB (Universal Serial Bus)  
ports. This gives complete Plug and Play, and hot attach/detach for up to  
127 external devices. The USB interfaces comply with USB specification  
Rev. 2.0, and are fuse protected.  
The USB interface is accessed through the 5 x 2-pin flat-cable connector,  
CN10 (USB1, 2),CN9(USB3, 4). You will need an adapter cable if you  
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use a standard USB connector. The adapter cable has a 5 x 2-pin connec-  
tor 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 Ether-  
net interface which is fully compliant with IEEE 802.3U 10/100Mbps  
CSMA/CD standards. It is supported by all major network operating sys-  
tems.  
The PCI-6886 supports 10/100Base-T or 1000Base-T Ethernet connec-  
tions with onboard RJ-45 connectors(CN12). PCI-6886F series supports  
10/100Base-T LAN, PCI-6886FG series supports 1000Base-T LAN.  
2.18.1 LAN connector (CN12)  
10/100 or 1000 Base-T connects to the PCI-6886 via a cable to a standard  
RJ-45 connector.  
2.18.2 Network boot  
The Network Boot feature can be utilized by incorporating the Boot  
ROM image files for the appropriate network operating system. The Boot  
ROM BIOS files are included in the system BIOS, which is on the utility  
CD disc. Boot ROM function supported by 82540EM and  
82551QM(optional), 82551ER can not support this function.  
2.19 Front Panel Connector (CN1)  
Next is to install external switches to monitor and control the PCI-6886.  
These features are optional: install them only if necessary. CN1 is an 2x5  
pin header, 180 degree, male.It provides connections for reset and power  
& hard disk indicator.  
2.19.1 Reset (Pin7&Pin8)  
If a reset switch is installed, it should be an open single pole switch.  
Momentarily pressing the switch will activate a reset. The switch should  
be rated for 10 mA, 5 V.  
2.19.2 HDD LED (Pin1&Pin2)  
The HDD LED indicator for hard disk access is an active low signal (24  
mA sink rate).  
Pin1& Pin2  
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Chapter 2 Installation  
           
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.  
2.20 COM port connector (CN8,CN13,CN14)  
The PCI-6886 provides four serial ports (COM1,COM3,COM4: RS-232  
and COM2: RS232/RS422/RS485). CN13 supports COM1, CN14 sup-  
ports COM2, CN8 supports COM3, COM4. and JP1 is for COM2 RS232/  
RS422/RS485 selection. It provides connections for serial devices (a  
mouse, etc.) or a communication network. You can find the pin assign-  
ments for the COM port connector in Appendix B.  
2.21 MINI PS/2, KB/Mouse connector (CN19)  
The PCI-6886 board provides a keyboard connector that supports both a  
keyboard and a PS/2 style mouse. In most cases, especially in embedded  
applications, a keyboard is not used. If the keyboard is not present, the  
standard PC/AT BIOS will report an error or fail during power-on self-  
test (POST) after a reset. The PCI-6886’s BIOS standard setup menu  
allows you to select "All, But Keyboard"under the "Halt On"selection.  
This allows no-keyboard operation in embedded system applications,  
without the system halting under POST.  
2.22 External KB Connector(CN18)  
In addition to the Mini keyboard connector on the PCI-6886’s rear plate,  
there is an additional onboard external keyboard connector, allowing for  
greater flexibility in system design.  
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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.  
One characteristic of digital circuit is its fast response to high or low sig-  
nal. This kind of response is highly needed for harsh and critical indus-  
trial operating environment.  
Generally, Digital Input and Output are signals to control external devices  
that needs On/Off circuit or TTL devices. Detailed signal assignment  
refer to Appendix A.  
2.25 SATA Connector (SA1, SA2)  
PCI-6886 can support Serial ATA by two COMAX C504C connectors  
(SA1, SA2), data transfer rates up to 150 Mbyte/s, enabling very fast data  
and file transfer, and independent DMA operation on two ports. It also  
supports alternate Device ID and RAID Class Code option for support of  
Soft RAID.  
21  
Chapter 2 Installation  
     
PCI-6886 User’s Manual  
22  
3
Software Configuration  
This chapter details the software con-  
figuration information. It shows you  
how to configure the card to match  
your application requirements. Award  
System BIOS will be covered in  
Chapter 4.  
Sections include:  
• Introduction  
• VGA display software configuration  
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.  
NOTE:  
Due to Intel would not support Win98, Windows  
ME driver, PCI-6886 is not recommended to  
install Win98, Windows ME.  
3.2 VGA display firmware configuration  
The board’s on-board VGA interface supports a wide range of popular  
LCD, flat panel displays and traditional analog CRT monitors. The  
852GM chip with optimized Shared Memory Architecture, supports up to  
64 MB frame buffer using system memory, the interface can drive CRT  
displays with resolutions up to 1600 x 1200 @ 32bpp(85Hz).  
The VGA interface is configured completely via the software utility, so  
you do not have to set any jumpers. Configure the VGA display as fol-  
lows:  
1.  
Apply power to the board with a color TFT display attached. This  
is the default setting for this board. Ensure that the AWD-  
FLASH.EXE and *.BIN files are located in the working drive.  
NOTE:  
Ensure that you do not run AWDFLASH.EXE  
while your system is operating in EMM386  
mode.  
PCI-6886 User’s Manual  
24  
     
2.  
At the prompt, type AWDFLASH.EXE and press <Enter>. The  
VGA configuration program will then display the following:  
Figure 3.1: VGA setup screen  
3.  
4.  
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 <Enter>.  
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. Press Y if you wish to save the existing configura-  
tion before changing it. Then type the name under which you want  
to save the current configuration.  
5.  
The prompt will then ask “Are you sure to program?”. Press Y if  
you want the new file to be written into the BIOS. Press N to exit  
the program.  
The new VGA configuration will then write to the ROM BIOS chip. This  
configuration will remain the same until you run the AWDFLASH.EXE  
program and change the settings.  
25  
Chapter3  
 
PCI-6886 User’s Manual  
26  
4
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 encoun-  
ter 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. Non-fatal error messages usually appear on the screen  
along with the following instructions:  
press <F1> to CONTINUE  
Write down the message and press the F1 key to continue the bootup  
sequence.  
4.1.1 System configuration verification  
These routines check the current system configuration against the values  
stored in the board’s CMOS memory. If they do not match, the program  
outputs an error message. You will then need to run the BIOS setup pro-  
gram to set the configuration information in memory.  
There are three situations in which you will need to change the CMOS  
settings:  
1.  
2.  
3.  
You are starting your system for the first time  
You have changed the hardware attached to your system  
The CMOS memory has lost power and the configuration informa-  
tion has been erased.  
The PCI-6886 Series' CMOS memory has an integral lithium battery  
backup. The battery backup should at least three years in normal service,  
but when it finally runs down, you will need to replace the complete unit.  
PCI-6886 User’s Manual  
28  
     
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 <Del> immediately. This will allow you  
to enter Setup.  
Figure 4.1: BIOS setup program initial screen  
29  
     
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 high-  
lighted, on-line help information is displayed in the right top of the Menu  
screen.  
Figure 4.2: Standard CMOS Features setup  
PCI-6886 User’s Manual  
30  
   
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 4.3: Advanced BIOS Features setup  
31  
   
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: Advanced Chipset Features setup  
PCI-6886 User’s Manual  
32  
   
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 4.5: Integrated Peripherals  
33  
   
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 4.6: Power Management Setup  
PCI-6886 User’s Manual  
34  
   
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 4.7: PnP/PCI Configurations  
35  
   
4.2.8 PC Health Status  
The PC Health Status option displays information such as CPU and moth-  
erboard temperatures, fan speeds, and core voltage.  
Figure 4.8: PC Health Status  
PCI-6886 User’s Manual  
36  
   
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.  
37  
   
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 auto-  
matically when you turn the PCI-6886 Series system on.  
Figure 4.10: Load BIOS defaults screen  
4.2.11 Set Password  
Note  
To enable this feature, you should first go to the  
Advanced BIOS Features menu, choose the  
Security Option, and select either Setup or  
System, depending on which aspect you want  
password protected. Setup requires a pass-  
word only to enter Setup. System requires the  
password either to enter Setup or to boot the  
system.  
A password may be at most 8 characters long.  
To Establish Password  
PCI-6886 User’s Manual  
38  
     
1.  
2.  
3.  
4.  
Choose the Set Password option from the CMOS Setup Utility  
main menu and press <Enter>.  
When you see “Enter Password,” enter the desired password and  
press <Enter>.  
At the “Confirm Password” prompt, retype the desired password,  
then press <Enter>.  
Select Save to CMOS and EXIT, type <Y>, then <Enter>.  
Figure 4.11: Set password  
To Change Password  
1.  
2.  
3.  
4.  
5.  
Choose the Set Password option from the CMOS Setup Utility  
main menu and press <Enter>.  
When you see “Enter Password,” enter the existing password and  
press <Enter>.  
You will see “Confirm Password.” Type it again, and press  
<Enter>.  
Select Set Password again, and at the “Enter Password” prompt,  
enter the new password and press <Enter>.  
At the “Confirm Password” prompt, retype the new password, and  
press <Enter>.  
39  
 
6.  
Select Save to CMOS and EXIT, type <Y>, then <Enter>.  
To Disable Password  
1.  
2.  
3.  
4.  
5.  
6.  
Choose the Set Password option from the CMOS Setup Utility  
main menu and press <Enter>.  
When you see “Enter Password,” enter the existing password and  
press <Enter>.  
You will see “Confirm Password.” Type it again, and press  
<Enter>.  
Select Set Password again, and at the “Enter Password” prompt,  
don’t enter anything; just press <Enter>.  
At the “Confirm Password” prompt, again don’t type in anything;  
just press <Enter>.  
Select Save to CMOS and EXIT, type <Y>, then <Enter>.  
4.2.12 Save & Exit Setup  
Figure 4.12: Save to CMOS and EXIT  
PCI-6886 User’s Manual  
40  
   
If you select this option and press <Y> then <Enter>, 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 <Enter> lets you exit the Setup pro-  
gram without recording any new values or changing old ones.  
41  
   
PCI-6886 User’s Manual  
42  
5
PCI SVGA Setup  
Introduction  
Installation of SVGA drivers  
-for Windows 2000/XP  
Further information  
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 con-  
troller. 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. the interface can drive  
CRT displays with resolutions up to 1600 x 1200 @ 32 bpp 85 Hz.  
5.1.3 Display types  
CRT and panel displays can be used simultaneously. The board can be set  
in one of three configurations: on a CRT, on a flat panel display, or on  
both simultaneously. The system is initially set to simultaneous display  
mode. If you want to enable the CRT display only or the flat panel display  
only, please contact Intel Corporation LTD., or our sales representative  
for detailed information.  
Notes:  
Due to Intel would not support Win98, Win-  
dows ME driver, PCI-6886 is not recommended  
to install Win98, Windows ME.  
PCI-6886 User’s Manual  
44  
         
5.2 Installation of the SVGA Driver  
Complete the following steps to install the SVGA driver. Follow the pro-  
cedures 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 instruc-  
tions which appear on your screen.  
2. For convenience, the CD-ROM drive is des-  
ignated as "D" throughout this chapter.  
5.2.1 Installation for Windows 2000/XP  
To install SVGA driver for Window 2000/XP, please run the setup wizard  
1
"Intel Extreme Graphic 2" in CD-ROM. Example of installation is shown  
as bellow:  
1.  
Select the path: D:\2_VGA, then double click "win2k_xp141" to  
run "Install Shield Wizard"  
45  
Chapter5  
   
2.  
Press the "Next" button.  
3.  
Press the "Next" button.  
PCI-6886 User’s Manual  
46  
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.  
47  
Chapter5  
5.3 Further Information  
For further information about the AGP/VGA installation in your PCA-  
6886, 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.tw  
PCI-6886 User’s Manual  
48  
 
6
PCI Bus Ethernet Inter-  
face  
This chapter provides information on  
Ethernet configuration.  
• Introduction  
• Installation of Ethernet drivers for  
Windows XP  
• Further information  
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 fea-  
ture can be utilized by incorporating the boot ROM image files for the  
appropriate network operating system. The boot ROM BIOS files are  
combined with system BIOS, which can be enabled/disabled in the BIOS  
setup.  
6.2 Installation of Ethernet driver  
Before installing the Ethernet driver, note the procedures below. You  
must know which operating system you are using in your board Series,  
and then refer to the corresponding installation flow chart. Then just fol-  
low the steps described in the flow chart. You will quickly and success-  
fully complete the installation, even if you are not familiar with  
instructions for MS-DOS or Windows.  
Note:  
The windows illustrations in this chapter are  
examples only. Follow the steps and pay atten-  
tion to the instructions which appear on your  
screen.  
6.2.1 Installation for Windows XP  
PCI-6886 User’s Manual  
50  
       
1.  
Select “ Ethernet Controller” from Device Manager.  
2.  
Select “Update Driver”.  
51  
Chapter6  
3.  
Click the “Next” button.  
4.  
Click the “Next” button.  
PCI-6886 User’s Manual  
52  
5.  
Please choose “Continue Anyway”.  
6.  
Click the “Finish” button  
53  
Chapter6  
PCI-6886 User’s Manual  
54  
7
Audio Setup  
• Introduction  
• Installation of audio driver for Win-  
dows XP  
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.  
Note: The files on the software installation diskette are compressed. Do  
not attempt to install the drivers by copying the files manually. You must  
use the supplied SETUP program to install the drivers.  
7.2.2 Windows XP driver  
To install audio driver for Window XP, please run the setup wizard in CD-  
ROM. Example of installation is shown as bellow:  
PCI-6886 User’s Manual  
56  
         
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.  
57  
Chapter7  
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.  
PCI-6886 User’s Manual  
58  
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.  
If a port is programmed to be an input port, then its respective bit can  
only be read.  
CRF2 (GP10-GP17 inversion register. Default 0x00)  
When set to a '1', the incoming/outgoing port value is inverted.  
When set to a '0', the incoming/outgoing port value is the same as in data  
register.  
Extended Function Index Registers (EFIRs)  
The EFIRs are write-only registers with port address 2Eh or 4Eh on PC/  
AT systems.  
Extended Function Data Registers(EFDRs)  
the EFDRs are read/write registers with port address 2Fh or 4Fh on PC/  
AT systems.  
PCI-6886 User’s Manual  
60  
     
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,07H ; select logical device 7  
OUT DX,AL ;  
MOV DX,2EH  
MOV AL,F0  
OUT DX,AL  
MOV DX,2FH  
MOV AL,00H ; 01:Input 00:output for GP10~GP17  
OUT DX,AL  
MOV DX,2EH  
MOV AL,F2H ;  
OUT DX,AL  
MOV DX,2FH  
MOV AL,00H ;Set GPIO is normal not inverter  
OUT DX,AL;  
MOV DX,2EH  
MOV AL,F1H  
61  
AppendixA  
 
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.2 Watchdog programming  
Watchdog: (Index Port:300H , Data Port:301)  
1, Enable 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,0x01); //Enable Watchdog Timer Device  
Outportb (0x2e,0xaa); //Exit Configuration Mode  
2, Set Watchdog Timer to 20 Second  
Outportb (0x2e,0x87);  
Outportb (0x2e,0x87); //Entry Configuration Mode  
Outportb (0x2e,0x07); //Select Register Index 0x07  
Outportb (0x2f,0x08); //Select LDN 8  
Outportb (0x2e,0xf6); //Select LDN 8 Register Index 0x30  
Outportb (0x2f,0x20); //Set 20 second  
PCI-6886 User’s Manual  
62  
 
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  
AppendixA  
PCI-6886 User’s Manual  
64  
B
Pin Assignments  
This appendix contains information of a  
detailed or specialized nature. It includes:  
Floppy Drive Connector  
Primary IDE Connector  
LPT Connector  
Secondary IDE(Slave) Connector  
ATX Power Connector  
COM3/COM4 output  
USB1, 2 Connector  
USB3, 4 Connector  
D-SUB VGA Connector  
LAN, RJ45 Connector  
COM1 connector  
COM2 Connector  
HDD LED/Reset/Power Button  
LVDS Connector  
Audio I/F Connector  
DIO Connector  
MINI KB Connector  
EXT_KB Connector  
CompactFlash card Connector  
LCD INV PWR Connector  
DVI connector  
SATA connector  
Appendix B Pin Assignments  
B.1 ATX power connector (CN5)  
Table B.1: ATX power connector(CN5)  
Pin  
Signal  
1
GND  
GND  
+5V  
2
3
4
GND  
+5V  
5
6
5VSB  
GND  
PSON#  
+5V  
7
8
9
10  
11  
12  
GND  
+5V  
+12V  
PCI-6886 User’s Manual  
66  
     
B.2 Floppy connector (CN4)  
Table B.2: Floppy Connector (CN4)  
Pin  
Signal  
Pin  
Signal  
1
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
2
RWC#  
NC  
3
4
5
6
DS  
7
8
Index#  
MOA#  
DSB#  
DSA#  
MOB#  
DIR#  
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
11  
13  
14  
17  
19  
21  
23  
25  
27  
29  
31  
33  
STEP#  
WD#  
WE#  
Track0#  
WP#  
RDATA#  
HEAD#  
DSKCHG#  
*low active  
67  
Appx.B  
   
B.3 Primary IDE Connector (CN3)  
Table B.3: Primary IDE connector (CN3)  
Pin  
Signal  
Pin  
Signal  
1
IDE RESET  
D7  
2
GND  
D8  
3
4
5
D6  
6
D9  
7
D5  
8
D10  
9
D4  
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
36  
38  
40  
D11  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
35  
37  
39  
D3  
D12  
D2  
D13  
D1  
D14  
D0  
D15  
GND  
REQ  
IOW  
IOR  
NC  
GND  
GND  
GND  
Cable Select  
GND  
NC  
READY  
DACK  
IRQ14  
A1  
ATA check  
A2  
A0  
CS1#  
Active  
CS3#  
GND  
PCI-6886 User’s Manual  
68  
   
B.4 Secondary IDE Connector(Slave) (CN7)  
Table B.4: Secondary IDE connector (CN7)  
Pin  
Signal  
Pin  
Signal  
1
IDE RESET  
D7  
2
GND  
D8  
1
3
2
4
3
4
5
D6  
6
D9  
7
D5  
8
D10  
9
D4  
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
36  
38  
40  
42  
44  
D11  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
35  
37  
39  
41  
43  
D3  
D12  
D2  
D13  
D1  
D14  
D0  
D15  
GND  
REQ  
IOW  
IOR  
NC  
GND  
GND  
GND  
Cable Select  
GND  
NC  
READY  
DACK  
IRQ14  
A1  
ATA check  
A2  
A0  
CS1#  
Active  
+5V  
CS3#  
GND  
+5V  
41  
43  
42  
44  
GND  
NC  
69  
Appx.B  
   
B.5 CompactFlash connector(CN21)  
Table B.5: CompactFlash Connector (CN21)  
Pin  
Signal  
Pin  
Signal  
1
GND  
D3  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
48  
49  
50  
#CD1  
D11  
2
3
D4  
D12  
4
D5  
D13  
5
D6  
D14  
6
D7  
D15  
7
#CE  
A10  
#OE  
A9  
#CE2  
#VS14  
#IORD  
#IOWR  
#WE  
8
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
A8  
A7  
#IRQ  
VCC  
VCC  
A6  
#CSEL  
#VS2  
RESET  
#WAIT  
#INPACK  
#REG  
BVD2  
BVD1  
D8  
A5  
A4  
A3  
A2  
A1  
A0  
D0  
D1  
D2  
D9  
IOCS16  
#CD2  
D10  
GND  
PCI-6886 User’s Manual  
70  
   
B.6 LAN,RJ45 connector(CN12)  
Table B.6: LAN,RJ45 connector(CN12)  
10/100M  
Pin  
Signal  
Pin  
Signal  
1
2
3
4
TX+  
5
6
7
8
NC  
RX-  
NC  
NC  
TX-  
RX+  
NC  
10/100/1000M  
1
2
3
4
MDI0-  
MDIO+  
MDI1+  
MDI-  
5
6
7
8
MDI2+  
MDI2-  
MDI3+  
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  
2
+5V  
USB0-  
USB0+  
USB GND  
GND  
4
USB1-  
USB1+  
USB GND  
NC  
6
8
10  
71  
Appx.B  
       
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  
2
+5V  
USB0-  
USB0+  
USB GND  
GND  
4
USB1-  
USB1+  
USB GND  
NC  
6
8
10  
B.9 LCD INV power connector(CN20)  
Table B.9: LCD INV power connector (CN20)  
Pin  
Signal  
1
2
3
4
5
+12V output  
GND  
Back-light enable signal output  
Back-light VBR signal output  
+5V output  
PCI-6886 User’s Manual  
72  
       
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
IO4  
IO5  
IO6  
IO7  
GND  
4
6
8
10  
73  
Appx.B  
   
B.11 LVDS connector(CN15)  
Table B.11: LVDS connector (CN15)  
Pin  
Signal  
Pin  
Signal  
1
+5V/3.3V  
GND  
2
+5V/3.3V  
GND  
3
4
5
+5V/3.3V  
LVDS0_N0  
LVDS0_P0  
GND  
6
+5V/3.3V  
LVDS1_N0  
LVDS1_P0  
GND  
7
8
9
10  
12  
14  
16  
18  
20  
22  
24  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
LVDS0_N1  
LVDS0_P1  
GND  
LVDS1_N1  
LVDS1_P1  
GND  
LVDS0_N2  
LVDS0_P2  
GND  
LVDS1_N2  
LVDS1_P2  
GND  
LVDS0_C0N 26  
LVDS0_C0P 28  
LVDS1_C0N  
LVDS1_C0P  
GND  
GND  
30  
32  
LVDS_DDC  
OCLK  
LVDS_DDCPDATA  
33  
35  
GND  
34  
36  
GND  
NC/  
LVDS0_N3  
NC/LVDS1_N3  
37  
39  
NC/  
LVDSS0_P3  
38  
40  
NC/LVDS1_P3  
NC  
+0.3V Reference  
PCI-6886 User’s Manual  
74  
   
B.12 LPT connector(CN6)  
Table B.12: LPT connector(CN6)  
Pin  
Signal  
Pin  
Signal  
1
STB#  
D0  
2
AFD#  
ERR  
INIT#  
SLIN  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
GND  
NC  
3
4
5
D1  
6
7
D2  
8
9
D3  
10  
12  
14  
16  
18  
20  
22  
24  
26  
11  
13  
15  
17  
19  
21  
23  
25  
D4  
D5  
D6  
D7  
ACK#  
BUSY  
PE  
SLCT  
75  
Appx.B  
   
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)  
COM2 connector (CN14)  
Pin  
1
Signal  
DCD  
SIN  
Pin  
6
Signal  
DSR  
RTS  
CTS  
RI  
Pin  
1
Signal  
DCD  
SIN  
Pin  
2
Signal  
DSR  
RTS  
CTS  
RI  
2
7
3
4
3
SOUT  
DTR  
GND  
8
5
SOUT  
DTR-  
GND  
6
4
9
7
8
5
9
10 N.C.  
11 TXD422+/  
485+  
12 TXD422-/  
485-  
13 RXD422+  
14 RXD422-  
PCI-6886 User’s Manual  
76  
   
B.14 COM 3, 4 Connector (CN8)  
Table B.14: COM3,4 Connector(CN8)  
Pin  
Signal  
Pin  
Signal  
1
DCD3  
SIN3  
2
DSR3  
RTS3  
CTS3  
RI3  
3
4
5
SOUT3  
DTR3  
GND  
6
7
8
9
10  
12  
14  
16  
18  
20  
GND  
DSR4  
RTS4  
CTS4  
RI4  
11  
13  
15  
17  
19  
DCD4  
SIN4  
SOUT4  
DTR4  
GND  
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  
2
BitCLK  
GND  
DATA IN  
GND  
4
6
Sync  
DATA OUT  
+5V  
8
ACRST  
NC  
10  
77  
Appx.B  
       
B.16 D-SUB VGA connector(CN11)  
5
1
10  
15  
6
11  
Table B.16: D-SUB VGA connector(CN11)  
Pin  
Signal  
Pin  
Signal  
1
2
3
4
5
6
7
8
R
9
+5V  
G
10  
11  
12  
13  
14  
15  
GND  
B
NC  
NC  
GND  
GND  
GND  
GND  
S-DATA  
HSYNC  
VSYNC  
S-CLK  
B.17 MINI PS/2_KB/Mouse connector(CN19)  
Table B.17: MINI Keyboard connector(CN19)  
Pin  
Signal  
1
2
3
4
5
6
KBDATA  
MSDATA  
GND  
+5V  
KBCLK  
MSCLK  
PCI-6886 User’s Manual  
78  
       
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
6 8 10  
1
3
5 7  
9
Table B.19: HDD LED/Reset/Power Button(CN1)  
Pin  
Signal  
Pin  
Signal  
1
3
5
7
9
+5V  
2
HDD_LED  
GND  
+5V  
4
SUSPEND  
RESET  
PWR_Button  
6
5VSB  
GND  
8
10  
GND  
79  
Appx.B  
       
B.20 DVI connector (CN16)  
Table B.20: DVI connector(CN16)  
Pin  
Signal  
Pin  
Signal  
1
TDC0-  
TDC0+  
GND  
2
VCC  
3
4
TDCCLK-  
TDCCLK+  
GND  
5
6
7
TDC1-  
TDC1+  
GND  
8
9
10  
12  
14  
16  
18  
20  
MDVICLK  
MDVIDATA  
HOT_DETECT  
MI2CDATA  
MI2CCLK  
NC  
11  
13  
15  
17  
19  
TDC2+  
TDC2+  
VCC  
NC  
B.21 CPU FAN connector (FAN1)  
1
2
3
Table B.21: CPU FAN connector (FAN1)  
Pin  
Signal  
1
2
3
GND  
+12V  
FAN SPEED DETECT  
PCI-6886 User’s Manual  
80  
       
B.22 Serial ATA (SA1,SA2)  
Table B.22: Serial ATA (SA1, SA2)  
Pin  
Signal  
1
2
3
4
5
6
7
GND  
TX+  
TX-  
GND  
RX-  
RX+  
GND  
81  
Appx.B  
   
PCI-6886 User’s Manual  
82  
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  
Appendix C System Assignments  
C.1 System I/O Ports  
Table C.1: System I/O ports  
Addr. range (Hex)  
Device  
00-0F  
Master DMA controller  
Master Interrupt controller  
Timer/Counter  
20-21F  
40-5F  
60-6F  
Keyboard controller  
KBC Data  
(60h)  
(61h)  
Misc Funtions & Spkr Ctrl  
KBC Command/Status  
RTC/COMS/NMI-Disable  
-available for system use-  
-reserved-(debug port)  
DMA Page Registers  
-available for system use-  
System Control  
(64h)  
70-77  
78-7F  
80  
81-8F  
90-91  
92  
93-9F  
-available for system use-  
Slave Interrupt Controller  
Slave DMA Controller  
-available for system use-  
-available for system use-  
Secondary IDE Control  
Primary IDE Control  
Game Port  
A0-A1H  
C0-DF  
E0-FF  
100-1EF  
170-178  
1F0-1F8  
200-20F  
295-296  
2E8-2EF  
2F8-2FF  
378-37F  
3C0-3CF  
3D0-3DF  
3E8-3EF  
3F0-3F1  
3F0-3F7  
3F8-3FF  
778-77A  
Hardware Monitor  
COM4  
COM2  
Parallel Port(Standard & AFF)  
EGA  
VGA  
COM3  
Configuration Index/Data  
Floppy Controller  
COM1  
Parallel Port(ECP Extensions)(Port 378+400)  
PCI-6886 User’s Manual  
84  
     
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. range (Hex)  
Device  
F0000h - FFFFFh  
*D0000h - EFFFFh  
C0000h - CFFFFh  
B8000h - BFFFFh  
B0000h - B7FFFh  
A0000h - AFFFFh  
00000h - 9FFFFh  
System ROM  
Unused (reserved for Ethernet ROM)  
Expansion ROM (for VGA BIOS)  
CGA/EGA/VGA text  
Unused  
EGA/VGA graphics  
Base memory  
*
If Ethernet boot ROM is disabled (Ethernet ROM occupies about 16 KB)  
* E0000 - EFFFF is reserved for BIOS POST  
C.3 DMA channel assignments  
Table C.3: DMA channel assignments  
Channel  
Function  
0
1
2
3
4
5
6
7
Available  
Available (audio)  
Floppy disk (8-bit transfer)  
Available (parallel port)  
Cascade for DMA controller 1  
Available  
Available  
Available  
* Parallel port ECP mode DMA select 1 or 3  
85  
Appx.C  
       
C.4 Interrupt assignments  
Table C.4: Interrupt assignments  
Interrupt#  
Interrupt source  
IRQ 0  
IRQ 1  
IRQ 2  
IRQ 3  
IRQ 4  
IRQ 5  
IRQ 6  
IRQ 7  
IRQ 8  
IRQ 9  
IRQ 10  
IRQ 11  
IRQ 12  
IRQ 13  
IRQ 14  
IRQ 15  
Interval timer  
Keyboard  
Interrupt from controller 2 (cascade)  
COM2  
COM1  
COM4  
FDD  
LPT1  
RTC  
Reserved (audio)  
COM3  
Reserved for watchdog timer  
PS/2 mouse  
INT from co-processor  
Primary IDE  
Secondary IDE for CFC  
PCI-6886 User’s Manual  
86  
   
D
Intel Speedstep Tech-  
nology  
• 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 man-  
aged, and with a very low CPU and memory unavailability time, which  
optimizes its power and performance according to demand.  
®
®
Advantech’s product with Intel Pentium M processors support speed  
stepping feature at Windows XP, To implement the speed stepping feature  
under Windows XP, please follow the listed steps:  
Step 1. Update “Processor" driver by using "cpu_driver_winxp.zip”  
Step 2. Change “Power schemes" to "Portable/Laptop”  
PCI-6886 User’s Manual  
88  
   
89  
AppendixD  
Step 3. Discover the different CPU freq. by using FrequencyDisplay util-  
ity  
PCI-6886 User’s Manual  
90  
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 / 1.6GHz( Intel  
®
Pentium M)  
91  
AppendixD  
PCI-6886 User’s Manual  
92  

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