IBM Network Card PPC 1510PT User Manual

User’s Manual  
PPC-1510PT  
15.1” TFT Low Power 667Mhz Panel PC  
- 1 -  
 
Ⅱ. Panel PC Specifications  
Display-15.1" color TFT flat panel  
Display Type -TFT LCD panel  
Luminance – 200-250 cd/m2 brightness luminance  
CPU -P-III equivalent Low power 667Mhz CPU L1 & L2 cache built on CPU  
System Chipset -Twister-T , VIA VT8606 , 82C686B  
Front Bezel -Thick 10mm Aluminum-alloy hairline anodizing treatment front bezel  
Housing & Wall-mounting -Rugged 1.2mm thick steel metal with white painting VESA–75 and  
VESA-100 compliant  
Surface Treatment of Front Panel -Super high-end hairline anodizing treatment, color  
Standard Colors -Stainless Steel silver color  
Front Panel Protection -Meet NEMA 4, 12 and IP65, 56 water resistant EIA standard  
System Memory -One slim size CD-ROM, 24x speed built in  
CD-ROM (optional) -One slim size CD-ROM, 24x speed built in  
HDD (optional) – 10-20 slim size HDD  
Disk On Module (optional) -SupportDOMupto512MB  
DiskOnChip(optional) -SupportM-System’s DOC upto288MB  
Serial ports -4x COMs ( 3 x RS232 port ,1 xRS232/422/485 port)  
USB -2 x USB ports and IrDA pin header on board  
Parallel Port -LPT port for Printer connection.  
Keyboard and Mouse -One PS/2 KB/Mouse port  
Audio I/O -Microphone, Speaker, Line-in  
Network Interface Controller Chipset -Realtek 8139C ,support 10/100 Mbp,auto-negotiation ,auto-switch  
LAN  
VGA -Display Controller Chipset -S3 Savage 4 ,support AGP 4X LCD/ 2-channel LVDS, TFT,  
DSTN LCD/CRT with 32MB share Video memory, 3D/2D support  
DVD MPEG-2-support DVD video playback  
Touch Panel (Optional) -Long-life 6-wire resistive Touch screen  
Power Requirements -Long-life 6-wire resistive Touch screen  
Dimension ( WxHxD) -  
Operating Temperature -0 to 55°C (32 to 131°F)  
- 3 -  
 
. Power Supply  
Input : 100-240VAC ~ 2A 50/60Hz  
DC Output : +5V/7A, +12V/1.5A  
-12V/0.3A, +5Vsb/0.75A  
. NAGASAKI Panel PC Comparison table  
Model no.  
SBC  
CPU  
Power  
PPC-64T  
NASA-6820  
MS-2100  
667Mhz on board  
300Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
AC-DC Adaptor  
AC-DC Adaptor  
AC-DC Adaptor  
DC-DC Adaptor  
AC-DC Adaptor  
DC-DC Power  
AC-DC Adaptor  
DC-DC Adaptor  
AC-DC Adaptor  
AC-DC Adaptor  
DC-DC Adaptor  
AC-DC Power  
AC-DC Adaptor  
DC-DC Adaptor  
AC-DC Power  
AC-DC Power  
AC-DC Power  
DC-DC Adaptor  
PPC-70T  
PPC-106T  
NASA-6109  
NASA-6109  
NASA-6109  
NASA-6109  
NASA-6109  
NASA-6109  
PPC-106T-DC  
PPC-107PT  
PPC-107PT-DC  
PPC-127T  
PPC-127T-DC  
PPC-128HT  
PPC-129PT  
PPC-129PT-DC  
PPC-156T  
NASA-6104LL 800Mhz  
NASA-6109  
NASA-6109  
NASA-6102  
NASA-6109  
NASA-6109  
NASA-6111  
NASA-6101  
NASA-6109  
NASA-6109  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
667Mhz on board  
PPC-157T  
PPC-157T-DC  
PPC-158T  
PPC-159T  
PPC-1510PT  
PPC-1510PT-DC  
- 4 -  
 
. Touch Panel  
1. Application  
2. Warranty  
3. Features  
4. Characteristics  
4.1 Usable Temperature Range  
4.2 Storage Temperature Range  
4.3 Input Method  
5. Electrical Specifications  
5.1 Linearity  
5.2 Insulation Resistance  
5.3 Chattering Time  
6. Mechanical Specifications  
6.1 Operating Force (with pen)  
6.2 Surface Hardness  
7. Optical Specifications  
7.1 Light Transmittance  
8. Reliability  
8.1 Line drawing operation  
8.2 Pen hitting operation  
9. Environment Durability Performance  
9.1 High Temperature Test  
9.2 Low Temperature Test  
9.3 Humidity Test  
9.4 Thermal Shock Test  
9.5 Resistance to Chemical  
10. Quality Level  
10.1 Inspection condition  
10.2 Criterion  
10.3 Glass Fragment  
10.4 Newton ring  
- 5 -  
 
11. Cautions  
1.Application : This specification is applied to 6wire Touch Panel.  
2. Warranty : TOUCH PANEL products manufactured to this specification shall be capable of meeting all  
characteristics for a minimum period of 12 months the date of shipping from NAGASAKI IPC when stored or used as  
specified under normal conditions within the contents of these sheets. If TOUCH PANEL products are not stored or  
used as specified herein, it will be void the 12 months warranty.  
3. Features  
Type Analog Resistive Type Touch Panel  
Input Mode Polyester Pen or Finger  
Structure Film----- ITO Film Glass----ITO Glass  
4. Characteristics  
4.1 Operating Temperature Range : From –20to60(Humidity90%RHorlower,nodewconditionshallbe  
acceptable)  
4.2 Storage Temperature Range : From –30to70℃  
(Humidity 90%RH or lower, no dew condition shall be acceptable)  
4.3 Input Method:  
(1) with Polyester Pen:  
Operation and measurement with a pen must be carried out under the following trip condition:  
MaterialPolyester  
(2) with Finger:  
TipSR 0.8 millimeter  
Operation and measurement with a finger must be carried out under the  
MaterialSilicon rubber (Hardness: 60º Hs)  
TipSR 12.5 millimeter  
5. Electrical Specifications  
5.1 Linearity Direction± 1.5% or less (with calibration controller)  
5.2 Insulation Resistance20 MO or more @ DC 25V  
5.3 Chattering Time 10 millisecond or less @ 100KO  
6. Mechanical Specifications  
Item No. Item Ratings Test Methods & Condition  
6-1 Operating Forcewith Polyester Pen SR 0.8)  
According to applicable product specification Less than 150g Using a load cell with a Polyester Pen conforming to the  
specifications set forth in item 4.3 (1) attached to its tip, apply a vertical load within the valid area.  
Using themeasurement circuit illustrated in diagram 6-1 below, take the gauge value when the voltage value 4.5V or  
greater as the pressure load value.  
6-2 Surface Hardness : 2H or Higher JIS-K5400  
- 6 -  
 
7. Optical Specifications  
7.1 Light Transmittance (Total Transmittance)More than 78%Measuring apparatusHaze meter-made by  
BYK-Gardner  
TypeHaze–Gard-plus 4726  
IlluminantCIE-A  
StandardASTM D 1003)  
8. Reliability Item No. Item Ratings Test Methods & Condition  
8-1 Line drawing operation 1,000,000 times of drawing Requirement in paragraph 5 and 6 Drawing must occur in  
following manner at any point within anAction area.  
1) Testing equipmentPen plotter  
2) Testing load / force2.5 N  
3) Sliding speed200 mm / second  
4) Tip probePolyester Pen as defined in sub-paragraph 4-31)  
8-2 Pen hitting operation 5,000,000 hits with a pen Requirement in paragraph 5 and 6 Hits must be made in the  
following manner at any point within at effective area.  
1) Testing equipmentPen plotter  
2) Testing load2.5 N  
3) Press speed3 hits / second  
4) Tip probePolyester Pen as defined in sub-paragraph 4-3 (1)  
9. Environment Durability Performance Item No. Item Ratings Test Methods & Condition  
9-1 High Temperature Test Requirement in paragraph 5 and 6 Put it in a vessel at the conditionof70±1and45  
±1% humidity relative for 120 hours. Moreover let it alone for 24 hours or more in a room temperature and measure it.  
9-2 Low Temperature Test Requirement in paragraph 5 and 6 Put it in a vessel at the condition of –30±1for120  
hours. Moreover, let it alone for 24 hours or more in a room temperature and measure it.  
9-3 Humidity Test Requirement in paragraph 5 and 6 Leaveinanenvironmentof60±1and90±1%relative  
humility for 120 hours and then perform measurements after leaving at room temperature for 24 hours  
9-4 Thermal Shock Test Requirement in paragraph 5 and 6 Put it in a vessel at theconditionof70±1for30  
minutes and then –30±1for30minutesandhisprocessisrepeatedby10cycles.Moreoverletitalonefor24hours  
in a room temperature and measure it.  
9-5 Resistance to chemicals (Surface hard coating) No abnormality in external appearance Lightly wipe the surface  
with methyl alcohol, artificial perspiration or household cleanser (neutral).  
10.Quality Level  
10.1 Inspection Condition The inspection shall be performed by using Back light 150-300 cd/m2 ,1000-1400 Lux  
natural lightunder the surface of sensor. The panel shall be position sensors from 45cm form eyes and an.  
Angle 30 degree (15~45), 15 second viewing time.  
- 7 -  
 
10.2 Criterion The followings are applied to viewing area The item 10.2 (1,2,3,4) should apply to the VA (view area)  
unless none VA affect electrical performance  
(1) Scratch  
Width0.1mmandlength20mmAccept .  
Width > 10 mm or Length > 20mm Reject  
(2) Granular foreign object  
Diameter0.5mmAcceptable  
(3) Linear foreign object (fiber)  
0.5mm DiameterUnacceptable  
Width0.05andLength5mmAccept  
Width0.05andLength 5mmUnacceptable  
(4) Blistering (Puffiness, Baggy) Check through any 0.5millimeter gauge whether a Touch Panel surface film does not  
contact a measuring face.0.5mm gauge 0.5mm Tablet  
10.3 Glass Fragment  
(1)CornerFragmenta2mmb2mmandc:breakheighttIt is acceptable twotGlass Thickness)  
(2)SideFragmenta3mm,b2.0mmandc1/2tacceptable  
five and interval of faults is 20mm minimum every side. (tGlass Thickness)  
10.4 Newton ring  
Diameter35mmAcceptable  
Pass if defect that fails size cannot be seen when held in front of colors program on monitor.  
11.Cautions Item No. Subject Note  
11.1 Storage 1) Store Touch Panel at the stated temperature and humidity range.  
2) Store Touch Panel with original packing.  
3) Do not expose Touch Panel directly to the sun  
11.2 Unpacking 1) Do not hold FPC / Copper tail to take Touch Panel out of the package.  
2) Open the package after checking “UP / DOWNmark.  
3) Do not put the heavy shock and stress on Touch Panel.  
11.3 Handling 1) Wear gloves at handling to prevent stains on Touch Panel or injury by the sharp edge of touch glass.  
2) Do not hold FPC / Copper while handling Touch Panel.  
3) Do not pile Touch Panels and put heavy matter on Touch Panel.  
4) Do not add any stress on touch film.  
5) Use dry cloth or soft cloth with alcohol, neutral detergent or one with ethanol at cleaning in case of dirt.  
6) Do not use organic solvents except alcohol. 11.4Assembling 1)Avoid excessive force on the Touch Panel.  
7) Do not give unnecessary strain to the FPC / Copper tail while assembling.  
- 8 -  
 
. NASA-6109 User’s Manual  
Copyright Notice  
The content of this manual has been checked for accuracy. The manufacturer assumes no responsibility for any  
inaccuracies that may be contained in this manual. The manufacturer reserves the right to make improvements or  
modification to the this document and/or the product at any time without prior notice. No part of this document may be  
reproduced, transmitted, photocopied or translated into any language, in any form or by any means, electronic,  
mechanical, magnetic, optical or chemical, without the prior written permission of the manufacturer. VIA is registered  
trademark of VIA Technology Incorporation VT82C686A may only be used to identify products of VIA Technology  
Realtek is registered trademark of Realtek Technologies Inc. Multiscan is a trademark of Sony Corp of America IBM,  
EGA, VGA, PC/XT, PC/AT, OS/2 and PS/2 are registered trademarks of International Business Machines Corporation  
Intel is a registered trademark of Intel Corporation Plug and Play is registered trademarks of Intel Corporation Microsoft,  
Windows and MS-DOS are trademarks of Microsoft Corporation Award is a trademark of Award Software Inc. PCI is a  
registered trademark of PCI Special Interest Group Other product  
names mentioned herein are used for identification purpose only and may be trademarks and/or registered trademarks  
of their respective companies.  
Installation Notice  
The manufacturer recommends using a grounded plug to ensure proper motherboard operation. Care should be used  
in proper conjunction with a grounded power receptacle to avoid possible electrical shock. All integrated circuits on this  
motherboard are sensitive to static electricity. To avoid damaging components from electrostatic discharge, please do  
not remove the board from the anti-static packing before discharging any static electricity to your body, by wearing a  
wrist-grounding strap. The manufacturer is not responsible for any damage to the motherboard due to  
improper operation.  
Specification  
This manual covers two different layout models, and the respective board layouts are shown in chapter 1-4. Please  
refer to the following description to make sure which model on hand before using.  
MODEL  
System Chipset  
NASA-6109  
VIA PM133  
,
VT8601/VT686B  
- 9 -  
 
CPU Supporting  
Embedded VIA EDEN ESP5000 (533MHz) or VIA c3  
800MHz CPU  
LANAdapter  
Realtek 8139C or Intel 82559ER  
AudioAdapter  
VGAAdapter  
LCD Supporting  
ROM-Disk Socket  
TV-Out  
*Optional  
On chip 2D/3D Graphic Controller w/ SMA up to 8MB  
TFT TTL LCD optional LVDS l  
Yes (2-288MB)  
Optional  
I/O Port  
4S/2P  
IDE Interface  
U. DMA 33/66/100  
DIMM Socket  
Max. RAM Size  
VGA Memory Size  
Watch Dog Timer  
AT / ATX Power  
USB Feature  
Board SizeFormat  
1
512MB  
8MB  
Optional  
Yes  
Yes  
203 x 146mm SBC Format  
Chapter 1. Introduction  
In order to cope with the challenges of the heating issues and demand of much more diminutive embedded system in  
diverse application, NASA-6109 series CPU boards provides the ultimate solution by integrating with VIA’s technology  
low power consumption VIA C3 series CPU and VIA EDEN fanless ESP series CPU. NASA-6109 series CPU boards  
offer the assorted functions for various applications such as high-end POS systems, kiosks, networking systems,  
controlling terminals and other embedded systems.  
NASA-6109 is a 5.25” SBC uses VIA chipsets built-in VGA and Audio feature onboard, support TFT TTL LCD feature  
with LVDS interface as feature option; built-in Realtek 8139XX LAN chipset with RJ45 Jack for 10BaseT/ 100BaseT. The  
option of Intel 82559ER chip is also provided for the LAN support. This SBC offers the highest performance PC  
specification in the industry with embedded low power consumption VIA EDEN fanless ESP series CPU ESP5000, and  
- 10 -  
 
with the option of the higher performed VIA C3 800MHz CPU. For easier assembly and better integration without  
arranging array of cables, NASA-6109 provides onboard connectors with a similar conventional ATX layout.  
NASA-6109 provides the option of integrating Watch Dog Timer for ideal unattended terminals. To offer better flexibility, it  
also provides the options of riser card for PCI or ISA expansion through a 188-pin slot. This CPU board is fully compatible  
with industry standards, adding many technical enhancements and are fully compatible with thousand of software  
application such as WIN 95, 98, WIN NT 3.x / 4.x, WIN 2000, WIN ME, WIN CE (.NET), LINUX, UNIX, Novell…etc. The  
control logic provides high-speed performance for the most advanced multi-user, multitasking application available today.  
Tomorrow’s PC technology is here today”.  
1-1. Features  
NASA-6109, embedded VIA C3 TM, Eden TM, Ezra TM Low Power EBGA processors.  
133 / 100 / 66 MHz CPU Front Side Bus (FSB)  
DRAM interface synchronous or pseudo synchronous with CPU FSB speed of 133 / 100 / 66 MHz Mixed 1M / 2M /  
4M / 8M / 16M / 32MxN DRAMs  
1 or 2 DIMM 168 Pin socket supported up to 512MB or 1.0GB  
3.3V DRAM interface with 5V-tolerant inputs  
Support Dual channel UltraDMA-100 / 66 / 33 enhance IDE  
AC-97 link.  
On-board built-in 2 or 4 USB ports.  
Integrated Super-I/O support 4 Serial with power selector and 2 parallel ports.  
Optional RS-422/485 via COM2  
System Hardware monitoring  
Keyboard / mouse interfaces.  
RTC / CMOS  
PCI-2.2 compliant, 32 bit 3.3V PCI interface with 5V tolerant inputs.  
33 MHz operation on the primary PCI bus  
188pin expansion slot for both PCI and ISA Bus signals.  
PC99 Hardware Support  
Watch-Dog-Timer support 1-255sec programmable.  
On-board support Realtek or Intel 82559/ER 10/100 LAN adapter with RJ-45 port.  
AGP v1.0 compliant  
Integrated AGP Bus 2D / 3D graphic accelerator.  
- 11 -  
 
Windows 95 OSR-2 VXD and integrated Windows 98 / NT5 miniport driver support  
BIOS shadow at 16KB increment  
Supports 2, 4 and 8 Mbytes of Frame Buffer with share memory.  
DirectDrawTM and DirectVideoTM Hardware Support  
Advanced Mobile Power Management  
CRT Power Management (VESA™ DPMS)  
Optional for Flat Panel Interface ( TTL or LVDS )  
The board is designed to support industry standard TFT panel via 44pin connector or LVDS transmitters. The interface  
supports both 18-bit and 24-bit display modes. Optionally, an 18+18 panel can be supported utilizing external latches.  
Optional Features  
Supports RS422/RS485 interface with COM2  
Support LVDS LCD panel  
Supports Audio function (viaAV Card Kit)  
Supports TV-Out feature (via TV-Out adapter Kit)  
Support Watch Dog Timer / POST code (WDT only for NASA-6109)  
Support BOOT ROM  
Ordering information  
NASA-6109  
1. NASA-6109VLA: Support 1 LAN  
2. NASA-6109LVDS: Support 1 LAN + LVDS  
Note: The standard version of NASA-6109 is embedded with VIA EDEN Fanless 533Mhz and 667MHz .  
Other option CPUs will be provided upon request.  
1-2. Unpacking  
The motherboard comes securely packaged in a sturdy cardboard shipping carton. In addition to the User's Manual, the  
motherboard package includes the following items:  
NASA-6109 5.25” SBC / CPU Board  
HDD/FDD Cables  
TV-Out adapter / cable (Optional)  
Audio Kit (Optional)  
- 12 -  
 
LCD cable (Optional)  
IDE Driver includes: Drivers for Windows NT 3.x / 4.x, Windows 95, 98, 2000, Win Me, Linux, Novell Netware and  
AMI FLASH ROM utilities.  
Driver utilities for on-board VGA drivers, LAN adapter and DOC 2000  
If any of these items are missing or damage, please contact the dealer from whom you purchase the motherboard.  
Save the shipping material and carton in the event that you want to ship or store the board in the future.  
Note: Leave the motherboard in its original package until you are ready to install it !  
1-3. Electrostatic Discharge Precautions  
Make sure you properly ground yourself before handling the motherboard, or other system components. Electrostatic  
discharge can easily damage the components.  
Note: You must take special precaution when handling the motherboard in dry or air-conditioned environments  
1-4. 5.25” SBC (NASA-6109)  
- 13 -  
 
Chapter 2. Setting up the 6109 CPU board  
Jumpers and Connectors  
Jumpers/Connectors Overview:  
Function  
Jumpers/Connectors  
Cooling Fan Connector  
Power Supply: Power Good  
ATX Power On/Off Switch  
Audio Port Connector  
2nd Printer Port  
JFAN1, JFAN2  
JP12: Pin 9~11  
JP12: Pin 12~13  
CN1  
CN4  
LANAdapterDisable/Enable  
COM1 Port  
JP3  
CN6  
COM2 Port  
CN8  
COM3 Port  
CN2  
COM4 Port  
CN3  
COM Ports Power Selector (COM1, 2, 3, 4)  
RS232/RS422/RS485 Selector (COM2)  
DiskOnChip Memory Address  
LCD: TFT LCD Panel Connector  
LVDS LCD Output Port  
LVDS Voltage Selector  
Clear CMOS  
JP4, JP9  
JP10, JP11  
JP15  
LCD-CON1  
CN5  
JP5  
JP2  
Factory Setting  
JP1, JP7, JP8, JP13, JP14, JT1, JH1  
PS/2 Keyboard Jack  
PS/2 Mouse Jack  
JKBMS  
JKBMS  
CN7  
PS/2 Mouse/KB Pin Header  
IR  
J1  
FDD Connector  
FDD1  
IDE 1  
IDE1  
Header for Case Panel  
IDE 1 LED  
JP12  
JP12: Pin 1, Pin 2  
- 14 -  
 
Function  
Jumpers/Connectors  
JP12: Pin 3, Pin 6  
External Speaker  
Buzzer On/Off  
JP12: Pin 4, Pin 5  
Hardware Reset Switch  
External Power Good  
Internal Power Good  
ATX Power Supply On/Off Switch  
Power LED  
JP12: Pin 7, Pin 8  
JP12: Pin 9, Pin 10  
JP12: Pin 10, Pin 11  
JP12: Pin 12, Pin 13  
JP12: Pin 14, Pin 15  
JP12: Pin 19, Pin 20  
WDT Function Enable/Disable  
Please double-check the insertion and orientation of the LCD cable before applying power : mproper installation will result  
in permanent damage LCD panel.  
JP2: CMOS Data Clear:  
Pin 1-2 *  
Pin 2-3  
Normal  
Clear CMOS Data  
JP15: DiskOnChip Memory Address Selector  
JP15  
1-2  
1-2  
3-4  
3-4  
5-6  
MemoryAddress  
7-8  
0C800H-0C9FFH  
0CC00H-0CDFFH  
0DCCCH-0D1FFH  
0D400H-0D5FFH  
0D800H-0D9FFH(Default)  
9-10  
7-8  
9-10  
7-8  
JP3: On-board LAN Disable/Enable  
Pin 1-2  
Pin 2-3  
Enable On-Board LAN  
Disable On-Board LAN  
- 15 -  
 
JP9 (COM1, 2) / JP4 (COM3, 4) Voltage Selector:  
Voltage COM1(JP9) COM2(JP9) COM3(JP4) COM4(JP4)  
+12V(dc) 1-2  
R.I. 3-4  
+5V(dc) 5-6  
7-8  
1-2  
3-4  
5-6  
7-8  
9-10  
11-12  
9-10  
11-12  
JP10, JP11: RS232 / 422 / 485 Selector for COM2  
TYPE  
JP10  
JP11  
1-2  
RS-232  
1-2, 4-5, 7-8, 10-11  
2-3, 5-6, 8-9, 11-12  
RS-422/485 Full Duplex  
3-4, 7-8  
* Make sure the port mode is set up correctly before installing any peripherals.  
JP12’s Pin 9~11: On-board Power Good Selector  
Pin 9-10  
Using External Power Good  
Using On Board Power Good  
Pin 10-11  
JFAN1, JFAN2: CPU / 2nd Cooling Fan Connector  
Pin No.  
Pin 1  
Function  
Sensor Pin.  
+12V  
Pin 2  
Pin 3  
GND  
JP12’s Pin12;13;16;17;18: For ATX Power Supply  
Close Pin 16-17  
Close Pin 17-18  
Pin 12; Pin 13  
Using PS/2 AT Power Supply  
UsingATX Power Supply  
On/Off Switch for ATX Power  
12: Case Panel Connection:  
Pin No.  
1,2  
Description  
HDD_LED -/+  
3,6  
External Speaker  
Onboard Buzzer  
4,5  
- 16 -  
 
7-8  
Hardware RESET  
Reserved  
9-10  
10-11  
12-13  
14-15  
16-17  
17-18  
19-20  
Reserved  
ATX Power On/Off  
Power LED (14:LED+, 15:LED-)  
Close for PS/2 Power  
Close for ATX Power  
Close: Enable WDT function  
J1: IR Pin Header.  
Pin No.  
Function  
1
2
3
4
5
+5V(DC)  
N.C.  
IRRX  
GND.  
IRTX  
CN1: Audio Output Port connector via AV Card Kit (Optional)  
Please close pin13-14 to disable onboard Audio features if theAV Card Kit is not inserted onto the CN1 connector. IfAV  
card kit is inserted, please make sure the BIOS is enabled with the audio function, since LPT2 and audio function can not  
be used in the same tim  
CN1: Audio Port.  
Pin No.  
Function  
BITCLK  
SDIN  
Pin No.  
Function  
GND  
1
2
3
4
N.C.  
5
SDIN2  
6
N.C.  
7
SDOUT  
SYNC  
8
N.C.  
9
10  
12  
14  
16  
GND  
11  
13  
15  
-ACRST  
SPEAK  
+5V(DC)  
GND  
Strapping Low  
+12V(DC)  
- 17 -  
 
17  
19  
21  
23  
25  
JBCY  
JBCX  
JACY  
JACX  
MSO  
18  
20  
22  
24  
26  
JAB2  
JAB1  
JBB2  
JBB1  
MSI  
CN7: Pin Header for PS2 KB / MS  
Pin No.  
Signal (KB)  
KB Data  
KEY  
Pin No.  
Signal(MS)  
MS Data  
KEY  
1
3
5
7
9
2
4
GND  
6
GND  
+5V(DC)  
KB_CLK  
8
+5V(DC)  
MS_CLK  
10  
Printer (LPT1/LPT2) Port  
Pin No.  
Description  
STB#  
PD0  
Pin No.  
10  
Description  
ACK#  
BUSY  
PE  
1
2
3
4
5
6
7
8
9
11  
PD1  
12  
PD2  
13  
SLCT  
AFD#  
ERR#  
INIT#  
PD3  
14  
PD4  
15  
PD5  
16  
PD6  
17  
SLIN#  
GND  
PD7  
18-25  
JP5: Voltage Selector for LDVS Receiver  
Pin No.  
1-2  
Signal  
Receiver = +5V(DC) Type  
Receiver = +3.3V(DC) Type  
Open for OEM. Type  
2-3  
4-5  
- 18 -  
 
Close for Normal Type  
* Caution: Improper setting will damage LCD panel.  
CN5: LCD -LVDS Output.  
Pin No.  
Signal  
Y0-  
Pin No.  
Signal  
Y2-  
1
2
3
Y0+  
Y1-  
4
Y2+  
5
6
Rcv. Voltage  
Y3-  
7
GND  
Y1+  
CK-  
8
9
10  
12  
14  
16  
Y3  
11  
13  
15  
VDD_PNL  
DISP_OFF  
GND  
CK+  
VBL  
LCD_CON1: TFT LCD Panel Port  
Pin No.  
1
Signal  
Pin No.  
Signal  
VBL  
2
VBL  
3
GND  
4
GND  
5
VDDLCD  
ENPVEE  
FPD 23  
FPD 17  
FPD 11  
FPD 9  
FPD 21  
FPD 15  
FPD 7  
FPD 5  
FPD 19  
FPD 13  
FPD 3  
6
VDDLCD  
GND  
7
8
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
FPD 22  
FPD 16  
FPD 10  
FPD 8  
FPD 20  
FPD 14  
FPD 6  
FPD 4  
FPD 18  
FPD 12  
FPD 2  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
- 19 -  
 
31  
33  
35  
37  
39  
41  
43  
FPD 1  
GND  
P_CLK  
DE  
32  
34  
36  
38  
40  
42  
44  
FPD 0  
GND  
FLM  
LP  
GND  
PNKL  
VCC  
PBKL  
KEY  
VCC  
* Please make sure the Pin 1 location before inserting the LCD connector.  
Factory Setting:  
JP1: All Pin Open  
JP7: Close Pin 1-3, Pin 4-6  
JP8: Close Pin 1-2  
JP13: Factory Using only  
JP14: Close Pin 2-3; Pin 5-6; Pin 8-9; Pin 11-12  
JT1: Close Pin 2-3; Pin 4-5; Pin 8-9  
JH1: Close Pin 1-2; Pin 5-6; Pin 7-8  
2-4. Installing Memory  
The NASA-6109 CPU board offers one 168pin DIMM sockets  
supporting up to 512MB of memory. The DIMM memory can be 100MHz (PC-100) or 133 MHz (PC-133).  
2-5.  
Shared VGA Memory  
The NASA-6109 is using built-in AGP VGA controller with share memory architecture (SMA) -AGP mode with 2MB to  
8MB of system memory. The amount of video memory on motherboard determines the number of colors and the  
video graphic resolution.  
2-6.  
Installing Riser Card  
Installing Riser Card (Max. 3 PCI Slot on Riser Card)  
PCI Slot  
PCI 1  
PCI 2  
PCI 3  
PCI 4  
INT  
ADSEL  
A,B,C,D  
B,C,D,A  
C,D,A,B  
D,A,B,C  
AD24(Onboard LAN)  
AD23  
AD22  
AD21  
- 20 -  
 
There are two different riser cards that can be fitted to NASA-6109 CPU board. The first one is a 98pin ISA only Bus  
riser card (traditional ISA Bus riser card), the second one is a 188pins PCI/ISA riser card.  
Please note: PCI/ISA riser cards jumper settings have to be matched with the motherboard INT/AD-select  
jumper.  
The default INT/AD-select for NASA-6109/3601MAll-In-One motherboard is listed in the above table. However, it could  
be revised by changing JP14 setting for different INT/AD-select. The following table shows the variable configurations:  
INT/AD Configurations:  
Expansion for PCI Slot  
Expansion PCI 1  
Expansion PCI 2  
Expansion PCI 3  
Expansion PCI 4  
* Close 1-2  
Close 2-3  
INT =A,B,C,D  
INT = B,C,D,A  
INT = C,D,A,B  
INT = D,A,B,C  
INT = B,C,D,A  
INT = C,D,A,B  
INT = D,A,B,C  
INT = A,B,C,D  
Note: Even change the setting for different configuration theAD-select should be match to each INT. Please using the  
default setting as above if you are not familiar with the configuration of raiser card and add-on card.  
Caution: Do not insert PCI BusAdd-On cards directly into the on-board expansion slot!  
2-6.  
Assigning IRQs for Expansion Cards  
Some expansion cards require an IRQ (Interrupt request vector) to operate. Generally, each IRQ must be exclusively  
assigned to specific use. In a standard design, there are 16 IRQ available with 11 of them already in used by other part  
of the system.  
Both ISA and PCI expansion cards may need to use IRQ. Cards installed in the ISAExpansion Bus have the first  
priority to use the available system IRQs. Any remaining IRQ then, may be assigned to this PCI Bus. Microsoft's  
Diagnostic (MSD.EXE) utility included in the Windows directory can be used to see their map. Make sure that there are  
no two devices using the same IRQ in the system. Otherwise this will cause the system to hang up or give unexpected  
results. To simplify the process, this motherboard complies with the Plug and Play (PnP) specifications, which was  
developed to allow automatic system configuration. Whenever a PnP-compliant card is added to the system, PnP cards  
and IRQs are automatically assigned if available. If the system has both Legacy and PnP ISA cards installed. IRQs  
are assigned to PnP cards from those not used by Legacy cards. The PCI and PnP configuration in the BIOS setup  
utility can be used to indicate  
which IRQs have being used by Legacy cards. For older Legacy cards that do not work with the BIOS, you can contact  
your vendor for an ISA configuration utility.  
- 21 -  
 
An IRQ number is automatically assigned to PCI expansion cards after those used by Legacy and PnP ISA cards. In  
the PCI Bus design, the BIOS is automatically assigned an IRQ to a PCI slot that has a card in it which requires an IRQ.  
To install a PCI card, you need to set the correct "ADSEL" and "INT" (interrupt) assignment. Please refer to "Chapter  
2-5" Installing a Riser Card for detail assignments.  
IRQ  
0
Status  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Used  
Assignment  
Timer  
1
Keyboard  
2
Second 8259  
COM2  
3
4
COM1  
5
COM3  
6
Floppy Disk  
LPT1  
7
8
RTC  
9
LPT2 orAudio  
COM4  
10  
11  
12  
13  
14  
15  
LAN Adapter (on board)  
PS/2 Mouse  
Coprocessor  
Hard Disk (IDE 1)  
Reserved (IDE 2)  
2-8. Assigning DMA Channels for ISA Cards  
Since ISA cards, both Legacy and PnP may also need to use a DMA (direct memory access) channel, DMA  
assignments for this motherboard are handled the same way as the IRQ assignment process described above. You  
can select a DMA channel in the PCI and PnP configuration section of the BIOS setup utility. In the BIOS setup, you  
should choose "Yes" for those IRQ's and DMA's you wish to reserve for Legacy cards.  
- 22 -  
 
Chapter 3. AMI BIOS SETUP  
AMI BIOS Setup Main Menu  
Standard CMOS Setup  
Advanced CMOS Setup  
Advanced Chipset Setup  
Power Management Setup  
PCI / Plug and Play Setup  
Peripheral Setup  
Hardware Monitor Setup  
Setup HDD Security Password  
Auto-Detect Hard Disks  
Change User Password  
Change Supervisor Password  
Change Language Setting  
Auto Configuration with Optimal Settings  
Save Settings and Exit  
Exit Without Saving  
Use the CMOS setup program to modify the system parameters to reflect the environment installed in your system and  
to customize the system as desired. Press the <DEL> key to enter into the CMOS setup program when you turn on  
the power. Settings can be accessed via arrow keys. Press <Enter> to choose an option to configure the system  
properly. In the main menu, press F10 or “SAVE & EXIT SETUP” to save your changes and reboot the system.  
Choose “EXIT WITHOUT SAVING” to ignore the changes and exit the setup procedure. Pressing <ESC> at  
anywhere during the setup will return to the main menu.“Advanced CMOS Setup”, “Details of the Advanced Chipset  
Features” and “PCI / Plug and Play Setup” requires board knowledge on PC/AT system architecture and VIA chipset  
specification. They intend to be used by well-trained technicians and experienced users. Incorrect setup could cause  
system malfunctions.  
3-1.  
3-2.  
Quick Setup  
In most cases, you can quickly configure the system by using the following procedure.  
The manufacturer highly recommends that you use “Quick Setup” for setting CMOS to avoid any unpredictable results.  
Choose Standard CMOS Setup” from the main menu, to configure the date and time, hard disk type, floppy disk drive  
type etc.  
- 23 -  
 
Choose “Auto Configuration with Optimal Setting” from the menu for loading the defaults parameters that is set by the  
manufacturer for the most stable normal configuration.  
Press F10 or “Save Setting and Exit” to save the changes and reboot the system.  
3-2. Description of the BIOS Setup Option  
Please make clear the means of those optional parameters. Improper settings will cause the system to hang up or  
perform poorly. Most items are clearly understood from the screen prompt or “Help” by function key “F1”. The  
manufacturer highly recommends that “Default” settings have been used to avoid any unpredictable results.  
3-3. Advanced CMOS Setup  
Advanced CMOS Setup  
Quick Boot  
Enabled  
Floppy  
IDE-0  
1st Boot Device  
2nd Boot Device  
3rd Boot Device  
CDROM  
Disabled  
Yes  
4th Boot Device  
Try Other Boot Devices  
S.M.A.R.T. for Hard Disks  
BootUp Num-Lock  
Floppy Drive Swap  
Floppy Drive Seek  
PS/2 Mouse Support  
Typematic Rate  
Disabled  
On  
Disabled  
Disabled  
Enabled  
Fast  
System Keyboard  
Primary Display  
Present  
VGA/EGA  
Setup  
Password Check  
Boot To OS/2  
No  
System BIOS Cacheable  
C000, 32k Shadow  
C800, 16k Shadow  
CC00, 16k Shadow  
D000, 16k Shadow  
Enabled  
Cached  
Disabled  
Disabled  
Disabled  
- 24 -  
 
D400, 16k Shadow  
D800, 16k Shadow  
DC00, 16k Shadow  
Disabled  
Disabled  
Disabled  
S.M.A.R.T. For Hard Disks  
Set this option to “Enabled” to permit AMIBIOS to use the SMART (System Management System Management and  
Reporting Technologies) protocol for reporting server system information over a network. The settings are “Enabled” or  
“Disabled”.  
Password Check  
This option enables password checking every time the system boots or when you run AMIBIOS Setup. IfAlways is  
chosen, a user password prompt appears every time the computer is turned on. If Setup is chosen, the password  
prompt appears ifAMIBIOS is executed. See the Advanced Setup chapter for instructions on changing a password.  
Boot To OS/2  
Set this option to “Enabled” if running OS/2 operating system and using more than 64 MB of system memory on the  
motherboard. The settings are “Enabled” or “Disabled”.  
System BIOS Cacheable  
When set to “Enabled”, the contents of the F0000h system memory segment can be read from or written to cache  
memory. The contents of this memory segment are always copied from the BIOS ROM to system RAM for faster  
execution. The settings are “Enabled” or “Disabled”.  
3-4.  
Details of the Advanced Chipset Setup  
Advanced Chipset Setup  
******** DRAM Timing ********  
Configure SDRAM Timing by SPD  
DRAM Frequency  
Enabled  
133Mhz  
3
SDRAM CAS# Latency  
DRAM Bank Interleave  
Memory Hole  
Enabled  
Disabled  
- 25 -  
 
AGP Mode  
4x  
AGP Read Synchronization  
AGP Fast Write  
Enabled  
Disabled  
128MB  
AGP Aperture Size  
AGP Master 1 W/S Write  
AGP Master 1 W/S Read  
PCI Delay Transaction  
USB Controller  
Disabled  
Disabled  
Enabled  
All USB Port  
All Device  
USB Device Legacy Support  
Configure SDRAM Timing by SPD  
SPD (Serial Presences Detect) is a device in memory module for storing the module information such as DRAM timing  
and chip parameters. If this option is enabled, BIOS will access SPD automatically to configure module timing. If disabled,  
DRAM timing can be configured manually.  
SDRAM Frequency  
- Allows you to set the SDRAM frequency with user set by SPD Disable. <Choices: 66MHz / 100MHz / 133MHz>  
Caution: Improper setting will cause unpredicted result  
SDRAM CAS# Latency  
With SDRAM Timing by SPD disabled, you can select  
-
The SDRAM CAS# (ColumnAddress Strode) latency manually. Choices: 2 Clocks; 3 Clocks  
SDRAM Bank Interleave  
This function is to enable / disable SDRAM Bank Interleave function. Choices: “Disabled” / “Enabled”  
Memory Hole  
To enabled / disabled (default) the support of Memory Hole which is reserved for ISA card.  
AGP Mole  
This function allows seeing theAGP Mode onboard. The default setting is “Auto”. This item support 1x/2x and 4x AGP  
Mode  
AGP Read Synchronization  
To enabled / disabled the AGP Read Synchronization function.  
AGP Fast Write  
This function allows enabling / disabling the AGP Fast Write function  
AGP Aperture Size  
- 26 -  
 
This function allows adjustingAGPAperture Size from 2MB to 256MB to increased VGA performance.  
AGP Master 1 W/S Write  
Allows you to enable / disable the AGP Master Write with 1 wait state  
AGP Master 1 W/S Read  
To enable / disable theAGP Master Read with 1 wait state  
PCI Delay Transaction  
To enable / disable theAGP Fast Write function  
USB Controller  
To enable / disable the on board USB Port function  
Choices: USB Port 0&1 / USB Port 2&3 /All USB Device  
USB Device Legacy Support  
To enable / disable the on board USB support device with  
Choices: Disabled / No Mice / All Device  
3-5. Peripheral Setup  
Peripheral Setup  
OnBoard FDC  
Enabled  
3F8/COM1  
2F8/COM2  
378  
OnBoard Serial Port 1  
OnBoard Serial Port 2  
OnBoard Parallel Port  
Parallel Port Mode  
EPP Version  
ECP  
N/A  
Parallel Port DMA Channel  
Parallel Port IRQ  
3
7
OnBoard Serial Port 3  
Serial Port3 IRQ  
3E8/COM3  
9
OnBoard Serial Port 4  
Serial Port4 IRQ  
2E8/COM4  
10  
OnBoard Parallel Port 2  
OnBoardAC'97Audio  
OnBoard Legacy Audio  
Sound Blaster  
Disabled  
Enabled  
Enabled  
Enabled  
220h-22Fh  
SB I/O BaseAddress  
- 27 -  
 
SB IRQ Select  
5
SB DMA Select  
1
MPU-401  
Enabled  
330h-333h  
Enabled  
Enabled  
MPU-401 I/OAddress  
FM Port (388h-38Bh)  
Game Port (200h-207h)  
Onboard FDC  
Set this option to “Enabled” to enable the floppy drive controller on the motherboard. The settings areAuto (AMIBIOS  
automatically determines if the floppy controller should be Enabled, or Disabled).  
Onboard Serial Port 1/2/3/4  
This option specifies the base I/O port address of serial port. The settings are Auto (AMIBIOS automatically determines  
the correct base I/O port address), Disabled, 3F8h, 2F8h, 2E8h, or 3E8h.  
Onboard Parallel Port  
This option specifies the base I/O port address of the parallel port on the  
motherboard. The settings are Disabled, 378h, 278h, or 3BCh. The Optimal default setting is 378h  
Parallel Port Mode  
This option specifies the parallel port mode. The Optimal default setting is Normal. The settings are:  
Setting  
Normal  
Bi-Dir  
Description  
The normal parallel port mode is used.  
Use this setting to support bidirectional transfers on the parallel  
port.  
EPP  
The parallel port can be used with devices that adhere to the  
Enhanced Parallel Port (EPP) specification. EPP uses the  
existing parallel port signals to provide asymmetric bidirectional  
data transfer driven by the host device.  
ECP  
The parallel port can be used with devices that adhere to the  
Extended Capabilities Port (ECP) specification. ECP uses the  
DMA protocol to achieve data transfer rates up to 2.5 Megabits  
per second. ECP provides symmetric bidirectional  
communication.  
- 28 -  
 
EPP Version  
This option specifies the Enhanced Parallel Port specification version number that is used in the system. This option only  
appears if the Parallel Port Mode option is set to EPP. The settings are 1.7 or 1.9.  
Parallel Port IRQ  
This option specifies the IRQ used by the parallel port. The settings are Auto, (IRQ) 5, or (IRQ) 7.  
Parallel Port DMA Channel  
This option is only available if the setting for the Parallel Port Mode option is ECP. This option sets the DMA channel used  
by the parallel port. The settings are DMA Channel0, 1, or 3.  
Serial Port IRQ  
This option specifies the IRQ used by the serial port. The settings areAuto, (IRQ) 5, or (IRQ) 7  
Onboard AC' 97 Audio  
This function is to disable or enableAC’97 Audio. Choices: Auto; Disabled  
Onboard Legacy Audio  
This function allows configuring the Audio Codec to support legacy Sound Blaster mode. Choices: Auto; Disabled  
Sound Blaster  
This option is to Enable / Disable the onboard Audio support Sound Blaster decoding.  
SB I/O Base Address  
To configure the Sound Blaster decoding I/O range.  
Choice: 220h – 280h  
SB IRQ Select  
To configure Sound Blaster IRQ channel.  
Choice: 5,7 and 10  
SB DMA Select  
To configure Sound Blaster DMA channel.  
Choice: 0,1,2 and 3  
MPU-401  
This option is to Enable / Disable onboard MIDI port decoding.  
MIPU-401 I/O Address  
If the onboard MPU-401 port is “Enabled”, it allows to set at 300h/310h/320h or 330h.  
FM Port (388h-38Bh)  
Allows you to Enable / Disable onboard FM Port synthesis for legacy compatibility  
MPU-401  
- 29 -  
 
Allows you to Enable / Disable onboard MIDI port,  
Game Port (200h-270h)  
This option allows configuring onboard Game port address. The choices: Disabled; 200h; 207h  
3-6. Power Management Setup  
Power Management Setup  
Power Management/APM  
Enabled  
Disabled  
Disabled  
Disabled  
Disabled  
Ignore  
Video Power Down Mode  
Hard Disk Power Down Mode  
Standby Time Out (Minute)  
Suspend Time Out (Minute)  
DisplayActivity  
IRQ3  
Monitor  
Monitor  
Ignore  
IRQ4  
IRQ5  
IRQ7  
Monitor  
Ignore  
IRQ9  
IRQ10  
Ignore  
IRQ11  
Ignore  
IRQ13  
Ignore  
IRQ14  
Monitor  
Ignore  
IRQ15  
Power Button Function  
Restore onAC/Power Loss  
On/Off  
Power On  
Power Management/APM  
Set this option to Enabled to enable the chipset power management and APM (Advanced Power Management)  
features. The settings are Enabled or Disabled.  
Video Power Down Mode  
This option specifies the power state that the video subsystem enters when AMIBIOS places it in a power saving state  
after the specified period of display inactivity has expired. The settings are Standby, Suspend or Disabled.  
Hard Disk Power Down Mode  
- 30 -  
 
This option specifies the power conserving state that the hard disk drive enters after the specified period of hard drive  
inactivity has expired. The settings are Disabled, Standby, or Suspend.  
Standby/Suspend Timer Unit  
This option specifies the unit of time used for the Standby and Suspend timeout periods. The settings are 4 msec, 4 sec,  
32 sec, or 4 min.  
Display Activity  
When set to Monitor, this option enables event monitoring on the video display. If set to Monitor and the computer is in a  
power saving state, AMIBIOS watches for display activity. The computer enters the Full On state if any activity occurs.  
AMIBIOS reloads the Standby and Suspend timeout timers if display activity occurs. The settings are Monitor or Ignore.  
Power Button Function  
This option specifies how the power button mounted externally on the computer chassis is used. The default setting is  
On/Off.  
Restore on AC/Power Loss  
Power “Off” Set Restore onAC/Power Loss is Power off. Power “On” Set Restore on AC/Power Loss is Power on.  
(Default Value)  
3-7.  
PCI / Plug and Play Setup  
This section describes the configuration of the PCI bus system. PCI is a system that allows I/O device to operate at  
speeds nearing the speed of the CPU itself, when communicating with its own special components. This section covers  
some very technical items. It is strongly recommended that only experienced users make any changes to the default  
settings.  
PCI / Plug and Play Setup  
Plug and Play Aware O/S  
OnChip VGA Frame Buffer Size  
PCI Latency Timer (PCI Clocks)  
Primary GraphicsAdapter  
Display Device  
No  
8MB  
32  
PCI  
CRT Only  
640 X 480  
PnP  
LCD Resolution  
DMA Channel 0  
DMA Channel 1  
PnP  
DMA Channel 3  
PnP  
DMA Channel 5  
PnP  
- 31 -  
 
DMA Channel 6  
DMA Channel 7  
IRQ3  
PnP  
PnP  
ISA/EISA  
SA/EISA  
PCI/PnP  
ISA/EISA  
PCI/PnP  
PCI/PnP  
PCI/PnP  
PCI/PnP  
PCI/PnP  
IRQ4  
IRQ5  
IRQ7  
IRQ9  
IRQ10  
IRQ11  
IRQ14  
IRQ15  
Plug and Play Aware O/S  
Set this option to Yes to inform AMIBIOS that the operating system can handle plug and Play (PnP) devices. The settings  
are No or Yes. The Optimal and Fail-Safe default settings are No.  
Display Device  
Select the display device for system. The available options are CRT Only, CRT + LCD.  
LCD Resolution  
Select the display resolution for LCD panel. The available options are 640x480, 800x600, 1024x768.  
PCI Latency Timer (PCI Clocks)  
This option specifies the latency timings (in PCI clocks) for PCI devices installed in the PCI expansion slots. The  
settings are 32, 64, 96, 128, 160, 192, 224, or 248.  
IRQ3/4/5/7/9/10/11/14/15 Assigned to  
These options specify the bus that the specified IRQ line is used on. These options allow you to reserve IRQs for legacy  
ISA adapter cards. These options determine if AMIBIOS should remove an IRQ from the pool of available IRQs passed  
to devices that are configurable by the system BIOS. The available IRQ pool is determined by reading the ESCD  
NVRAM. If more IRQs must be removed from the pool, the end user can use these options to reserve the IRQ by  
assigning an ISA/EISA setting to it. Onboard I/O is configured by AMIBIOS. All IRQs used by onboard I/O are configured  
as PCI/PnP. IRQ12 only appears if the Mouse Support option inAdvanced Setup is set to Disabled. IRQ14 and 15 will  
not be available if the onboard PCI IDE is enabled. If all IRQs are set to ISA/EISA and IRQ14 and 15 are allocated to the  
onboard PCI IDE, IRQ9 will still be available for PCI and PnP devices, because at least one IRQ must be available for  
PCI and PnP devices. The settings are ISA/EISA or PCI/PnP. The Optimal and Fail-Safe default settings are PCI/PnP.  
DMA0/1/3/5/6/7 Assigned to  
- 32 -  
 
These options allow you to specify the bus type used by each DMA channel. The settings are PnP or ISA/EISA .  
3-8. Hardware Monitor Setup  
Provide some information such as CPU temperature, speed of cooling fan and usage voltage of CPU for user.  
Chapter 4. VGA, LCD, DOC Featur  
4-1. AGP-BUS VGA Feature  
The NASA-6109 built-in Graphics Controller is a fully integrated 64-bit 2D/3DAccelerator. The high performance graphics  
engine offers high speed 3D image processing in full compliance and compatibility with IBM® VGA and VESA™  
extended VGA.  
The on-board Graphics Controller supports a full AGP implementation internally to remain compatible with existing  
software and programming models. However, since the engine is integrated it enjoys a higher bandwidth and lower  
latency than is possible with discrete solutions. The Controller also supports two simultaneous displays: CRT, Flat Panel  
Monitor.  
The on-board Graphics Controller’s main system features include:  
High Performance single cycle GUI  
-
-
-
-
-
-
-
Highly Integrated RAMDAC™ and Triple Clock Synthesizer  
Full Feature High Performance 3D Graphics Engine  
High speed internal AGP Bus Mastering data bus supporting DVD video playback & 3D  
Hardware implementation of motion compensation  
Dual Video Windows for Videoconferencing  
Versatile Motion Video Capture/Overlay/Playback Support  
Flexible Frame Buffer Memory Interface  
- Advanced Mobile Power Management and CRT Power Management (VESA™ DPMS)  
- PC99 Hardware Support  
4-2. LCD Flat Panel Feature  
Flat Panel Monitor Interface  
The on-board graphic controller also support industry standard TFT LCD panel, the interface supports both 18-bit and  
24-bit display modes. Optionally, an 18+18 panel can be supported utilizing external latches (UC-1818L). On-board  
also support LVDS interface to provide a low voltage, high speed, low EMI serial DC-balanced differential data via  
- 33 -  
 
external LVDS transmitters to support TFT LCD Panel with LVDS built-in.  
The flat panel interface provides or supports the following functions for various panels:  
-
-
-
-
Generates flat panel interface signals like FLM, LP, SCLK, and DE  
Generates different video data formats to directly drive different types of panels  
Vertical and horizontal expansion of video displays to LCD panel resolution  
Vertical and horizontal centering  
- Panel power sequence  
4-3. PCI Bus Audio Adapter Features  
The Chipset built-in SoundBlaster Pro Hardware and Direct Sound Ready AC97’ Digital Audio Controller  
-
Dual full-duplex direct sound channels between system memory and AC97’ link  
- PCI Master interface with scatter / gather and bursting capability  
-
-
32byte FIFO of each direct sound channel  
Host based sample rate converter and mixer  
- Standard v1.0 or v2.0 AC98’ Codec interface for single or cascaded AC97’ Codec’s from multiple vendors  
-
-
Loop back capability for re-directing mixed audio streams into USB and 1394 speakers  
Hardware SoundBlaster Pro for Windows DOS box and real-mode DOS legacy compatibility  
- Plug and Play with 4 IRQ, 4 DMA and 4 I/O space options for SoundBlaster Pro and MIDI hardware  
-
-
Hardware assisted FM synthesis for legacy compatibility  
Complete software driver support for Windos-95, Windows-98 and Windows-NT  
4-4. DiskOnChip Feature  
On board reserved is a 32-pin Socket for DiskOnChip 2000, it is a unique data storage solution to offer a better, faster and  
more cost effective Flash Disk for applications.  
The DiskOnChip 2000 provides a Flash Disk (as BIOS expansion) that does not require any additional bus, slot or  
connector. Simply insert the DiskOnChip 2000 into a 32-pin socket on your motherboard. With minimal installation  
costs, you have a bootable Flash Disk. DiskOnChip 2000 has built-in True FFS (True Flash File System) technology,  
which provides full Read/Write disk emulation.  
True FFS provides hard disk compatibility at both the sector and file level. It works in a variety of operating system  
environments, such as DOS, Win95, WinCE, WinNT, Psos+ and QNX.  
The correct memory address must be set correctly for DiskOnChip at the jumper JP15. The driver utilities are placed  
onto CD-ROM  
- 34 -  
 
JP15  
1-2  
1-2  
3-4  
3-4  
5-6  
MemoryAddress  
0C800H  
-
-
-
-
-
0C9FFH  
0CDFFH  
0D1FFH  
0D5FFH  
0D9FFH  
0CC00H  
0DCCCH  
0D400H  
0D800H  
4-5. Driver Utility Installation Guide  
1. When finishing with the Windows platform (95/98/2000/NT) installation, please install the relative VIA driver (4in1)  
utilities for compliance of the compatibility with hardware environment.  
2. Insert the support CD that came with your motherboard into your  
CD-ROM driver which will access with auto-run mode or double –click the CD driver icon in My Computer” to bring up  
the screen.  
3. Select correct mother you have to install driver / utilityyou’re your  
system  
- 35 -  
 
4. Select VIA 4in1 service pack driver install to the system  
5. The Screen will appear VIA 4in1 driver setup screen, please press “NEXT” to continue. Please follow the steps  
instructed by each screen for the installation of the VIA 4in1 driver. Restart the system after the completion of the  
installation.  
6. After VIA 4in1 driver installed, please select VGA driver for install. The system will request for “restart” after the  
completion of the driver installation.  
7. The Screen can be adjusted at Display properties after the installation of VGA driver.  
We strongly recommend using the 4in1 driver to install the system since the 4in1 driver will automatically  
detect / update the necessary drivers.  
This driver will automatically detect and install the latest utilities as following:  
IDE Bus master , VIA AGP Driver, IRQ Routing Driver, VIA INF Driver  
LAN Driver: Install the LAN driver for on-board LAN adapter. Please refer to Chapter 5, the Realtek 8139 LAN Driver  
Installation Procedure.  
VGA Driver: Install the VGA driver for on-board AGP VGA adapter  
Please download or check from VIA Web-site: www.via.com.tw if you prefer to install the drivers individually or you need  
more information.  
- 36 -  
 
Chapter 5. LAN Adapter  
The on-board LAN adapter use of Single Chip Fast Ethernet Controller, that is highly integrated and requires no “glue”  
logic external memory on board. It runs in the bus master mode and directly sending/receiving Ethernet packet to/from  
memory. The On-board LAN adapter can directly fetch the system CPU. Also, it can transfer data Directly between  
I/O devices and system memory in the 32-bit bus master mode that provides low CPU utilization.  
It complies with the IEEE 802.3u standard, IEEE802.3 standard and PCI Local Bus version 2.1 and transmits data on the  
network at 100 Mbps or 10 Mbps. It also operates in full-duplex mode that doubles the network speed up to 20/200  
Mbps when working with Fast Switching Hub. Built-in one RJ-45 port for connection of 100Base-TX Fast Ethernet or  
10Base-T Ethernet network, and automatically senses the connection type.  
5-1. Features  
-
-
Full compliancy with PCI Rev. 2.1  
Complies with the Ethernet/IEEE 802.3u 100Base-TX and 10 Base-T industry standard  
- Supports full-duplex operations, thus doubling the network speed up to 20Mbps on 10 Base-T Ethernet or 200Mbps  
on 100 Base-TX Fast Ethernet when setting in full duplex mode  
-
-
Two LED indicators to report network status  
One RJ-45 connector with Auto-sense cable type of 10 or 100Mbps network operation  
- Supports PCI clock speed up to 33MHz, capable of zero wait states  
- Supports optional Remote Boot ROM socket  
- Provides a comprehensive setup program for displaying the adapter configuration and includes diagnostic on board  
or network tests.  
-
Complete drivers for Novell, ODI, SCO UNIX, LAN Manager, Windows NT and Windows 95/98 Packet driver etc  
5-2. UTP Cable / RJ-45 Jack Definition  
Straight through twisted pair cable is typically used to connect a hub to a server or workstation. In a straight through  
connection, Pin 1 at the server, Pin 2 at the hub connects to Pin 2 at the server, and so on. Figure A-1 shows the locations  
of pins on a standard RJ-45 plug on a  
twisted-pair cable.  
TableA-1 shows the wiring in a straight-through twisted-pair cable (Pins 4,5,7 and 8 are not used).  
- 37 -  
 
Twisted Pair  
Number  
Signal  
Description  
TD+  
Pin  
Signal  
Pin Number  
To  
à
à
Number Description  
1
2
3
6
1
2
3
6
TD+  
TD-  
1
2
TD-  
RD+  
RD+  
RD-  
RD-  
RJ-45 Connector Pin Assignments  
FigureA-1 shows the RJ-45 Connector pin assignments  
5-3. Connecting 100Base-TX Fast Ethernet Network  
The system board provides an RJ-45 port for connection to 100Base-TX Fast Ethernet or 10Base-T Ethernet Network  
with a single connection over unshielded twisted-pair (UTP). The adapter automatically operates at 10Mbps or  
100Mbps when the appropriate 10/100Base hub be connected.  
To connect the adapter to 100Base-TX Fast Ethernet Network, you need a twisted-pair Category 5 cable with RJ-45  
modular jacks at both ends. This cable can have a maximum length of 300 feet (100 meters).  
5-4. Connecting 10Base-T Ethernet Network  
To connect the adapter to a 10Base-T Ethernet Network, you need a twisted-pair Category 3, 4 or 5 cables with RJ-45  
modular jacks at both ends. This cable can have a maximum length of 300 feet (100 meters).  
5-5. 10MBase/100MBase Installation Notice  
-
100Mbps network must be shielded twisted-pair (STP) or Category 5 unshielded twisted-pair cable. Do not use a  
Category 3 or 4 cable for 100Mbps-network operation, it could cause data loss. Category 3 or 4 cable is good for  
- 38 -  
 
10Mbps network only.  
Category 5 cable is also good for 10Mbps operation. Use UTP Category 5 cable for the versatility to operate the  
network at either 100Mbps or 10Mbps speed without changing cable.  
-
-
-
Two pairs of wiring are required.  
Depending on building codes, different insulation materials may be required. Plenum-rated or TEFLON-coated  
wiring maybe required in some areas where fire proofing is required.  
-
-
The wire gauge should be between 18 and 26AWG (Most telephone installations use 24-gauge wiring).  
UTP cable should meet the following requirements:  
1. Solid copper  
2. Nominal capacitance: less than 16pF/ft  
3. Nominal impedance: 100 ohms  
4. Nominal attenuation: less than 11.5db  
Automatic Selection of the Media Type  
While the driver installs, it automatically detects the media type based on the type of cable connected. Once you  
change the cable type, you must reinstall the driver to execute auto-detect again.  
If the driver cannot detect which cable is connected or whether a cable is connected, look at cabling network  
driver (Ex. Modify net.cfg file parameters— force line speed=10 or 100).  
10/100 Auto – Negotiation (N-Way)  
Depending on the hub or connected device, the LAN adapter can automatically run at the appropriate speed, by using  
N-way, a feature that complies with the IEEE802.3 standard. It also works with any of the other IEEE-compliant products.  
5-6. Remote BOOT ROM Installation Guide  
A BOOT ROM allows the computer to boot up over the network, instead of using the local operating system device.  
This enables the system to be a diskless workstation environment.  
1. Make sure the BOOT ROM is properly oriented. Incorrect orientation may damage the chip!  
2. Use the utility of RSET8139.exe to enable the BOOT ROM.  
3. Reboot the system to use the BOOT ROM function.  
BOOT ROM Type:  
Once the PCI system detects the presence of a BOOT ROM chip on the adapter during boot-up, it will automatically set  
a working configuration. Supports 64K FLASH ROMs (PLCC Type) for an upgrade BOOT ROM.  
- 39 -  
 
5-7. LED Indicators  
The system board comes with two LED indicators on the edge of the motherboard that indicates the network system  
status. If you experience any problems with the adapter, first make sure the appropriate driver is loaded, the proper  
cable is connected to the RJ-45 port and the hub complies with the adapter specification, such as 10Mbps 10Base-T or  
100Mbps 100Bast-TX. Finally, recheck the LEDs.  
FUDUP (Full Duplex) Indicator  
When indicator is ON, it indicates Full-duplex mode: otherwise, it is OFF. The adapter supports full duplex at 10 or  
100Mbps. If the switch-hub supports the N-way feature and full duplex, the system automatically runs in full duplex  
mode.  
Tx/Rx (Transmit/Receiver) Indicator  
This indicator flashes to display that there is network activity – indicating transmission or reception data from the network.  
5-8. The Setup Program  
The package includes a diskette containing the setup program. This program allows you to verify the configuration and  
isolation of faults. The adapter’s I/O port address and interrupt request levels (IRQ) are set by the BIOS. Other default  
settings can be changed for situations as shown below. Problem (RESET8139.exe) provides the following function:  
-
Displays the current configuration of the adapter  
- Performs network diagnostic tests to verify the operation of the adapters basic functions, and the adapters ability to  
communicate over the network with another adapter.  
- Provides set up for new configuration to make a change specify settings: Remote BOOT ROM, Flow Control and  
Full-Duplex mode Enable/or Disable  
Full duplex operation is set automatically if the Full-duplex option is set to Disable. Please follow the prompt instructions  
to set-up or change the system configuration.  
Note: Before running the setup program, make sure the adapter’s driver is not loaded, otherwise unpredictable results  
may arise!  
The setup program can be set the on board configuration to provide diagnostic testing. It is for testing the basic function  
verification, EEPROM dataAccess, loop back operation, and the ability to communicate over the network with another  
adapter. To access this program, insert the Driver Diskette into the floppy disk  
drive and then type the following at the DOS prompt:  
- 40 -  
 
>> A:\REST8139.EXE <ENTER>  
1. View Current Configuration  
This allows you to find the PCI Fast Ethernet adapter current configuration in your system.  
2. Set Up New Configuration  
Select New Set Up Configuration option from the main menu  
The option settings can be changed, the table shown as below:  
Option  
Default Setting  
Other Available Settings  
Full-duplex  
Disabled àAuto Selection Enable – Forces to full duplex  
operation  
Flow Control TX Enable, RX Enable  
TX Disable, RX Disable  
Note: Before setting the adapter for full duplex, make sure the hub switch is also set to full duplex. Before you  
activate the switching hub to server connection, make sure the hub switch and adapter are configured for full  
duplex.  
3. Run Diagnostics  
Running diagnostic tests perform basic function verification for on board  
LAN adapters. The basic Diagnostic tests include:  
- EEPROM Test: EEPROM data read/write test  
-
-
Diagnostics On Board: Performs on board basic function verification  
Diagnostics On Network: To run this test on the network, you will need another computer set up as a Responder to  
receive packets from the adapter being tested and echo them back to the adapter. This checks the adapter’s ability for  
communication over the network with another adapter to receive and transmit network packets.  
4. Software Installation  
Installing Network Drivers  
You must install a network driver to allow the adapter to work with your network operating system.  
The system board provides various network drivers on the driver diskette. The following provides the installation  
procedures for different network drivers.  
Note: Please install the “VIA PATCH FILE” first if you want to link your LAN with Windows 98  
For detailed information of each OS installation, please refer to the README (.TXT) file on the driver diskette.  
- 41 -  
 
Software Installation Examples  
Before installing the driver programs, please refer to each directory that contains a README file, which provides detailed  
installation instructions, or to execute the HELP8139.EXE help file viewer in DOS. The utility will then present with a  
screen showing the information about how to install the network driver. Driver needed for the  
adapter to work with the operating system.  
5-9. Realtek 8139 LAN Driver Installation Procedure:  
Please note: The LAN Driver installation has to be done after completing Win 95/98/2000 installation.  
When completed with the WIN 95/98 installation, please click My Computer” to start your LAN driver installation  
(procedure listed as below):  
My Computer èControl Panel èSystem èDevice Managerè  
? Other Devices è?  
PCI Ethernet Controller èProperties èDriver èUpdate Drive  
èYes (Recommended) èNext èOther Locations èBrowse  
èA:\Rtsnt.100\Exe\Win95 èOK èFinish  
After finishing the above procedure, the screen will show “copy the files from?”  
Please type A:\Rtsnt.100\Exe\Win95=> OK and select “OK”, the system will ask you to insert Win95 driver diskette to  
update new driver.  
After finishing the above steps, please shut down your system and re-boot the system.  
Appendix A: FLASH Memory Utility  
Using this utility to update the system BIOS from a disk file to the on board Flash memory. Be aware the improper  
change of the system BIOS will cause the system to malfunction.  
Using utility as follows:  
1. nsert the FLASH memory BIOS utility distribution floppy diskette in drive A:  
2. At the DOS prompt, type A:\> F82725 xxxx.ROM <Enter>  
- 42 -  
 
---- Screen Message ----  
DOS/4G Protected Mode Run-time Version 2.01a  
Copyright © Tenberry Software, Inc. 1996  
Please wait for loading BIOs ROM ….  
AMI Flash Utility V8.27.25  
Flash ROM Programming report  
Chipset Vendor  
Chipset Code  
ROM Filename  
: VIA  
Flash ROM  
Vendor  
: IC Brand  
: IC P/N  
: 512kb  
: VIA686A/B  
: xxxx.ROM  
Flash ROM Code  
ROM File Size  
Boot Block Programming : Yes  
>>>>>>>>>>>>>>>>>>>>>>……  
Verify ROM data Now….  
Flash ROM update Completed -Pass  
Please restart your system.  
A:\>  
Please restart your system and load setup default /  
Appendix A: FLASH Memory Utility  
PS/2 Keyboard / Mouse Pin Header Connector (CN7)  
Pin No.  
Signal (KB)  
KB Data  
KEY  
Pin No.  
Signal(MS)  
MS Data  
KEY  
1
3
5
7
9
2
4
GND  
6
GND  
+5V(DC)  
KB_CLK  
8
+5V(DC)  
MS_CLK  
10  
- 43 -  
 
D-SUB Type Connector for COM port (RS232);  
Pin No.  
Description  
DCD  
Pin No.  
Description  
DSR  
RTS  
1
2
3
4
5
6
7
8
9
RXD  
TXD  
CTS  
DTR  
RI  
GND  
Box Header Type Connector for COM port (RS232);  
Pin No.  
Description  
DCD  
Pin No.  
Description  
DSR  
RTS  
1
3
5
7
9
2
RXD  
4
TXD  
6
CTS  
DTR  
8
RI  
GND  
10  
N.C  
Printer (LPT1/LPT2) Port  
Pin No.  
Description  
STB#  
PD0  
Pin No.  
10  
Description  
ACK#  
BUSY  
PE  
1
2
3
4
5
6
7
8
9
11  
PD1  
12  
PD2  
13  
SLCT  
AFD#  
ERR#  
INIT#  
PD3  
14  
PD4  
15  
PD5  
16  
PD6  
17  
SLIN#  
GND  
PD7  
18-25  
VGA Connector  
Pin No.  
1
Description  
RED  
Pin No.  
9
Description  
GND  
- 44 -  
 
Pin No.  
Description  
GREEN  
BLUE  
N.C  
Pin No.  
10  
Description  
GND  
2
3
4
5
6
7
8
11  
N.C  
12  
DDC DAT  
H.Sync  
V.Sync  
GND  
13  
GND  
14  
GND  
15  
DDC CLK  
GND  
FDD Connector  
Pin No.  
1,3,5,7  
9,11,13  
15,17,19  
21,23,25  
27,29,31  
33  
Description  
GND  
Pin No.  
Description  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
DSA#  
GND  
MOB#  
DIR  
GND  
GND  
STEP#  
WD#  
GND  
GND  
WE#  
2
RWC#  
N.C  
TRAK0  
WP#  
4,6  
8
INDEX#  
MOA#  
DSB#  
RDATA#  
HEAD#  
DSKCHG#  
10  
12  
LCD -LVDS Output Connector (CN5)  
Pin No.  
Signal  
Y0-  
Pin No.  
Signal  
1
3
5
7
9
2
Y2-  
Y0+  
Y1-  
4
Y2+  
6
Rcv. Voltage  
Y3-  
GND  
Y1+  
8
10  
Y3  
- 45 -  
 
11  
13  
15  
CK-  
CK+  
VBL  
12  
14  
16  
VDD_PNL  
DISP_OFF  
GND  
TFT LCD Panel Port Connector (LCD-CON1)  
Pin No. Signal  
Pin No.  
2
Signal  
VBL  
1
VBL  
3
GND  
4
GND  
5
VDDLCD  
ENPVEE  
FPD 23  
FPD 17  
FPD 11  
FPD 9  
FPD 21  
FPD 15  
FPD 7  
FPD 5  
FPD 19  
FPD 13  
FPD 3  
FPD 1  
GND  
6
VDDLCD  
GND  
7
8
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
36  
38  
40  
42  
44  
FPD 22  
FPD 16  
FPD 10  
FPD 8  
FPD 20  
FPD 14  
FPD 6  
FPD 4  
FPD 18  
FPD 12  
FPD 2  
FPD 0  
GND  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
35  
37  
39  
41  
43  
P_CLK  
DE  
FLM  
LP  
GND  
PBKL  
KEY  
PNKL  
VCC  
VCC  
- 46 -  
 
USB PORT  
Pin No.  
Description  
1
3
5
7
9
2
USB VCC  
4
USB DATA-(0,1/2,3)  
USB DATA+(0,1/2,3)  
USB_GND  
6
8
10  
USB_GND  
Audio Output Port Connector (CN1)  
Pin No.  
1
Function  
BITCLK  
SDIN  
Pin No.  
2
Function  
GND  
3
4
N.C.  
5
SDIN2  
SDOUT  
SYNC  
-ACRST  
SPEAK  
+5V(DC)  
JBCY  
6
N.C.  
7
8
N.C.  
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
GND  
11  
13  
15  
17  
19  
21  
23  
25  
GND  
Strapping Low  
+12V(DC)  
JAB2  
JBCX  
JAB1  
JACY  
JBB2  
JACX  
JBB1  
MSO  
MSI  
IR Connector (J1)  
Pin 1  
Pin 2  
Pin 3  
VCC  
N.C  
Pin 4  
Pin 5  
GND  
IRTX  
IRRX  
- 47 -  
 
IDE1, IDE2 Connector  
Pin No.  
Description  
GND  
Pin No.  
13  
Description  
IDE data2  
IDE data13  
IDE data1  
IDE data14  
IDE data0  
IDE data15  
IDE Write  
IDE Read  
IDE Ready  
IDE IRQ  
2,19,22  
24.26.30  
GND  
14  
40  
GND  
15  
20,21,28  
N.C  
16  
29,32,34  
N.C  
17  
1
IDE reset  
IDE data7  
IDE data8  
IDE data6  
IDE data9  
IDE data5  
IDE data10  
IDE data4  
IDE data11  
IDE data3  
IDE data12  
18  
3
23  
4
25  
5
27  
6
31  
7
33  
IDEA1  
8
35  
IDEA0  
9
36  
IDEA2  
10  
11  
12  
37  
IDECS1#  
IDESC3#  
HDLED0#  
38  
39  
Expansion Slot to PCI/ISA Pin Assignment  
Pin No. DescriptionA Description B Description E Description F  
1
2
3
4
5
6
7
8
9
10  
-IOCHK  
SD7  
GND  
RSTDRV  
VCC  
GND  
GND  
GND  
GND  
SD6  
-PCINT2  
-PCINT3  
VCC  
-PCINT4  
-PCINT1  
VCC  
SD5  
IRQ9  
-5V  
SD4  
SD3  
DRQ2  
-12V  
KEY  
KEY  
SD2  
VCC  
VCC  
SD1  
0WS  
+12V  
GND  
-PCIRST  
-GNT3  
-REQ3  
PCLKF  
GND  
SD0  
IOCHRDY  
GNT1  
- 48 -  
 
Pin No. DescriptionA Description B Description E Description F  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
AEN  
SA19  
SA18  
SA17  
SA16  
SA15  
SA14  
SA13  
SA12  
SA11  
SA10  
SA9  
-SMEMW  
-SMEMR  
-IOW  
GND  
GND  
PCLKE  
GND  
-REQ1  
AD31  
AD29  
N.C  
-IOR  
AD30  
PCLKG  
KEY  
-DACK3  
DRQ3  
KEY  
-DACK1  
DRQ1  
-GNT2  
AD28  
-REQ2  
AD27  
AD25  
-CBE3  
AD23  
AD21  
AD19  
N.C  
REFRESH AD26  
SYSCLK  
IRQ7  
IRQ6  
IRQ5  
IRQ4  
IRQ3  
-DACK2  
TC  
AD24  
AD22  
AD20  
AD18  
N.C.  
SA8  
SA7  
SA6  
KEY  
KEY  
SA5  
N.C  
N.C  
SA4  
AD16  
-FRAME  
-CBE2  
-TRDY  
-STOP  
AD17  
-IRDY  
-DEVSEL  
-PLOCK  
-PERR  
SA3  
BALE  
VCC  
SA2  
SA1  
OSC  
SA0  
GND  
Pin No.  
Description C Description D Description G Description H  
1
2
3
4
5
6
7
-SBHE  
LA23  
LA22  
LA21  
LA20  
LA19  
LA18  
-MEMCS16 N.C  
-SERR  
AD15  
AD14  
AD12  
GND  
KEY  
-IOSC16  
IRQ10  
IRQ11  
IRQ12  
IRQ13  
IRQ14  
N.C  
-CBE1  
PAR  
GND  
KEY  
GND  
GND  
- 49 -  
 
Pin No.  
8
Description C Description D Description G Description H  
LA17  
-DACK0  
DRQ0  
AD13  
AD11  
AD9  
AD10  
AD8  
AD7  
AD5  
AD3  
AD1  
AD0  
KEY  
VCC  
VCC  
GND  
GND  
9
-MEMR  
-MEMW  
SD8  
10  
11  
-DACK5  
DRQ5  
-CBE0  
AD6  
12  
13  
14  
15  
16  
17  
18  
19  
SD9  
-DACK6  
DRQ6  
SD10  
SD11  
SD12  
SD13  
SD14  
SD15  
AD4  
-DACK7  
DRQ7  
AD2  
KEY  
VCC  
VCC  
GND  
GND  
VCC  
MASTER  
GND  
- 50 -  
 

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