WAFER-4823
DX4-100 MHz with LCD/CRT
& Ethernet SBC
User Manual
Version 2.1
November 27, 2003
©Copyright 1999 by ICP Electronics Inc. All Rights Reserved.
The information in this document is subject to change
without prior notice in order to improve reliability, design
and function and does not represent a commitment on
the part of the manufacturer.
In no event will the manufacturer be liable for direct,
indirect, special, incidental, or consequential damages
arising out of the use or inability to use the product or
documentation, even if advised of the possibility of such
damages.
This document contains proprietary information protected
by copyright. All rights are reserved. No part of this
manual may be reproduced by any mechanical, electronic,
or other means in any form without prior written
permission of the manufacturer.
Trademarks
WAFER-4823 is a registered trademark of ICP Electronics
Inc. IBM PC is a registered trademark of International
Business Machines Corporation. Intel is a registered
trademark of Intel Corporation. AMI is a registered
trademark of American Megatrends, Inc. Other product
names mentioned herein are used for identification
purposes only and may be trademarks and/or registered
trademarks of their respective companies.
2
Table of Contents
CHAPTER 1 INTRODUCTION.............................................................3
1.1 SPECIFICATIONS ....................................................................................4
1.2 PACKAGE OF CONTENTS........................................................................7
CHAPTER 2 INSTALLATION...............................................................8
2.1 LAYOUT ...................................................................................................8
2.2 UNPACKING PRECAUTIONS..................................................................10
2.3 CPU SETTINGS ....................................................................................10
2.4 WATCHDOG TIMER...............................................................................11
2.5 DISK-ON-CHIP™ FLASH DISK ..........................................................12
2.6 RI PIN SETTINGS FOR SERIAL PORT2................................................12
2.7 THE SETTINGS OF SERIAL PORT2............................................................13
2.8 FREE IRQ3 AND IRQ4 SETTINGS .....................................................13
2.9 CLEAR CMOS SETUP ..........................................................................14
2.10 REALTEK8019AS SETTING ............................................................14
CHAPTER 3 CONNECTION ................................................................15
3.1 FLOPPY DISK DRIVE CONNECTOR ......................................................15
3.2 IDE DISK DRIVE CONNECTOR ...........................................................16
3.3 PARALLEL PORT....................................................................................17
3.4 SERIAL PORTS......................................................................................18
3.5 KEYBOARD/MOUSE CONNECTOR........................................................19
3.6 EXTERNAL SWITCHES AND INDICATORS............................................20
3.7 EXTERNAL POWER CONNECTOR..........................................................20
3.8 EXTERNAL SPEAKER.............................................................................21
3.9 PC/104 CONNECTION BUS................................................................22
3.10 VGA/LCD INTERFACE CONNECTOR...............................................24
3.11 LAN RJ45 CONNECTOR..................................................................25
3.12 DIGITAL I/O.....................................................................................25
CHAPTER 4 AMI BIOS SETUP.........................................................27
4.1 GETTING START...................................................................................27
4.2 STANDARD CMOS SETUP...................................................................29
4.3 ADVANCED CMOS SETUP...................................................................30
4.4 ADVANCED CHIPSET SETUP ................................................................33
4.5 PERIPHERAL SETUP..............................................................................34
1
4.6 AUTO-DETECT HARD DISK.................................................................35
4.7 CHANGE SUPERVISOR PASSWORD .....................................................36
4.8 AUTO CONFIGURATION WITH OPTIMAL SETTINGS............................37
4.9 AUTO CONFIGURATION WITH FAIL SAFE SETTINGS .........................38
4.10 SAVE SETTINGS AND EXIT ..............................................................39
4.11 EXIT WITHOUT SAVING...................................................................40
APPENDIX A A.WATCH-DOG TIMER.............................................41
APPENDIX B I/O INFORMATION...................................................43
APPENDIX C DIMENSION...................................................................45
APPENDIX D APPENDIX D. DIGITAL INPUT AND OUTPUT
……………………………………………………………..46
2
Chapter 1 Introduction
Thank you for choosing WAFER-4823 DX4-100 with LCD/CRT &
Ethernet Single Board Computer. WAFER-4823 is a stand alone
board with PC/104 connector, which comes equipped with ACC
Maple Chipset (includes DX4-100 CPU) and advanced highperformance multi-mode I/O,LCD Controller and Ethernet
function, designed for the system manufacturers, integrators, or
VARs to provide all the performance, reliability, and quality at a
reasonable price.
An advanced high performance super I/O function is supported
by the Maple chipset. The on-chip UARTs are compatible with the
NS16C550. The parallel port and IDE interface are compatible
with IBM PC/AT and XT architecture's, as well as EPP and ECP.
The LCD/CRT controller TOPRO TP6508 can provide the LCD and
CRT display at the same time. The LCD interface connector is a
44-pin 2.0mm pitch type.
The most outstanding feature in the WAFER-4823 is the built-in
PC/104 expansion bus. Based on the PC/104 bus, you can easily
install over thousands of PC/104 modules from hundreds
vendors in the world. The WAFER-4823 has external power
connector that can let it connects to power supply directly. It is
very suitable for your standalone applications.
3
1.1 Specifications
The WAFER-4823 DX4-100 with LCD/CRT & Ethernet
Single Board Computer provides the following
specification:
z System
CPU ACC Maple, includes DX4-100 CPU
DMA channels 7
Interrupt levels 15
Real-time
clock/calendar
STM48T86 or equivalent chip and quartz
oscillator, powered by lithium battery for
over 10 years of data retention.
z Memory
DRAM
memory
1 piece of 72-pin SIMM up to
32MB
z LCD/CRT Interface
Chipset TP6508
Resolution
Display
Memory
1MB EDO RAM on board support 800 x 600
resolution for STN and TFT LCD Flat Panel.
Simultaneous LCD and CRT display.
1MB EDO RAM on board.
4
z Ethernet Interface
Chipset Realtek RTL-8019AS chipset (on board).
Type 16-bit Ethernet, Novell NE2000 compatible,
10Base-T 10 MBps.
Connection on-board RJ-45 connector.
z Integrated Multi I/O
IDE hard disk drive
interface
Floppy disk drive
interface
Two high speed
Serial ports
PS/2
Mouse/Keyboard
Connector
z Digital I/O
Supports up to two IDE hard disk
drives. Can be disabled by BIOS
Setup.
Supports two 2.88 MB, 1.44MB,
1.2MB, 720KB, or 360KB floppy disk
drives. Can be disabled by BIOS
Setup.
One ports RS232 port, and one RS232
port or RS422/485 port.
6-pin Mini DIN Keyboard Connector.
4 inputs and 4 outputs
5
z Industrial features
Watch-dog
timer
PC/104
expansion
bus
External
power
connector
Keyboard
connector
can be set for 1,2,10,20,110,or 220 seconds period.
Reset or NMI is generated when CPU does not
periodically trigger the timer. Your program uses hex
043 and 443 to control the watch-dog and generate a
system reset.
can be set for 1,2,10,20,110,or 220 seconds period.
Reset or NMI is generated when CPU does not
periodically trigger the timer. Your program uses hex
043 and 443 to control the watch-dog and generate a
system reset.
5-pin male connector (model: 2571-08TS
6-pin mini-DIN keyboard connector.
z General
Power Consumption
Operating Temperature
Humidity 5% ~ 95%, non-condensed
Dimension 102.01mm(W) x 146.48mm(L)
+5V @ 1.92A ( DX4-100MHz, 32MB RAM)
0° ~ 60° C
6
1.2 Package of Contents
WAFER-4823 package includes the following items:
z One WAFER-4823 DX4-100 with LCD/CRT &
Ethernet single board computer
z One printer cable
z One FDD/HDD cable
z One 6-pin mini-din keyboard/mouse adapter
cable
z One power cord
z One RS-232/422/485 cable
z One user manual
7
Chapter 2 Installation
This chapter describes how to install the WAFER-4823.
The layout of WAFER-4823 is shown on the next page
and the Unpacking Precautions that you should be
careful with is described on the following page. Also
included is the jumpers and switches setting for this
board’s configuration, such as: CPU type selection,
system clock setting and Watchdog timer.
2.1 Layout
< Please, refer to next page >
8
Layout
9
2.2 Unpacking Precautions
Some components on WAFER-4823 SBC are very
sensitive to static electric charges and can be
damaged by a sudden rush of power. To protect it
from unintended damage, be sure to follow these
precautions:
9 Ground yourself to remove any static charge
before touching your WAFER-4823 SBC. You can
do it by using a grounded wrist strap at all times
or by frequently touching any conducting materials
that is connected to the ground.
9 Handle your WAFER-4823 SBC by its edges. Don’t
touch IC chips, leads or circuitry if not necessary.
9 Do not plug any connector or jumper while the
power is on.
2.3 CPU Settings
JP2 : CPU CLOCK SETTING:
•
The system clock is generated by the ICS650R01, and the different CPU clock frequency can
be selected by JP2 and shown as following table:
CPU CLK 1-2 3-4
75MHz ON ON
100MHz OFF OFF
10
2.4 Watchdog Timer
The Watch-Dog Timer is enabled by reading port
443H. It should be triggered before the time-out
period ends, otherwise it will assume the program
operation is abnormal and will issue a reset signal to
start again, or activate NMI to CPU. The Watch-Dog
Timer is disable by reading port 043H.
JP3 : Watchdog Timer Type Selector
•
1-2 NMI
2-3 RESET
JP4 : Watchdog Timer Time Out Period
•
TIME 1-2 3-4 5-6 7-8
1sec OFF OFF ON OFF
2sec OFF OFF ON ON
10sec OFF ON OFF OFF
20sec OFF ON OFF ON
110sec ON OFF OFF OFF
220sec ON OFF OFF ON
11
2.5 Disk-On-Chip™ Flash Disk
The Disk-On-Chip™ Flash Disk Chip(DOC) is produced
by M-Systems. Customers don‘t need any extra
software utility because the DOC is 100% compatible
to hard disk and DOC. It is just “plug and play”, easy
and reliable.
JP5 : Disk-On-Chip™ Memory Address
•
Setting
JP5 Description
1-2 CE00H
3-4 D600H
5-6 DE00H
2.6 RI Pin Settings for Serial port2
The Serial port2 (CN4) can supply +5V or +12V
power to the serial devices via RI pin (Pin 9) of the
serial port connector. The max. current is 1A with
fuse protection for the total two connector’s 5V/12V
output. If the output is set to 12V, make sure that
you have 12V to supply the board.
JP12, JP13 : for CN4, Pin 8 Selector
•
CN4 Pin9 JP12 JP13
RI Signal 2-3 Don’t care
+5V 1-2 2-3
+12V 1-2 1-2
12
2.7 The Settings of Serial port2
The Serial port2 (CN4) can be set to RS-232 or RS422/485 for industrial field site application.
JP20 : COM2(CN4) RS-232/422/485 setting
•
RS-232 RS-422 RS-485
1-2 ON OFF OFF
3-4 OFF ON ON
5-6 OFF OFF ON
2.8 Free IRQ3 and IRQ4 Settings
If you want to free IRQ3 and IRQ4 for other
application then the COM2 and COM1 have to be
disabled by BIOS setting and the jumper JP15 and
JP16 have to be closed to free IRQ3 and IRQ4,
respectively.
JP15 : Free IRQ3 setting
•
OFF Enable serial port2
ON Disable serial port2
JP16 : Free IRQ4 setting
•
OFF Enable serial port1
ON Disable serial port1
13
2.9 Clear CMOS Setup
If you forget the CMOS password, you can clear or
reset it by closing the JP19. After JP19 is closed, turn
on the power for about 3 seconds then turn it off and
open the JP19. Now, the password has been cleared
from your CMOS.
JP19 : Clear CMOS
•
OFF NORMAL
ON CLEAR
2.10 Realtek8019AS Setting
The Realtek8019AS can be set to PNP MODE or
JUMPERLESS MODE.
JP24 : Realtek8019AS setting
•
OFF PNP mode
ON JUMPERLESS mode
14
Chapter 3 Connection
This chapter describes how to connect peripherals,
switches and indicators to the WAFER-4823 board.
You can access most of the connectors from the top of
the board while it is installed in the chassis.
3.1 Floppy Disk Drive Connector
WAFER-4823 board comes equipped with a 34-pin
daisy-chain driver connector cable. The detailed pin
assignment of the connector is specified as following
table:
CN7 : FDC CONNECTOR
•
PIN NO. DESCRIPTION PIN NO. DESCRIPTION
1 GROUND 2 REDUCE WRITE
3 GROUND 4 N/C
5 GROUND 6 N/C
7 GROUND 8 INDEX#
9 GROUND 10 MOTOR ENABLE 0#
11 GROUND 12 DRIVE SELECT 1#
13 GROUND 14 DRIVE SELECT 0#
15 GROUND 16 MOTOR ENABLE 1#
17 GROUND 18 DIRECTION#
19 GROUND 20 STEP#
21 GROUND 22 WRITE DATA#
23 GROUND 24 FDCWE#
25 GROUND 26 TRACK 0#
27 GROUND 28 WRITE PROTECT#
29 GROUND 30 READ DATA#
31 GROUND 32 HEAD#
33 GROUND 34 DISK CHANGE#
15
3.2 IDE Disk Drive Connector
You can attach two IDE (Integrated Device Electronics)
hard disk drives to the WAFER-4823 internal
controller. The board comes equipped with a 44-pin
flat-cable connector. The detailed pin assignment of
the connector is specified as following table:
CN9: IDE Interface Connector
•
PIN NO. DESCRIPTION PIN NO. DESCRIPTION
1 RESET# 2 GROUND
3 DATA 7 4 DATA 8
5 DATA 6 6 DATA 9
7 DATA 5 8 DATA 10
9 DATA 4 10 DATA 11
11 DATA 3 12 DATA 12
13 DATA 2 14 DATA 13
15 DATA 1 16 DATA 14
17 DATA 0 18 DATA 15
19 GND 20 N/C
21 N/C 22 GROUND
23 IOW# 24 GROUND
25 IOR# 26 GROUND
27 IDE CHRDY 28 BALE – DEFAULT
29 N/C 30 GROUND –
DEFAULT
31 IRQ14 32 IOCS16#-
DEFAULT
33 SA 1 34 N/C
35 SA 0 36 SA2
37 HDC CS0# 38 HDC CS1#
39 HDD ACTIVE# 40 GROUND
41 VCC 42 VCC
43 GND 44 VCC
16
3.3 Parallel Port
This port is usually connected to a printer, The
WAFER-4823 includes an on-board parallel port,
accessed through a 26-pin flat-cable connector CN8.
The detailed pin assignment of the connector is
specified as following table:
CN8 : Parallel Port Connector
•
PIN NO. DESCRIPTION PIN NO. DESCRIPTION
1 STROBE# 2 DATA 0
3 DATA 1 4 DATA 2
5 DATA 3 6 DATA 4
7 DATA 5 8 DATA 6
9 DATA 7 10 ACKNOWLEDGE
11 BUSY 12 PAPER EMPTY
13 PRINTER
SELECT
15 ERROR# 16 INITIALIZE
17 LPT SELECT
LN#
19 GND 20 GND
21 GND 22 GND
23 GND 24 GND
25 GND 26 N/C
14 AUTO FORM FEED
#
18 GND
17
3.4 Serial Ports
The WAFER-4823 offers two high speed NS16C550
compatible UARTs with Read/Receive 16 byte FIFO
serial ports. These ports let you connect to serial
devices or a communication network. One 9-pin
connector and one 14-pin headers are provided by the
WAFER-4823. The detailed pin assignment of the
connectors are specified as following tables:
CN5 : Serial Port1 Connector (9-pin DSUB)
•
PIN
NO.
1 DATA CARRIER DETECT (DCD)
2 RECEIVE DATA (RXD)
3 TRANSMIT DATA (TXD)
4 DATA TERMINAL READY (DTR)
5 GROUND (GND)
6 DATA SET READY (DSR)
7 REQUEST TO SEND (RTS)
8 CLEAR TO SEND (CTS)
9 RING INDICATOR (RI)
DESCRIPTION
CN4 : Serial Port2 Connector (14-pin
•
Header/W Housing)
PIN
NO.
DESCRIPTI
ON
PIN
NO.
DESCRIPTI
ON
1 DCD 2 DSR
3 RX 4 RTS
5 TX 6 CTS
RS-232
7 DTR 8 RI
9 GND 10 N/C
11 TX2+ 12 TX2-
RS-422/485
13 RX2+ 14 RX2-
18
Note : TX2+,TX2- and RX2+,RX2- are for
transmitting and receiving, respectively,
in the RS-422 connection. While in
RS-485 connection, TX2+,RX2+ and
TX2-,RX2- must be twisted each. Any
how, you can only choose to use RS-
232 or RS-422/485.
3.5 Keyboard/Mouse Connector
The WAFER-4823 provides a 6-pin Mini-DIN connector
CN2 on the board mounting bracket for single board
computer applications.
CN2 : PS/2Mouse, Keyboard Connector
•
(Mini Din)
PIN NO. DESCRIPTION
1 KBDAT
2 MDAT
3 GND
4 +5V
5 KBCLK
6 MCLK
19
3.6 External Switches and Indicators
There are many external switches and indicators for
monitoring and controlling your CPU board. These
features are completely optional. The detailed pin
assignment of the connectors is specified as following
table:
• CN3 : RESET BUTTON
PIN NO. DESCRIPTION
1 RESET
2 GND
CN10 : IDE LED connector
•
PIN-NO DESCRIPTION
1 HDD ACTIVE#
2 +5V
3.7 External Power Connector
The WAFER-4823 has an on-board external power
connector CN20 and a 2-pin power connector CN18. It
let you connect power directly to the CPU board
without passive backplane application.
CN20 : EXTERNAL POWER CONNECTOR
z
PIN NO. Description
1 +5V
2 +5V
3 GND
4 GND
5 +12V
20
CN18 : LED POWER CONNECTOR
z
PIN NO.
1 +5V LED
2 GND
escription
3.8 External Speaker
The WAFER-4823 has its own buzzer, you also can
connect it to the external speaker through the
connector CN19 :
• CN19 : External Speaker Connector
PIN NO. DESCRIPTION
1 +5V
2 Speaker
21
3.9 PC/104 Connection Bus
The WAFER-4823 PC/104 expansion bus let you
attach any kind of PC/104 modules. The PC/104 bus
has already become the industrial embedded PC bus
standard, so you can easily install over thousands of
PC/104 modules from hundreds of vendors in the
world. There are two PC/104 connectors on this board:
PC/104-64 and PC/104-40.
CN12 : PC/104-40 Connector
•
PIN NO.
10 DRQ0 30 MEMR#
11 DACK5# 31 MEMW#
12 DRQ5 32 SD8
13 DACK6# 33 SD9
14 DRQ6 34 SD10
15 DACK7# 35 SD11
16 DRQ7 36 SD12
17 VCC 37 SD13
18 MASTER# 38 SD14
19 GND 39 SD15
20 GND 40 GND
Description PIN NO Description
1 GND 21 GND
2 MCS16# 22 SBHE#
3 IOCS16# 23 LA23
4 IRQ10 24 LA22
5 IRQ11 25 LA21
6 IRQ12 26 LA20
7 IRQ15 27 LA19
8 IRQ14 28 LA18
9 DACK0# 29 AL17
22
CN11 : PC/104-64 Connector
•
PIN NO. Description PIN NO. Description
1 IOCHCK# 33 GND
2 SD7 34 IRSTDRV
3 SD6 35 VCC
4 SD5 36 IRQ9
5 SD4 37 -5V
6 SD3 38 DRQ2
7 SD2 39 -12V
8 SD1 40 ZWS
9 SD0 41 +12V
10 IOCHRDY 42 GND
11 AEN 43 SMEMW#
12 LA19 44 SMEMR#
13 LA18 45 IOW#
14 LA17 46 IOR#
15 SA16 47 DACK3#
16 SA15 48 DRQ3
17 SA14 49 DACK1#
18 SA13 50 DRQ1
19 SA12 51 REFRESH#
20 SA11 52 SYSCLK
21 SA10 53 IRQ7
22 SA9 54 N/C
23 SA8 55 IRQ5
24 SA7 56 IRQ4
25 SA6 57 IRQ3
26 SA5 58 DACK2
27 SA4 59 TC
28 SA3 60 BALE
29 SA2 61 VCC
30 SA1 62 OSC
31 SA0 63 GND
32 GND 64 GND
23
3.10 VGA/LCD Interface Connector
The WAFER-4823 provides a 2x22-pin connector for
the LCD flat panel interface and a DB15 VGA
connector.
CN13 : 15-pin Female VGA Connector
•
PIN NO. Description PIN NO. Description
1 RED 2 GREEN
3 BLUE 4 NC
5 GROUND 6 GROUND
7 GROUND 8 GROUND
9 NC 10 GROUND
11 NC 12 NC
13 HSYNC 14 VSYNC
15 NC
CN14: LCD Interface Connector
•
PIN NO. Description PIN NO. Description
1 +12V 2 +12V
3 GND 4 GND
5 +5V 6 +5V
7 FPVEE 8 GND
9 P0 10 P1
11 P2 12 P3
13 P4 14 P5
15 P6 16 P7
17 P8 18 P9
19 P10 20 P11
21 P12 22 P13
23 P14 24 P15
25 P16 26 P17
27 P18 28 P19
29 P20 30 P21
31 P22 32 P23
33 GND 34 GND
35 SHFCLK 36 FLM
37 M 38 LP
39 GND 40 ENABLK
41 GND 42 N/C
43 +5V 44 5V
24
3.11 LAN RJ45 Connector
The WAFER-4823 built-in RJ45 LAN connector is for
10Mbps Ethernet (NE-2000 compatible) operation.
• CN15 : LAN RJ45 Connector
PIN NO. Description PIN NO. Description
1 TX+ 5 NC
2 TX- 6 RX3 RX+ 7 NC
4 NC 8 NC
• CN17 : LAN LED Connector (4-pin header)
for LAN
PIN NO. Description
1 LINK
2 +5V
3 RX
4 +5V
3.12 Digital I/O
One characteristic of digital circuit is its fast respond
to high or low signal. This kind of respond is badly
needed for harsh and critical industrial operating
environment. That’s why we design 4-bit digital inputs
and 4-bit digital outputs on the WAFER-4823.
Digital Input and Output, generally, are control
signals. You can use these signals to control external
devices that needs On/Off circuit or TTL devices. The
register address is 340H.
25
• CN16 : Digital I/O
PIN NO. Description PIN NO. Description
1 GND 6 VCC
2 DO3 7 DO2
3 DO1 8 DO0
4 DIN3 9 DIN2
5 DIN1 10 DIN0
26
Chapter 4 AMI BIOS Setup
The WAFER-4823 uses AMI BIOS for system
configuration, and the AMI BIOS setup program is
designed to provide maximum flexibility in configuring
the system by offering various options which may be
selected for end-user requirements. This chapter is
written to assist you in the proper usage of these
features.
4.1 Getting Start
When you turn on the power button, the BIOS will
enter the Power-On-Self-Test routines. These routines
will be executed for system test and initialization and
system configuration verification.
Note: for your convenience, a diskette containing files
for updating the BIOS is included with the following
contents:
FLASH634.COM : flash utility to update following BIOS
15AMLCD.ROM WAFER-4823 V1.5A Mono DSTN640x480 V1.0
15ADSTN.ROM WAFER-4823 V1.5A Color DSTN640x480 V1.1
15ATFTS1.ROM WAFER-4823 V1.5A TFT640x480-Sync (16bit) V1.0
15ATFTS2.ROM WAFER-4823 V1.5A TFT640x480-Sync (18/24bit) V1.0
15ATFTLP1.ROM WAFER4823 V1.5A TFT640x480-LP (16bit) V1.0
15ATFTLP2.ROM WAFER-4823 V1.5A TFT640x480-LP (18/24bit) V1.0
15ATFT861.ROM WAFER-4823 V1.5A TFT800x600-Sync (16bit) V1.0
15ATFT862.ROM WAFER-4823 V1.5A TFT800x600-Sync (18/24bit) V1.0
15AEL.ROM WAFER-4823 V1.5A EL640x480 V1.1
15APLASMA.ROM WAFER-4823 V1.5A PLASMA640x480 V1.0
27
After the POST routines are completed, the following
message appears :
" Hit DEL if you want to run SETUP"
To access AMI BIOS SETUP UTILITY, press <Del> key.
The following screen will be displayed at this time:
28
4.2 Standard CMOS Setup
The standard CMOS Setup is used for basic hardware
system configuration. The main function is for
Date/Time setting and Floppy/Hard Disk setting.
Please refer to the following screen for this setup
To set the Date, for example, press either the arrow
or <Enter> button on your keyboard to select one of
the fields (Months, Date or Year) then press either
<PgUp> or <PgDn> to set it to the current Months,
Date and Year. Do the same steps for Time setting.
For IDE hard disk drive setup, please check the
following possible setup procedure:
1. Use the Auto-Detect Hard Disk option in the main
menu; the computer will automatically detect the
HDD specifications.
2. Manually enter the specifications by yourself by
selecting the Type of your HDD.
29
4.3 Advanced CMOS Setup
The following screen will be displayed if you select
Advanced CMOS Setup:
You can change the value of each options by using
<PgUp> and <PgDn> key. The available values are
shown on the right screen.
Quick Boot Î Enabled: this will enable the BIOS to
boot quickly when you turn on your computer. The
BIOS will only check the first 1MB of the system
memory.
Quick Boot Î Disabled: the BIOS will test all system
memory when it boots up. It will spend about 40
seconds untill it receives a Ready signal from the HDD.
It will also wait for you to press the <Del> key or not.
30
1st, 2nd, 3rd Boot Device Î to define the device type
for booting after the routines check up completes. If
the 1st Boot Device fails, the BIOS will attempt to boot
from the 2nd or the 3rd device.
Try Other Boot Devices Î the BIOS will try to boot
from any other available device in the system if the
1st, 2nd and 3rd device fails to boot.
Floppy Access Control Î to define the read/write
access which is set when booting from a floppy drive.
Hard Disk Access Control Î to define the
read/write access which is set when booting from a
HDD.
S.M.A.R.T. for Hard Disks Î to allow BIOS to use
the System Management and Reporting Technologies
protocol for reporting server system information on a
network.
BootUp Num-Lock Î to turn on/off the Num-Lock
option on a enhanced keyboard when you boot. If you
turn it off, the arrow keys on the numeric keypad can
be used just as the other set of arrow keys on the
keyboard and vice versa.
PS/2 Mouse Support Î to testify whether or not a
PS/2 mouse is supported.
System Keyboard Î to testify whether or not a
keyboard is attached to the computer.
31
Primary Display Î to define the type of display
monitor of the system. The Absent option is for
network file servers.
Password Check Î to define if a password is
necessary or not for access to the system.
Boot to OS/2 Î if you run the OS/2 operating
system, this option must be set to yes.
System BIOS Cacheable Î to define whether or not
the memory segment FOOOH can be read from or
written to cache memory. Setting it Enabled will give
faster execution in your system.
XXXX, 16k Shadow Î ROM Shadow is a technique
in which BIOS code is copied from slower ROM to
faster RAM. If you enable it then the BIOS will be
executed form the RAM. Each option allows 16KB
segment to be shadowed to the RAM.
32
4.4 Advanced Chipset Setup
Note: do not change any value on this page unless
you understand well the impact of every value to your
system.
33
4.5 Peripheral Setup
When you enter the Peripheral Setup, the following
items are available for setting:
On-board IDE Î to define the on-board Integrated
Drive Electronics controller channel(s) to be used.
Available options are: Primary, Secondary and
Disabled.
On-board FDC Î The floppy disk drive controller can
be Enabled or Disabled by this item. When you do
not need floppy disk, the FDD controller can be
disabled. If you set it Auto, the BIOS will try to
enable any floppy drive controller on the ISA Bus.
Serial Port 1 Î The options are Disable, 3F8, 2F8,
3E8, 2E8 and Auto. You can set the I/O address of
the serial port 1 ( COMA) or disable it.
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Serial Port2 Î The options are Disable, 3F8, 2F8,
3E8, 2E8 and Auto. You can set the I/O address of
the serial port 2 ( COMB) or disable it.
On-board Parallel Port Î The options are Auto,
Disable, 3BC, 378 or 278. You can set the I/O
address of the parallel port or disable it.
Parallel Port Mode Î WAFER-4823 provides EPP,
ECP, ECP/EPP, and SPP/BPP Mode. EPP passes
the parallel port to be used with devices which stick to
the EPP specification. The existing parallel port
signals will be used by EPP to provide asymmetric bidirectional data transfer driven by the host devices.
ECP passes the parallel port to be used with devices
which stick to the ECP specification.
Parallel Port IRQ Î to define the Interrupt Request
(IRQ) which is used by the parallel port.
Parallel Port DMA Channel Î to set the DMA
Channel used by the parallel port.
4.6 Auto-Detect Hard Disk
This option detects the parameters of an IDE hard
disk drive (HDD sector, cylinder, head, etc)
automatically and will put the parameters into the
Standard CMOS Setup screen. Up to 4 IDE drives can
be detected and the parameters will be listed in the
box. Press <Y> if you accept these parameters. Press
<N> to skip the next IDE drives.
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Note: If your IDE HDD was formatted in previous
older system, incorrect parameters may be detected.
In this case, you need to enter the correct parameters
manually or low-level format the disk.
4.7 Change Supervisor Password
This option sets a password that is used to protect
your system and Setup Utility. Supervisor Password
has higher priority than User Password. Once you
setup the password, the system will always ask you to
key-in password every time you enter the BIOS
SETUP. If you enter the BIOS SETUP with Supervisor
Password, you can choose every setup/option on the
main menu but with User Password, you can only
choose three setup/options (USER PASSWORD, SAVE
SETTING AND EXIT and EXIT WITHOUT SAVING). To
disable these passwords, enter the BIOS SETUP room
with Supervisor Password and then just press the
<Enter> key instead of entering a new password
when the 'Enter Password' prompt pop-up.
Note : if you forget the password, do the Clear/Reset
CMOS procedure (see Part2.3 the CPU Setting for
WAFER-4823 >> Clear CMOS SETUP)
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4.8 Auto Configuration with Optimal Settings
This option lets you load the Optimal default settings.
These settings are best-case values which will provide
the best performance. Whenever your CMOS RAM is
damaged, this Optimal settings will be loaded
automatically.
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4.9 Auto Configuration with Fail Safe Settings
This option lets you load the Fail Safe default settings
when something happens to your computer so that it
cannot boot normally. These settings are not the most
optimal settings but are the most stable settings.
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4.10 Save Settings and Exit
Select this option when you finish setting all the
parameters and want to save them into the CMOS.
Just simply press <Enter> key and all the
configuration changes will be saved.
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4.11 Exit Without Saving
Select this option if you want to exit the Setup
without saving the changes that you made. Just
simply press <Enter> key and you will exit the BIOS
SETUP without saving the changes.
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Appendix A
The Watchdog Timer is provided to ensure that
standalone systems can always recover from
catastrophic conditions that cause the CPU to crash.
This condition may have occurred by external EMI or
a software bug. When the CPU stops working correctly,
hardware on the board will either perform a hardware
reset (cold boot) or a Non-Maskable Interrupt (NMI)
to bring the system back to a known state.
Two I/O ports control the Watchdog Timer :.
443
(hex)
043
(hex)
To enable the Watchdog Timer, a read from I/O port
443H must be performed. This will enable and
activate the countdown timer which will eventually
time-out and either reset the CPU or cause a NMI,
depending on the setting of JP3. To ensure that this
reset condition does not occur, the Watchdog Timer
must be periodically refreshed by reading the same
I/O port 443H. This must be done within the time-out
period that is selected by jumper group JP4.
A tolerance of at least 30% must be maintained to
avoid unknown routines within the operating system
(DOS), such as disk I/O that can be very timeconsuming. Therefore, if the time out period has been
A.Watch-Dog Timer
Read Enable to refresh the
Watchdog Timer.
Read Disable the Watchdog Timer.
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set to 10 seconds, the I/O port 443H must be read
within 7 seconds.
Note: when exiting a program it is necessary to
disable the Watchdog Timer, otherwise the
system will reset.
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Appendix B
I/O Information
IO Address Map
I/O address Range Description
000-01F DMA Controller #1
020-021 Interrupt Controller #1, Master
040-05F 8254 timer
060-06F 8042 (Keyboard Controller)
070-07F Real time Clock, NMI Mask
080-09F DMA Page Register
0A0-0BF Interrupt Controller #2
0C0-0DF DMA Controller #2
0F0 Clear Math Coprocessor Busy
0F1 Reset Math Coprocessor
0F2 Core logic programming
configuration
0F8-0FF Math Coprocessor
1F0-1F8 Fixed Disk
200-207 Game I/O
278-27F Parallel Printer Port 2 (LPT3)
2E8-2EF Serial Port 4
2F8-2FF Serial Port 2
300-31F Prototype Card
360-36F Reserved
378-37F Parallel Printer Port 1 (LPT2)
3B0-3BF Monochrome Display and Printer
Adapter (LPT1)
3C0-3CF Reserved
3D0-3DF Color/Graphics Monitor Adapter
3E8-3EF Serial Port 3
3F0-3F7 Diskette Controller
3F8-3FF Serial Port 1
443 Watch dog timer enable
843 or 043 Watch dog timer disable
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1st MB Memory Address Map
Memory address Description
00000-9FFFF System memory
A0000-BFFFF VGA buffer
C0000-C7FFF VGA BIOS
C8000-EFFFF Free for customer application
F0000-FFFFF System BIOS
1000000- Extend BIOS
IRQ Mapping Chart
IRQ0 System Timer IRQ8 RTC Clock
IRQ1 Keyboard IRQ9 Unused
IRQ2 Cascade to IRQ
Controller
IRQ3 COM2/COM4 IRQ11 Unused
IRQ4 COM1/COM3 IRQ12 PS/2 mouse
IRQ5 Unused IRQ13 FPU
IRQ6 FDC IRQ14 Primary IDE
IRQ7 Printer IRQ15 Unused
IRQ10 Unused
DMA Channel Assignments
DMA Channel Function
0 Available
1 Available
2 Floppy Disk (8-bit transfer)
3 Available
4 Cascade for DMA controller 1
5 Available
6 Available
7 Available
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Appendix C
DIMENSION
45
Appendix D
Appendix D. Digital Input and
Output
• CN16 : Digital I/O
PIN # Signal
Name
1 GND 6 VCC
2 DO3 7 DO2
3 DO1 8 DO0
4 DIN3 9 DIN2
5 DIN1 10 DIN0
Below is the specifications of WAFER-4823 Digital I/O:
‧
Digital Input/Output channels : 4 bits
‧
TTL Devices compatible
‧
Digital Logic level 0: +0.5V max
‧
Digital Logic level 1: 3.5V to 5V
‧
Register Address: 340H
‧
Register Format:
Digital Input (READ 340H)
BIT D3 D2 D1 D0
VALUE DIN3 DIN2 DIN1 DIN0
Digital Output (WRITE 340H)
BIT D3 D2 D1 D0
VALUE DO3 DO2 DO1 DO0
Example: If we send 3 to the 340H(inverted)
BIT D3 D2 D1 D0
VALUE 1 1 0 0
PIN # Signal Name
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