User’s Manual
ECB-862 Series
Intel Pentium III Full-size PICMG CPU Card
with 4 USB 2.0, Audio, & Dual 10/100 Base-Tx Ethernet
3rd Ed. – 20 May, 2005
Part No.2047862000
User’s Manual
Copyright Notice
Copyright © 2003 - 2005, Evalue Technology Inc., ALL RIGHTS RESERVED.
No part of this document may be reproduced, copied, translated, or transmitted in any form
or by any means, electronic or mechanical, for any purpose, without the prior written
permission of the original manufacturer.
Trademark Acknowledgement
Brand and product names are trademarks or registered trademarks of their respective
owners.
Disclaimer
Evalue Technology Inc. reserves the right to make changes, without notice, to any product,
including circuits and/or software described or contained in this manual in order to improve
design and/or performance. Evalue Technology assumes no responsibility or liability for
the use of the described product(s), conveys no license or title under any patent, copyright,
or masks work rights to these products, and makes no representations or warranties that
these products are free from patent, copyright, or mask work right infringement, unless
otherwise specified. Applications that are described in this manual are for illustration
purposes only. Evalue Technology Inc. makes no representation or warranty that such
application will be suitable for the specified use without further testing or modification.
Life Support Policy
Evalue Technology’s PRODUCTS ARE NOT FOR USE AS CRITICAL COMPONENTS IN
LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE PRIOR WRITTEN APPROVAL
OF Evalue Technology Inc.
As used herein:
1. Life support devices or systems are devices or systems which, (a) are intended for
surgical implant into body, or (b) support or sustain life and whose failure to perform,
when properly used in accordance with instructions for use provided in the labelling, can
be reasonably expected to result in significant injury to the user.
2. A critical component is any component of a life support device or system whose failure
to perform can be reasonably expected to cause the failure of the life support device or
system, or to affect its safety or effectiveness.
Evalue Technology Inc.
ECB-862/862L
A Message to the Customer
Evalue Customer Services
Each and every Evalue’s product is built to the most exacting specifications to ensure
reliable performance in the harsh and demanding conditions typical of industrial
environments. Whether your new Evalue device is destined for the laboratory or the
factory floor, you can be assured that your product will provide the reliability and ease of
operation for which the name Evalue has come to be known.
Your satisfaction is our primary concern. Here is a guide to Evalue’s customer services. To
ensure you get the full benefit of our services, please follow the instructions below carefully.
Technical Support
We want you to get the maximum performance from your products. So if you run into
technical difficulties, we are here to help. For the most frequently asked questions, you can
easily find answers in your product documentation. These answers are normally a lot more
detailed than the ones we can give over the phone. So please consult this manual first.
To receive the latest version of the user manual, please visit our Web site at:
http://www.evalue-tech.com/
If you still cannot find the answer, gather all the information or questions that apply to your
problem, and with the product close at hand, call your dealer. Our dealers are well trained
and ready to give you the support you need to get the most from your Evalue’s products.
In fact, most problems reported are minor and are able to be easily solved over the phone.
In addition, free technical support is available from Evalue’s engineers every business day.
We are always ready to give advice on application requirements or specific information on
the installation and operation of any of our products. Please do not hesitate to call or e-
mail us.
Headquarters
Europe Branch Office
Evalue Europe A/S
Nordre Strandvej 119C,
3150 Hellebaek,
Evalue Technology Inc.
7F, 228, Lian-cheng Road,
Chung Ho City, Taipei,
Taiwan
Denmark
Tel : +886-2-8226-2345
Fax : +886-2-8226-2777
http://www.evalue-tech.com
E-mail: service@evalue-tech.com
Tel : +45-7025-0310
Fax : +45-4975-5026
http://www.evalue-tech.com
E-mail: service.europe@evalue-tech.com
US Branch Office
China Branch Office
Evalue Technology Inc.
Suite 210, 200 Tornillo Way,
Tinton Falls, NJ 07712
USA
Evalue Technology Shanghai Inc.
Room 909, 9F, Section B, No.900,
Yisan Road, Caohejing Hi-tech Park,
Shanghai 200233, China
Tel: +1-732-578-0200
Fax: +1-732-578-0250
http://www.evalue-tech.com
E-mail: service.usa@evalue-tech.com
Tel : +86-21-5423-4170
Fax : +86-21-5423-4171
http://www.evalue-tech.com
E-mail: service.china@evalue-tech.com
Evalue Technology Inc.
User’s Manual
Product Warranty
Evalue warrants to you, the original purchaser, that each of its products will be free from
defects in materials and workmanship for two years from the date of purchase.
This warranty does not apply to any products which have been repaired or altered by
persons other than repair personnel authorized by Evalue, or which have been subject to
misuse, abuse, accident or improper installation. Evalue assumes no liability under the
terms of this warranty as a consequence of such events. Because of Evalue’s high quality-
control standards and rigorous testing, most of our customers never need to use our repair
service. If any of Evalue’s products is defective, it will be repaired or replaced at no charge
during the warranty period. For out-of-warranty repairs, you will be billed according to the
cost of replacement materials, service time, and freight. Please consult your dealer for
more details. If you think you have a defective product, follow these steps:
1. Collect all the information about the problem encountered. (For example, CPU type and
speed, Evalue’s products model name, hardware & BIOS revision number, other
hardware and software used, etc.) Note anything abnormal and list any on-screen
messages you get when the problem occurs.
2. Call your dealer and describe the problem. Please have your manual, product, and any
helpful information available.
3. If your product is diagnosed as defective, obtain an RMA (return material authorization)
number from your dealer. This allows us to process your good return more quickly.
4. Carefully pack the defective product, a complete Repair and Replacement Order Card
and a photocopy proof of purchase date (such as your sales receipt) in a shippable
container. A product returned without proof of the purchase date is not eligible for
warranty service.
5. Write the RMA number visibly on the outside of the package and ship it prepaid to your
dealer.
Evalue Technology Inc.
ECB-862/862L
Packing List
Before you begin installing your single board, please make sure that the following
materials have been shipped:
„ 1 ECB-862 Series Pentium III Full-size CPU card
„ 1 Quick Installation Guide
„ 1 CD-ROM contains the followings:
— User’s Manual (this manual in PDF file)
— Ethernet driver and utilities
— VGA drivers and utilities
— Audio drivers and utilities
— USB2.0 drivers and utilities
„ Cable set includes the followings:
— 1 ATA-100 IDE cable (40-pin, pitch 2.54mm)
— 1 FDD cable (34-pin, pitch 2.54mm)
— 1 Bracket with one printer and one serial port (10-pin, 2.54mm/26-pin, pitch 2.54mm)
— 1 PS/2 keyboard and mouse Y cable (6-pin, Mini-DIN)
— 1 Bracket with audio/2 USB/TV connector (P/N: 9697000104, ECB-862 only)
— 1 Flat cable DuPont 10P/2.54mm-10P/2.0mm 15cm (ECB-862 only)
— 1 Flat cable IDC 16P/2.54mm-16P/2.54mm 15cm (ECB-862 only)
If any of these items are missing or damaged, please contact your distributor or sales
representative immediately.
Evalue Technology Inc.
User’s Manual
1.
2.
MANUAL OBJECTIVES.............................................................................................1
INTRODUCTION ........................................................................................................2
2.1 System Overview ...................................................................................................2
2.2 System Specifications...........................................................................................3
2.3 Architecture Overview...........................................................................................5
2.3.1 VIA VT8602 North Bridge...............................................................................................6
2.3.2 Advanced High-Performance DRAM Controller.............................................................7
2.3.3 VIA VT82C686B South Bridge .......................................................................................8
2.3.4 Current PCI Bus Controller.............................................................................................9
2.3.5 IDE Interface (Bus Master Capability and Synchronous DMA Mode) ..........................10
2.3.6 USB..............................................................................................................................10
2.3.7 VIA VT6202 PCI USB2.0 Controller.............................................................................10
2.3.8 Ethernet........................................................................................................................11
2.3.9 M-Systems DiskOnChip ...............................................................................................11
2.3.10 Compact Flash Interface ..............................................................................................12
3.
HARDWARE CONFIGURATION .............................................................................13
3.1 Installation Procedure .........................................................................................13
3.2 Safety Precautions...............................................................................................13
3.2.1 Warning!.......................................................................................................................13
3.2.2 Caution!........................................................................................................................13
3.3 Socket 370 Processor..........................................................................................14
3.3.1 Installing Pentium III / Celeron CPU.............................................................................14
3.3.2 Removing CPU.............................................................................................................14
3.4 Main Memory........................................................................................................14
3.5 M-Systems’ DiskOnChip Flash Disk...................................................................15
3.5.1 Installing DOC ..............................................................................................................15
3.6 Installing the Single Board Computer................................................................15
3.6.1 Drivers Support ............................................................................................................16
3.7 Jumper & Connector ...........................................................................................17
3.7.1 Jumper & Connector Layout.........................................................................................17
3.7.2 Jumper & Connector List..............................................................................................18
3.8 Setting Jumpers...................................................................................................20
3.8.1 External Speaker Select (CN10) ..................................................................................21
3.8.2 COM2 RS-232/422/485 Select (J2, J1)........................................................................21
3.8.3 Clear CMOS (J3)..........................................................................................................22
3.8.4 Compact Flash Mode Select (J5).................................................................................22
3.8.5 M-Systems DiskOnChip Memory Address Select (J8).................................................22
3.9 Connector Definitions .........................................................................................23
Evalue Technology Inc.
ECB-862/862L
3.9.1 Audio / TV Output Connector (AUDIO1) ......................................................................23
3.9.2 CD-ROM Audio Input Connector (CD1) .......................................................................23
3.9.3 Primary IDE Connector (CN1)......................................................................................24
3.9.4 Secondary IDE Connector (CN5).................................................................................25
3.9.5 Signal Description – Primary & Secondary IDE Connector (CN1, CN5) ......................26
3.9.6 Floppy Connector (CN2) ..............................................................................................29
3.9.7 Signal Description – Floppy Connector (CN2) .............................................................30
3.9.8 Power On Connector (CN3) .........................................................................................30
3.9.9 Reset Connector (CN4)................................................................................................30
3.9.10 Parallel Port Connector (CN6)......................................................................................31
3.9.11 Signal Description – Parallel Port Connector (CN6).....................................................31
3.9.12 Serial Port 2 Connector (CN7) .....................................................................................32
3.9.13 Serial Port 2 with External DB9 Connector (CN7)........................................................32
3.9.14 HDD LED (CN8)...........................................................................................................32
3.9.15 Power Led & Key Lock Connector (CN11)...................................................................32
3.9.16 System Fan Connector (CN12)....................................................................................33
3.9.17 Daughter Board Connector A (CN13) ..........................................................................33
3.9.18 Auxiliary Power Connector (CN15) ..............................................................................33
3.9.19 10/100 BASE-Tx Ethernet Connector (CN16)..............................................................34
3.9.20 Signal Description – 10/100Base-Tx Ethernet Connector (CN16) ...............................34
3.9.21 IrDA Connector (CN17)................................................................................................34
3.9.22 Daughter Board Connector B (CN18) ..........................................................................34
3.9.23 USB Connector (CN19)................................................................................................35
3.9.24 VGA Connector (CN20)................................................................................................35
3.9.25 Signal Description – VGA Connector (CN20)...............................................................35
3.9.26 LCD Panel Connector (CN21)......................................................................................36
3.9.27 LCD Panel Connector Description (CN21)...................................................................37
3.9.28 CPU Fan Connector (CN22) ........................................................................................37
3.9.29 LCD Inverter Connector (CN23)...................................................................................38
3.9.30 Internal Keyboard Connector (CN24)...........................................................................38
3.9.31 Power Connector (PWR1)............................................................................................38
3.9.32 LCD Contrast Adjustment Connector (VR1).................................................................39
3.9.33 LCD Backlight Brightness Adjustment Connector (VR2)..............................................39
4.
AWARD BIOS SETUP .............................................................................................40
4.1 Starting Setup ......................................................................................................40
4.2 Using Setup..........................................................................................................41
4.2.1 Navigating through the menu bar.................................................................................41
4.2.2 To display a sub menu .................................................................................................41
4.3 Getting Help .........................................................................................................42
4.4 In Case of Problems ............................................................................................42
4.5 Main Menu ............................................................................................................42
4.5.1 Setup Items ..................................................................................................................43
4.5.2 Standard CMOS Setup.................................................................................................44
4.5.3 Advanced CMOS Setup Defaults.................................................................................47
4.5.4 Advanced Chipset Setup Defaults................................................................................51
4.5.5 Integrated Peripherals Setup Defaults .........................................................................54
4.5.6 Power Management Setup Defaults.............................................................................58
4.5.7 PnP/ PCI Setup Defaults..............................................................................................62
4.5.8 PC Health Status Setup Defaults .................................................................................64
4.5.9 Current CPUFAN , CHASFAN & PWRFAN Speed ......................................................64
Evalue Technology Inc.
User’s Manual
4.5.10 Load Fail-Safe Defaults................................................................................................66
4.5.11 Load Optimized Defaults..............................................................................................67
4.5.12 Set Supervisor/User Password ....................................................................................67
4.5.13 Save & Exit Setup ........................................................................................................67
4.5.14 Exit Without Saving ......................................................................................................67
4.6 Flash BIOS Utility.................................................................................................68
DRIVER INSTALLATION.........................................................................................69
5.
5.1 Driver Installation for Ethernet Adapter.............................................................69
5.1.1 Windows 9x..................................................................................................................69
5.2 Driver Installation for Display Adapter...............................................................73
5.2.1 Windows 9x..................................................................................................................73
5.2.2 Windows 2000..............................................................................................................75
5.3 Driver Installation for USB2.0 Adapter...............................................................78
5.3.1 Windows 9x..................................................................................................................78
5.3.2 Windows 2000..............................................................................................................80
5.4 Driver Installation for Audio Adapter .................................................................83
5.4.1 Windows 9X .................................................................................................................83
5.4.2 Windows 2000..............................................................................................................85
6.
MEASUREMENT DRAWING ...................................................................................87
APPENDIX A: BIOS REVISIONS .....................................................................................88
APPENDIX B: SYSTEM RESOURCES ............................................................................89
Memory Map..............................................................................................................................89
I/O – Map 90
Interrupt Usage..........................................................................................................................92
DMA-channel Usage .................................................................................................................92
APPENDIX C: AWARD BIOS POST MESSAGES ...........................................................93
POST Beep ....................................................................................................................93
Error Messages.............................................................................................................93
CMOS Battery Has Failed .........................................................................................................93
CMOS Checksum Error.............................................................................................................93
Disk Boot Failure, Insert System Disk And Press Enter...........................................................93
Diskette Drives Or Types Mismatch Error – Run Setup ............................................................93
Display Switch Is Set Incorrectly ...............................................................................................94
Display Type Has Changed Since Last Boot.............................................................................94
EISA Configuration Checksum Error Please Run EISA Configuration Utility............................94
EISA Configuration Is Not Complete Please Run EISA Configuration Utility ............................94
Error Encountered initializing Hard Drive ..................................................................................94
Error Initializing Hard Disk Controller ........................................................................................94
Floppy Disk Cntrlr Error Or No Cntrlr Present ...........................................................................94
Invalid EISA Configuration Please Run EISA Configuration Utility............................................95
Keyboard Error Or No Keyboard Present..................................................................................95
Memory Address Error At..........................................................................................................95
Evalue Technology Inc.
ECB-862/862L
Memory Parity Error At..............................................................................................................95
Memory Size Has Changed Since Last Boot ............................................................................95
Memory Verify Error At..............................................................................................................95
Offending Address Not Found...................................................................................................95
Offending Segment ...................................................................................................................95
Press A Key To Reboot.............................................................................................................96
Press F1 To Disable NMI, F2 To Reboot ..................................................................................96
RAM Parity Error – Checking For Segment...............................................................................96
Should Be Empty But EISA Board Found Please Run EISA Configuration Utility ....................96
Should Have EISA Board But Not Found Please Run EISA Configuration Utility.....................96
Slot Not Empty...........................................................................................................................96
System Halted, (CTRL-ALT-DEL) To Reboot............................................................................96
Wrong Board In Slot Please Run EISA Configuration Utility .....................................................97
Floppy Disk(s) Fail (80) → Unable To Reset Floppy Subsystem. .............................................97
Floppy Disk(s) Fail (40) → Floppy Type Dismatch....................................................................97
Hard Disk(s) Fail (80) → HDD Reset Failed..............................................................................97
Hard Disk(s) Fail (40) → HDD Controller Diagnostics Failed....................................................97
Hard Disk(s) Fail (20) → HDD Initialization Error. .....................................................................97
Hard Disk(s) Fail (10) → Unable To Recalibrate Fixed Disk. ....................................................97
Hard Disk(s) Fail (08) → Sector Verify Failed. ..........................................................................97
Keyboard Is Locked Out - Unlock The Key. ..............................................................................97
Keyboard Error Or No Keyboard Present..................................................................................97
Manufacturing POST Loop........................................................................................................97
BIOS ROM Checksum Error - System Halted...........................................................................97
Memory Test Fail.......................................................................................................................97
APPENDIX D: AWARD BIOS POST CODES...................................................................98
Evalue Technology Inc.
User’s Manual
Document Amendment History
Revision
1st
Date
By
Comment
October, 2003
March, 2004
Stephen Tsao Initial Release
Stephen Tsao Add in 3.9.27 LCD panel connector
description (page 37)
Stephen Tsao 1. Modify CN19 USB pin definition
2. CN8’s signal updated.
3. Cn13’s signals modified from
USBG0/1 to GND.
2nd
3rd
May, 2005
4. Moved CN15-17 tables between
CN13 & CN18.
5. CN18, CN19, CN24, PWR1
modified VCC to +5V.
6. CN21 table modified to the right
way.
7. CN23 table modified to the right
way and VCC to +5V.
8. VR1 & VR2 tables rotated to the
right way and modified VCC to
+5V.
Evalue Technology Inc.
ECB-862/862L
1. Manual Objectives
This manual describes in detail the Evalue Technology ECB-862 Single Board.
We have tried to include as much information as possible but we have not duplicated
information that is provided in the standard IBM Technical References, unless it proved to
be necessary to aid in the understanding of this board. The manual is sectioned and
includes a User’s Guide that will help the non-technical user to get the unit up and running.
A Troubleshooting Guide is also included to help when things go wrong.
We strongly recommend that you study this manual carefully before attempting to interface
with ECB-862 or change the standard configurations. Whilst all the necessary information
is available in this manual we would recommend that unless you are confident, you contact
your supplier for guidance.
Please be aware that it is possible to create configurations within the CMOS RAM that
make booting impossible. If this should happen, clear the CMOS settings, (see the
description of the Jumper Settings for details).
If you have any suggestions or find any errors concerning this manual and want to inform
us of these, please contact our Customer Service department with the relevant details.
ECB-862/862L User’s Manual 1
User’s Manual
2. Introduction
2.1 System Overview
The ECB-862 is an all-in-one Full-size Pentium III Single Board Computer (SBC) designed
with Intel embedded chipset VIA 8602 which supports the latest Intel Pentium III CPU with
FSB up to 133 MHz, dual PCI-bus Fast Ethernet controllers, and M-Systems DiskOnChip
socket.
Targeting on the mission critical telecommunication or industrial applications, the ECB-862
comes designed with VIA 8602 Chipset. This makes it a perfect solution for not only
popular Networking Devices like Firewall, Gateway, Router, and e-Server, but also CTI
(Computer Telephony Integration) equipments such as PBX, Digital Logger, etc.
Other onboard features include 133 MHz FSB, four UDMA 100 IDE channels, two 16C550
compatible serial ports (one RS-232, one RS-232/422/485), one multi-mode parallel port,
and two 168-pin SDRAM sockets allowing for up to 1GB of SDRAM to be installed.
2 ECB-862/862L User’s Manual
ECB-862/862L
2.2 System Specifications
General Functions
•
CPU: Universal Socket 370 supports Intel FC-PGA/FC-PGA2 Pentium III / Celeron
(CopperMine and Tualatin) and VIA C3 CPU with FSB up to 133MHz
•
•
•
•
•
•
CPU Socket: Intel FC-370, Socket 370
BIOS: Award 2Mbit Flash BIOS
Chipset: VIA VT8602 / VT82C686B
I/O Chipset: VT82C686B
Memory: Onboard two 168-pin DIMM socket supports up to 1 Gbytes SDRAM
Watchdog Timer: Can generate a system reset, IRQ15 or NMI. Software
selectable time out interval (2 sec. ~ 255 sec., 1 sec./step)
I/O Interface
•
Multi I/O: EIDE x 2 (UDMA 100), FDD x 1, K/B x 1, Mouse x 1, RS-232 x 1, RS-
232/422/485 x 1, LPT x 1
•
•
IrDA: 115kbps, IrDA 1.0 compliant
USB: USB port x 2, USB 2.0 x 4 (5 x 2 header)
Ethernet Interface
•
Chipset: Dual Realtek 8100B or Intel 82559/82559ER PCI-bus Ethernet controllers
onboard
•
Ethernet Interface: PCI 100/10 Mbps, IEEE 802.3U compatible
Video Interface
•
•
Chipset: VIA VT8602, high performance 64-bit GUI, 3D engine
Memory: 2/ 4 /8 MB frame buffer using system memory
Resolution: Display mode:
LCD panel supports up to 1280 x 1024 @ 24 bpp
CRT displays support up to 1280 x 1024 @ 24 bpp
ECB-862/862L User’s Manual 3
User’s Manual
Optional TV Output Interface
TV Encoder: VIA VT1621
TV output interface: Supports both RCA jack and S terminal
SSD Interface
One 32-pin DIP socket supports M-Systems DiskOnChip 2000 series up to 1 G Bytes
Compact Flash: One CF socket supports Type I / II Compact Flash Card
Mechanical and Environmental
•
•
•
•
Power Supply Voltage: ATX type, +5V and +12V
Operating Temperature: 0 to 60° C (32 to 140° F)
Board Size: 13.3"(L) x 4.8"(W) (338 mm x 122 mm)
Weight: 0.6 Kg
4 ECB-862/862L User’s Manual
ECB-862/862L
2.3 Architecture Overview
The following block diagram shows the architecture and main components of ECB-862.
The two key components on board are the VIA VT8602 North Bridge and VT82C686B
super South Bridge. These two devices provide the ISA and PCI bus to which all the major
components are attached.
The following sections provide detail information about the functions provided onboard.
ECB-862/862L User’s Manual 5
User’s Manual
2.3.1 VIA VT8602 North Bridge
The Apollo PLE133T Graphics Controller is a highly integrated display control device that
incorporates a 64-bit 3D/2D graphic engine and video accelerator with advanced DVD
video and optional TV output capability. It provides a flexible and high performance
solution for graphics and video playback acceleration for various color depth and
resolution modes. The Apollo PLE133T Graphics Controller supports a video capture port
to import captured live MPEG 1 or MPEG 2 video streams, or DVD decompressed video
streams to be overlaid with a graphics stream of mixed color depth displays. In supporting
dual live videos, the Apollo PLE133T Graphics Controller offers independent dual video
windows ready for videoconferencing and with linear scaling capability. Integrating the
programmable phase lock loop with high speed LUT DACs, the Apollo PLE133T Graphics
Controller is a true price/performance solution for the modern multimedia based
entertainment PC.
The Apollo PLE133T 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
„
„
„
„
„
„
„
TrueVideo. Processor
DirectDrawTM and DirectVideoTM Hardware Support
Versatile Motion Video Capture/Overlay/Playback Support
Flexible Frame Buffer Memory Interface
Advanced Mobile Power Management
CRT Power Management (VESA™ DPMS)
PC99 Hardware Support
6 ECB-862/862L User’s Manual
ECB-862/862L
2.3.2 Advanced High-Performance DRAM Controller
„
DRAM interface synchronous or pseudosynchronous with CPU FSB speed of 133 /
100 / 66 MHz
„
DRAM interface may be faster than CPU by 33 MHz to allow use of PC133 with 100
MHz VIA C3, Pentium III or Pentium III-M (Tualatin) CPUs or use of PC100 with 66
MHz Celeron CPU
„
DRAM interface may be slower than CPU by 33 MHz to allow use of older memory
modules with a newer CPU
„
„
„
Concurrent CPU, AGP, and PCI access
Different DRAM timing for each bank
Dynamic Clock Enable (CKE) control for SDRAM power reduction in high speed
systems
„
„
„
„
„
„
„
„
„
Mixed 1M / 2M / 4M / 8M / 16M / 32MxN DRAMs
6 banks DRAMs supported (3 modules) up to 1.5 GB (256Mb DRAM technology)
Flexible row and column addresses
64-bit data width only
3.3V DRAM interface with 5V-tolerant inputs
Programmable I/O drive capability for MA, command, and MD signals
Two-bank interleaving for 16Mbit SDRAM support
Two-bank and four bank interleaving for 64Mbit SDRAM support
Supports maximum 8-bank interleave (i.e., 8 pages open simultaneously); banks are
allocated based on LRU
„
„
„
„
„
„
„
„
Independent SDRAM control for each bank
Seamless DRAM command scheduling for maximum DRAM bus utilization
Four cache lines (16 quadwords) of CPU to DRAM write
Four cache lines of CPU to DRAM read prefetch buffers
Read around write capability for non-stalled CPU read
Speculative DRAM read before snoop result
Burst read and write operation
x-1-1-1-1-1-1-1 back-to-back accesses for SDRAM from CPU or from DRAM
controller
ECB-862/862L User’s Manual 7
User’s Manual
„
„
„
BIOS shadow at 16KB increment
Decoupled and burst DRAM refresh with staggered RAS timing
CAS before RAS or self refresh
2.3.3 VIA VT82C686B South Bridge
The VT82C686B PSIPC (PCI Super-I/O Integrated Peripheral Controller) is a high
integration, high performance, power-efficient, and high compatibility device that supports
Intel and non-Intel based processor to PCI bus bridge functionality to make a complete
Microsoft PC99-compliant PCI/ISA system. In addition to complete ISA extension bus
functionality, the VT82C686B includes standard intelligent peripheral controllers:
„
Master mode enhanced IDE controller with dual channel DMA engine and
interlaced dual channel commands. Dedicated FIFO coupled with scatter and
gather master mode operation allows high performance transfers between PCI
and IDE devices. In addition to standard PIO and DMA mode operation. The
VT82C686B also supports the UltraDMA-33, UltraDMA-66, and UltraDMA-100
(ATA-100) standards. The IDE controller is SFF-8038I v1.0 and Microsoft
Windows-family compliant.
„
Universal Serial Bus controller that is USB v1.1 and Universal HCI v1.1 compliant.
The VT82C686B includes the root hub with four function ports with integrated
physical layer transceivers. The USB controller allows hot plug and play and
isochronous peripherals to be inserted into the system with universal driver
support. The controller also implements legacy keyboard and mouse support so
that legacy software can run transparently in a non-USB-aware operating system
environment.
„
„
Keyboard controller with PS2 mouse support.
Real Time Clock with 256 byte extended CMOS. In addition to the standard ISA
RTC functionality, the integrated RTC also includes the date alarm, century field,
and other enhancements for compatibility with the ACPI standard.
„
Notebook-class power management functionality compliant with ACPI and legacy
APM requirements. Multiple sleep states (power-on suspend, suspend-to-DRAM,
and suspend-to-Disk) are supported with hardware automatic wake-up. Additional
functionality includes event monitoring, CPU clock throttling and stop (Intel
processor protocol), PCI bus clock stop control, modular power, clock and
leakage control, hardware-based and software-based event handling, general
purpose I/O, chip select and external SMI.
„
Hardware monitoring subsystem for managing system / motherboard voltage
levels, temperatures, and fan speeds
„
„
Full System Management Bus (SMBus) interface.
Two 16550-compatible serial I/O ports with infrared communications port option
on the second port.
8 ECB-862/862L User’s Manual
ECB-862/862L
„
Integrated PCI-mastering dual full-duplex direct-sound AC97-link-compatible
sound system. Hardware soundblaster-pro and hardware-assisted FM blocks are
included for Windows DOS box and real-mode DOS compatibility. Loopback
capability is also implemented for directing mixed audio streams into USB and
1394 speakers for high quality digital audio.
„
„
„
„
Two game ports and one MIDI port
ECP/EPP-capable parallel port
Standard floppy disk drive interface
Distributed DMA capability for support of ISA legacy DMA over the PCI bus.
Serial IRQ is also supported for docking and non-docking applications.
„
„
Plug and Play controller that allows complete steerability of all PCI interrupts and
internal interrupts / DMA channels to any interrupt channel. One additional
steerable interrupt channel is provided to allow plug and play and reconfigurability
of on-board peripherals for Windows family compliance.
Internal I/O APIC (Advanced Programmable Interrupt Controller)
2.3.4 Current PCI Bus Controller
„
„
„
„
„
PCI bus is synchronous / pseudo-synchronous to host CPU bus
33 MHz operation on the primary PCI bus
Supports up to five PCI masters
Peer concurrency
Concurrent multiple PCI master transactions; i.e., allow PCI masters from both PCI
buses active at the same time
„
„
„
„
„
Zero wait state PCI master and slave burst transfer rate
PCI to system memory data streaming up to 132Mbyte/sec
PCI master snoop ahead and snoop filtering
Six levels (double-words) of CPU to PCI posted write buffers
Byte merging in the write buffers to reduce the number of PCI cycles and to create
further PCI bursting possibilities
„
„
„
Enhanced PCI command optimization (MRL, MRM, MWI, etc.)
Forty-eight levels (double-words) of post write buffers from PCI masters to DRAM
Sixteen levels (double-words) of prefetch buffers from DRAM for access by PCI
masters
„
Supports L1/L2 write-back forward to PCI master read to minimize PCI read latency
ECB-862/862L User’s Manual 9
User’s Manual
„
Supports L1/L2 write-back merged with PCI master post-write to minimize DRAM
utilization
„
„
„
Delay transaction from PCI master reading DRAM
Read caching for PCI master reading DRAM
Transaction timer for fair arbitration between PCI masters (granularity of two PCI
clocks)
„
„
„
Symmetric arbitration between Host/PCI bus for optimized system performance
Complete steerable PCI interrupts
PCI-2.2 compliant, 32 bit 3.3V PCI interface with 5V tolerant inputs
2.3.5 IDE Interface (Bus Master Capability and Synchronous DMA Mode)
Master mode enhanced IDE controller with dual channel DMA engine and interlaced dual
channel commands. Dedicated FIFO coupled with scatter and gather master mode
operation allows high performance transfers between PCI and IDE devices. In addition to
standard PIO and DMA mode operation. The VT82C686B also supports the UltraDMA-33,
UltraDMA-66, and UltraDMA-100 (ATA-100) standards. The IDE controller is SFF-8038I
v1.0 and Microsoft Windows-family compliant.
2.3.6 USB
Universal Serial Bus controller that is USB v1.1 and Universal HCI v1.1 compliant. The
VT82C686B includes the root hub with four function ports with integrated physical layer
transceivers. The USB controller allows hot plug and play and isochronous peripherals to
be inserted into the system with universal driver support. The controller also implements
legacy keyboard and mouse support so that legacy software can run transparently in a
non-USB-aware operating system environment.
2.3.7 VIA VT6202 PCI USB2.0 Controller
The VT6202 USB 2.0 UHCI and EHCI Host Controller for the PCI Bus provides higher
bandwidth (480 Mbps) and is backward compatible with USB 1.1. It implements Universal
Serial Bus Specification Revision 2.0 and is compliant with UHCI 1.1 and EHCI 0.95 with a
32-bit PCI host bus interface.
The VT6202 supports 4 downstream facing ports with 1.5 (low-speed), 12 (full-speed) and
480 (high-speed) Mbps transaction capability. The Root Hub is integrated with physical-
layer transceivers shared by UHCI (for full/low-speed) and EHCI (for highspeed)
Host Controllers. The VT6202 also supports PCI-Bus Power Management Interface
Specification 1.1 and has legacy support for all downstream facing ports.
The VT6202 is ready to provide a PCI 4-port USB2.0 peripheral-interface to satisfy the
needs of desktops, mobile systems, and other host platforms. Support for the VT6202 is
built into Microsoft Windows XP and Windows 2000.
10 ECB-862/862L User’s Manual
ECB-862/862L
2.3.8 Ethernet
2.3.8.1 Realtek RTL8100B Ethernet Controller
The Realtek RTL8100B is one of the Realtek RTL8139A/B/C/8130 family, the highly
integrated and cost-effective single-chip Fast Ethernet controller that provides 32-bit
performance, PCI bus master capability, and full compliance with IEEE 802.3u 100Base-T
specifications and IEEE 802.3x Full Duplex Flow Control. It also supports Advanced
Configuration Power management Interface (ACPI), PCI power management for modern
operating systems that is capable of Operating System Directed Power Management
(OSPM) to achieve the most efficient power management.
2.3.8.2 Intel 82559ER Ethernet Controller (Optional)
The 82559ER is part of Intel's second generation family of fully integrated 10BASE-
T/100BASE-TX LAN solutions. The 82559ER consists of both the Media Access Controller
(MAC) and the physical layer (PHY) combined into a single component solution. 82559
family members build on the basic functionality of the 82558 and contain power
management enhancements.
The 82559ER is a 32-bit PCI controller that features enhanced scatter-gather bus
mastering capabilities which enables the 82559ER to perform high-speed data transfers
over the PCI bus. The 82559ER bus master capabilities enable the component to process
high-level commands and perform multiple operations, thereby off-loading communication
tasks from the system CPU. Two large transmit and receive FIFOs of 3 Kbytes each help
prevent data underruns and overruns, allowing the 82559ER to transmit data with
minimum interframe spacing (IFS).
The 82559ER can operate in either full duplex or half duplex mode. In full duplex mode the
82559ER adheres to the IEEE 802.3x Flow Control specification. Half duplex performance
is enhanced by a proprietary collision reduction mechanism.
The 82559ER includes a simple PHY interface to the wire transformer at rates of 10BASE-
T and 100BASE-TX, and Auto-Negotiation capability for speed, duplex, and flow control.
These features and others reduce cost, real estate, and design complexity.
The 82559ER also includes an interface to a serial (4-pin) EEPROM and a parallel
interface to a 128 Kbyte Flash memory. The EEPROM provides power-on initialization for
hardware and software configuration parameters.
2.3.9 M-Systems DiskOnChip
M-Systems’ DiskOnChip 2000 is a high performance single-chip flash disk in a standard
32-pin DIP package. This unique data storage solution offers cost effective data storage
beyond that of traditional hard disks. Perfect for applications with limited space and varying
capacity requirements. The DiskOnChip 2000 is simply inserted into a 32-pin DIP socket
on your platform board and you have a bootable flash disk.
ECB-862/862L User’s Manual 11
User’s Manual
2.3.10 Compact Flash Interface
A Compact Flash type II connector is connected to the secondary IDE controller. The
Compact Flash storage card is IDE compatible. It is an ideal replacement for standard IDE
hard drives. The solid-state design offers no seek errors even under extreme shock and
vibration conditions. The Compact Flash storage card is extremely small and highly
suitable for rugged environments, thus providing an excellent solution for mobile
applications with space limitations. It is fully compatible with all consumer applications
designed for data storage PC card, PDA, and Smart Cellular Phones, allowing simple use
for the end user. The Compact Flash storage card is O/S independent, thus offering an
optimal solution for embedded systems operating in non-standard computing
environments. The Compact Flash storage card is IDE compatible and offers various
capacities.
12 ECB-862/862L User’s Manual
ECB-862/862L
3. Hardware Configuration
This chapter explains you the instructions of how to set up your system. The additional
information shows you how to install M-Systems’ DiskOnChip and program the Watchdog
Timer.
3.1 Installation Procedure
1. Turn off the power supply.
2. Insert the DIMM module (be careful with the orientation).
3. Insert all external cables for hard disk, floppy, keyboard, mouse, USB etc. except for flat
panel. A CRT monitor must be connected in order to change CMOS settings to support
flat panel.
4. Connect power supply to the board via the PWR1.
5. Turn on the power.
6. Enter the BIOS setup by pressing the delete key during boot up. Use the “Auto
Configuration with Optimal Settings” feature. The Peripheral Setup and the Standard
CMOS Setup Window must be entered and configured correctly to match the particular
system configuration.
7. If TFT panel display is to be utilised, make sure the panel voltage is correctly set before
connecting the display cable and turning on the power.
3.2 Safety Precautions
3.2.1 Warning!
Always completely disconnect the power cord from your chassis or power
cable from your board whenever you work with the hardware. Do not make
connections while the power is on. Sensitive electronic components can
be damaged by sudden power surges. Only experienced electronics
personnel should open the PC chassis.
3.2.2 Caution!
Always ground yourself to remove any static charge before touching the
board. Modern electronic devices are very sensitive to static electric
charges. As a safety precaution, use a grounding wrist strap at all times.
Place all electronic components in a static-dissipative surface or static-
shielded bag when they are not in the chassis.
ECB-862/862L User’s Manual 13
User’s Manual
3.3 Socket 370 Processor
3.3.1 Installing Pentium III / Celeron CPU
„
Lift the handling lever of CPU socket outwards and upwards to the other end.
„
Align the processor pins with pin holes on the socket. Make sure that the notched
corner or dot mark (pin 1) of the CPU corresponds to the socket’s bevel end.
Then press the CPU gently until it fits into place. If this operation is not easy or
smooth, don’t do it forcibly. You need to check and rebuild the CPU pin uniformly.
„
„
Push down the lever to lock processor chip into the socket.
Follow the installation guide of cooling fan or heat sink to mount it on CPU
surface and lock it on the socket 370.
„
Make sure to follow particular CPU speed and voltage type to adjust the jumper
settings properly.
3.3.2 Removing CPU
„
„
„
„
Unlock the cooling fan first.
Lift the lever of CPU socket outwards and upwards to the other end.
Carefully lift up the existing CPU to remove it from the socket.
Follow the steps of installing a CPU to change to another one or place handling
bar back to close the opened socket.
3.4 Main Memory
ECB-862 provides two SDRAM socket (168-pin Dual In-line Memory Module) to support
3.3V SDRAM. The maximum memory size is 512MB. If 133MHz FSB CPU is adopted, you
have to use PC-133 compliant SDRAM. For system compatibility and stability, please do
not use memory module without brand.
Watch out the contact and lock integrity of memory module with socket, it will influence the
system’s reliability. Follow the normal procedure to install your SDRAM module into the
DIMM socket. Before locking the DIMM module, make sure that the memory module has
been completely inserted into the DIMM socket.
Note:
Please do not change any SDRAM parameter in BIOS setup to increase your
system’s performance without acquiring technical information in advance.
14 ECB-862/862L User’s Manual
ECB-862/862L
3.5 M-Systems’ DiskOnChip Flash Disk
ECB-862 reserves a 32-pin DIP socket to support M-Systems’ DiskOnChip flash disk up to
1 GB. The DiskOnChip is based on pure ISA bus and without PnP (Plug and Play) function.
Before the installation, make sure that the DiskOnChip I/O address jumper is set properly
to prevent the I/O resource conflict.
3.5.1 Installing DOC
Align the DOC with the pinholes on the socket. Make sure that the notched corner or dot
mark (pin 1) of DOC corresponds to notched corner of the socket. Then press the DOC
gently until it fits into place. If installation procedure is correct, the flash disk can be viewed
as a normal hard disk to access read/write data now.
Note:
Please make sure that your DOC is properly inserted. Place the DOC in wrong
direction will damage the flash device.
If you system would like to boot from the flash disk, it is recommended to refer to the
application note provided by M-Systems first. You can easily obtain the application note
from M-Systems’ DiskOnChip user’s manual or from their web site as below.
http://www.m-sys.com
3.6 Installing the Single Board Computer
To install your ECB-862 into chassis or proprietary environment, the following steps have
to be followed.
„
„
„
„
Make sure all jumpers are properly set.
Install and configure CPU and memory module correctly.
Place the ECB-862 into the dedicated position in your system.
Attach cables to peripherals.
Note:
Please ensure that your SBC is properly installed and fixed by mechanism.
Otherwise, the system might be unstable or do not work due to bad contact of
golden finger and slot.
ECB-862/862L User’s Manual 15
User’s Manual
3.6.1 Drivers Support
ECB-862 provides on CD-Title to support on-board VGA and Ethernet device drivers in
various operating systems. Before installing the device drivers, please see the reference
files in each sub-directory. You cannot install drivers from CD-Title directly.
16 ECB-862/862L User’s Manual
ECB-862/862L
3.7 Jumper & Connector
3.7.1 Jumper & Connector Layout
ECB-862/862L User’s Manual 17
User’s Manual
3.7.2 Jumper & Connector List
Connectors on the board are linked to external devices such as hard disk drives, keyboard,
mouse, or floppy drives. In addition, the board has a number of jumpers that allow you to
configure your system to suit your application.
The following tables list the function of each of the board's jumpers and connectors.
Jumpers
Label
Function
Note
CN10
J1, J2
External speaker select
4 x 1 header, pitch 2.54mm
COM2 RS-232/422/485 select
4 x 3 header, pitch 2.0mm (J2)
3 x 2 header, pitch 2.0mm
3 x 1 header, pitch 2.54mm
Clear CMOS
J3
J4
J5
J6
J7
J8
Reserve for internal test only
Compact Flash mode select
Reserve for internal test only
Reserve for internal test only
3 x 1 header, pitch 2.54mm
2 x 1 header, pitch 2.54mm
3 x 1 header, pitch 2.54mm
3 x 1 header, pitch 2.54mm
2 x 2 header, pitch 2.54mm
M-Systems DiskOnChip memory
address select
18 ECB-862/862L User’s Manual
ECB-862/862L
Connectors
Label
AUDIO1
CD1
Function
Note
Audio / TV output connector
8 x 2 box header, pitch 2.54mm
CD-ROM audio input connector
Primary IDE connector
Floppy connector
4 x 1 wafer, pitch 2.0mm
20 x 2 box header, pitch 2.54mm
17 x 2 box header, pitch 2.54mm
2 x 1 header, pitch 2.54mm
2 x 1 header, pitch 2.54mm
20 x 2 box header, pitch 2.54mm
13 x 2 box header, pitch 2.54mm
5 x 2 box header, pitch 2.54mm
2 x 1 header, pitch 2.54mm
2 x 1 header, pitch 2.54mm
5 x 1 header, pitch 2.54mm
3 x 1 wafer, pitch 2.54mm
CN1
CN2
Power on connector
CN3
Reset connector
CN4
Secondary IDE connector
Parallel port connector
Serial port 2 connector
HD LED
CN5
CN6
CN7
CN8
Reserve for internal test only
Power led & key lock connector
System fan connector
Daughter board connector A
Serial port 1 connector
Auxiliary power connector
10/100 Base-Tx Ethernet connector
IrDA connector
CN9
CN11
CN12
CN13
CN14
CN15
CN16
CN17
CN18
CN19
CN20
CN21
CN22
CN23
CN24
CN25
DOC2000
DIM1,2
PWR1
VR1
D-sub 9-pin male connector
3 x 1 wafer, pitch 2.54mm
RJ-45
5 x 2 header, pitch 2.54mm
Daughter board connector B
USB connector
5 x 2 header, pitch 2.54mm
VGA connector
D-sub 15-pin female connector
LCD panel connector
CPU fan connector
HIROSE DF13-40DP-1.25V
3 x 1 wafer, pitch 2.54mm
LCD inverter connector
5 x 1 wafer, pitch 2.0mm
5 x 1 wafer, pitch 2.54mm
6-pin mini DIN
Internal keyboard connector
PS/2 keyboard & mouse connector
M-Systems DOC 2000 socket
168-pin SDRAM DIMM socket
Power connector
16 x 2 DIP socket
LCD contrast adjustment connector
3 x 1 header, pitch 2.54mm
VR2
LCD Backlight brightness adjustment 3 x 1 header, pitch 2.54mm
connector
ECB-862/862L User’s Manual 19
User’s Manual
3.8 Setting Jumpers
You can configure your board to match the needs of your application by setting jumpers. A
jumper is the simplest kind of electric switch.
It consists of two metal pins and a small metal clip (often protected by a plastic cover) that
slides over the pins to connect them. To “close” a jumper you connect the pins with the clip.
To “open” a jumper you remove the clip. Sometimes a jumper will have three pins, labeled
1, 2, and 3. In this case, you would connect either two pins.
The jumper settings are schematically depicted in this manual as follows:
A pair of needle-nose pliers may be helpful when working with jumpers.
If you have any doubts about the best hardware configuration for your application, contact
your local distributor or sales representative before you make any changes.
20 ECB-862/862L User’s Manual
ECB-862/862L
3.8.1 External Speaker Select (CN10)
CN10 is a 4-pin connector for an external speaker. If there is no external speaker, the
ECB-862 provides an onboard buzzer as an alternative. To enable the buzzer, set pin 3-4
as closed.
External Speaker Select (CN10)
External speaker
Onboard buzzer*
4
3
2
1
4
3
2
1
CN10
* default
3.8.2 COM2 RS-232/422/485 Select (J2, J1)
The ECB-862 series COM2 serial port can be selected as RS-232, RS-422, or RS-485 by
setting J2 & J1.
COM2 Select (J1, J2)
RS-232*
RS-422
RS-485
1 4 7 10
1 4 7 10
1 4 7 10
J2
J1
3 6 9 12
1 3 5
3 6 9 12
1 3 5
3 6 9 12
1 3 5
2 4 6
2 4 6
2 4 6
* default
ECB-862/862L User’s Manual 21
User’s Manual
3.8.3 Clear CMOS (J3)
You can use J3 to clear the CMOS data if necessary. To reset the CMOS data, set J3 to 2-
3 closed for just a few seconds, and then remove the jumper back to 1-2 closed.
Clear CMOS (J3)
Protect*
Clear CMOS
1 2 3
1 2 3
J3
* default
3.8.4 Compact Flash Mode Select (J5)
You can use J5 to configure the Compact Flash device to be Master or Slave mode on the
secondary IDE channel.
Compact Flash Mode Select (J5)
Master*
Slave
1 2
1 2
J5
* default
3.8.5 M-Systems DiskOnChip Memory Address Select (J8)
The M-systems DiskOnChip memory address can be selected by J8. The choice is
D0000~D1FFF, D4000~D5FFF, D8000~D9FFF, or Disabled.
M-systems DiskOnChip Memory Address Select (J8)
D0000*
D4000
D8000
Disabled
3
1
4
3
1
4 3
2 1
4 3
2 1
4
2
2
* default
22 ECB-862/862L User’s Manual
ECB-862/862L
3.9 Connector Definitions
3.9.1 Audio / TV Output Connector (AUDIO1)
Signal
PIN
Signal
Mic
AGND
Line-Out L
SPK L
Line-In L
AGND
GND
1
3
5
7
9
2
4
6
8
Mic Bias
AGND
Line-Out R
SPK R
Line-In R
Yout
10
11 12
13 14
15 16
Cout
GND
COMP
3.9.2 CD-ROM Audio Input Connector (CD1)
Signal
PIN
CD_GND
CD_L
1
2
3
4
CD_GND
CD_R
ECB-862/862L User’s Manual 23
User’s Manual
3.9.3 Primary IDE Connector (CN1)
Signal
PIN
Signal
RESET#
PDD7
1
3
5
7
9
2
4
6
8
GND
PDD8
PDD9
PDD10
PDD11
PDD12
PDD13
PDD14
PDD15
NC
PDD6
PDD5
PDD4
10
PDD3
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
PDD2
PDD1
PDD0
GND
PDDREQ
PDIOW#
PDIOR#
PDIORDY
PDDACK#
IRQ14
GND
GND
GND
IDESEL
GND
NC
PDA1
CBLID
PDA2
CS1
PDA0
CS0
PDDACT#
GND
24 ECB-862/862L User’s Manual
ECB-862/862L
3.9.4 Secondary IDE Connector (CN5)
Signal
PIN
Signal
RESET#
SDD7
1
3
5
7
9
2
4
6
8
GND
SDD8
SDD9
SDD10
SDD11
SDD12
SDD13
SDD14
SDD15
NC
SDD6
SDD5
SDD4
10
SDD3
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
SDD2
SDD1
SDD0
GND
SDDREQ
SDIOW#
SDIOR#
SDIORDY
SDDACK#
IRQ15
GND
GND
GND
IDESEL
GND
NC
SDA1
CBLID
SDA2
CS1
SDA0
CS0
SDDACT#
GND
ECB-862/862L User’s Manual 25
User’s Manual
3.9.5 Signal Description – Primary & Secondary IDE Connector (CN1, CN5)
PDA [2:0]
SDA [2:0]
Primary Disk Address [2:0]. These signals indicate which byte in either the ATA command
block or control block is being addressed. If the IDE signals are configured for Primary and
Secondary, these signals are connected to the corresponding signals on the Primary IDE
connector. If the IDE signals are configured for Primary 0 and Primary 1, these signals are
used for the Primary 0 connector.
Secondary Disk Address [2:0]. These signals indicate which byte in either the ATA
command block or control block is being addressed. If the IDE signals are configured for
Primary and Secondary, these signals are connected to the corresponding signals on the
Secondary IDE connector. If the IDE signals are configured for Primary Master and Primary
Slave, these signals are used for the Primary Slave connector.
PDCS1#
PDCS3#
SDCS1#
SDCS3#
PDD [15:0]
SDD [15:0]
Primary Disk Chip Select for 1F0H~1F7H Range. For ATA command register block. If the
IDE signals are configured for Primary and Secondary, this output signal is connected to the
corresponding signal on the Primary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, this signal is used for the Primary Master connector.
Primary Disk Chip Select for 3F0H~3F7H Range. For ATA control register block. If the IDE
signals are configured for Primary and Secondary, this output signal is connected to the
corresponding signal on the Primary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, this signal is used for the Primary Master connector.
Secondary Chip Select for 170H~177H Range. For ATA command register block. If the IDE
signals are configured for Primary and Secondary, this output signal is connected to the
corresponding signal on the Secondary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, these signals are used for the Primary Slave connector.
Secondary Chip Select for 370H~377H Range. For ATA control register block. If the IDE
signals are configured for Primary and Secondary, this output signal is connected to the
corresponding signal on the Secondary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, these signals are used for the Primary Slave connector.
Primary Disk Data [15:0]. These signals are used to transfer data to or from the IDE device.
If the IDE signals are configured for Primary and Secondary, these signals are connected to
the corresponding signals on the Primary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, this signal is used for the Primary Master connector.
Secondary Disk Data [15:0]. These signals are used to transfer data to or from the IDE
device. If the IDE signals are configured for Primary and Secondary, these signals are
connected to the corresponding signals on the Secondary IDE connector. If the IDE signals
are configured for Primary Master and Primary Slave, these signals are used for the Primary
Slave connector.
26 ECB-862/862L User’s Manual
ECB-862/862L
PDIOR#
SDIOR#
PDIOW#
SDIOW#
Primary Disk IO Read. In normal IDE this is the command to the IDE device that it may drive
data onto the PDD [15:0] lines. Data is latched by PIIX4 on the negation edge of PDIOR#. The
IDE device is selected either by the ATA register file chip selects (PDCS1#, PDCS3#) and the
PDA [2:0] lines, or the IDE DMA slave arbitration signals (PDDACK#).
In an Ultra DMA/33 read cycle, this signal is used as DMARDY# which is negated by the
PIIX4 to pause Ultra DMA/33 transfers. In an Ultra DMA/33 write cycle, this signal is used as
the STROBE signal, with the drive latching data on rising and falling edges of STROBE.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Primary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, this signal is used for the Primary Master connector.
Secondary Disk IO Read. In normal IDE mode, this is the command to the IDE device that it
may drive data onto the SDD [15:0] lines. Data is latched by the PIIX4 on the negation edge of
SDIOR#. The IDE device is selected either by the ATA register file chip selects (SDCS1#,
SDCS3#) and the SDA [2:0] lines, or the IDE DMA slave arbitration signals (SDDACK#).
In an Ultra DMA/33 read cycle, this signal is used as DMARDY# which is negated by the
PIIX4 to pause Ultra DMA/33 transfers. In an Ultra DMA/33 write cycle, this signal is used as
the STROBE signal, with the drive latching data on rising and falling edges of STROBE.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Secondary IDE connector. If the IDE signals are configured for
Primary Master and Primary Slave, these signals are used for the Primary Slave connector.
Primary Disk IO Write. In normal IDE mode, this is the command to the IDE device that it
may latch data from the PDD [15:0] lines. Data is latched by the IDE device on the negation
edge of PDIOW#. The IDE device is selected either by the ATA register file chip selects
(PDCS1#, PDCS3#) and the PDA [2:0] lines, or the IDE DMA slave arbitration signals
(PDDACK#).
For Ultra DMA/33 mode, this signal is used as the STOP signal, which is used to terminate an
Ultra DMA/33 transaction. If the IDE signals are configured for Primary and Secondary, this
signal is connected to the corresponding signal on the Primary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, this signal is used for
the Primary Master connector.
Secondary Disk IO Write. In normal IDE mode, this is the command to the IDE device that it
may latch data from the SDD [15:0] lines. Data is latched by the IDE device on the negation
edge of SDIOW#. The IDE device is selected either by the ATA register file chip selects
(SDCS1#, SDCS3#) and the SDA [2:0] lines, or the IDE DMA slave arbitration signals
(SDDACK#).
In read and write cycles this signal is used as the STOP signal, which is used to terminate an
Ultra DMA/33 transaction.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Secondary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, these signals are
used for the Primary Slave connector.
ECB-862/862L User’s Manual 27
User’s Manual
PDIORDY
Primary IO Channel Ready. In normal IDE mode, this input signal is directly driven by the
corresponding IDE device IORDY signal. In an Ultra DMA/33 read cycle, this signal is used as
STROBE, with the PIIX4 latching
data on rising and falling edges of STROBE. In an Ultra DMA/33 write cycle, this signal is
used as the DMARDY# signal which is negated by the drive to pause Ultra DMA/33 transfers.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Primary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, this signal is used for
the Primary Master connector.
This is a Schmitt triggered input.
SDIORDY
Secondary IO Channel Ready. In normal IDE mode, this input signal is directly driven by the
corresponding IDE device IORDY signal. In an Ultra DMA/33 read cycle, this signal is used as
STROBE, with the PIIX4 latching
data on rising and falling edges of STROBE. In an Ultra DMA write cycle, this signal is used
as the DMARDY# signal which is negated by the drive to pause Ultra DMA/33 transfers.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Secondary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, these signals are
used for the Primary Slave connector.
This is a Schmitt triggered input.
PDDREQ
Primary Disk DMA Request. This input signal is directly driven from the IDE device DMARQ
signal. It is asserted by the IDE device to request a data transfer, and used in conjunction with
the PCI bus master IDE function. It is not associated with any AT compatible DMA channel.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Primary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, this signal is used for
the Primary Master connector.
SDDREQ
Secondary Disk DMA Request. This input signal is directly driven from the IDE device
DMARQ signal. It is asserted by the IDE device to request a data transfer, and used in
conjunction with the PCI bus master IDE function. It is not associated with any AT compatible
DMA channel.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Secondary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, these signals are
used for the Primary Slave connector.
PDDACK#
Primary DMA Acknowledge. This signal directly drives the IDE device DMACK# signal. It is
asserted by PIIX4 to indicate to IDE DMA slave devices that a given data transfer cycle
(assertion of PDIOR# or PDIOW#) is a DMA data transfer cycle. This signal is used in
conjunction with the PCI bus master IDE function. It is not associated with any AT compatible
DMA channel. If the IDE signals are configured for Primary and Secondary, this signal is
connected to the corresponding signal on the Primary IDE connector. If the IDE signals are
configured for Primary Master and Primary Slave, this signal is used for the Primary Master
connector.
28 ECB-862/862L User’s Manual
ECB-862/862L
SDDACK#
Secondary DMA Acknowledge. This signal directly drives the IDE device DMACK# signal. It
is asserted by PIIX4 to indicate to IDE DMA slave devices that a given data transfer cycle
(assertion of SDIOR# or SDIOW#) is a DMA data transfer cycle. This signal is used in
conjunction with the PCI bus master IDE function. It is not associated with any AT compatible
DMA channel.
If the IDE signals are configured for Primary and Secondary, this signal is connected to the
corresponding signal on the Secondary IDE connector.
If the IDE signals are configured for Primary Master and Primary Slave, these signals are
used for the Primary Slave connector.
PDDACT#
SDDACT#
Primary Disk Act. Signal from Primary IDE device indicating Primary IDE device activity. The
signal level depends on the hard disk type, normally active low.
Secondary Disk Act. Signal from Secondary IDE device indicating Secondary IDE device
activity. The signal level depends on the hard disk type, normally active low.
IDE Reset. This signal resets all the devices that are attached to the IDE interface.
Interrupt line from hard disk. Connected directly to PC-AT bus.
RESET#
IRQ14/15
3.9.6 Floppy Connector (CN2)
Signal
PIN
Signal
GND
GND
NC
1
3
5
7
9
2
4
6
8
RWC#
NC
DRVDEN1#
INDEX#
MOA#
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
DSB#
DSA#
MOB#
DIR#
STEP#
WD#
WE#
TRAK0#
WPT#
RDATA#
SIDE1#
DSKCHG#
ECB-862/862L User’s Manual 29
User’s Manual
3.9.7 Signal Description – Floppy Connector (CN2)
RDATA#
WD#
The read data input signal from the FDD.
Write data. This logic low open drain writes pre-compensation serial data to the selected FDD.
An open drain output.
WE#
Write enable. An open drain output.
MOA#
MOB#
DSA#
DSB#
SIDE1#
DIR#
Motor A On. When set to 0, this pin enables disk drive 0. This is an open drain output.
Motor B On. When set to 0, this pin enables disk drive 1. This is an open drain output.
Drive Select A. When set to 0, this pin enables disk drive A. This is an open drain output.
Drive Select B. When set to 0, this pin enables disk drive B. This is an open drain output.
This output signal selects side of the disk in the selected drive.
Direction of the head step motor. An open drain output
Logic 1 = outward motion
Logic 0 = inward motion
STEP#
Step output pulses. This active low open drain output produces a pulse to move the head to
another track.
DRVDEN0# This output indicates whether a low drive density (250/300kbps at low level) or a high drive
density (500/1000kbps at high level) has been selected.
TRAK0#
INDEX#
WP#
Track 0. This Schmitt-triggered input from the disk drive is active low when the head is
positioned over the outermost track.
This Schmitt-triggered input from the disk drive is active low when the head is positioned over
the beginning of a track marked by an index hole.
Write protected. This active low Schmitt input from the disk drive indicates that the diskette is
write-protected.
DSKCHG#
Diskette change. This signal is active low at power on and whenever the diskette is removed.
3.9.8 Power On Connector (CN3)
SIGNAL
GND
PIN
2
1
PWRBTN
3.9.9 Reset Connector (CN4)
SIGNAL
PIN
GND
2
1
RSTIN
30 ECB-862/862L User’s Manual
ECB-862/862L
3.9.10 Parallel Port Connector (CN6)
Signal
STB#
PIN
Signal
1
3
5
7
9
2
4
6
8
AFD#
ERR#
INIT#
SLIN#
GND
GND
GND
GND
GND
GND
GND
GND
NC
PD0
PD1
PD2
PD3
PD4
10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
PD5
PD6
PD7
ACK#
BUSY
PE
SLCT
3.9.11 Signal Description – Parallel Port Connector (CN6)
PD [7:0]
Parallel data bus from PC board to printer. The data lines are able to operate in PS/2
compatible bi-directional mode.
SLIN#
SLCT
Output line for detection of printer selection. This pin is pulled high internally.
An active high input on this pin indicates that the printer is selected. This pin is pulled high
internally.
STB#
BUSY
ACK#
An active low output is used to latch the parallel data into the printer. This pin is pulled high
internally.
An active high input indicates that the printer is not ready to receive data. This pin is pulled
high internally.
An active low input on this pin indicates that the printer has received data and is ready to
accept more data. This pin is pulled high internally.
INIT#
AFD#
Output line for the printer initialization. This pin is pulled high internally.
An active low output from this pin causes the printer to auto feed a line after a line is printed.
This pin is pulled high internally.
ERR#
PE
An active low input on this pin indicates that the printer has encountered an error condition.
This pin is pulled high internally.
An active high input on this pin indicates that the printer has detected the end of the paper.
This pin is pulled high internally.
ECB-862/862L User’s Manual 31
User’s Manual
3.9.12 Serial Port 2 Connector (CN7)
Signal
PIN
Signal
DCD
TxD
GND
RTS
RI
1
3
5
7
9
2
4
6
8
RxD
DTR
DSR
CTS
NC
10
3.9.13 Serial Port 2 with External DB9 Connector (CN7)
Signal
GND
PIN
Signal
5
9
8
7
6
RI
DTR
TxD
RxD
4
3
2
CTS
RTS
DSR
DCD
1
3.9.14 HDD LED (CN8)
SIGNAL
PIN
HDLED
+3.3V
2
1
3.9.15 Power Led & Key Lock Connector (CN11)
Signal
PIN
GND
#LOCK
GND
5
4
3
2
1
NC
PWLED
32 ECB-862/862L User’s Manual
ECB-862/862L
3.9.16 System Fan Connector (CN12)
SIGNAL
PIN
GND
+12V
TAC
1
2
3
3.9.17 Daughter Board Connector A (CN13)
Signal
PIN
Signal
USBP4P B
USBP4N B
USBV4
1
3
5
7
9
2
4
6
8
USBP3P B
USBP3N B
USBV3
GND
GND
USBP2P B
USBP1P B
10
USBP2N B
USBV2
GND
USBP1N B
USBV1
GND
11 12
13 14
15 16
17 18
19 20
VCCSB
SLED2
LLED2
ALED2
3.9.18 Auxiliary Power Connector (CN15)
Signal PIN
PSON#
+5V
1
2
3
VCCSB
Note:
The default sets CN15 to 2-3 closed for AT power supply using.
ECB-862/862L User’s Manual 33
User’s Manual
3.9.19 10/100 BASE-Tx Ethernet Connector (CN16)
Signal
PIN
TxD+
TxD-
RxD+
NC
1
2
3
4
5
6
7
8
NC
RxD-
NC
NC
3.9.20
Signal Description – 10/100Base-Tx Ethernet Connector (CN16)
TXD+ / TXD- Ethernet 10/100Base-Tx differential transmitter outputs.
RXD+ / RXD- Ethernet 10/100Base-Tx differential receiver inputs.
3.9.21 IrDA Connector (CN17)
Signal
PIN
VCC
NC
1
2
3
4
5
IRRX
GND
IRTX
3.9.22 Daughter Board Connector B (CN18)
Signal
PIN
Signal
NC
NC
NC
1
3
5
7
9
2
4
6
8
NC
NC
NC
NC
NC
NC
NC
10
NC
NC
11 12
13 14
15 16
17 18
19 20
TDP2
RDP2
MDAT
GND
TDN2
RDN2
MCLK
+5V
Note:
Optional daughter board is available.
34 ECB-862/862L User’s Manual
ECB-862/862L
3.9.23 USB Connector (CN19)
PIN
Signal
CH1 CH2
Signal
VCC1
D1-
1
3
5
7
9
2
4
VCC2
D2-
D1+
6
D2+
GND
NC
GND
GND
8
10
3.9.24 VGA Connector (CN20)
Signal
PIN
Signal
6
ANA-GND
RED
GREEN
BLUE
1
2
3
4
5
11
NC
7
8
ANA-GND
DDCDAT
ANA-GND
HSYNC
VCC
12
13
14
15
9
NC
VSYNC
DIG-GND
DDCCLK
10
DIG-GND
3.9.25 Signal Description – VGA Connector (CN20)
HSYNC
VSYNC
DDCCLK
DDCDAT
RED
CRT horizontal synchronisation output.
CRT vertical synchronisation output.
Display Data Channel Clock. Used as clock signal to/from monitors with DDC interface.
Display Data Channel Data. Used as data signal to/from monitors with DDC interface.
Analog output carrying the red colour signal to the CRT. For 75 Ω cable impedance.
Analog output carrying the green colour signal to the CRT. For 75 Ω cable impedance.
Analog output carrying the blue colour signal to the CRT. For 75 Ω cable impedance.
Ground reference for HSYNC and VSYNC.
GREEN
BLUE
DIG-GND
ANA-GND
Ground reference for RED, GREEN, and BLUE.
ECB-862/862L User’s Manual 35
User’s Manual
3.9.26 LCD Panel Connector (CN21)
Signal
PIN
Signal
ENBKL
M
39 40
37 38
35 36
33 34
31 32
29 30
27 28
25 26
23 24
21 22
19 20
17 18
15 16
13 14
11 12
ENVEE
LP
SHFCLK
GND
P22
P20
P18
P16
P14
P12
P10
P8
FLM
GND
P23
P21
P19
P17
P15
P13
P11
P9
P6
P7
P4
P5
P2
P3
P0
9
7
5
3
1
10
8
P1
VCON
+3.3V
GND
+5V
GND
+3.3V
GND
+5V
6
4
2
36 ECB-862/862L User’s Manual
ECB-862/862L
3.9.27 LCD Panel Connector Description (CN21)
24-bit
18-bit
TFT
PIN
TFT
P23
P22
P21
P20
P19
P18
B0
B1
G0
G1
R0
R1
P17
P16
B2
B3
B0
B1
P15
P14
G2
G3
G0
G1
P13
P12
R2
R3
R0
R1
P11
P10
P9
B4
B5
B6
B7
B2
B3
B4
B5
P8
P7
P6
P5
P4
G4
G5
G6
G7
G2
G3
G4
G5
P3
P2
P1
P0
R4
R5
R6
R7
R2
R3
R4
R5
3.9.28 CPU Fan Connector (CN22)
SIGNAL
PIN
GND
+12V
TAC
1
2
3
ECB-862/862L User’s Manual 37
User’s Manual
3.9.29 LCD Inverter Connector (CN23)
Signal
PIN
+5V
VBR
1
2
3
4
5
ENBKL
GND
+12V
Note:
For inverters with adjustable Backlight function, it is possible to control the
LCD brightness through the VBR signal (pin 4) controlled by VR2. Please
see the VR2 section for detailed circuitry information.
3.9.30 Internal Keyboard Connector (CN24)
Signal
PIN
KCLK
KDAT
NC
1
2
3
4
5
GND
+5V
3.9.31 Power Connector (PWR1)
SIGNAL
PIN
+5V
+5V
12
11
10
9
+5V
-5V
GND
GND
GND
GND
-12V
+12V
+5V
8
7
6
5
4
3
2
NC
1
38 ECB-862/862L User’s Manual
ECB-862/862L
3.9.32 LCD Contrast Adjustment Connector (VR1)
Signal
PIN
+3.3V
VCON
GND
1
2
3
3.9.33 LCD Backlight Brightness Adjustment Connector (VR2)
Signal
PIN
+5V
VBR
GND
1
2
3
VCC
VR2
3
2
1
CN23
pin 4
Variation Resistor (Recommended: 4.7KΩ , >1/16W)
ECB-862/862L User’s Manual 39
User’s Manual
4. Award BIOS Setup
4.1 Starting Setup
The AwardBIOS™ is immediately activated when you first power on the computer. The
BIOS reads the system information contained in the CMOS and begins the process of
checking out the system and configuring it. When it finishes, the BIOS will seek an
operating system on one of the disks and then launch and turn control over to the
operating system.
While the BIOS is in control, the Setup program can be activated in one of two ways:
By pressing <Del> immediately after switching the system on, or
By pressing the <Del> key when the following message appears briefly at the bottom of
the screen during the POST (Power On Self Test).
Press DEL to enter SETUP
If the message disappears before you respond and you still wish to enter Setup, restart the
system to try again by turning it OFF then ON or pressing the "RESET" button on the
system case. You may also restart by simultaneously pressing <Ctrl>, <Alt>, and <Delete>
keys. If you do not press the keys at the correct time and the system does not boot, an
error message will be displayed and you will again be asked to.
Press F1 To Continue, DEL to enter SETUP
40 ECB-862/862L User’s Manual
ECB-862/862L
4.2 Using Setup
In general, you use the arrow keys to highlight items, press <Enter> to select, use the
PageUp and PageDown keys to change entries, press <F1> for help and press <Esc> to
quit. The following table provides more detail about how to navigate in the Setup program
using the keyboard.
Up arrow
Move to previous item
Down arrow
Left arrow
Right arrow
Move to next item
Move to the item in the left hand
Move to the item in the right hand
Main Menu -- Quit and not save changes into CMOS
Status Page Setup Menu and Option Page Setup Menu -- Exit
current page and return to Main Menu
Increase the numeric value or make changes
Decrease the numeric value or make changes
Increase the numeric value or make changes
Decrease the numeric value or make changes
General help, only for Status Page Setup Menu and Option Page
Setup Menu
Esc key
PgUp key
PgDn key
+ key
- key
F1 key
Change color from total 16 colors. F2 to select color forward,
(Shift) F2 to select color backward
Calendar, only for Status Page Setup Menu
Reserved
(Shift) F2 key
F3 key
F4 key
Restore the previous CMOS value from CMOS, only for Option
Page Setup Menu
F5 key
F6 key
Load the default CMOS value from BIOS default table, only for
Option Page Setup Menu
F7 key
F8 key
F9 key
F10 key
Load the default
Reserved
Reserved
Save all the CMOS changes, only for Main Menu
Table 1 Legend Keys
4.2.1 Navigating through the menu bar
Use the left and right arrow keys to choose the menu you want to be in.
4.2.2 To display a sub menu
Use the arrow keys to move the cursor to the sub menu you want. Then press <Enter>. A
“¾” pointer marks all sub menus.
ECB-862/862L User’s Manual 41
User’s Manual
4.3 Getting Help
Press F1 to pop up a small help window that describes the appropriate keys to use and the
possible selections for the highlighted item. To exit the Help Window press <Esc> or the
F1 key again.
4.4 In Case of Problems
If, after making and saving system changes with Setup, you discover that your computer
no longer is able to boot, the AwardBIOS™ supports an override to the CMOS settings
which resets your system to its defaults.
The best advice is to only alter settings which you thoroughly understand. To this end, we
strongly recommend that you avoid making any changes to the chipset defaults. These
defaults have been carefully chosen by both Award and your systems manufacturer to
provide the absolute maximum performance and reliability. Even a seemingly small
change to the chipset setup has the potential for causing you to use the override.
4.5 Main Menu
Once you enter the AwardBIOS™ CMOS Setup Utility, the Main Menu will appear on the
screen. The Main Menu allows you to select from several setup functions and two exit
choices. Use the arrow keys to select among the items and press <Enter> to accept and
enter the sub-menu.
Figure 1: The Main Menu
Note:
It is strongly recommended to reload Optimized setting if CMOS is lost or BIOS is
updated.
42 ECB-862/862L User’s Manual
ECB-862/862L
4.5.1 Setup Items
The main menu includes the following main setup categories. Recall that some systems
may not include all entries.
4.5.1.1 Standard CMOS Features
Use this menu for basic system configuration.
4.5.1.2 Advanced BIOS Features
Use this menu to set the Advanced Features available on your system.
4.5.1.3 Advanced Chipset Features
Use this menu to change the values in the chipset registers and optimize your system's
performance.
4.5.1.4 Integrated Peripherals
Use this menu to specify your settings for integrated peripherals.
4.5.1.5 Power Management Setup
Use this menu to specify your settings for power management.
4.5.1.6 PNP / PCI Configuration
This entry appears if your system supports PnP / PCI.
4.5.1.7 Frequency / Voltage Control
Use this menu to specify your settings for frequency/voltage control.
4.5.1.8 Load Fail-Safe Defaults
Use this menu to load the BIOS default values for the minimal/stable performance for your
system to operate.
4.5.1.9 Load Optimized Defaults
Use this menu to load the BIOS default values that are factory settings for optimal
performance system operations. While Award has designed the custom BIOS to maximize
performance, the factory has the right to change these defaults to meet their needs.
4.5.1.10 Supervisor / User Password
Use this menu to set User and Supervisor Passwords.
ECB-862/862L User’s Manual 43
User’s Manual
4.5.1.11 Save & Exit Setup
Save CMOS value changes to CMOS and exit setup.
4.5.1.12 Exit Without Save
Abandon all CMOS value changes and exit setup.
4.5.2 Standard CMOS Setup
The items in Standard CMOS Setup Menu are divided into 10 categories. Each category
includes no, one or more than one setup items. Use the arrow keys to highlight the item
and then use the <PgUp> or <PgDn> keys to select the value you want in each item.
Figure 2: The Standard CMOS Features
44 ECB-862/862L User’s Manual
ECB-862/862L
4.5.2.1 Standard CMOS Selection
This table shows the selections that you can make on the Standard CMOS Selection.
Item
Options
Description
Set the system date. Note that the ‘Day’
automatically changes when you set the
date
Date
Month DD YYYY
Time
HH : MM : SS
Options are in its sub menu
(described in Table 3)
Options are in its sub menu
(described in Table 3)
Options are in its sub menu
(described in Table 3)
Options are in its sub menu
(described in Table 3)
None
Set the system time
Press <Enter> to enter the sub menu of
detailed options
IDE Primary Master
Press <Enter> to enter the sub menu of
detailed options
IDE Primary Slave
IDE Secondary Master
IDE Secondary Master
Press <Enter> to enter the sub menu of
detailed options
Press <Enter> to enter the sub menu of
detailed options
360K, 5.25 in
Drive A
Drive B
1.2M, 5.25 in
Select the type of floppy disk drive
installed in your system
720K, 3.5 in
1.44M, 3.5 in
2.88M, 3.5 in
EGA/VGA
CGA 40
Video
Select the default video device
CGA 80
MONO
All Errors
No Errors
Select the situation in which you want the
BIOS to stop the POST process and
notify you
Halt On
All, but Keyboard
All, but Diskette
All, but Disk/Key
Displays the amount of conventional
memory detected during boot up
Displays the amount of extended
memory detected during boot up
Displays the total memory available in
the system
Base Memory
Extended Memory
Total Memory
N/A
N/A
N/A
Table 2 The Standard CMOS Features Selections
ECB-862/862L User’s Manual 45
User’s Manual
4.5.2.2 IDE Adapters
The IDE adapters control the hard disk drive. Use a separate sub menu to configure each
hard disk drive.
Figure 2 shows the IDE primary master sub menu.
Use the legend keys to navigate through this menu and exit to the main menu. Use Table
3 to configure the hard disk.
Item
Options
Description
Press Enter to auto-detect the HDD on
this channel. If detection is successful, it
fills the remaining fields on this menu.
Selecting ‘manual’ lets you set the
remaining fields on this screen. Selects
the type of fixed disk. "User Type" will let
you select the number of cylinders,
heads, etc. Note: PRECOMP=65535
means NONE !
IDE HDD Auto-detection
Press Enter
None
Auto
IDE Primary Master
Manual
Disk drive capacity (Approximated).
Note that this size is usually slightly
greater than the size of a formatted disk
given by a disk checking program.
Auto Display your disk drive
size
Capacity
Normal
LBA
Choose the access mode for this hard
disk
Access Mode
Large
Auto
The following options are selectable only if the ‘IDE Primary Master’ item is set to ‘Manual’
Min = 0
Max = 65535
Min = 0
Set the number of cylinders for this hard
disk.
Cylinder
Head
Set the number of read/write heads
Max = 255
Min = 0
**** Warning: Setting a value of 65535
Precomp
Landing zone
Sector
Max = 65535
Min = 0
means no hard disk
****
Max = 65535
Min = 0
Number of sectors per track
Max = 255
Table3 Hard disk selections
46 ECB-862/862L User’s Manual
ECB-862/862L
4.5.3 Advanced CMOS Setup Defaults
This Setup includes all of the advanced features in the system. The detail descriptions are
specified as below.
Figure 3: The Advanced CMOS Features
4.5.3.1 Virus Warning
Allows you to choose the VIRUS Warning feature for IDE Hard Disk boot sector protection.
If this function is enabled and someone attempt to write data into this area, BIOS will show
a warning message on screen and alarm beep.
Activates automatically when the system boots up causing a warning
Enabled
Disabled
message to appear when anything attempts to access the boot
sector or hard disk partition table.
No warning message will appear when anything attempts to access
the boot sector or hard disk partition table.
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4.5.3.2 CPU Internal Cache/External Cache
These two categories speed up memory access. However, it depends on CPU/chipset
design.
Enabled Enable cache
Disabled Disable cache
4.5.3.3 Quick Power On Self Test
This category speeds up Power On Self Test (POST) after you power up the computer. If
it is set to Enable, BIOS will shorten or skip some check items during POST.
Enabled
Disabled
Enable quick POST
Normal POST
4.5.3.4 First/Second/Third/Other Boot Device
The BIOS attempts to load the operating system from the devices in the sequence
selected in these items.
The Choice: Floppy, LS/ZIP, HDD, SCSI, CDROM, and Disabled.
4.5.3.5 Swap Floppy Drive
If the system has two floppy drives, you can swap the logical drive name assignments.
The choice: Enabled/Disabled.
4.5.3.6 Boot Up Floppy Seek
Seeks disk drives during boot up. Disabling speeds boot up.
The choice: Enabled/Disabled.
4.5.3.7 Boot Up NumLock Status
Select power on state for NumLock.
The choice: Enabled/Disabled.
4.5.3.8 Gate A20 Option
Select if chipset or keyboard controller should control GateA20.
A pin in the keyboard controller controls
Normal
GateA20
Fast
Lets chipset control GateA20
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4.5.3.9 Typematic Rate Setting
Key strokes repeat at a rate determined by the keyboard controller. When enabled, the
typematic rate and typematic delay can be selected.
The choice: Enabled/Disabled.
4.5.3.10 Typematic Rate (Chars/Sec)
Sets the number of times a second to repeat a key stroke when you hold the key down.
The choice: 6, 8, 10, 12, 15, 20, 24, 30.
4.5.3.11 Typematic Delay (Msec)
Sets the delay time after the key is held down before it begins to repeat the keystroke.
The choice: 250, 500, 750, and 1000.
4.5.3.12 Security Option
Select whether the password is required every time the system boots or only when you
enter setup.
The system will not boot and access to Setup will be denied if the
System
correct password is not entered at the prompt.
The system will boot, but access to Setup will be denied if the correct
Setup
password is not entered at the prompt.
Note: To disable security, select PASSWORD SETTING at Main Menu and then you will
be asked to enter password. Do not type anything and just press <Enter>, it will
disable security. Once the security is disabled, the system will boot and you can
enter Setup freely.
4.5.3.13 APIC Mode
The BIOS supports versions 1.4 of the Intel multiprocessor specification. When enabled,
The MPS Version 1.4 Control for OS can be activated.
The choice: Enabled/Disabled.
4.5.3.14 OS Select for DRAM > 64
Select the operating system that is running with greater than 64MB of RAM on the system.
The choice: Non-OS2, OS2.
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4.5.3.15 Report No FDD for Win 95
While the FDD in “ STANDARD CMOS SETUP ” is set to NONE, set this option to No to
release IRQ6 for passing Win95 logo. This option is irrelevant under normal operation.
The choice: Yes, No.
4.5.3.16 Small Logo (EPA) Show
When you select “ Enabled” the screen shows as “Energy Star” picture at the front side up
right. “Disabled” is close this picture.
The choice: Enable, Disable.
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4.5.4 Advanced Chipset Setup Defaults
This Setup is very important to keep system’s stability. If you are not technical person, do
not attempt to change any parameters. The best way is to choose optimal default setting.
Figure 4: The Advanced Chipset Features
This section allows you to configure the system based on the specific features of the
installed chipset. This chipset manages bus speeds and access to system memory
resources, such as DRAM and the external cache. It also coordinates communications
between the conventional ISA bus and the PCI bus. It must be stated that these items
should never need to be altered. The default settings have been chosen because they
provide the best operating conditions for your system. The only time you might consider
making any changes would be if you discovered that data was being lost while using your
system.
The first chipset settings deal with CPU access to dynamic random access memory
(DRAM). The default timings have been carefully chosen and should only be altered if
data is being lost. Such a scenario might well occur if your system had mixed speed
DRAM chips installed so that greater delays may be required to preserve the integrity of
the data held in the slower memory chips.
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4.5.4.1 DRAM Timing Selectable
If your DIMM memory has SPD (Serial Presence Detect) 8-pin IC on module, you can set
this option to “By SPD”. System will set your SDRAM clock and timing from the SPD IC. If
the option set as ”Manual”, DRAM clock and timing must be set from items below:
The choice: SPD, Manual.
4.5.4.2 SDRAM CAS Latency Time
When synchronous DRAM is installed, the number of clock cycles of CAS latency depends
on the DRAM timing. Do not reset this field from the default value specified by the system
designer. This controls the latency between the SDRAM read command and the time that
the data actually becomes available.
The choice: 1.5, 2, 2.5, 3, and Auto.
4.5.4.3 Active to Precharge delay
When you select “Manual” mode, you can set active to Precharge SDRAM timing delay.
The choice: 7, 6, 5, and Auto.
4.5.4.4 SDRAM RAS-to-CAS Delay
These are timing of SDRAM CAS Latency and RAS to CAS Delay, calculated by clocks.
They are important parameters affects SDRAM performance.
The choice: 3, 2.
4.5.4.5 SDRAM RAS Precharge Time
The RAS Recharge means the timing to inactive RAS and the timing for DRAM to do
recharge before next RAS can be issued.
The choice: 3, 2.
4.5.4.6 Memory Frequency For
When you select “Auto” mode, Allows DRAM PC 100 or PC 133 Data Integrity mode.
The choice: PC100, PC133, Auto.
4.5.4.7 DRAM Read Thermal Mgmt.
When you select “Manual” mode, you can set DRAM Read Thermal Mgmt.
The choice: Enable, Disable.
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4.5.4.8 System BIOS Cacheable
Allows the system BIOS to be cached for faster system performance.
The choice: Enable, Disable.
4.5.4.9 Video BIOS Cacheable
Allows the video BIOS to be cached for faster video performance.
The choice: Enable, Disable.
4.5.4.10 Video RAM Cacheable
Allows the video RAM to be cached for faster video performance.
The choice: Enable, Disable.
4.5.4.11 Memory Hole At 15M-16M
Enabling this feature reserves 15MB to 16MB memory address space to ISA expansion
cards that specifically require this setting. This makes the memory from 15MB and up
unavailable to the system. Expansion cards can only access memory up to 16MB.
The choice: Enable, Disable.
4.5.4.12 Delayed Transaction
This function is used to meet the latency of PCI cycles to from ISA bus. Try to enable or
disable it, if you have ISA card compatibility problem.
The choice: Enable, Disable.
4.5.4.13 Delay Prior to Thermal
When you system temperature higher, you can set the DRAM access time slowdown
between on 4 min – 32 min delay.
The choice: 4 Min, 8 Min, 16 Min, and 32 Min.
4.5.4.14 AGP Aperture Size (MB)
Choose 32, 64MB. Memory-mapped, graphics data structures can reside in the Graphics
Aperture.
The choice: 4 , 8, 16, 32, 64, 128 and 256.
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4.5.5 Integrated Peripherals Setup Defaults
This section describes I/O resources assignment for all of on-board peripheral devices.
Figure 5: The Integrated Peripherals Features
4.5.5.1 On-Chip Primary/Secondary PCI IDE
Select “Enabled” to activate each on-board IDE channel separately, Select “Disabled”, if
you install an add-on IDE Control card.
The choice: Enable, Disable.
4.5.5.2 IDE Primary & Secondary Master/Slave PIO
These four PIO fields let you set a PIO mode (0-4) for each of four IDE devices. When
under "Auto" mode, the system automatically set the best mode for each device.
The choice: Auto, Mode 0, Mode 1, Mode 2, Mode 3, and Mode 4.
4.5.5.3 IDE Primary & Secondary Master/Slave UDMA
When set to “Auto” mode, the system will detect if the hard drive supports Ultra DMA mode.
The choice: Auto, Mode 0, Mode 1, Mode 2, Mode 3, and Mode 4.
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4.5.5.4 USB Controller
Select Enabled if your system contains a Universal Serial Bus (USB) controller.
The choice: Enable, Disable.
4.5.5.5 USB Keyboard Support
This item lets you enable or disable the USB keyboard driver within the onboard BIOS.
The choice: Enable, Disable.
4.5.5.6 Init Display First
Select “AGP” or “PCI Slot” for system to detect first when boot-up.
The choice: PCI Slot, AGP.
4.5.5.7 IDE HDD Block Mode
This feature enhances disk performance by allowing multi-sector data transfers and
eliminates the interrupt handling time for each sector.
The choice: Enable, Disable.
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4.5.5.8 POWER ON Function
This field allows you to use the keyboard to power-on the system. Use Table 3 to configure
this function.
Item
Options
Description
When this option is selected, move the cursor to the "KB
Power On Password" field and press <Enter>. Enter your
password. You can enter up to 5 characters. Type in
exactly the same password to confirm, then press
<Enter>.
Password
Press Enter
When this option is selected, move the cursor to the " Hot
Key Power On " field to select a function key you would
like to use to power-on the system. The options are from
Ctrl-F1 to Ctrl-F12.
Hot Key
Ctrl-F1 to Ctrl-F12
Any Key
Press Enter
Press Enter
Press any key to power-on the system,
When this option is selected, double-click the left button of
the mouse to power-on the system.
Mouse Left
When this option is selected, double-click the right button
of the mouse to power-on the system.
Mouse Right
Button Only
Press Enter
Press Enter
System can be power on with Power Button.
When this option is selected, press the "wake up" key of
the Windows 98 compatible keyboard to power-on the
system.
Keyboard 98
Press Enter
Table4 Power On function selections
4.5.5.9 Onboard FDC Controller
Select “Enabled” to activate the on-board FDC and “Disabled” to activate an add-on FDC.
The choice: Disable, Enable.
4.5.5.10 Onboard Serial Port 1 & 2
Select an address and corresponding interrupt for the first/second serial port. The default
value for the first serial port is “3F8/IRQ4” and the second serial port is “2F8/IRQ3”.
The choice: Disable, 3F8/IRQ4, 2F8/IRQ3, 3E8/IRQ4, 3F8/IRQ3, and Auto.
4.5.5.11 UART Mode Select
Select to activate the Infrared transfer function.
The choice: IrDA, ASKIR, Normal.
4.5.5.12 RxD , TxD Active
This choice: Hi, Lo; Lo, Hi; Lo, Lo; Hi, Hi.
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4.5.5.13 IR Transmission Delay
If this option is enabled, transmission of data will be slower. This is recommended when
you encounter transmission problem with your device.
The choice: Disable, Enable.
4.5.5.14 UR2 Duplex Mode
Select to activate the Infrared transfer function. This default setting is “Half“.
The choice: Full, Half.
4.5.5.15 Use IR Pin
When you select to IrDA or ASKIR mode, you can define use (TX,RX ) pin.
The choice: RxD2, TxD2; IR-Rx2Tx2.
4.5.5.16 Onboard Parallel Port
Select address and interrupt for the Parallel port.
The choice: Disable, 378/IRQ7, 278/IRQ5, and 3CB/IRQ7.
4.5.5.17 Parallel Port Mode
Select an operating mode for the parallel port.
The choice: SPP, EPP, ECP, ECP+EPP, and Normal.
4.5.5.18 EPP Mode Select
Set parallel port as EPP1.7 or EPP1.9.
The choice: EPP1.7, EPP1.9.
4.5.5.19 ECP Mode Use DMA
Select a DMA channel if parallel port is set as ECP or ECP+EPP.
The choice: 1, 3.
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4.5.5.20 PWRON After PWR-Fail
Select the option for the system action after an AC power failure.
When power returns after an AC power failure, the system's power is
Off
off. You must press the Power button to power-on the system.
When power returns after an AC power failure, the system will
On
automatically power-on.
When power returns after an AC power failure, the system will return to
the state where you left off before power failure occurs. If the system's
power is off when AC power failure occurs, it will remain off when
power returns. If the system's power is on when AC power failure
occurs, the system will power-on when power returns.
Former-Sts
4.5.6 Power Management Setup Defaults
This APM (Advanced Power Management) determines how much power energy setting
below items to handle system power resource can save. The following descriptions will
specify the definition of each item in details.
Figure 6: The Power Management Setup
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4.5.6.1 ACPI Function
This item allows you to enable or disable the function of Advanced Configuration and
Power Interface (ACPI) that offers improved power management.
The choice: Disable, Enable.
4.5.6.2 ACPI Suspend Type
This field is used to select the type of Suspend function.
S1 (POS) Enables the Power On Suspend function.
S3 (STR) Enables the Suspend to RAM function. Refer to Appendix A.
Enables the Power On Suspend function and Enables the Suspend to
S1&S3
RAM function. Refer to Appendix A.
4.5.6.3 VGABIOS if S3 Resume
When select S3 or S1&S3 can conveniently Enables VGA BIOS, Suspend to RAM function
and Power On Suspend function.
The choice: Auto, Yes, No.
4.5.6.4 Power Management
Mini Saving System starts power saving function when the inactivity period
exceeds 1 hour.
Max Saving System starts power saving function when the inactivity period
exceeds 1 min.
User Defined Allows user to define the inactivity period before power saving
function activates,
4.5.6.5 Video Off Method
This field defines the video off features. The following options are available: DPMS OFF,
DPMS Reduce ON, Blank Screen, V/H SYNC+Blank, DPMS Standby, and DPMS
Suspend. The DPMS (Display Power Management System) features allow the BIOS to
control the video display card if it supports the DPMS feature.
The choice: Blank Screen, V/H SYNC+Blank, DPMS.
4.5.6.6 Video Off In Suspend
This option is used to activate the video off feature when the system enter the suspend
mode.
The choice: Yes, No.
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4.5.6.7 Suspend Type
System further shuts down all devices and all right select stop Grant or Power on suspend
function.
The choice: stop Grant , PowOn Suspend.
4.5.6.8 MODEM Use IRQ
This item tells the Power Management BIOS which IRQ is assigned to the installed
MODEM.
The choice: NA, 3, 4, 5, 7, 9, 10 and 11.
4.5.6.9 Suspend Mode
System further shuts down all devices except for CPU itself. This is the third level of Power
Management.
4.5.6.10 HDD Power Down
This instructs hard drives to shut off while in the Power Management modes.
4.5.6.11 Soft-Off by PWR-BTTN
When set to “Delay 4 Sec.”, the power button has a dual function where pressing less than
4 seconds will place the system in sleep mode and shut down the system when the button
is held more than 4 seconds. “Instant-Off”, the system will be shut down right away when
the power button is pressed.
The choice: Instant-Off, Delay 4 Sec.
4.5.6.12 CPU Thermal-Throttling
Set the percent of power consumption when CPU over heat.
The choice: 87.5 , 75.0 , 62.5 , 50.0 , 37.5 , 25.0 , 12.5 .
4.5.6.13 Wake-Up by PCI card
If your PCI card supports PME (Power Management Event) signal and this item is set as
Enabled, PCI peripherals drive PME signal to wake the system from low-power states S1-
S5.
The choice: Disable, Enable.
4.5.6.14 Power On by Ring
The option lets you specify enable or disable external Modem Wake Up function. It powers
up the computer when the modem receives a call while the computer is in Soft-off mode.
The choice: Disable, Enable.
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Note:
The computer cannot receive or transmit data until the computer and application are
fully running. After the item is set as enabled, the system must enter to OS once
before system is turned off.
4.5.6.15 Wake up on LAN
This allows you to remotely power up your systems through your network by sending a
wake-up frame or signal. With this feature, you can remotely upload/download data to/from
systems during off-peak hours. Set to Enabled to set this feature. Please refer to session
2.4.6 for more information.
The choice: Disable, Enable.
4.5.6.16 USB KB Wake-up From S3
If your USB KB supports PME (Power Management Event) signal and this item is set as
Enabled, USB KB peripherals drive PME signal to wake the system from low-power states
S3.
The choice: Disable, Enable.
4.5.6.17 Resume by Alarm
Set this option to enable or disable the RTC Alarm to Wake Up the system, which is set at
soft off.
The choice: Disable, Enable.
4.5.6.18 Date (of Month) Alarm, Time (hh:mm:ss) Alarm
Alarm time on Date / Hour / Minute / Second.Set these options to specify the RTC
4.5.6.19 Primary/Secondary IDE 0/1, FDD, COM, LPT Port & PCI PIRQ [A-D] #
These items enable or disable the detection of IDE, floppy, serial, parallel port and PCI
PIRQ [A-D] activities for power down state transition. Actually it detects the read/write
to/from I/O port.
The choice: Disable, Enable.
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4.5.7 PnP/ PCI Setup Defaults
This section describes configuring the PCI bus system. PCI (Peripheral Component
Interconnect) is a system that allows I/O devices to operate at speeds nearing CPU’s
when they communicate with own special components.
All of options described in this section are important and technical and it is strongly
recommended that only experienced users could make any changes to the default settings.
4.5.7.1 PNP OS installed
This field allows you to use a Plug-and-Play (PnP) operating system.
Please set it as "No " if the operating system has no PnP function or to avoid reassigning
the IRQs by the operating system.
The choice: Yes, No.
4.5.7.2 Reset Configuration Data
In case a conflict occurs after you assign the IRQs or after you configure your system, you
can enable this function to allow your system to automatically reset your configuration and
reassign the IRQs, DMAs, and I/O address.
The choice: Disable, Enable.
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4.5.7.3 Resources Controlled By
Default setting is “Auto (ESCD)”. This setting allows the BIOS to self detect setting and
Plug-and-Play devices during start up. The user can select and configure IRQs under
"Manual" mode.
The choice: Auto (ESCD), Manual.
4.5.7.4 IRQ Resources
These options specify the bus that the named interrupt request lines (IRQs) are used on.
These options allow you to specify IRQs for use by legacy ISA adapter cards. These
options determine if AMIBIOS should remove an IRQ from the pool of available IRQs
passed to BIOS configurable devices. 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
PCI/PnP Setup options to remove the IRQ by assigning the option to the ISA/EISA setting.
Onboard I/O is configurable by AMIBIOS. The IRQs used by onboard I/O are configured
as PCI/PnP. The settings are PCI/PnP or ISA/EISA. The default settings are PCI/PnP.
4.5.7.5 DMA Resources
Select the devices according to your DMA requirements
4.5.7.6 PCI/VGA Palette Snoop
Enable this option to correct screen color shifts, when there is a combination of VGA cards,
accelerator cards, or MPEG cards present.
The choice: Disable, Enable.
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4.5.8 PC Health Status Setup Defaults
This setup describes current CPU surface temperature status detected from hardware
monitor sensor. The status showed on screen will include:
4.5.8.1 CPU Warning Temperature
Select to enable or disable the hardware monitor sensor and set the warning temperature.
BIOS Setup Items Optimal Default Failsafe Default
Other Options
Disabled,
50/122
53/127
56/133
Warning Temperature
75°C /167°F
75°C /167°F
60°C /140°F,
63°C /145°F,
66°C /151℉ ,
70°C /158°F,
4.5.8.2 Current System & CPU Temperature (xx°C/xx°F)
The onboard hardware monitor is able to detect the temperatures of motherboard and
CPU. These values refresh upon any key entry. The function is optional.
4.5.9 Current CPUFAN , CHASFAN & PWRFAN Speed
The onboard hardware monitor is able to detect chassis fan speed, CPU fan and PWR fan
speed in Rotations Per Minute (RPM). These values refresh upon any key entry in the
BIOS setup screen. The function is optional.
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4.5.9.1 Vcore, Vcc3, +5V, +12V, -12V,-5V, VBAT & 5VSB
The onboard hardware monitor is able to detect the voltage output by the voltage
regulators. These values refresh upon any key entry. The function is optional.
4.5.9.2 Shutdown Temperature
When you select “ enable “, the CPU working temperature at over setting. Should be
shutdown PC. “ Disabled “ is close this functions.
BIOS Setup Items Optimal Default Failsafe Default
Other Options
Disabled,
60°C /140°F,
65°C /145°F,
70°C /158°F,
75°C /165℉ ,
Warning Temperature
75°C /167°F
75°C /167°F
4.5.9.3 Frequency Control Setup Defaults
4.5.9.4 CPU Clock Ratio
The Ratio of some latest Intel Corporation fixes CPUs and VIA so the Ratio cannot be
changed with the setting. If it did not fix by CPU manufacturer, it may be changed with the
setting. Over specification operations are not recommended.
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4.5.9.5 Auto Detect PCI CLK
If you have the EMI issue, set the option as Enabled, it keeps its interference under control.
The choice: Disable, Enable.
4.5.9.6 Spread Spectrum
Using the setting “ Enabled “, for EMI testing will increase the system stability. The default
setting is “ Disabled “.
The choice: Disable, Enable.
4.5.9.7 CPU Host/3v66/PCI Clock
Choose Default, 100, 103, 105, 107,109,111, 114, 117,120, 127, 130 MHz for the external
frequency of your CPU. You can select Default, 66, 69,70,71,73,74,76,78,80,85,87MHz. if
your CPU is 100Mhz FSB and select Default, 100, 103, 105, 107,109,111,114,117, 120,
127 or 130 MHz if the CPU is 100Mhz FSB.
Warning: Over specification operations are not recommended.
The frequency-mapping table of the elements:
CPU Host/3V66
100 / 66 MHz
103 / 69 MHz
105 / 70 MHz
107 / 71 MHz
109 / 73 MHz
111 / 74 MHz
114 / 76 MHz
117 / 78 MHz
120 / 80 MHz
127 / 85 MHz
130 / 87 MHz
PCI
33 MHz
34 MHz
35 MHz
36 MHz
36 MHz
37 MHz
38 MHz
39 MHz
40 MHz
42 MHz
43 MHz
4.5.10 Load Fail-Safe Defaults
This loads the troubleshooting default values permanently stored in the ROM chips. These
settings are not optimal and turn off all high performance features. You should use these
values only if you have hardware problems. Highlight this option in the main menu and
press <Enter>. The message below will appear.
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Load Fail-Safe Defaults (Y/N)? N
If you want to process, type <Y> and press <Enter>. The default settings will be loaded.
4.5.11 Load Optimized Defaults
This feature loads optimized setting from the BIOS ROM. Use the default values as
standard values for your system. Highlight this option in the main menu and press <Enter>.
The message below will appear.
Load Optimized Defaults (Y/N)? N
Type <Y> and press <Enter> to load the Setup default values.
4.5.12 Set Supervisor/User Password
You can assign, modify, or cancel password settings. To modify, highlight “Set Supervisor
Password” or “Set User Password” and press the <Enter> key. The screen will prompt you
(“Enter Password:”). Enter your password. The maximum size of the password is 8
characters. System will prompt you to reenter the password to verify. Remember the
passwords are case sensitive.
If you want to remove the passwords, either delete passwords or press <Enter> when
prompting for new password.
If you want it to require password upon initial system startup and upon entering the CMOS
Setup Utility, you will need to change the selection of the (Security Option) under
(Advanced BIOS Features) to “System”.
If the setting is “Setup”, the system will only require the password you activate CMOS
Setup Utility.
4.5.13 Save & Exit Setup
When all the changes have been made, highlight "Save & Exit Setup" and press <Enter>.
The message below will appear:
Save to CMOS and Exit (Y/N)? N
Type "Y" and press <Enter>. The modifications you have made will be written into the
CMOS memory, and the system will reboot.
4.5.14 Exit Without Saving
When you do not want to save the changes you have made, highlight "Exit Without
Saving" and press <Enter>, the message below will appear:
Quit Without Saving (Y/N)? N
Type "Y" and press <Enter>. The system will reboot.
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4.6 Flash BIOS Utility
Utilize Award Flash BIOS programming utility to update on-board BIOS for the future new
BIOS version. Please contact your technical window to get this utility if necessary.
Note:
Remark or delete any installed Memory Management Utility (such as HIMEM.SYS,
EMM386.EXE, QEMM.EXE, …, etc.) in the CONFIG.SYS files before running
Flash-programming utility.
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5. Driver Installation
5.1 Driver Installation for Ethernet Adapter
5.1.1 Windows 9x
The best way to install the driver for the Ethernet controller is to use the plug and play
system of Windows 9x. The following procedures illustrate how the installation can be
done.
1. If a driver for the Ethernet controller is already installed, it must be removed first. This
can be done by following the steps shown below.
• Click the ‘Start’ button, click on ‘Settings’ and on ‘Control panel’ to open the
control panel. Your display should now look as below (possibly with different size
and icons):
• Double click the ‘System’ icon (highlighted above).
• Select the ‘Device Manager’ tab.
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• If the ‘Network adapters’ line is present, expand the line and remove the PCI
Ethernet Adapter. This is done by selecting the line and clicking the ‘Remove’
button. Before removal of the adapter(s), your screen might look like this:
• When all adapters are removed (or none were present), a new driver can be
installed now.
2. Reboot the computer.
3. During the boot up the network adapter should be detected as shown below. Click the
‘Next’ button.
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4. Click the ‘Next’ button to continue the driver installation.
5. Specify the location of network adapter and click ‘Next’ (see below).
6. Click the ‘Next’ button to install the network adapter driver.
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7. Click the ‘Finish’ button.
8. To complete the installation, reboot the computer by clicking the ‘Yes’ button in the
window shown below.
9. Please follow the Procedure 1-8 to install another Ethernet Adapter.
10. After the system restarts, the network adapter should be installed. Protocols, clients
etc. may now be installed for the network in use. Further configuration of the adapter
may be made in the ‘Advanced’ section of the driver properties. These options may be
accessed through the ‘Network’ icon in the control panel (Select the network adapter,
click the ‘Properties’ button and select the ‘Advanced’ tab).
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5.2 Driver Installation for Display Adapter
5.2.1 Windows 9x
The following steps will install the display driver for the ‘VIA PLE133T ’ display controller.
1. Find the directory of the driver disk with VIA PLE133T VGA driver. Double click the icon
‘setup’ on the folder. This should start the driver setup process as shown below:
2. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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3. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
4. To complete the display driver installation, reboot the computer by clicking the ‘Finish’
button in the window shown below.
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5.2.2 Windows 2000
The following steps will install the display driver for the ‘VIA PLE133T ’ display controller.
1. Find the directory of the driver disk with VIA PLE133T VGA driver. Double click the icon
‘setup’ on the folder. This should start the driver setup process as shown below:
2. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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3. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
4. Click the ‘Yes’ to continue the driver install. If you want to stop the installation, click the
‘No’
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5. To complete the display driver installation, reboot the computer by clicking the ‘Finish’
button in the window shown below.
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5.3 Driver Installation for USB2.0 Adapter
5.3.1 Windows 9x
The following steps will install the display driver for the VIA VT6202 USB2.0 controller.
1. Find the directory of the driver disk with VIA VT6202 USB2.0 driver. Double click the
icon ‘setup’ on the folder. This should start the driver setup process as shown below:
2. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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3. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
4. To complete the USB Adapter driver installation, reboot the computer by clicking the
‘Finish’ button in the window shown below.
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5.3.2 Windows 2000
The following steps will install the display driver for the VIA VT6202 USB2.0 controller.
1. Find the directory of the driver disk with VIA VT6202 USB2.0 driver. Double click the
icon ‘setup’ on the folder. This should start the driver setup process as shown below:
2. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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3. Click the ‘Yes’ to continue the driver install. If you want to stop the installation, click the
‘No’
4. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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5. Click the ‘Yes’ to continue the driver install. If you want to stop the installation, click the
‘No’
6. To complete the USB Adapter driver installation, reboot the computer by clicking the
‘Print to File’ button in the window shown below.
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5.4 Driver Installation for Audio Adapter
5.4.1 Windows 9X
The following steps will install the display driver for the VIA VT82C686B Audio controller.
1. Find the directory of the driver disk with VIA VT82C686B Audio driver. Double click the
icon ‘setup’ on the folder. This should start the driver setup process as shown below:
2. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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3. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
4. To complete the display driver installation, reboot the computer by clicking the ‘Finish’
button in the window shown below.
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5.4.2 Windows 2000
The following steps will install the display driver for the VIA VT82C686B Audio controller.
1. Find the directory of the driver disk with VIA VT82C686B Audio driver. Double click the
icon ‘setup’ on the folder. This should start the driver setup process as shown below:
2. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
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3. Click the ‘Next’ to continue the driver install. If you want to stop the installation, click the
‘Cancel’
4. To complete the display driver installation, reboot the computer by clicking the ‘Finish’
button in the window shown below.
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6. Measurement Drawing
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Appendix A: BIOS Revisions
BIOS Rev.
New Features
Bugs/Problems Solved
Known Problems
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Appendix B: System Resources
Memory Map
The following table indicates memory map of ECB-862. The address ranges specify the
runtime code length.
Address Range
Description
System board extension for ACPI BIOS
VIA Tech VT8361/VT8601 Graphics Controller
VIA Tech VT8361/VT8601 Graphics Controller
VIA Tech VT8361/VT8601 Graphics Controller
System board extension for ACPI BIOS
Note
00000000h-0009FFFFh
000A0000h-000AFFFFh
000B0000h-000BFFFFh
000C0000h-000C7FFFh
000C8000h-000CBFFFh
000F0000h-000F7FFFh
000F8000h-000FBFFFh
000FC000h-000FFFFFh
00100000h-1F7EFFFFh
1F7F0000h-1F7FFFFFh
E4000000h-E6FFFFFFh
System board extension for ACPI BIOS
System board extension for ACPI BIOS
System board extension for ACPI BIOS
System board extension for ACPI BIOS
System board extension for ACPI BIOS
PCI standard host CPU bridge
PCI standard PCI-to-PCI bridge
E4000000h-E6FFFFFFh
E4000000h-E400FFFFh
E5000000h-E57FFFFFh
VIA Tech VT8361/VT8601 Graphics Controller
VIA Tech VT8361/VT8601 Graphics Controller
E5800000h-E5FFFFFFh
E6000000h-E601FFFFh
E7000000h-E70000FFh
E7001000h-E70010FFh
E7002000h-E70020FFh
FEE00000h-FEE00FFFh
FFFF0000h-FFFFFFFFh
VIA Tech VT8361/VT8601 Graphics Controller
VIA Tech VT8361/VT8601 Graphics Controller
Realtek RTL8139/810X Family PCI Fast Ethernet NIC
Realtek RTL8139/810X Family PCI Fast Ethernet NIC
VIA PCI to USB Enhanced Host Controller
System board extension for ACPI BIOS
System board extension for ACPI BIOS
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I/O – Map
Certain I/O addresses are subject to change during boot as PnP managers may relocate
devices or functions. The addresses shown in the table are typical locations.
I/O Port
Description
Direct memory access controller
Note
0000h-000Fh
0010h-001Fh
0020h-0021h
0022h-003Fh
0040h-0043h
0044h-005Fh
0060h-0060h
0061h-0061h
0062h-0063h
Motherboard resources
Programmable interrupt controller
Motherboard resources
System timer
Motherboard resources
Standard 101/102-Key or Microsoft Natural Keyboard
System speaker
Motherboard resources
Standard 101/102-Key or Microsoft Natural Keyboard
0064h-0064h
0065h-006Fh
0070h-0073h
Motherboard resources
System CMOS/real time clock
Motherboard resources
0074h-007Fh
0080h-0090h
Direct memory access controller
0091h-0093h
0094h-009Fh
00A0h-00A1h
00A2h-00BFh
00C0h-00DFh
00E0h-00EFh
00F0h-00FFh
0170h-0177h
0170h-0177h
01F0h-01F7h
01F0h-01F7h
02F8h-02FFh
Motherboard resources
Direct memory access controller
Programmable interrupt controller
Motherboard resources
Direct memory access controller
Motherboard resources
Numeric data processor
Secondary IDE controller (dual fifo)
VIA Bus Master PCI IDE Controller
Primary IDE controller (dual fifo)
VIA Bus Master PCI IDE Controller
Communications Port (COM2)
0376h-0376h
0376h-0376h
0378h-037Fh
03B0h-03BBh
03C0h-03DFh
03F0h-03F5h
03F6h-03F6h
VIA Bus Master PCI IDE Controller
Secondary IDE controller (dual fifo)
Printer Port (LPT1)
VIA Tech VT8361/VT8601 Graphics Controller
VIA Tech VT8361/VT8601 Graphics Controller
Standard Floppy Disk Controller
Primary IDE controller (dual fifo)
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I/O Port
Description
VIA Bus Master PCI IDE Controller
Note
03F6h-03F6h
03F7h-03F7h
03F8h-03FFh
04D0h-04D1h
0CF8h-0CFFh
1000h-101Fh
4000h-407Fh
4080h-40FFh
5000h-500Fh
6000h-607Fh
C000h-C00Fh
C000h-C007h
C008h-C00Fh
C400h-C41Fh
CC00h-CCFFh
D000h-D003h
D400h-D403h
D800h-D8FFh
DC00h-DCFFh
E000h-E01Fh
E400h-E41Fh
Standard Floppy Disk Controller
Communications Port (COM1)
Motherboard resources
PCI bus
VIA Tech 3038 PCI to USB Universal Host Controller
PCI bus
PCI bus
PCI bus
PCI bus
VIA Bus Master PCI IDE Controller
Primary IDE controller (dual fifo)
Secondary IDE controller (dual fifo)
VIA Tech 3038 PCI to USB Universal Host Controller
VIA AC'97 Audio Controller (WDM)
VIA AC'97 Audio Controller (WDM)
VIA AC'97 Audio Controller (WDM)
Realtek RTL8139/810X Family PCI Fast Ethernet NIC
Realtek RTL8139/810X Family PCI Fast Ethernet NIC
VIA Tech 3038 PCI to USB Universal Host Controller
VIA Tech 3038 PCI to USB Universal Host Controller
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Interrupt Usage.
The actual interrupt settings depend on the PnP handler, the table below indicates the
typical settings.
Interrupt
Description
Note
00
01
02
03
04
05
05
System timer
Standard 101/102-Key or Microsoft Natural PS/2 Keyboard
Programmable interrupt controller
Communications Port (COM2)
Communications Port (COM1)
ACPI IRQ Holder for PCI IRQ Steering
VIA Tech 3038 PCI to USB Universal Host Controller
VIA Tech VT8361/VT8601 Graphics Controller
Standard Floppy Disk Controller
05
06
07
08
09
09
10
10
10
Printer Port (LPT1)
System CMOS/real time clock
ACPI IRQ Holder for PCI IRQ Steering
VIA Tech 3038 PCI to USB Universal Host Controller
VIA Tech 3038 PCI to USB Universal Host Controller
ACPI IRQ Holder for PCI IRQ Steering
Realtek RTL8139/810X Family PCI Fast Ethernet NIC
VIA Tech 3038 PCI to USB Universal Host Controller
VIA PCI to USB Enhanced Host Controller
ACPI IRQ Holder for PCI IRQ Steering
Realtek RTL8139/810X Family PCI Fast Ethernet NIC
VIA AC'97 Audio Controller (WDM)
10
11
11
11
11
11
12
13
14
14
15
15
SCI IRQ used by ACPI bus
PS/2 Compatible Mouse Port
Numeric data processor
Primary IDE controller (dual fifo)
VIA Bus Master PCI IDE Controller
Secondary IDE controller (dual fifo)
VIA Bus Master PCI IDE Controller
DMA-channel Usage
DMA-channel
Description
Standard Floppy Disk Controller
Direct memory access controller
Note
DMA2
DMA4
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Appendix C: AWARD BIOS POST Messages
During the Power On Self-Test (POST), if the BIOS detects an error requiring you to do
something to fix, it will either sound a beep code or display a message.
If a message is displayed, it will be accompanied by:
PRESS F1 TO CONTINUE, CTRL-ALT-ESC OR DEL TO ENTER SETUP
POST Beep
Currently there are two kinds of beep codes in BIOS. This code indicates that a video error
has occurred and the BIOS cannot initialize the video screen to display any additional
information. This beep code consists of a single long beep followed by two short beeps.
The other code indicates that your DRAM error has occurred. This beep code consists of a
single long beep repeatedly.
Error Messages
One or more of the following messages may be displayed if the BIOS detects an error
during the POST. This list includes messages for both the ISA and the EISA BIOS
CMOS Battery Has Failed
CMOS battery is no longer functional. It should be replaced.
CMOS Checksum Error
Checksum of CMOS is incorrect. This can indicate that CMOS has become corrupt. This
error may have been caused by a weak battery. Check the battery and replace if
necessary.
Disk Boot Failure, Insert System Disk And Press Enter
No boot device was found. This could mean that either a boot drive was not detected or
the drive does not contain proper system boot files. Insert a system disk into Drive A: and
press <Enter>. If you assumed the system would boot from the hard drive, make sure the
controller is inserted correctly and all cables are properly attached. Also be sure the disk is
formatted as a boot device. Then reboot the system.
Diskette Drives Or Types Mismatch Error – Run Setup
Type of diskette drive installed in the system is different from the CMOS definition. Run
Setup to reconfigure the drive type correctly.
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Display Switch Is Set Incorrectly
Display switch on the motherboard can be set to either monochrome or color. This
indicates the switch is set to a different setting than indicated in Setup. Determine which
setting is correct, and then either turn off the system and change the jumper, or enter
Setup and change the VIDEO selection.
Display Type Has Changed Since Last Boot
Since last powering off the system, the display adapter has been changed. You must
configure the system for the new display type.
EISA Configuration Checksum Error
Please Run EISA Configuration Utility
The EISA non-volatile RAM checksum is incorrect or cannot correctly read the EISA slot.
This can indicate either the EISA non-volatile memory has become corrupt or the slot has
been configured incorrectly. Also be sure the card is installed firmly in the slot.
EISA Configuration Is Not Complete
Please Run EISA Configuration Utility
The slot configuration information stored in the EISA non-volatile memory is incomplete.
Note: When either of these errors appear, the system will boot in ISA mode, which allows you to run the
EISA Configuration Utility.
Error Encountered initializing Hard Drive
Hard drive cannot be initialized. Be sure the adapter is installed correctly and all cables are
correctly and firmly attached. Also be sure the correct hard drive type is selected in Setup.
Error Initializing Hard Disk Controller
Cannot initialize controller. Make sure the cord is correctly and firmly installed in the bus.
Be sure the correct hard drive type is selected in Setup. Also check to see if any jumper
needs to be set correctly on the hard drive.
Floppy Disk Cntrlr Error Or No Cntrlr Present
Cannot find or initialize the floppy drive controller. Make sure the controller is installed
correctly and firmly. If there are no floppy drives installed, be sure the Diskette Drive
selection in Setup is set to NONE.
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Invalid EISA Configuration
Please Run EISA Configuration Utility
The non-volatile memory containing EISA configuration information was programmed
incorrectly or has become corrupt. Re-run EISA configuration utility to correctly program
the memory.
NOTE: When this error appears, the system will boot in ISA mode, which allows you to run the EISA
Configuration Utility.
Keyboard Error Or No Keyboard Present
Cannot initialize the keyboard. Make sure the keyboard is attached correctly and no keys
are being pressed during the boot.
If you are purposely configuring the system without a keyboard, set the error halt condition
in Setup to HALT ON ALL, BUT KEYBOARD. This will cause the BIOS to ignore the
missing keyboard and continue the boot.
Memory Address Error At...
Indicates a memory address error at a specific location. You can use this location along
with the memory map for your system to find and replace the bad memory chips.
Memory Parity Error At...
Indicates a memory parity error at a specific location. You can use this location along with
the memory map for your system to find and replace the bad memory chips.
Memory Size Has Changed Since Last Boot
Memory has been added or removed since the last boot. In EISA mode use Configuration
Utility to reconfigure the memory configuration. In ISA mode enter Setup and enter the
new memory size in the memory fields.
Memory Verify Error At...
Indicates an error verifying a value already written to memory. Use the location along with
your system's memory map to locate the bad chip.
Offending Address Not Found
This message is used in conjunction with the I/O CHANNEL CHECK and RAM PARITY
ERROR messages when the segment that has caused the problem cannot be isolated.
Offending Segment
This message is used in conjunction with the I/O CHANNEL CHECK and RAM PARITY
ERROR messages when the segment that has caused the problem has been isolated.
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Press A Key To Reboot
This will be displayed at the bottom screen when an error occurs that requires you to
reboot. Press any key and the system will reboot.
Press F1 To Disable NMI, F2 To Reboot
When BIOS detects a Non-maskable Interrupt condition during boot, this will allow you to
disable the NMI and continue to boot, or you can reboot the system with the NMI enabled.
RAM Parity Error – Checking For Segment...
Indicates a parity error in Random Access Memory.
Should Be Empty But EISA Board Found
Please Run EISA Configuration Utility
A valid board ID was found in a slot that was configured as having no board ID.
NOTE; When this error appears, the system will boot in ISA mode, which allows you to run the EISA
Configuration Utility.
Should Have EISA Board But Not Found
Please Run EISA Configuration Utility
The board installed is not responding to the ID request, or no board ID has been found in
the indicated slot.
NOTE: When this error appears, the system will boot in ISA mode, which allows you to run the EISA
Configuration Utility.
Slot Not Empty
Indicates that a slot designated as empty by the EISA Configuration Utility actually
contains a board.
NOTE: When this error appears, the system will boot in ISA mode, which allows you to run the EISA
Configuration Utility.
System Halted, (CTRL-ALT-DEL) To Reboot...
Indicates the present boot attempt has been aborted and the system must be rebooted.
Press and hold down the CTRL and ALT keys and press DEL.
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Wrong Board In Slot
Please Run EISA Configuration Utility
The board ID does not match the ID stored in the EISA non-volatile memory.
NOTE: When this error appears, the system will boot in ISA mode, which allows you to run the EISA
Configuration Utility.
Floppy Disk(s) Fail (80) → Unable To Reset Floppy Subsystem.
Floppy Disk(s) Fail (40) → Floppy Type Dismatch.
Hard Disk(s) Fail (80) → HDD Reset Failed
Hard Disk(s) Fail (40) → HDD Controller Diagnostics Failed.
Hard Disk(s) Fail (20) → HDD Initialization Error.
Hard Disk(s) Fail (10) → Unable To Recalibrate Fixed Disk.
Hard Disk(s) Fail (08) → Sector Verify Failed.
Keyboard Is Locked Out - Unlock The Key.
BIOS detect the keyboard is locked. P17 of keyboard controller is pulled low.
Keyboard Error Or No Keyboard Present.
Cannot initialize the keyboard. Make sure the keyboard is attached correctly and no keys
are being pressed during the boot.
Manufacturing POST Loop.
System will repeat POST procedure infinitely while the P15 of keyboard controller is pulled
low. This is also used for M/B burn in test.
BIOS ROM Checksum Error - System Halted.
The checksum of ROM address F0000H-FFFFFH is bad.
Memory Test Fail.
BIOS reports the memory test fails if the onboard memory is tested error.
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Appendix D: AWARD BIOS POST Codes
POST Code (hex)
Description
CFh
C0h
Test CMOS R/W functionality.
Early chipset initialization:
-Disable shadow RAM
-Disable L2 cache (socket 7 or below)
-Program basic chipset registers
Detect memory
C1h
-Auto-detection of DRAM size, type and ECC.
-Auto-detection of L2 cache (socket 7 or below)
C3h
C5h
Expand compressed BIOS code to DRAM
Call chipset hook to copy BIOS back to E000 & F000 shadow
RAM.
0h1
02h
03h
04h
Expand the Xgroup codes locating in physical address 1000:0
Reserved
Initial Superio_Early_Init switch.
Reserved
1. Blank out screen
05h
06h
07h
2. Clear CMOS error flag
Reserved
1. Clear 8042 interface
2. Initialize 8042 self-test
1. Test special keyboard controller for Winbond 977 series Super
08h
09h
I/O chips.
2. Enable keyboard interface.
Reserved
1. Disable PS/2 mouse interface (optional).
2. Auto detect ports for keyboard & mouse followed by a port & interface
0Ah
swap (optional).
3. Reset keyboard for Winbond 977 series Super I/O chips.
0Bh
0Ch
0Dh
Reserved
Reserved
Reserved
Test F000h segment shadow to see whether it is R/W-able or not. If
test fails, keep beeping the speaker.
Reserved
0Eh
0Fh
10h
11h
Auto detect flash type to load appropriate flash R/W codes into the
run time area in F000 for ESCD & DMI support.
Reserved
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POST Code (hex)
Description
Use walking 1’s algorithm to check out interface in CMOS
12h
circuitry. Also set real-time clock power status, and then check for
override.
13h
14h
Reserved
Program chipset default values into chipset. Chipset default
values are MODBINable by OEM customers.
Reserved
15h
16h
17h
Initial Early_Init_Onboard_Generator switch.
Reserved
Detect CPU information including brand, SMI type (Cyrix or
Intel) and CPU level (586 or 686).
Reserved
18h
19h
1Ah
Reserved
Initial interrupts vector table. If no special specified, all H/W
interrupts are directed to SPURIOUS_INT_HDLR & S/W
interrupts to SPURIOUS_soft_HDLR.
Reserved
1Bh
1Ch
1Dh
1Eh
1Fh
20h
21h
22h
Initial EARLY_PM_INIT switch.
Reserved
Load keyboard matrix (notebook platform)
Reserved
HPM initialization (notebook platform)
Reserved
1. Check validity of RTC value:
e.g. a value of 5Ah is an invalid value for RTC minute.
2. Load CMOS settings into BIOS stack. If CMOS checksum fails, use
default value instead.
3. Prepare BIOS resource map for PCI & PnP use. If ESCD is valid, take into
consideration of the ESCD’s legacy information.
4. Onboard clock generator initialization. Disable respective clock resource
to empty PCI & DIMM slots.
23h
5. Early PCI initialization:
-Enumerate PCI bus number
-Assign memory & I/O resource
-Search for a valid VGA device & VGA BIOS, and put it
into C000:0.
24h
25h
26h
27h
Reserved
Reserved
Reserved
Initialize INT 09 buffer
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POST Code (hex)
Description
28h
29h
Reserved
1. Program CPU internal MTRR (P6 & PII) for 0-640K memory address.
2. Initialize the APIC for Pentium class CPU.
3. Program early chipset according to CMOS setup. Example: onboard IDE
controller.
4. Measure CPU speed.
5. Invoke video BIOS.
2Ah
2Bh
2Ch
Reserved
Reserved
Reserved
1. Initialize multi-language
2Dh
2. Put information on screen display, including Award title, CPU type, CPU
speed ….
2Eh
2Fh
30h
31h
32h
33h
34h
35h
36h
37h
38h
39h
3Ah
3Bh
3Ch
3Dh
3Eh
3Fh
40h
41h
42h
43h
44h
45h
46h
47h
48h
Reserved
Reserved
Reserved
Reserved
Reserved
Reset keyboard except Winbond 977 series Super I/O chips.
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Test 8254
Reserved
Test 8259 interrupt mask bits for channel 1.
Reserved
Test 8259 interrupt mask bits for channel 2.
Reserved
Reserved
Test 8259 functionality.
Reserved
Reserved
Reserved
Initialize EISA slot
Reserved
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POST Code (hex)
Description
1. Calculate total memory by testing the last double word of each 64K page.
49h
2. Program writes allocation for AMD K5 CPU.
4Ah
4Bh
4Ch
4Dh
Reserved
Reserved
Reserved
Reserved
1. Program MTRR of M1 CPU
2. Initialize L2 cache for P6 class CPU & program CPU with proper
cacheable range.
4Eh
3. Initialize the APIC for P6 class CPU.
4. On MP platform, adjust the cacheable range to smaller one in case the
cacheable ranges between each CPU are not identical.
4Fh
50h
51h
52h
53h
54h
55h
56h
Reserved
Initialize USB
Reserved
Test all memory (clear all extended memory to 0)
Reserved
Reserved
Display number of processors (multi-processor platform)
Reserved
1. Display PnP logo
57h
2. Early ISA PnP initialization
-Assign CSN to every ISA PnP device.
58h
59h
5Ah
Reserved
Initialize the combined Trend Anti-Virus code.
Reserved
(Optional Feature)
5Bh
5Ch
5Dh
Show message for entering AWDFLASH.EXE from FDD (optional)
Reserved
1. Initialize Init_Onboard_Super_IO switch.
2. Initialize Init_Onbaord_AUDIO switch.
5Eh
5Fh
Reserved
Reserved
Okay to enter Setup utility; i.e. not until this POST stage can users
60h
enter the CMOS setup utility.
Reserved
61h
62h
63h
64h
65h
Reserved
Reserved
Reserved
Initialize PS/2 Mouse
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POST Code (hex)
Description
66h
67h
Reserved
Prepare memory size information for function call:
INT 15h ax=E820h
68h
69h
6Ah
Reserved
Turn on L2 cache
Reserved
Program chipset registers according to items described in Setup &
6Bh
6Ch
Auto-configuration table.
Reserved
1. Assign resources to all ISA PnP devices.
6Dh
2. Auto assign ports to onboard COM ports if the corresponding item in
Setup is set to “AUTO”.
6Eh
6Fh
Reserved
1. Initialize floppy controller
2. Set up floppy related fields in 40:hardware.
70h
71h
72h
Reserved
Reserved
Reserved
(Optional Feature)
Enter AWDFLASH.EXE if :
73h
-AWDFLASH is found in floppy drive.
-ALT+F2 is pressed
74h
75h
76h
77h
78h
79h
7Ah
7Bh
7Ch
7Dh
7Eh
Reserved
Detect & install all IDE devices: HDD, LS120, ZIP, CDROM…..
Reserved
Detect serial ports & parallel ports.
Reserved
Reserved
Detect & install co-processor
Reserved
Reserved
Reserved
Reserved
1. Switch back to text mode if full screen logo is supported.
-If errors occur, report errors & wait for keys
-If no errors occur or F1 key is pressed to continue:
ŠClear EPA or customization logo.
Reserved
7Fh
80h
81h
Reserved
102 ECB-862/862L User’s Manual
ECB-862/862L
POST Code (hex)
Description
1. Call chipset power management hook.
82h
2. Recover the text fond used by EPA logo (not for full screen logo)
3. If password is set, ask for password.
Save all data in stack back to CMOS
Initialize ISA PnP boot devices
1. USB final Initialization
83h
84h
2. NET PC: Build SYSID structure
3. Switch screen back to text mode
4. Set up ACPI table at top of memory.
5. Invoke ISA adapter ROMs
6. Assign IRQs to PCI devices
7. Initialize APM
85h
8. Clear noise of IRQs.
86h
87h
88h
89h
90h
91h
92h
93h
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Read HDD boot sector information for Trend Anti-Virus code
1. Enable L2 cache
2. Program boot up speed
3. Chipset final initialization.
4. Power management final initialization
5. Clear screen & display summary table
6. Program K6 write allocation
7. Program P6 class write combining
1. Program daylight saving
2. Update keyboard LED & typematic rate
1. Build MP table
94h
95h
2. Build & update ESCD
96h
FFh
3. Set CMOS century to 20h or 19h
4. Load CMOS time into DOS timer tick
5. Build MSIRQ routing table.
Boot attempt (INT 19h)
ECB-862/862L User’s Manual 103
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