EPOX EP-4BDM, Pentium 4 Processor based AGP 4X mainboard User Manual

TRADEMARK

All products and company names are trademarks or registered
trademarks of their respective holders.

These specifications are subject to change without notice.

Manual Revision 1.1

March 04, 2002

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A Pentium 4 Processor based AGPA Pentium 4 Processor based AGP

A Pentium 4 Processor based AGPA Pentium 4 Processor based AGP

A Pentium 4 Processor based AGP
(4X) mainboard (100/133MHz)(4X) mainboard (100/133MHz)

(4X) mainboard (100/133MHz)(4X) mainboard (100/133MHz)

(4X) mainboard (100/133MHz)
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ts PC1600/PC2100 Memorts PC1600/PC2100 Memor

ts PC1600/PC2100 Memorts PC1600/PC2100 Memor

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T able of Contents

Section 1 Introduction

Components Checklist .............................................. 1-1

Overview

System Overview ....................................................... 1-2

Chipset Components ................................................. 1-3

Intel Pentium 4 Processors ...................................... 1-4

Accelerated Graphics Port ....................................... 1-5

Utlra ATA66/100 ....................................................... 1-5

Hardware Monitoring................................................ 1-6

Bandiwdth Overview .................................................. 1-6

Mainboard Form-Factor............................................ 1-7

I/O Shield Connector ................................................ 1-8

Power-On/Off (Remote) ..........................................1-8

System Block Diagram ............................................. 1-9

Section 2 Features

Mainboard Features ................................................... 2-1

Section 3 Installation

Mainboard Detailed Layout ...................................... 3-2

Easy Installation Procedure

CPU Installation ........................................................3-3

Jumper Settings ......................................................... 3-5

System Memory Configuration ................................ 3-6

Device Connectors .................................................... 3-8

External Modem Ring-in Power ON and

Keyboard Power ON Function (KBPO) ................... 3-13

STR Function ............................................................. 3-15

845 Platform AGP Card 3.3V Protection ................ 3-17

Page

Section 4 Award BIOS Setup

Main Menu ................................................................ 4-1

Standard CMOS Setup............................................... 4-3

Advanced BIOS Features........................................... 4-7

Advanced Chipset Features ....................................... 4-11

Integrated Peripherals ............................................... 4-14

Power Management Setup ........................................ 4-21

PNP/PCI Configuration Setup .................................. 4-25

PC Health Status ........................................................ 4-27

Frequency/Voltage Control ....................................... 4-29

Defaults Menu ........................................................... 4-31

Supervisor/User Password Setting ........................... 4-32

Exit Selecting ............................................................ 4-33

Section 5 Driver Installation

845 and Sound Driver Installation ............................ 5-1

Appendix Appendix A

Avance Media Player Users Guide .......................... A-1

Appendix B

GHOST 5.1/6.03 Quick Users Guide (Optional) ...B-1

Appendix C

EEPROM BOIS Remover ......................................... C-1

Appendix D

Update Your System BIOS ........................................ D-1

Introduction

Page 1-1

Section 1

INTRODUCTION

Components Checklist

B

A

C

D

USERS

MANUAL

Package Contents

A. (1) Mainboard

B. (1) Users manual

C. (1) Floppy ribbon cable

D. (1) ATA-66/100 Hard drive ribbon

cable

E. (1) Driver and utility

Optional Item

F. (1) ATA-33 Hard drive ribbon

cable

G. (1) USB Cable

E

or

G

F

Introduction

Page 1-2

System Overview

This board is designed with Intel® 845 chipset. The Intel® 845 chipset includes
MCH(FW82845), ICH2(FW82801BA) and FWH three chips. The Intel® 845
chipset is the generation desktop chipset designed for Intels FC-PGA2 socket
478 package architecture and support the 4X capability of the AGP 2.0 Interface
Specification. A new chipset component interconnect, the hub interface, is
designed into the Intel® 845 chipset to provide more efficient communication
between chipset components.

Support of AGP 4X, 266MHz DDR SDRAM and the hub interface provides a
balanced system architecture for the Pentium® 4 in the Socket 478 architecture
processor minimizing bottlenecks and increasing system performance. By
increasing memory bandwidth to 2.128GB/s through the use of AGP 4X, the
Intel® 845 chipset will deliver the data throughput necessary to take advantage of
the high performance provided by the powerful Pentium® 4 in the Socket 478
architecture processor.

The Intel® 845 chipset architecture removes the requirement for the ISA expan­sion bus that was traditionally integrated into the I/O subsystem of Intel chipsets.
This removes many of the conflicts experienced when installing hardware and
drivers into legacy ISA systems. The elimination of ISA will provide true plug-and
play for the Intel® 845 platform.

Intel® 845 chipset contains three core components: the Memory Controller Hub
(MCH), the I/O Controller Hub (ICH) and the Firmware Hub (FWH). The MCH
integrates the data transfer rate of 400/533MHz, Pentium® 4 processor bus
controller, AGP 2.0 controller, 266MHz DDR SDRAM controller and a high­speed hub interface for communication with the ICH2. The ICH2 integrates an
UltraATA/66/100 controller, USB host controller, LPC interface controller, FWH
interface controller, PCI interface controller, and a hub interface for communica­tion with the MCH. The Intel® 845 chipset will provide the data buffering and
interface arbitration required to ensure that system interfaces operate efficiently
and provide the system bandwidth necessary to obtain peak performance the
Pentium® 4 in the Socket 478 architecture.

Introduction

Page 1-3

Chipset Components

The Intel® 845 chipset consists of the Memory Controller Hub (MCH), the I/O
Controller Hub (ICH2) and the Firmware Hub (FWH).





 Memory Controller Hub (MCH)

The MCH provides the interconnect between the DDR SDRAM and the system
logic. It integrates:

- Support for single processor with a data transfer rate of 400/533MHz.

- 200/266MHz DDR SDRAM interface supporting 2GB of DDR SDRAM.

- 2X, 4X, 1.5V AGP interface (Only support 1.5V on AGP interface).

- Downstream hub link for access to the ICH2.





 I/O Controller Hub (ICH2)

The I/O controller Hub provides the I/O subsystem with access to the rest of
the system. Additionally, it integrates may I/O functions. The ICH integrates:

- Upstream hub link for access to the MCH

- 2 Channel Ultra ATA/33/66/100 Bus Master IDE controller

- USB controller

- SMBus controller

- FWH interface

- LPC interface

- PCI 2.2 interface

- Integrated System Management Controller

- Integrated LAN Controller





 Firmware Hub (FWH)

The FWH component is a key element to enabling a new security and manage­ability infrastructure for the PC platform. The device operates under the FWH
interface and protocol. The hardware features of this device include a unique a
Random Number Generator (RNG), register-based locking, and hardware­based locking.

Introduction

Page 1-4

Intel Pentium 4 processors

Formally known as the Willamette, the PentiumTM 4 is the next generation IA-32
processor from Intel. This next generation design is based upon a new micro­architecture that brings higher clock speeds and performance than previous
processors could deliver. Among other advanced features the Pentium 4 offers
Streaming SIMD extensions 2, Advanced Dynamic Execution, Hyper Pipelined
Technology, and a data transfer rate of 400/533MHz system bus.

Streaming SIMD Extensions 2

Building upon the foundations of core features of their previous line of proces­sors the Pentium III, this new version introduces Streaming SIMD Extensions 2
technology commonly referred to as SSE2. But what does this mean? SIMD stands
for Single Instruction Multiple Data. Usually, processors process one data
element in one instruction, called Single Instruction Single Data, or SISD. In
contrast, with Single Instruction Single Data (SISD), SIMD has the ability to
process more than one piece of data element during one instruction.

This technology is useful for 3D graphics applications that handle considerable
amounts of floating-point numbers. With SIMD applications such as 3D graphics
will be able to processor more data per instruction when equates to better
performance. This technology adds 144 new instructions to the CPU core that can
be used in a wide variety of applications. Software programmers can for example,
take advantage of these new instructions and write more optimized code that take
advantage of newer SIMD double-precision floating-point, integer, and cache
ability instructions. In theory this will enable better next generation services such
as Interactive Digital TV to be produced.

Advanced Dynamic Execution

Advanced Dynamic Execution describes the improved implementation and
abilities over the older P6 processor lines out-of-order decoupled super scalar
execution. Dynamic execution allows instructions to the processor to be executed
without the need to do so in order. The ability to do this can add a significant
performance increase versus ordered execution.

Hyper Pipelined Technology & 400/533MHz System Bus

Hyper Pipelined Technology doubles the pipeline depth the Pentium 4 delivers to
20 stages. This significantly increases the performance and frequency capabilities.
Pentium 4 also introduces a 400/533MHz system bus as opposed to the 100 and

Introduction

Page 1-5

133MHz bus seen in previous Pentium III processors. This allows 3.2Gbytes per
second of throughput while the Pentium III had a limited 1.06Gbyte/s throughput.
Willamette will reportedly be introduced in the 0.18-micron using aluminum.

For more information about all the cool new features the Pentium 4 delivers

check out the Intel website at http://www.intel.com

Accelerated Graphics Port
(AGP or A.G.P.)

Typically, 3D graphics rendering requires a tremendous amount of memory, and
demands ever increasing throughput speed as well. As 3D products for the
personal computer become more and more popular, these demands will only
increase. This will cause a rise in costs for both end users and manufacturers.
Lowering these costs as well as improving performance is the primary motivation
behind AGP. By providing a massive increase in the bandwidth available between
the video card and the processor, it will assist in relieving some of these pressures
for quite sometime.

The board provides the AGP 2.0 interface. The AGP Interface Specification
revision 2.0 enhances the functionality of the original AGP Interface Specifica­tion (revision 1.0) by allowing 4X data transfers (4 data samples per clock) and

1.5 volt (power supply) operation. The AGP 2.0 interface, along with SDRAM
memory technology, allows graphics controllers to access main memory at over
1GB/s. In order to match the 2X and 4X AGP Card. The board used the Universal
AGP connector. (1.5 volt AGP Card supports only).

Ultra ATA/66/100

The ICH2 provides two channel Ultra ATA/66/100 Bus Master IDE controllers,
that support Ultra ATA/66/100 protocols, perfect for such demanding applications
as real-time video, multimedia, and high performance operating system. A new
IDE cable is required for Ultra ATA/66/100. This cable is an 80 conductor cable;
however the connectors are, of course, backwards compatible with ATA/33.

Introduction

Page 1-6

Hardware Monitoring

Hardware monitoring allows you to monitor various aspects of your systems
operations and status. The features include CPU temperature, voltage and RPM of
fan.

Bandwidth Overview

Table 1 provides a summary of the bandwidth requirements for the Intel® 845 chipset.

Table 1: Intel® 845 platform Bandwidth Summary

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Introduction

Page 1-7

Mainboard Form-Factor

The board is designed with ATX form factor - the latest industry standard of
chassis. The ATX form factor is essentially a Baby-AT baseboard rotated 90
degrees within the chassis enclosure and a new mounting configuration for the
power supply. With these changes the processor is relocated away from the
expansion slots, allowing them all to hold full length add-in cards. ATX defines
a double height aperture to the rear of the chassis which can be used to host a
wide range of onboard I/O. Only the size and position of this aperture is
defined, allowing PC manufacturers to add new I/O features (e.g.; TV input, TV
output, joystick, modem, LAN, audio, etc.) to systems. This will help systems
integrators differentiate their products in the marketplace, and better meet your
needs.

 By integrating more I/O down onto the board and better positioning the

hard drive and floppy connectors material cost of cables and add-in cards is
reduced.

 By reducing the number of cables and components in the system, manufac-

turing time and inventory holding costs are reduced and reliability will
increase.

 By using an optimized power supply, it's possible to reduce cooling costs

and lower acoustical noise. An ATX or ATX12V power supply, which has a
side-mounted fan, allows direct cooling of the processor and add-in cards
making a secondary fan or active heatsink unnecessary in most system
applications.

Expandable I/O

Figure 2: Summary of ATX or ATX12V chassis features

CPU located near
Power Supply

Single chassis fan
for system

ATX12V power
connector

Floppy / IDE
connectors

5 1/4"

Bay

3 1/2"

Bay

ATX or
ATX12V
Power
Supply

ATX power
connector

PCI slots

AGP slot

Introduction

Page 1-8

I/O Shield Connector

The board is equipped with an I/O back panel. Please use the appropriate I/O shield
(figure 3).

Power-On/Off (Remote)

The board has a single 20-pin and 4-pin connector for ATX or ATX12V power supplies.
For ATX or ATX12V power supplies that support the Remote On/Off feature, this
should be connected to the systems front panel for system Power On/Off button.
The systems power On/Off button should be a momentary button that is normally open.

The board has been designed with Soft Off" functions. You can turn Off the system
from one of two sources: The first is the front panel Power On/Off button, and the
other is the "Soft Off" function (coming from the BOARDs onboard circuit control­ler) that can be controlled by the operating system such as Windows® 95/98 and
Windows® 2000 to Shutdown the system.

Note: For maintaining the DDR SDRAM power during STR (ACPI S3) function, it is

strongly recommend to use ATX or ATX12V power supplies that have a +5VSB
current of (>=) 1A (1000mA). Please check the 5VSBs specification that has
been printed on the ATX or ATX12V power supplys outer case.

Note: The board requires a minimum of 250 Watt ATX or ATX 12V power supply to

operate. Your system configuration (amount of memory, add-in cards, peripherals,
etc.) may exceed the minimum power requirement but to ensure that adequate
power is provided, use a 300 Watt (or greater) ATX or ATX 12V power supply.

Figure 3: I/O back panel layout

ATX or ATX12V POWER SUPPLY

Case (chassis) Power ON/OFF button

12V 4-pin

20-pin

J3

Figure 4: Simple ATX or ATX12V Power ON/OFF Controller

MIC

USB

port

Speaker

Line_in

PS/2 Mouse

PS/2 Keyboard

COM1

Parallel Port

RJ45 LAN
(Optional)

Joystick/Midi port

COM2

Introduction

Page 1-9

Figure 5: System Block Diagram

System Block Diagram

Pentium 4
Processor

478 pin Package

MCH

(Memory

Controller

Hub)

ICH2

(I/O

Controller

Hub)

DDR SDRAM
200/266MHz

100/133MHz

66MHz

4X, 2X (1.5V only)

USB 1,2 USB 3,4

FWH (Firm Ware Hub)

Flash memory

LPC I/O

Winbond

83627HF

Serial Port 1
serial Port 2
LPT Port
PS/2 Mouse
PS/2 Keyboard

AC'97
Audio

HDD

1,-

1,-

Introduction

Page 1-10

Page Left Blank

.A=JKHAI

Page 2-1

Section 2

FEATURES

Mainboard Features:







PROCESSOR

- Intel® Pentium 4 Processor with FC-PGA2 socket 478 package: Operating
at 1.5 ~ 2.2GHz







CHIPSET

- Intel 82845 AGPset







Front Side Bus

- 100/133MHz (a data transfer rate of 400/533MHz)







DRAM MODULE

- 184pin DDR DIMM x 2 for PC1600/2100 Memory

- DRAM Size: 64MB to 2GB







EXPANSION SLOT

- PCI x 3, 4X AGP x 1 (1.5V only)







ONBOARD I/O

- Winbond 83627HF-AW LPC I/O integrated with K/B , Mouse, FDD,
Parallel and Serial, Fast IR and Power-ON controllers







ONBOARD PCI / IDE

Intel 82801BA/ICH2 Controller

- PCI Rev. 2.2 Compliant

- ACPI Compliant Power Management

- AC97 2.1/2.0 Compliant Link for Audio CODEC

- PCI Bus IDE Port with PIO /Ultra DMA-66/100 x 2 (Up to 4 Devices)

.A=JKHAI

Page 2-2







I/O CONNECTOR

- PS/2 Mouse and PS/2 style Keyboard

- COM1, COM2, Printer, Audio-in/out, MIC & Game port connector







Onboard LAN (Optional)

- Integrate 10/100Mb fast Ethernet controller in Realtek RTL8100B Lan
chipset by RJ-45 connector







USB

- USB connector x 4 (2 for Opt.)







Built-in AC97 Digital Audio

- Dual full-duplex Direct Sound channels

- FM synthesis for legacy compatibility

- Supports Game and MIDI port







BIOS

- Award Plug & Play BIOS







EXTENDED FUNCTION

- Supports Hardware Monitoring Function by W83627HF-AW

- Supports exclusive KBPO (Keyboard Power ON) Function

- Supports STR (Suspend To RAM) power saving Function

- Supports STR Wake up function by USB Mouse & Keyboard device

- Supports Wake-On-LAN Function

- Supports CPU Ratio and CPU Clock Settings via BIOS

- Supports Magic Health and Easy Boot Function

- Supports Asynchronous Transfer Mode between AGP/PCI & FSB

- Supports automatically shut down to protect MCH(82845) damaging
when is inadvertently used the 3.3V AGP Card plug in the AGP slot.
(See the Page 3-17 for detail)







FORM FACTOR

- 245mm x 245mm Micro ATX Size

Installation

Page 3-1

Section 3

INSTALLA TION

Installation

Page 3-2

Mainboard Detailed Layout

Installation

Page 3-3

Step 1

Open the socket by raising the actuation
lever.

Figure 1

Step 2

Insert the processor.
Ensure proper pin 1 orientation by

aligning the FC-PGA2 corner marking
with the socket corner closest to the
actuation arm tip. The pin field is keyed
to prevent mis-oriented insertion.
Dont force processor into socket. If it
does not go in easily, check for mis­orientation and debris. Make sure the
processor is fully inserted into the
socket on all sides.

Figure 2

Pin 1

Easy Installation Procedure

The following must be completed before powering on your new system:

3-1. CPU Installation
3-2. Jumper Settings
3-3. System Memory Configuration
3-4. Device Connectors
3-5. External Modem Ring-in Power ON and Keyboard Power ON

Functions (KBPO)
3-6. STR Function
3-7. 845 Platform AGP Card 3.3V Protection

Section 3-1
CPU Installation

Installation

Page 3-4

Figure 3

Step 4

Install the Fan Heatsink.
* Please do apply thermal compound

between CPU and Heatsink.

Step 5

Install the Shroud Assembly and follow
the arrow of Figure 5 for press the two
Clip Assembly.

Step 6

Make sure the CPU fan is plugged to the
CPU fan connector. The installation is
completed.

Figure 4

Figure 5

Figure 6

NOTE:

1. Intel Pentium

TM

4 processor might be crashed if installed with a regular CPU Fan
since it is equipped with all new micro- architecture that brings quite small size of
CPU(Die). We recommend using Intels reference design thermal solution which is
an active heatsink; an extruded aluminum heatsink based and a fan attached to the
top on the fin array.
Additionally, please do apply heatsink thermal compound or paste and install CPU
fan to avoid CPU overheated and damaged.

2. According to the guidance of Intel Corp, please do not install the same CPU over 50
times as it will bend the pins and damage the CPU.

Step 3

Close the socket by lowering and
locking the actuation lever.

Installation

Page 3-5

Keyboard Power On Function
1-2: Enabled
2-3: Disabled (Default)

1

JKBPO

Section 3-2
Jumper Settings

JCMOS

CMOS Clear
1-2: Normal (Default)
2-3: Clear CMOS



Installation

Page 3-6

Section 3-3
System Memory Configuration

Memory Layout

The board supports (2) PC1600/2100 184-pin DIMMs (Dual In-line Memory
Module). The DIMMs is for DDR SDRAM (Double-Data-Rate Synchronous DRAM)
only.

 Supports Memory Error Correcting Code (ECC).
 Supports 64Mbit, 128Mbit, 256Mbit and 512Mbit technology.
 64-bit data width, plus & 8 bit ECC paths.

 Supports up to two unbuffered DDR DIMMs.
 Supports up to 1Gbytes of memory.

Figure 7 and Table 1 show several possible memory configurations.

* DDR SDRAM supports 64, 128, 256, 512MB and 1GB DIMM modules.

* 1GB module using 512Mb technology.

* Supports PC1600 modules with 2-2-2 timing.

* Supports PC2100 modules with 2-2-2 timing.

DDR DIMM 1

DDR DIMM 2

Bank 0/1

DDR
Synchronous
DRAM

Bank 2/3

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Figure 7

Table 1

Installation

Page 3-7

DIMM Module Installation

Figure 8 displays the notch marks and what they should look like on your DDR
DIMM memory module.

DIMMs have 184-pins and one notch that will match with the onboard DDR
DIMM socket. DIMM modules are installed by placing the chip firmly into the
socket at a 90 degree angle and pressing straight down (figure 9) until it fits
tightly into the DIMM socket (figure 10).

Figure 8

Figure 10

DIMM Module clip after installation

To remove the DIMM module simply press down both of the white clips on either
side and the module will be released from the socket.

Figure 9

DIMM Module clip before installation

CENTER KEY ZONE
(2.5 V DRAM)

Installation

Page 3-8

Section 3-4
Device Connectors

Figure 11

GND

PME

+5V Standby

JFAN1

JFAN1 / JFAN2 / JFAN3:

 The plug-in for CPU/Power/Chassis Fan power

JFAN1:
CPU Fan

JFAN2:
PW Fan

JWOL:WOL (Wake On LAN) Connector

Reserved for NIC (Network Interface
Card) to wake the system.

GND

+12V

Rotation

JFAN2

JFAN3

JFAN3:
Chassis Fan

GND

+12V

Rotation

GND

+12V

NC

MIC

USB

port

Speaker

Line_in

PS/2 Mouse

PS/2 Keyboard

COM1

Parallel Port

RJ45 LAN
(Optional)

Joystick/Midi port

COM2

Installation

Page 3-9

FDD1: Floppy Controller Connector (Black

color)

IDE1: Ultra DMA-66/100 Primary IDE

Connector (Blue color)

IDE2: Ultra DMA-66/100 Secondary IDE

Connector (Blue color)

CD_IN: CD Audio_IN Connector

CD_IN_Left

1

CD_IN_Right

CD_Reference

CD_IN

MODEM_IN

Modem_Out

1

Modem_IN

GND

PW1: ATX or ATX12V Power Connector

 20-pin power connector

PW2: ATX12V Power Connector

 12V 4-pin power connector

29

29

Note: The board requires a minimum of 250 Watt

ATX or ATX 12V power supply to operate.

Your system configuration (amount of

memory, add-in cards, peripherals, etc.) may

exceed the minimum power requirement but

to ensure that adequate power is provided, use

a 300 Watt (or greater) ATX or ATX 12V

power supply.

MODEM_IN: Telephony Connector for Modem

audio output

Installation

Page 3-10

SPDIFCON: (Optional for ALC650 AC97 chip)
This connector is the digital link between the
motherboard and your devices, such as CD player,
sampler or DAT recorder. It allows the digital
transmission of audio data in SPDIF (Sony/Philips
Digital Interface) format.



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$

VCC

NC

GND

SPDIF_IN

SPDIF_OUT

J_F_ACON: Front Panel Audio Connector
A feature of the front panel headphone jack is that
rear panel audio output connectors are disabled
when headphone are plugged in.
If the front panel interface board is not connected
to the front panel audio header, pins 5, 6, 9 and 10
should be jumpered on the front panel audio
header.
If these jumpers are not installed, the rear panel
audio connectors will be inoperative.

Note:

Pin (5-6) & (9-10) Short: Only Onboard Rear Audio (Speaker)

can be use.

Pin (5-6) & (9-10) Open: Only Front Panel Audio can be use.

(Default)

Installation

Page 3-11

USBCON1: USB port header pins for share with

two USB ports.

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USB port header pin descriptions.



VCC

VCC

GND

GND

-Data

-Data

+Data

+Data

'



Installation

Page 3-12

J3





 Power On/Off

(This is connected to the power button on the
case. Using the Soft-Off by Pwr-BTTN
feature, you can choose either Instant Off
(turns system off immediately), or 4 sec delay
(you need to push the button down for 4
seconds before the system turns off). When
the system is in 4 sec delay mode, suspend
mode is enabled by pushing the button
momentarily.)





 Turbo LED indicator

LED ON when higher speed is selected





 IDE LED indicator

LED ON when Onboard PCI IDE Hard disks is
activate





 IR Connector

1. VCC 4. GND

2. NC 5. IRTX

3. IRRX





 KeyLock

Keyboard lock switch & Power LED connec­tor

1. Power LED(+) 4. KeyLock

2. N/C 5. GND

3. GND





 Speaker

Connect to the system's speaker for beeping

1. Speaker 3. GND

2. N/C 4. GND





 Reset

Closed to restart system.

J2

* The power LED lights when the

system is powered on and blinks
in SLEEP Mode or STR Mode.

Installation

Page 3-13

Section 3-5
External Modem Ring-in Pow er
ON and Keyboard Power ON
Functions (KBPO)

On the basis of bounded functions in I/O chipset, the two serial ports are able to
support the External Modem Ring-in Power ON function. Once users connect the
external modem to COM1 or COM2, the mainboard allows users to turn on their
system through the remote and host's dial-up control.

Exclusive Keyboard Power ON Function

To innovate a unique feature to benefit users, we devoted the easiest and most
convenient way to turn on your system based on the the ATX power supply.

How to work with it

Step 1: Please check JKBPO at the position 1-2 after you finish the system

installation.

Step 2: Push the momentary switch (J3 PW-ON) to turn on your system and then

push again to hold for more than 4 seconds to turn it off after counting
memory as soon as you turn it on.

Step 3: You can enjoy the Keyboard Power ON function (KBPO) by pressing

any 1 key, Hot key (Ctrl-F1, F2.....F12), Password (A maximum of 5

charac ters can be entered.), BUTTON only...etc. to turn on your
system. Please refer to the BIOS Integrated peripherals setup for
detail. The BIOS Default is keyboard Hot key <Ctrl> - <F1> to turn
on the system. Your system will be turned on automatically, after

releasing the keys. To power off your system, you can use the Soft-OFF
function under Windows 95/98/2000.

Keyboard Power On Function
1-2 Enabled
2-3 Disabled (Default)

JKBPO

1