DFI CS65-SC, CS65-SU, CS35-SC User Manual

CS65-SC

CS65-SU

Rev. A+
System Board
Users Manual

44030034

Copyright

This publication contains information that is protected by copyright.
No part of it may be reproduced in any form or by any means or
used to make any transformation/adaptation without the prior
written permission from the copyright holders.

This publication is provided for informational purposes only. The
manufacturer makes no representations or warranties with respect to
the contents or use of this manual and specifically disclaims any
express or implied warranties of merchantability or fitness for any
particular purpose. The user will assume the entire risk of the use or
the results of the use of this document. Further, the manufacturer
reserves the right to revise this publication and make changes to its
contents at any time, without obligation to notify any person or
entity of such revisions or changes.

© 2000. All Rights Reserved.

Trademarks

Microsoft® MS-DOS®, WindowsTM, Windows® 95, Windows® 98,
Windows® 98 SE and Windows® 2000 are registered trademarks of
Microsoft Corporation. Intel®, Pentium® III and CeleronTM are
registered trademarks of Intel Corporation. VIA CyrixIII is a
registered trademark of VIA Technologies, Inc. Award is a registered
trademark of Award Software, Inc. Other trademarks and registered
trademarks of products appearing in this manual are the properties
of their respective holders.

Caution:

Danger of explosion if battery incorrectly replaced.
Replace only with the same or equivalent type recommended by the
manufacturer.
Dispose of used batteries according to the battery manufacturers
instructions.

FCC and DOC Statement on Class B

This equipment has been tested and found to comply with the limits
for a Class B digital device, pursuant to Part 15 of the FCC rules.
These limits are designed to provide reasonable protection against
harmful interference when the equipment is operated in a residential
installation. This equipment generates, uses and can radiate radio
frequency energy and, if not installed and used in accordance with
the instruction manual, may cause harmful interference to radio
communications. However, there is no guarantee that interference
will not occur in a particular installation. If this equipment does cause
harmful interference to radio or television reception, which can be
determined by turning the equipment off and on, the user is
encouraged to try to correct the interference by one or more of the
following measures:

 Reorient or relocate the receiving antenna.
 Increase the separation between the equipment and the receiver.
 Connect the equipment into an outlet on a circuit different from

that to which the receiver is connected.

 Consult the dealer or an experienced radio TV technician for

help.

Notice:

1. The changes or modifications not expressly approved by the
party responsible for compliance could void the user's authority
to operate the equipment.

2. Shielded interface cables must be used in order to comply with
the emission limits.

Table of Contents

Read Me First..........................................................

Chapter 1 - Introduction

1.1 Features and Specifications..................................................................................

1.2 Package Checklist.........................................................................................................

Chapter 2 - Hardware Installation

2.1 System Board Layout ..........................................................................................

2.2 System Memory...........................................................................................................

2.3 Jumper Settings for Selecting the CPUs Front Side Bus......

2.4 Jumper Settings for Clearing CMOS Data........................................

2.5 Jumper Settings for Wake-On-Keyboard/Mouse..................................

2.6 Jumper Settings for Wake-On-USB Keyboard................................

2.7 Jumper Settings for the Onboard Audio Codec.........................

2.8 Jumper Settings for the Systems Beep Message.........................

2.9 Jumper Settings for the Boot Block Lock/Unlock........................

2.10 Ports and Connectors...........................................................................................

Chapter 3 - Award BIOS Setup Utility

3.1 The Basic Input/Output System.....................................................................

3.1.1 Standard CMOS Features.............................................................

3.1.2 Advanced BIOS Features..............................................................

3.1.3 Advanced Chipset Features ......................................................

3.1.4 Integrated Peripherals.........................................................................

3.1.5 Power Management Setup............................................................

3.1.6 PnP/PCI Configurations....................................................................

3.1.7 PC Health Status...................................................................................

3.1.8 CPU Frequency Control..................................................................

3.1.9 Load Fail-Safe Defaults.....................................................................

3.1.10 Load Optimized Defaults..............................................................

3.1.11 Set Supervisor Password...............................................................

3.1.12 Set User Password..............................................................................

3.1.13 Save & Exit Setup.................................................................................

3.1.14 Exit Without Saving..............................................................................

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24
25
26
27
29
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89

Chapter 4 - Supported Softwares

4.1 Desktop Management Interface.....................................................................

4.2 Hardware Doctor..........................................................................................................

4.3 Intel 815 INF Update Utility for Windows 95/98/2000....

4.4 Intel 815 Graphics Driver.s for Windows 95/98/NT...............

4.5 SoundMAX Integrated Digital Audio Drivers for

Windows 95/98/NT (CS65-SC only)....................................................

4.6 Creative ES1373 Audio Drivers for Windows

(CS65-SU only)...............................................................................................................

4.7 Microsoft DirectX 7.0 Driver.............................................................................

4.8 Drivers and Utilities Installation Notes.....................................................

Appendix A - Using the Suspend to RAM

Function

A.1 Using the Suspend to RAM Function........................................................

Appendix B - System Error Messages

B.1 POST Beep.......................................................................................................................

B.2 Error Messages..............................................................................................................

Appendix C - Troubleshooting

C.1 Troubleshooting Checklist....................................................................................

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82

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84

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Introduction

1

6

Read Me First

This page contains a summary of the important notes that must be
given special attention to prior to using the system board.

GPA

The system board supports 4MB display cache. To use this function,
you must install a 4MB GPA (Graphics Performance Accelerator)
card into the AGP slot. The GPA card is optional.

Processor

 The frequency ratio of some processors may have been locked

by the manufacturer. If you are using this kind of processor,
setting an extended ratio for the processor will have no effect.
The system will instead use its factory default ratio.

 The frequency ratio of processors greater than 8x has been

locked by the manufacturer and will no longer have the flexibility
of using extended ratios. Therefore, the system will use the
processors factory default ratio.

 Selecting an external bus clock other than 66MHz, 100MHz or

133MHz may result to the processors or systems instability and
are not guaranteed to provide better system performance.

System Memory

 DIMMs 1 and 2 both support single-sided and double-sided

DIMMs.

 DIMM 3 supports single-sided and double-sided DIMMs but

double-sided is supported only if DIMM 4 is empty.

 DIMM 4 only supports single-sided DIMM and can be used only

if DIMM 3 is installed with single-sided DIMM too.

5VSB Power

 If you are using the (1) Wake-On-KB/Mouse, (2) Wake-On-LAN

and/or (3) Wake-On-Ring (internal modem) functions, the 5VSB

power source of your power supply must support ≥ 720mA.

 If you are using the Suspend to RAM function, the 5VSB power

source of your power supply must support ≥1A.

 If you are using the Wake-On-USB Keyboard function, the 5VSB

power source of your power supply must support ≥1.5A.

Drivers

Make sure to reboot the system after each driver installation.
Problems will occur if you reboot only after installing all the drivers.

1

Introduction

7

1.1 Features and Specifications

1.1.1 Features

Chipset

 Intel® 815

Processor

The system board is equipped with Socket 370. It is also equipped
with a switching voltage regulator that automatically detects 1.30V
to 2.05V.

 Pentium® III FCPGA 133MHz FSB (533EB-933EB) or 100MHz

FSB (500E-850E) processor

 Celeron

TM

66MHz FSB: FCPGA (566MHz-700MHz) or PPGA

(300A-533MHz) processor

 Future VIA CyrixIII processor

System Memory

 32MB to 512MB memory using unbuffered DIMMs
 Four 168-pin DIMM sockets

- DIMMs 1 and 2 both support single-sided and double-sided
DIMMs.

- DIMM 3 supports single-sided and double-sided DIMMs but
double-sided is supported only if DIMM 4 is empty.

- DIMM 4 only supports single-sided DIMM and can be used
only if DIMM 3 is installed with single-sided DIMM too.

 Uses x64 PC-133/PC-100 SDRAM DIMM (3.3V) for 133MHz/

100MHz system memory bus

Chapter 1 - Introduction

DIMMs

2MBx64
4MBx64
8MBx64
16MBx64
32MBx64

Memory Size

16MB
32MB
64MB
128MB
256MB

Introduction

1

8

Expansion Slots

The system board is equipped with 1 universal AGP slot. AGP is an
interface designed to support high performance 3D graphics cards. It
utilizes a dedicated pipeline to access system memory for texturing,
z-buffering and alpha blending. The universal AGP slot supports AGP
2x with up to 533MB/sec. bandwidth and AGP 4x with up to
1066MB/sec. bandwidth for 3D graphics applications. AGP in this
system board will deliver faster and better graphics to your PC.

The system board is also equipped with 5 dedicated PCI slots and
1 AMR slot. AMR (Audio/Modem Riser) is an interface desgined for
installing an audio riser card, modem riser card or audio/modem riser
card that is compliant to the AMR specification.

Important:

 The CS65-SC system board only supports secondary

modem riser card.

 The CS65-SU system board only supports primary modem

riser card.

Onboard Graphics Features

 Graphics memory

- Shares 1MB of the system memory. This is fixed regardless of
the size of the system memory.

- Uses the Dynamic Video Memory Technology (DVMT) tech­nology. This freely changes in size because graphics memory is
allocated from the system memory according to current
needs.

- Supports 4MB display cache by installing a 4MB GPA (Graph­ics Performance Accelerator) card into the AGP slot (4MB
GPA - optional).

 Graphics controller

- 133MHz super AGP performance when installed with a 4MB
GPA card (optional)

- 3D hyper pipelined architecture

- 2D hardware and motion video acceleration

- 9-bit precision hardware motion compensation assistance for
software MPEG2 decode

- Software DVD at 30fps

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Introduction

9

 2D graphics features

- Resolution: up to 1600x1200 in 8-bit color at 85Hz refresh

- 3 Operand Raster BitBLTs

- 64x64x3 color transparent cursor

 3D graphics features

- Flat and Gouraud shading

- MIP mapping with tri-linear and anisotropic filtering

- Full color specular / Z-buffering

- Fogging atmospheric effect

- 3D pipe 2D clipping / backface culling

 Software drivers

- Windows® 95/98/2000

- Windows NT® 4.0

Onboard Audio Features (CS65-SC only)

 Supports Microsoft® DirectSound
 32-voice wavetable synthesis
 AC97 supported with full duplex, independent sample rate con-

verter for audio recording and playback

 Downloadable sound (DLS) level-1

Onboard PCI Audio Features - Creative ES1373 (CS65-SU only)

 Supports Microsoft® DirectSound /DirectSound 3D / DirectMusic

SW acceleration
 64 voice wavetable synthesizer
 Hardware SoundBlaster Pro for Windows DOS Box and

standard Microsoft Windows Sound 2.0
 Digital I/O compatible with consumer mode (SPDIF)
 Downloadable sound (DLS) level-1

Compatibility

 Microsoft PC 98 compliant
 VESA Display Power Management Signaling (DPMS)
 VESA DDC2B for Plug and Play monitors
 PCI 2.2, AMR 1.0 and AC 97 compliant
 Intel AGP version 2.0

Introduction

1

10

ATX Double Deck Ports (PC 99 color-coded connectors)

 Two USB ports
 One NS16C550A-compatible DB-9 serial port
 One DB-15 VGA port
 One SPP/ECP/EPP DB-25 parallel port
 One mini-DIN-6 PS/2 mouse port
 One mini-DIN-6 PS/2 keyboard port
 One game/MIDI port
 Three audio jacks: line-out, line-in and mic-in

Connectors

 One 9-pin connector for 1 external serial port
 One connector for IrDA interface
 Two IDE connectors
 One floppy drive interface supports up to two 2.88MB floppy

drives
 One 20-pin ATX power supply connector
 One Wake-On-LAN connector
 One Wake-On-Ring connector
 CPU, chassis and second fan connectors
 One opened chassis alarm connector
 Three internal audio connectors (AUX-in, CD-in and TAD)

PCI Bus Master IDE Controller

 Two PCI IDE interfaces support up to four IDE devices
 Supports Ultra ATA/66 hard drives
 PIO Mode 4 Enhanced IDE (data transfer rate up to 14MB/sec.)
 Bus mastering reduces CPU utilization during disk transfer
 Supports ATAPI CD-ROM, LS-120 and ZIP

IrDA Interface

The system board is equipped with an IrDA connector for wireless
connectivity between your computer and peripheral devices. It
supports peripheral devices that meet the IrDA or ASKIR standard.

USB Ports

The system board is equipped with two USB ports. USB allows
data exchange between your computer and a wide range of
simultaneously accessible external Plug and Play peripherals.

1

Introduction

11

BIOS

 Award BIOS, Windows® 95/98/2000 Plug and Play compatible
 Supports SCSI sequential boot-up
 Flash EPROM for easy BIOS upgrades (4Mbit)
 Includes Symbios Logic SCSI BIOS
 Supports DMI 2.0 function

Desktop Management Interface (DMI)

The system board comes with a DMI 2.0 built into the BIOS. The
DMI utility in the BIOS automatically records various information
about your system configuration and stores these information in the
DMI pool, which is a part of the system board's Plug and Play
BIOS. DMI, along with the appropriately networked software, is
designed to make inventory, maintenance and troubleshooting of
computer systems easier. Refer to chapter 4 for instructions on using
the DMI utility.

1.1.2 System Health Monitor Functions

The system board is capable of monitoring the following system
health conditions.

 Monitors CPU/system temperature and overheat alarm
 One optional temperature sensor for user customization
 Monitors 5VSB/VBAT/1.5V/3.3V/5V/±12V/CPU voltages and

failure alarm

 Monitors the fan speed of the CPU fan, chassis fan and second

fan; controls the fan speed of the CPU and chassis fans; and

failure alarm
 Automatic CPU and chassis fans on/off control
 Read back capability that displays temperature, voltage and fan

speed
 Opened chassis alarm
 Supports Intel® processor thermal diode output (real processor

temperature)

Refer to the PC Health Status section in chapter 3 and the
Hardware Doctor section in chapter 4 for more information.

Introduction

1

12

1.1.3 Intelligence

Automatic CPU/Chassis Fan Off

The CPU and chassis fans will automatically turn off once the system
enters the Suspend mode.

Dual Function Power Button

Depending on the setting in the Soft-Off By PWR-BTTN field of
the Power Management Setup, this switch will allow the system to

enter the Soft-Off or Suspend mode.

Wake-On-Ring

This feature allows the system that is in the Suspend mode or Soft
Power Off mode to wake-up/power-on to respond to calls coming
through an internal or external modem. Refer to Wake-On-Ring
Connector in chapter 2 and Resume On Ring in the Power
Management Setup section in chapter 3 for more information.

Important:

If you are using a modem add-in card, the 5VSB power source
of your power supply must support ≥720mA.

Wake-On-LAN

The Wake-On-LAN function allows the network to remotely wake
up a Soft Power Down (Soft-Off) PC. Your LAN card must support
the remote wakeup function. Refer to Wake-On-LAN Connector in
chapter 2 and Resume On LAN in the Power Management Setup
section in chapter 3 for more information.

Important:

The 5VSB power source of your power supply must support

≥

720mA.

1

Introduction

13

Wake-On-Keyboard/Wake-On-Mouse

This function allows you to use the keyboard or PS/2 mouse to
power-on the system. Refer to Jumper Settings for Wake-On­Keyboard/Wake-On-Mouse in chapter 2 and Keyboard/Mouse
Power On in the Integrated Peripherals section in chapter 3 for
more information.

Important:

 The power button will not function once a keyboard

password has been set in the KB Power On Password
field of the Integrated Peripherals submenu. You must type
the correct password to power-on the system. If you forgot
the password, power-off the system and remove the
battery. Wait for a few seconds and install it back before
powering-on the system.

 The 5VSB power source of your power supply must

support ≥720mA.

Wake-On-USB Keyboard

The Wake-On-USB Keyboard function allows you to use a USB
keyboard to wake up a system that is in the S3 (STR - Suspend To
RAM) state. Refer to Jumper Settings for Wake-On-USB Keyboard
in chapter 2 and USB KB Wake-Up From S3 in the Power
Management Setup section in chapter 3 for more information.

Important:

The 5VSB power source of your power supply must support

≥

1.5A.

RTC Timer to Power-on the System

The RTC installed on the system board allows your system to
automatically power-on on the set date and time. Refer to Resume
On Alarm in the Power Management Setup section in chapter 3 for
more information.

Introduction

1

14

ACPI STR

The system board is designed to meet the ACPI (Advanced
Configuration and Power Interface) specification. ACPI has energy
saving features that enables PCs to implement Power Management
and Plug-and-Play with operating systems that support OS Direct
Power Management. Currently, only Windows® 98/2000 supports
the ACPI function. ACPI when enabled in the Power Management
Setup will allow you to use the Suspend to RAM function.

With the Suspend to RAM function enabled, you can power-off
the system at once by pressing the power button or selecting
Standby when you shut down Windows® 98/2000 without having
to go through the sometimes tiresome process of closing files,
applications and operating system. This is because the system is
capable of storing all programs and data files during the entire
operating session into RAM (Random Access Memory) when it
powers-off. The operating session will resume exactly where you left
off the next time you power-on the system. Refer to Using the

Suspend to RAM Function in appendix A for more information.

Important:

The 5VSB power source of your power supply must support

≥

1A.

AC Power Failure Recovery

When power returns after an AC power failure, you may choose to
either power-on the system manually, let the system power-on
automatically or return to the state where you left off before power
failure occurs. Refer to PWR Lost Resume State in the Integrated
Peripherals section in chapter 3 for more information.

Year 2000 Compliant

 Supports hardware Y2K function.
 Supports hardware Random Number Generator (RNG) to en-

able a new security and manageability infrastructure for PC.

1

Introduction

15

Virus Protection

Most viruses today destroy data stored in hard drives. The system
board is designed to protect the boot sector and partition table of
your hard disk drive.

1.2 Package Checklist

The system board package contains the following items:

þ The system board
þ A users manual
þ One card-edge bracket with a serial port
þ One IDE cable for ATA/66 IDE drives
þ One 34-pin floppy disk drive cable
þ One Main Board Utility CD
¨ One CyberLink PowerDVD CD (optional)

If any of these items are missing or damaged, please contact your
dealer or sales representative for assistance.

2

16

Hardware Installation

2.1 System Board Layout

Chapter 2 - Hardware Installation

CS65-SC

2

Hardware Installation

17

CS65-SU

2

18

Hardware Installation

2.2 System Memory

The system board is equipped with four
168-pin DIMM (Dual In-line Memory
Module) sockets that support unbuffered
PC-133/PC-100 SDRAM DIMM for
133MHz/100MHz system memory bus.
PC SDRAM (Synchronous Dynamic
Random Access Memory) is a fast
memory interface technology that uses
the clock on the chip to synchronize with
the CPU clock so that the timing of the
memory chips and the timing of the
CPU are synchronized. This saves time
during transmission of data, subsequently increasing system
performance.

You can use single-sided or double-sided DIMMs. 16MB, 32MB,
64MB and 128MB are single-sided DIMMs. 32MB, 64MB, 128MB
and 256MB are double-sided DIMMs. The following rules must be
followed when installing DIMM modules.

Warning:

Electrostatic discharge (ESD) can damage your system board,
processor, disk drives, add-in boards, and other components. Perform
the upgrade instruction procedures described at an ESD workstation
only. If such a station is not available, you can provide some ESD
protection by wearing an antistatic wrist strap and attaching it to a
metal part of the system chassis. If a wrist strap is unavailable,
establish and maintain contact with the system chassis throughout
any procedures requiring ESD protection.

DIMM Socket

DIMM 1
DIMM 2
DIMM 3

DIMM 4

SDRAM DIMM

Supports single-sided or double-sided DIMM.
Supports single-sided or double-sided DIMM.
 If you use double-sided DIMM, leave DIMM 4 empty.

 If you use single-sided DIMM, only install single-sided DIMM in

DIMM 4.

Only supports single-sided DIMM and can be used only if DIMM 3
is installed with single-sided DIMM too.

2

Hardware Installation

19

Some double-sided DIMMs may come with memory chips mounted
on one side of the module only and are easily mistaken as single­sided DIMMs. Relevant to the rules on DIMM installation, it is very
important that you know the type of DIMM you are using in DIMM
3 as this will affect the module you are going to use in DIMM 4. The
best way to identify the DIMM is to refer to the boot-up screen.

When you power-on the system, the boot-up screen shows the
systems configuration. Press the <Pause> key to halt scrolling so
that the systems configuration can be read. If it is assumed that
DIMM 3 is installed with single-sided DIMM (with memory chips on
one side of the module only) but the SDRAM at Row(s) field
shows 0 1 2 3 4 5, it means the module is a double-sided DIMM.
If the field shows 0 1 2 3 4, it means the module is actually a
single-sided DIMM.

The System Memory Frequency field in the Advanced Chipset
Features submenu of the BIOS must be set according to the type of
PC SDRAM DIMM used.

The onboard VGA shares 1MB of the system memory. This is fixed
regardless of the size of the system memory. Aside from the 1MB
shared memory, it also uses Dynamic Video Memory Technology
(DVMT). DVMT freely changes in size because graphics memory is
allocated from the system memory according to current needs.

2

20

Hardware Installation

2.2.1 Display Cache Using 4MB GPA Card

4MB display cache is supported only when an optional 4MB GPA
(Graphics Performance Accelerator) card is installed in the AGP slot.

The Display Cache Frequency field in the Advanced Chipset
Features submenu of the BIOS must be set according to the
frequency of the GPA card used.

The system board comes with a GPA retention module already
installed onto the AGP slot. The retention module is used to hold the
optional GPA card onto the slot and helps you install the card in the
correct orientation.

Installing the GPA Card

1. Position the GPA card in a 45 degree angle, making sure the

cards Fastening Latch hooks into the retention modules Notch.

2

Hardware Installation

21

2. Once the Fastening Latch is engaged, push down firmly the
opposite side of the GPA card. As the GPA card is being
pushed down, the cards Retention Bar will pass the retention
modules Retainer Tab slightly pushing away the Actuator Arm.
Once the card is fully inserted into the slot, the Retention Bar will
appear underneath the Retainer Tab.

Uninstalling the GPA Card

1. Push back the Actuator Arm to free the cards Retention Bar
from the Retainer Tab, then lift the card up until it is freed from
the AGP slot.

2

22

Hardware Installation

2. Slightly move the card sideways to free the Fastening Latch from
the retention modules Notch.

1. Pull the tabs which are at the ends of the socket to the side.

2. Position the DIMM above the socket with the notches in the
module aligned with the keys on the socket.

3. Seat the module vertically into the socket. Make sure it is
completely seated. The tabs will hold the DIMM in place.

Pin 1

Notch

Key

Tab

Tab

2.2.2 Installing the DIM Module

A DIM module simply snaps into a DIMM socket on the system
board. Pin 1 of the DIM module must correspond with Pin 1 of the
socket.

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Hardware Installation

23

2.3 Jumper Settings for Selecting the CPUs Front
Side Bus

CPU Front Side Bus Select - Jumpers JP9 and JP10

The default setting of jumpers JP9 and
JP10 is Auto - the system will
automatically run according to the FSB
of the processor. The table below shows
the settings for different CPU and
DIMM combinations.

Warning:

Some processors, when overclocked, may result to the
processors or systems instability and are not guaranteed to
provide better system performance. If you are unable to boot
your system due to overclocking, make sure to set these
jumpers back to their default settings.

CPU/DIMM

Auto*

66/100MHz

100/100MHz

133/100MHz

133/133MHz

JP9

1-2 On

2-3 On

All Off

All Off

2-3 On

JP10

1-2 On

2-3 On

2-3 On

All Off

All Off

* denotes default setting

2-3 On

1-2 On All Off

123 123 123

2

24

Hardware Installation

2.4 Jumper Settings for Clearing CMOS Data

Clear CMOS Data - Jumper JP2

If you encounter the following,

a) CMOS data becomes corrupted.
b) You forgot the supervisor or user

password.

c) You are unable to boot-up the

computer system because the
processors clock/ratio was incorrectly
set in the BIOS.

you can reconfigure the system with the
default values stored in the ROM BIOS.

To load the default values stored in the
ROM BIOS, please follow the steps below.

1. Power-off the system.

2. Set JP2 pins 2 and 3 to On. Wait for a few seconds and set JP2
back to its default setting, pins 1 and 2 On.

3. Now power-on the system.

If your reason for clearing the CMOS data is due to incorrect
setting of the processors clock/ratio in the BIOS, please proceed
to step 4.

4. After powering-on the system, press <Del> to enter the main
menu of the BIOS.

5. Select the CPU Frequency Control submenu and press <Enter>.

6. Set the CPU Clock/Spread Spectrum or CPU Clock Ratio
field to its default setting or an appropriate bus clock or
frequency ratio. Refer to the CPU Frequency Control section in
chapter 3 for more information.

2

Hardware Installation

25

2-3 On:

Clear CMOS Data

1-2 On: Normal

(default)

2.5 Jumper Settings for Wake-On-Keyboard/
Wake-On-Mouse

Wake-On-Keyboard/Wake-On-Mouse - Jumper JP5

The Wake-On-Keyboard/Wake-On­Mouse function allows you to use the
keyboard or PS/2 mouse to power-on
the system. By default, JP5 is disabled. To
use this function, set JP5 to 2-3 On.
Keyboard/Mouse Power On in the
Integrated Peripherals submenu of the
BIOS must be set accordingly. Refer to
chapter 3 for details.

Warning:

1. If JP5 was enabled with a
password set in the KB Power
On Password field, and now you wish to disable the
keyboard password function, make sure to set the
Keyboard/Mouse Power On field to Disabled prior to
setting JP5 to disabled. You will not be able to boot up the
system if you fail to do so.

2. The power button will not function once a keyboard
password has been set in the KB Power On Password
field of the Integrated Peripherals submenu. You must type
the correct password to power-on the system.

7. Press <Esc> to return to the main menu of the BIOS setup
utility. Select Save & Exit Setup and press <Enter>.

8. Type <Y> and press <Enter>.

12 3 123

2

26

Hardware Installation

2.6 Jumper Settings for Wake-On-USB Keyboard

Wake-On-USB Keyboard - Jumper JP12

The Wake-On-USB Keyboard function
allows you to use a USB keyboard to
wake up a system that is in the S3 (STR

- Suspend To RAM) state. By default,
JP12 is disabled. To use this function, set
JP12 to 2-3 On. USB KB Wake-Up
From S3 in the Power Management
Setup submenu of the BIOS must also
be enabled.

Important:

The 5VSB power source of your
power supply must support

≥

1.5A.

2-3 On: Enable1-2 On: Disable

(default)

2-3 On: Enable

1-2 On: Disable

(default)

3. The 5VSB power source of your power supply must
support ≥720mA.

1

2

3

1

2

3

1

2

3

1

2

3

2

Hardware Installation

27

2.7 Jumper Settings for the Onboard Audio Codec
(CS65-SC only)

Onboard Audio Codec Settings - Jumper JP7

This jumper is used to enable or disable
the audio codec (AC97) on the system
board. By default, the onboard audio
codec is enabled. If you are using the
AMR cards audio codec, set pins 2 and
3 to On. Please refer to the following
table on how the jumper and the BIOS
should be configured in different
situations or system configurations.

1-2 On:

Enable the Onboard

Audio Codec

(default)

2-3 On:

Disable the Onboard

Audio Codec

123

123

Important:

 The CS65-SC system board only supports secondary

modem riser card.

 The CS65-SU system board only supports primar y modem

riser card.

2

28

Hardware Installation

Nomenclature
BIOS - AC97 Audio : Refers to the AC97 Audio field in the Integrated Peripherals

submenu.

BIOS - AC97 Modem : Refers to the AC97 Modem field in the Integrated

Peripherals submenu.

Onboard audio

(primary)

No card in AMR or

PCI slot

JP7: enable
BIOS - AC97 Audio: auto

+

=

1.

Primary audio riser

in AMR slot

JP7: disable
BIOS - AC97 Audio: auto

=

2.

Onboard audio

(primary)

Secondary audio
riser in AMR slot

JP7: enable
BIOS - AC97 Audio: auto

+

=3.

Onboard audio

(primary)

Secondary modem

riser in AMR slot

JP7: enable
BIOS - AC97 Audio: auto
BIOS - AC97 Modem: auto

+

=

4.

Onboard audio

(primary)

PCI modem card

in PCI slot

JP7: enable
BIOS - AC97 Audio: auto
BIOS - AC97 Modem: disable

+

=

5.

PCI sound card

in PCI slot

Primary modem
riser in AMR slot

JP7: disable
BIOS - AC97 Audio: disable
BIOS - AC97 Modem: auto

+

=

7.

PCI sound card

in PCI slot

Secondary modem

riser in AMR slot

JP7: enable
BIOS - AC97 Audio: disable
BIOS - AC97 Modem: auto

+

=

8.

PCI sound card

in PCI slot

PCI modem card

in PCI slot

JP7: no effect; ignore
BIOS - AC97 Audio: disable
BIOS - AC97 Modem: disable

+

=

9.

PCI sound card

in PCI slot

JP7: no effect; ignore
BIOS - AC97 Audio: disable

=

6.

Audio Modem riser

in AMR slot

JP7: disable
BIOS - AC97 Audio: auto
BIOS - AC97 Modem: auto

=

10.

2

Hardware Installation

29

2.8 Jumper Settings for the Systems Beep Message

Systems Beep Message Output Select - Jumper JP8

This jumper is used to select the
speaker from which the systems beep
message will sound. If you want the
systems beep message to come from
the external speaker that is connected
to the line-out jack, set this jumper pins
1 and 2 to On. If you want the systems
beep message to come from the PCs
speaker, set this jumper pins 2 and 3 to
On.

2-3 On:

PCs speaker

(default)

1-2 On:

External speaker

3

2

1

3

2

1