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Hetis 865GV-E
User Manual
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MSI Hetis 865GV-E User Manual

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User’s Guide
Hetis 865GV-E
G52-B6279X1
ii
FCC-B Radio Frequency Interference Statement
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 commercial environment. 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. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at his own expense.
Notice 1
Notice 2
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference
that may cause undesired operation.
Micro-Star International
Hetis 865GV-E
iii
Macrovision
®
Statement
Copyright Notice
but no guarantee is given as to the correctness of its contents. Our products are under continual improvement and we reserve the right to make changes without notice.
iv
Trademarks
All trademarks are the properties of their respective owners. Intel® and Pentium® are registered trademarks of Intel Corporation. PS/2 and OS®/2 are registered trademarks of International Business Machines Corporation. Windows® 95/98/2000/NT/XP are registered trademarks of Microsoft Corporation. Netware® is a registered trademark of Novell, Inc. Award® is a registered trademark of Phoenix Technologies Ltd. AMI® is a registered trademark of American Megatrends Inc.
Revision History
Revision Revision History Date
V1.0 First Release September 2004
v
CONTENTS
Chapter 1. Getting Started........................................................1-1
1.1 System Specifications.................................................1-2
1.2 System Configuration..................................................1-4
Front Panel...............................................................1-4
Rear Panel...............................................................1-5
Chassis Design..........................................................1-6
1.3 Thermal Solution........................................................1-7
Chapter 2. Introducing Mainboard.............................................2-1
2.1 Mainboard Layout.......................................................2-2
2.2 CPU...........................................................................2-3
2.3 Memory.....................................................................2-3
Memory Speed /CPU FSB Support Matrix....................2-3
DDR Population Rules...............................................2-4
DDR Module Combination......................................2-4
Installing DDR Modules............................................2-5
2.4 Power Supply.............................................................2-6
2.5 Front Panel.................................................................2-7
SPDIF-Out Jack.........................................................2-7
Audio Ports...............................................................2-7
USB Ports.................................................................2-8
IEEE 1394 Port: J1394-2.............................................2-8
2.6 Rear Panel.................................................................2-9
Mouse/Keyboard Connectors......................................2-9
Audio Ports...............................................................2-10
Composite Connector: TV1........................................2-10
RJ45 LAN Jack..........................................................2-11
USB Ports.................................................................2-11
Parallel Port..............................................................2-12
DVI Connector: DVI1 (optional).................................2-13
vi
IEEE1394 Port: J1394-1..............................................2-14
VGA Port..................................................................2-14
Serial Port.................................................................2-15
2.7 Connectors.................................................................2-16
IDE Connector: IDE1.................................................2-16
Serial ATA Connectors: SATA1/SATA2.......................2-16
Front Panel Connector: JFP1......................................2-17
CD-in Connector: JCD1.............................................2-17
Fan Power Connectors...............................................2-18
On-Board S-Video Out Connector: JTV1.....................2-18
Internal Speaker Connector: CON1............................2-18
Front USB Connector: J3...........................................2-19
2.8 Jumpers......................................................................2-20
Clear CMOS Jumper: JBAT1......................................2-20
2.9 Slots...........................................................................2-21
PCI Interrupt Request Routing....................................2-21
Chapter 3: System Assembly......................................................3-1
3.1 Overview...................................................................3-2
3.2 Installation Procedures................................................3-4
1. Removing Cover,Front Bezel, Drives Cage
and HDD tray.......................................................3-4
2. Installing Memory Modules....................................3-7
3. Installing CPU......................................................3-8
4. Releasing Coolor Clips..........................................3-9
5. Installing CPU Cooler...........................................3-10
6. Installing HDD.....................................................3-12
7. Installing Optical Drive and Card Reader...............3-14
8. Replacing Chassis Cover.......................................3-20
Chapter 4: BIOS Setup..............................................................4-1
4.1 Entering Setup............................................................4-2
Selecting the First Boot Device..................................4-2
vii
Control Keys.............................................................4-3
Getting Help.............................................................4-3
Main Menu...............................................................4-3
Default Settings........................................................4-3
4.2 The Main Menu..........................................................4-4
4.3 Standard CMOS Features.............................................4-6
4.4 Advanced BIOS Features.............................................4-8
4.5 Advanced Chipset Features.........................................4-12
4.6 Power Management Features.......................................4-14
4.7 PNP/PCI Configurations...............................................4-18
4.8 Integrated Peripherals..................................................4-21
4.9 PC Health Status........................................................4-26
4.10 Frequency/Voltage Control........................................4-27
4.11 Set Supervisor/User Password.....................................4-29
4.12 Load Optimal/Fail Safe Defaults...............................4-30
Chapter 5. Using 4- or 6-Channel Audio Function........................5-1
5.1 Installing the Audio Drivers..........................................5-2
5.2 Using Audio Function..................................................5-4
5.3 Testing the Connected Speakers...................................5-8
5.4 Playing KaraOK..........................................................5-10
viii
Safety Instructions
1. Always read the safety instructions carefully.
2. Keep this User’s Manual for future reference.
3. Keep this equipment away from humidity.
4. Lay this equipment on a reliable flat surface before setting it up.
5. The openings on the enclosure are for air convection hence pro tects the equipment from overheating. DO NOT COVER THE OPENINGS.
6. Make sure the voltage of the power source and adjust properly 115/230V before connecting the equipment to the power inlet.
7. Place the power cord such a way that people can not step on it. Do not place anything over the power cord.
8. Always Unplug the Power Cord before inserting any add-on card or module.
9. All cautions and warnings on the equipment should be noted.
10. Never pour any liquid into the opening that could damage or cause electrical shock.
11. If any of the following situations arises, get the equipment checked by a service personnel:
- The power cord or plug is damaged.
- Liquid has penetrated into the equipment.
- The equipment has been exposed to moisture.
- The equipment has not work well or you can not get it work according to User’s Manual.
- The equipment has dropped and damaged.
- The equipment has obvious sign of breakage.
12. Do not leave this equipment in an unconditioned environment with storage temperature above 600 C (1400F). Extreme heat may damage the equipment.
CAUTION: Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer.
Getting Started
1
Congratulations for purchasing Hetis 865GV-E (MS-6279)
barebone. Hetis barebone is your best Slim PC choice. Based on
the “all-in-one” design idea, Hetis provides USB ports and optional TV-out jack, DVI jack and 1394 ports. With the fantastic appear-
ance and small form factor, it can easily be set anywhere. The feature packed platform also gives you an exciting PC experience.
Chapter 1
1-2
1.1 System Specifications
Mainboard Model
MS-7065 v1.0, 320mm (L) x 195mm (W), 6 mounting holes, 4-layer proprietary
form factor
CPU
Supports Socket 478 for Intel® Pentium™ 4/Northwood FSB800 processor
up to 3.0 GHz and Prescott up to 3.4GHz (For the latest information about CPU, please visit http://www.msi.com.tw/ program/products/mainboard/mbd/pro_mbd_cpu_support.php)
Chipset
Intel
®
865GV chipset
- Supports FSB 800/533/400 MHz
- Supports integrated graphics
- Supports DDR 400/333/266 memory interface
Intel® ICH5 chipset
- Hi-Speed USB (USB2.0) controller, 480Mb/sec, 8 ports
- 2 Serial ATA/150 ports
- 2 channel Ultra ATA 100 bus Master IDE controller.
- PCI Master v2.3, I/O APIC
- Supports both ACPI and legacy APM power management
Main Memory
Two 184-pin DDR DIMM slots Supports dual channel DDR 400/333/266 memory up to 2GB
(For the updated supporting memory modules, please visit http://www.msi. com.tw/program/products/mainboard/mbd/pro_mbd_trp_list.php.)
Slot
PCI2.2 slots x 2 through riser card bracket
On-Board Peripherals
Front I/O
- Audio Ports (Line-Out x 1, Mic-In x 1)
- USB2.0 Ports x 4
- Optical SPDIF-Out x 1
- IEEE1394 (4 pins) x 1 (optional)
Getting Started
1-3
Rear I/O
- PS/2 keyboard/Mouse x 1
- Serial Ports x 2
- Parallel Port x 1
- VGA Port x 1
- DVI connector for LCD monitor x 1 (optional)
- TV-Out Connector x 1 (optional)
- S-Video Connector x 1 (optional)
- Audio Ports (Line-In x 1, Line-Out x 1, Mic-In x 1)
- USB2.0 Ports x 2
- RJ45 LAN Jack x 1
- IEEE1394 (6 pins) x 1 (optional)
Internal I/O
- IDE (2x20) x 1
- CD Audio Input (1x4) x 1
- Internal Speaker Header x 1
- I2C Connector x 1
- Internal USB Connector (1x10) x 1
Audio
AC’97 link controller integrated in ICH5Realtek ALC655 6-channel audio
- AC’97 v2.3 compliance
Onboard Amplifier: Analog Device SSM2211S
LAN
10/100/1000 Controller: Realtek 8110S
IEEE1394
VIA6307 (2 ports)
On-Board Graphics
Integrated in Intel
®
865GV chipset
Chassis Dimension
309mm (H) x 85mm (W) x 325mm (D)
Chapter 1
1-4
Front View
1. Power Switch 6. 4-pin IEEE 1394 Port (optional)
2. Power LED 7. 4 x USB 2.0 Ports
3. HDD LED 8. Mic-in (pink), Line-out (green)
4. Optical Drive (optional) 9. SPDIF-out
5. Card Reader (optional)
1.2 System Configuration
Getting Started
1-5
Rear View
1. Mic-in 10. Power Jack
2. Line-in 11. S-Video out (optional)
3. Line-out 12. Serial Ports
4. AV-out (optional) 13. Parallel Port
5. DVI Port (optional) 14. PCI Slots
6. VGA Port 15. RJ-45 LAN Jack
7. 2 x USB 2.0 Ports 16. PS/2 Mouse
8. PS/2 Keyboard 17. Voltage Selector (115/230V)
9. 6-pin IEEE 1394 Port (optional) 18. Ventilation Hole
Chapter 1
1-6
Chassis Design
Dimension: 309mm (H) x 85mm (W) x 325mm (D) Minimized screw structure Detachable bay housing Multiple ventilation holes
1. CPU Fan Ventilation Hole 5. System Ventilation Holes
2. CPU Fan Ventilation Hole 6. Power Supply Ventilation Hole
3. System Fan Ventilation Hole 7. Front I/O Release Button
4. Built-in Speaker
Getting Started
1-7
1.3 Thermal Solution
To prevent the system from overheating, we have adopted a specially
designed CPU cooler and multiple ventilation holes for better cooling effects. The specially designed CPU cooler supports Intel Northwood FSB 800 CPU up to 3.0GHz and Prescott up to 3.4GHz and above. The following figures illustrate how the system fan effectively exhausts hot air through multiple ventilation holes.
CPU Fan
Air Flow Direction
CPU Fan
Air In
Air Out
Chapter 1
1-8
Power Supply
Po wer Supply Fan
Ventilation Hole
System Fan
Ventilation Hole
Ventilation Hole
CPU Fan
Ventilation Hole
front panel
Getting Started
1-9
System Air Flow Direction
After the installation is completed, please keep other objects away from the ventilation hole at least 2.5cm and above. Do not block the ventila­tion hole.
System Fan
CPU Cooler
Power Supply
Po wer Supply Fan
front panel
2
This chapter tells you basics of the CPU, memory modules, and expansion cards, as well as how to setup the jumpers on the mainboard. Also, it provides the instructions on connecting the peripheal devices, such as the mouse, keyboard, etc.
While doing the installation, be careful in holding the compo­nents and follow the installation procedures.
Introducing Mainboard
Chapter 2
2-2
2.1 Mainboard Layout
MS-7065 (V1.X) Mainboard
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Intel 865GV chipset
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Introducing Mainboard
2-3
The mainboard supports Intel® Pentium
TM
4 Northwood/Prescott
2.2 CPU
Note:
1. Read the instructions on the cooler before you start the installation.
2. Overheating will seriously damage the CPU and system, always make sure the cooling fan can work properly to protect the CPU from overheating.
3. While replacing the CPU, always turn off the ATX power supply or unplug the power supply’s power cord from grounded outlet first to ensure the safety of CPU.
The mainboard provides two sockets for 184-pin DDR SDRAM DIMM (Double In-Line Memory Module) and supports the memory size up to 2 GB. You can install PC3200/DDR400, PC2700/DDR333 or PC2100/DDR266 modules into the DDR DIMM slots. (For the updated supporting memory modules, please visit http://www.msi.com.tw/program/products/mainboard/mbd/ pro_mbd_trp_list.php.)
2.3 Memory
Memory Speed/CPU FSB Support Matrix
DDR266 DDR333 DDR400 FSB400 OK N/A N/A FSB533 OK OK N/A FSB800 OK OK OK
FSB
Memory
Chapter 2
2-4
Install at least one DIMM module into the slots. Memory modules can be installed into the slots in any order. You can install either single or double­sided modules to meet your need.
S (Single Side): 64MB ~ 512MB D (Double Side): 128MB ~ 1GB
Combination
Slot
1 2
DDR 1
S/D S/D
DDR 2
S/D S/D
Total Memory
64MB~2GB 64MB~2GB
DDR Module Combination
DDR Population Rules
Install at least one DIMM module on the slots. Each DIMM slot supports
Users have to use the same type and density memory modules while using dual-channel DDR, or instability may happen.
Introducing Mainboard
2-5
will only fit in the right orientation.
push it in.
3. The plastic clip at each side of the DIMM slot will automatically close.
Vo lt
no tc h
Installing DDR Modules
Chapter 2
2-6
ATX 20-Pin Power Connector: ATX1
This connector allows you to connect to an ATX power supply. To connect to the ATX power supply, make sure the plug of the power supply is inserted in the proper orientation and the pins are aligned. Then push down the power supply firmly into the connector. The power connector supports instant power on function which means that system will boot up immediately when the power supply connector is inserted on the board.
ATX 12V Power Connector: JPW1
This 12V power connector is used to provide power to the CPU.
2.4 Power Supply
JPW1
1
3
2
4
ATX1
10
1
20 11
PIN SIGNAL
1 GND 2 GND 3 12V 4 12V
JPW1 Pin Definition
PIN SIGNAL
11 3.3V 12 -12V 13 GND 14 PS_ON 15 GND 16 GND 17 GND 18 -5V 19 5V 20 5V
PIN SIGNAL
1 3.3V 2 3.3V 3 GND 4 5V 5 GND 6 5V 7 GND 8 PW_OK 9 5V_SB 10 12V
ATX1 Pin Definition
Introducing Mainboard
2-7
2.5 Front Panel
Audio Ports
These audio ports allow you to connect the front audio device.
SPDIF-Out Jack
The connector allows you to connect to Sony & Philips Digital Inter­face (SPDIF), developed jointly by the Sony and Philips corporations . A standard audio file transfer format, SPDIF allows the transfer of digital audio signals from one device to another without having to be converted first to an analog format.
Min i IEEE 1394 Por t:
J1394- 2
USB P orts
Audio Por ts
Optical SPD IF-Out
MIC-in
Line-out
Chapter 2
2-8
USB Ports
The mainboard provides a UHCI (Universal Host Controller Interface) Universal Serial Bus root for attaching USB devices such as keyboard, mouse or other USB-compatible devices. You can plug the USB devices directly into these connectors. The mainboard supports USB 1.1 & 2.0 devices.
Mini IEEE 1394 Port: J1394-2
The mainboard provides one mini IEEE 1394 port. It is designed for you to connect the IEEE 1394 device with external power. The IEEE 1394 high­speed serial bus complements USB by providing enhanced PC connectivity for a wide range of devices, including consumer electronics audio/video (A/V) appliances, storage peripherals, other PCs, and portable devices.
Software Support
IEEE 1394 Driver is provided by Windows® 98 SE, Windows® XP, Windows® ME and Windows® 2000. Just plug in the IEEE 1394 connector into the port. These Operating Systems will install the driver for IEEE 1394.
PIN SIGNAL DESCRIPTION
1 VCC +5V 2 -Data 0 Negative Data Channel 0 3 +Data0 Positive Data Channel 0 4 GND Ground 5 VCC +5V 6 -Data 1 Negative Data Channel 1 7 +Data 1 Positive Data Channel 1 8 GND Ground
USB Port Description
Introducing Mainboard
2-9
The Rear Panel provides the following connectors:
Mouse/Keyboard Connectors
The mainboard provides two standard PS/2® mini DIN connectors for attaching PS/2® mouse and keyboard.
2.6 Rear Panel
PS/2 Keyboard (6-pin Female)
2
1
3
4
5
6
1
2
3
4
5
6
PS/2 Mouse (6-pin Female)
MIC -inLine-in
Line-out
TV1
DVI Port
VGA Port
USB P orts
KeyboardJ1394- 1
COM
Parallel Port
LAN Jack
Mouse
PIN SIGNAL DESCRIPTION
1 Mouse DATA Mouse DATA 2 NC No connection 3 GND Ground 4 VCC +5V 5 Mouse Clock Mouse clock 6 NC No connection
Mouse Pin Definition
PIN SIGNAL DESCRIPTION
1 Keyboard DATA Keyboard DATA 2 NC No connection 3 GND Ground 4 VCC +5V 5 Keyboard Clock Keyboard clock 6 NC No connection
Keyboard Pin Definition
Chapter 2
2-10
TV1
Connector
TV
Projector
The mainboard supports 4- or 6- channel audio function. For more information, refer to Appendix.
Audio Ports
Line Out is a connector for Speakers or Headphones. Line In is used for
Composite Connector: TV1
You can connect a TV or video device to TV1 connector for video-out function which allows you to output the image to a TV or video device.
1/8” Stereo Audio Connectors
Line Out Line In MIC
Introducing Mainboard
2-11
RJ-45 LAN Jack
The mainboard provides one standard RJ-45 jack for connection to Local Area Network (LAN). You can connect a network cable to the LAN jack. This Giga-bit LAN enables data to be transferred at 1000, 100 or 10Mbps.
USB Ports
The mainboard provides a UHCI (Universal Host Controller Interface) Universal Serial Bus root for attaching USB devices such as keyboard, mouse or other USB-compatible devices. You can plug the USB device directly into the connector. The mainboard supports USB1.1 & 2.0 devices.
PIN SIGNAL DESCRIPTION
1 VCC +5V 2 -Data 0 Negative Data Channel 0 3 +Data0 Positive Data Channel 0 4 GND Ground 5 VCC +5V 6 -Data 1 Negative Data Channel 1 7 +Data 1 Positive Data Channel 1 8 GND Ground
USB Port Description
RJ45 LAN Jack
USB Ports
1 2 3 4
5 6 7 8
Giga-bit LAN Pin Definition
PIN SIGNAL DESCRIPTION
1 D0P Differential Pair 0+ 2 D0N Differential Pair 0­3 D1P Differential Pair 1+ 4 D2P Differential Pair 2+ 5 D2N Differential Pair 2­6 D1N Differential Pair 1­7 D3P Differential Pair 3+ 8 D3N Differential Pair 3-
Chapter 2
2-12
13 1
1425
PIN SIGNAL DESCRIPTION
1 STROBE Strobe 2 DATA0 Data0 3 DATA1 Data1 4 DATA2 Data2 5 DATA3 Data3 6 DATA4 Data4 7 DATA5 Data5 8 DATA6 Data6 9 DATA7 Data7 10 ACK# Acknowledge 11 BUSY Busy 12 PE Paper End 13 SELECT Select 14 AUTO FEED# Automatic Feed 15 ERR# Error 16 INIT# Initialize Printer 17 SLIN# Select In 18 GND Ground 19 GND Ground 20 GND Ground 21 GND Ground 22 GND Ground 23 GND Ground 24 GND Ground 25 GND Ground
Pin Definition
Parallel Port
The mainboard provides a 25-pin female centronic connector as LPT. A parallel port is a standard printer port that supports Enhanced Parallel Port (EPP) and Extended Capabilities Parallel Port (ECP) mode.
Introducing Mainboard
2-13
Pin
1 2 3 4 5 6 7 8
9 10 11 12
DVI-I Connector
Signal Assignment
T.M.D.S.* Data2­T.M.D.S. Data2+ T.M.D.S. Data2/4 Shield T.M.D.S. Data4­T.M.D.S. Data4+ DDC Clock DDC Data N/C T.M.D.S. Data1­T.M.D.S. Data1+ T.M.D.S. Data1/3 Shield T.M.D.S. Data3-
Pin
13 14 15 16 17 18 19 20 21 22 23 24
Signal Assignment
T.M.D.S. Data3+ +5V GND (for +5V) Hot Plug Detect T.M.D.S. Data0­T.M.D.S. Data0+ T.M.D.S. Data0/5 Shield T.M.D.S. Data5­T.M.D.S. Data5+ T.M.D.S. Clock Shield T.M.D.S. Clock+ T.M.D.S. Clock-
C 1 Analog Red C 2 Analog Green C 3 Analog Blue
*T.M.D.S. Technology The graphics data sent to the digital monitor use Transition Minimized Differential Signalling (T.M.D.S.) technology. TMDS uses an encoding algorithm to 8-bit of data into a 10-bit transition minimized, DC balanced character, which are transition-minimized to reduce EMI with copper cables and DC-balanced for transmission over fiber optic cables. The TMDS algorithm also provides robust clock recovery for greater skew tolerance with longer cables or low cost short cables.
- No analog output in this model.
DVI Connector: DVI1 (Digital Output Only, optional)
The mainboard provides a DVI (Digital Visual Interface) connector which allows you to connect an LCD monitor. The DVI connector provides a high­speed digital interconnection between the computer and its display device.
C1
C2
C3
1
8
1 7 24
Chapter 2
2-14
IEEE 1394 Port: J1394-1
The bigger 6-pin IEEE 1394 Port on the back panel is designed for you to connect IEEE 1394 devices without external power. That means the mainboard can provide the power for the devices connected to this port.
VGA Port
The mainboard provides one DB 15-pin female connector to connect a
VGA monitor.
Software Support
IEEE 1394 Driver is provided by Windows® 98 SE, Windows® XP, Windows® ME and Windows® 2000. Just plug in the IEEE 1394 connector into the port. These Operating Systems will install the driver for IEEE 1394.
VGA Port Pin Definition
PIN SIGNAL DESCRIPTION
1 Red 2 Green 3 Blue 4 Not used 5 Ground 6 Ground 7 Ground 8 Ground 9 Power 10 Ground 11 Not used 12 SDA 13 Horizontal Sync 14 Vertical Sync 15 SCL
DB 15-Pin Female Connector
5 1
15 11
Introducing Mainboard
2-15
The mainboard offers two 9-pin male DIN connectors as serial ports. The ports are 16550A high speed communication ports that send/receive 16 bytes FIFOs. You can attach a serial mouse or other serial devices directly to the connector.
Serial Port
PIN SIGNAL DESCRIPTION
1 DCD Data Carry Detect 2 SIN Serial In or Receive Data 3 SOUT Serial Out or Transmit Data 4 DTR Data Terminal Ready 5 GND Ground 6 DSR Data Set Ready 7 RTS Request To Send 8 CTS Clear To Send 9 RI Ring Indicate
Serial Port Pin Definition
9-Pin Male DIN Connector
1 2 3 4 5
6 7 8 9
1 2
COM2
9
Chapter 2
2-16
.
IDE Connector: IDE1
The mainboard has a 32-bit Enhanced PCI IDE and Ultra DMA 33/66/100 controller that provides PIO mode 0~4, Bus Master, and Ultra DMA/33/66/100 function. The connector on the mainboard allows you to connect to the IDE devices: HDD & CD-ROM.
2.7 Connectors
Serial ATA Connectors: SATA1, SATA2
The southbridge of this mainboard is ICH5 which supports two serial connectors SATA1& SATA2.
SATA1 & SATA2 are dual high-speed Serial ATA interface ports. Each supports 1st generation serial ATA data rates of 150 MB/s. Both connectors are fully compliant with Serial ATA 1.0 specifications. The Serial ATA connector allows you to connect the hard disk device of Serial ATA interface.
IDE1
SATA1/SATA2
PIN SIGNAL PIN SIGNAL
1 GND 2 TXP 3 TXN 4 GND
5 RXN 6 RXP 7 GND
SATA1 & SATA2 Pin Definition
Introducing Mainboard
2-17
CD-in Connector: JCD1
The connector is for CD-ROM audio connector.
PIN SIGNAL DESCRIPTION
1 HD_LED_P Hard disk LED pull-up 2 FP PWR/SLP MSG LED pull-up 3 HD_LED_N Hard disk active LED 4 FP PWR/SLP MSG LED pull-up 5 RST_SW_N Reset Switch low reference pull-down to GND 6 PWR_SW_P Power Switch high reference pull-up 7 RST_SW_P Reset Switch high reference pull-up 8 PWR_SW_N Power Switch low reference pull-down to GND 9 RSVD_DNU Reserved. Do not use.
JFP1 Pin Definition
Front Panel Connector: JFP1
The mainboard provides one front panel connector for you to connect to the front panel switches and LEDs. JFP1 is compliant with Intel® Front Panel I/O Connectivity Design Guide.
GND
R
L
JCD1
1
2
9
10
JFP1
HDD LED
Reset Switch
Power LED
Power Switch
Chapter 2
2-18
Internal Speaker Connector: CON1
This connector is used to connect the built-in speaker.
The CPUFAN1 (CPU fan) and SYS_FAN1 (system fan) support system
cooling fans with +12V that is controlled by PWM.
When connecting the wire to the three-pin head connectors, always note that the red wire is the positive and should be connected to the +12V (that is controlled by PWM), the black wire is Ground and should be connected to GND. If the mainboard has a System Hardware Monitor chipset on-board, you must use a specially designed fan with speed sensor to take advantage of the CPU fan control.
Fan Power Connectors: CPUFAN1/SYS_FAN1
On-Board S-Video out Connector: JTV1
The mainboard provides a TV-out connector for you to connect to a TV
or video device.
JTV1
CON1
SYS_FAN1/CPUFAN1
SENSOR
+12V
GND
Introducing Mainboard
2-19
Front USB Connector: J3
The mainboard provides one standard USB 2.0 pin header J3 to connect to a card reader. USB 2.0 technology increases data transfer rate up to a maximum throughput of 480Mbps, which is 40 times faster than USB 1.1.
PIN SIGNAL PIN SIGNAL
1 VCC 2 VCC 3 USB0- 4 USB1­5 USB0+ 6 USB1+ 7 GND 8 GND 9 Key (no pin) 10 USBOC
J3 Pin Definition
J3
1 2
10 9
Note that the pins of VCC and GND must be connected correctly or it may cause some damage.
Chapter 2
2-20
The motherboard provides one jumper for you to set the computer’s function. This section will explain how to change your motherboard’s function through the use of the jumper.
Clear CMOS Jumper: JBAT1
There is a CMOS RAM on board that has a power supply from external battery to keep the system configuration data. With the CMOS RAM, the system can automatically boot OS every time it is turned on. That battery has long life time for at least 5 years. If you want to clear the system configuration, use the JBAT1 (Clear CMOS Jumper ) to clear data. Follow the instructions below to clear the data:
You can clear CMOS by shorting 2-3 pin while the system is off. Then return to 1-2 pin position. Avoid clearing the CMOS while the system is on; it will damage the mainboard.
2.8 Jumper
Clear Data
1
3
Keep Data
1
3
JBAT1
Introducing Mainboard
2-21
Order 1 Order 2 Order 3 Order 4 1394 INT D# PCI Slot INT B# INT C# INT D# INT A#
PCI Interrupt Request Routing
The IRQ, abbreviation of interrupt request line and pronounced I-R-Q, are hardware lines over which devices can send interrupt signals to the microprocessor. The “AGP/PCI” IRQ pins are typically connected to the PCI bus INT A# ~ INT D# pins as follows:
The mainboard provides one 32-bit Master PCI bus slot.
The PCI slot allows you to insert PCI Riser Card. The PCI Riser Card is included in the barebone. The Riser Card allows you to insert two expansion cards. You can insert any type of PCI cards to meet your needs.
When adding or removing expansion cards, make sure that you unplug the power supply first. Meanwhile, read the documentation for the expansion card to make any necessary hardware or software settings.
2.9 Slot
PCI Slot 1
PCI Riser Card
System Assembly
3-1
This chapter provides you with the installation procedures of Hetis barebone. It is useful for you to read the information of mainboard setup before assembling the whole system.
3
System Assembly
Chapter 3
3-2
The built-in MS-7065 mainboard is designed for Hetis barebone only.
Installation Tools
Screws
Four types of screws are used in assembling the barebone: round­headed screw, hexagonal screw with washer, thumb screw and flat­headed screw.
Round-headed screw: This type of screw is used to attach the HDD to the HDD tray.
Hexagonal screw with washer: The screw is used to fasten the optical drive to the drives cage.
Round-headed screw: This type of screw is used to fasten the card reader to the drives cage.
Thumb screw: This type of screw is used to fasten the chassis cover to the chassis.
Screw Driver
Gloves
3.1 overview
System Assembly
3-3
Checking the Items
CPU CoolerFootstand
IDE or SATA HDD
Optical Drive
Card Reader (optional)
CPU
Chapter 3
3-4
Unscrew the chassis cover.
Remove the chassis cover.
Use a screw driver to unscrew the drives cage.
1. Removing Cover, Front Bezel, Drives Cage and HDD tray
3.2 Installation Procedures
Press the locking tabs simultaneously to release the front bezel from the chassis.
System Assembly
3-5
Remove the front bezel.
Press the lock brackets inwards and then pull the drives cage forwards to remove it from the chassis.
Remember to unplug the power cord while removing the drives cage.
The drives cage has been removed.
Chapter 3
3-6
The HDD tray has been removed.
Pull the HDD tray forwards to remove from the chassis.
Push the tray lever to release the tray.
Pull the lever in the direction indicated to take out the tray.
System Assembly
3-7
Insert the DIMM vertically into the slot.
Note: The DIMM has only one notch on the center of module. It will only fit in the right direction.
The plastic clip at each side of the DIMM slot will automatically close.
2. Installing Memory Modules
Locate the DIMM slots.
Chapter 3
3-8
Locate the CPU socket. Pull the lever away from the socket and raise it up to 90-degree angle.
Close the lever to complete the installaton.
3. Installing CPU
Put the CPU onto the socket.
Note: Make sure the pins are completely embedded into the socket. The CPU can only fit in the correct direction.
System Assembly
3-9
If the metal clip is closed, push the black tab to open the clip. Remember to do so on four clips.
Before installing the CPU cooler, check to see if the four metal clips of the CPU cooler are closed.
4. Releasing Cooler Clips
Chapter 3
3-10
Place the CPU cooler onto the CPU socket.
5. Installing CPU Cooler
Close the lever to secure the CPU cooler.
Please note that the metal clips must not be placed inside the CPU cooler rack. Instead, they should be placed outside the rack.
System Assembly
3-11
Connect the power cord of the CPU cooler.
Chapter 3
3-12
6. Installing HDD
Use 4 screws to secure the IDE HDD module.
Insert the IDE HDD module into the tray.
Note: The system supports both IDE and SATA interfaced HDD.
Connect the HDD cable and power cord.
System Assembly
3-13
Insert the HDD tray into the chassis and close the lever to lock the HDD tray in place.
Using SATA HDD
Here shows how the cables should be connected to the SATA HDD.
Connect the SATA cable, HDD power cord and HDD cable.
Chapter 3
3-14
7. Installing Optical Drive and Card Reader
Insert the optical drive into the drives cage.
Screw the optical drive to Position I.
Use 4 screws to secure the optical drive.
System Assembly
3-15
Slide the drives cage back into the chassis.
Connect the optical drive cable and power cord.
Connect the system power cord.
Screw the drives cage to the chassis.
Chapter 3
3-16
Replace the front bezel.
Unscrew the cover shield.
Take out the cover shield.
Take out the shield marked if an optical drive is installed. Take out both shields if an optical drive and a card reader are installed.
System Assembly
3-17
Press with force to secure the front bezel to the chassis.
Chapter 3
3-18
Insert the card reader from the rear into the drives cage.
Screw the card reader to the drives cage following the indicated order.
Note: Card reader is an optional device. If you do not intend to install a card reader, please skip the following procedures.
System Assembly
3-19
Slide the drives cage back into the chassis. Screw the drives cage to the chassis and replace the front bezel.
Unscrew the cover shield and then take it out.
Connect the power cord of the card reader.
Chapter 3
3-20
Remember to fasten the screws on the rear panel.
8. Replacing Chassis Cover
Replace the chassis cover.
Put the barebone on the footstand.
4
BIOS Setup
This chapter provides information on the BIOS Setup pro-
gram and allows you to configure the system for optimum use. You may need to run the Setup program when:
An error message appears on the screen during the systemm
booting up, and requests you to run SETUP.
You want to change the default settings for customized
features.
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Chapter 4
Power on the computer and the system will start POST (Power On Self
DEL:Setup F11:Boot Menu F12:Network boot TAB:Logo
If the message disappears before you respond and you still wish to enter
Setup, restart the system by turning it OFF and On or pressing the RESET button. You may also restart the system by simultaneously pressing <Ctrl>, <Alt>, and <Delete> keys.
Selecting the First Boot Device
You are allowed to select the 1st boot device without entering the BIOS
The POST messages might pass by too quickly for you to respond in
The boot menu will list all the bootable devices. Select the one you want
to boot from by using arrow keys and then pressing <Enter>. The system will boot from the selected device. The selection will not make changes to the settings in the BIOS setup utility, so next time when you power on the system, it will still use the original first boot device to boot up.
Sele ct Firs t Boot D evic e
Flo ppy : 1st Floppy
IDE-0 : IBM-DTLA-307038
CD-ROM : ATAPI CD-ROM DRIVE 40X M
[Up/Dn] Select [RETURN] Boot [ESC] cance l
4.1 Entering Setup
4-3
BIOS Setup
Control Keys
Getting Help
After entering the Setup utility, the first screen you see is the Main
Menu.
Main Menu
The main menu displays the setup categories the BIOS supplies. You
Default Settings
The BIOS setup program contains two kinds of default settings: the BIOS Setup and High Performance defaults. BIOS Setup defaults provide stable performance settings for all devices and the system, while High Performance defaults provide the best system performance but may affect the system stability.
<> Move to the previous item <> Move to the next item <> Move to the item in the left hand
<> Move to the item in the right hand
<Enter> Select the item <Esc> Exit menu or returns to the main menu from a submenu
<+/PU> Increase the numeric value or make changes <-/PD> Decrease the numeric value or make changes <F7> Load Fail Safe defaults
<F10> Save all the CMOS changes and exit
<F6> Load optimal defaults
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Chapter 4
Standard CMOS Features
Use this menu for basic system configurations, such as time, date etc.
Advanced BIOS Features
Use this menu to setup the items of special enhanced features.
Advanced Chipset Features
Power Management Features
Use this menu to specify your settings for power management.
PNP/PCI Configurations
This entry appears if your system supports PnP/PCI.
Once you enter AMIBIOS NEW SETUP UTILITY, the Main Menu will appear on the screen. The Main Menu displays twelve configurable functions and two exit choices. Use arrow keys to move among the items and press <Enter> to enter the submenu.
4.2 The Main Menu
4-5
BIOS Setup
Integrated Peripherals
Use this menu to specify your settings for integrated peripherals.
PC Health Status
This entry shows your PC health status.
Frequency/Voltage Control
Use this menu to specify your settings for frequency/voltage control.
Set Supervisor Password
Use this menu to set Supervisor Password.
Set User Password
Use this menu to set User Password.
Load Optimal Defaults
Load Fail Safe Defaults
Save & Exit Setup
Save changes to CMOS and exit setup.
Exit Without Saving
Abandon all changes and exit setup.
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Chapter 4
The items inside STANDARD CMOS SETUP menu are divided into 10 categories. Each category includes none, one or more setup items. Use the arrow keys to highlight the item you want to modify and use the <PgUp> or <PgDn> keys to switch to the value you prefer.
System Time
System Date
day Day of the week, from Sun to Sat, determined by
BIOS. Read-only.
month The month from Jan. through Dec.
date The date from 1 to 31 can be keyed by numeric
function keys.
year The year can be adjusted by users.
4.3 Standard CMOS Features
4-7
BIOS Setup
Primary/Secondary/Third/Fourth IDE Master/Slave
Type Select how to define the HDD parameters
Cylinders Enter cylinder number
Heads Enter head number
Write Precompensation Enter write precomp cylinder
Sectors Enter sector number
Maximum Capacity Read the maximal HDD capacity
LBA Mode Select Auto for a hard disk > 512 MB un-
der Windows and DOS, or Disabled un- der Netware and UNIX
Block Mode Select Auto to enhance the hard disk
performance Fast Programmed I/O Select Auto to enhance hard disk perfor­Modes mance by optimizing the hard disk timing 32 Bit Transfer Mode Enable 32 bit to maximize the IDE hard disk
data transfer rate
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Chapter 4
Quick Boot
Setting the item to [Enabled] allows the system to boot fast since it will skip some check items. Available options: [Enabled], [Disabled].
Boot Device Select
Press <Enter> to enter the sub-menu screen.
Boot Device Priority: 1st/2nd/3rd
The items allow you to set the sequence of boot devices where BIOS attempts to load the operating system.
4.4 Advanced BIOS Features
4-9
BIOS Setup
Try Other Boot Devices
Setting the option to [Yes] allows the system to try to boot from other devices if the system fails to boot from the 1st/2nd/3rd boot device.
Full Screen LOGO Show
This item enables you to show the company logo on the bootup screen. Settings are:
[Enabled] Shows a still image (logo) on the full screen at boot. [Disabled] Shows the POST messages at boot.
S.M.A.R.T. for Hard Disks
BootUp Num-Lock
This item is to set the Num Lock status when the system is powered on. Setting to [On] will turn on the Num Lock key when the system is powered on. Setting to [Off] will allow end users to use the arrow keys on the numeric keypad. Setting options: [On], [Off].
Password Check
Option Description
Setup The password prompt appears only when end users try to
run Setup.
Always A password prompt appears every time when the com-
puter is powered on or when end users try to run Setup.
Available settings for “1st/2nd/3rd” boot device vary de­pending on the bootable devices you have installed. For example, if you did not install a floppy drive, the setting “Floppy” will not show up.
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Chapter 4
Boot To OS/2
This allows you to run the OS/2® operating system with DRAM larger than 64MB. When you choose No, you cannot run the OS/2® operating system with DRAM larger than 64MB. But it is possible if you choose Yes.
Hyper Threading Function
MPS Revision
APIC ACPI SCI IRQ
for the system. Settings: Enabled and Disabled.
CPU L1 & L2 Cache
Cache memory is additional memory that is much faster than conventional DRAM (system memory). When the CPU requests data, the system transfers the requested data from the main DRAM into cache memory, for even faster access by the CPU. The setting controls the internal cache (also known as L1 or level 1 cache). Setting to WriteBack will speed up the system performance.
Enabling the functionality of Hyper-Threading Technology for your computer system requires ALL of the following platform Components: *CPU: An Intel® Pentium® 4 Processor with HT Technology; *Chipset: An Intel® Chipset that supports HT Technology; *BIOS: A BIOS that supports HT Technology and has it enabled; and *OS: An operating system that supports HT Technology. For more information on Hyper-threading Technology, visit the Web site at www.intel.com/info/hyperthreading
4-11
BIOS Setup
System BIOS Cacheable
C000, 32k Shadow
Option Description
Disabled The specified ROM is not copied to RAM. Enabled The contents of specified ROM are copied to RAM
for faster system performance.
Cached The contents of specified ROM are not only copied
to RAM, the contents of the ROM area can be written to and read from cache memory.
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Chapter 4
DRAM Timing Setting...
Press <Enter> and to enter the sub-menu screen.
Configure DRAM Timing by SPD
Selects whether DRAM timing is controlled by the SPD (Serial Presence Detect) EEPROM on the DRAM module. Setting to [Enabled] enables the following fields automatically to be determined by BIOS based on the configurations on the SPD. Selecting [Disabled] allows users to config­ure these fields manually.
4.5 Advanced Chipset Features
NOTE: Change these settings only if you are familiar with the chipset.
4-13
BIOS Setup
CAS# Latency
This controls the timing delay (in clock cycles) before SDRAM starts a read command after receiving it. Settings: [2], [2.5] (clocks). [2] (clocks) increases the system performance the most while [2.5] (clocks) provides the most stable performance.
RAS# Precharge
This item controls the number of cycles for Row Address Strobe (RAS) to be allowed to precharge. If insufficient time is allowed for the RAS to accumulate its charge before DRAM refresh, refresh may be incomplete and DRAM may fail to retain data. This item applies only when synchronous DRAM is installed in the system. Available settings: [2] clocks, [3] clocks, [4] clocks.
RAS# to CAS# Delay
When DRAM is refreshed, both rows and columns are addressed separately. This setup item allows you to determine the timing of the transition from RAS (row address strobe) to CAS (column address strobe). The less the clock cycles, the faster the DRAM performance. Setting options: [2] clocks, [3] clocks, [4] clocks, .
Precharge Delay
This setting controls the precharge delay, which determines the timing delay for DRAM precharge. Settings: [5] clocks, [6] clocks, [7] clocks, [8] clocks, .
Burst Length
This setting allows you to set the size of Burst-Length for DRAM. Bursting feature is a technique that DRAM itself predicts the address of the next memory location to be accessed after the first address is accessed. To use the feature, you need to define the burst length, which is the actual length of burst plus the starting address and al­lows internal address counter to properly generate the next memory location. The bigger the size, the faster the DRAM performance. Available settings: [4], [8].
Internal Graphics Mode Select
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Chapter 4
4.6 Power Management Features
ACPI Standby State
This item specifies the power saving modes for ACPI function. If your operating system supports ACPI, such as Windows 98SE, Windows ME and Windows 2000/XP, you can choose to enter the Standby mode in S1(POS) or S3(STR) fashion through the setting of this field. Options are:
[S1/POS] The S1 sleep mode is a low power state. In this state, no
system context is lost (CPU or chipset) and hardware maintains all system context.
[S3/STR] The S3 sleep mode is a lower power state where the
information of system configuration and open applications / files is saved to main memory that remains powered while most other hardware components turn off to save energy. The information stored in memory will be used to restore the system when a “wake up” event occurs.
[Auto] BIOS determines the best mode automatically.
4-15
BIOS Setup
Re-Call VGA BIOS at S3 Resuming
Power Management/APM
Suspend Time Out (Minute)
Power Button Function
This feature sets the function of the power button. Settings are:
[On/Off] The power button functions as normal power off button. [Suspend] When you press the power button, the computer enters
the suspend/sleep mode, but if the button is pressed for more than four seconds, the computer is turned off.
Restore on AC/Power Loss
[Power Off] Leaves the computer in the power off state. [Power On] Leaves the computer in the power on state. [Last State] Restores the system to the previous status before power
failure or interrupt occurred.
Set Monitor Events
Press <Enter> and the following submenu appears.
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Chapter 4
FDC/LPT/COM Ports, Primary/Secondary Master/Slave IDE
These items specify if the BIOS will monitor the activity of the specified hardware peripherals or components. If set to [Monitor[, any activity detected on the specified hardware peripherals or components will wake up the system or prevent the system from entering the power saving modes. Settings: [Monitor], [Ignore].
Set WakeUp Events
Press <Enter> and the following submenu appears.
USB Device Wakeup From S3
This item allows the activity of the USB devices (keyboard and mouse) to wake up the system from S3 sleep state. Setting: [Enabled], [Disabled].
Keyboard Wake up From S3
You have two options: [Any Key] & [Disabled]. Selecting [Any Key] allows you to power on the system by pressing any key.
Mouse Wake up From S3
Selecting [Enabled] allows you to power on the system by clicking the mouse. Setting: [Enabled], [Disabled].
Resume on Ring
You need to install a modem card supporting power on function in order to enable the item. Setting: [Enabled], [Disabled].
Resume On PME#
This field specifies whether the system will be awakened from power saving modes when activity or input signal of the specified hardware peripheral or component is detected. Settings: [Enabled], [Disabled].
4-17
BIOS Setup
Resume On RTC Alarm
This is used to enable or disable the feature of booting up the system on a scheduled time/date from the power off (S5) state. Settings: [Enabled], [Disabled].
RTC Alarm Date/Hour/Minute/Second
If Resume On RTC Alarm is set to [Enabled], the system will automatically resume (boot up) on a specific date/hour/minute/second specified in these fields. Available settings for each item are:
Alarm Date 01 ~ 31, Every Day Alarm Hour 00 ~ 23 Alarm Minute 00 ~ 59 Alarm Second 00 ~ 59
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Chapter 4
This section describes configuring the PCI bus system and PnP (Plug &
Clear NVRAM
PCI Latency Timer (PCI Clocks)
4.7 PNP/PCI Configurations
4-19
BIOS Setup
Init. Graphics Adapter Priority
This setting specifies which VGA card is your primary graphics adapter. Setting options are: [ Internal VGA] The system initializes the onboard VGA device.
[PCI/Int-VGA] The system initializes the installed PCI VGAcard
first. If a PCI VGA card is not available, it will initialize the onboard VGA device.
PCI IDE BusMaster
Set this option to [Enabled] to specify that the IDE controller on the PCI local bus has bus mastering capability. Setting options: [Disabled], [Enabled].
PCI Slot1 IRQ Priority, PCI Slot2 IRQ Priority
Set IRQs to PCI or ISA
Press <Enter> to enter the sub-menu and the following screen appears:
IRQ 3/4/5/7/9/10/11/14/15
These items specify the bus where the specified IRQ line is used. The settings determine if BIOS should remove an IRQ from the pool of available IRQs passed to devices that are configurable by the system BIOS. The available IRQ pool is determined by reading the ESCD NVRAM. If more IRQs must be removed from the IRQ pool, the end user can use these settings to reserve the IRQ by assigning a [ISA/EISA] setting to it. Onboard I/O is configured by BIOS. All IRQs used by onboard I/O are configured as [PCI/PnP]. If all IRQs are set to [ISA/EISA], and IRQ 14/15 are allocated to the onboard PCI IDE, IRQ 9 will still be available for PCI and PnP devices. Available settings: [ISA/EISA] and [PCI/PnP].
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Chapter 4
Set DMAs to PnP or ISA
Press <Enter> to enter the sub-menu and the following screen appears:
DMA Channel 0/1/3/5/6/7
These items specify the bus that the system DMA (Direct Memory Access) channel is used. The settings determine if BIOS should remove a DMA from the available DMAs passed to devices that are configurable by the system BIOS. The available DMA pool is determined by reading the ESCD NVRAM. If more DMAs must be removed from the pool, the end user can reserve the DMA by assigning a [ISA/EISA] setting to it.
4-21
BIOS Setup
USB Controller
This setting is used to enable/disable the onboard USB controllers.
USB Device Legacy Support
Set to [Enabled] if your need to use any USB 1.1/2.0 device in the operating system that does not support or have any USB 1.1/2.0 driver installed, such as DOS and SCO Unix. Setting options: [Disabled], [Enabled].
On-Chip IDE Configuration
Press <Enter> to enter the sub-menu and the following screen appears:
4.8 Integrated Peripherals
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Chapter 4
On-Chip ATA(s) Operate Mode
This setting allows you to determine how the RAID controller on the south bridge is going to switch to SATA controller. [Legacy Mode] means you may use the traditional 14 and 15 IRQs, while [Native Mode] means you may use all the available IRQs.
Legacy Mode:
--- In this mode, system BIOS just assign the traditional 14 and 15 IRQs to use for HDD.
--- Older OSs that do not support switch to Native Mode (DOS, Win2K, Win98/ME...) should set SATA and PATA to Legacy Mode.
--- Maximum 4 ATA devices to connect.
--- Combine mode and Non-Combine mode. Non-Combined Mode: P-ATA devices only . Maximum of 4 devices. Non-Combined Mode: S-ATA devices only.
Maximum of 2 devices.
Combined Mode: S-ATA devices
P-ATA devices Maximum of 2 devices each, thus total 4 devices at maximum.
Native Mode:
--- In this mode, system BIOS will search all available IRQs to use for
HDD.
--- New OS that support switch to Native Mode (WinXP, Windows .NET
Server) can set SATA and PATA to Native Mode.
--- Comprehend both Legacy and/or Native Modes.
--- Maximum 6 ATA devices to connect (4 for P-ATA & 2 for S-ATA).
ATA Configuration
The field lets you to configure the available ATA controller. Setting options: [Disabled], [P-ATA Only], [S-ATA Only], [P-ATA+S-ATA].
S-ATA Keep Enabled
This item is available for you to enable/disable the onboard S-ATA. Setting options: [Yes], [No].
4-23
BIOS Setup
P-ATA Keep Enabled
This item is available for you to enable/disable the onboard P-ATA. Setting options: [Yes], [No].
P-ATA Channel Selection
This item is available for you to select the parallel ATA channel. Setting options: [Primary], [Secondary], [Both].
Combined Mode Option
This item is available for you to select the combined mode of the ATA controllers. Setting options: [P-ATA 1st Channel], [S-ATA 1st Channel].
S-ATA Ports Definition
This allows you to set the boot sequence of serial ATA ports.
Onboard LAN/1394
AC97 Audio
[Auto] allows the motherboard’s BIOS to detect whether you’re using any audio device. If so, the onboard audio controller will be enabled. If not, the onboard audio controller will be disabled. If you want to use different controller cards to connect audio connectors, set the field to Disabled. Setting options: [Disabled], [Auto].
Set Super I/O
Press <Enter> to enter the sub-menu and the following screen appears:
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Chapter 4
Onboard Serial Port A/B
These items specify the base I/O port addresses of the onboard Serial Port A/B. Selecting [Auto] allows BIOS to automatically determine the correct base I/O port address. Settings: [Auto], [3F8/COM1], [2F8/COM2], [3E8/COM3], [2E8/COM4] and [Disabled].
Serial Port B Mode
This setting allows you to specify the operation mode for Serial Port B. Setting options: [IrDA], [ASKIR], [Normal].
[Normal] RS-232C Serial Port [IrDA] IrDA-compliant Serial Infrared Port [ASKIR] Amplitude Shift Keyed Infrared Port
IR Duplex Mode
This setting controls the operating mode of IR transmission/reception. Setting options: [Full-Duplex], [Half-Duplex]. Under [Full-Duplex] mode, synchronous, bi-directional transmission/reception is allowed. Under [Half-Duplex] mode, only asynchronous, bi-directional transmission/ reception is allowed.
IR Receiver/Xmitter Polarity
This setting controls the data transfer speed of IR transmission/reception. Setting options: [High], [Low].
Onboard Parallel Port
This field specifies the base I/O port address of the onboard parallel port. Selecting [Auto] allows BIOS to automatically determine the correct base I/O port address. Settings: [Auto], [378], [278], [3BC] and [Disabled].
Parallel Port Mode
This item selects the operation mode for the onboard parallel port: [ECP], [Normal], [Bi-Dir] or [EPP].
EPP Version
The item selects the EPP version used by the parallel port if the port is set to [EPP] mode. Settings: [1.7] and [1.9].
4-25
BIOS Setup
Parallel Port IRQ
When Onboard Parallel Port is set to [Auto], the item shows [Auto] indicating that BIOS determines the IRQ for the parallel port automatically.
Parallel Port DMA Channel
This feature needs to be configured only when Parallel Port Mode is set to the [ECP] mode. When Parallel Port is set to [Auto], the field will show [Auto] indicating that BIOS automatically determines the DMA channel for the parallel port.
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Chapter 4
This section shows the status of your CPU, fan, overall system status,
Chassis Intrusion
Smart Fan Control Function
4.9 PC Health Status
4-27
BIOS Setup
Use this menu to specify your settings for frequency/voltage control.
CPU Ratio Selection
This setting controls the multiplier that is used to determine the internal clock speed of the processor relative to the external or motherboard clock speed.
DRAM Frequency
Use this field to configure the clock frequency of the installed DRAM. Settings are:
PSB 400: [266], [Auto]. PSB 533: [266], [333], [Auto]. PSB 800: [266], [333], [400], [Auto].
Spread Spectrum
4.10 Frequency/Voltage Control
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Chapter 4
reduction. Remember to disable Spread Spectrum if you are overclocking because even a slight jitter can introduce a temporary boost in clockspeed which may just cause your overclocked processor to lock up.
CPU FSB Clock (MHz)
This item shows the CPU FSB(Front Side Bus) information. It doesn’t allow you to make any setting.
DDR Clock (MHz)
4-29
BIOS Setup
When you select this function, a message as below will appear on the
screen:
Type the password, up to six characters in length, and press <Enter>.
To clear a set password, just press <Enter> when you are prompted to
When a password has been set, you will be prompted to enter it every
time you try to enter Setup. This prevents an unauthorized person from changing any part of your system configuration.
Additionally, when a password is enabled, you can also have AMIBIOS
4.11 Set Supervisor/User Password
About Supervisor Password & User Password:
Supervisor password: Can enter and change the
settings of the setup menu.
User password: Can only enter but do not have
the right to change the settings of the setup menu.
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The two options on the main menu allow users to restore all of the BIOS
When you select Load Optimal Defaults, a message as below appears:
When you select Fail Safe Defaults, a message as below appears:
Pressing [Enter] loads the default BIOS values that enable the best system performance but may lead to a stability issue.
4.12 Set Optimal/Fail Safe Defaults
5
Using 4- or 6-Channel Audio Function
The motherboard is equipped with Realtek ALC655 chip, which provides support for 6-channel audio output, including 2 Front, 2 Rear, 1 Center and 1 Subwoofer channel. ALC655 allows the board to attach 4 or 6 speakers for better surround sound effect. The section will tell you how to install and use 4-/6-channel audio function on the board.
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You need to install the driver for Realtek ALC655 chip to function properly before you can get access to 4-/6-channel audio operations. Follow the proce­dures described below to install the drivers for different operating systems.
Installation for Windows 98SE/ME/2000/XP
For Windows® 2000, you must install Windows® 2000 Service Pack2 or
later before installing the driver.
The following illustrations are based on Windows® XP environment and could look slightly different if you install the drivers in different operating systems.
1. Insert the companion CD into the CD-ROM drive. The setup screen will
automatically appear.
2. Click Realtek AC97 Audio Drivers.
5.1 Installing the Audio Drivers
The AC97 Audio Configuration software utility is under continuous update to enhance audio applications. Hence, the program screens shown here in this appendix may be slightly different from the latest software utility and shall be held for reference only.
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Using A udio Function
3. Click Next to start installing files into the system.
4. Click Finish to restart the system.
Select this option
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Chapter 5
Using the Back Panel
In addition to a default 2-channel analog audio output function, the audio connectors on the Back Panel also provide 4- or 6-channel analog audio output function if a proper setting is made in the software utility.
Read the following steps to have the Multi-Channel Audio Function properly set in the software utility, and have your speakers correctly con­nected to the Back Panel.
Configuration in the Software Utility
1. Click the audio icon from the window tray at the lower-right corner of the screen.
2. Select a desired surround sound effect from the “Environment” drop-down menu.
3. Click the Speaker Configuration tab.
4. Select Synchronize the phonejack switch with the speaker setting.
5. Select a desired multi-channel operation from Number of Speakers. a. Headphone b. 2-Channel Mode for Stereo-Speaker Output c. 4-Channel Mode for 4-Speaker Output d. 6-Channel Mode for 5.1-Speaker Output
6. Click OK to close this window.
After installing the audio driver, you are able to use the 4-/6-channel audio feature now. To enable 4- or 6-channel audio operation, first connect 4 or 6 speakers to the appropriate audio connectors, and then select 4- or 6­channel audio setting in the software utility.
5.2 Using Audio Function
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6
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Chapter 5
Connecting the Speakers
When you have set the Multi-Channel Audio Function mode properly in
the software utility, connect your speakers to the correct phone jacks in
accordance with the setting in software utility.
n 2-Channel Mode for Stereo-Speaker Output
Refer to the following diagram and caption for the function of each phone jack on the back panel when 2-Channel Mode is selected.
1 MIC 2 Line In 3 Line Out (Front channels)
Back Panel
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1 MIC 2 * Line Out (Rear channels) 3 Line Out (Front channels)
* Line In function is converted to Line Out function when 4-Channel Mode for 4-Speaker Output is selected.
n 4-Channel Mode for 4-Speaker Output
The audio jacks on the back panel always provide 2-channel analog audio output function, however these audio jacks can be transformed to 4- or 6- channel analog audio jacks by selecting the corresponding multi-channel operation from No. of Speakers.
Refer to the following diagram and caption for the function of each jack on the back panel when 4-Channel Mode is selected.
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Back Panel
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1 Line Out (Center and
Subwoofer channel)
2 * Line Out (Rear channels) 3 * Line Out (Front channels)
* Both Line In and MIC function are converted to Line Out function when 4-Channel Mode for 6-Speaker Output is selected.
n 6-Channel Mode for 6-Speaker Output
Refer to the following diagram and caption for the function of each jack on the back panel when 6-Channel Mode is selected.
Back Panel
If the Center and Subwoofer speaker exchange their audio channels when you play video or music on the computer, a converter may be required to exchange center and subwoofer audio signals. You can purchase the converter from a speaker store.
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To ensure that 4- or 6-channel audio operation works properly, you may need to test each connected speaker to make sure every speaker work properly. If any speaker fails to make sound, then check whether the cable is inserted firmly to the connector or replace the bad speakers with good ones.
Testing Each Speaker
the screen.
2. Click the Speaker Test tab.
by clicking it.
Subwoofer
Front Right
Rear Right
Center
Front Left
Rear Left
5.3 Testing the Connected Speakers
6 speakers appear on the “Speaker Test” window only when you select “6-Channel Mode” in the “No. of Speakers” column. If you select “4-Channel Mode”, only 4 speakers appear on the window.
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4. The tested speaker will show in bright color.
5. While you are testing the speakers in 6-Channel Mode, if the sound coming
from the center speaker and subwoofer is swapped, you should select Swap Center/Subwoofer Output to readjust these two channels.
Select this function
tested speaker
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Chapter 5
The KaraOK function will automatically remove human voice (lyrics) and leave melody for you to sing the song. Note that this function applies only for 2-channel audio operation.
Playing KaraOK
the screen.
2. In the Sound Effect tab, select Voice Cancellation under “KaraOK.”
3. Click OK to close this window.
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5.4 Playing KaraOK
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