Page 1
KT400-R / KT400-RL
Contents
Chapter 1 Specification ............................................. 8
1-1 KT400-R/KT400-RL Mainboard Layout** .........................9
1-2 Mainboard Specifications .................................................... 10
1-2.1 CPU Socket ...................................................................................10
1-2.2 System Chipsets ........................................................................... 10
1-2.3 Memory .........................................................................................10
1-2.4 BIOS...............................................................................................10
1-2.5 Accelerated Graphics Port (AGP) Interface........................... 10
1-2.6 Advanced System Power Management .................................... 11
1-2.7 Multi-I/O Functions .................................................................... 11
1-2.8 Expansion Slots ............................................................................ 11
1-2.9 AC’97 Audio Codec on board....................................................12
1-2.10 LAN on board (KT400-RL only) ............................................ 12
1-2.11 Hardware Monitor on board ...................................................12
1-2.12 Smart Card Reader Support ...................................................12
1-2.13 Serial ATA RAID Controller Integrated ............................... 12
1-2.14 Form Factor................................................................................ 12
1-3 Mainboard Specification Table ........................................... 13
1-4 Chipset System Block Diagram........................................... 14
Chapter 2 Hardware Setup..................................... 16
2-1 CPU Identification and Installation ................................... 17
2-1.1 CPU Identification Legends....................................................... 17
2-1.2 CPU Installation with Socket 462 ............................................. 18
2-2 Memory Installation ............................................................. 19
2-2.1 To Install DDR DRAM Module................................................. 19
2-2.2 To Remove a DIMM .................................................................... 19
2-2.3 Warning Indicator LED1: DIMM Slots Powered On ...........20
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Contents
2-3 AGP Slot Installation ............................................................ 21
2-4 IDE Connector Installation ................................................. 22
2-5 Serial ATA Connector Installation...................................... 23
2-6 Floppy Drive Connector ( FDC ) Installation................... 24
2-7 ATX Power Supply Installation .......................................... 25
2-8 Jumper Settings ..................................................................... 26
2-8.1 JCLK1: CPU Clock/Overclock Select...................................... 27
2-8.2 JBAT1: Clear CMOS ..................................................................28
2-8.3 Jp1: Anti-burn Shield (ASBII).................................................. 29
2-8.4 Jp3: PS2 KB/Mouse Wake-up ................................................... 30
2-8.5 Jp4: USB KB/Mouse Wake-up ..................................................30
2-9 Other Connectors Configuration........................................ 31
2-9.1 On-board FAN Connectors ........................................................ 31
2-9.2 USB Ports and USB Pin-headers ..............................................32
2-9.3 Chassis Panel Connectors .......................................................... 33
2-9.4 PS/2 Mouse And PS/2 Keyboard............................................... 33
2-9.5 CD-ROM Audio Connectors (CD-In1) ....................................34
2-9.6 Smart Card Reader Connector: SCR1 ....................................34
2-9.7 Connector WOL1: Wake On LAN............................................ 35
2-9.8 RJ45: LAN Connector ( KT400-RL only) ...............................35
2-9.9 Complex Pin-header....................................................................36
2-9.10 Thermal Connectors ................................................................. 38
2-10 IRQ Description................................................................... 39
Chapter 3 Software Setup ....................................... 40
3-1 Open Up Support CD: .......................................................... 41
3-2 Proceed to VIA 4-IN-1 Drivers Installation ...................... 42
3-3 AC’97 Audio Driver Installation......................................... 44
3-3.1 AC’97 Driver Installation........................................................... 44
3-3.2 6-channel Verification................................................................. 45
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KT400-R / KT400-RL
3-4 Install USB 2.0 Driver for Win98 / Me / 2000 / XP.......... 48
3-5 Install Hardware Monitor Utility ....................................... 50
3-5.1 Installation ................................................................................... 50
3-5.2 Verification .................................................................................. 51
3-6 Install VIA LAN Drivers (for KT400-RL only)............... 52
3-6-1. VIA6183 LAN driver on Windows 9X .................................... 52
3-6-2. VIA6183 LAN driver on Windows NT4.0 .............................. 54
3-6-3. VIA6183 LAN driver on Win ME / 2000 / XP .......................55
3-7 Install RAID Controller PDC20376 Drivers..................... 56
Chapter 4 AMI BIOS Setup.................................... 58
4-1 About BIOS Setup ................................................................. 59
4-2 To Run BIOS Setup ............................................................... 59
4-3 About CMOS .......................................................................... 59
4-4 The POST ( Power On Self Test ) ....................................... 59
4-5 To Update BIOS ..................................................................... 60
4-6 BIOS SETUP --- CMOS Setup Utility................................ 62
4-6.1 CMOS Setup Utility ....................................................................62
4-6.2 Standard CMOS Setup ...............................................................63
4-6.3 Advanced BIOS Features ...........................................................66
4-6.4 Advanced Chipset Features ....................................................... 69
4-6.5 Power Management Features .................................................... 72
4-6.6 PNP / PCI Configurations .......................................................... 75
4-6.7 Integrated Peripherals................................................................77
4-6.8 SmartDoc Anti-Burn Shield....................................................... 80
4-6.9 Frequency/Voltage Control....................................................... 82
4-6.10 System Information................................................................... 84
4-6.11 Set Supervisor Password ..........................................................85
4-6.12 Load Optimized Defaults ........................................................87
4-6.13 Save & Exit Setup...................................................................... 87
4-6.14 Exit Without Saving .................................................................. 87
6
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Contents
Chapter 5 RAID Controller................................... 88
5-0 Before Creating Disk Array: ............................................... 89
5-1 Creating Your Disk Array .................................................... 90
5-1.1 Creating An Array For Performance/Security....................... 90
5-1.2 Creating Security Array With Existing Data Drive .............. 92
5-2 Installing Drivers................................................................... 94
5-2.1 For Windows 2000/XP ................................................................94
5-2.2 Windows 95/98 ............................................................................. 96
5-2.3 DOS/Windows 3.1x ......................................................................99
5-2.4 Windows NT4.0 ..........................................................................100
APPENDICES........................................................ 103
Appendix-1 Identify Mainboard Model Number ................. 104
Appendix-2 Technical Terms.................................................... 105
ITEM CHECKUP
Mainboard
Support CD
Bundled Bonus Pack CD
Bundled Bonus Pack Manual
Thermal Cable (Optional)
ATA66/100/133 IDE Cable
FDD Cable
User Manual
RS232 Cable (Optional)
2 x Serial ATA Cable
Promise SATA RAID Driver Diskette
7
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KT400-R / KT400-RL
Chapter 1 Specification
Introduction
This series of mainboards features an integration of the powerful
AMD processors Athlon/Athlon XP/Duron and the North Bridge VIA
Apollo KT400 plus South Bridge VT8235, with which the whole system
performance supports 333/266/200 MHz system bus.
VIA Apollo KT400 plus VT8235 supports on-board AMD processors
to implement the 333/266/200MHz Front Side Bus, the AGP 8X/4X
interface, the LPC Super I/O, the DDR *400/333 MHz SDRAM, the 6channel AC’97 Audio interface, the USB 2.0 interface and ATA 133/100/
66 data transfer rate. This chapter is to introduce to users every advanced function of this high performance integration.
Topics included in this chapter are:
1-1 Mainboard Layout
1-2 Mainboard Specifications**
1-3 Mainboard Specification Table
1-4 Chipset System Block Diagram
** If any difference is found between this manual and the Mainboard you are using, please look up the ERRATA/UPDATE Slip
enclosed inside for the correction or updated information, or
else contact the Mainboard Dealer or visit our Web Site for the
latest manual update.
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Page 6
Chapter 1 Specification
1-1 KT400-R/KT400-RL Mainboard Layout**
LAN Controller
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
USB1
RJ45
(on top)
(underside)
USB0
(middle)
6103
VT
COM1
LPT1
COM2
Line
Out
Line
In
Mic
Audio1
ALC650
AC'97
Codec
RTL
1
Game/MIDI Port
CD-In1
1
IT8705
LPC I/O
ATX Main Power
Flash BIOS
14
SCR1
1
14
RJ45
Generator
1
WOL1
1
for KT400-RL only
}
RT1
VIA
Clock
KT400
AGP 4X/8X
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
Jp4
SOCKET 462
Li
Battery
10
USB1
1
Fan2
Jp1
1
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
VIA
VT8235
JBAT1
1
USB2
10
Fan5
1
1
SATA1
1
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
9
5
3
PDC
20376
SATA2
1
IDE2
FDC
IDE1
RT2
SMI
IR PWR
HDD/LED
IDE3
--
++
1
SLED
Keylock
-
+
SPK RST PLED
Optional 6-channel Audio-out Connector
9
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KT400-R / KT400-RL
1-2 Mainboard Specifications
1-2.1 CPU Socket
CPU Socket 462 (Socket A) on board, supporting AMD Athlon, Athlon
XP and Duron processors and implementing 333/266/200MHz system
bus
1-2.2 System Chipsets
• North Bridge VIA KT400 for managing and supporting 333/266/
200MHz system Bus, AGP 8X/4X interface and DDR 333/266MHz
Memory Interface *with an enhanced support of DDR 400MHz
Memory Module which should have passed Soltek DDR 400 Memory
Module Validation.
• South Bridge VIA VT8235 working with North Bridge KT400 supporting
the V-Link, LPC Super I/O, PCI interface, ATA133 interface, LAN
interface, USB V2.0 interface, as well as AC’97 Audio 6-channel
interface.
1-2.3 Memory
3 DDR DIMM 184-pin slots on board :
• Supporting unregistered, non-ECC *DDR 400/333/266/200 DRAM up
to 3 GBs (DDR 400 Module supported conditionally)
• Supporting installation of mixed volumes yet same type of DDR DRAM
modules
*Soltek Computer Inc. typically runs a DDR 400 Memory Module
Validation Program for Chipset VIA KT400/P4X400A. Detailed
information is available in Soltek Web Site: www.soltek.com.tw
1-2.4 BIOS
• Supporting Plug & Play V1.0
• Flash Memory for easy upgrade
• Supporting BIOS Writing Protection and Year 2000 compliant
• Supporting BIOS Setup (See Chapter 4 BIOS Setup)
1-2.5 Accelerated Graphics Port (AGP) Interface
AGP Controller embedded on board, supporting:
• 1.5V(8X/4X) power mode only, 1 AGP Slot supported
• 8X 66MHz AD and SBA signaling; AGP pipelined split-transaction
longburst transfers up to 2GB/sec.
• AGP 8X/4X supported, AGP V3.0 compliant
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Chapter 1 Specification
1-2.6 Advanced System Power Management
Advanced Configuration and Power Interface incorporated in BIOS for
reducing power consumption :
• ACPI 1.0 compliant (Advanced Configuration and Power Interface)
• APM V1.2 compliant (Legacy Power Management)
• ACPI Suspend function supported
• PS/2 Keyboard & Mouse Power On
• Supporting Ring Signal Power Up Control for Wake-on-LAN (with
Connector WOL1)
• Real Time Clock (RTC) with date alarm, month alarm, and century
field
1-2.7 Multi-I/O Functions
• PCI EIDE Controller, supporting:
-- 2 ATA 133 / 100 / 66 IDE connectors supporting up to 4 IDE devices
• Dedicated IR Functions:
-- 1x5 IR connector dedicated to IR function with Infrared-IrDA (HPSIR)
and ASK (Amplitude Shift Keyed) IR
• Multi-mode parallel data transfer:
-- Standard mode, high speed mode ECP and enhanced mode EPP
• Floppy Drive Connector:
-- 1 FDD connector supporting 2 floppy drives with drive swap support
• Universal Serial Bus Transfer Mode:
-- USB V2.0 compliant, 480 Mb/s USB Bus, supporting Win 98 and later
operating systems; USB drivers provided in Support CD for installation
-- 2 built-in USB connectors and 2 more USB pin-headers which require 2
optional USB cables to provide 4 more USB ports
• PS/2 Keyboard and PS/2 Mouse
• UARTs (Universal Asynchronous Receiver / Transmitter):
-- 2 complete serial ports (COM1 & COM2) on board
1-2.8 Expansion Slots
• 6 PCI Bus Master slots
• 1 AGP 8X/4X slot
• 3 DDR DIMM slots
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KT400-R / KT400-RL
1-2.9 AC’97 Audio Codec on board
AC’97 Audio Codec 2.2 compliant on board
• Supporting up to 6 channels of PCM audio output
• 6 channel audio consists of Front Left, Front Right, Back Left, Back
Right, Center and Sub-woofer for complete surrround sound effect
• AC’97 Audio Codec Driver enclosed in Support CD for user’s installation
1-2.10 LAN on board (KT400-RL only)
Fast Ethernet Controller integrated in VT8235 and PHY VIA VT6103:
• Supporting 10/100Mb Fast Ethernet Base T LAN
• Supporting Wake On LAN through on-board WOL1 connector
• LAN Driver enclosed in Support CD for user’s installation
1-2.11 Hardware Monitor on board
• Hardware Monitor integrated in LPC I/O IT8705F, provides monitoring and alarm for flexible desktop management of hardware voltage,
temperatures and fan speeds.
• Utility Software SmartGuardian for displaying monitoring status is
enclosed in Support CD for user’s installation.
1-2.12 Smart Card Reader Support
• Connector “SCR 1” on board to support Smart Card Reader, compliant with Personal Computer Smart Card (PC/SC) working group standard and smart card (ISO 7816) protocols
1-2.13 Serial ATA RAID Controller Integrated
• Promise PDC20376 integrated on board
• Supporting 2 serial RAID connectors for 2 serial RAID hard disks
with up to 150MB/s transfer rate
• Supporting an additional RAID IDE connector for one more RAID IDE
hard Disk with up to 133MB/s transfer rate
1-2.14 Form Factor
• ATX form factor, ATX power supply
• Mainboard size: 305mm x 225mm
12
Page 10
Chapter 1 Specification
1-3 Mainboard Specification Table
KT400-R/KT400-RL Specifications and Features
CPU
North Bridge
South Bridge
BIOS
Memory
I/O Chip
AGP interface
Audio
IDE Interface
Serial ATA
PCI Slots
I/O Connectors
Other common
features
Socket 462 for AMD Athlon, Athlon XP, Duron CPU
VIA KT400, supporting 333/266/200 MHz FSB
VT8235
AMI BIOS
Supporting DDR *400/333/266 DRAM, up to 3GB
in 3 DDR DIMM slots
ITE IT8705F with Hardware Monitor
AGP 8X/4X mode only
AC’97 Audio 2.2 compliant, 6 channel audio
2 ATA 133/100/66 IDE and 1 SATA RAID IDE
2 SATA connectors supported by RAID Controller
6 PCI Master slots on board
6 USB V2.0, 1 FDD port, 2 COM ports, 1 LPT,
1 IrDA, 1 PS/2 K/B, 1 PS/2 Mouse, 1 SCR slot
BIOS Writing Protection;
Keyboard/ Mouse Power On;
ATX Power Supply;
ATX form factor
Optional
Feature
LAN Controller
on board
KT400-R KT400-RL
No Yes
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KT400-R / KT400-RL
1-4 Chipset System Block Diagram
Socket 462
for AMD CPUs
System Bus 333/266/200MHz
AGP Slot
2 SATA ports+ 1 IDE port
PDC20376
AGP 8X/4X
6 PCI Slots
PCI Bus
4 IDE
Devices
Mouse
Keyboard
ATA 133/100/66
IR
FDD
Serial Ports
Printer Port
Game/MIDI
H/Monitor
LPC I/O
IT8705
VIA KT400
North Bridge
V-Link
VT8235
South
Bridge
DDR memory
Interface
DDR 266/
333 DRAM
PCI Bus
AC’97
PHY
(Optional)
USB Bus V2.0
BIOS
System
Memory
6 PCI Slots
Audio Codec
(6-channel)
RJ45
USB
Ports
Socket 462 + VIA KT400 + VIA VT8235 Diagram
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KT400-R / KT400-RL
Chapter 2 Hardware Setup
To Get Things Ready for Hardware Setup !
1. We recommend to install your CPU before any other components.
For detailed installation instructions of processor, you can also refer
to the pamphlet enclosed in your CPU package.
2. Installing a cooling fan with a good heatsink is a must for proper heat
dissipation for your CPU. Get ready an appropriate fan with heatsink
for proper installation. Improper fan and installation will damage your
CPU.
3. In case CPU Vcore, CPU clock or Frequency Ratio is adjustable on
board, please follow the instructions described in the User Manual
for proper setup. Incorrect setting will cause damage to your CPU.
The following topics are included in this chapter:
2-1 CPU Identification and Installation
2-2 Memory Installation
2-3 AGP Slot Installation
2-4 IDE Connector Installation
2-5 Floppy Drive Connector ( FDC ) Installation
2-6 ATX Power Supply Installation
2-7 Jumper Settings
2-8 Other Connectors Configuration
2-9 IRQ Description
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Page 13
Chapter 2 Hardware Setup
A 0850 A P
T 3 B
2-1 CPU Identification and Installation
2-1.1 CPU Identification Legends
AMD
XXXXXXXXXXX¤
XXXXXXXXXXXX¤
XXXXXXX¤
XXXXXXXXX¤
XXXXXXXXXXX¤
XXXX
AMD XXXX
A 0850 A P
2
1
3
4567
T 3 B
(1)
Family / Architecture:
A=AMD Athlon Processor
D=AMD Duron Processor
Speed: 0850=850MHz, 0900=900MHz,
1000=1000MHz, 2000=1667MHz,
(2)
2200=1800MHz
Package Type: M=Card Module, A=PGA
(3)
Voltage: S=1.5V, U=1.6V, P=1.7V, M=1.75V, N=1.8V
(4)
Case Temperature: Q=60˚C, X=65˚C, R=70˚C, Y=75˚C,
(5)
T=90˚C, S=95˚C
Size of L2 Cache: 1=64Kbyte, 2=128Kbyte, 3=256Kbyte
(6)
Max FSB: A=B=200MHz, C=or others=266MHz.
(7)
Note: Get the Host CPU Clock by deviding FSB by 2.
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KT400-R / KT400-RL
2-1.2 CPU Installation with Socket 462
This series is built with CPU Socket 462 supporting the AMD CPUs
Athlon, Athlon XP and Duron:
• Follow the steps described in this section to install CPU into the onboard Socket 462.
• After installation of CPU, you must also install a proper cooling fan
on top of the CPU and connect the Fan cable to the CPU fan
connector.
1. First pull sideways the lever of
Socket 462, and then turn it up
0
so as to raise the upper layer
90
of the socket from the lower
platform.
2. Configure Pin 1 of CPU to Pin 1
SOCKET 462
D
M
A
of the Socket, just as the way
shown in the diagram on the
right. Adjust the position of CPU
until you can feel all CPU pins
get into the pin holes of the
socket.
SOCKET 462
Pin 1
3. Make sure that all CPU pins have
completely entered the socket
and then lower down the lever
to lock up CPU to socket.
18
D
M
A
Pin 1
2
6
4
T
E
K
C
O
S
Page 15
Chapter 2 Hardware Setup
184-Pin DIMM Notch Key Definitions (2.5V)
DRAM Key Position Voltage Key Position
2.5V
2-2 Memory Installation
How to tackle the memory Modules:
• Make sure to unplug your power supply before adding or removing
memory module. Failure to do so may cause severe damage to both
your mainboard and the memory module.
• Pay attention to the orientation of the DIMM slots. Forcing a DIMM
into a slot improperly will damage the memory module and slot itself.
• Make sure you have the right type of memory module for your
mainboard.
2-2.1 To Install DDR DRAM Module
• This series supports up to 3GB unbuffered *DDR 400/333/266 SDRAM,
with 3 DDR DIMM slots on board. Do not insert other type of modules into these slots. Memory support is upgradable to DDR 400 without guarantee of success in BIOS Setup.
*DDR 400 Module is supported on condition that the module has passed
Soltek DDR 400 Memory Module Validation Test. Soltek Computer
Inc. typically runs a DDR 400 Memory Module Validation Program
for Chipset VIA KT400/P4X400A. Detailed information is available in
Soltek Web Site: WWW.soltek.com.tw
• DDR DIMM slot has 184-pins and one notch. Insert a DDR SDRAM
vertically into the 184-pin slot with the notch-to-rib matching.
DDR Notch
DDR Rib
Module Latch
2-2.2 To Remove a DIMM
Press down the holding latches on both sides of slot to release the
module from the DIMM slot.
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KT400-R / KT400-RL
2-2.3 Warning Indicator LED1: DIMM Slots Powered On
An indicator LED1 is designed on board. Whenever system is started
or is in STR status (Suspend to RAM), all the DIMM slots on board will
also get powered on with the set voltage, resulting in LED1 lighting up.
This indicator LED1 is to warn users that, whenever DIMM slot is powered on, no memory module should be removed from or added into it.
DDR DIMM Slots
(184-pin)
Mouse
(on top)
PS/2 K/B
USB1
Line
Line
Mic
Audio1
RJ45
(on top)
(underside)
COM1
COM2
Out
In
RTL
ALC650
AC'97
Codec
1
Jp3
(underside)
USB0
(middle)
LPT1
Game/MIDI Port
CD-In1
1
IT8705
LPC I/O
1
VT
6103
ATX Main Power
Flash BIOS
14
SCR1
1
1
Fan1
Fan2
Jp1
1
RT1
SOCKET 462
VIA
KT400
Clock
Generator
AGP 4X/8X
1
Fan4
PCI1
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
9
7
5
4
3
1
JCLK1
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE2
IDE1
PCI2
PCI3
PCI4
PCI5
PCI6
WOL1
14
1
1
Jp4
VIA
VT8235
SATA1
RT2
SMI
SLED
PDC
Keylock
-
Li
Battery
10
USB1
1
20376
JBAT1
1
USB2
10
Fan5
1
1
1
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
LED1
DIMM Slots Powered
On Indicator
20
Page 17
Chapter 2 Hardware Setup
2-3 AGP Slot Installation
The AGP slot on board supports 1.5V AGP 8X/4X card only. A Rib is
specifically added to the 8X/4X slot so as to match the AGP 8X/4X card.
To insert a 3.3V AGP 2X card into the AGP 4X slot will damage the
system chip and burn the 1.5V circuitry.
An AGP 8X card will support a data transfer rate up to 2GB/sec., while
an AGP 4X card will provide 1GB/sec transfer rate.
AGP Accelerator
notch
AGP 8X/4X Slot
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Line
Out
Line
In
ATX Main Power
Game/MIDI Port
Mic
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
RT1
VIA
KT400
Clock
Generator
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
Flash BIOS
14
Audio1
SCR1
1
1
PCI6
1
USB1
WOL1
14
Jp4
1
1
Jp1
1
SOCKET 462
LED1
VIA
VT8235
Li
Battery
10
USB2
1
Fan2
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
9
7
5
4
3
1
JCLK1
SATA1
PDC
20376
JBAT1
1
SATA2
10
Fan5
1
1
1
IDE2
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE1
RT2
SMI
SLED
Keylock
-
+
IR PWR
--
SPK RST PLED
HDD/LED
++
1
FDC
21
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KT400-R / KT400-RL
2-4 IDE Connector Installation
1. To install IDE Connector, you may connect the blue connector of IDE
cable to the primary (IDE1) or secondary (IDE2) connector on board,
and then connect the gray connector to your slave device and the
black connector to your master device. If you install two hard disks,
you must configure the second drive to Slave mode by setting its
jumpers correctly. Please refer to your hard disk documentation for
the jumper settings.
2. An additional parallel ATA connector IDE3 is supported by the optional
Serial ATA RAID Controller PDC20376. IDE3 is enabled as a RAID
IDE connector only if the driver for the RAID Controller is installed
on board (See Chapter 5 Disk Array Installation).
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
Audio1
USB1
Line
COM1
COM2
Out
Line
In
Mic
LPT1
ATX Main Power
Game/MIDI Port
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
SCR1
1
1
RT1
VIA
KT400
Clock
Generator
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
WOL1
14
Jp4
1
Black Connector
(To Master Device)
Li
USB1
1
Jp1
1
SOCKET 462
DIMM1
LED1
VIA
VT8235
Battery
10
USB2
10
1
Fan2
DDR 333/266MHz
DIMM2
DIMM3
7
4
1
JCLK1
JBAT1
1
Fan5
1
1
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
9
5
IDE3
IDE2
IDE1
3
SATA1
RT2
SMI
SLED
PDC
Keylock
-
20376
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
1
Red Line
IDE Flat Cable
ATA IDE connecrtors:
IDE2
Orient the red line on the IDE
IDE1
Flat Cable to Pin1.
RAID IDE Connector:
IDE3
Enabled by RAID Driver
Pin 1 (to Red Line)
Gray Connector
(To Slave Device)
Blue Connector
(To Mainboard)
22
Page 19
Chapter 2 Hardware Setup
2-5 Serial ATA Connector Installation
2 Serial ATA connectors are built on board, supported by the SATA RAID
Controller PDC20376. Before we install S ATA RAID disk drive to the
Serial ATA Connector, we must first enable the controller PDC20376
by BIOS Setup (see “Integrated Peripheral” of BIOS Setup) and then
install the RAID Controller Driver (see Chapter 5 Disk Array Installation).
PS/2 K/B
USB1
Audio1
Mouse
(on top)
RJ45
(on top)
COM1
COM2
Line
Out
Line
In
Mic
ALC650
AC'97
(underside)
RTL
Codec
1
(underside)
LPT1
Game/MIDI Port
1
LPC I/O
Jp3
USB0
(middle)
CD-In1
IT8705
1
VT
6103
Flash BIOS
14
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
Li
Battery
PCI6
10
1
SCR1
WOL1
14
1
USB1
Jp4
1
Fan2
Jp1
1
SOCKET 462
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
VIA
VT8235
JBAT1
1
USB2
10
Fan5
1
1
1
Fan1
9
5
IDE2
3
SATA1
PDC
20376
SATA2
1
Serial ATA Connector SATA1 and SATA2
Serial ATA Hard Disk
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE1
RT2
SMI
SLED
Keylock
-
+
IR PWR
--
SPK RST PLED
HDD/LED
++
1
FDC
23
Serial ATA Cable
Page 20
KT400-R / KT400-RL
2-6 Floppy Drive Connector ( FDC ) Installation
To install FDC, you should connect the end of FDC cable with single
connector to the board, and connect the other end with two connectors
to the floppy drives.
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Clock
CD-In1
ATX Main Power
Flash BIOS
14
SCR1
1
Generator
1
Fan4
WOL1
14
1
Audio1
Line
Out
Line
In
Game/MIDI Port
Mic
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
1
Pin 1 (to Red Line)
RT1
KT400
AGP 4X/8X
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
Jp4
VIA
Li
10
USB1
1
Fan2
Jp1
1
SOCKET 462
DDR 333/266MHz
DIMM1
DIMM2
LED1
7
4
1
VIA
VT8235
Battery
JBAT1
1
USB2
10
Fan5
1
1
1
Fan1
DIMM3
(DDR 400MHz conditionally supported)
9
5
IDE2
IDE1
3
JCLK1
SATA1
RT2
SMI
PDC
20376
IR PWR
SATA2
--
HDD/LED
++
FDC
1
Fan3
1
IDE3
Floppy Drive Connector:
SLED
Keylock
-
+
Orient the red line of the
SPK RST PLED
Floppy Flat Cable to Pin1.
1
To 1st Floppy Drive
Red line
FDD Cable
24
To 2nd Floppy Drive
To mainboard
Page 21
Chapter 2 Hardware Setup
2-7 ATX Power Supply Installation
PS/2 K/B
USB1
Audio1
Mouse
(on top)
RJ45
(on top)
COM1
COM2
Line
Out
Line
In
Mic
ALC650
(underside)
RTL
AC'97
Codec
1
(underside)
LPT1
Game/MIDI Port
1
LPC I/O
Jp3
USB0
(middle)
CD-In1
IT8705
1
6103
Flash BIOS
14
1
VT
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
SCR1
WOL1
14
1
USB1
Jp4
1
Jp1
1
SOCKET 462
LED1
VIA
VT8235
Li
Battery
10
USB2
1
1
Fan2
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
9
7
5
4
3
1
JCLK1
SATA1
PDC
20376
JBAT1
1
SATA2
10
Fan5
1
1
IDE2
Fan1
PWR_OK
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE1
Main Power Connector
(20-pin)
RT2
SMI
SLED
Keylock
-
+
IR PWR
--
SPK RST PLED
HDD/LED
++
1
FDC
+12V
5SB
GND
+5V
GND
+5V
GND
+3.3V
+3.3V
Pin1
+5V
+5V
-5V
GND
GND
GND
PS_ON#
GND
-12V
+3.3V
Pin11
To set up Power Supply on this series:
1. Connect the on-board Main Power Connector (20-pin) to the Main
Power Connector (20-pin) of an ATX Power Supply which can be
either of the latest version 2.03 or of earlier ATX model.
2. This ATX power supply should be able to provide at least 720mA /
+5V standby power for Wake On LAN and Wake On Modem function.
25
Page 22
KT400-R / KT400-RL
2-8 Jumper Settings
The following diagrams show the locations and settings of jumper blocks
on the mainboard.
Anti-burn Shield (ABSII)
Jp3:
PS/2 KB/Mouse Wakeup
1-2 closed
1
Enabled
(Default)
2-3 closed
1
Disabled
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
Audio1
USB1
COM1
COM2
Line
Out
Line
In
Mic
ALC650
LPT1
ATX Main Power
Game/MIDI Port
CD-In1
1
RTL
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
SCR1
1
1
RT1
VIA
KT400
Clock
Generator
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
WOL1
14
Jp4
1
Jp4:
USB KB/Mouse Wakeup
1
1-2 closed
Enabled
1
2-3 closed
Disabled
(Default)
USB1
1
Jp1
1
SOCKET 462
LED1
VIA
VT8235
Li
Battery
10
USB2
1
DIMM1
10
JBAT1
1
Fan1
Fan2
DDR 333/266MHz
DIMM2
DIMM3
7
4
1
JBAT1
1
Fan5
1
(DDR 400MHz conditionally supported)
9
5
IDE3
IDE2
IDE1
3
JCLK1
SATA1
RT2
SMI
PDC
20376
IR PWR
SATA2
--
HDD/LED
++
FDC
1
Fan3
1
SLED
Keylock
-
+
SPK RST PLED
1
Clear CMOS
1
1-2 closed
(default)
To hold data
1
2-3 closed
To clear CMOS
JP1:
(Overheated CPU Shutdown)
(only for Athlon XP/
Duron Morgan)
1-2 closed (default)
1
Enable overheated CPU
(85oC) shutdown function
2-3 closed
1
Disable overheated CPU
shutdown function
JCLK1:
CPU Clock Select
(Default Setting)
7
4
1
7
4
1
7
4
1
7
4
1
7
4
1
8-9
4-5
2-3
7-8
4-5
2-3
7-8
5-6
2-3
8-9
5-6
2-3
7-8
4-5
1-2
100MHz
selected
133MHz
selected
166MHz
selected
200MHz
selected
Auto-detect
133 / latest
166MHz
CPU Type
26
Page 23
Chapter 2 Hardware Setup
How to tackle the Jumpers:
1
23
If a pin-header (of 2 or more pins) is
designed in such a way that its pins
can be closed or linked together to
set up a specific function,
is called a jumper in this manual.
A 3-pin Jumper
this header
A 2-pin Jumper cap to link
two header-pins together.
• A Jumper is usually but not necessarily given a “JpX” legend.
• In the Jumper setting diagram, all jumper pins covered with
black marks stand for closed pins with jumper cap.
1 13313
Jp X
Jumper with
Pin 2-3 closed
Jumper with
all pins open
Jumper with
Pin 1-2 closed
• Do not remove any jumper cap when power is on. Always
make sure the power is off before changing any jumper settings.
Otherwise, mainboard could be damaged.
2-8.1 JCLK1: CPU Clock/Overclock Select
JCLK1 is designed on board as a jumper for
CPU clock select. With JCLK1, user can
choose the way for a 100MHz CPU to run an
overclock on board.
1. Before setting the CPU clock, read the
Identification Legend on the CPU, find the
Max FSB and divide it by two. The result is
the default CPU clock.
2. Select the CPU clock you want from 100/
133/166/200MHz and set JCLK1 to match
your choice. Note that the 1-2. 4-5, 7-8
setting of JCLK1 is for auto-detection of
either 133 or latest 166MHz CPU only.
3. If you select a CPU clock which is higher
than your default CPU clock, it means that
an overclock is desired. However, if an
overclok fails to boot system, you should
resort to “Clearing CMOS” to rebooting your
system. (See Clear CMOS in next
paragraph.)
7
4
1
7
4
1
7
4
1
7
4
1
7
4
1
JCLK1:
CPU Clock Select
(Default Setting)
8-9
100MHz
4-5
selected
2-3
7-8
133MHz
4-5
selected
2-3
7-8
166MHz
5-6
selected
2-3
8-9
200MHz
5-6
selected
2-3
7-8
Auto-detect
133/Latest
4-5
166MHz
1-2
CPU Type
27
Page 24
KT400-R / KT400-RL
Note on CPU Overclocking:
1. If you have successfully booted system with or without CPU overclock,
you still can do another CPU overclock in BIOS Setup. Please enter
BIOS Setup, choose “Frequency/Voltage Control” menu, and take
the “Use Linear” option of the “Use CPU Linear Frequency”. Then
configure the “CPU Clock” item to raise your CPU clock.
2. CPU overclocking should take all components on board into account.
If you fail in BIOS overclocking, you will not be able to restart system.
In such case, power off system and clear CMOS by JBAT1 as stated
below and then restart your system. And remember to reconfigure
whatever should be reconfigured.
3. If your system is already fixed in a cabinet or case, you may not like
to take the trouble to clear CMOS. Then power on your system with
the power button on the case and simultaneously press down the
“Insert” key of the keyboard until you see the initial bootup screen
appear. And remember you should also enter CMOS BIOS Setup
and choose “Load Optimized Defaults” to restore default BIOS .
2-8.2 JBAT1: Clear CMOS
When you have problem with rebooting your system, you can clear
CMOS data and restore it to default value. To clear CMOS with Jumper
JBAT1, please follow the steps below:
1. Power off system.
2. Set JBAT1 to Pin 2-3 closed.
3. After 2 or 3 seconds, return the JBAT1 setting to Pin1-2 closed.
4. CMOS data are restored to default. Remember never clear CMOS
when system power is on.
JBAT1
Clear CMOS
1
1-2 closed
(default)
To hold data
1
2-3 closed
To clear CMOS
28
Page 25
Chapter 2 Hardware Setup
2-8.3 Jp1: Anti-burn Shield (ASBII)
JP1:
(Overheated CPU Shutdown)
(only for Athlon XP/
Duron Morgan)
1-2 closed (default)
1
Enable overheated CPU
(85oC) shutdown function
1
2-3 closed
Disable overheated CPU
shutdown function
JP1 is designed to enable the overheat safeguard for some CPUs which
are incorporated with a protective thermal diode.
The latest AMD Athlon
XP and Duron Morgan CPUs are incorporated with such thermal diode
and can be protected by this function. Setting JP1 1-2 closed (default
setting) will get system shutdown when the above-mentioned CPUs get
to 85oC (the default protection temperature.) Only when the CPU returns to a cooler state can you restart your system.
For other CPUs that are not incorporated with a protective thermal diode,
please set JP1 2-3 closed to disable the function because it is a vain
design now.
Reminder: If a sudden shutdown happens to your system which has
been running well for a while with an AMD Athlon XP/Duron Morgan
CPU, this might be caused by the “Overheated CPU Shutdown” design.
Please use a better CPU cooling fan and restart your system.
29
Page 26
KT400-R / KT400-RL
2-8.4 Jp3: PS2 KB/Mouse Wake-up
Jp3 is designed on board as a jumper to wake up system from suspend
mode either with the PS/2 keyboard or the PS/2 mouse.
Jp3:
PS/2 KB/Mouse Wakeup
1-2 closed
1
Enabled
(Default)
2-3 closed
1
Disabled
2-8.5 Jp4: USB KB/Mouse Wake-up
Jp4 is designed on board as a jumper to wake up system from suspend
mode either with the USB keyboard or the USB mouse.
Jp4:
USB KB/Mouse Wakeup
1
1-2 closed
Enabled
1
2-3 closed
Disabled
(Default)
30
Page 27
Chapter 2 Hardware Setup
2-9 Other Connectors Configuration
This section lists out all connectors configurations for users’ reference.
2-9.1 On-board FAN Connectors
PS/2 K/B
Audio1
(on top)
USB1
Line
Line
Mouse
RJ45
(on top)
COM1
COM2
Out
In
Mic
ALC650
AC'97
Codec
(underside)
RTL
1
(underside)
LPT1
Game/MIDI Port
1
IT8705
LPC I/O
Jp3
USB0
(middle)
CD-In1
1
VT
6103
Flash BIOS
14
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
SCR1
WOL1
14
1
USB1
Jp4
1
Jp1
1
SOCKET 462
LED1
VIA
VT8235
Li
Battery
10
USB2
1
1
Fan2
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
9
7
5
4
3
1
JCLK1
SATA1
PDC
20376
JBAT1
1
SATA2
10
Fan5
1
1
IDE2
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE1
RT2
SMI
SLED
Keylock
-
+
IR PWR
--
SPK RST PLED
HDD/LED
++
1
FDC
GND
+12V
SENSOR
Sensor Conn.
FAN1, No-sensor Fan Connector
FAN2, Sensor Fan Connector
(Yellow)
FAN3, Sensor Fan Connector
(Yellow)
FAN4, No-sensor Fan Connector
Void
+12V
GND
No Sensor
FAN5, No-sensor Fan Connector
Both Sensor and No-sensor Fan Connectors support CPU/AGP/System/Case cooling fan with +12V mode. When connecting the wire to
any Fan Connector, user should make sure that the red wire is for the
positive current and should be connected to pin +12V, and the black
wire is Ground and should be connected to pin GND. A Hardware Monitor chipset is on board, with which user can install a Hardware Monitor
Utility and read the fan speed transmitted from the sensor fan connector.
Otherwise, user can read the fan speed from the “Hardware Monitor
Status” in CMOS BIOS.
A running fan will send out 2 electric pulses per rotation of its fan
blade to a Sensor Fan Connector which in turn will count the electric
pulses and send the information to the System Hardware Monitor. The
hardware Monitor Program will work out the fan rotation speed and display it on screen.
31
Page 28
KT400-R / KT400-RL
1
USB Cable (Optional)
Red wire
USB Port
1
10
10
2-9.2 USB Ports and USB Pin-headers
This series provides two USB ports USB0 and USB1 on board supporting various USB devices. In addition, two USB pin-headers are
added on board to provide expansion of four more optional USB ports
by using two additional USB Cables. User can order the optional USB
cables from your mainboard dealer or vender.
When plugging the USB cable to USB Header, user must make sure
the red wire is connected to Pin 1.
All 6 USB ports are compliant with 1.0 / 2.0 USB Bus. USB 2.0 supports Win 98 and up . USB 1.0 / 2.0 drivers are provided in Support CD
for user’s installation.
USB connectors USB0 and USB1 (underside)
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Line
Out
Line
In
ATX Main Power
Game/MIDI Port
Mic
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
Audio1
SCR1
1
1
RT1
VIA
KT400
Clock
Generator
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
USB1
WOL1
14
Jp4
1
1
Jp1
1
SOCKET 462
LED1
VIA
VT8235
Li
Battery
10
USB2
1
Fan2
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
9
7
5
4
3
1
JCLK1
SATA1
PDC
20376
JBAT1
1
SATA2
10
Fan5
1
1
1
IDE2
Fan1
(DDR 400MHz conditionally supported)
IDE1
FDC
USB Pin-headers USB1 and USB2
First USB Port Wiring for Front USB
Fan3
1
IDE3
RT2
SMI
SLED
Keylock
-
+
IR PWR
--
SPK RST PLED
HDD/LED
++
1
USB Header
Pin Assignment
Second USB Port Wiring for Front USB
Red White
+5V
1
+5V
Red
D1-
D2-
White
Green
D1+
D2+
Green
32
black
GND
GND
black
10
Page 29
Chapter 2 Hardware Setup
2-9.3 Chassis Panel Connectors
A.
B. C. D.
E. F. G. H. I. J. K.
A : PS/2 MOUSE
B : RJ45 (KT400-RL only)
C : LPT1 PORT
D : Game/MIDI
E : PS/2 KEYBOARD
F : USB 1 (Underside)
USB 0 (Middle)
G : COM 1
H : COM 2
I : Line Out /
Front Speaker OUT
J : Line In /
Rear Speaker Out
K : Microphone Input /
Center Subwoofer Out
2-9.4 PS/2 Mouse And PS/2 Keyboard
PIN 6 : Void
PIN 5 : Mouse Clock
PIN 4 : Vcc
PIN 3 : GND
PIN 2 : Void
PIN 1 : Mouse Data
PS/2 MOUSE
PS/2 KEYBOARD
PIN 6 : Void
PIN 5 : Keyboard Clock
PIN 4 : Vcc
PIN 3 : GND
PIN 2 : Void
PIN 1 : Keyboard Data
33
Page 30
KT400-R / KT400-RL
PCI1
PCI2
PCI3
PCI4
PCI5
VIA
KT400
DIMM1
IDE2
IDE1
Li
Battery
Fan4
1
1
Fan3
Fan5
1
VIA
VT8235
Flash BIOS
IT8705
AC'97
Codec
WOL1
1
AGP 4X/8X
Clock
Generator
SPK RST PLED
Keylock
SLED
HDD/LED
IR PWR
SMI
++
--
+
-
1
USB2
1
10
RT2
PCI6
Audio1
14
SCR1
14
1
USB1
1
10
Fan1
FDC
1
DIMM2
LED1
ATX Main Power
1
JBAT1
1
USB1
PS/2 K/B
Mouse
(on top)
(underside)
USB0
(middle)
(underside)
RJ45
(on top)
VT
6103
SOCKET 462
RT1
DIMM3
1
1
CD-In1
DDR 333/266MHz
3
4
LPC I/O
LPT1
COM2
COM1
Line
Out
Game/MIDI Port
Line
In
Mic
RTL
ALC650
1
Fan2
7
JCLK1
1
Jp1
1
Jp4
1
Jp3
IDE3
PDC
20376
SATA2
SATA1
(DDR 400MHz conditionally supported)
5
9
2-9.5 CD-ROM Audio Connectors (CD-In1)
CD-In1 is an audio connector connecting CD-ROM audio to mainboard.
PS/2 K/B
Audio1
(on top)
USB1
Line
Line
Mic
Mouse
RJ45
(on top)
(underside)
COM1
COM2
Out
In
RTL
ALC650
AC'97
Codec
1
(underside)
LPT1
Game/MIDI Port
1
LPC I/O
Jp3
USB0
(middle)
CD-In1
IT8705
1
VT
6103
Flash BIOS
14
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
Li
PCI6
10
1
SCR1
WOL1
14
1
USB1
Jp4
1
Fan2
Jp1
1
SOCKET 462
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
VIA
VT8235
Battery
JBAT1
1
USB2
10
Fan5
1
1
1
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
9
5
IDE3
IDE2
IDE1
3
SATA1
RT2
SMI
SLED
PDC
Keylock
-
20376
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
1
CD-ROM Audio Connector
CD-In1
1
Pin 1
Pin 2
Pin 3
Pin 4
Pin Signal
Left Channel
GND
GND
Right Channel
2-9.6 Smart Card Reader Connector: SCR1
Connector “SCR 1” on board supports Smart Card Reader, compliant
with Personal Computer Smart Card (PC/SC) working group standard
and smart card (ISO 7816) protocols
RFU
SCRPRES
SCRRST
LED
8
1
VCC
NCNCSCRCLK
SCRIO
SCRFET
RFU
NC
14
7
NC
GND
34
Page 31
Chapter 2 Hardware Setup
2-9.7 Connector WOL1: Wake On LAN
1. This connector is connected to a LAN card with a Ring signal output.
The connector powers up the system when it receives a wake-up
packet or signal through the LAN card.
2. This feature requires that Resume On Ring feature is enabled in the
BIOS setting “Power Management Setup” and that your system must
be on ATX power supply with at least 720mA / +5V standby power.
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Line
Out
Line
In
Game/MIDI Port
Mic
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
Audio1
1
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
SCR1
1
WOL1
14
Jp4
1
USB1
1
1
SOCKET 462
VIA
VT8235
Li
Battery
10
USB2
1
Fan2
Jp1
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
SATA1
JBAT1
1
10
Fan5
1
9
5
3
20376
1
1
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE2
IDE1
RT2
SMI
SLED
PDC
Keylock
-
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
WOL 1
GND
+5V
Standby
Connect the Wake On LAN
signal from LAN card to WOL1
Ring
2-9.8 RJ45: LAN Connector ( KT400-RL only)
One RJ45 connector is on board for network connection.
Yellow LED “On” to indicate
Network hub is in connection
with the system.
RJ45 Connector
Green LED blinks to indicate
that data transmission is
undergoing in 10/100 Base T
mode.
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Line
Out
Line
In
Game/MIDI Port
Mic
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
Audio1
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
1
SCR1
WOL1
14
Jp4
1
1
USB1
1
1
SOCKET 462
VIA
VT8235
Li
Battery
10
USB2
1
Fan2
Jp1
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
SATA1
JBAT1
1
10
Fan5
1
1
9
5
IDE2
3
PDC
20376
SATA2
1
35
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE1
RT2
SMI
SLED
Keylock
-
+
IR PWR
--
SPK RST PLED
HDD/LED
++
1
FDC
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KT400-R / KT400-RL
2-9.9 Complex Pin-header
This complex Pin-header consists of the following connectors for various supports. When you have fixed the mainboard to the case, join the
connectors of this Complex Pin-header to the case Front Panel.
Jp3
Mouse
1
(on top)
PS/2 K/B
(underside)
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Line
Out
Line
In
ATX Main Power
Game/MIDI Port
Mic
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
Audio1
SCR1
1
1
2
Power Switch
3
Infrared(IR)
2nd HDD LED
4
1st HDD LED
Fan2
Jp1
1
RT1
SOCKET 462
DDR 333/266MHz
VIA
KT400
Clock
Generator
1
Fan4
WOL1
14
1
(Optional)
AGP 4X/8X
Jp4
DIMM1
DIMM2
DIMM3
LED1
7
4
PCI1
1
JCLK1
PCI2
PCI3
VIA
VT8235
PCI4
PCI5
PCI6
SATA1
Li
Battery
JBAT1
1
10
USB2
10
1
USB1
Fan5
1
1
1
1
1
SMI
ATX POWER SWITCH
NO CONNECTION
INFRARED TRANSMIT SIGNAL
INFRARED TRANSMIT SIGNAL
HDD LED SIGNAL
HDD LED SIGNAL
1
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
9
5
IDE3
IDE2
IDE1
3
RT2
SMI
SLED
PDC
Keylock
-
20376
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
SMI SIGNAL
Logic High
Logic High
GND
Vcc
Vcc
GND
(+)
(-)
(-)
(+)
GND
SUSPEND LED SIGNAL
GND
KLOCK
GND
NO CONNECTION
Vcc
Keylock
(-)
(+)
GND
RESET SIGNAL
SPEAKER SIGNAL
GND
NO CONNECTION
Vcc
Case
Front Panel
Suspend LED
(Optional)
6
Power LED
Reset Switch
Speaker
5
7
8
9
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Chapter 2 Hardware Setup
(1) SMI Connector (Optional):
Connection: Connected to the case-mounted Suspend Switch.
Function: Manually selecting system into the Suspend
Mode or “Green Mode” by System mangement interupt.
(2) Power Switch Connector:
Connection: Connected to a momentary button or switch.
Function: Manually switching the system between “On” and
“Soft Off”. Pressing the momentary button for more than 4
seconds will also turn the system off.
(3) IR Connector (Infrared Connector):
Connection: Connected to Connector IR on board.
Function: To support wireless transmitting and receiving
on board.
module
(4) 1st HDD LED Connector/2nd HDD LED Connector:
Connection: Connected to HDD LED.
Function: To supply power to HDD LED.
(5) Suspend LED Connector:
Connection: Connected to Suspend Indicator.
Function: To supply power to “Suspend Indicator”.
(6) Keylock Connector (Optional):
Connection: Connected to keyboard.
Function: To lock keyboard and disable keyboard function.
(7) Power LED Connector:
Connection: Connected to System Power LED.
Function: To supply power to “System Power LED”.
(8) Reset Switch Connector:
Connection: Connected to case-mounted “Reset Switch”.
Function: To supply power to “Reset Switch” and support
system reboot function.
(9) Speaker Connector:
Connection: Connected to the case-mounted Speaker.
Function: To supply power to the case-mounted Speaker.
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KT400-R / KT400-RL
2-9.10 Thermal Connectors
PS/2 K/B
USB1
Audio1
Mouse
(on top)
Line
Line
Mic
RJ45
(on top)
COM1
COM2
Out
In
ALC650
(underside)
RTL
AC'97
Codec
1
(underside)
LPT1
Game/MIDI Port
1
IT8705
LPC I/O
Jp3
USB0
(middle)
CD-In1
1
VT
6103
Flash BIOS
14
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
Li
PCI6
10
1
SCR1
WOL1
14
1
USB1
Jp4
1
Fan2
Jp1
1
SOCKET 462
DIMM1
DIMM2
LED1
VIA
VT8235
Battery
USB2
10
Fan5
1
1
1
Fan1
DDR 333/266MHz
DIMM3
(DDR 400MHz conditionally supported)
9
7
5
4
IDE2
IDE1
3
1
JCLK1
SATA1
RT2
SMI
PDC
20376
IR PWR
JBAT1
1
SATA2
--
HDD/LED
++
FDC
1
RT1
RT1 is mounted
with Thermal Resistor
by default.
Fan3
1
IDE3
To RT 2
SLED
Keylock
-
+
SPK RST PLED
1
Thermal Cable
RT2
To Devices
(Optional)
1. Connector RT1: A thermal resistor is mounted by default to connector
RT1 so as to detect the temperature of the CPU. What RT1 does is
to transmit the thermal signal to BIOS or Hardware Monitor.
2. Connector RT2: A thermal cable is needed to connect RT2 to onboard devices such as HDD, Graphics card etc., so as to detect the
temperature generated therein. Please connect the end (a) of the
thermal cable to RT2, and tape another end (b) of the thermal cable
on to the device which you want to monitor. After you have finished
the thermal cable installation, you will see the detected temperature
in BIOS setup or Hardware Monitor utility.
38
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Chapter 2 Hardware Setup
2-10 IRQ Description
IRQ Function Description Priority
IRQ 0 System Timer 1
IRQ 1 Keyboard Controller 2
IRQ 2 Programmable Interrupt N/A
IRQ 3 Serial Port (COM 2) 11
IRQ 4 Serial Port (COM 1) 12
IRQ 5 Free 13
IRQ 6 Floppy Disk Controller 14
IRQ 7 Parallel Port (LPT1) 15
IRQ 8 Real Time Clock (RTC) 3
IRQ 9 Free 4
IRQ 10 Free 5
IRQ 11 Free 6
IRQ 12 PS/2 Mouse Port 7
IRQ 13 Coprocessor 8
IRQ 14 Primary IDE Channel 9
IRQ 15 Secondary IDE Channel 10
• Both ISA and PCI expansion cards may require IRQs. System IRQs are
available to cards installed in the ISA expansion bus first, then any remaining IRQs are available to PCI cards. Currently, there are two types of ISA
cards.
• The original ISA expansion card design, now referred to as “Legacy” ISA
card, requires you to configure the card’s jumpers manually and then install
it in any available slot on the ISA bus. To see a map of your used and free
IRQs in Windows 98, the Control Panel in My Computer, contains a Sys-
tem icon, which gives you a Device Manager tab. Double-Clicking on a
specific hardware device gives you a Resources tab which shows the Interrupt number and address. Double-Clicking Computers to see all the interrupts and addresses for your system. Make sure that each ISA device
should be assigned to one IRQ respectively. If ISA device share IRQ with
any other device, your computer will easily get into trouble.
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KT400-R / KT400-RL
Chapter 3 Software Setup
Drivers, Utilities and Software Installation
Support CD:
This mainboard will be shipped with a Support CD which contains those
necessary driver files, Application Softwares and some helpful utilities.
It is a user-friendly, auto-run CD which will open itself up in a CD-ROM
automatically.
Contents of Support CD:
For this mainboard, user will be able to find in the Support CD the following drivers and utilities:
1. VIA 4-in-1 Drivers
2. AC’97 Audio Drivers
3. VIA USB 2.0 Drivers
4. Hardware Monitor Utility
5. Other drivers (including LAN drivers)
This chapter is devoted to describing the installations of all these
essential drivers and utilities on Windows 9X, Windows ME , Windows
2000 and Windows XP. The installation procedures for all these operating systems are programed into an auto-run mode. What users have
to do is read and follow the pop-up instructions. We therefore take the
installation on Windows 98 as the general illustration hereby.
The priority of driver installation should also be noted. Users are rec-
ommended to take the following installation order:
3-1 Open Support CD and choose your drivers
3-2 VIA 4-in-1 Drivers Installation
3-3 AC’97 Audio Drivers Installation
3-4 USB 2.0 Drivers Installation
3-5 Hardware Monitor Utility Installation
3-6 LAN Drivers Installation (KT400-RL only)
3-7 RAID Controller Driver Installation
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Chapter 3 Software Setup
3-1 Open Up Support CD:
1. Please put the Support CD enclosed in your mainboard package
into the CD-ROM drive. In a few seconds, the Main Menu will
automatic ally appear, displaying the contents to be installed for this
series:
2. In case your system does not open the Support CD automatically,
please click to the following path to enter the Main Installation Menu:
D:\ Autorun.exe (assuming that your CD-ROM Drive is Drive D)
3. Users are recommended to install all the drivers and utilities at a
time, though they can be installed separately.
Also, we should take “VIA 4-in-1 Drivers” as first installation priority
to optimize the VIA system.
From next section, we provide detailed descriptions of all these
installations with graphical illustrations.
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KT400-R / KT400-RL
3-2 Proceed to VIA 4-IN-1 Drivers Installation
1. Following the procedures of opening the Support CD, click to “ VIA 4in-1 Drivers” to proceed.
2.The VIA Service Pack
InstallShield Wizard will pop up
to guide you to the VIA Service
pack installation. Click “Next”
button to continue.
Next Yes
4. On the screen below, check
”Normally Install” and click
“Next” to continue. (If you check
“Quickly Install”, you will skip
the detailed procedures of the
VIA 4-in-1 Setup.)
3. “VIA Service Pack README”
screen will appear, please click
the “Yes” button to agree with
the Licence Agreement and
continue.
5. Select the checkbox as below
and click “Next” to continue:
VIA ATAPI Vendor Support Driver
AGP VxD Driver
IRQ Routing Miniport Driver
VIA Chipset Function’s Registry
Next
Next
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Chapter 3 Software Setup
6. Select “Install VIA ATAPI
Vendor Support Driver”
checkbox, then click the “Next”
button to continue.
Next
8. Select “Install VIA AGP VxD” in
turbo mode and press “Next”
button to continue.
Next
7. Click on “Click to enable DMA
Mode” checkbox to enable
DMA function, then click the
“Next” button to continue.
Next
9. Select “Install VIA IRQ Routing
Miniport Driver” checkbox, then
click the “Next” button to
continue.
Next
10. After all these setup procedures have finished, you should restart
your computer by clicking on “Finish” so as to put VIA 4-in-1
drivers
into effect and proceed to second driver installation.
Finish
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KT400-R / KT400-RL
3-3 AC’97 Audio Driver Installation
Avance AC97 Audio Codec on board, AC’97 2.2 compatible stereo audio
code for 6-channel audio systems. Avance AC’97 Audio Codec Driver is
provided in Support CD for user’s installation.
3-3.1 AC’97 Driver Installation
1. Following the procedures of opening the Support CD, click to “ AC’97
Audio Driver” to proceed.
2. Instantly, the “installShield Wizard” screen appears to guide you
through the “Avance AC’97 Audio Setup””.
3. Instantly, the Setup program
proceeds to install the softwares
which include AC’97 driver and
AVRack. (If you want to stop
setup, click the “Cancel”
button.)
4. After the setup process is
finished, please check the radial
button “Yes, I want to restart my
computer now.” and click “OK”
to restart your system.
OK
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Chapter 3 Software Setup
3-3.2 6-channel Verification
After installation of AC’97 6-channel Codec, you must configure the 5.1
Speaker connection to enable the 6-channel audio.
1. Connect your on-board Audio Connector to your 6-channel speakers
as depicted in the figure below:
Pale Green Connector
to Front Speaker
Pale Blue Connector
to Rear Speaker
Pale Pink Connector to
Center/Subwoofer Speaker
2. After Connection is done, start your Windows system and double
click the Avance Sound Effect manager icon to enter 6-channel
configuration:
45
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KT400-R / KT400-RL
3. The AC’97 Audio Configuration” screen will pop out. Clikc the “Speaker
Configuration” bar with your mouse.
4. Instantly, the “Speaker Configuration” screen will pop out. Pick the
items “6-channel mode for 5.1 speakers output” and “ Synchronize
the phonejack switch with the speakers settings” and then click “OK”
to finish configuration.
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Chapter 3 Software Setup
5. At finishing the Speakers Configuration, you can also click the
“Speaker Test” bar on the screen to test the 6-channel performance.
The figure below is the “Speaker Test” screen with testing instructions
enclosed on it. Follow the instructions to perform the Speakers Test.
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KT400-R / KT400-RL
3-4 Install USB 2.0 Driver for Win98 / Me / 2000 / XP
VIA USB V2.0 is already integrated on board. Its 480Mb/s transfer rate
supports operating system Win98/Me/2000/XP. USB Driver installation procedures are of similar steps in these systems. Please take the
following illustrations from Win XP as the USB driver installation guide:
1. Following the procedures of opening the Support CD, click to
“Motherboard Drivers” and then choose “VIA USB 2.0 Driver” to
proceed. Please notice that the USB card driver is different from the
USB 2.0 driver typically for the on-board USB. Do not use the USB
card driver here.
2. Instantly the “USB 2.0 Setup Program” will pop up on screen. Click
“Next” to continue.
48
Next
Page 45
Chapter 3 Software Setup
3. Instantly, next screen will pop up to prompt you to select component.
Select “Install USB Driver” and click “Next” button to continue.
Next
4. The USB 2.0 Setup Program will then guide you through the whole
driver setup until the “Finish” screen appears to prompt you to restart
your system. Please click “Finish” button to restart system to put the
new driver into effect.
49
Finish
Page 46
KT400-R / KT400-RL
3-5 Install Hardware Monitor Utility
3-5.1 Installation
Hardware Monitor is built in chip IT8705F of this series. Its installation is programed to a fully automated mode on Windows 9X/
Me/NT4/2000/XP. User can follow the model installation below for
its installation on various Windows System.
1. Following the procedures of opening the Support CD, click to “
Hardware Monitor Utility” to proceed.
2. Instantly the “ Smart Guardian Setup” screen appears to announce
the setup of Hardware Monitor software “Smart Guardian”.
3. Next, the Setup Program will
suggest to you the destination
directory where the “Smart
Guardian” will be installed. Select
the Program folder and click “Next”
to continue.
Next
4. Instantly, Setup Program starts to
copy files and install the software.
4. In one or two second, the “Setup
complete” screen appears. Click
“Finish” to restart your computer so
that the Utility can be put into effect.
50
Finish
Page 47
Chapter 3 Software Setup
3-5.2 Verification
1. After restarting your computer,
click “Start” and choose the path
\Programs \ITE Smart
Accessories\ITE Smart Guardian
to open the main window of the
Hardware Doctor.
2. Instantly, the Smartguardian Main Panel appears, telling you the CPU
current temperature, CPU current Voltage and Current fan speed.
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KT400-R / KT400-RL
3-6 Install VIA LAN Drivers (for KT400-RL only)
3-6-1. VIA6183 LAN driver on Windows 9X
The VIA 6183 LAN driver contained in the Support CD supports VIA
6103 LAN chip. Yet it is not included in the Autorun Menu. To install VIA
LAN driver on Windows 9X, please follow the steps shown below:
1. On the “Start” screen of your system, please click to the following
path:
\My Computer\properties\Device manager
2. In the “Device manager” screen, you can see the item “ PCI Ethernet
Controller” with a yellow question mark on its left side, which indicates
that the LAN controller is already detected by system but the driver
for the on-board LAN Ethernet Controller is not installed yet. Please
point to this item with your mouse and double click on it (or click the
“Properties” button).
3. Instantly, the “PCI Ethernet Controller Properties“ screen shows up.
Please click the “General” bar to continue.
4. In the “General” screen, click “reinstall Driver” button to continue.
Please note that the status of “Device Usage” should stay at “Exists
in all hardware profiles”.
52
Click here
Page 49
Chapter 3 Software Setup
5. In the “Update device Driver Wizard” screen, click “Next” to continue
until you see a dialog box asking you to “Specify a location” for the
driver. You should now insert the Support CD into your CD-ROM.
6. As illustrated in the picture below, check the item “Specify a location”
and click the “Browse” button to find out the correct path for the
driver. Supposing your CD-ROM drive is Drive E, please type:
E:\Driver\Network\VIA6183 into the blank bar. (If you are
installing on Win 95OSR2, you should type W95OSR2 instead of
Win98.) Then click the “Next” button to continue.
Enter the correct path for the
location of LAN driver
7. The Update Device Driver Wizard will then go on installing the driver,
until the “Insert Disk” dialog box shows up. Please withdraw your
Support CD and insert the Win 98 CD-ROM into the CD-ROM drive
for updating system and click “OK” to continue.
8. The Update Device Driver Wizard will then proceed to update the
system with the LAN driver. When the “Finish” screen shows up,
click “Finish” to continue.
9. Final Dialog box will appear to remind you that you must restart your
computer to finish updating the new hardware. Please click “Yes” to
restart system and finish the LAN driver installation.
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KT400-R / KT400-RL
3-6-2. VIA6183 LAN driver on Windows NT4.0
1. When you newly install Win NT4, the Setup program will ask you
whether your computer will participate on a network. please check
“Do not connect this computer to a network at this time” and continue
with your installation. That means, you are going to install the LAN
Adapter and driver after you have finished system installation. By
this way, you will set up your LAN Adapter and driver more surely.
2. If you have now installed Win NT4 in your computer, please boot
your system and in the “Start” screen click the following path to install
your computer networking:
\Start\Settings\Control Panel\Network (double click)
3. Instantly, a dialog box pops up, asking you, “Windows NT Networking
is not installed. Do you want to install it now?” Please click “Yes” to
continue.
4. The Network Setup Wizard will then proceed to guide you to the
installation of LAN Adapter and Driver, until the “Select Network
Adapter” screen pops up, on which you should click “Have Disk” to
install the on-board VIA LAN Controller.
5. Instantly, the “Insert Disk” dialog box pops up. You should now insert
the Support CD into your CD-ROM drive
bar the correct path for the location of the LAN driver. Supposing
your CD-ROM drive is drive D, please type the following path:
D:\Driver\Network\VIA6183\Winnt4 and click “OK” button to
continue.
6. Instantly, the Setup program detects the “VIA PCI 10/100MbFast
Ethernet Adapter” and shows it on the “Select OEM
Option” screen. Please click “OK” to continue.
7. The Setup program will then proceed to install the VIA PCI LAN
Adapter and then other networking components such as TCP/IP
protocol.
8. During the setup process, if “windows NT Setup” needs to copy
some Windows files, you should then withdraw the Support CD and
insert back the Win NT4 CD-ROM into your CD-ROM drive to
continue.
9. After you have finished other networking components setup, you
should restart your syustem to put all the new setups into effect.
, and then type to the white
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Chapter 3 Software Setup
10. To verify that the onboard VIA LAN Controller has been set up in
system, please click “Start”, then “Control Panel”, then “Network”.
11. In the “Network” screen, click the “Adapter” bar. You can now see
the “VIA PCI 10/100Mb Fast Ethernet Adapter is
already installed in system.
3-6-3. VIA6183 LAN driver on Win ME / 2000 / XP
1. When you newly install Windows ME , Windows 2000 or windows
XP, the system will detect the LAN Controller on board and configure
it automatically into system. Therefore, user needs not bother to
install the LAN controller into these operating systems.
2. To verify the existence of VIA6183 LAN Controller and Driver, please
enter the “Control Panel” of your system and click “Network” to open
the “Configuration” screen. You can then see the “VIA PCI 10/
100MbFast Ethernet Adapter” is already installed in system.
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KT400-R / KT400-RL
3-7 Install RAID Controller PDC20376 Drivers
1. Please locate the Promise RAID Controller on your mainboard to
make sure that you are using the right board.
2. Boot system and enter BIOS Setup. Press <Enter> on “Integrated
Peripherals” and choose “Enabled” on the item “Onboard Serial ATA”
3. After you have enabled the Serial ATA Controller in BIOS Setup, you
can now install the Serial ATA RAID Controller Driver into your system.
Please refer to Chapter 5 of this manual for detailed RAID Controller
Driver installation.
1
Jp1
1
SOCKET 462
VT8235
Li
Battery
10
USB2
1
Fan2
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
VIA
JBAT1
1
10
Fan5
1
9
5
3
SATA1
1
1
Fan1
Fan3
(DDR 400MHz conditionally supported)
1
IDE3
IDE2
IDE1
RT2
SMI
SLED
PDC
Keylock
-
20376
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
Mouse
Jp3
(on top)
1
PS/2 K/B¤
(underside)
¤
RJ45
VT
(on top)
6103
USB0
(middle)
(underside)
USB1
COM1
LPT1
COM2
Line
Out
Line
In
Game/MIDI Port
Mic
CD-In1
1
RTL
ALC650
AC'97
Codec
IT8705
LPC I/O
Flash BIOS
14
Audio1
1
1
RT1
VIA
KT400
Clock
Generator
ATX Main Power
AGP 4X/8X
1
Fan4
PCI1
¤
PCI2
PCI3
PCI4
PCI5
PCI6
1
SCR1
14
USB1
WOL1
Jp4
1
RAID Controller
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KT400-R / KT400-RL
Chapter 4 AMI BIOS Setup
THE BIOS
BIOS stands for Basic Input and Output System. It was once called
ROM BIOS when it was stored in a Read-Only Memory (ROM) chip
Now manufacturers would like to store BIOS in EEPROM which means
Electrically Erasable Programmable Memory. BIOS used in this series
of mainboard is stored in EEPROM, and is the first program to run when
you turn on your computer.
BIOS performs the following functions:
1. Initializing and testing hardware in your computer (a process called
“POST”, for Power On Self Test).
2. Loading and running your operating system.
3. Helping your operating system and application programs manage
your PC hardware by means of a set of routines called BIOS RunTime Service.
This Chapter includes the following topics :
4-1 About BIOS Setup
4-2 To Run BIOS Setup
4-3 About CMOS
4-4 The POST (Power On Self Test)
4-5 To Update BIOS
4-6 BIOS Setup
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Chapter 4 BIOS Setup
4-1 About BIOS Setup
BIOS setup is an interactive BIOS program that you need to run when:
1. Changing the hardware of your system. (For example: installing a
new Hard Disk etc.)
2. Modifying the behavior of your computer. (For example: changing
the system time or date, or turning special features on or off etc.)
3. Enhancing your computer’s behavior. (For example: speeding up
performance by turning on shadowing or cache)
4-2 To Run BIOS Setup
First access BIOS setup menu by pressing < DEL > key after “POST” is
complete ( before OS is loaded ). BIOS will then display the following
message:
DEL:SETUP
4-3 About CMOS
CMOS is the memory maintained by a battery. CMOS is used to store
the BIOS settings you have selected in BIOS Setup. CMOS also
maintains the internal clock. Every time you turn on your computer, the
BIOS Looks into CMOS for the settings you have selected and configures
your computer accordingly. If the battery runs out of power, the CMOS
data will be lost and POST will issue a “CMOS invalid” or “CMOS
checksum invalid” message. If this happens, you have to replace the
battery and check and configure the BIOS Setup for the new start.
4-4 The POST ( Power On Self Test )
POST is an acronym for Power On Self Test. This program will test all
things the BIOS does before the operating system is started. Each of
POST routines is assigned a POST code, a unique number which is
sent to I/O port 080h before the routine is executed.
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4-5 To Update BIOS
• System BIOS is incorporated into a Flash memory component. Flash
BIOS allows user to upgrade BIOS without the need to replace an EPROM
component.
• The Upgrade Utility can be loaded on a floppy diskette for upgrading
saving, and verifying the system BIOS. The Update Utility can also be
run from a hard disk drive or a network drive.
• It is highly recommended that you save a copy of the original mainboard
BIOS along with a Flash EPROM Programming utility (AMIXXX.EXE)to a
bootable floppy disk so that you can reinstall the BIOS when in need.
• Normally, to update BIOS is unnecessary if the system is working fine.
Users should only update BIOS when incompatible problems are encountered or new features have to be added to system.
• “AMIFLASH.EXE” is a Flash EPROM Programming utility that updates
the BIOS by uploading a new BIOS file to the programmable flash ROM
on the mainboard. This program only works in DOS environment, the
utility can not be executed in win95/98, ME, NT WINDOWS 2000 or
Windows XP environment.
• Please follow the steps below for updating the sys tem BIOS:
Step 1. Please visit the board maker’s website, download latest BIOS
file and AMI update utility. The file name of AMI update utility will be
“AMIXXX.EXE” of which “ XXX ” stands for the version number of the
file. The BIOS file format will be *.ROM, of which “ * ” stands for the
specific BIOS file name.
Step 2. Create a bootable diskette. Then copy the BIOS file and AMI
flash utility “AMIXXX.EXE” into the diskette.
Step 3. Insert the diskette into drive A, boot your system from the
diskette.
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Step 4. Under “ A “ prompt, type “ AMIXXX.EXE *.ROM “ and then
press <Enter> to run BIOS update program. Please note that there
should be a space between AMIXXX.EXE and *.ROM. (*.ROM depends
on your mainboard model and version code. Instead of typing “*”, you
should type the specific file name for your specific mainboard).
Step 5. When the message “Flash ROM Update Completed - Pass.”
appears, please restart your system.
Step 6. You will see a message “CMOS Memory Size Wrong” during
booting the system. Press <Del> or <F1> to run CMOS setup utility,
then reload “LOAD SETUP DEFAULTS” or “Load Optimal Defaults”
and save this change.
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4-6 BIOS SETUP --- CMOS Setup Utility
4-6.1 CMOS Setup Utility
This mainboard comes with the AMI BIOS from American Megatrends
Inc. Enter the CMOS Setup Utility Main Menu by:
1. Turn on or reboot your system. After a series of diagnostic checks,
the following message will appear:
PRESS <Del> TO RUN SETUP
2. Press the <Del> key and the main program screen will appear as
follows.
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
Standard CMOS Features
Advanced BIOS Features
Advanced Chipset Features
Power Management Features
PNP/PCI Configurations
Integrated Peripherals
SmartDoc Anti-burn Shield
Frequency/Voltage Control
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Exit : Select Menu Enter: Select Sub-Menu F10: Save and Exit
Set Time, Date, Hard Disk Type ...
System Information
Set Supervisor Password
Load Optimal Defaults
Save & Exit Setup
Exit Without Saving
3. Use the arrow keys on your keyboard to select an option, and press
<Enter>. Modify the system parameters to reflect the options installed
in your system.
4. You may return to the Main Menu anytime by pressing <ESC>.
5. In the Main Menu, “Save & Exit Setup” saves your changes and
reboots the system, and “Exit Without Saving” ignores your changes
and exits the program.
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4-6.2 Standard CMOS Setup
Standard CMOS Setup records some basic system hardware
configuration and sets the system clock and error handling. Modify the
configuration values of this option if you want to change your system
hardware configuration or after you clear CMOS data.
Run the Standard CMOS Setup as follows:
1. Choose “Standard CMOS Setup” from the Main Menu and a screen
with a list of options will appear:
Standard CMOS Features Setup Help
System Time 00 19 29
System Date Dec 05 2001 Wed
Floppy options.
IDE Devices Config
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
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System Time The BIOS shows the time of the day in the format:
hh:mm:ss. Choose the field with the Arrow keys
and change the time with the Page Up/Page
Down +/- keys.
System Date The BIOS shows the date of the day in the format:
mm:dd:yy :day of the Week. Choose the field with
the Arrow keys and change the value with the
Page Up/Page Down +/- keys.
Floppy options Press Enter on “Floppy options” will let you select
this field to the type(s) of floppy disk drive(s) installed
in your system. The choices are:
1.2MB, 5.25 in.
720KB, 3.5 in.
1.44MB, 3.5 in.
2.88MB, 3.5 in.
Not Installed
IDE Device Config Press Enter on IDE Device Config will let you
configure the IDE devices on board and the following menu will reveal the following submenu
for your configuration of the hard Disk you have
installed:
Primary IDE Master : Not Installed Setup Help
Type Auto
Cylinders
Heads
Write Precompensation
Sectors
Maxium Capacity 0 Mb
LBA Mode Off
Black Mode Off
Fast Programmed I/O Modes 0
32 Bit Transfer Mode Off
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
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Type This option shows the types of configuration for the
IDE devices:
1-50: Predefined types
USER: set Parameters by User
Auto: Set parameters automatically
CD-ROM: Use for ATAPI CD-ROM drives
Double click [Auto] to set all HDD parameters
automatically, including “Cylinders, Heads, Write
Precompensation, Sectors, Maximum Capacity and
32 Bit Transfer Mode.
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4-6.3 Advanced BIOS Features
Advanced BIOS Features improves your system performance or sets
up system features according to your preference.
Run the Advanced BIOS Features as follows:
1. Choose “Advanced BIOS Features” from the Main Menu and a screen
with a list of options will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
Advanced BIOS Features
Quick Boot Enabled
Delay for Hard Drive (Sec.) 2
Boot Device Priority
1st Floppy: 1.44 MB 3.5
2nd CD-ROM
3rd IDE-0 :Maxtor 20560 A4 Try Other Boot Devices Yes
Initial Display Mode Silent
Display Mode at Add-On ROM Init Force BIOS
S.M.A.R.T. for Hard Disks Disabled
Bootup Num-lock On
Floppy Drive Swap Disabled
Floppy Drive Seek Disabled
Primary Display VGA/EGA
Password Check Setup
Boot To OS/2 No
L1 Cache Writeback
L2 Cache Enabled
System BIOS Cacheable Enabled
C000,32K Shadow Cached
C800,16K Shadow Disabled
CC00,16K Shadow Disabled
D000,16K Shadow Disabled
D400,16K Shadow Disabled
D800,16K Shadow Disabled
DC00,16K Shadow Disabled
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
Setup Help
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2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide.
Quick Boot
Delay for Hard Drive
(Sec.)
1st/2nd/3rd Boot
Device
Try Other Boot De-
vices
Initial Display Mode
Display Mode at Add-
On ROM Init
S.M.A.R.T. for Hard
Disks
Allows you to enable / disable quick boot of your
system.
Allows you to adjust the time of detecting hard disk
on board at booting system.
Choices: Disabled; 1~10 sec. in 1 sec. stepping.
Allows you to set floppy or IDE devices already installed on board to be the 1st/2nd/3rd boot device.
Choises: Disabled; Device(s) installed
Allows you to enable/disable system to try to boot
with other boot devices.
Choises: Yes; No
If option is “Silent”, the initial display mode is set to
one with Soltek logo. If option is “BIOS”, initial display will hide logo.
Choices: silent (default); BIOS
If the item “Initial Display Mode” is set to “Silent”, two
other sub-modes are provided for this item. If “Force
BIOS” is chosen, the vendor’s logo screen will be followed by the “Add-on ROM” initial screen (the screen
showing the add-on card BIOS message). If “Keep Current” is chosen, no “Add-On ROM” screen is followed.
Allows you to enable / disable the Self Monitoring
Analysis and Reporting Technology for the hard disk.
Choices: Enabled; Disabled
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Bootup Num-lock Allows you to toggle between On or Off to control
the state of the NumLock keys when the system
boots. If On, the numeric keypad is in numeric
mode. If off, the numeric keypad is in cursor control mode.
Floppy Drive Swap
Floppy Drive Seek
Primary Display Allows you to choose the primary display for the system.
Password Check Allows you to set BIOS to check up password with a
Boot to OS/2
L1 Cache
L2 Cache
System BIOS
Cacheable
Disabled (default), Floopy Drive A will not be chnged to
B, nor B to A. Enabled, Floppy Drive a and B will change
position.
Disabled (default), Floppy Drives will not be checked and
diagnosed at system bootup; Enabled, Floppy Drives
will be checked and diagnosed at system bootup.
Choices: VGA/EGA (default); CGA40x25; CGA80x25;
Mono; Absent
password prompt at BIOS Setup or whenever restarting system.
Choices: Setup; Always
Allows you to set your system to OS/2 operating
system.
Choices: Yes; No (default)
Allows you to set the Internal/External Cache Mode.
Choices: WriteBack; Disabled
Allows you to set the Internal/External Cache Mode.
Choices: Enabled; Disabled
Allows you to enable / disable the System BIOS
Cacheable function.
C000, 32K Shadow Allows you to set these addresses cached, Enabled or
Disabled. Default: Cached
C800,CC00,D000,D400,
D800,DC00 16K
Shadow
Allows you to set these addresses cached, Enabled or
Disabled. Default: Disabled
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4-6.4 Advanced Chipset Features
Advanced Chipset Features is used to modify the values of chipset
buffers. These buffers control the system options.
Run the Advanced Chipset Features as follows:
1. Choose “Advanced Chipset Features” from the Main Menu and a
list of option will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
Advanced Chipset Features Setup Help
DRAM Timing
Configure SDRAM timing by SPD Enabled
SDRAM Frequency Auto
SDRAM CAS# Latency 2.5
SDRAM Bank Interleave Disabled
SDRAM Burst Length 4 QW
SDRAM Command Rate 2T
Fast Command Normal
AGP Mode 8X
AGP Fast Write Disabled
AGP Aperture Size 64MB
AGP Master 1 W/S Write Disabled
AGP Master 1 W/S Read Disabled
AGP Read Synchronization Disabled
APIC Interrupt Mode Disabled
USB Controller 6 USB Ports
USB 1.1 Device Legacy Support Disabled
USB 1.1 Port 64/60 Emulation Disabled
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
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Configure SDRAM
Timing by SPD
SDRAM Frequency Allows you to set the SDRAM frequency.
SDRAM CAS# Latency With SDRAM Timing by SPD disabled, you can se-
SDRAM Bank Inter-
SDRAM Burst Length With SDRAM Timing by SPD disabled, you can se-
SDRAM Command
SPD (Serial presence detect) is a device in memory
module for storing the module information such as
DRAM timing and chip parameters. If this option is
enabled, BIOS will access SPD automatically to
configure module timing. If disabled, DRAM timing
can be configured manually.
Choices: Auto; 200MHz; 266MHz; 333MHz; 400MHz
lect the SDRAM CAS# (Column Address Strode)latency manually.
Choices: 2Clocks; 2.5 Clocks; 1.5 Clocks; 3.0 Clocks
This item allows you to enable / disable SDRAM
leave
Bank Interleave function.
Choices: Disabled (default); 2-way; 4-way
lect the SDRAM Burst length manually.
Choices: 8; 4
Allows you to set the SDRAM Command Rate.
Rate
Choices: 1T; 2T
Fast Command
AGP Mode Allows you to see the AGP Mode on board. The
AGP Fast Write Allows you to enable / disable the AGP Fast Write
Allows you to select the Fast Command Mode.
Choices: Normal; Fast; Ultra
default setting is Auto. This item supports 4X/8X AGP
Mode. 2X and 1X modes are included in options for
attempt to lower the AGP speed.
function
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AGP Aperture Size Allows you to set the AGP Aperture Size.
Choices: 4MB; 8MB; 16MB; 32MB; 64MB; 128MB;
256MB;
AGP Master 1 W/S
Write
AGP Master 1 W/S
Read
AGP Read Synchroni-
zation
APIC Interrupt Mode
USB Controller Allows you to set the USB Controller on the USB
USB 1.1 Device Legacy
Support
USB 1.1 Port 64/60
Emulation
Allows you to enable / disable (default) the support
of AGP Master 1 Waite State Write.
Allows you to enable / disable (default) the support
of AGP Master 1 Waite State Read.
Allows you to enabled / disabled (default) the AGP
Read Synchronization function.
Allows you to enable / disable (default) the APIC
function for selecting the APIC interrupt Mode.
port(s).
Choices: 6 USB Ports; 4 USB Ports;
2 USB Ports; disabled
Allows you to select the USB Device Legacy support.
Choices: No Mice; all Devices; Disabled
Allows you to enable / disable (default) the Port 64/
60 Emulation.
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4-6.5 Power Management Features
Power Management Features allows you to set the system’s power
saving functions.
Run the Power Management Features as follows:
1. Choose “Power Management Features” from the Main Menu and a
list of options will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
Power Management Features Setup Help
ACPI Standby State S1/POS
USB Device Wakeup Function Enabled
Call VGABIOS at S3 Resume Enabled
Power Management/APM Enabled
Video Power Down Mode Suspend
Hard Disk Power Down Mode Stand by
Standby Time Out (Minute) Disabled
Suspend Time Out (Minute) Disabled
Power Button Function On/Off
Restore on AC/Power Loss Power Off
Resume On Ring/WOL Disabled
Resume On PME# Disabled
Resume On PS/2 KB Disabled
Wake-Up Key Any Key
Resume On PS/2 Mouse Disabled
Resume On RTC Alarm Disabled
RTC Alarm Date 15
RTC Alarm Hour 12
RTC Alarm Minute 30
RTC Alarm Second 30
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
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ACPI Standby State This item allows you to select the ACPI Suspend
type. You can select S3(STR) for suspending to
DRAM if your system supports this mode. Or you
can select S1 (POS) for Power on Suspend under
Windows 98 or later O/S ACPI mode..
USB Device Wakeup
Function
Call VGABIOS at S3
Resume
Power Management/
APM
Video Power Down
Mode
Hard Disk Power
Down Mode
Standby Time Out
(Minute)
Suspend Time Out
(Minute)
Power Button Function
Restore on AC/Power
Loss
Allows you to enable / disable the USB device
Wakeup function.
If the ACPI Standy State is set to “S3(STR)”, this
item allows you to enable / disable the Call VGABIOS
at S3 function.
Allows you to enable / disable the Power management / Advanced Power Management function.
Allows you to select the Video Power Down Mode.
Choices: Disabled; Standby; Suspend
Allows you to select the Hard Disk Power Down
Mode.
Choices; Disabled; Standby; Suspend
To set the duration of Standby Time Out.
Choices: 1; 2; 4; 8; 10; 20; 30; 40; 50; 60
To set the duration of Suspend Time Out.
Choices: 1; 2; 4; 8; 10; 20; 30; 40; 50; 60
allows you to set power Button function.
Choices: On/Off; Suspend
Allows you to set the restore state from AC/Power
Loss.
Choices: Last State; Power Off; Power On
Resume on Ring/WOL
Allows you to enable / disable the Resume on Ring
/Wake on LAN function.
An input signal on the serial Ring Indicator (RI) Line
(in other words, an incoming call on the modem)
awakens the system from a soft off state.
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Resume on PME#
Resume on PS/2 KB
Wake Up Key
Resume on PS/2
Mouse
Resume On RTC Alarm Allows you to enable / disable the Resume On RTC
RTC Alarm Date / Hour
/ Minute / Second
Allows you to enable / disable the Resume on PME
function.
Allows you to select S3/S4/S5 mode or disable the
Resume on Keyboard clock function.
Choices: Disabled; S3; S3/S4/S5
If Resume On KBC is not disabled, this item allows
you to select any key to wake up system.
Allows you to S4/S5 mode or disable the Resume
on PS/2 Mouse function.
Choices: Disabled; S3; S3/S4/S5
Alarm function.
If resume On RTC Alarm is enabled, this field allows you to set the Alarm date Hour, Minute and
second.
Date Choices: Every Day; 01 ~ 31
Hour Choices: 00 ~ 23
Minute Choices: 00 ~ 59
Second Choices: 00 ~ 59
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4-6.6 PNP / PCI Configurations
PNP/PCI Configuration allows you to modify the system’s power saving
functions.
Run the PNP/PCI Configurations as follows:
1. Choose “PNP/PCI Configurations” from the Main Menu and a screen
with a list of options will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
PNP/PCI Configurations Setup Help
Plug and Play Aware O/S No
Clear NVRAM No
PCI Latency Timer (PCI Clocks) 32
Primary Graphics Adapter PCI
PCI IDE Busmaster Enabled
PCI Slot1 IRQ Priority Auto
PCI Slot2 IRQ Priority Auto
PCI Slot3 IRQ Priority Auto
PCI Slot4 IRQ Priority Auto
PCI Slot5 IRQ Priority Auto
PCI Slot6 IRQ Priority Auto
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
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Plug and Play Aware
Clear NVRAM
PCI Latency Timer (PCI
Clocks)
Primary Graphics
Adapter
PCI IDE BusMaster Allows you to enable / disable the PCI IDE Bus
PCI Slot 1/2/3/4/5/6 IRQ
Priority
Allows BIOS to recognize the Plug and Play Aware
O/S
Operating System.
Choices: No (default); Yes
Allows BIOS to clear the NVRAM data.
Choices: No (default); Yes
Allows you to set the PCI Latency Time.
Choices: 32; 64; 96; 128; 160; 192; 224; 248;
Allows you to select the primary Graphics Adapter.
Choices: PCI; AGP
Master function.
Allows you to specify the IRQ for the PCI slots.
Choices: Auto; 3; 4; 5; 7; 9; 10; 11
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4-6.7 Integrated Peripherals
Integrated Peripherals option allows you to get some information inside
your system when it is working.
Run the Integrated Peripherals as follows:
1. Choose “Integrated Peripherals” from the Main Menu and a list of
options will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
Integrated Peripherals Setup Help
OnBoard FDC Auto
OnBoard Serial Port 1 Auto
OnBoard Serial Port 2 Auto
Serial Port 2 Mode Normal
OnBoard Parallel Port Auto
Parallel Port Mode ECP
Parallel Port IRQ Auto
Parallel Port DMA Channel Auto
OnBoard MIDI Port Disabled
MIDI Port IRQ 5
OnBoard Game Port 200
OnBoard Serial-ATA Enabled
OnBoard IDE Both
OnBoard LAN(Optional) Disabled
OnBoard LAN P.M.E. Enabled
OnBoard AC’97 Audio Enabled
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
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OnBoard FDC Allows you to enable / disable the Onboard FDC.
Choices: Auto; Enabled; disabled
Onboard Serial Port 1
Onboard Serial Port 2 Allows you to set the Onboard Serial Port B.
Serial Port 2 Mode
OnBoard Parallel Port Allows you to configure onboard Parallel port .
Parallel Port Mode If Parallel Port is not disabled, this item allows you
Parallel Port IRQ If Parallel Port Mode is set at EPP, this item allows
Parallel Port DMA
Channel
OnBoard MIDI Port
Allows you to set the Onboard Serial Port A.
Choices; auto; Disabled; 3F8/COM1; 2F8/COM2;
3E8/COM3; 2E8/COM4;
Choices; auto; Disabled; 3F8/COM1; 2F8/COM2;
3E8/COM3; 2E8/COM4;
Allows you to set the Serial Port B Mode.
Choices: Normal; IrDA; ASKIR;
Choices: auto; Disabled; 378; 278; 3BC;
to configure parallel port mode.
Choices: ECP; EPP + ECP; Normal; EPP
you to set the Parallel Port IRQ.
Choices: 5; 7
If Parallel Port Mode is set at ECP, this item allows
you to set the DMA Channel.
Choices: 0; 1; 3
Allows you to configure onboard MIDI port address.
The choices: Disabled; 300h; 310h;320h;330h
MIDI IRQ If the onboard MIDI port is set at 300h or 330h, this
item shows up to allow you to configure the MIDI
Port IRQ to IRQ 5.
Choices: 5; 10; 11
OnBoard Game Port Allows you to configure Onboard Game port
address.
The choices: Disabled; 200h; 208h
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OnBoard Serial-ATA Allows you to enable/disable Serial-ATA Controller.
Choices: Disabled; Enabled
OnBoard IDE Allows you to choose the Onboard IDE Mode.
Choices: Disabled; Primary; Secondary; Both
(Optional) Onboard
LAN
Onboard LAN P.M.E.
Onboard AC‘97 Audio
If your mainboard is LAN on board, this item allows
you to enable / disable onboard LAN.
Choices: Enabled; Disabled
Allows you to enable/disable Onboard LAN P.M.E.
function.
Choices: Enabled; Disabled
Allows you to disable AC’ 97 Audio.
Choices: Enabled; Disabled
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4-6.8 SmartDoc Anti-Burn Shield
This menu helps you to read only and get more information on the
working CPU temperature, FAN speed and voltage.
1. Choose “SmartDoc Anti-Burn Shield” from the Main Menu and a
screen with a list of current status of your working system will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
SmartDoc Anti-Burn Shield Setup Help
CPU Warning Temperature Disabled
CPU Shut Down Temperature Disabled
CPU Fan Low speed Warning Disabled
CPU Fan Low Speed Shutdown (Disabled)
(ABSII)CPU Current Temperature (53
(ABSII)CPU Shutdown Temperature 85
Temperature 1 (0 0C/32 0F)
Temperature 2 (31
Fan 1 Speed (0 RPM)
Fan 2 Speed (4905 RPM)
CPU Vcore (+1.680 V)
+2.5V (+2.504 V)
+3.3V (+3.408 V)
+5.0V (+5.126 V)
+12.0V (+11.187V)
-12.0V (-11.972V)
VDIMM (2.480V)
5V SB (+5.164V)
Battery (+3.296V)
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
0
C/1270F)
0
C/185 0F
0
C/87 0)
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
CPU Warning Tem-
perature
Select a upper limits for the CPU temperature. If
the CPU temperature extends beyond the limit,
any warning mechanism programmed into your system will activate the warning.
Choices: Disabled; 50˚C~71˚C in 3˚C stepping
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CPU Shutdown Tem-
perature
CPU Fan Low Speed
Warning
CPU Fan Low Speed
Shutdown
ABS II CPU Current
Temperature(for AMD
XP/Duron Morgan)
ABS II CPU Shutdown
Temperature(for AMD
XP/Duron Morgan)
Temperature 1 Shows current CPU internal temperature.
Temperature 2 Shows current CPU external temperature.
This feature allows you to set the shutdown temperature to the running CPU.
Choices: Disabled; 50 0C~710C in 3˚ C stepping
This feature allows you to set up the CPU Fan Low
Speed warning function.
Choices: Disabled; Stop/0RPM; 1000~6000RPM
This feature allows you to enable/disable the CPU
Fan Low Speed Shutdown function.
Choices: Disabled; Stop/0RPM; 1000~6000RPM
This item will appear if AMD XP or Duron Morgan
CPU is running on board. This item is to show the
current temperature inside the running CPU.
This item will appear if AMD XP or Duron Morgan
CPU is running on board. ABS II (Anti-burn Shield
II) allows user to set up the safeguard temperature
for the CPU designed with a protective thermal diode inside the CPU itself. Default Safeguard temperature is 85˚C, at which the XP or Duron Morgan
CPU will shutdown. Usually, a jumper is also designed on board for enabling/disabling ABS II
function.
Choices: 75˚C / 167˚F; 80˚C / 176˚F
85˚C / 185˚F(default); 90˚C / 194˚F
95˚C / 203˚F; 100˚C / 212˚F
Fan 1 / 2 Displays the current speed of CPU Fan, and other
CPU Vcore Shows CPU core actual voltage value.
+2.5V/+3.3V/+5.0V/
+12V/-12V/+5.V SB/
VDIMM Shows current voltage against VDIMM.
Battery Shows current voltage against battery power supply.
onboard device which user has connected to the
onboard Fan Connectors.
Shows current voltage against the respective power
supply.
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4-6.9 Frequency/Voltage Control
Run the “Frequency/Voltage Control” as following:
1. Choose “Frequency/Voltage Control” from the Main Menu and a
screen with a list of options will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
Frequency/Voltage Control Setup Help
RedStorm Overclocking Tech (optional) Press Enter
CPU Linear Frequency Disabled
CPU Clock 133 MHz
Spread Spectrum Selection Disabled
Auto Detect PCI slot Disabled
CPU Voltage Control Auto
AGP Voltage Control 1.5V
DIMM Voltage Control 2.5V
VCC2.5 Voltage Control 2.5V
CPU Ratio Selection Default
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Use one of the arrow keys to move between options and modify the
selected options by using PgUp / PgDn / + / - keys. An explanation
of the <F> keys follows:
<F1>: “Help” gives options available for each item.
<F9>: Setup BIOS default values.
<F10>: Save and Exit Setup.
3. Press <ESC> to return to the Main Menu when you finish setting up
all items. The following item descriptions are provided as a quick
guide to your setup.
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(Optional)
Redstorm Overclock-
CPU Linear
Frequency
CPU Clock If CPU Linear Frequency is set at Enabled, this item
Spread Spec-
Auto Detect PCI Slot Allows you to enable / disable the Auto Detect PCI
CPU Voltage
Control
If this option is chosen in BIOS, press <Enter> to
start RED STORM OVERCLOCKING TECH. This
ing
option helps user to raise CPU clock automatically
Tech
until an unacceptable valueis reached. Then BIOS
will restart your systemwith a highest acceptable CPU clock.
This item allows you to enable / disable this setting
function.
allows you to set CPU Clock.
Choices: 100MHz ~200MHz in 1MHz stepping.
Allows you to enable / disable this Spread
trum
Speectrum function. If enabled, this function will
reduce the EMI (Electromagnetic Interference) in
your system. If you do not have an EMI problem,
leave this item disabled.
Slot function.
allows you to configure the CPU Voltage. Usually,
to raise CPU voltage will raise the chance of CPU
overclocking and yet risk damage of CPU.
Choices: Auto; 1.100V ~1.850V in 0.025 stepping
AGP Voltage
Control
DIMM Voltage
Control
VCC2.5 Voltage
Control
CPU Ratio
Selection
allows you to configure the AGP Voltage.
Choices: 1.5V; 1.6V; 1.7V; 1.8V
allows you to configure the DIMM Voltage.
Choices: 2.5V; 2.6V; 2.7V; 2.8V
allows you to configure the VCC2.5 Voltage.
Choices: 2.5V; 2.6V; 2.7V; 2.8V
If CPU onboard is one with an adjustable or unlocked CPU ratio, this item allows you user to adjust the CPU Ratio. If your CPU is one with the
CPU Ratio locked, this item will be invalid.
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4-6.10 System Information
This menu helps you to read only and get more information on the
system.
1. Choose “System Information” from the Main Menu and a screen with
a list of current status of your working system will appear:
AMIBIOS NEW SETUP UTILITY - VERSION 3.31a
System Information Setup Help
BIOS Version (10/21/02)
Processor Type (AMD Athlon(tm) XP
Processor Speed (1550MHz)
Base Memory (640KB)
Extended Memory (255MB)
Total Memory (256MB)
Cache Size (384KB)
Memory Bank 0 (SDRAM)
Memory Bank 1 (SDRAM)
Memory Bank 2 (None)
F1: Help : Select Item +/- : Change Values F9: Setup Defaults
Esc: Previous Menu Enter: Select Sub-Menu F10: Save and Exit
2. Press <ESC> to return to the Main Menu. In case any irregular reading appears about your system, it indicates that a problem exists
therein. To solve the problem, a hardware engineer or your dealer is
recommended.
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4-6.11 Set Supervisor Password
This option allows you to set a Supervisor password for the system:
1. Choose “Set Supervisor Password” in the Main Menu and press
<Enter>. Then the following message appears:
[ Enter new supervisor password ]
2. The first time you run this option, enter your password up to 8 characters and press <Enter>. (The screen does not display the entered
characters.)
3. After you enter the password, the following message appears prompting you to confirm the password:
[ Retype new supervisor Password ]
4. Enter the same password “exactly” the same as you have just typed
to confirm the password and press <Enter>.
5. The following message appears to confirm the new password setup.
[ New supervisor password installed ]
Any Key to Continue
6. Then press any key to continue your CMOS Setup. To save the password setup, you should press “Save & Exit Setup” and choose “yes”
to exit and save setup.
7. After the Supervisor password is set, you have to choose whether
the password is for entering the system or only for entering BIOS
Setup program. To make the choice, please enter BIOS Setup and
choose “Advanced BIOS Features” in the main menu. (At entering
BIOS Setup, you have to enter the password now.) In “Advanced
BIOS Features”, choose “Password Check” and change the option.
The “Setup” option is to set the password only for entering BIOS
Setup. The “Always” option is to set the password for entering the
system.
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8. To change or remove a current supervisor password, choose “Set
Supervisor Password” and press <Enter>. An instruction box appears
on the screen, prompting you to enter the current password first:
[ Enter current supervisor password ]
9. Type the current password with keyboard and then press <Enter>.
An instruction box appears, prompting you to enter new supervisor
password:
[ Enter new supervisor password ]
10. If you enter a new password into the box, you will be using this new
password after you have finished and saved this new setup. Instead,
if you press <Enter> before you enter any new password into the
instruction box, another message box appears, telling you that you
have disabled the Supervisor password. That means, no password
is set for either entering BIOS Setup or system:
[ Supervisor password disabled ]
Any Key to Continue
NOTE: If you forget or lose a supervisor password, the only
way to access the system is to clear the CMOS. All setup
informations will then be cleared including the password and
you need to run the BIOS setup program again so as to
reconfigure BIOS.
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4-6.12 Load Optimized Defaults
When you press <Enter> on this item, you will get a confirmation dialog
box with a message similar to:
[ Load Optimized Settings ]
Press [Enter] to continue
or [ESC] to abort
Press <Enter> now to load Optimal values for all the Setup options.
4-6.13 Save & Exit Setup
Save & Exit Setup allows you to save all modifications you have specified
into the CMOS memory. Highlight this option on the Main Menu and
press <Enter>. The following message appears:
[ Saving current settings and exit ]
Press [Enter] to continue
or [ESC] to abort
Press <Enter> key to save the configuration changes and exit CMOS
Setup to restart your system.
4-6.14 Exit Without Saving
Exit Without Saving option allows you to exit the Setup Utility without
saving the modifications that you have specified. Highlight this option
on the Main Menu and the following message appears:
[ Quit Without Saving Changes ]
Press [Enter] to continue
or [ESC] to abort
Follow the message and press <Enter> key to exit CMOS Setup and
restart system.
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Chapter 5 RAID Controller
The following topics are included in this chapter:
5-0 Before Creating Disk Array
5-1 Creating your Disk Array
5-2 Installing RAID Controller PDC20376 Driver
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5-0 Before Creating Disk Array:
1. Please locate the Promise RAID Controller on your mainboard to
make sure that you are using the right board.
2. Boot system and enter BIOS Setup. Press <Enter> on “Integrated
Peripherals” and choose “Enabled” on the item “Onboard Serial ATA”
3. After you have enabled the Serial ATA Controller in BIOS Setup, you
can now install the Serial ATA RAID Controller Driver into your system.
PS/2 K/B
USB1
Audio1
Mouse
(on top)
Line
Line
Mic
RJ45
(on top)
(underside)
COM1
COM2
Out
In
RTL
ALC650
AC'97
Codec
1
(underside)
LPT1
Game/MIDI Port
LPC I/O
Jp3
USB0
(middle)
CD-In1
1
IT8705
1
VT
6103
ATX Main Power
Flash BIOS
14
1
1
Fan1
Fan2
Jp1
1
RT1
SOCKET 462
VIA
KT400
Clock
Generator
AGP 4X/8X
1
Fan4
PCI1
PCI2
PCI3
PCI4
PCI5
PCI6
SCR1
14
1
WOL1
Jp4
1
DDR 333/266MHz
DIMM1
DIMM2
DIMM3
LED1
7
4
1
JCLK1
VIA
VT8235
Li
Battery
JBAT1
1
10
USB2
10
USB1
Fan5
1
1
1
Fan3
(DDR 400MHz conditionally supported)
1
9
5
IDE3
IDE2
IDE1
3
SATA1
RT2
SMI
SLED
PDC
Keylock
-
20376
+
IR PWR
SATA2
--
SPK RST PLED
HDD/LED
++
1
FDC
1
SSATA1
On-Board
RAID Controller
SSATA2
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5-1 Creating Your Disk Array
To create your disk array, you have to open the FastBuild Utility, which
should have already been built in the Promise Controller. At booting
your system, you will see the following intiating screen:
FastTrak 376(tm) BIOS Version xxxxxx
(c) 2--2-2005 Promise Technology, Inc. All rights reserved.
No Array is defined....................................
Press <Ctrl-F> to enter Fastbuild(tm) Utility or
Press <ESC> to continue booting.....
Press <Ctrl-F> to enter Fastbuild Utility NOW!
You can create two types of array with the help of FastBuild Utility.
1. An array for Performance in Striping type with 1 or 2 drives (or called
RAID 0).
2. An array for Data Security in Mirroring type with 2 drives treated as
one disk array (or called RAID 1).
WARNING :
WARNING :
backup any necessary data. Failure to follow this could result in data
loss.
To create a Security array using an existing hard drive,
5-1.1 Creating An Array For Performance/Security
FastTrak 376 allows users to create striped arrays with 1 or 2 drives.
1. Boot your system with Controller PDC20376 enabled in BIOS and
your hard drive(s) connected to IDE3/SATA1/SATA2. Suppose this
is the first time to create a Disk Array. The Promise BIOS on board
with FastBuild Utility built in will scan the IDE devices and display
the result as below:
FastTrak 376 (tm) BIOS Version 1.xx
(c) 2002-2005 Promise Technology, Inc. All Rights Reserved.
No array is defined...
Press <Ctrl-F> to enter FastBuild (tm) Utility or
Press <ESC> key to continue booting .........
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2. Press <Ctrl-F> keys to display the FastBuild (tm) Utility Main Menu.
Auto Setup ............................................[ 1 ]
View Drive Assignment .........................[ 2 ]
Define Array .........................................[ 3 ]
Delete Array .........................................[ 4 ]
Rebuild Array .......................................[ 5 ]
3. Press “1” to display the Auto Setup Menu below. This is the fastest
and easiest method to create your first array.
[Auto Setup Options Menu]
Optimize Array for: Performance
[Array Setup Configuration]
Mode ............................................... Stripe
Spare Drive .............................................0
Drives used in Array ................................1
Array Disk Capacity .........................38166
[Keys Available]
[] Up [] Down [,, Space] Change Option [ESC] Exit [Ctrl-Y] Save
4. If only one hard disk is inserted, the only choice is “Performance”
under “Optimize Array for “ section. If two hard disks are inserted,
“Performance” and “Security” are the choices. If three hard disks are
inserted, “Performance is the only choice.
5. If only one hard disk is inserted, “Stripe” will appear under “Mode “
section. If two or three hard disks are inserted, “Mirror” will appear
for “Security” in “Mode” section.
6. Press <Ctrl-Y> keys to save and create the array.
7. Reboot your system.
8. Once the array has been created on new drive(s), you would need to
FDisk and format the array as if it were a new single hard drive.
9. Also proceed to “Installing Drivers” section of this Chapter for system
and FastTrak 376 Driver setup.
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5-1.2 Creating Security Array With Existing Data Drive
FastTrak 376 on board permits only two drives to be used for a single
Mirroring (Security) array with FastBuild Utility.
Checkpoints before creating a Security Array:
(1) You may use a drive that is containing data or a bootable O/S.
Then you will need another new drive of identical or larger
storage capacity.
(2) Backup any necessary data before proceeding. Failure to follow
this accepted PC practice could result in data loss.
(3) If you wish to include your current bootable drive holding Window
NT 4.x or Windows 2000 O/S as part of a bootable Mirroring (
RAID 1 ) array on your FastTrak 376 controller , you SHOULD
first install the Windows NT4 or 2000 driver software to this drive
while it is still attached to your system hard drive controller (e.g.
IDE1/IDE2). For all other Operating Systems except Win NT4.0
and 2000, you can proceed with your hard driver(s) connected
to IDE3/SATA1/SATA2.
1. Boot your system with FastTrak 376 Controller enabled in BIOS and
your hard drive(s) connected to IDE3/SATA1/SATA2. Suppose this
is the first time to create a Disk Array. The Promise BIOS on board
with FastBuild Utility built in will scan the IDE devices and display
the result as below:
FastTrak 376 (tm) BIOS Version 1.xx
(c) 2002-2005 Promise Technology, Inc. All Rights Reserved.
No array is defined...
Press <Ctrl-F> to enter FastBuild (tm) Utility or
Press <ESC> key to continue booting .........
2. Press <Ctrl-F> keys to display the FastBuild (tm) Utility Main Menu.
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3. Press “1” to display the Auto Setup Menu below. This is the fastest
and easiest method to create your first array.
[Auto Setup Options Menu]
Optimize Array for: Performance
[Array Setup Configuration]
Mode ............................................... Stripe
Spare Drive .............................................0
Drives used in Array ................................1
Array Disk Capacity .........................38166
[Keys Available]
[] Up [] Down [,, Space] Change Option [ESC] Exit [Ctrl-Y] Save
4. Using the Spacebar, choose “Security” under the Optimize Array
for section.
5. Press <Ctrl-Y> keys to Save your selection.
6. Reboot your system.
7. Once the array has been created on new drive(s), you would need to
FDisk and format the array as if it were a new single hard drive.
8. Also proceed to “Installing Drivers” section of this Chapter for system
and FastTrak 376 Driver setup.
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5-2 Installing Drivers
This section details the PDC 20376 FastTrak 376 driver installation for
various operating systems. The driver should have been included either into the Support CD or into a Support Floppy Diskette.
Checkpoints for the driver installation:
1. To install FastTrak 376 Driver for an operating system, you must use
the driver in Floppy Diskette instead of the one in CD. If you are not
provided with a Driver Diskette, you should create one by copying
the driver files through thesupport CD with the path:
“E \Driver\Promise\FastTrak 376. (Suppose that CD-ROM Drive is E).
2. The following sections describe the detailed procedures of installing
FastTrak 100-Lite Driver for windows 2000, Windows 95/98, Windows NT4.0, and Windows 3.1 / DOS.
5-2.1 For Windows 2000/XP
5-2.1-1 Installing Driver During New Installation of Windows
2000 / XP
1. Connect your hard driver(s) for RAID Array to IDE3/SATA1/SATA2, and
enable FastTrak 376 Controller in BIOS.
1a. Bootable floppy: Boot from bootable floppy and type “WINNT”.
After files have been copied, the system will reboot. On the reboot,
press <F6> after the message “Setup is inspecting your computer’s
hardware configuration... ”appears.
1b. CD-ROM Install: Boot from the Win 2000 / XP CD. Press <F6> after
the message “ Press F6 if you need to install third party SCSI or RAID
driver” appears.
2. When the “Win 2000/ XP Setup” window is generated, Press “S”
to specify an Additional Device(s).
3. Press “O” to select “Other” and press the “Enter” key.
4. Insert into drive A the Promise Technology ® RAID driver diskette
(you can make one yourself from your Support CD if you cannot
find one in the Mainboard Package) and press “Enter” key.
5. Choose “Win2000/ XP Promise FastTrak 376 Controller” from the
list that appears on screen, then press the “Enter” key.
6. The Win 2000/XP Setup screen will appear again saying “Setup will
load support for the following mass storage devices:” The list will include
“Win2000/XP Promise FastTrak 376 controller”.
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Note: If you need to specify any additional devices to be installed, do
so at this time. Once all devices are specified, continue to step 7.
7. From the Win 2000/XP Setup screen, press the Enter key. Setup will
now load all device files and then continue the Win 2000/XP installation.
5-2.1-2 Installing Driver To Existing Win 2000/XP System
WARNING:
WARNING:
moving the boot drive containing the existing Win 2000/XP operating
system on to the FastTrak 376 controller (e.g. IDE3/SATA1/SATA2).
On mainboard, IDE1/2 are for system IDE controller, while IDE3 &
SATA1/2 are under RAID controller.
At booting with Win 2000/XP system and your hard drive(s) connected to
IDE1/2, Win 2000/XP setup will show a “New Hardware Found” dialog
box. Under Win 2000/XP, the “PCI RAID Controller” will be displayed.
1. In the dialog box, choose “Driver from disk provided by hardware manu-
facturer “ button.
2. In the A: drive, insert the FastTrak 376 driver diskette.
3. Type “A:\WIN2000/XP” in the text box. Press “Enter”.
4. Choose ”Win2000/XP Promise FastTrak 376 Controller” from the
list that appears on screen, then press the “Enter” key.
5. The Win 2000/XP setup screen will appear again saying “Setup will
load support for the following mass storage device - Win2K/XP Promise
FastTrak 376 controller. The FastTrak 376 driver will now be copied
on to the system and entered into the Win 2000/XP driver database.
6. When the “System Setting Change” dialog box appears, remove
the floppy diskette and click on “Yes” to restart the system. Win
2000/XP will then restart for the driver installation to take effect.
7. Power off your system, then attach your hard drive to the FastTrak 376
controller, e.g. IDE3/SATA1/SATA2.
Your must first complete installing the driver before
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5-2.1-3 Confirming Windows 2000 Installation
1. From Windows 2000, open the Control Panel from “ My Computer”
followed by the System icon.
2. Choose the “Hardware” tab, then click the “Device Manager” tab.
3. Click the “+” in front of “SCSI & RAID Controllers hardware type.” The
driver “Win2000 Promise FastTrak/FastTrak 376 Controller” should
appear, informing user that the controller driver is already installed.
5-2.2 Windows 95/98
5-2.2-1 Installing Drivers During Windows 95/98 Installation
The following three sections detail the installation of the FastTrak 376 driv-
ers while installing Windows 95/98 (with the FastTrak 376 controller card
already in place). If you’re installing the FastTrak 376 drivers on a system with Windows 95/98 already installed, see “Installing Drivers with
Existing Windows 95/98”.
5-2.2-2 Windows 98
1. Connect your hard drive(s) for RAID Array to IDE3/SATA1/SATA2,
and enable FastTrak 376 Controller in BIOS. Configure the hard
drive(s), partition and format your hard driver(s).
2. Install Windows 98 normally.
3. After installation, go to “Start” menu and choose “Settings.”
4. Form the “Settings” menu, choose “Control Panel.”
5. In the “Controller Panel” window, double-click on the “System” icon.
6. In the “System” window, choose the “Device Manager” tab.
7. In the hierarchical display under “Other Devices” is a listing for “PCI
RAID Controller.” Choose it and then press the “Properties” button.
8. Choose the “Driver” tab in the “Properties” window, choose “Update
Driver,” and then press “Next.”
9. Choose “Search for a better driver than the one your device is using
now (recommended), “then press ”Next”.
10. Choose “Specify Location,” and then type “A:\WIN95-98” in the text box.
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11. Insert the “FastTrak 376 Driver” diskette into the A: drive.
12. Press the “Next” button. A message informing you that Windows 98
has found “Win95-98 Promise FastTrak 376 (tm) Controller”
should appear.
13. Press “Next,” then “Finish,” then “Yes” when asked if you want to restart
your computer. Be sure to remove the diskette from drive A:.
5-2.2-3 Windows 95
1. Connect your hard drive(s) for RAID Array to IDE3/SATA1/SATA2, and
enable FastTrak 376 Controller in BIOS. Configure the hard drive(s) for
RAID Array, partition and format your hard driver(s).
2. Install Windows 95 normally.
3. After installation, go to “Start” menu and choose “Settings.”
4. Form the “Settings” menu, choose “Control Panel.”
5. In the “Controller Panel” window, double-click on the “System” icon,
6. In the “System” window, choose the “Device Manager” tab.
7. In the hierarchical display under “Other Devices” is a listing for “PCI
RAID Controller.” Choose it and then press the “Properties” button.
8. Choose the “Driver” tab in the “Properties” window, and then press the
“Update Driver” button.
9. When asked if you want Windows to research for the driver, choose
“Yes (recommended).”
10. Insert the “FastTrak 376 Driver” diskette into the A: drive, then
press “Next.”
11. When Windows informs you that it was unable to find the drivers, press
“Other Locations...”
12. In the “Select Other Location” dialog box, type “A:\WIN9x-ME”.
13. Press “Next” button. A message informing you that Windows 95 has found ”
Win95-98 Promise FastTrak 376 (tm) Controller” should appear.
14. Press “Finish.” (If Windows can’t find the “FastTrak 376.MPD” file,
type “A:\WIN9x-ME” in the copy files from:” text box).
15. Choose “Yes” when asked if you wish to restart the system, and remove
the diskette from Drive A.
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5-2.2-4 Installing Drivers With Existing Windows 95/98
The following three sections detail the installation of the FastTrak 376 driv-
ers on a system that has Windows 95/98 already installed. If you’re
installing the FastTrak 376 drivers on a system during a Windows 95/98
installation, see “Installing Drivers During Windows 95/98 Installation”.
5-2.2-5 Windows 98
1. Connect your hard drive(s) for RAID Array to IDE3/SATA1/SATA2,
and enable FastTrak 376 Controller in BIOS. Configure the hard drive(s)
for RAID Array, power up the system and boot Windows.
2. The “Add New Hardware Wizard” will appear, informing you that it has
found a “PCI RAID Controller.”
3. Check the “Search for the best driver for your device” box and click the
Next button.
4. Check the “Specify a Location” box and click the Next button.
5. Type “A:\WIN9x-ME” in the text box that appears.
6. Insert the “FastTrak 376 Driver” diskette in drive A:.
7. Click on “Next.” The Add New Hardware wizard will say it has found
“Win95-98 Promise FastTrak 376 Controller”.
8. Click on “Next,” and then on “Finish.”
9. Choose “Yes” when asked if you want to restart your computer. Be sure to
remove the diskette from drive A:.
5-2.2-6 Windows 95
1. Connect your hard drive(s) for RAID Array to IDE3/SATA1/SATA2,
and enable FastTrak 376 Controller in BIOS. Configure the hard drive(s)
for RAID Array, power up the system and boot Windows.
2. The “Update Device Drive Wizard” will appear, informing you that it has
found a “PCI Mass Storage Controller.”
3. Insert the “FastTrak 376 Driver” diskette in drive A:.
4. Type “A:\WIN9x-ME” in the text box, then click on “Next.” Windows
will inform you that it has found the “Win95/98 Promise FastTrak
376 controller”.
5. Click on “Finish,” and when prompted to insert the “FastTrak 376 Driver”
diskette, click on “OK.”
6. If a message informing you that the file “Win95/98 Promise FastTrak 376.
MPD” cannot be found, go to the “Copy files from:” text box and type:
“A:\WIN9x-ME”.
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7. Choose “Yes” when asked whether you want to start your computer. Be
sure to remove the diskette from drive A.
5-2.2-7 Confirming Driver Installation in Windows 98/95
To confirm that the driver has been properly loaded in Win 95/98, perform
the following steps:
1. Choose “Settings” from the “Start” menu.
2. Choose “Controller Panel”, and then double-click on the “System” icon.
3. Choose the ”Device Manager” tab, and click the “+” in front of “SCSI &
RAID controllers.” “Win95-98 Promise FastTrak 376 controller”
should appear.
5-2.3 DOS/Windows 3.1x
For first -time installation, follow the standard procedure of installing DOS
on to your hard disk (partition all hard drive with FDISK and format before performing the following procedure):
1. Insert “Disk 1” of your DOS installation diskettes into drive A:.
2. Type “A:\SETUP” at the “A:\” prompt.
3. Continue with normal DOS installation procedure, and refer to your DOS
manual for additional details.
Note: The FastTrak 376 BIOS supports both DOS and Windows 3.1x
without software drivers installed.
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5-2.4 Windows NT4.0
5-2.4-1 Installing Drivers During Windows NT 4.0
Installation
1. Connect your hard drive(s) for RAID Array to IDE3/SATA1/SATA2,
and enable FastTrak 376 Controller in BIOS. Start the system installation by booting from the Windows NT disk:
a) Floppy install: boot the system with the Windows NT installation
diskettes.
b) Other bootable Floppy: boot from the bootable floppy and
type “WINNT/B”. After files have been copied, the system will
reboot. On the reboot, press the “F6” key when the message “Setup
is inspecting your computer’s hardware configuration...” appears.
c) CD-ROM disk install: boot from the CD-ROM disk and press the
“F6” key when the message “Setup is inspecting your computer’s
hardware configuration...” appears.
2. When the “Windows NT Setup” windows is generated, press “S” to specify an
Additional Device(s).
3. Press “O” to select “Other” and press the “Enter” key.
4. Insert into drive A the Promise Technology ® FastTrak 376 driver
diskette that you have made from the support CD: and press “Enter”
key.
5. Choose “Win NT Promise FastTrak 376 (tm) Controller” from
the list that appears on screen, then press the “Enter” key.
6. The Windows NT Setup screen will appear again saying “Setup will load
support for the following mass storage devices:” The list will include
“Win NT Promise FastTrak 376 (tm) controller”.
Note: If you need to specify any additional devices to be installed, do so at
this time. Once all devices are specified, continue to step 7.
7. From the Windows NT Setup screen, press the Enter key. Setup will now
load all device files and then continue the Windows NT installation.
8. After a successful installation, the “SCSI Adapter Setup” box will show
that the “Win NT Promise FastTrak 376 (tm) Controller” driver has
been installed.
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Chapter 5 RAID Controller
5-2.4-2 Installing Drivers With Existing Windows NT4.0
WARNING:
WARNING:
moving the boot drive containing the existing Windows 2000 operating
system on to the FastTrak 376 controller (e.g. IDE3/SATA1/SATA2).
On mainboard, IDE1/0 are for system IDE controller, while IDE3 &
SATA1/2 are under RAID controller.
With your bootable hare drive connected to IDE1/IDE2 and FastTrak 376
enabled in BIOS, boot Win NT4.0.
1. Choose “Settings” from the “Start” menu.
2. Choose “Controller Panel” from the “Settings” menu.
3. Double-click on the “SCSI Adapters” icon, which generates the
“SCSI Adapters” dialog box.
4. Choose “Drivers,” and then press “Add.”
5. In the “Install Drivers” dialog box, press “Have Disk...”
6. When the “Install From Disk” appears, insert into Drive A the “FastTrak
376 Driver” diskette that you have made from support CD:.
7. Type “A:\NT4” in the text box window, then choose “OK.”
8. When the “Install Driver” dialog box appears, select “ Win NT Prom
ise FastTrak 376 controller” and then press “OK.”
9. When the “Select SCSI Adapter Option” dialog box appears, press “Install”.
10. After a successful installation, the “SCSI Adapter Setup” box will show
that the “Win NT Promise FastTrak 376 (tm) Controller” driver has
been installed.
11. Power off your system.
12. Now you can move the boot drive to the FastTrak 376 Controller.
Your must first complete installing the driver before
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