Download Soltek SL-NV400-L64 Motherboard - NV400-L64-V1.3

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Transcript 
NV400-64 / NV400-L64
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 a 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
16
Chapter 2 Hardware Setup
2-1 CPU Identification and Installation
2-1.1 CPU Identification Legends
AMD
AMD
AXDA2400DKV3C RFBCYA5280061
XXXXXXXXXXXXX XXXXXXXXXX
AMD Athlon TM
XXXXXXXXXXX
XXXXXXXXXXXX
XXXXXXX
XXXXXXXXX
XXXXXXXXXXX
XXXX
0.13 um CPU
0.18um CPU
AMD Athlon(Duron)
AX 1900 D U T 3 C
(1) (2)
(1)
(2)
(3) (4) (5) (6) (7)
Family / Architecture:
A, AX, AXDA=AMD Athlon Processor
D, DHD, DHM, DHL=AMD Duron Processor
Speed: 1000=1000MHz, 1600=1400MHz, 1700=1467MHz,
1800=1533Mhz, 1900=1600MHz, 2000=1667MHz,
2100=1733MHz, 2200=1800MHz, 2400=2000MHz,
2600=2133MHz, 2700=2167MHz, 2500=1833MHz(Barton),
2800=2083MHz(Barton), 3000=2250MHz(Barton),
3200=2332MHz(Barton)
(3)
Package Type: A=CPGA, D=OPGA
(4)
Voltage: L=1.5V, U=1.6V, K=1.65V, P=1.7V, M=1.75V, N=1.8V
(5)
Maximum Temperature: R=70˚C, Y=75˚C,V=85˚C
T=90˚C, S=95˚C, Q=100˚C
(6)
Size of L2 Cache: 1=64Kb, 2=128Kb, 3=256Kb, 4=512Kb
(7)
Max FSB: A=B=200MHz, C=266MHz, D=333MHz, E=400MHz
Note: Get the Host CPU Clock by dividing FSB by 2.
17
NV400-64 / NV400-L64
2-1.2 CPU Installation with Socket 462
This mainboard 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.
S
O
C
K
E
T
46
2
1. First pull sideways the lever of
Socket 462, and then turn it up
900 so as to raise the upper layer
of the socket from the lower
platform.
AMD
2. Configure Pin 1 of CPU to Pin 1
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.
SO
E
CK
T4
62
Pin 1
A
M
D
3. Make sure that all CPU pins have
completely entered the socket
and then lower down the lever
to lock up CPU to socket.
SO
Pin 1
18
C
T
KE
46 2
Chapter 2 Hardware Setup
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 SDRAM Module
• This series supports up to 2GB unbuffered DDR 400/333/266 SDRAM,
with 2 DDR DIMM slots on board. Do not insert other type of modules into these slots.
• DDR DIMM slot has 184-pins and one notch. Insert a DDR SDRAM
vertically into the 184-pin slot with the notch-to-rib matchingPress
the module down in a gradual way until it surely reaches the bottom
and clicks straight up the two latches on the left and right of the slot.
If any one of the latches has not turned up completely, you should
unplug the module and press it down the slot a bit more firmly.
184-Pin DIMM Notch Key Definitions
DRAM Key Position
Voltage Key Position
(2.5V Voltage Key)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.
19
NV400-64 / NV400-L64
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
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
LPT1
nVIDIA
JAUD1
nFORCE2 400
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
USB1
USB0
(underside) (middle)
Jp4
IDE2
RJ45
(on top)
DDR 400/333/266MHz
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
-
PWR
20
J6
1
IR
-
BIOS
RST
NJP1
Li
Battery
HDD LED
+
PCI5
+
PWLED
PCI4
LPC I/O
W83627HF
SPK
PCI3
WOL1
1
1
FDC1
USB1
USB2
Fan3
1
1
20
1
COM2
Line
Out
Line
In
Mic
RT1
Game/MIDI Port
COM1
1
SOCKET 462
Chapter 2 Hardware Setup
2-4 IDE Connector Installation
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.
(on top)
Jp1
Jp2
Fan2
+12V Power
DIM2
1
(underside)
DIM1
Mouse
PS/2 Keyboard
LPT1
nVIDIA
nFORCE2 400
ATA IDE connectors:
IDE1 Orient the red line on the IDE
Flat Cable to Pin1.
IDE2
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
JAUD1
Jp4
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
DDR 400/333/266MHz
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
Li
Battery
WOL1
1
1
FDC1
USB1
USB2
Fan3
1
PWR
-
Pin 1 (to Red Line)
1
-
BIOS
RST
NJP1
IR
PCI5
20
J6
1
+
PWLED
PCI4
LPC I/O
W83627HF
SPK
PCI3
HDD LED
+
COM2
Line
Out
Line
In
Mic
RT1
Game/MIDI Port
COM1
1
SOCKET 462
1
Gray connector
(To Slave device)
80-conductor
cable
Black connector
(To Master Device)
Red line
Blue connector
(To Mainboard)
IDE Flat Cable
21
NV400-64 / NV400-L64
2-5 Floppy Drive Connector 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.
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
LPT1
nVIDIA
nFORCE2 400
Fan1
JAUD1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
USB1
USB0
(underside) (middle)
Jp4
IDE2
RJ45
(on top)
DDR 400/333/266MHz
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
IR
-
HDD LED
+
BIOS
RST
NJP1
Li
Battery
WOL1
1
1
FDC1
USB1
USB2
Fan3
1
Floppy Drive Connector:
-
PWR
20
J6
1
PCI5
+
PWLED
PCI4
LPC I/O
W83627HF
SPK
PCI3
1
COM2
Line
Out
Line
In
Mic
RT1
Game/MIDI Port
COM1
1
SOCKET 462
Orient the red line of the
Floppy Flat Cable to Pin1.
1
Pin 1 (to Red Line)
To 2nd Floppy Drive
Signal Swap End
Red line
To 1st Floppy Drive
FDD Cable
22
To Mainboard
Chapter 2 Hardware Setup
2-6 ATX Power Supply Installation
+12V Power Connector
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
2
1
COM1
COM2
LPT1
GND
JAUD1
DDR 400/333/266MHz
Fan1
RT2
AGP 4X/8X
CDIN1
1
+12V
5SB
PWR OK
GND
+5V
GND
+5V
GND
+3.3V
+3.3V
nFORCE2 400
PCI1
IDE1
USB1
USB0
(underside) (middle)
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
PWR
-
RST
IR
HDD LED
+
BIOS
1
1
1
FDC1
USB1
USB2
Fan3
3
+5V
+5V
-5V
GND
GND
GND
PS ON#
GND
-12V
+3.3V
Pin11
Main Power Connector
(20-pin)
NJP1
Li
Battery
-
WOL1
1
Pin1
20
J6
1
PCI5
+
PWLED
PCI4
LPC I/O
W83627HF
SPK
PCI3
+12V
1
IDE2
RJ45
(on top)
Jp4
nVIDIA
ATX Main Power
Line
Out
Line
In
1
+12V
GND
RT1
Game/MIDI Port
Mic
4
SOCKET 462
1
ATX V2.03 Power Supply is strongly recommended running with the
nFORCE2-chipset mainboard.
To set up Power Supply on this mainboard:
1. Get ready a V2.03 ATX Power Supply which provides a square-shaped
+12V Power Connector in addition to the 20-pin Main Power
Connector and other peripheral power connectors.
2. Connect the on-board square-shaped +12V Power Connector to the
square-shaped +12V Power Connector of the Power Supply.
3. Connect the on-board 20-pin Main Power Connector to the 20-pin
Main Power Connector of the Power Supply. Please note that both
the +12V Power Connector and the 20-pin Main Power Connector
should be connected to Power Supply to power on the system.
23
NV400-64 / NV400-L64
2-7 Jumper Settings
The following diagrams show the locations and settings of jumper blocks
on the mainboard.
Jp2:
Anti-burn Shield (ABSII)
(Overheated CPU Shutdown)
(only for Athlon XP/
Duron Morgan)
Jp1:
Keyboard/Mouse
Power On / Wake Up
1-2 closed (default)
1
Keyboard/Mouse Power On
/ Wake Up Disabled
1-2 closed (default)
To enable overheated CPU
1 (85 oC) shutdown function
2-3 closed
1
Keyboard/Mouse Power
On / Wake Up Enabled
2-3 closed
To disable overheated
1 CPU shutdown function
1
Jp1
nVIDIA
nFORCE2 400
Fan1
RT2
1
PCI1
IDE1
AGP 4X/8X
CDIN1
IDE2
JAUD1
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
PWR
-
20
J6
1
NJP1
Li
Battery
-
BIOS
IR
PCI5
+
PWLED
PCI4
LPC I/O
W83627HF
RST
PCI3
SPK
1
Jp4
HDD LED
+
COM1
RJ45
(on top)
USB1
USB0
(underside) (middle)
DDR 400/333/266MHz
1
1
FDC1
USB1
USB2
Fan3
WOL1
1
1
1
J6:
Clear CMOS
1-2 closed (default)
1
To hold data
1
To clear CMOS
2-3 closed
24
1
For 166MHz or
200MHz CPU
RT1
ATX Main Power
2-3 closed
LPT1
COM2
Line
Out
Line
In
For 100MHz or
133MHz CPU
Mic
1
1
SOCKET 462
Game/MIDI Port
(default)
1-2 closed
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
PS/2 Keyboard
DIM2
Mouse
Jp4 :
CPU Clock Select
Chapter 2 Hardware Setup
2-7.1 How to tackle the Jumpers:
1
2
3
A 2-pin
Jumper
Cap
A 3-pin Jumper
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, this header
is called a jumper in this manual.
The conductor inside the cap
links 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.
Jp X
1
3
1
3
1
3
Jumper with
Jumper with
Jumper with
Pin 2-3 closed
all pins open
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.
2-7.2 Jp4: CPU Clock Select
1. Before setting the CPU clock by Jp4, read
the Identification Legend on the CPU, find
the Max FSB and divide it by two. The
result is the default CPU clock.
2. Setting Jp4 1-2 closed is for 100MHz or
133MHz CPU.
3. Setting Jp4 2-3 closed is for 166MHz or
200MHz CPU, 100MHz or 133MHz CPU will
fail to boot herewith.
4. If 100MHz or 133MHz CPU fails to boot
system, you should excute the nVIDIA-BootFailure-Restart Procedure to reboot system.
25
Jp4 :
CPU Clock Select
(default)
1-2 closed
1
For 100MHz or
133MHz CPU
2-3 closed
For 166MHz or
200MHz CPU
1
NV400-64 / NV400-L64
nVIDIA Boot-Failure-Reboot Procedures:
Whenever nVIDIA system fails to boot (including overclock and nonoverclock cases), it requires a more guaranteed Reboot Procedure to
restart system.
(1) To reboot nVIDIA system, users should first power off the system.
(2) If a “CPU Clock Select” Jumper is on board, restore this jumper
setting to default setting.
(3) Execute the “Clear CMOS” procedures with “Clear CMOS” Jumper.
(4) Then press down “Insert” key of the keyboard before pressing down
Power Button to start system. Do not release Insert Key until you can
see the initial bootup screen appear.
(5) In some “overclocking cases by BIOS Setup”, if system still cannot
boot up with the above 4 steps, please remove the on-board battery
from the battery-socket and unplug the power cord as well. Keep the
battery and power cord away from system in 10 to 20 seconds so as to
make sure all power residue has faded away.
(6) After restoring the power cord and battery to system, make sure the
“CPU Clock Select” Jumper is at “Default Setting” and then press the
Power Button to restart system again. Please note that Step (5) will
take the place of Step (3) and (4).
(7) After starting system, users should also enter “Advanced Chipset
Features” of BIOS Setup and set the “FSB Frequency” to “CPU Default” value for a guaranteed bootup. However, user can also select a
higher CPU clock to try overclocking again.
2-7.3 J6: nVIDIA 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
J6, please follow the steps below:
1. Power off system.
2. Set J6 to Pin 2-3 closed.
3. After 3 or 5 seconds(allowing residue
power to fade away), return the J6
setting to Pin1-2 closed.
4. To reboot the system, press down “
Insert” key before pressing down
Power Button. Do not release Insert
key until you see the initial bootup
screen.
26
J6:
Clear CMOS
1-2 closed (default)
1
To hold data
1
To clear CMOS
2-3 closed
Chapter 2 Hardware Setup
2-7.4 Jp2: Anti-burn Shield (ABSII)
Jp2:
Anti-burn Shield (ABSII)
(Overheated CPU Shutdown)
(only for Athlon XP/
Duron Morgan)
1-2 closed (default)
To enable overheated CPU
1 (85 oC) shutdown function
2-3 closed
To disable overheated
1 CPU shutdown function
Jp2 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 Jp2 1-2 closed (default
setting) will get system shutdown when the above-mentioned CPUs get
to 85 oC (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 Jp2 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.
27
NV400-64 / NV400-L64
2-7.5 Jp1: KB/Mouse Power On/Wake Up
Jp1 is designed on board as a jumper to enable/disable the PS/2 keyboard/mouse Power On/Wake Up from system off or suspend mode.
Yet users should still enter BIOS setup to choose the Wake Up/ Power
On mode.
USB keyboard/mouse Wake Up function is not supported in this series.
Jp1:
Keyboard/Mouse
Power On / Wake Up
1-2 closed (default)
1
Keyboard/Mouse Power On
/ Wake Up Disabled
2-3 closed
1
Keyboard/Mouse Power
On / Wake Up Enabled
28
Chapter 2 Hardware Setup
2-8 Other Connectors Configuration
This section lists out all connectors configurations for users’ reference.
2-8.1 Onboard FAN Connectors
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
Sensor
+12V
LPT1
nVIDIA
Fan1
RT2
FAN1, Sensor Fan Connector
(Yellow)
AGP 4X/8X
CDIN1
1
PCI1
FAN3, Sensor Fan Connector
(Yellow)
PCI2
RTL
ALC650
No Sensor
FAN2, Sensor Fan Connector
(Yellow)
nFORCE2 400
IDE1
JAUD1
Jp4
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
Sensor Conn.
DDR 400/333/266MHz
1
Void
+12V
GND
GND
RT1
ATX Main Power
AC'97
Codec
nVIDIA
nFORCE2
MCP
1
1
Li
Battery
WOL1
1
1
FDC1
USB1
USB2
Fan3
1
PWR
1
-
BIOS
RST
NJP1
IR
PCI5
20
J6
1
+
PWLED
PCI4
SPK
PCI3
LPC I/O
W83627HF
HDD LED
+
COM2
Line
Out
Line
In
Mic
SOCKET 462
Game/MIDI Port
COM1
1
1
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 “SmartDoc Anti-Burn
shield” 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.
29
NV400-64 / NV400-L64
2-8.2 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 Windows 2000 and above. Please see Chapter 3 for USB 2.0
installation.
USB connectors USB0, USB1(underside)
USB Cable (Optional)
1
Jp1
PS/2 Keyboard
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
LPT1
nVIDIA
nFORCE2 400
Fan1
RT2
1
Red wire
AGP 4X/8X
CDIN1
PCI1
IDE1
JAUD1
Jp4
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
DDR 400/333/266MHz
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
1
nVIDIA
nFORCE2
MCP
IR
BIOS
RST
NJP1
Li
Battery
1
FDC1
USB1
USB2
Fan3
1
10
1
-
WOL1
1
10
-
PWR
1
PCI5
20
J6
+
PWLED
PCI4
SPK
PCI3
LPC I/O
W83627HF
HDD LED
+
COM2
Line
Out
Line
In
Mic
USB Port
RT1
Game/MIDI Port
COM1
1
SOCKET 462
1
1
USB Pin-headers USB2 and USB1
First USB Port Wiring for Front USB
Red White Green black
D1- D1+ GND
+5V
10
USB Header
Pin Assignment
1
D2- D2+ GND
+5V
Red White Green black
Second USB Port Wiring for Front USB
30
Chapter 2 Hardware Setup
2-8.3 Chassis Panel Connectors
A.
B.
E.
F.
C.
G.
H.
A
B
C
D
: PS/2 Mouse
: LPT1 Port
: Game/MIDI
: Lan Port RJ45 (Top)
(NV400-L64 Only)
E : PS/2 Keyboard
F,G: COM 1, COM 2
I.
D.
J.
K.
H : Line Out /
Front Speaker OUT
I : Line In /
Rear Speaker Out
J : Microphone Input /
Center Subwoofer Out
K : USB 1 (underside)
USB 0 (middle)
2-8.4 PS/2 Mouse And PS/2 Keyboard
PS/2 Mouse Connector (green, on top)
6 Void
5 Mouse Clock
4 VCC
3 GND
2 Void
1 Mouse Data
6 Void
5 Keyboard Clock
4 VCC
3 GND
2 Void
1 Keyboard Data
PS/2 Keyboard Connector (purple, underside)
31
NV400-64 / NV400-L64
2-8.5 CD-ROM Audio Connectors
CDIN1 is an audio connector connecting CD-ROM audio to mainboard.
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
CD-ROM Audio Connector
1
COM2
LPT1
COM1
SOCKET 462
CDIN1
Pin Signal
nVIDIA
JAUD1
Pin 1
Left Channel
Pin 2
GND
Pin 3
GND
Pin 4
Right Channel
nFORCE2 400
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
(on top)
USB1
USB0
(underside) (middle)
Jp4
IDE2
RJ45
1
DDR 400/333/266MHz
1
ATX Main Power
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
PCI3
PCI4
1
1
+
PWLED
PWR
-
20
J6
1
NJP1
Li
Battery
BIOS
IR
PCI5
RST
LPC I/O
W83627HF
1
FDC1
USB1
USB2
Fan3
WOL1
1
1
-
HDD LED
+
SPK
Mic
Line
In
Game/MIDI Port
Line
Out
RT1
1
1
2-8.6 Thermal Resistors
Thermal Resistor RT1
RT1
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
LPT1
nVIDIA
nFORCE2 400
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
Thermal Resistor RT2
IDE1
JAUD1
Jp4
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
DDR 400/333/266MHz
1
ATX Main Power
PCI2
RTL
ALC650
AC'97
Codec
RT2
nVIDIA
nFORCE2
MCP
1
20
-
PWR
IR
BIOS
RST
NJP1
Li
Battery
1
FDC1
USB1
USB2
Fan3
1
1
-
WOL1
1
RT2 is mounted with
Thermal Resistor by
default for detecting
system temperature.
1
J6
1
PCI5
+
PWLED
PCI4
LPC I/O
W83627HF
SPK
PCI3
HDD LED
+
COM2
Line
Out
Line
In
Mic
RT1 is mounted with
Thermal Resistor by
default for detecting
external CPU temperature.
RT1
Game/MIDI Port
COM1
1
SOCKET 462
1
32
Chapter 2 Hardware Setup
2-8.7 Wake On LAN Connector:
1. This connector connects to a PCI 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.
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
LPT1
nVIDIA
GND
Ring
nFORCE2 400
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
JAUD1
Jp4
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
DDR 400/333/266MHz
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
Connect the Wake On LAN
signal from LAN card to WOL1
nVIDIA
nFORCE2
MCP
PWR
-
20
J6
1
WOL1
1
1
FDC1
USB1
USB2
Fan3
1
1
-
BIOS
RST
NJP1
Li
Battery
IR
PCI5
+
PWLED
PCI4
SPK
PCI3
LPC I/O
W83627HF
HDD LED
+
COM2
Line
Out
Line
In
Mic
WOL1
+5V
Standby
RT1
Game/MIDI Port
COM1
1
SOCKET 462
1
2-8.8 LAN Connector (NV400-L64 Only)
One RJ45 connector is on board for network connection.
Green LED blinks to indicate
that data transmission is
undergoing in 10/100 Base T
mode.
Yellow LED “On” to indicate
Network hub is in connection
with the system.
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
LPT1
nVIDIA
nFORCE2 400
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
JAUD1
Jp4
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
DDR 400/333/266MHz
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
-
PWR
20
J6
1
WOL1
1
33
1
FDC1
USB1
USB2
Fan3
1
1
1
-
BIOS
RST
NJP1
Li
Battery
IR
PCI5
+
PWLED
PCI4
SPK
PCI3
LPC I/O
W83627HF
HDD LED
+
COM2
Line
Out
Line
In
Mic
RT1
Game/MIDI Port
COM1
1
SOCKET 462
NV400-64 / NV400-L64
2-8.9 Complex Pin-header (Front Panel Connectors)
This complex Pin-header consists of the following connectors for various front panel supports. When you have fixed the mainboard to the
case, join the connectors of this Complex Pin-header to the case Front
Panel.
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
RT2
1
Case
Front Panel
AGP 4X/8X
CDIN1
PCI1
IDE1
JAUD1
DDR 400/333/266MHz
nVIDIA
nFORCE2 400
Fan1
IDE2
RJ45
(on top)
USB1
USB0
(underside) (middle)
Jp4
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
-
PWR
20
J6
1
BIOS
RST
NJP1
Li
Battery
WOL1
1
(1)Power Switch
FDC1
USB1
USB2
Fan3
1
1
1
-
HDD LED
+
PCI5
+
PWLED
PCI4
SPK
PCI3
LPC I/O
W83627HF
IR
COM2
LPT1
1
ATX Main Power
Line
Out
Line
In
Mic
RT1
Game/MIDI Port
COM1
1
SOCKET 462
1
PWRBT#
PLED-
PWRBT
NC
Power LED (4)
PLED+
IR_VCC
NC
(2)Infrared(IR)
RSTGND
IRRX
RST1
IRGND
IRTX
(3)HDD LED
SP1
NC
HDLEDHDLED+
SP3
SPVCC
34
Reset Switch (5)
Speaker (6)
Chapter 2 Hardware Setup
(1) 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.
(2) IR Connector (Infrared Connector):
Connection: Connected to Connector IR on board.
Function: Supporting wireless transmitting and receiving module
on board.
(3) HDD LED Connector:
Connection: Connected to HDD LED.
Function: To supply power to HDD LED.
(4) Power LED Connector:
Connection: Connected to System Power LED.
Function: To supply power to “System Power LED”.
(5) Reset Switch Connector:
Connection: Connected to case-mounted “Reset Switch”.
Function: To supply power to “Reset Switch” and support system
reboot function.
(6) Speaker Connector:
Connection: Connected to the case-mounted Speaker.
Function: To supply power to the case-mounted Speaker.
35
NV400-64 / NV400-L64
2-8.10 Front Panel Audio Connector
This Mainboard is designed with a Front Panel Audio connector “JAUD1”
which provides connection to your chassis.
1. When JAUD1 is set to 5-6 closed and 9-10 closed, this default setting
disables this connector and leaves the Back Panel Audio enabled.
2. To use this Front Panel Audio Connector, please open all pins of
JAUD1 and connect it to your chassis.
1
Jp1
Jp2
Fan2
+12V Power
(underside)
DIM1
(on top)
DIM2
Mouse
PS/2 Keyboard
1
COM2
LPT1
COM1
SOCKET 462
nVIDIA
JAUD1
Fan1
RT2
AGP 4X/8X
CDIN1
1
PCI1
IDE1
USB1
USB0
(underside) (middle)
nFORCE2 400
IDE2
RJ45
(on top)
DDR 400/333/266MHz
Jp4
1
ATX Main Power
1
1
PCI2
RTL
ALC650
AC'97
Codec
nVIDIA
nFORCE2
MCP
PWR
-
20
J6
1
1
FDC1
USB1
USB2
Fan3
WOL1
1
1
1
JAUD1: Front Audio Panel Connector
Pin 4
Aud Vcc
Pin 2
Aud GND
Pin 1
Mic In
Pin 10
RET L
Pin 6
RET R
Pin 5
FPOUT R
Pin
3 Mic VREF
Pin 7
(Key)
36
Pin 9
FPOUT L
1
-
BIOS
RST
NJP1
Li
Battery
IR
PCI5
+
PWLED
PCI4
LPC I/O
W83627HF
SPK
PCI3
HDD LED
+
Line
Out
Line
In
Mic
Game/MIDI Port
RT1
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