User's Manual

SHB106 Series
Intel Socket 1155 Core™i7 / Core™i5 / Core™i3 /
Processor
®
PICMG 1.3 Full-Size CPU Card
User’s Manual
®
Disclaimers
This manual has been carefully checked and believed to contain accurate information. Axiomtek
Co., Ltd. assumes no responsibility for any infringements of patents or any third party’s rights, and
any liability arising from such use.
Axiomtek does not warrant or assume any legal liability or responsibility for the accuracy,
completeness or usefulness of any information in this document. Axiomtek does not make any
commitment to update the information in this manual.
Axiomtek reserves the right to change or revise this document and/or product at any time without
notice.
No part of this document may be reproduced, stored in a retrieval system, or transmitted, in any
form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the
prior written permission of Axiomtek Co., Ltd.
Caution
If you replace wrong batteries, it causes the danger of explosion. It is recommended by the
manufacturer that you follow the manufacturer’s instructions to only replace the same or
equivalent type of battery, and dispose of used ones.
Copyright 2012 Axiomtek Co., Ltd.
All Rights Reserved
December 2012, Version A3
Printed in Taiwan
ii
ESD Precautions
Computer boards have integrated circuits sensitive to static electricity. To prevent chipsets from
electrostatic discharge damage, please take care of the following jobs with precautions:
Do not remove boards or integrated circuits from their anti-static
Packaging until you are ready to install them.
Before holding the board or integrated circuit, touch an unpainted portion of the system unit
chassis for a few seconds. It discharges static electricity from your body.
Wear a wrist-grounding strap, available from most electronic
Component stores, when handling boards and components.
Trademarks Acknowledgments
Axiomtek is a trademark of Axiomtek Co., Ltd.
®
Windows is a trademark of Microsoft Corporation.
AMI are trademarks of American Megatrend Inc.
IBM, PC/AT, PS/2, VGA are trademarks of International Business
Machines Corporation.
Intel® Core™ i3 LGA1155 Desktop Processor,
Intel® Core™ i5 LGA1155 Desktop Processor,
Intel® Core™ i7 LGA1155 Desktop Processor,
are trademarks of Intel Corporation
Winbond is a trademark of Winbond Electronics Corp.
Other brand names and trademarks are the properties and registered brands of their respective
owners.
iii
Table of Contents
CHAPTER 1 INTRODUCTION ......................................................................................................... 1
1.1
Specifications ............................................................................................................. 2
1.2
Utilities Supported ...................................................................................................... 4
CHAPTER 2 JUMPERS AND CONNECTORS ................................................................................ 5
2.1
Board Dimension ....................................................................................................... 5
2.2
Board Layout .............................................................................................................. 6
2.3
Jumper Settings ......................................................................................................... 7
2.3.1 COM1 Mode Select Jumpers for RS232/422/485 (JP2, JP3, JP4) ........................... 7
2.3.2 Audio Ampliier Jumper (JP1) ..................................................................................... 8
2.3.3 Clear ME Jumper (JP6) ............................................................................................. 8
2.3.4 PS/2 Power Jumper (JP7) ......................................................................................... 8
2.3.5 Auto Power Button selecton jumper (JP9) ................................................................. 8
2.4
Connectors ................................................................................................................. 9
2.4.1 SMBUS Connector (CN1) ........................................................................................ 10
2.4.2 Floppy Disk Port Connector (CN2) .......................................................................... 11
2.4.3 Internal USB Connectors (CN3,CN4,CN5,CN6) ...................................................... 12
2.4.4 LAN2 LED Connectors (CN7) .................................................................................. 13
2.4.5 LAN1 LED Connectors (CN8) .................................................................................. 13
2.4.6 DB15 CRT Connector (CN10) Co-layout with CN11 ............................................... 13
2.4.7 Display Port Connector (CN11) Co-layout with CN10.............................................. 14
2.4.8 Front Panel Connector (CN12) ................................................................................ 15
2.4.9 PS/2 Keyboard, Mouse Connectors (CN13, CN14) ................................................. 15
2.4.10 External USB Port Connectors (CN17, CN18) ........................................................ 16
2.4.11 RS232/422/485 Pin Assignment (COM1) ................................................................ 16
2.4.12 COM Port RS-232 Pin Assignment (COM2)............................................................ 17
®
2.4.13 Intel HD Audio Digital Header (AUDIO1) ............................................................... 17
2.4.14 ATX 8 Pin 12V IN Connector (ATX1) ...................................................................... 17
2.4.15 A CPU fan is always needed for cooling CPU heat (FAN1) .................................... 18
2.4.16 System & Auxiliary Fan Connectors (FAN2, FAN3) ................................................ 18
2.4.17 Ethernet RJ-45 Connectors (LAN1, LAN2) .............................................................. 18
2.4.18 Parallel Port Connector (PRINT1) Print Port Connector .......................................... 19
2.4.19 SATA Connectors (SATA1 ,SATA2 ,SATA3 ,SATA4 ,SATA5 , SATA6) ................. 20
CHAPTER 3 HARDWARE INSTALLATION .................................................................................. 21
3.1
Installing the Processor ............................................................................................ 21
3.2
Installing the Memory ............................................................................................... 29
CHAPTER 4 HARDWARE DESCRIPTION .................................................................................... 31
4.1
Microprocessors....................................................................................................... 31
4.2
BIOS ........................................................................................................................ 31
4.3
System Memory ....................................................................................................... 31
4.4
I/O Port Address Map .............................................................................................. 32
4.5
Interrupt Controller (IRQ) Map ................................................................................. 33
CHAPTER 5 AMI BIOS UTILITY ................................................................................................... 35
5.1
Starting ..................................................................................................................... 35
5.2
Navigation Keys ....................................................................................................... 35
iv
5.3
5.4
5.5
5.6
5.7
5.8
Main Menu ............................................................................................................... 37
Advanced Menu ....................................................................................................... 38
Chipset Menu ........................................................................................................... 49
Boot Menu ................................................................................................................ 52
Security Menu .......................................................................................................... 53
Save & Exit Menu..................................................................................................... 54
APPENDIX A WATCHDOG TIMER ............................................................................................... 57
Watchdog Timer Setting ............................................................................................................ 57
APPENDIX B PCI IRQ ROUTING .................................................................................................. 59
®
PICMG PCI IRQ Routing ......................................................................................................... 59
APPENDIX C CONFIGURING SATA FOR RAID FUNCTION ....................................................... 61
APPENDIX D iAMT SETTINGS ..................................................................................................... 73
D.1
Entering MEBx ......................................................................................................... 73
D.2
Set & Change Password .......................................................................................... 73
D.3
Intel® iAMT Settings ................................................................................................ 75
D.4
iAMT Web Console .................................................................................................. 80
®
APPENDIX E PICMG v1.3 INTERFACE DEFINITION ................................................................ 83
v
MEMO:
vi
SHB106 LAG1155 Full-Size SBC User’s Manual
CHAPTER 1
INTRODUCTION
®
The SHB106 PICMG 1.3 full-size Single Board Computer supports LAG1155 socket for Intel®
Core™ i3 Desktop Processor, Intel® Core™ i5 Desktop Processor, Core™ i7 Desktop Processor
®
with 32nm technology and Transfer Rate 1066/1333 MHz. The board integrates Intel Q67
chipset that delivers outstanding system performance through high-bandwidth interfaces, multiple
I/O functions for interactive applications and various embedded computing solutions. There are
two 240-pin DDR3 DIMM sockets for dual channel DDR3 1066/1333, maximum memory capacity
up to 8GB. The board also features dual Gigabit Ethernet, two SATA-6.0Gb/s and four SATA3.0Gb/s and SATA RAID 0/1/5/10 by PCH. Fourteen USB 2.0 high speed compliant ports and
®
built-in Intel HD Audio Digital Header can achieve the best stability and reliability for industrial
applications.
Introduction
1
SHB106 LAG1155 Full-Size SBC User’s Manual
1.1 Specifications
 CPU

Intel® Core™ i3 Desktop Processor

Intel® Core™ i5 Desktop Processor

Intel® Core™ i7 Desktop Processor
 System Chipset

Intel® Q67
 CPU Socket

LAG1155 Socket
 DRAM Transfer Rate

1066/1333 MHz
 BIOS

AMI BIOS via SPI interface with socket
 System Memory

Two 240-pin DDR3 1066/1333 DIMM sockets

Maximum up to 8GB DDR3 memory
 L1, L2, L3 Cache: integrated in CPU
 Onboard Multi-I/O

Parallel Port: one 26-pin 2.54-pitch box-header, SPP/EPP/ECP supported

Serial Port: one for RS-232/422/485 with 10-pin, 2.54-pitch box-header (COM1) and one
port for RS-232 with 10-pin, 2.54-pitch box-header (COM2)

Floppy controller: one 34-pin, 2.54-pitch box-header supports two drives (1.44MB for each)
 USB Interface

2
Ten USB ports compliant with USB Spec. Rev. 2.0 (2 ports on rear I/O, 8 ports on board, 4
ports to SHB connector-C golden fingers)
Introduction
SHB106 LAG1155 Full-Size SBC User’s Manual
 Onboard Graphic

Intel® Arrandale integrated Graphic processing unit processors which goes with Q67
chipset with,VGA,DisplayPort (co-lay with VGA)

Memory Size --Intel® DVMT 5.0 supported; preallocated memory for frame buffer option as
OS option:
Windows XP:
* For Total System Memory < 1GB,
Graphics sharing memory = 128 MB Maximum;
* For 1 GB to 1.5 GB Total System Memory,
Graphics sharing memory = 512 MB Maximum;
* For 1.5 GB to 2 GB Total System Memory,
Graphics sharing memory = 768 MB Maximum;
* For 2 GB and Above Total System Memory,
Graphics sharing memory = 1GB Maximum.
Windows Vista:


* Graphics sharing memory max to 0.5* (OS Ram Size – 512)
Resolution -- Analog output -- the analog port utilizes an
integrated 400MHz 24-bit RAMDAC that can directly drive a standard progressive scan
analog monitor up to a resolution of 2048x1536 pixels with 32-bit color at 75 Hz
Analog Output Interface -- CRT from DAC output via 15-pin D-Sub connector on the edge;
CRT always ON supported
 Ethernet

The LAN1/LAN2 are Intel 82579LM with iAMT 7.0 / Intel 82574L Ethernet controller support
10/100/1000 Mb/s
 Serial ATA

Two Serial ATA-6Gb/s and Four Serial ATA-3Gb/s performance and SATA RAID 0/1/5/10
by Q67
Introduction
3
SHB106 LAG1155 Full-Size SBC User’s Manual
 Audio

10-pin 2.0 pin-header (Intel® HD Audio Digital Header)
 Hardware Monitoring

Monitoring temperatures, voltages, and cooling fan status
 Watchdog Timer

Reset Supported (1-255 level)
 Dimensions

338mm x 126mm
 Expansion interface:

1 PCI-E x16

1 PCI-E x4(or 4 PCI-E x1)

4 PCI
NOTE: All specifications and images are subject to change without notice.
1.2 Utilities Supported
®

Intel Q67 Utility and Drivers

VGA Drivers

Ethernet Utility and Drivers

RAID Utility

iAMT Utility and Drivers

TPM Utility
4
Introduction
SHB106 LAG1155 Full-Size SBC User’s Manual
CHAPTER 2
JUMPERS AND CONNECTORS
2.1 Board Dimension
Jumpers And Connectors
5
SHB106 LAG1155 Full-Size SBC User’s Manual
2.2 Board Layout
6
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.3 Jumper Settings
Proper jumper settings configure the SHB106 to meet your application purpose. We are
herewith listing a summary table of all jumpers and default settings for onboard devices,
respectively.
Jumper
Description
Jumper Setting
JP1
Audio Amplifier Selection : Disable
Short 1-3 , 2-4
JP2
COM1 Mode Selection : RS-232
Short 3-5 , 4-6
JP3
COM1 Mode Selection : RS-232
Short 3-5 , 4-6
JP4
COM1 Mode Selection : RS-232
Short 1-2
JP6
Clear ME : Normal
Short 1-2
JP7
PS/2 Power Selection : 5VSBY
Short 2-3
JP9
Auto Power Button selection
Default : Manual Power Button
Short 1-2
2.3.1 COM1 Mode Select Jumpers for RS232/422/485 (JP2, JP3, JP4)
These jumpers select the COM1 port’s communication mode to operate RS-232 or RS422/485
Function
Jumper Setting
JP2
JP3
JP4
RS-232
(Default)
RS-422
RS-485
Jumpers And Connectors
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SHB106 LAG1155 Full-Size SBC User’s Manual
2.3.2 Audio Ampliier Jumper (JP1)
Function
Jumper Setting
Disable
(Default)
Enable
2.3.3 Clear ME Jumper (JP6)
You may need to use this jumper to clear the ME if incorrect ME settings.
Function
Jumper Setting
Normal
(Default)
Clear ME
2.3.4 PS/2 Power Jumper (JP7)
You may need to ues this jumper to into S3 situation in WinXP.
Function
Jumper Setting
5V
5VSBY
(Default)
2.3.5 Auto Power Button selecton jumper (JP9)
Use this jumper to select either Auto or manual Button.
Description
Function
Jumper Setting
Manual Power button (Default)
Auto Power Button
selecton jumper
Automatic power button
8
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4 Connectors
Connectors connect this board with other parts of the system. Loose or improper connection
might cause problems. Make sure all connectors are properly and firmly connected.
Here is a summary table shows you all connectors on the board.
Connector
Label
SMBUS
CN1
Floppy Connecter
CN2
USB Port 6/7
CN3
USB Port 8/9
CN4
USB Port 12/13
CN5
USB Port 10/11
CN6
LAN2 External LED
CN7
LAN1 External LED
CN8
VGA Port
CN10
Display Port (BOM Option)
CN11
Axiomtek Front Panel
CN12
Keyboard
CN13
Mouse
CN14
USB Port 5
CN17
USB Port 4
CN18
COM1 Connector
COM1
COM2 Connector
COM2
Audio Connector
AUDIO1
ATX Connecter
ATX1
CPU FAN
FAN1
SYS FAN
FAN2
AUX FAN
FAN3
RJ45 (WG82579LM)
LAN1
Jumpers And Connectors
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SHB106 LAG1155 Full-Size SBC User’s Manual
Connector
Label
LAN2
RJ45 (WG82574L)
Print Connecter
PRINT1
SATA 0 6.0Gb(SATA3)
SATA1
SATA 1 6.0Gb(SATA3)
SATA2
SATA Port 2
SATA3
SATA Port 5
SATA4
SATA Port 3
SATA5
SATA Port 4
SATA6
2.4.1 SMBUS Connector (CN1)
Connector SMBUS CN1 is for SMBUS interface support.
Pin
10
Signal
1
CLOCK
2
N.C
3
GND
4
DATA
5
+5V
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.2 Floppy Disk Port Connector (CN2)
The board provides a 34-pin header type connector, CN2, supporting up to two floppy drives.
The floppy drives may be any one of the following types: 5.25" 360KB/1.2MB and 3.5"
720KB/1.44MB/2.88MB.
Pin
Signal
Pin
Signal
Pin
Signal
1
GND
2
Drive Density Select
3
GND
4
No connector
5
GND
6
No connector
7
GND
8
Index#
9
GND
10
Motor enable A#
11
GND
12
No connector
13
GND
14
Drive select A#
15
GND
16
No connector
17
GND
18
Direction#
19
GND
20
STEP#
21
GND
22
Write data#
23
GND
24
Write gate#
25
GND
26
Track 0 #
27
GND
28
Write protect#
29
No connector
30
Read data#
31
GND
32
Head selection#
33
No connector
34
Disk change#
Jumpers And Connectors
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SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.3 Internal USB Connectors (CN3,CN4,CN5,CN6)
The 10-pin standard Universal Serial Bus (USB) connectors, CN3/4/5/6, on this board are for
installing versatile USB interface peripherals.
Pin
1
Signal
Signal
USB_PWR
2
USB_PWR
3
USB6-
4
USB7-
5
USB6+
6
USB7+
7
GND
8
GND
10
GND
Pin
1
Signal
Pin
2
USB_PWR
3
USB8-
4
USB9-
5
USB8+
6
USB9+
7
GND
8
GND
10
GND
Signal
Pin
USB_PWR
2
USB_PWR
3
USB12-
4
USB13-
5
USB12+
6
USB13+
7
GND
8
GND
10
GND
Signal
CN4
Signal
1
Pin
CN3
Signal
USB_PWR
Pin
12
Pin
Pin
CN5
Signal
1
USB_PWR
2
USB_PWR
3
USB10-
4
USB11-
5
USB10+
6
USB11+
7
GND
8
GND
10
GND
CN6
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.4 LAN2 LED Connectors (CN7)
Pin
Signal
1
+ 3.3V
2
LINK_ACT LED(-)
3
100, Low Active
4
+3.3V
5
1000, Low Active
2.4.5 LAN1 LED Connectors (CN8)
Pin
Signal
1
+ 3.3V
2
LINK_ACT LED(-)
3
4
5
100, Low Active
+3.3V
1000, Low Active
2.4.6 DB15 CRT Connector (CN10) Co-layout with CN11
CN10 is a DB15 connector commonly used for the CRT Monitor.
Pin
Signal
Pin
Signal
Pin
Signal
1
Red
2
Green
3
Blue
4
N.C
5
GND
6
DETECT
7
GND
8
GND
9
VCC
10
GND
11
N.C
12
DDC DATA
13
Horizontal Sync
14
Vertical Sync
15
DDC CLK
5
1
10
15
Jumpers And Connectors
6
11
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SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.7 Display Port Connector (CN11) Co-layout with CN10
CN11 is a Standard Display Port Connector co-layout with CN10.
14
Pin
Signal
1
DPB_LANE0
2
GND
3
DPB_LANE0#
4
DPB_LANE1
5
GND
6
DPB_LANE1#
7
DPB_LANE2
8
GND
9
DPB_LANE2#
10
DPB_LANE3
11
GND
12
DPB_LANE3#
13
Detect Pin
14
GND
15
DPB_AUX
16
GND
17
DPB_AUX#
18
DPB_HPDE
19
GND
CN24
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.8 Front Panel Connector (CN12)
 Power LED
This 3-pin connector denoted as Pin 1 and Pin 5 connects the system power LED indicator
to such a switch on the case. Pin 1 is assigned as +, and Pin 5 as -. The Power LED lights
up when the system is powered ON. Pin 3 is defined as GND.
 External Speaker and Internal Buzzer Connector
Pin 2, 4, 6 and 8 can be connected to the case-mounted speaker unit or internal buzzer.
While connecting the CPU card to an internal buzzer, please short pins 2-4; while
connecting to an external speaker, you need to set pins 2-4 to Open and connect the
speaker cable to pin 8 (+) and pin 2 (-).
 ATX Power On/Off Button
This 2-pin connector denoted as Pin 9 and 10 connects the front panel’s ATX power button
to the CPU card, which allows users to control ATX power supply to be power on/off.
 System Reset Switch
Pin 11 and 12 can be connected to the case-mounted reset switch that reboots your
computer instead of turning OFF the power switch. It is a better way to reboot your system
for a longer life of the system’s power supply.
 HDD Activity LED
This connection is linked to hard drive activity LED on the control panel. LED flashes when
HDD is being accessed. Pin 13 and 14 connect the hard disk drive to the front panel HDD
LED, Pin 13 assigned as -, and Pin 14 as +.
2.4.9 PS/2 Keyboard, Mouse Connectors (CN13, CN14)
The board provides theMouse (CN14)/ Keyboard (CN13) interface with a 5-pin connecter.
Pin
Signal
1
Clock
2
DATA
3
No connector
4
GND
5
+5V / 5VSBY
Jumpers And Connectors
15
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.10 External USB Port Connectors (CN17, CN18)
The 4-pin standard Universal Serial Bus (USB) port connector on the board is for the
installation of peripherals supporting the USB interface.
Pin
Signal
1
USB_POWER
2
USB -
3
USB +
4
GND
1
2
3
4
2.4.11 RS232/422/485 Pin Assignment (COM1)
The serial interface for the board consists of COM1 support for RS-232 and COM1 for RS232/RS-422/RS-485.
Signal Name
Pin
16
RS-232
RS-422
RS-485
1
Data Carrier Detect (DCD)
TX-
DATA-
2
Data Set Ready (DSR)
No connector
No connector
3
Receive Data (RXD)
TX+
DATA+
4
Request to Send (RTS)
No connector
No connector
5
Transmit Data (TXD)
RX+
No connector
6
Clear to Send (CTS)
No connector
No connector
7
Data Terminal Ready (DTR)
RX-
No connector
8
Ring Indicator (RI)
No connector
No connector
9
Ground (GND)
GND
GND
10
Disconnect(NI)
NI
NI
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.12 COM Port RS-232 Pin Assignment (COM2)
COM2 Serial Port 10-pin (Box-header) Connector Pin Assignment list
Pin
Signal
Pin
Signal
1
Data Carrier Detect (DCD)
2
Data Set Ready (DSR)
3
Receive Data (RXD)
4
Request to Send (RTS)
5
Transmit Data (TXD)
6
Clear to Send (CTS)
7
Data Terminal Ready (DTR)
8
Ring Indicator (RI)
9
Ground (GND)
10
Disconnect(NI)
2.4.13 Intel® HD Audio Digital Header (AUDIO1)
Pin
Signal
Pin
Signal
1
MIC IN
2
GND
3
LINE_IN_L
4
GND
5
LINE_IN_R
6
GND
7
LINE_OUT_L
8
GND
9
LINE_OUT_R
10
GND
2.4.14 ATX 8 Pin 12V IN Connector (ATX1)
You can connect it to the ATX12V power supply for CPU Core Voltage.
Pin
Signal
1
GND
2
GND
3
GND
4
GND
5
+12V
6
+12V
7
+12V
8
+12V
Jumpers And Connectors
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SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.15 A CPU fan is always needed for cooling CPU heat (FAN1)
The CPU fan connector FAN1 provides power to the CPU fan.
Pin
Signal
1
Ground
2
+12V
3
Rotation Detection
4
Speed Control
2.4.16 System & Auxiliary Fan Connectors (FAN2, FAN3)
You can connect the system cooling fan cable to FAN2/FAN3 for system cooling fan power.
Pin
Signal
1
GND
2
+12V
3
Rotation Detection
2.4.17 Ethernet RJ-45 Connectors (LAN1, LAN2)
The RJ-45 connectors LAN1 and LAN2 are for Ethernet. To connect the board to 100-Base-T
or 1000-Base-T hub, just plug one end of the cable into LAN1 and connect the other end
(phone jack) to a 100-Base-T hub or 1000-Base-T hub.
Pin
18
Signal
1
Tx+ (Data transmission positive)
2
Tx- (Data transmission negative)
3
Rx+(Data reception positive)
4
RJ-1(For 1000 base T-Only)
5
RJ-1(For 1000 base T-Only)
6
Rx- (Data reception negative)
7
RJ-1(For 1000 base T-Only)
8
RJ-1(For 1000 base T-Only)
A
Active LED
B
Speed LED
A
B
87654321
Jumpers And Connectors
SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.18 Parallel Port Connector (PRINT1) Print Port Connector
This board has a multi-mode parallel port to support:
 Standard Mode:
IBM PC/XT, PC/AT and PS/2 are compatible with bi-directional parallel port.
 Enhanced Mode:
Enhance parallel port (EPP) is compatible with EPP 1.7 and EPP 1.9 (IEEE 1284
compliant).
 High Speed Mode:
Microsoft and Hewlett Packard extended capabilities port (ECP) is IEEE 1284 compliant.
Pin
Signal
Pin
Signal
1
Strobe#
2
Auto Form Feed#
3
Data 0
4
Error#
5
Data 1
6
Initialize#
7
Data 2
8
Printer Select In#
9
Data 3
10
GND
11
Data 4
12
GND
13
Data 5
14
GND
15
Data 6
16
GND
17
Data 7
18
GND
19
Acknowledge#
20
GND
21
Busy
22
GND
23
Paper Empty#
24
GND
25
Printer Select
26
N.C
Jumpers And Connectors
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SHB106 LAG1155 Full-Size SBC User’s Manual
2.4.19 SATA Connectors (SATA1 ,SATA2 ,SATA3 ,SATA4 ,SATA5 ,
SATA6)
These SATA connectors are for high-speed SATA interface ports and they can be connected
to hard disk devices.
Pin
20
Signal
1
GND
2
SATA_TX+
3
SATA_TX-
4
GND
5
SATA_RX-
6
SATA_RX+
7
GND
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CHAPTER 3
HARDWARE INSTALLATION
®
Before installing the processor, please access Intel website for more
detail information
Processor Integration Video (LGA1155):
http://www.intel.com/support/tw/processors/sb/CS-030860.htm .
3.1 Installing the Processor
The LGA1155 processor socket comes with a cover to protect the processor. Please install the
processor into the CPU socket step by step as below:
Step1 Opening the Socket:

Disengage load lever by releasing down and out on the hook. This will clear retention tab.

Rotate load lever to open position at approximately 135°.

Rotate load plate to open position at approximately 150°.
NOTE: Apply pressure to corner with right-hand thumb when opening or closing load lever otherwise lever will bounce back (as a mouse trap) causing bent contacts.
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Step2 Removing the socket protective cover:

Place thumb against the front edge of the protective cover and rest index finger on the rear
grip to maintain control of the cover.

Lift the front edge of the protective cover to disengage from the socket. Keep control of the
cover by holding the rear grip with index finger.

Lift protective cover away from the socket, being careful not to touch the electrical contacts.
NOTE: Vertical removal is NOT recommended, as it requires higher force and can lead to socket
contact damage.
Caution: Never Touch Fragile Socket Contacts to Avoid Damage and Do Not Touch Processor
Sensitive Contacts at Any Time During Installation.
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Step3 Processor installation:

Lift processor package from shipping media by grasping the substrate edges. Scan the
processor package gold pads for any presence of foreign material. If necessary, the gold
pads can be wiped clean with a soft lint-free cloth and isopropyl alcohol.

Scan the processor package gold pads for any presence of foreign material. If necessary,
the gold pads can be wiped clean with a soft lint-free cloth and isopropyl alcohol.

Locate connection 1 indicator on the processor which aligns with connection 1 indicator
chamfer on the socket, and notice processor keying features that line up with posts along
socket walls.

Grasp the processor with thumb and index finger along the top and bottom edges. (Do not
touch the Orientation Notches.) The socket will have cutouts for your fingers to fit into (see
image below).
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
Carefully place the processor into the socket body vertically (see image below).
NOTE: Tilting or roughly shifting it into place can damage socket contacts.
Caution: Do not use a vacuum pen for installation.

24
Verify that package is within the socket body and properly connected to orientation keys.
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SHB106 LAG1156 Full-Size SBC User’s Manual

Close the socket (see image below):
A. Gently lower the load plate.
B. Make sure load plate's front edge slides under the shoulder screw cap as the lever is
lowered.
C. Latch the lever under the top plate's corner tab, being cautious not to damage the
motherboard with the tip of the lever.

Close the socket (see image below):
A Gently lower the load plate.
B Make sure load plate's front edge slides under the shoulder screw cap as the lever is
lowered.
C atch the lever under the top plate's corner tab being cautious not to damage the
motherboard with the tip of the lever.
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Step4 Fan heatsink handling:
1. Orientate the CPU cooling fan to fixing holes on the board.
2. Screw the CPU cooling fan onto the board.
3. Make sure the CPU fan is plugged to the CPU fan connector.
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Step5 Removing the processor:

Open the socket:
A. Disengage the load lever.
B. Open the load plate.

Remove the Processor package, holding along the top and bottom edges, or by using a
vacuum pen.

Maintain Processor horizontal and remove Processor with a vertical motion to avoid
damaging the socket contacts.

Place the processor in a specially designed tray or ESD retainer for storage. Do not place
directly on table resting on gold lands.

Assemble LGA1155 socket protective cover:
A Hold protective cover at 45 degree angle to the LGA1155 Socket
B Carefully lower protective cover on hinge side first, to contact with the outside wall of the
LGA1155 Socket:
i. Engage protective cover retention features to outside of LGA1155 Socket, AND align 2
cover corners to socket corners (This step is critical to avoid Bent Contact Damage!)
ii. Lower protective cover to attach to the LGA1155 Socket on Shoulder screw side

Perform Visual and Tactile verification that protective cover is properly seated in the
LGA1155 Socket:
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*Hold cover and move gently "side to side" to feel the play within the cover and the LGA1155
Socket.

28
Close the socket load plate and engage the load lever (see image below).
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SHB106 LAG1156 Full-Size SBC User’s Manual
3.2 Installing the Memory
The board supports four 240-pin DDR3 DIMM memory sockets with maximum memory capacity
up to 8GB.
Please follow steps below to install the memory modules:

Push down latches on each side of the DIMM socket.

Align the memory module with the socket that notches of memory module must match the
socket keys for a correct installation.

Install the memory module into the socket and push it firmly down until it is fully seated. The
socket latches are levered upwards and clipped on to the edges of the DIMM.

Install any remaining DIMM modules.
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MEMO:
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CHAPTER 4
HARDWARE DESCRIPTION
4.1 Microprocessors
®
™
™
™
The SHB106 Series supports Intel Core i7 / Core i5 / Core i3 / processors, which make your
®
system operated under Windows XP and Linux environments. The system performance depends
on the microprocessor. Make sure all correct settings are arranged for your installed
microprocessor to prevent the CPU from damages.
4.2 BIOS
The SHB106 Series uses AMI Plug and Play BIOS with a single 32Mbit SPI Flash.
4.3 System Memory
The SHB106 Series supports Two 240-pin DDR3 DIMM sockets for a maximum memory of 8GB
DDR3 SDRAMs. The memory module can come in sizes of 2GB and 4GB.
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4.4 I/O Port Address Map
®
™
™
™
The Intel Core i7 / Core i5 / Core i3 processors can communicate via I/O ports. There are total
1KB port addresses available for assignment to other devices via I/O expansion cards
Address
Devices
000-01F
DMA controller #1
020-02D, 024-025
028-029, 02C-02D
Interrupt controller #1
02E-02F
Forwarded to LPC(LPC Super I/O )
030-031, 034-035
038-039, 03C-03D
Interrupt controller #2
040-043, 050-053
Timer/Counter (8254)
060
Forwarded to LPC (Microcontroller)
061
NMI
062-066
Forwarded to LPC (Microcontroller)
070-077
Real time clock, NMI
080-091
DMA page register
092
Processor I/F(Reset Generator)
093-09F
DMA page register
0A0-0BF
Interrupt controller #2
0C0-0DF
DMA controller #2
0F0
Processor I/F
0F8-0FF
Math processor
170-177
Forward to SATA (SATA Controller)
1F0-1F7
Forward to SATA (SATA Controller)
376
Forward to SATA(SATA Controller)
378-37F
Parallel Port (LPT)
380-38F
SDLC #2
3A0-3AF
SDLC #1
3B0-3BF
MDA video card
3C0-3CF
EGA card
3D0-3DF
CGA card
3F6
Forward to SATA(SATA Controller)
3F8-3FF
Serial port #1 (COM1)
2F8-2FF
Serial port #2 (COM2)
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4.5 Interrupt Controller (IRQ) Map
The SHB106 Series is a 100% PC compatible control board. It consists of 16 interrupt request
lines, and four out of them can be programmable. The mapping list of the 16 interrupt request
lines is shown as the following table.
IRQ
Parity check error
IRQ0
System Timer Output
IRQ1
Keyboard
IRQ2
Interrupt rerouting from IRQ8 through IRQ15
IRQ3
Serial port #2
IRQ4
Serial port #1
IRQ5
PCI Device Share
IRQ6
Floppy Disk Controller
IRQ7
Parallel port
IRQ8
Real time clock
IRQ9
ACPI Controller
IRQ10
PCI Device Share
IRQ11
PCI Device Share
IRQ12
PS/2 Mouse
IRQ13
Math coprocessor
IRQ14
SATA Primary (Legacy Mode)
IRQ15
SATA Secondary (Legacy Mode)
3C0-3CF
EGA card
3D0-3DF
CGA card
3F6
Forward to SATA(SATA Controller)
3F8-3FF
Serial port #1 (COM1)
2F8-2FF
Serial port #2 (COM2)
Hardware Description
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MEMO:
:
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SHB106 LAG1156 Full-Size SBC User’s Manual
CHAPTER 5
AMI BIOS UTILITY
This chapter provides users with detailed description how to set up basic system configuration
through the AMIBIOS8 BIOS setup utility.
5.1 Starting
To enter the setup screens, follow the steps below:

Turn on the computer and press the <F2> key immediately.

After you press the <F2> key, the main BIOS setup menu displays. You can access the
other setup screens from the main BIOS setup menu, such as the Chipset and Power
menus.
5.2 Navigation Keys
The BIOS setup/utility uses a key-based navigation system called hot keys. Most of the BIOS
setup utility hot keys can be used at any time during the setup navigation process.
These keys include <F1>, <F2>, <Enter>, <ESC>, <Arrow> keys, and so on.
NOTE: Some of navigation keys differ from one screen to another.
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 Left/Right
 Up/Down
The Up and Down <Arrow> keys allow you to select a setup screen or subscreen.
+ Plus/Minus
The Plus and Minus <Arrow> keys allow you to change the field value of a
particular setup item.
Tab
36
The Left <Arrow> keys allow you to select a setup screen.
The <Tab> key allows you to select setup fields.
F1
The <F1> key allows you to display the General Help screen.
F2
The <F2> key allows you to Load Previous Values.
F3
The <F3> key allows you to Load Optimized Defaults.
F4
The <F4> key allows you to save any changes you have made and exit
Setup. Press the <F4> key to save your changes.
Esc
The <Esc> key allows you to discard any changes you have made and exit
the Setup. Press the
<Esc> key to exit the setup without saving your changes.
Enter
The <Enter> key allows you to display or change the setup option listed for
a particular setup item. The <Enter> key can also allow you to display the
setup sub- screens.
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5.3 Main Menu
When you first enter the Setup Utility, you will enter the Main setup screen. You can always return
to the Main setup screen by selecting the Main tab. There are two Main Setup options. They are
described in this section. The Main BIOS Setup screen is shown below.
 System Date/Time
Use this option to change the system date and time. Highlight System Date or System Time
using the <Arrow> keys. Enter new values through the keyboard. Press the <Tab> key or the
<Enter> keys to move between fields. The date must be entered in MM/DD/YY format. The
time is entered in HH:MM:SS format.
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5.4 Advanced Menu
 Launch PXE OpROM
Use this item to enable or disable the Boot ROM function of the onboard LAN chip when the
system boots up.
 Launch Storage OpROM
This item can set enable or disable the storage device option ROM with CF device.
The Advanced menu also allows users to set configuration of the CPU and other system devices.
You can select any of the items in the left frame of the screen to go to the sub menus:
 ACPI Settings
 Trusted Computing
 SS RTC Wake Settings
 CPU Configuration
 SATA Configuration
 Intel IGD SWSCI OpRegion
 USB Configuration
 Super IO Configuration
 H/W Monitor
 AMT Configuration
 Serial Port Console Redirection
For items marked with “”, please press <Enter> for more options.
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 ACPI Settings
You can use this screen to select options for the ACPI Configuration, and change the value of
the selected option. A description of the selected item appears on the right side of the screen.

ACPI Sleep State
Allow you to select the Advanced Configuration and Power Interface (ACPI) state to be
used for system suspend. Here are the options for your selection, S1 (CPU Stop Clock),
S3 (Suspend to RAM) and Suspend Disable
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 Trusted Computing
You can use this screen to select options for the Trusted Computing, and change the value of
the selected option. A description of the selected item appears on the right side of the screen.

TPM SUPPORT
Use this item to control the Trusted Platform Module (TPM) function.
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 CPU Configuration
This screen shows the CPU Configuration, and you can change the value of the selected
option.

Hyper-threading
This item can set enable or disable for support Hyper-threading Technology.

Active Processor Cores
This feature controls the number of cores to enable in each processor package.

Intel Virtualization Technology
Allows a hardware platform to run multiple operating systems separately and
simultaneously, enabling one system to virtually function as several systems.
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 SATA Configuration
You can use this screen to select options for the SATA Configuration, and change the value of
the selected option. A description of the selected item appears on the right side of the screen.

SATA Mode
Use this item to choose the SATA operation mode. Here are the options for your selection,
IDE Mode, AHCI Mode and RAID Mode.

Serial-ATA Controller 0
Use this item to control the onboard SATA controller. Here are the options for your selection,
Compatible, Enhanced and Disable.

Serial-ATA Controller 1
Use this item to control the onboard SATA controller. Here are the options for your selection,
Enhanced and Disabled.
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 Intel IGD SWSCI OpRegion
The Intel IGD SWSCI OpRegion allows users to change the integrated graphic device settings.

DVMT/FIXED Memory
Allow you to allocate a fixed amount of system memory as graphics memory. Here are the
options for your selection, 128MB, 256MB and Maximum DVMT.

IGD-Boot Type
This item can select CRT and LCD which will be activated during POST. This function has
no effect if external graphics present.
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 USB Configuration
You can use this screen to select options for the USB Configuration, and change the value of
the selected option. A description of the selected item appears on the right side of the screen.

EHCI Hand-off
This is a workaround for OSes without EHCI hand-off support.
The EHCI ownership change should be claimed by EHCI driver.
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 Super IO Configuration
You can use this screen to select options for the Super IO Configuration, and change the value
of the selected option. A description of the selected item appears on the right side of the
screen. For items marked with “”, please press <Enter> for more options.

Floppy Disk Controller Configuration
You can use this screen to select options for the Floppy Configuration, and change the
value of the selected option.

Serial Port 1 Configuration
This option specifies the base I/O port address and Interrupt Request address of serial port
1. The Optimal setting is 2F8/IRQ3.

Serial Port 2 Configuration
This option specifies the base I/O port address and Interrupt Request address of serial port
1. The Optimal setting is 3F8/IRQ4.

Parallel Port Configuration
This item allows you to determine the Parallel Port Mode and I/O address for onboard
parallel port.
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 H/W Monitor
This screen shows the Hardware Health Configuration, and a description of the selected item
appears on the right side of the screen

Smart Fan Function
This item can enable or disable the Smart Fan function.

Smart Fan Mode Configuration
This item can adjust the CPU/System/Auxiliary Fan speed automatically in accordance with
the current CPU/System temperature that can prevent the system overheating.
The Auxiliary Fan also in accordance with current CPU temperature.
There are these options Manual Mode and Thermal Cruise Mode.
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 AMT Configuration
You can use this screen to select options for the Intel AMT Configuration, and change the
value of the selected option. A description of the selected item appears on the right side of the
screen.

AMT
You can enable this item to support AMT (active management technology) function to follow
up the procedure for the access to AMI program screen.

Unconfigure AMT/ME
Use this item to unconfigure the AMT/ME settings.
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 Serial Port Console Redirection
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5.5 Chipset Menu
The Chipset menu allows users to change the advanced chipset settings. You can select any of
the items in the left frame of the screen to go to the sub menus:
 South Bridge
 ME Subsystem
For items marked with “”, please press <Enter> for more options.
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 South Bridge

USB Configuration
You can use this item to set the USB Configuration.
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 Me Subsystem
It is strongly recommended that you do not modify these options unless you are an advanced
user.
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5.6 Boot Menu
The Boot menu allows users to change boot options of the system. You can select any of the
items in the left frame of the screen to go to the sub menus:
 Setup Prompt Timeout
 Bootup NumLock State
 Quet Boot
 CSM16 Module Verison
 GateA20 Active
 Boot Option Priorities

Quite Boot
Use this item to enable or disable the Quite Boot state. The default setting is disabling.

Bootup NumLock State
Use this item to select the power-on state for the NumLock. The default setting is on.
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5.7 Security Menu
The Security menu allows users to change the security settings for the system.

Administrator Password
This item indicates whether an administrator password has been set. If the password has
been installed, Installed displays. If not, Not Installed displays.

User Password
This item indicates whether a user password has been set. If the password has been
installed, Installed displays. If not, Not Installed displays.
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5.8 Save & Exit Menu
The Save & Exit menu allows users to load your system configuration with optimal or failsafe
default values.

Save Changes and Exit
When you have completed the system configuration changes, select this option to leave
Setup and return to Main Menu. Select Save Changes and Exit from the Save & Exit menu
and press <Enter>. Select Yes to save changes and exit.

Discard Changes and Exit
Select this option to quit Setup without making any permanent changes to the system
configuration and return to Main Menu. Select Discard Changes and Exit from the Save &
Exit menu and press <Enter>. Select Yes to discard changes and exit.

Save Changes and Reset
When you have completed the system configuration changes, select this option to leave
Setup and reboot the computer so the new system configuration parameters can take effect.
Select Save Changes and Reset from the Save & Exit menu and press <Enter>. Select Yes
to save changes and reset.

Discard Changes and Reset
Select this option to quit Setup without making any permanent changes to the system
configuration and reboot the computer. Select Discard Changes and Reset from the Save &
Exit menu and press <Enter>. Select Yes to discard changes and reset.
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
Save Changes
When you have completed the system configuration changes, select this option to save
changes. Select Save Changes from the Save & Exit menu and press <Enter>. Select Yes
to save changes.

Discard Changes
Select this option to quit Setup without making any permanent changes to the system
configuration. Select Discard Changes from the Save & Exit menu and press <Enter>.
Select Yes to discard changes.

Restore Defaults
It automatically sets all Setup options to a complete set of default settings when you select
this option. The Optimal settings are designed for maximum system performance, but may
not work best for all computer applications. In particular, do not use the Optimal Setup
options if your computer is experiencing system configuration problems. Select Restore
Defaults from the save & Exit menu and press <Enter>.
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MEMO :
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APPENDIX A
WATCHDOG TIMER
Watchdog Timer Setting
After the system stops working for a while, it can be auto-reset by the Watchdog Timer. The
integrated Watchdog Timer can be set up in the system reset mode by program.
Using the Watchdog Function
Start

Un-Lock WDT
:O 2E 87 ; Un-lock super I/O
O 2E 87 ; Un-lock super I/O

Set WDT Function
O 2E 2D
O 2F 20
Select Logic device
O 2E 07
O 2F 08

Activate WDT
:O 2E 30
O 2F 01
Set Second or Minute
O 2E F5
O 2F N
N=00 or 08(See below table)

Set base timer
:O 2E F6
O 2F M=00, 01, 02
FF(Hex) ,Value=0 to 255

WDT counting
re-set timer
:O 2E F6
O 2F M ; M=00,01,02,…FF(See below table)

Watchdog Timer
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IF No re-set timer
: WDT time-out, generate RESET
IF to disable WDT
: O 2E 30
O 2F 00; Can be disable at any time
N=00
M= 00h: Time-out Disable
01h: Time-out occurs after 1 second
02h: Time-out occurs after 2 second
03h: Time-out occurs after 3 second
……………………….......................................
FFh: Time-out occurs after 255 second
N=08
M= 00h: Time-out Disable
01h: Time-out occurs after 1 minute
02h: Time-out occurs after 2 minutes
03h: Time-out occurs after 3 minutes
FFh: Time-out occurs after 255 minutes
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APPENDIX B
PCI IRQ ROUTING
PICMG® PCI IRQ Routing
Device
ID
Slot
Int
PCI Slot 0
31
0
BCDA
PCI Slot 1
30
1
CDAB
PCI Slot 2
29
2
DABC
PCI Slot 3
28
3
ABCD
PCI IRQ Routing
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APPENDIX C
CONFIGURING SATA
FOR RAID FUNCTION
Configuring SATA Hard Drive(s) for RAID Function (Controller: Intel® 3450)
Please follow up the steps below to configure SATA hard drive(s):
(1)
Install SATA hard drive(s) in your system.
(2)
Enter the BIOS Setup to configure SATA controller mode and boot sequence.
(3)
Configure RAID by the RAID BIOS.
(4)
Create a floppy disk for the SATA controller driver.
(5)
Install the SATA controller driver during the OS installation.
Before you begin the SATA configuration, please prepare:
(a) Two SATA hard drives (to ensure optimal performance, it is recommended that you use
two hard drives with identical model and capacity). If you do not want to create RAID with
the SATA controller, you may prepare only one hard drive.
(b) An empty formatted floppy disk
(c) Windows XP setup disk
1.
Installing SATA hard drive(s) in your system
Connect one end of the SATA signal cable to the rear of the SATA hard drive, and the other
end to available SATA port(s) on the board. Then, connect the power connector of power
supply to the hard drive.
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2.
Configuring SATA controller mode and boot sequence by the BIOS Setup
You have to make sure whether the SATA controller is configured correctly by system BIOS Setup
and set up BIOS boot sequence for the SATA hard drive(s)
(2)-1-1 Turn on your system, and then press the Del button to enter BIOS Setup during
running POST (Power-On Self Test). If you want to create RAID, just go to the
Advanced Settings menu/IDE configuration, select the Configure SATA#1 as, and
press <Enter> for more options.
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(2)-1-2
A list of options appears, please select RAID.
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(2)-2 Set CDROM for First Boot Device under the Boot Settings menu to boot CD-ROM after
system restarts.
(2)-3 Save and exit the BIOS Setup.
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(3) Configuring RAID by the RAID BIOS
Enter the RAID BIOS setup utility to configure a RAID array. Skip this step and proceed to
Section 4 if you do not want to create a RAID.
(3)-1 After the POST memory testing and before the operating system booting, a message
"Press <Ctrl-I> to enter Configuration Utility" shows up, accordingly, press <CTRL+ I> to
enter the RAID BIOS setup utility.
(3)-2 After you press <CTRL+ I>, the Create RAID Volume screen will appear. If you want to
create a RAID array, select the Create RAID Volume option in the Main Menu and press
ENTER.
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(3)-3-1 After entering the CREATE VOLUME MENU screen, you can type the disk array
name with 1~16 letters (letters cannot be special characters) in the item “Name”.
(3)-3-2 When finished, press ENTER to select a RAID level. There are three RAID levels,
RAID0, RAID1 and RAID5 & RAID10. Select a RAID level and press ENTER.
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(3)-4 Set the stripe block size. The KB is the standard unit of stripe block size. The stripe
block size can be 4KB to 128KB. After the setting, press ENTER for the array capacity.
(3)-5 After setting all the items on the menu, select Create Volume and press ENTER to start
creating the RAID array.
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(3)-6 When prompting the confirmation, press “Y“ to create this volume, or “N“ to cancel the
creation.
After the creation is completed, you can see detailed information about the RAID Array in the
DISK/VOLUME INFORMATION section, including RAID mode, disk block size, disk name, and
disk capacity, etc.
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 Delete RAID Volume
If you want to delete a RAID volume, select the Delete RAID Volume option in Main Menu.
Press ENTER and follow on-screen instructions.
Please press [ESC] to exit the RAID BIOS utility.
Now, you can proceed to install a SATA driver controller and the operating system.
(4) Making a SATA Driver Disk
To install the operating system onto a serial ATA hard disk successfully, you need to install the
SATA controller driver during the OS installation. Without the driver, the hard disk may not be
recognized during the Windows setup process. First of all, please format a blank floppy disk.
Secondly, follow up these steps below to produce a SATA driver disk.
Users can insert the Driver CD and the formatted blank floppy disk in another system. And then,
please copy all of file of the f6flpy32 folder in the Driver CD to a floppy disk.
NOTE: Please copy all of file of the f6flpy64 folder, if installing 64-bit Windows Operating
System.
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(5) Installing the SATA controller driver during the OS installation
Now, the SATA driver disk is ready, and BIOS settings configured, you can proceed to install
Windows 2000/XP onto your SATA hard drive using the SATA driver. Here is an example for
Windows XP installation.
(5)-1 Restart your system to boot the Windows 2000/XP Setup disk, and press F6 button as
soon as you see the message "Press F6 if you need to install a 3rd party SCSI or
RAID driver". After pressing the F6 button, there will be a few moments for some files
being loaded before next screen appears.
(5)-2 When you see the screen below, insert the floppy disk containing the SATA driver and
press “S”.
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(5)-3 If the Setup correctly recognizes the driver of the floppy disk, a controller menu will
appear below. Use the ARROW keys to select Intel®
ICH8R/ICH9R/ICH10R/DO/PCH SATA RAID Controller and press ENTER. Then it will
begin to load the SATA driver from the floppy disk.
Note: If a message on the screen saying that one or some file(s) cannot be found, please check
the floppy disk or copy the correct SATA driver again from the driver CD.
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MEMO:
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APPENDIX D
iAMT SETTINGS
®
®
The Intel Active Management Technology (Intel iAMT) has decreased a major barrier to IT
efficiency that uses built-in platform capabilities and popular third-party management and security
applications to allow IT a better discovering, healing, and protection their networked computing
assets.
In order to utilize Intel iAMT you must enter the ME BIOS (CTRL + P during system startup),
®
change the ME BIOS password, and then select “Intel iAMT” as the manageability feature.
D.1 Entering MEBx
1. You must go to BIOS TO start iAMT function.
2. Exit from BIOS after starting iAMT, and press Ctrl+P to enter MEBx Setting.
It is better to press Ctrl+P before the screen popping out.
D.2 Set & Change Password
You will be asked to set a password when first log in. The default password is ‘admin’.
Change Password
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1.
You will be asked to change the password before setting ME
2.
You must confirm your new password while revising. (as Remark 1)
The new password must contain:
(example: !!11qqQQ) (default value)Eight characters
 One upper case
 One lower case
 One number
 One special symbol, such as ! 、 $ or ; ，

(、 " , excepted)
Underline ( _ ) and space are valid characters for password, but they won’t make higher
complexity.
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D.3 Intel® iAMT Settings
®
Select Intel iAMT Configuration and press <ENTER>.
®
1. Key in the Host Name. If Intel iAMT set to ‘DHCP‘, the Host name must be identical to the
operating system mechanic.
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2. Select TCP/IP to get into Network interface, and set it to ‘ENABLED’; into DHCP Mode, and
set it to ‘DISABLED’ (as Remark 2) ; into Domain name, and set the Intel Management
Engine domain name, such as ‘AMT.intel.com’.
(3-1)
(3-2)
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you can make th Remark 2
settings:
DHCP Mode ‘DISABLED‘: if DHCP Mode is disabled, e following
 IP address
 Subnet mask
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 Default Gateway address
 Preferred DNS address
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 Alternate DNS address
 Domain name
4
Exit from MEBx after completing the iAMT settings.
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D.4 iAMT Web Console
1.
Web.
From a web browser, please type http://(IP ADDRESS):16992, which connects to iAMT
Example: http://10.1.40.214:16992
2.
To log on, you will be required to type in username and password for access to the Web.
USER: admin (default value)
PASS: (MEBx password)
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3. Enter the iAMT Web.
4 Click Remote Control, and select commands on the right side.
5. When you have finished using the iAMT Web console, close the Web browser
iAMT Settings
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APPENDIX E
PICMG v1.3 INTERFACE DEFINITION
®
x16 PCIe Connector A
Side B
x16 PCIe Connector C
Side A
Side B
Side A
1
N.C
N.C
1
USB0P
GND
2
GND
GND
2
USB0N
GND
3
N.C
N.C
3
GND
USB1P
4
N.C
N.C
4
GND
USB1N
5
N.C
WAKE#
5
USB2P
GND
6
PWRBT#
PME#
6
USB2N
GND
7
PWRGD
PSON#
7
GND
USB3P
8
SHB_RST#
PERST#
8
GND
USB3N
9
CFG0
CFG1
9
USBOC0#
GND
10
CFG2
CFG3
10
GND
USBOC1#
11
RSVD
GND
11
USBOC2#
GND
Mechanical Key
12
GND
N.C
12
GND
USBOC3#
13
b_PETp0
GND
13
N.C
GND
14
b_PETn0
GND
14
N.C
GND
15
GND
b_PERp0
15
GND
N.C
16
GND
b_PERn0
16
GND
N.C
17
b_PETp1
GND
17
N.C
GND
18
b_PETn1
GND
18
N.C
GND
19
GND
b_PERp1
19
GND
N.C
20
GND
b_PERn1
20
GND
N.C
21
b_PETp2
GND
21
N.C
GND
22
b_PETn2
GND
22
N.C
GND
23
GND
b_PERp2
23
GND
N.C
24
GND
b_PERn2
24
GND
N.C
25
b_PETp3
GND
25
N.C
GND
26
b_PETn3
GND
26
N.C
GND
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Mechanical Key
27
GND
b_PERp3
27
GND
N.C
28
GND
b_PERn3
28
GND
N.C
29
REFCLK0+
GND
29
N.C
GND
30
REFCLK0-
GND
30
N.C
GND
31
GND
REFCLK1+
31
N.C
N.C
32
RSVD
REFCLK1-
32
N.C
N.C
33
REFCLK2+
GND
33
N.C
N.C
34
REFCLK2-
GND
34
N.C
GND
35
GND
REFCLK3+
35
N.C
GND
36
RSVD
REFCLK3-
36
GND
N.C
37
REFCLK4+
GND
37
GND
N.C
38
REFCLK4-
GND
38
N.C
GND
39
GND
N.C
39
N.C
GND
40
RSVD
N.C
40
GND
N.C
41
N.C
GND
41
GND
N.C
42
N.C
GND
42
+3.3V
+3.3V
43
GND
N.C
43
+3.3V
+3.3V
44
GND
N.C
44
+3.3V
+3.3V
45
a_PETp0
GND
45
+3.3V
+3.3V
46
a_PETn0
GND
46
+3.3V
+3.3V
47
GND
a_PERp0
47
+3.3V
+3.3V
48
GND
a_PERn0
48
+3.3V
+3.3V
49
a_PETp1
GND
49
+3.3V
+3.3V
50
a_PETn1
GND
50
+3.3V
+3.3V
51
GND
a_PERp1
51
GND
GND
52
GND
a_PERn1
52
GND
GND
53
a_PETp2
GND
53
GND
GND
54
a_PETn2
GND
54
GND
GND
55
GND
a_PERp2
55
GND
GND
56
GND
a_PERn2
56
GND
GND
57
a_PETp3
GND
57
GND
GND
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Mechanical Key
58
a_PETn3
GND
58
GND
GND
59
GND
a_PERp3
59
+5V
+5V
60
GND
a_PERn3
60
+5V
+5V
61
a_PETp4
GND
61
+5V
+5V
62
a_PETn4
GND
62
+5V
+5V
63
GND
a_PERp4
63
GND
GND
64
GND
a_PERn4
64
GND
GND
65
a_PETp5
GND
65
GND
GND
66
a_PETn5
GND
66
GND
GND
67
GND
a_PERp5
67
GND
GND
68
GND
a_PERn5
68
GND
GND
69
a_PETp6
GND
69
GND
GND
70
a_PETn6
GND
70
GND
GND
71
GND
a_PERp6
71
GND
GND
72
GND
a_PERn6
72
GND
GND
73
a_PETp7
GND
73
+12V
+12V
74
a_PETn7
GND
74
+12V
+12V
75
GND
a_PERp7
75
+12V
+12V
76
GND
a_PERn7
76
+12V
+12V
77
N.C
GND
77
+12V
+12V
78
+3.3V
+3.3V
78
+12V
+12V
79
+3.3V
+3.3V
79
+12V
+12V
80
+3.3V
+3.3V
80
+12V
+12V
81
+3.3V
+3.3V
81
+12V
+12V
82
RSVD
RSVD
82
+12V
+12V
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X8 PCIe Connector B
Side B
X8 PCIe Connector D
Side A
Side B
Side A
1
+5Vaux
+5Vaux
1
INTB#
INTA#
2
GND
N.C
2
INTD#
INTC#
3
a_PETp8
GND
3
GND
N.C
4
a_PETn8
GND
4
REQ3#
GNT3#
5
GND
a_PERp8
5
REQ2#
GNT2#
6
GND
a_PERn8
6
PCI_RST#
GNT1#
7
a_PETp9
GND
7
REQ1#
GNT0#
8
a_PETn9
GND
8
REQ0#
SERR#
9
GND
a_PERp9
9
N.C
+3.3V
10
GND
a_PERn9
10
GND
N.C
11
N.C
GND
11
N.C
GND
Chanical Key
12
GND
N.C
12
CLKC
CLKD
13
a_PETp10
GND
13
GND
+3.3V
14
a_PETn10
GND
14
CLKA
CLKB
15
GND
a_PERp10
15
+3.3V
GND
16
GND
a_PERn10
16
AD31
GND
17
a_PETp11
GND
17
AD29
+3.3V
18
a_PETn11
GND
18
N.C
AD30
19
GND
a_PERp11
19
AD27
AD28
20
GND
a_PERn11
20
AD25
GND
21
a_PETp12
GND
21
GND
AD26
22
a_PETn12
GND
22
C/BE3#
AD24
23
GND
a_PERp12
23
AD23
+3.3V
24
GND
a_PERn12
24
GND
AD22
25
a_PETp13
GND
25
AD21
AD20
26
a_PETn13
GND
26
AD19
N.C
27
GND
a_PERp13
27
+5V
AD18
28
GND
a_PERn13
28
AD17
AD16
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Chanical Key
29
a_PETp14
GND
29
C/BE2#
GND
30
a_PETn14
GND
30
PCI_PRST#
FRAME#
31
GND
a_PERp14
31
IRDY#
TRDY#
32
GND
a_PERn14
32
DEVSEL#
+5V
33
a_PETp15
GND
33
LOCK#
STOP#
34
a_PETn15
GND
34
PERR#
GND
35
GND
a_PERp15
35
GND
C/BE1#
36
GND
a_PERn15
36
PAR
AD14
37
N.C
GND
37
N.C
GND
38
N.C
N.C
38
GND
AD12
39
GND
GND
39
AD15
AD10
40
GND
GND
40
AD13
GND
41
GND
GND
41
GND
AD09
42
GND
GND
42
AD11
C/BE0#
43
GND
GND
43
AD08
GND
44
+12V
+12V
44
GND
AD06
45
+12V
+12V
45
AD07
AD05
46
+12V
+12V
46
AD04
GND
Mechanical Key
47
+12V
+12V
47
GND
AD02
48
+12V
+12V
48
AD03
AD01
49
+12V
+12V
49
AD00
GND
Note: Please contact your vendor to get the backplane design guide if it’s required. The
backplane design guide is NDA required.
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MEMO:
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PICMG v1.3 Interface Definition