AXIOMTEK SHB100, SHB100VE, SHB100V2G, SHB100VG User Manual

SHB100

Intel® Core2
Duo/PentiumD/Pentium4/CeleronD ®

PICMG 1.3 Full-Size Single Board
Computer

User’s Manual

ii

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 2013 Axiomtek Co., Ltd.

All Rights Reserved
April 2013, Version A3
Printed in Taiwan

iii

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 is a trademark of American Megatrend Inc.
IBM, PC/AT, PS/2, VGA are trademarks of International Business Machines Corporation.

Intel® CoreTM i7 / CoreTM i5 / CoreTM i3 are trademarks of Intel Corporation.
Winbond is a trademark of Winbond Electronics Corp.
Realtek is a trademark of Realtek Semi-Conductor Co., Ltd.
Other brand names and trademarks are the properties and registered brands of their

respective owners.

iv

Table of Contents

Disclaimers ..................................................................................................... ii

ESD Precautions ........................................................................................... iii

Chapter 1 Introduction ............................................. 1

1.1 Specifications ...................................................................................... 1

1.2 Utilities Supported .............................................................................. 3

1.3 Ordering information .......................................................................... 3

Chapter 2 Board and Pin Assignments .................... 5

2.1 Board Dimensions .............................................................................. 5

2.2 Board Layout ....................................................................................... 6

2.3 Jumper Settings .................................................................................. 7

2.3.1 COM2 Mode Select Jumpers ( JP2, JP3, JP4) ........................................... 8

2.3.2 CompactFlash Jumper (JP5) ...................................................................... 8

2.3.3 CompactFlash Voltage Jumper (JP6) ......................................................... 8

2.3.4 LAN2 Speed Jumper (JP8) ......................................................................... 9

2.3.5 LAN1 Speed Jumper (JP10) ....................................................................... 9

2.3.6 Active LED for LAN2 Jumper (JP11) ........................................................... 9

2.3.7 Active LED for LAN1 Jumper (JP12)........................................................... 9

2.3.8 IrDA connector (JP13) ................................................................................. 9

2.3.9 CMOS Clear Jumper (JP14) ..................................................................... 10

2.3.10 Processor List for Intel Core2 Duo CPU(For B1 PCB version of SHB100

only) ........................................................................................................... 10

2.4 Connectors ........................................................................................ 11

2.4.1 Front Panel Connector (CN19) ................................................................. 12

2.4.2 Enhanced IDE Interface connector (CN10) .............................................. 13

2.4.3 Display interface Connector (CN16) ......................................................... 13

2.4.4 Floppy Disk Port Connector (CN7) ............................................................ 14

2.4.5 Print Port Connector (CN2) ....................................................................... 15

2.4.6 Serial Port Interface Connectors (CN3, CN6) ........................................... 16

2.4.7 Internal Mouse/Keyboard Connector (CN20/CN21) ................................. 16

2.4.8 USB Connectors (CN17/CN18) ................................................................. 17

2.4.9 Audio Connector (CN1) ............................................................................. 17

2.4.10 ATX 4 Pin 12V In Connector (CN4) ........................................................... 17

2.4.11 Parallel IDE Interface Connector (CN10) .................................................. 18

Chapter 3 Hardware Installation ........................... 19

3.1 Installing the Processor .................................................................... 20

3.2 Installing the ATX Power Supply ...................................................... 23

v

3.3 Installing the Memory ....................................................................... 24

3.4 Installing the Backplane ................................................................... 24

3.4.1 Notice for SHB100..................................................................................... 24

3.4.2 How to install the PICMG1.3 backplane for SHB100 ................................ 25

Chapter 4 Hardware Description ........................... 27

4.1 Microprocessors ............................................................................... 27

4.2 BIOS ................................................................................................... 27

4.3 System Memory ................................................................................. 27

4.4 I/O Port Address Map ........................................................................ 28

Chapter 5 PHOENIX-AWARD BIOS Utility .............. 29

5.1 Entering Setup ................................................................................... 29

5.2 Control Keys ...................................................................................... 30

5.3 Getting Help ....................................................................................... 31

5.4 Main Menu .......................................................................................... 31

5.5 Standard CMOS Setup Menu ............................................................ 32

5.6 Advanced BIOS Features ................................................................. 34

5.7 Advanced Chipset Features ................................ ............................. 37

5.8 Integrated Peripherals ...................................................................... 41

5.9 Power Management Setup ................................................................ 46

5.10 PnP/PCI Configuration Setup ........................................................... 48

5.11 PC Health Status ............................................................................... 50

5.12 Frequency/Voltage Control ............................................................... 51

5.13 Load Fail-Safe Defaults ..................................................................... 52

5.14 Load Optimized Defaults ................................................................ .. 52

5.15 Set Supervisor/User Password ........................................................ 52

5.16 Save & Exit Setup .............................................................................. 53

5.17 Exit Without Saving ........................................................................... 53

Chapter 6 Installation of Drivers ........................... 55

6.1 Installing VGA Driver ......................................................................... 55

6.1.1 Introduction ................................................................................................ 55

6.1.2 Driver Disks’ Contents ............................................................................... 55

6.1.3 Windows 2000 VGA Driver Installation ..................................................... 55

6.1.4 Windows XP VGA Driver Installation ......................................................... 56

6.2 Installing LAN Driver ......................................................................... 56

6.2.1 Introduction ................................................................................................ 56

6.2.2 Features .................................................................................................... 56

vi

6.2.3 Drivers Supported ..................................................................................... 56

Appendix A Watchdog Timer .................................... 57

Appendix B PCI IRQ Routing ..................................... 59

Appendix C Memory Mapping ................................... 61

SHB100 LGA775 SBC User’s Manual

Introduction 1

Chapter 1

Introduction

The SHB100 PICMG 1.3 Single Board Computer delivers new features for interactive
application and many other embedded computing solutions requiring higher performance it
provided outstanding system performance through high-bandwidth interface such as
PCI-Expressx16 or PCI-Express x8.The new graphic core can deliver significant graphics
performance over previous Intel® platforms. The SHB100 can deliver an perfect, realistic
visual engine without requiring a separate graphic card.

1.1 Specifications

 CPU

 Intel® Core2 Duo(E6xxx and E4300)/PentiumD/Pentium4/CeleronD

 System Chipset

 Intel

®

82945G

 Intel

®

82801GR(ICH7R)

 CPU Socket

 LGA775

 Front-Side Bus

 533MHz/800/1066MHz

Note

For 1066 MHz FSB speed of Intel processor. The SHB100 only support Pentium4
Extreme Editition.

 BIOS

 Phoenix-Award PnP Flash BIOS.

SHB100 LGA775 SBC User’s Manual

2 Introduction

 System Memory

 Support DD2-400/533/667 memory and up to 4GB

Note

Due to standard PC architecture, a certain amount of memory is reserved for
system usage and therefore the actual memory size is less than the stated
amount.

 IDE Interface

 One IDE connector and up to four devices, Ultra DMA 100 supported

 FDD Interface

 Supports up to 2 drives

 Serial Ports

 Two 16550 UARTs ports with 16 byte as two RS232

 Parallel Ports

 One parallel port with ECP/EPP/SPP supported

 VGA Controller

 Chipset Integrated VGA Controller and Supports up to 2048x1536 at 75 Hz

resolution on non-interlaced CRT monitors

 Ethernet

 Intel

®

Pro/1000 LAN 82573E/V-(PCI-E LAN Chip)

 SATA II

 Four Channel and support the maximum data transfer rate could up to 300MB/s and

support SATA RAID 0/1/5

 USB Interface

 4 USB ports; USB Spec. Rev. 2.0 compliant

 Hardware Monitoring

 Winbond W83627HG-AW detection of CPU temperature, System temperature,

Power failure and Fan speed.

 Watchdog Timer

 Generates the system reset.Software programmable time interval and hardware

reset only.256 Level(1~255 Seconds)

 Dimensions

 338.56 mmx126.39mm(6 Layer)

 Environmental

 Operating temperature: 0 degrees to 60 degrees(Depend on CPU)
 CPU Relative Humidity: 95%


Note

All specifications and images are subject to change without notice.

SHB100 LGA775 SBC User’s Manual

Introduction 3

1.2 Utilities Supported

 Intel

®

945G Utility and Drivers

 VGA Drivers
 Ethernet Utility and Drivers
 Audio Utility and Drivers

1.3 Ordering information

Model number

Description

SHB100V2G

PCI-E LAN Chipx2 (Intel573E/V/L)

SHB100VG

PCI-E LAN Chipx1 (Intel573E/V/L)

SHB100VE

10/100Mbps(Intel 82562)

SHB100 LGA775 SBC User’s Manual

4 Introduction

This page is intentionally left blank.

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 5

Chapter 2

Board and Pin Assignments

2.1 Board Dimensions

SHB100 LGA775 SBC User’s Manual

6 Board and Pin Assignments

2.2 Board Layout

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 7

2.3 Jumper Settings

Proper jumper settings configure the SHB100 to meet your application purpose.

Description

Function

Jumper setting

JP1

Reserved

JP2

RS232/RS422/RS485 Setting

RS232 Short 1-2 (Default)
RS422 Short 3-4,7-8
RS485: Short 5-6, 7-8

JP3

RS232 Short 3-5,4-6 (Default)
RS422 Short 1-3,2-4
RS485: Short 1-3,2-4

JP4

RS232 Short 3-5,4-6 (Default)
RS422 Short 1-3,2-4
RS485: Short 1-3,2-4

JP5

Compact Flash Setting

CF Master Short 2-3 (Default)
CF Slave Short 1-2

JP6

Compact Flash Voltage Setting

3.3V Short 1-2 (Default)
+5V Short 2-3

JP8

The LED for LAN2 Speed

JP10

The LED for LAN1 Speed

JP11

The Link/Active LED for LAN2

JP12

The LinkActive LED for LAN1

JP13

IrDA

JP14

Clear CMOS Jumper

Short 1-2(Default)
Short 2-3 for Clear CMOS

JP15

Reserved

SHB100 LGA775 SBC User’s Manual

8 Board and Pin Assignments

2.3.1 COM2 Mode Select Jumpers ( JP2, JP3, JP4)

These jumpers select the COM2 port’s communication mode to operate RS-232 or
RS-422/485.

Description

Function

Jumper Setting

COM2

RS-232
(Default)

JP2

1
3
5
7

2
4
6
8

JP3

1
3
5

2
4
6

JP4

1
3
5

2
4
6

RS-422

JP2

1
3
5
7

2
4
6
8

JP3

1
3
5

2
4
6

JP4

1
3
5

2
4
6

RS-485

JP2

1
3
5
7

2
4
6
8

JP3

1
3
5

2
4
6

JP4

1
3
5

2
4
6

2.3.2 CompactFlash Jumper (JP5)

Description

Function

Jumper Setting

CompactFlash

Master
(Default)

3 2 1

Slave

3 2 1

2.3.3 CompactFlash Voltage Jumper (JP6)

Description

Function

Jumper Setting

CompactFlash
Voltage

3.3V
(Default)

3 2 1

5V

3 2 1

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 9

2.3.4 LAN2 Speed Jumper (JP8)

Description

Function

Jumper Setting

LAN2 Speed

100,Low Active

Pin 1

3.3V

Pin 2

Gigibit,Low

Pin 3

2.3.5 LAN1 Speed Jumper (JP10)

Description

Function

Jumper Setting

LAN1 Speed

100,Low Active

Pin 1

3.3V

Pin 2

Gigibit,Low

Pin 3

2.3.6 Active LED for LAN2 Jumper (JP11)

Description

Function

Jumper Setting

Active LED
for LAN2

3.3V

Pin 1

Link active

Pin 2

2.3.7 Active LED for LAN1 Jumper (JP12)

Description

Function

Jumper Setting

Active LED
for LAN1

3.3V

Pin 1

Link active

Pin 2

2.3.8 IrDA connector (JP13)

SHB100 LGA775 SBC User’s Manual

10 Board and Pin Assignments

2.3.9 CMOS Clear Jumper (JP14)

Description

Function

Jumper Setting

CMOS Clear

Normal
(Default)

3 2 1

Clear
CMOS

3 2 1

2.3.10 Processor List for Intel Core2 Duo CPU(For B1 PCB
version of SHB100 only)

Proc No

Clock Speed

Cache

FSB

Socket

Processor
Generation

Note

E6700

2.6

4M

1066

LGA775

Conroe

E6600

2.44

4M

1066

LGA775

Conroe

E6400

2.133

2M

1066

LGA775

Conroe

Embedded

E6300

1.866

2M

1066

LGA775

Conroe

E4300

1.8

2M

800

LGA775

Conroe

Embedded

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 11

2.4 Connectors

All of connectors allows you to connect keyboard, Mouse, Hard Drive, Floppy Drive on the
CPU card Ensure that all connectors are in place and firmly attached. The following table lists
the function of each connector on the SHB100.

Connectors

Label

Connectors

Label

Audio Output

CN1

VGA Port

CN16

Parallel Port

CN2

USB 3,4

CN17

COM1 Port

CN3

USB 1,2

CN18

ATX 4 Pin 12V In

CN4

Front Panel

CN19

CD AUX In

CN5

Mouse Connector

CN20

COM2 Port

CN6

Keyboard Connector

CN21

Floppy Port

CN7

System FAN

CN22

CompactFlash Socket

CN8

System FAN

CN23

RJ-45 Port2

CN9

PS/2 Port

CN24

P-ATA IDE Port

CN10

CPU FAN

CN25

S-ATA Port 4

CN11

LGA775 Socket

CPU1

RJ-45 Port1

CN12

S-ATA Port 3

CN13

S-ATA Port 2

CN14

S-ATA Port 1

CN15

SHB100 LGA775 SBC User’s Manual

12 Board and Pin Assignments

2.4.1 Front Panel Connector (CN19)

This chapter provided more detailed information for SHB100 PICMG1.3 Single Board
Computer

 Power Switch

The Pins 9, 10 was designed for Power bottom function.

 Power LED

The Pin1, 3, 5, 7 was defined for Power LED.

 External Speaker and Internal Buzzer Connector

Pins 2, 4, 6, 8 connect to the case-mounted speaker unit or internal buzzer.

 System Reset Switch

Pins 11, 12 was designed for Hardware Reset function

 HDD Activity LED

This connector extends to the hard drive activity LED on the control panel. This LED will
flash when the HDD is being accessed. Pins 13 & 14

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 13

2.4.2 Enhanced IDE Interface connector (CN10)

The SHB100 includes a PCI bus enhanced IDE controller that can support master/slave
mode and post write transaction mechanisms with 64-byte buffer, and master data
transaction.

Pin

Signal

Pin

Signal

Pin

Signal

1

Reset #

2

GND

3

Data 7

4

Data 8

5

Data 6

6

Data 9

7

Data 5

8

Data 10

9

Data 4

10

Data 11

11

Data 3

12

Data 12

13

Data 2

14

Data 13

15

Data 1

16

Data 14

17

Data 0

18

Data 16

19

GND

20

N/C

21

N/C

22

GND

23

IOW #

24

GND

25

IOR #

26

GND

27

IOCHRDY

28

N/C

29

N/C

30

GND-Default

31

Interrupt

32

N/C

33

SA1

34

N/C

35

SA0

36

SA2

37

HDC CS0 #

38

HDC CSI #

39

HDD Active #

40

GND

2.4.3 Display interface Connector (CN16)

The GMCH has an integrated 350 MHz RAMDAC that can directly drive a progressive
scan analog monitor up to a resolution of 2048x1536 at 75 Hz.

Pin

Signal

Pin

Signal

Pin

Signal

1

Red 2 Green

3

Blue

4

N/A 5 GND

6

AGND

7

AGND

8

AGND

9

+5V

10

GND

11

N/A

12

DDC DAT

13

Horizontal
Sync

14

Vertical Sync

15

DDC CLK

SHB100 LGA775 SBC User’s Manual

14 Board and Pin Assignments

2.4.4 Floppy Disk Port Connector (CN7)

The board provides a 34-pin header type connector, FDD1, 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

Reduce write current

3

GND

4

N/C 5 GND

6

N/C

7

GND

8

Index #

9

GND

10

Motor enable A #

11

GND

12

Drive select B #

13

GND

14

Drive select A #

15

GND

16

Motor enable B #

17

GND

18

Direction #

19

GND

20

STEP #

21

GND

22

Write data #

23

GND

24

Write gate #

25

GND

26

Track #

27

GND

28

Write protect #

29

GND

30

Read data #

31

GND

32

Side 1 select #

33

GND

34

Disk change #

1

2

33

34

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 15

2.4.5 Print Port Connector (CN2)

Print Port Connector [Default]

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

2

4

6

1

3

5

7 8

9

11

13

15

10

12

14

16

17

19

21

23

25

18

20

22

24

26

1

Strobe#

2

Data 0

3

Data 1

4

Data 2

5

Data 3

6

Data 4

7

Data 5

8

Data 6

9

Data 7

10

Acknowledge #

11

Busy

12

Paper Empty #

13

Printer Select

14

Auto Form Feed #

15

Error #

16

Initialize #

17

Printer Select In #

18

GND

19

GND

20

GND

21

GND

22

GND

23

GND

24

GND

25

GND

26

SHB100 LGA775 SBC User’s Manual

16 Board and Pin Assignments

2.4.6 Serial Port Interface Connectors (CN3, CN6)

The serial interface for the board consists of COM1 port (CN3) and COM2 (CN6)
supports RS-232/RS-422/RS-485.

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

NC

COM2 Serial Port 10-pin (Box-header) Connector Pin Assignment list

Pin

Signal

RS-422

RS-485

1

TX-

DATA-

2

No connector

No connector

3

TX+

DATA+

4

No connector

No connector

5

RX+

No connector

6

No connector

No connector

7

RX-

No connector

8

No connector

No connector

9

GND

GND

10

GND

GND

2.4.7 Internal Mouse/Keyboard Connector (CN20/CN21)

The board provides a keyboard (CN21) and Mouse (CN20) interface with two 5-pin
connectors.

Clock

Data

No Connection

GND

Power

1

2

5

4

3

SHB100 LGA775 SBC User’s Manual

Board and Pin Assignments 17

2.4.8 USB Connectors (CN17/CN18)

These Universal Serial Bus (USB) connectors on this board are for installing versatile
USB interface peripherals. These are 10-pin standard USB connectors.

Pin

Signal

Pin

Signal

USB

GND

USB

P0-

USB

P0-

USB

P1+

GND

1

2

10

USB

Power

USB
GND

USB

P1+

USB

Power

1

USB POWER

2

USB POWER

3

USB P0-

4

USB P1+

5

USB P0-

6

USB P1+

7

USB GND

8

USB GND

9

NC

10

GND

2.4.9 Audio Connector (CN1)

CN1 is a 10-pin connector to support the audio interface.

Pin

Signal

Pin

Signal

2 4

6

1 3

5

7

8

9

10

1

MIC-IN

2

GND

3

Line In L

4

GND

5

Line In R

6

GND

7

Audio Out L

8

GND

9

Audio Out R

10

GND

2.4.10 ATX 4 Pin 12V In Connector (CN4)

You can connect it to the ATX12V power supply for CPU Core Voltage.

Note

Make sure your ATX12V power supply can provide 16A on the +12V lead and at
least 1A on the +5V standby lead (+5VSB). The minimum recommended wattage
is 250W or 300W for a fully configured system. The system may become unstable
and may experience difficulty powering up if the power supply is inadequate.

Pin

Signal

1

2

3

4

1

GND

2

GND

3

+12V

4

+12V

SHB100 LGA775 SBC User’s Manual

18 Board and Pin Assignments

2.4.11 Parallel IDE Interface Connector (CN10)

The board provided one IDE Port to support maximum up to two IDE devices.

Pin

Description

Pin

Description

Pin

Description

1

Reset #

2

GND

3

Data 7

4

Data 8

5

Data 6

6

Data 9

7

Data 5

8

Data 10

9

Data 4

10

Data 11

11

Data 3

12

Data 12

13

Data 2

14

Data 13

15

Data 1

16

Data 14

17

Data 0

18

Data 16

19

GND

20

N/C

21

N/C

22

GND

23

IOW #

24

GND

25

IOR #

26

GND

27

IOCHRDY

28

N/C

29

N/C

30

GND-Default

31

Interrupt

32

N/C

33

SA1

34

N/C

35

SA0

36

SA2

37

HDC CS0 #

38

HDC CSI #

39

HDD Active #

40

GND

1

2

39

40

SHB100 LGA775 SBC User’s Manual

Hardware Installation 19

Chapter 3

Hardware Installation

Before installing the processor, please access Intel® website for more detailed information

http://www.intel.com .

SHB100 must use a proprietary CPU cooler, we strongly recommend purchasing it from
Axiomtek. Axiomtek’s Cooler kit includes a support kit that is combined with the heatsink
mounted on the CPU to counterweight and balances the load on both sides of the PCB.
Cooler list:
For 1U Chassis: E9C900B008
For 2U /4U /Shoebox chassis: E9C900B009, E9C900B010

The CPU Cooler is very heavy, therefore, when the fan/heatsink is installed; please always
hold the SBC with two hands by card edges to avoid bending or breaking the board. Careless
handing may cause damage to the board; components may snap or become detached from
the PCB.

To prevent the board from bending and causes the SBC damage or other unexpected issue, as
the illustration in below shows, we strongly suggest that user should design a properly support
for the CPU Cooler and the SBC board.

SHB100 LGA775 SBC User’s Manual

20 Hardware Installation

3.1 Installing the Processor

The LGA775 processor socket comes with a cover to protect the processor. Please install the
processor into the CPU socket step by step as below:

Hold the hook (A) of the lever and push it down.
Pull the lever (B) aside to unlock the cover.

Open the cover (C), you can
see the contact.

Be careful not to touch the
contact (D).

SHB100 LGA775 SBC User’s Manual

Hardware Installation 21

Remove the plastic cap (E) from the cover.

Place the CPU down into the socket. Be careful not to touch the contact.

Hold the edges of the CPU, and orientate it as the marked direction (G) down into the socket to
match the (H) and (F) locations.

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22 Hardware Installation

Slightly push down the cover and hook the lever (I~J). The CPU is completely locked.

Orientate the CPU cooling fan to fixing holes on the board.

Screw the CPU cooling fan onto the board.

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Hardware Installation 23

Make sure the CPU fan is plugged to the CPU fan connector.

3.2 Installing the ATX Power Supply

System power is provided to the SHB100 PICMG13 CPU card by CN4

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24 Hardware Installation

3.3 Installing the Memory

The board supports two 240-pin DDR2 DIMM memory sockets with maximum memory
capacity up to 4GB.

Please follow steps below to install the memory modules:

1. Push down latches on each side of the DIMM socket.

2. Align the memory module with the socket that notches of memory module must match
the socket keys for a correct installation.

3. 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.

4. Install any remaining DIMM modules.

3.4 Installing the Backplane

3.4.1 Notice for SHB100

SHB100 belongs to newer architecture for Single Board computer. So you need to use
PICMG1.3 Backplane (FAB100) this.(SHB100 could not compatible with original
backplane)

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Hardware Installation 25

3.4.2 How to install the PICMG1.3 backplane for SHB100

The SHB100 only defined one x16 PCI Express link on the connectors A/B(This x16
PCIe link is designed to support PCI Express video/graphics cards on an SHB
Express™).

If the customer want to use the SHB100 for other brand name of PICMG1.3 backplane.
Please double check the backplane could supportPCI-Expressx4orPCI-Expressx1
(SHB100 only support one PCI-Expressx4 and four PCI-Expressx1)

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26 Hardware Installation

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Hardware Description 27

Chapter 4

Hardware Description

4.1 Microprocessors

The SHB100 Series supports Intel CoreTM2 Duo, Pentium

®

D, Pentium

®

4 and Celeron

®

D

processors, which make your system operated under Windows® 2000/XP and Linux
environments. The system performance depends on the microprocessor. Make sure you install
the microprocessor with all correct settings to prevent the CPU from damages.

4.2 BIOS

The SHB100 Series uses Award Plug and Play BIOS with a single 4Mbit Flash EPROM.

4.3 System Memory

The SHB100 Series industrial CPU card supports two 240-pin DDR2 DIMM sockets for a
maximum memory of 4GB DDR2 SDRAMs. The memory module can come in sizes of 64MB,
128MB, 256MB, 512MB, 1GB and 2GB.

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28 Hardware Description

4.4 I/O Port Address Map

The Intel® Core

TM

2 Duo, Pentium

®

D, Pentium

®

4 and Celeron

®

D CPUs 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

020-03F

Interrupt controller #1

040-05F

Timer

060-06F

Keyboard controller

070-07F

Real time clock, NMI

080-09F

DMA page register

0A0-0BF

Interrupt controller #2

0F0

Clear math coprocessor busy signal

0C0-0DF

DMA controller #2

0F1

Reset math coprocessor

0F8-0FF

Math processor

120

Disable watchdog timer operation (read)

121

Enable watchdog timer operation (read)

122

Watchdog

1F0-1F8

Fixed disk controller

200-207

Game port

300-31F

Prototype card

360-36F

Reserved

378-37F

Parallel port #1

3B0-3BF

MDA video card (including LPT1)

3C0-3CF

EGA card

3D0-3DF

CGA card

3F0-3F7

Floppy disk controller

3F8-3FF

Serial port #1 (COM1)

2F8-2FF

Serial port #2 (COM2)

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PHOENIX-AWARD BIOS Utility 29

Chapter 5

PHOENIX-AWARD BIOS Utility

The Phoenix-Award BIOS provides users with a built-in Setup program to modify basic system
configuration. All configured parameters are stored in a battery-backed-up RAM (CMOS RAM)
to save the Setup information whenever the power is turned off.

5.1 Entering Setup

There are two ways to enter the Setup program. You may either turn ON the computer and
press <Del> immediately, or press the <Del> and/or <Ctrl>, <Alt>, and <Esc> keys
simultaneously when the following message appears at the bottom of the screen during POST
(Power on Self Test).

TO ENTER SETUP PRESS DEL KEY

If the message disappears before you respond and you still want to enter Setup, please restart
the system to try it again. Turning the system power OFF and ON, pressing the “RESET”
button on the system case or simultaneously pressing <Ctrl>, <Alt>, and <Del> keys can
restart the system. If you do not press keys at the right time and the system doesn’t boot, an
error message will pop out to prompt you the following information:

PRESS <F1> TO CONTINUE, <CTRL-ALT-ESC> OR <DEL> TO ENTER SETUP

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30 PHOENIX-AWARD BIOS Utility

5.2 Control Keys

Hot Keys

Description

Up arrow

Move cursor to the previous item

Down arrow

Move cursor to the next item

Left arrow

Move cursor to the item on the left hand

Right arrow

Move to the item in the right hand

Esc key

Main Menu -- Quit and delete changes into CMOS
Status Page Setup Menu and Option Page Setup Menu -- Exit current page
and return to Main Menu

PgUp/“+” key

Increase the numeric value or make changes

PgDn/““ key

Decrease the numeric value or make changes

F1 key

General help, only for Status Page Setup Menu and Option Page Setup
Menu

(Shift) F2 key

Change color from total 16 colors. F2 to select color forward, (Shift) F2 to
select color backward

F3 key

Reserved

F4 key

Reserved

F5 key

Restore the previous CMOS value from CMOS, only for Option Page Setup
Menu

F6 key

Load the default CMOS value from BIOS default table, only for Option Page
Setup Menu

F7 key

Load the Setup default, only for Option Page Setup Menu

F8 key

Reserved

F9 key

Reserved

F10 key

Save all the CMOS changes, only for Main Menu

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PHOENIX-AWARD BIOS Utility 31

5.3 Getting Help

 Main Menu

The online description of the highlighted setup function is displayed at the bottom of the
screen.

 Status Page Setup Menu/Option Page Setup Menu

Press <F1> to pop out a small Help window that provides the description of using
appropriate keys and possible selections for highlighted items. Press <F1> or <Esc> to exit
the Help Window.

5.4 Main Menu

Once you enter the Award BIOS CMOS Setup Utility, the Main Menu appears on the screen. In

the Main Menu, there are several Setup functions and a couple of Exit options for your
selection. Use arrow keys to select the Setup Page you intend to configure then press <Enter>
to accept or enter its sub-menu.

Note

If your computer can not boot after making and saving system changes with
Setup, the Award BIOS will reset your system to the CMOS default settings via its
built-in override feature.

It is strongly recommended that you should avoid changing the chipset’s defaults. Both Award
and your system manufacturer have carefully set up these defaults that provide the best
performance and reliability.

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32 PHOENIX-AWARD BIOS Utility

5.5 Standard CMOS Setup Menu

The Standard CMOS Setup Menu displays basic information about your system. Use arrow
keys to highlight each item, and use <PgUp> or <PgDn> key to select the value you want in
each item.

Date

The date format is <day>, <date> <month> <year>. Press <F3> to show the calendar.

day

It is determined by the BIOS and read only, from Sunday to Saturday.

date

It can be keyed with the numerical/ function key, from 1 to 31.

month

It is from January to December.

year

It shows the current year of BIOS.

Time

This item shows current time of your system with the format <hour> <minute> <second>. The
time is calculated based on the 24-hour military-time clock. For example, 1 p.m. is 13:00:00.

IDE Channel 0 Master/IDE Channel 0 Slave/IDE Channel 1 Master/IDE Channel 1 Slave

These items identify the types of each IDE channel installed in the computer. There are 45
predefined types (Type 1 to Type 45) and 2 user’s definable types (Type User) for Enhanced
IDE BIOS. Press <PgUp>/<+> or <PgDn>/<> to select a numbered hard disk type, or directly
type the number and press <Enter>. Please be noted your drive’s specifications must match
the drive table. The hard disk will not work properly if you enter improper information. If your
hard disk drive type does not match or is not listed, you can use Type User to manually define
your own drive type.

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PHOENIX-AWARD BIOS Utility 33

If selecting Type User, you will be asked to enter related information in the following items.
Directly key in the information and press <Enter>. This information should be provided in the
documentation from your hard disk vendor or the system manufacturer.
If the HDD interface controller supports ESDI, select “Type 1”.
If the HDD interface controller supports SCSI, select “None”.
If the HDD interface controller supports CD-ROM, select “None”.

CYLS.

number of cylinders

LANDZONE

landing zone

HEADS

number of heads

SECTORS

number of sectors

PRECOMP

write precom

MODE

HDD access mode

If there is no hard disk drive installed, select NONE and press <Enter>.

Dive A type/Drive B type

This item identifies floppy disk type drive A or drive B installed in the computer.

None

No floppy drive installed

360K, 3.5 in

3.5 inch PC-type standard drive; 360Kb Mini ITXcity

1.2M, 3.5 in

3.5 inch AT-type high-density drive; 1.2MB Mini ITXcity

720K, 3.5 in

3.5 inch double-sided drive; 720Kb Mini ITXcity

1.44M, 3.5 in

3.5 inch double-sided drive; 1.44MB Mini ITXcity

2.88M, 3.5 in

3.5 inch double-sided drive; 2.88MB Mini ITXcity

Halt On

This item determines whether the system will halt or not, if an error is detected while powering
up.

No errors

The system booting will halt on any errors detected. (default)

All errors

Whenever BIOS detects a non-fatal error, the system will stop and you
will be prompted.

All, But
Keyboard

The system booting will not stop for a keyboard error; it will stop for other
errors.

All, But
Diskette

The system booting will not stop for a disk error; it will stop for other
errors.

All, But
Disk/Key

The system booting will not stop for a keyboard or disk error; it will stop
for other errors.

Press <Esc> to return to the Main Menu page.

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34 PHOENIX-AWARD BIOS Utility

5.6 Advanced BIOS Features

This section allows you to configure and improve your system, to set up some system features
according to your preference.

 CPU Feature

Scroll to this item and press <Enter> to view the CPU Feature sub menu.

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PHOENIX-AWARD BIOS Utility 35

Delay prior to Thermal

This filed is used to select the time that would force the CPU to a 50% duty cycle when it
exceeds us maximum operating temperature therefore protecting the CPU and the system
board
From overheating to ensure a safe computing environment.

Thermal Management

Thermal Monitor 1 On-die throttling
Thermal Monitor 2 Ratio and VID transition

Limited CUPID MaxVal

The CPUID instruction if some newer CPUs will return a value greater than 3. The default is
disabled because this problem does not exist in the Windows series operating systems. If you
are using an operating system other than Windows, this problem
May occur. To avoid this problem, enable this field to limit the return value to 3 or lesser than 3.

C1E Function

The Pentium 4 5xxJ version already features a power management function to reach the
same level with the Enhanced Halt State (C1E). With the C1E, it was either x14 or the
maximum coefficient without intermediate levels. So at 0% of use the coefficient was x14 / 1.2v,
and for a use of 5%, the coefficient and electrical tension were set to the maximum

Execute Disable Bit

Execute Disable Bit is a hardware-based security feature that can reduce exposure to viruses
and malicious-code attacks and prevent harmful software from executing and propagating on
the server or network. Help protect your customers' business assets and reduce the need for
costly virus-related repairs.

Virtualization Technology

Intel® Virtualization Technology requires a computer system with a processor, chipset, BIOS,
virtual machine monitor (VMM) and for some uses, certain platform software enabled for it.
Functionality, performance or other benefit will vary depending on hardware and software
configurations

 Hard Disk Boot Priority

Scroll to this item and press <Enter> to view the sub menu to decide the disk boot priority.

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36 PHOENIX-AWARD BIOS Utility

Press <Esc> to return to the Advanced BIOS Features page.

 Virus Warning

This option flashes on the screen. During and after the system boot up, any attempt to write to
the boot sector or partition table of the hard disk drive will halt the system with the following
message. You can run an anti-virus program to locate the problem. The default setting is
“Disabled”.

!WARNING!

Disk boot sector is to be modified
Type “Y” to accept write or “N” to abort write
Award Software, Inc.

Enabled

It automatically activates while the system boots up and a warning message appears for
an attempt to access the boot sector or hard disk partition table.

Disabled

No warning message will appear for attempts to access the boot sector or hard disk
partition table.

Note

This function is only available with DOS and other operating systems that do not
trap INT13.

 Quick Power On Self Test

This option speeds up Power on Self Test (POST) after you turn on the system power. If set as
Enabled, BIOS will shorten or skip some check items during POST. The default setting is
“Enabled”.

Enabled

Enable Quick POST

Disabled

Normal POST

 First/Second/Third Boot Device

These items let you select the 1st, 2nd, and 3rd devices that the system will search for during its
boot-up sequence. The wide range of selection includes Floppy, LS120, ZIP100, HDD0~3,
SCSI, and CDROM.

 Boot Other Device

This item allows the user to enable or disable the boot device not listed in the
First/Second/Third boot devices option above. The default setting is “Enabled”.

 Swap Floppy Drive

This item allows you to determine whether to enable Swap Floppy Drive or not. When enabled,
the BIOS swap floppy drive assignment makes Drive A become Drive B, and vice versa. The
default setting is “Disabled”.

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PHOENIX-AWARD BIOS Utility 37

 Boot Up Floppy Seek

During POST, BIOS will determine the floppy disk drive type, 40 or 80 tracks. The 360Kb type
is 40 tracks while 720Kb, 1.2MB and 1.44MB are all 80 tracks. The default value is “Enabled”.

Enabled

BIOS searches for floppy disk drive to determine if it is 40 or 80 tracks. Please be noted
BIOS can not differentiate 720K, 1.2M or 1.44M drive type as they all are 80 tracks.

Disabled

BIOS will not search for the type of floppy disk drive by track number. There will be no
warning message displayed if the installed drive is 360K.

 Boot Up NumLock Status

Set the the Num Lock status when the system is powered on.
The default value is “On”.

5.7 Advanced Chipset Features

This section contains completely optimized chipset’s features on the board that you are
strongly recommended to leave all items on this page at their default values unless you are
very familiar with the technical specifications of your system hardware.

DARM Timing Selectable

This field is used to select the timing of the DRAM.
By SPD: The EEPROM on a DIMM has SPD (Serial Presence Detect) data structure that

stores information about the module such as the memory type,memory size,
memory speed etc. When this option is selected the system will run according to the
information in the EEPROM. This option is the default setting because it provides

the most stable condition for the system. The “ CAS Latency Time “ to “ System
Memory Frequency “ field will show the default settings by SPD.

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38 PHOENIX-AWARD BIOS Utility

Manual: If you want better performance for your system other than the one “ by SPD “ select

“ Manual “ then select the best option in the “ CAS Latency Time “ to “ System Memory
Frequency “ fields.

CAS Latency Time

This refers to the Column Address Strobe delay time. Lower is better! However, in a P4 system,
lowering this setting only improves performance minimally, so it might be better to increase this
setting to gain stability or a higher overclock.

DRAM RAS# to CAS# Delay

This refers to the Row Address Strobe to Column Address Strobe delay time. Lower is better!
This is the most crucial setting in a P4 system! Lowering this setting improves performance
quite noticeably, so you might want to sacrifice some clockspeed to lower this timing.

DRAM RAS# Precharge

This refers to the Row Address Strobe to Column Address Strobe delay time. Lower is better!
This is the 2nd most crucial setting in a P4 system! Lowering this setting improves
performance quite noticeably, so you might want to sacrifice some clockspeed to lower this
timing

Precharge Delay(tRAS)

This refers to the Active to Precharge delay time. Lower is better! However, same as above,
lowering this setting only improves performance minimally, so it might be better to increase this
setting to gain stability or a higher overclock.

System Memory Frequency

The Intel 945G Support Intel DDRII 533/667Mhz.This setting could help you and setup the
DRAM clock for DDR memory module. The default setting was Auto

System BIOS Cacheable

When this field is enabled, accesses to the system BIOS ROM
address at F0000H-FFFFFH are cached, provide that the cache controller is enabled.

Video BIOS Cacheable

As with caching the system BIOS, enabling the Video BIOS cache will allow access to video
BIOS addressed at C0000H to be cached if the cache controller is also enabled. The larger the
range of the Cache RAM, the faster the video performance.

Memory Hole At 15M-16M

You can reserve this area of system memory for ISA adapter ROM. When this area is reserved,
it can’t be

Note

The user information of peripherals that need to use this area of system memory
usually discusses their memory requirements.

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PHOENIX-AWARD BIOS Utility 39

 PCI Express Port 1 ~ 6

There are several PCI Express Ports for your selection.

PCI-E Compliancy Mode

It allows you select the PCI-E compliant mode. Setting options: [v1.0], [v1.0a].

VGA Setting

 PEG/Onchip VGA Control

When set to Onchip VGA, the motherboard boots up using the onboard graphics processor,
even when a PCI Express graphics card is installed.
When set to PEG Port, the motherboard boots up using the PCI Express graphics card, if one
is installed. Otherwise, it defaults to the onboard graphics processor.
When set to Auto, the BIOS checks to see if a PCI Express graphics card is installed. If it
detects that a PCI Express graphics card is present, the motherboard boots up using that card.
Otherwise, it defaults to the onboard graphics processor.
If you have a PCI Express graphics card installed in your system, you should set this BIOS
feature to PEG Port. This skips the detection process, which may speed up the booting
process.
If you do not have a PCI Express graphics card installed in your system, you should set this
BIOS feature to Onchip VGA. This skips the detection process, which may speed up the
booting process.
If you are not sure what to select, leave the BIOS feature at its default setting of Auto.

Init Display First

This BIOS feature allows you to select whether to boot the system using the AGP graphics
card or the PCI graphics card. This is particularly important if you have AGP and PCI graphics
cards but only one monitor.

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40 PHOENIX-AWARD BIOS Utility

If you are only using a single graphics card, then the BIOS will detect it as such and boot it up,
irrespective of what you set the feature to. However, there may be a slight reduction in the time
taken to detect and initialize the card if you select the proper setting for this BIOS feature. For
example, if you only use an AGP graphics card, then setting Init Display First to AGP may
speed up your system's booting-up process.

Therefore, if you are only using a single graphics card, it is recommended that you set the Init
Display First feature to the proper setting for your system (AGP for a single AGP card and PCI
for a single PCI card).

But if you are using multiple graphics cards, it is up to you which card you want to use as your
primary display card. It is recommended that you select the fastest graphics card as the
primary display card.

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PHOENIX-AWARD BIOS Utility 41

5.8 Integrated Peripherals

This option sets your hard disk configuration, mode and port.

 OnChip IDE Device

Scroll to this item and press <Enter> to view the sub menu OnChip IDE Device.

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42 PHOENIX-AWARD BIOS Utility

On-Chip Primary PCI IDE

This option could allow you to enable or disable the primary and secondary IDE controller,
select Disabled if you want to add a Different hard drive controller.

IDE Primary Master PIO

This option could allow you to set up Master IDE interface from PIO mode0 to PIO Mode 4

IDE Primary Slave PIO

This option could allow you to set up Slave IDE interface from PIO mode0 to PIO Mode 4

IDE Primary Master UDMA

This option could allow you to enabled or disabled onboard Ultra DMA mode on Primary
Master

IDE Primary Slave UDMA

This option could allow you to enabled or disabled onboard Ultra DMA mode on Primary Slave

On-Chip Seconary PCI IDE

This option could allow you to enabled or disabled onboard Secondary PCI IDE controller

IDE Primary Master PIO

This option could allow you to set up Master IDE interface from PIO mode0 to PIO Mode 4

IDE Primary Slave PIO

This option could allow you to set up Slave IDE interface from PIO mode0 to PIO Mode 4

IDE Primary Master UDMA

This option could allow you to enabled or disabled onboard Ultra DMA mode on Primary
Master

IDE Primary Slave UDMA
This option could allow you to enabled or disabled onboard Ultra DMA mode on Primary Slave

On-Chip Serial ATA

This option could allow you to enabled or disabled onboard SATA port function
Combined Mode: This option allows you to use both IDE and SATA drives; allowing a

maximum od 4 drives-1 IDE Master; 1 IDE Slave and 2 SATA. You must manually set the SATA
and PATA drives mode in the “ PATA IDE Mode “ and “ SATA Port “ fields.

Enhanced Mode: This option allows you to use both IDE and SATA drives; allowing a
maximum of 6 drives – 1 IDE Master, 1 IDE Slave and 4 SATA.

SATA Only: This option automatically sets the SATA drives to Primary Master mode. Since the
SATA drives are in Master mode, you can not set the IDE drive to Master mode.

PATA IDE Mode

This field is used to select the function mode for IDE 1 connector and its relation to the SATA
ports,

Primary IDE 1 serves as Primary Master and Primary Slave channel. SATA 2 and SATA

4 serves as Secondary Master and Secondary Slave channel. SATA 1 and
SATA 3 are disabled.

Secondary IDE 1 serves as Secondary Master and Secondary Slave channel. SATA 1 and

SATA 3 serves as Primary Master and Primary Slave channel. SATA 2 and
STATA 4 are disabled.

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PHOENIX-AWARD BIOS Utility 43

SATA Port

If the “ PATA IDE Mode “ field is set to Primary, this field will show” P1, P3 is Secondary;

meaning SATA 2 and SATA 4 are
Secondary.

If the “ PATA IDE Mode “ field is set to Secondary, this field will show “ P0, P2 is Primary “;

meaning SATA 1 and SATA 3 are Primary.

 Onboard Device

Scroll to this item and press <Enter> to view the sub menu Onboard Device.

 USB Controller

Enable this item if you are using the USB in the system. You should disable this item if a
higher-level controller is added.

 USB 2.0 Controller

Enable this item if you are using the EHCI (USB2.0) controller in the system.

 USB Keyboard Support

Enable this item if the system has a Universal Serial Bus (USB) controller, and you have a
USB keyboard.

 AC’97 Audio

Use this item to enable or disable the onboard AC’97 Audio function.

Press <Esc> to return to the Integrated Peripherals page.

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44 PHOENIX-AWARD BIOS Utility

 Super IO Device

Scroll to this item and press <Enter> to view the sub menu Super IO Device.

Onboard FDC Controller

Select Enabled, if your system has a floppy disk controller (FDC) installed on the system board
and you want to use it. If you install and-in FDC or the system has no floppy drive, select
Disabled in this field. Options: Enabled and Disabled.

Onboard Serial Port 1 / 2

Select an address and corresponding interrupt for the serial port. Options: 3F8/IRQ4,
2E8/IRQ3, 3E8/IRQ4, 2F8/IRQ3, Disabled, Auto.

UART Mode Select

This item allows you to select UART mode.
The choice: IrDA, ASKIR, Normal.

UR2 Duplex Mode

This item allows you to select the IR half/full duplex funcion.
The choice: Half, Full.

UR2 Duplex Mode

Half: Data is completely transmitted before receiving Data
Full: Transmits and receives data simultaneously.

Onboard Parallel Port

378/IRQ7, 3BC/IRQ7, 278/IRQ5 Select the I/O address and IRQ for the onboard parallel
port.
Disabled: Disables the onboard parallel port.

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PHOENIX-AWARD BIOS Utility 45

Parallel Port Mode

The options are SPP, EPP, ECP and ECP+EPP. These apply to a
Standard specification and will depend on the type and speed of
You device. Refer to your peripherals manual for the best option.
SPP – Allows normal speed operation but in one direction only.

ECP (Extended Capabilities Port) – Allow parallel port to operate in bidirectional mode and at a
speed faster then the normal mode’s data transfer rate.

EPP (Enhanced Parallel Port) – Allows bidirectional parallel port operation at maximum speed.

ECP mode Use DMA

This is used to slect a DMA channel of the parallel port.

 Watch dog Timer slect Watch dog Timer slect

Allows you to setup the timer for Watchdog timer.

 Spread spectrum

Spread spectrum is a form of wireless communications in which the frequency of the
transmitted signal is deliberately varied. This results in a much greater bandwidth than the
signal would have if its frequency were not varied

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46 PHOENIX-AWARD BIOS Utility

5.9 Power Management Setup

The Power Management Setup allows you to save energy of your system effectively. It will
shut down the hard disk and turn OFF video display after a period of inactivity.

 ACPI Function

This item allows you to enable/disable the Advanced Configuration and Power Management
(ACPI). The function is always “Enabled”.

 ACPI Suspend Type

This item specifies the power saving modes for ACPI function. If your operating system
supports ACPI, such as Windows 98SE, Windows ME and Windows 2000, you can choose to
enter the Standby mode in S1 (POS) or S3 (STR) fashion through the setting of this field.
Options are:

[S1 (POS)] The S1 sleep mode is a low power state. In this state, no system context is lost
(CPU or chipset) and hardware maintains all system contexts.
[S3 (STR)] The S3 sleep mode is a lower power state where the information of system
configuration and open applications/files is saved to main memory that remains powered while
most other hardware components turn off to save energy. The information stored in memory
will be used to restore the system when a “wake up” event occurs.

 Power Management

This field allows you select the type(or degree) of power saving by changing the length of idle
time that elapses before the Suspend mode and HDD Power Down fields are activated.
Min Saving: Minimum power saving time for the Suspend Mode(1 hour) and HDD Power

Down (15 min.)

Max Saving: Maximum power saving time for the Suspend Mode and HDD Power Down =1

min.

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PHOENIX-AWARD BIOS Utility 47

User Define: Allows you to set the power saving time in the “ Suspend Mode “ and “ HDD

Power Down “ fields.

 Video Off Method

This setting determines the manner in which the monitor is blanked.

V/H
SYNC+Blank

It turns OFF vertical and horizontal synchronization ports and writes blanks to the
video buffer.

DPMS

Select this option if your monitor supports the Display Power Management Signaling
(DPMS) standard of the Video Electronics Standards Association (VESA). Use the
supplied software for your video subsystem to select video power management
values.

Blank Screen

The System only writes blanks to the video buffer.

 Video Off In Suspend

This item defines if the video is powered down when the system is put into suspend mode.

 Suspend Type

If this item is set to the default Stop Grant, the CPU will go into Idle Mode during power saving
mode.

 Suspend Mode

After the selected period of system inactivity (1 minute to 1 hour), all devices except the CPU
shut off. The default value is “Disabled”.

Disabled

System will never enter SUSPEND mode

1/2/4/6/8/10/
20/30/40
Min/1 Hr

Defines the continuous idle time before the system entering SUSPEND mode.
If any item defined in (J) is enabled & active, SUSPEND timer will be reloaded

 HDD Power Down

If HDD activity is not detected for the length of time specified in this field, the hard disk drive
will be powered down while all other devices remain active.

 Soft-Off by PWR-BTTN

This option only works with systems using an ATX power supply. It also allows users to define
which type of soft power OFF sequence the system will follow. The default value is
“Instant-Off”.

Instant-Off

This option follows the conventional manner of system performance when turning the
power to OFF. Instant-Off is a software power OFF sequence requiring the power
supply button is switched to OFF.

Delay 4 Sec.

Upon the system’s turning OFF through the power switch, this option will delay the
complete system power OFF sequence approximately 4 seconds. Within this delay
period, the system will temporarily enter into the Suspend Mode enabling you to
restart the system at once.

 Wake-Up By PCI card

If this item is enable, it allows the system to resume from a software power down or power
saving mode whenever there is an

Incoming call to an installed fax/modem. This function needs to be supported by the relevant

hardware and software.

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48 PHOENIX-AWARD BIOS Utility

 Power On function

Pressing this BIOS setting could helps you and power on the system by KB/Mouse

 PWN After PWR-Fail

This item specifies whether your system will reboot after a power failure or interrupt occurs.
Available settings are:. Off. Leaves the computer in the power off state.

5.10 PnP/PCI Configuration Setup

This section describes the configuration of PCI (Personal Computer Interconnect) bus system,
which allows I/O devices to operate at speeds close to the CPU speed while communicating
with other important components. This section covers very technical items that only
experienced users could change default settings.

 PNP OS Installed

If all your operating systems support Plug & Play (PnP), select Yes so that they can take over
the management of device resources. If you are using a non-PnP-aware OS or not all of the
operating systems you are using support PnP, select No to let the BIOS handle it instead.
Note that Windows 2000 will work with ACPI even with PnP OS Installed set to Enabled. Just
make sure you disable Advanced Power Management (APM) If all your operating systems
support Plug & Play (PnP), select Yes so that they can take over the management of device
resources. If you are using a non-PnP-aware OS or not all of the operating systems you are
using support PnP, select No to let the BIOS handle it instead.

Note

Windows 2000 will work with ACPI even with PnP OS Installed set to Enabled. Just
make sure you disable Advanced Power Management (APM).

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PHOENIX-AWARD BIOS Utility 49

 Reset Configuration Data

Normally, you leave this item Disabled. Select Enabled to reset Extended System
Configuration Data (ESCD) when you exit Setup or if installing a new add-on cause the system
reconfiguration a serious conflict that the operating system can not boot. Options: Enabled,
Disabled.

 Resources Controlled By

The Award Plug and Play BIOS can automatically configure all boot and Plug and
Play-compatible devices. If you select Auto, all interrupt request (IRQ), DMA assignment, and
Used DMA fields disappear, as the BIOS automatically assigns them. The default value is
“Manual”.

 PCI/VGA Palette Snoop

Some non-standard VGA display cards may not show colors properly. This item allows you to
set whether MPEG ISA/VESA VGA Cards can work with PCI/VGA or not. When enabled, a
PCI/VGA can work with a MPEG ISA/VESA VGA card; when disabled, a PCI/VGA cannot work
with a MPEG ISA/VESA Card.

 Rapid Card Boot First

This item helps you use additional PCI RAID card boot.

 Maximum Payload Size

When using DDR SDRAM and Buffer size selection, another consideration in designing a
payload memory is the size of the buffer for data storage. Maximum Payload Size defines the
maximum TLP (Transaction Layer Packet) data payload size for the device.

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50 PHOENIX-AWARD BIOS Utility

5.11 PC Health Status

This section supports hardware monitoring that lets you monitor those parameters for critical
voltages, temperatures and fan speed of the board.

Current System1 Temperature

The current system power will be detected automatically.

Current CPU Temp

The current system CPU temperature will be automatically detected by the system.

Current SYSTEM2 Temperature

Show you the current system2 temperature.

Current CPU FAN1 Speed

These optional and read-only fields show the current speeds in RPM (revolution per minute)
for the CPU fan and chassis fan as monitored by the hardware monitoring IC.
RPM(Revolutions Per Minute)

SYSTEM FAN1 Speed

Show you the current system fan1 temperature.

SYSTEM FAN2 Speed

Show you the current system fan2 temperature

+3.3V/+5V/+12V/-12V/-5V/VBAT(V)/5VSB

Show you the voltage of +3.3V/+5V/+12V/-12V/-5V.

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PHOENIX-AWARD BIOS Utility 51

 Current SYSTEM FAN2 Speed

Show you the current system fan1 temperature.

 Vcore +3.3V/+5V/+12V/VBAT(V)/5VSB

Show you the voltage of +3.3V/+5V/+12V.

5.12 Frequency/Voltage Control

This section is to control the CPU frequency and Supply Voltage, DIMM Overvoltage and AGP
voltage.

 CPU Clock Ratio

Use this item to select the CPU’s frequency.

 Auto Detect PCI Clk

The enabled item can automatically disable the clock source for a PCI slot without a module, to
reduce EMI (ElectroMagnetic Interference).

 Spread Spectrum

If spread spectrum is enabled, EMI (ElectroMagnetic Interference) generated by the system
can be significantly reduced.

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52 PHOENIX-AWARD BIOS Utility

5.13 Load Fail-Safe Defaults

When you press <Enter> on this item you get a confirmation dialog box with a message similar
to:
Load Fail-Safe Defaults (Y/N)? N
Pressing “Y” loads the default values that are factory settings for optimal performance system
operations

5.14 Load Optimized Defaults

When you press <Enter> on this item you get a confirmation dialog box with a message similar
to:
Load Optimized Defaults (Y/N)? N

Pressing “Y” loads the default values that are factory settings for optimal performance system

operations

5.15 Set Supervisor/User Password

You can set a supervisor or user password, or both of them. The differences between them
are:

1. Supervisor password: You can enter and change the options on the setup menu.

2. User password: You can just enter, but have no right to change the options on the setup

menu.

When you select this function, the following message will appear at the center of the screen to
assist you in creating a password.

ENTER PASSWORD

Type a maximum eight-character password, and press <Enter>. This typed password will clear
previously entered password from the CMOS memory. You will be asked to confirm this
password. Type this password again and press <Enter>. You may also press <Esc> to abort
this selection and not enter a password.
To disable the password, just press <Enter> when you are prompted to enter a password. A
message will confirm the password is getting disabled. Once the password is disabled, the
system will boot and you can enter Setup freely.

PASSWORD DISABLED

When a password is enabled, you have to type it every time you enter the Setup. It prevents
any unauthorized persons from changing your system configuration.
Additionally, when a password is enabled, you can also require the BIOS to request a
password every time the system reboots. This would prevent unauthorized use of your
computer.

You decide when the password is required for the BIOS Features Setup Menu and its Security
option. If the Security option is set to “System”, the password is required during booting up and
entry into the Setup; if it is set as “Setup”, a prompt will only appear before entering the Setup.

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PHOENIX-AWARD BIOS Utility 53

5.16 Save & Exit Setup

Pressing <Enter> on this item asks for confirmation:

Save to CMOS and EXIT (Y/N)? Y

Pressing “Y” stores the selections made in the menus in CMOS – a special section of memory
that stays on after you turn your system off. The next time you boot your computer, the BIOS
configures your system according to the Setup selections stored in CMOS. After saving the
values the system is restarted again.

5.17 Exit Without Saving

Pressing <Enter> on this item asks for confirmation:

Quit without saving (Y/N)? Y

This allows you to exit Setup without storing in CMOS any change. The previous selections
remain in effect. This exits the Setup utility and restarts your compute.

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54 PHOENIX-AWARD BIOS Utility

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SHB100 LGA775 SBC User’s Manual

Installation of Drivers 55

Chapter 6

Installation of Drivers

The device drivers are located on the Product Information CD-ROM that comes with the
SHB100 Series package. The auto-run function of drivers will guide you to install the utilities
and device drivers under a Windows system. You can follow the onscreen instructions to install
these devices:

 VGA
 LAN

6.1 Installing VGA Driver

6.1.1 Introduction

The GMCH provides interfaces to a progressive scan analog monitor.

 The GMCH has an integrated 350 MHz RAMDAC that can directly drive a

progressive scan analog monitor up to a resolution of 2048x1536 at 75 Hz.

6.1.2 Driver Disks’ Contents

The driver diskettes that come with the SHB100 Series package contains the following
installation programs:

 Win2000 driver
 WinXP driver

6.1.3 Windows 2000 VGA Driver Installation

To install or upgrade the DirectX driver

Microsoft DirectX 8.0a must be installed prior to installing the video driver support on the
SHB100 Series.

If you’ve installed a retail version of Windows 2000 you’ll need to install Microsoft DirectX

8.0a. This file can be download from

http://www.microsoft.com/windows/directx/default.asp

To install video support

If you have installed retail Windows you need to install the video driver. The driver is
contained in the \SHB100\Drivers\VGA subdirectory on the dirvers CD.

To install or upgrade the Intel 945G video driver:

1. Run SETUP.EXE from the driver directory on your drivers CD

2. Follow the onscreen directions to complete installation.

3. There may be messages about the driver not having a digital signature, select Yes
to all these message boxes.

4. Upon successful completion you will be asked to reboot your computer, choose

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56 Installation of Drivers

“Yes, I want to restart my computer now” if you have no other drivers to install.

Otherwise, choose “No, I will restart my computer later” and continue to next step.

6.1.4 Windows XP VGA Driver Installation

To install video support

If you have installed retail Windows you need to install the video driver. The driver is
contained in the \SHB100\Drivers\VGA subdirectory on the dirvers CD.

To install or upgrade the video driver:

1. Run SETUP.EXE from the video driver directory.

2. Follow the onscreen directions to complete the installation.

3. At the end you will be asked to reboot the PC. Choose YES and press FINISH to
exit the video driver installation

6.2 Installing LAN Driver

6.2.1 Introduction

The SHB100 was built-in high performance Plug and Play Ethernet interface which is
fully compliant with the IEEE 802.3 standard, and consisting of the RJ-45 connector

Features

 10/100/1000BAS E-T Tri ple-speed MA C
 PC I-E ho st int erface
 St and ards comp lia nt WOL

6.2.3 Drivers Supported

The onboard LAN Chip for SHB100 Ethernet interface allows great flexibility to work with
all major networking operating systems including Windows 2000, XP, Linux 2.2, 2.4,
Netware, Solaris x86 and UNIX.

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Watchdog Timer 57

Appendix A

Watchdog Timer

Please follow the below WDT process for setup the WDT function.

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58 Watchdog Timer

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PCI IRQ Routing 59

Appendix B

PCI IRQ Routing

Digital I/O Software Programming

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

On Board Device IRQ Routing

Device

ID

Slot

Int

PCI-ISA Bridge

22 4

Mini-PCI 1

26 5 CD

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Memory Mapping 61

Appendix C

Memory Mapping

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62 Memory Mapping

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