BOSER BBS

BBS-1080S
19” 1U Height Half-size Bare Bone System
with Pentium 4 Embedded Engine Board
& 180W P4 ATX P/S
•19” 1U Height Half-size Rackmount Chassis•
•HS-4701 Embedded Engine Board•
•Celeron 2GHz CPU•128MB DDR•
•BS-667 Capture Card•3.5” 80G HDD•
•180W P4 ATX Power Supply•
C
Cooppyyrriigghhtt D
Diissccllaaiim
meerrss
The accuracy of contents in this manual has passed thorough checking and review
before publishing. BOSER Technology Co., Ltd., the manufacturer and publisher, is
not liable for any infringements of patents or other rights resulting from its use. The
manufacturer will not be responsible for any direct, indirect, special, incidental
or consequential damages arising from the use of this product or
documentation, even if advised of the possibility of such damage(s).
This manual is copyrighted and BOSER Technology Co., Ltd. reserves all
documentation rights. Unauthorized reproduction, transmission, translation,
and storage of any form and means (i.e., electronic, mechanical, photocopying,
recording) of this document, in whole or partly, is prohibited, unless granted
permission by BOSER Technology Co., Ltd.
BOSER Technology Co., Ltd. reserves the right to change or improve the
contents of this document without due notice. BOSER Technology Co., Ltd.
assumes no responsibility for any errors or omissions that may appear in this
manual, nor does it make any commitment to update the information contained
herein.
TTrraaddeem
maarrkkss
BOSER is a registered trademark of BOSER Technology Co., Ltd.
ISB is a registered trademark of BOSER Technology Co., Ltd.
Intel is a registered trademark of Intel Corporation.
Award is a registered trademark of Award Software, Inc.
AMI is a registered trademark of American Megatrends, Inc.
All other trademarks, products and or product names mentioned herein are
mentioned for identification purposes only, and may be trademarks and/or
registered trademarks of their respective companies or owners.
© Copyright 2003 BOSER Technology Co., Ltd.
All Rights Reserved.
Edition 1.1, November 28, 2003
Table of Contents
Chapter 1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
General Description…………………...1
Hardware Features ........................................................... 2
System Features............................................................... 2
Relay Specifications ........................................................ 2
Hardware Specifications.................................................. 3
Software Functions .......................................................... 3
Dimensions ....................................................................... 5
I/O Outlets ......................................................................... 5
Chapter 2
Unpacking……………………………..7
2.1 Opening the Delivery Package........................................ 7
2.2 Inspection.......................................................................... 7
Chapter 3
3.1
3.2
3.3
3.4
Chapter 4
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
4.10
4.11
4.12
4.13
4.14
4.15
4.16
4.17
4.18
Hardware Installation………………...9
Open the Cover................................................................. 9
Close the Cover .............................................................. 10
HDD and PCI Card Setup ............................................... 10
A-1048 Expansion Card Setup ...................................... 13
SBC Hardware Installation…………17
Before Installation .......................................................... 17
Board Layout .................................................................. 18
Jumper List ..................................................................... 19
Connector List ................................................................ 19
Configuring the CPU ...................................................... 20
System Memory .............................................................. 20
VGA Controller................................................................ 20
PCI E-IDE Drive Connector............................................ 22
Floppy Disk Drive Connector ........................................ 24
Serial Port Connectors .................................................. 25
Parallel Connector.......................................................... 26
Ethernet Connector ........................................................ 27
USB Connector ............................................................... 27
CMOS Data Clear ............................................................ 28
Power and Fan Connectors........................................... 28
Keyboard/Mouse Connectors ....................................... 29
System Front Panel Connectors................................... 29
External Speaker ............................................................ 30
4.19
4.20
4.21
4.22
4.23
Audio Connectors .......................................................... 30
Digital Input/Output ........................................................ 31
TV Out Function.............................................................. 32
Mini AGP Connector ...................................................... 32
PCI Expansion Slot ........................................................ 32
Chapter 5
Award BIOS Setup…………………..33
5.1 Starting Setup ................................................................. 33
5.2 Using Setup..................................................................... 34
5.2.1 Getting Help .............................................................................................34
5.3 Main Menu ....................................................................... 35
5.4 Standard CMOS Setup ................................................... 36
5.5 Advanced CMOS Setup ................................................. 37
5.6 Advanced Chipset Setup ............................................... 38
5.7 Power Management Setup............................................. 39
5.8 PCI / Plug and Play Setup.............................................. 40
5.9 Peripheral Setup............................................................. 41
5.10 PC Health Status............................................................. 42
5.11 Frequency/Voltage Control ........................................... 42
Chapter 6
Software Utilities…………………….43
6.1 IDE Driver Installation .................................................... 43
6.1.1 Installing Intel Chipset Software Utility ...................................43
6.1.2 Installing Intel Application Accelerator...................................46
6.2 VGA Driver Installation .................................................. 49
6.2.1 Win 98.........................................................................................................49
6.2.2 Win NT .........................................................................................................52
6.2.3 Win 2000 .................................................................................................. 55
6.3 LAN Driver Installation................................................... 58
6.3.1 Win 95/98................................................................................................ 58
6.3.2 Win NT ......................................................................................................... 61
6.4 Audio Driver Installation................................................ 67
Appendix A Power Supply……………………….71
A.1 Safety Approvals ............................................................ 71
A.1.1 EMI Regulatory ............................................................................................71
A.1.2 Safety ..............................................................................................................71
A.2 Physical Requirements.................................................. 72
A.2.1 Mechanical Specifications ................................................................ 72
A.2.2 Connector Specifications................................................................... 72
A.2.3 Connector PIN Designations ............................................................. 72
A.3 Electrical Requirements .................................................. 73
A.4 Environmental Requirements ......................................... 76
A.5 Safety ................................................................................ 77
A.6 Electormagnetic Compatibility ....................................... 77
A.7 Labeling ............................................................................ 77
A.8 Reliability .......................................................................... 77
A.9 Safety Requirements ....................................................... 78
A.10 Dimensions ..................................................................... 78
Appendix B Capture Card……………………….79
B.1
B.2
B.3
B.4
B.5
B.6
B.7
Features........................................................................... 79
Frame Rate ...................................................................... 79
Image Acquisition........................................................... 80
I/O Lines .......................................................................... 80
Watchdog Timer ............................................................. 80
Applications .................................................................... 80
Software Supporting WDM Driver................................. 80
SSaaffeettyy IInnssttrruuccttiioonnss
Before getting started, read the following important cautions.
1. The BBS-1080S does not come equipped with an operating
system. An operating system must be loaded first before installing
any software into the computer.
2. Be sure to ground yourself to prevent static charge when installing
the internal components. Use a grounding wrist strap and place all
electronic components in any static-shielded devices. Most
electronic components are sensitive to static electrical charge.
3. Disconnect the power core from the BBS-1080S before making any
installation. Be sure both the system and the external devices are
turned OFF. Sudden surge of power could ruin sensitive
components. Make sure the BBS-1080S is properly grounded.
4. The brightness of the flat panel display decreases with usage.
However, hours of use vary depending on the application
environment.
5. The flat panel display is not susceptible to shock or vibration. When
assembling the BBS-1080S, make sure it is securely installed.
6. Do not open the system’s back cover. If opening the cover for
maintenance is a must, only a trained technician is allowed to do
so. Integrated circuits on computer boards are sensitive to static
electricity. To avoid damaging chips from electrostatic discharge,
observe the following precautions:
Before handling a board or integrated circuit, touch an unpainted
portion of the system unit chassis for a few seconds. This will help
to discharge any static electricity on your body.
When handling boards and components, wear a wrist-grounding
strap, available from most electronic component stores.
SSaaffeettyy A
Apppprroovvaallss
CE Marking
FCC
FCC Compliance
This equipment has been tested and complies with the limits for a Class
B digital device, pursuant to Part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference
in a residential installation. If not installed and used in accordance with
proper instructions, this equipment might generate or radiate radio
frequency energy and cause harmful interference to radio
communications. However, there is no guarantee that interference will
not occur in a particular installation. If this equipment does cause
harmful interference to radio or television reception, which can be
determined by turning the equipment off and on, the user is
encouraged to try to correct the interference by one or more of the
following measurers:
1. Reorient or relocate the receiving antenna.
2. Increase the separation between the equipment and receiver.
3. Connect the equipment into an outlet on a circuit different from
that to which the receiver is connected.
4. Consult the dealer or an experienced radio/TV technician for
help.
5. Shielded interface cables must be used in order to comply with
emission limits.
Chapter 1
General Description
Enclosed in a 19” 1U height half-size chassis structure, the physical
appearance of the BBS-1080S may seem to be identical to a
high-powered DC power supply, but do not let its physical attributes
mislead you. This bare bone houses a semi-functional system based
on the HS-4701 SBC that supports Pentium 4 CPU.
Powered by an 180W ATX power supply, the BBS-1080S’s front panel
incorporates various six LEDs, and back panel provides connectors for
VGA, LAN, 4COM, audio, capture in, USB, I/O module, keyboard and
mouse for user can friendly connections. The chassis can also
accommodate one 3.5” 80G HDD and four channels real-time capture
card.
1
1.1
Hardware Features
The BBS-1080S comes with the following hardware features:
Built-in Celeron 2GHz CPU, 128MB DDR, 180W P4 ATX power
supply
®
Intel 82845GE/82801DB system chipset
Intel 82845GE CRT display controller
Intel 82562 10/100 Based LAN
AC97 3D audio controller
Four COM, two USB2.0 connectors
Four channels real-time video capture in
One 3.5” 80G HDD
Two 4cm ball bearing cooling fans (optional)
Supports I/O module function
1.2
System Features
The BBS-1080S comes with the following system features:
Operation System: Embedded Linux
Four Video input connectors (BNC)
Total Frame Rate: 120fps(NTSC) or 100fps(PAL)
Video Compression: MPEG4 with high video quality and low data
rate
Video Data Rate: 40k~500kbps channel at full frame rate
Audio Compression: GSM
Audio Data Rate: 12kbp at 8k sample rate
Video and audio synchronizes recording & playback
Embedded HTTP server for web access
1.3
Relay Specifications
Contact Capacity:
NO:
10A at 125VAC
5A at 250VAC
5A at 30VDC
5A at 125VAC
NC:
3A at 250VAC
2
1.4
Hardware Specifications
System Board: HS-4701 industrial Embedded engine board
CPU: P4 Celeron 2GHz CPU (400FSB)
Memory: Two DDR sockets supporting up to 2GB
Chipset: Intel® 82845GE/82801DB
VGA: Intel® 82845GE with 1MB or 8MB memory supporting CRT
display up to 1280 x 1024 at 32-bit colors
Capture: BS-667 four channels real-time capture card
LAN: Intel® 82562 10/100 Based LAN
Audio: AC97 3D audio controller
I/O Module: 8-bit digital input and 4-bit relay output
FDD/HDD/CD-ROM: One 3.5” 80G HDD
Serial Port: One RS-232/422/485 and three RS-232, OR four RS-232
USB: Two USB2.0 connectors
Keyboard: PS/2 6-pin Mini DIN
Mouse: PS/2 6-pin Mini DIN
Watchdog Timer: Software program time-out intervals from 1~256 sec.
Thermal Solution: Two 4cm ball bearing cooling fans (optional)
Power Supply: 180W P4 ATX power supply
Dimensions/Weight: 44.0 x 4.4 x 27.0 cm/7kgs.
1.5
Software Functions
Recording
◆ Time Scheduled: Multiple schedules per camera
◆ Triggered: Motion alarm can trigger multiple camera recording and
output reaction, such as turn on the siren. OR any sensor
alarm can trigger multiple camera recordings and output
reaction
◆ On-demand: From local GUI or web page
◆ Pre-alarm & post alarm recording
Replay
◆ Replay on local GUI, web page, or while recording
PTZ Camera Control
◆ Supports the PTZ control on local GUI or web pages
Internet Connection
◆ Ethernet for ADSL or cable modem (TCP/IP)
◆ RS-232C with external modem (PPP) can dial-out or dial-in
3
Digital Input
◆ Any input can be assigned with multiple alarm reactions which can be
a camera recording or a relay output
Replay Output
◆ Reaction Control: Triggered by sensor alarm or motion detection
alarm
◆ Time Scheduled Control: Any replay output can be assigned with
multiple schedules to control the external
equipment
Alarm Forwarding
◆ Send the e-mail with video clip or few images when there is an alarm
◆ Send the SMS and MMS when there is alarm
Web Page Operation
◆ Access live video (one or four video at a time)
◆ Browse the alarm list or the recording list and play the selected
recording
◆ Download any of recordings
◆ Check the I/O point status
◆ Execute the output and PTZ control
◆ Configure and reboot the DVR
Supported Web Browser
◆ IE 5.5 or above for PC
◆ IE for PDA (Pocket PC system)
Requirement of PC Client
◆ Windows 98/NT/2000 or XP with IE browser 5.5 or above
◆ DirectX, latest version
◆ Multimedia Player 8.0 or above
4
1.6
Dimensions
The BBS-1080S chassis size is shown below:
1.7
I/O Outlets
The following figure shows the I/O arrangement of the BBS-1080S.
5
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6
Chapter 2
Unpacking
2.1
Opening the Delivery Package
The BBS-1080S is packed in an anti-static bag. The board has
components that are easily damaged by static electricity. Do not
remove the anti-static wrapping until proper precautions have been
taken. Safety Instructions in front of this manual describe anti-static
precautions and procedures.
2.2
Inspection
After unpacking the board, place it on a raised surface and carefully
inspect the board for any damage that might have occurred during
shipment. Ground the board and exercise extreme care to prevent
damage to the board from static electricity.
Integrated circuits will sometimes come out of their sockets during
shipment. Examine all integrated circuits, particularly the BIOS,
processor, memory modules, ROM-Disk, and keyboard controller chip
to ensure that they are firmly seated. The BBS-1080S delivery package
contains the following items:
BBS-1080S Bare Bone System x 1
AC Power Core x 1
Utility Disc
User’s Manual
The BBS-1080S system along with its accessories is packed in several
bags and boxes, all packed in one carton. Before you start, carefully
read the safety instructions in front of this User’s Manual.
It is recommended that you keep all the parts of the delivery package
intact and store them in a safe/dry place for any unforeseen event
requiring the return shipment of the product. In case you discover any
missing and/or damaged items from the list of items, please contact
your dealer immediately.
7
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8
Chapter 3
Hardware Installation
This chapter tells how to install components into the Bare Bone system.
External Interface please refers to SBC’s manual.
3.1
1.
Open the Cover
Please loose 3 screws, and open the cover
9
3.2
1.
Close the Cover
Please slide in the cover, and tighten screws.
3.3
HDD and PCI Card Setup
1. Assemble HDD and its seat with 4 screws.
10
2. Place the whole HDD set on the chassis.
3. Insert PCI card to PCI extension slot, and fix it with a screw.
11
4. Screw the PCI stopper on the chassis
5. Completed assembly of HDD & PCI card as the following picture.
12
3.4
A-1048 Expansion Card Setup
LANC1
LANC2
TTX-
2
4
6
8
10
1
3
5
7
9
SPEEDLED
TTX+
LILED
RRXLANC1
LANC2
TTX-
RRX-
2
4
6
8
10
ACTLED
VCC
RRX+
ACTLED
SPEEDLED
TTX+
LILED
1
3
5
7
9
VCC
PIN Description PIN Description
RRX+
CN1: Internal LAN Connector (5x2 Header)
CN2: RJ-45 Connector
CN3: Internal Serial Port Connector (10x2 Header)
PIN Description PIN Description
1
3
5
7
9
11
13
15
17
19
DCD1
RXD1
TXD1
DTR1
GND
DCD2
RXD2
TXD2
DTR2
GND
2
4
6
8
10
12
14
16
18
20
DSR1
RTS1
CTS1
RI1
N/C
DSR2
RTS2
CTS2
RI2
N/C
1
2
DCD1
DSR1
RXD1
RTS1
TXD1
CTS1
DTR1
RI1
GND
N/C
DCD2
DSR2
RXD2
RTS2
TXD2
CTS2
DTR2
RI2
N/C
GND
19
20
CN4: Dual Serial Port Connector (DB9)
13
CN6: Internal MIC In/Audio Out Connector
PIN
Description
PIN
Description
1
3
5
7
AOUT_L
GND
MIC_IN
GND
2
4
6
8
AOUT_R
GND
N/C
GND
2
8
1
7
CN7: Internal CRT Connector (8x2 Header)
PIN Description PIN Description
1
3
5
7
9
11
13
15
Red
Green
Blue
GND
GND
GND
GND
GND
2
4
6
8
10
12
14
16
GND
GND
GND
DDCDTA
HSYNC
VSYNC
DDCK
N/C
Red
1
2
GND
Green
GND
Blue
GND
GND
DDCDTA
GND
HSYNC
GND
VSYNC
GND
DDCK
16 N/C
GND 15
CN8: CRT Connector + Audio Jack Connector
CN9: Internal Audio In Connector
PIN Description PIN Description
GND
IN_L
4
CN10: PS/2 6-pin Mini DIN Mouse Connector
CN11: PS/2 6-pin Mini DIN Keyboard Connector
14
1
KB_CLK
KB_DATA
VCC
MS_DATA
MS_CLK
KB_DATA
KB_CLK
MS_CLK
Description
1
2
3
4
5
MS_DATA
PIN
VCC
CN12: Internal KB/MS Connector
5
IN_L
1
GND
2
4
GND
IN_R
GND
IN_R
1
3
GND
USBD1+
2
8
1
7
GND
USBV1
USBD1USBD1+
GND
USBD0+
2
4
6
8
USBV0
USBV0
USBD0USBD0+
GND
USBD0-
1
3
5
7
USBV1
PIN Description PIN Description
USBD1-
CN13: Internal USB Connector
CN14: Dual USB Connector
15
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16
Chapter 4
SBC Hardware Installation
This chapter provides the information on how to install the hardware
using the HS-4701.
4.1
Before Installation
After confirming your package contents, you are now ready to install
your hardware. The following are important reminders and steps to take
before you begin with your installation process.
1.
Make sure that all jumper settings match their default settings
and CMOS setup correctly. Refer to the sections on this chapter
for the default settings of each jumper.
2.
Go through the connections of all external devices and make
sure that they are installed properly and configured correctly
within the CMOS setup. Refer to the sections on this chapter for
the detailed information on the connectors.
3.
Keep the manual and diskette in good condition for future
reference and use.
4.
Make sure your power supply is using for P4 only. One of 4-pin
connector is for +12V lead which should connect to PW2 and
20-pin ATX connector to PW1.
17
4.2
18
Board Layout
4.3
Jumper List
Jumper
Default Setting
Setting
Page
JP1
JP2
J3
Bus Clock Rate Select: Auto Detect
Clear CMOS: Normal Operation
Only for Debug
Use RS-232 or RS-422/485 Select:
RS-232
Short 1-2
Short 1-2
---Short 1-3, 2-4,
7-9, 8-10
20
28
----
J6
4.4
25
Connector List
Connector
CN1
CD2
CN2
CN3
CN4
CN5
CN6
CN7
CN8
CN9
CN10
CN11
CN12
CN13
CN14
DM1/DM2
FDC1
FN1/FN2/FN3
IDE1/IDE2
J1
J2
J4
J5
J7
PW1
PW2
PCI1
KB1
LPT1
USB1/USB2
Definition
MIC In/Audio Out Connector
Line In Connector
External Speaker Connector
HDD LED Connector
2-pin ATX Power On/Off Switch
Reset Connector
Green LED Connector
Digital I/O Connector
Internal LAN Connector
RS-422/485 Connector
Internal CRT Connector
COM 1 Connector
COM 2 Connector
COM 3 Connector
COM 4 Connector
188-pin DDR Sockets
FDD Connector
Fan Connectors
IDE Connectors
Inverter Power Connector
TV-Out Connector
LVDS Connector
LVDS Connector
Mini AGP Connector
20-pin ATX Connector
4-pin ATX Connector
PCI Expansion Slot
8-pin KB/MS Connector
Parallel Connector
USB Connectors
Page
30
30
30
29
28
29
29
31
27
25
20
25
25
25
25
20
24
28
22
20
31
20
20
31
28
28
31
29
26
27
19
4.5
Configuring the CPU
The HS-4701 offers the convenience in CPU installation with its
auto-detect feature. After installing a new microprocessor onboard, the
HS-4701 automatically identifies the frequency and clock speed of the
installed microprocessor chip, thereby eliminating the need for user to
do additional CPU configuration or hardware settings related to it.
JP1: Bus Clock Rate Select
4.6
Options
Settings
Auto Detect (default)
100MHz
133MHz
Short 1-2
Short 2-3
Empty
1
3
System Memory
The HS-4701 provides two DDR sockets at locations DM1 and DM2.
The maximum capacity of the onboard memory is 2GB.
4.7
VGA Controller
NOTE 1: HS-4701 does not support DSTN/STN Panel.
NOTE 2: HS-4701 does not support 640*480 TFT Panel.
NOTE 3: There are specific panel cable and inverter for each different LCD.
If clients need for others LCD (different from TOSHIBA
LTM10C348F), please contact with your sales.
The onboard Intel 82845GE with 1MB or 8MB memory supporting CRT
display up to 1280 x 1024 at 32-bit colors. The HS-4701 provides two
connection methods of CRT and LVDS Panel device. CN10 offers an
internal CRT connector, and J4, J5 offer two LVDS Panel connectors.
20
CN10: Internal CRT Connector
PIN Description PIN Description
1
3
5
7
9
11
13
15
Red
Green
Blue
GND
GND
GND
GND
GND
2
4
6
8
10
12
14
16
GND
GND
GND
DDCDTA
HSYNC
VSYNC
DDCK
N/C
Red
1
2
GND
Green
GND
Blue
GND
GND
DDCDTA
GND
HSYNC
GND
VSYNC
GND
DDCK
16 N/C
GND 15
J1: Inverter Connector
GND
ENAVDD
VCC5
ENABKL
VCC12
VCC12
VCC5
ENABKL
ENAVDD
GND
VCC12
1
2
3
4
5
5
VCC12
PIN. Description
1
6
J4: LVDS Connector
A7P
CLK2P
A6P
A5P
A4P
A7M
A6M
CLK2M
A5M
13
A2P
14
1
A1P
2
A4M
VCC3
GND
A4P
A5P
A6P
CLK2P
A7P
GND
2
4
6
8
10
12
14
GND
VCC3
GND
A4M
A5M
A6M
CLK2M
A7M
VCC3
1
3
5
7
9
11
13
VCC3
PIN Description PIN Description
J5: LVDS Connector
A3P
CLK1P
A0P
GND
A3M
13
CLK1M
14
1
A2M
2
A1M
VCC3
GND
A0P
A1P
A2P
CLK1P
A3P
A0M
2
4
6
8
10
12
14
GND
VCC3
GND
A0M
A1M
A2M
CLK1M
A3M
VCC3
1
3
5
7
9
11
13
VCC3
PIN Description PIN Description
21
4.8
PCI E-IDE Drive Connector
IDE1 and IDE2 are standard 40-pin connector daisy-chain driver
connector serves the PCI E-IDE drive provisions onboard the HS-4701.
A maximum of four ATA/33/66/100 IDE drives can connect to the
HS-4701 via IDE1 and IDE2.
IDE1: Primary IDE Connector
GND
PDCS#3
PDA2
P66DET
N/C
GND
GND
GND
’
N/C
PDD15
PDD14
PDD13
PDD12
GND
470Ω Pull GND
IDEACTP#
PDCS#1
PDA0
PDA1
IRQ14
PDDACK#
PIORDY
PDIOR#
PDIOW#
PDREQ
GND
PDD0
PDD1
PDD2
PDD3
PDD4
39
PDD5
1
PDD6
40
PDD7
2
IDERST#
22
PDD11
GND
PDD8
PDD9
PDD10
PDD11
PDD12
PDD13
PDD14
PDD15
N/C
GND
GND
GND
470Ω Pull GND
GND
N/C
P66DET
PDA2
PDCS#3
GND
PDD10
Description
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PDD9
PIN
IDERST#
PDD7
PDD6
PDD5
PDD4
PDD3
PDD2
PDD1
PDD0
GND
PDREQ
PDIOW#
PDIOR#
PIORDY
PDDACK#
IRQ14
PDA1
PDA0
PDCS#1
IDEACTP#
PDD8
Description
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
GND
PIN
IDE2: Secondary IDE Connector
GND
SDCS#3
SDA2
S66DET
N/C
GND
470Ω Pull GND
GND
GND
GND
’
N/C
SDD15
SDD14
SDD13
SDD12
SDD11
GND
SDD8
SDD9
SDD10
SDD11
SDD12
SDD13
SDD14
SDD15
N/C
GND
GND
GND
470Ω Pull GND
GND
N/C
S66DET
SDA2
SDCS#3
GND
SDD10
Description
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
SDD9
PIN
IDERST#
SDD7
SDD6
SDD5
SDD4
SDD3
SDD2
SDD1
SDD0
GND
SDREQ
SDIOW#
SDIOR#
SIORDY
SDDACK#
IRQ15
SDA1
SDA0
SDCS#1
IDEACTP#
SDD8
Description
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
GND
PIN
IDEACTP#
SDCS#1
SDA0
SDA1
IRQ15
SDDACK#
SIORDY
SDIOR#
SDIOW#
SDREQ
GND
SDD0
SDD1
SDD2
SDD3
SDD4
SDD5
39
SDD6
1
SDD7
40
IDERST#
2
23
4.9
Floppy Disk Drive Connector
The HS-4701 uses a standard 34-pin header connector, FDC1, for
floppy disk drive connection. A total of two FDD drives may be
connected to FDC at any given time.
FDC1: FDD Connector
DSKCHG#
HEAD#
RDATA#
WP#
TRACK0#
WE#
WD#
’
STEP#
DIR#
MOB#
DSA#
DSB#
MOA#
RWC#
N/C
DS1#
Index#
MOA#
DSB#
DSA#
MOB#
DIR#
STEP#
WD#
WE#
TRACK0#
WP#
RDATA#
HEAD#
DSKCHG#
INDEX#
Description
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
DS1#
PIN
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
N/C
GND
N/C
N/C
Description
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
RWC#
PIN
24
N/C
GND
N/C
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
33
GND
1
GND
34
GND
2
4.10 Serial Port Connectors
The HS-4701 offers two NS16C550 compatible UARTs with
Read/Receive 16-byte FIFO serial ports and four internal 10-pin
headers. There is one RS-422/485 connector.
CN11~CN14: COM1~COM4 Connectors (5x2 Header)
PIN Description PIN Description
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
DCD0
RXDD0
TXDD0
DTR0
GND
DCD1
RXDD1
TXDD1
DTR1
GND
DCD2
RXDD2
TXDD2
DTR2
GND
DCD3
RXDD3
TXDD3
DTR3
GND
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
DSR0
RTS0
CTS0
RI0
N/C
DSR1
RTS1
CTS1
RI1
N/C
DSR2
RTS2
CTS2
RI2
N/C
DSR3
RTS3
CTS3
RI3
N/C
1
2
DCD0
DSR0
RXDD0
RTS0
TXDD0
CTS0
DTR0
COM1
RI0
GND
N/C
DCD1
DSR1
RXDD1
RTS1
TXDD1
CTS1
DTR1
RI1
GND
N/C
DCD2
DSR2
RXDD2
RTS2
TXDD2
CTS2
DTR2
COM2
COM3
RI2
GND
N/C
DCD3
DSR3
RXDD3
RTS3
TXDD3
CTS3
DTR3
COM4
RI3
GND
N/C
39 40
CN9: RS-422/485 Connector
PIN
1
3
5
7
9
Description PIN Description
TXRX+
GND
RTS+
CTS-
2
4
6
8
10
TX+
RXRTSCTS+
N/C
TX- 1
2 TX+
RX+ 3
4 RX-
GND
5
RTS+
7
6 RTS8 CTS+
CTS-
9
10 N/C
25
J6: Use RS-232 or RS-422/485 Select
Options
Settings
RS-232 (default)
RS-422/485
Short 1-3, 2-4, 7-9, 8-10
Short 3-5, 4-6, 9-11, 10-12
1
2
11 12
4.11 Parallel Connector
LPT1 is a standard 26-pin flat cable connector deigned to
accommodate parallel port connection onboard the HS-4701.
LPT1: Parallel Connector
GND
GND
GND
GND
GND
GND
GND
N/C
Printer Select
Paper empty
Busy
Acknowledge
PDR7
PDR6
PDR5
PDR4
PDR3
13
PDR2
1
PDR1
26
PDR0
14
STB#
26
GND
AFD#
ERR#
INIT#
SLIN#
GND
GND
GND
GND
GND
GND
GND
GND
N/C
SLIN#
Description
14
15
16
17
18
19
20
21
22
23
24
25
26
INIT#
PIN
STB#
PDR0
PDR1
PDR2
PDR3
PDR4
PDR5
PDR6
PDR7
Acknowledge
Busy
Paper Empty
Printer Select
ERR#
Description
1
2
3
4
5
6
7
8
9
10
11
12
13
AFD#
PIN
4.12 Ethernet Connector
The HS-4701 has Intel® 82562 10/100 Based LAN controller and
provides one 10-pin internal connector. Please refer to the following for
its pin information.
LANC2
TTX-
4
6
8
10
1
3
5
7
9
TTX+
LANC1
2
SPLED#
LILED#
RRXLANC1
LANC2
TTX-
RRX-
2
4
6
8
10
RRX+
3.3VSTBY
RRX+
ACTLED#
SPLED#
TTX+
ACTLED#
1
3
5
7
9
LILED#
PIN Description PIN Description
3.3VSTBY
CN8: LAN Connector (Intel 82562)
4.13 USB Connector
The HS-4701 provides four USB ports, at locations USB1 and USB2,
for four USB connections to the HS-4701.
USB1: USB Connector
PIN Description PIN Description
1
3
5
7
VCC
USBP0N
USBP0P
GND
2
4
6
8
VCC
USBP1N
USBP1P
GND
1
2
VCC
VCC
USBP0N
USBP1N
USBP0P
USBP1P
GND
GND
7
8
1
2
USB2: USB Connector
PIN Description PIN Description
1
3
5
7
VCC
USBP2N
USBP2P
GND
2
4
6
8
VCC
USBP3N
USBP3P
GND
VCC
VCC
USBP2N
USBP3N
USBP2P
USBP3P
GND
GND
7
8
27
4.14 CMOS Data Clear
The HS-4701 has a Clear CMOS jumper on JP2.
JP2: Clear CMOS
Settings
RTCRST#
Short 2-3
3
GND
1
Short 1-2
Battery
Options
Normal Operation
(default)
Clear CMOS
IMPORTANT: Before you turn on the power of your system, please
set JP2 to short 1-2 for normal operation.
4.15 Power and Fan Connectors
HS-4701 provides one 20-pin and one 4-pin ATX power connectors at
PW1 and PW2.
HS-4701 must using P4 power supply. One of 4-pin connector is for
+12V lead which should connect to PW2.
20-pin ATX Power Connector can connect to Backplane or to PW1.
PW2: 4-pin ATX Power In Connector
PIN Description PIN Description
1
3
GND
+12V
2
4
GND
+12V
1
2
3
4
PW1: 20-pin ATX Power In Connector
PIN Description PIN Description
1
2
3
4
5
6
7
8
9
10
28
+3.3V
+3.3V
GND
+5V
GND
+5V
GND
PWROK
5VSB
+12V
11
12
13
14
15
16
17
18
19
20
+3.3V
-12V
GND
PS_ON
GND
GND
GND
-5V
+5V
+5V
10
20
1
11
CN4: 2-pin ATX Power On/Off Switch
PIN
Description
1
2
5VSTBY
Power On/Off
1
2
Connector FN1, FN2 and FN3 onboard HS-4701 are 3-pin fan
connectors.
Description
1
2
3
GND
+12V
Fan Speed
GND
+12V
Fan Speed
3
PIN
1
FN1, FN2 and FN3: Fan Connectors
4.16 Keyboard/Mouse Connectors
The HS-4701 offers one possibility for keyboard/mouse connection is
via KB1.
1
KB_CLK
KB_DATA
VCC
GND
MS_CLK
GND
VCC
MS_DATA
MS_CLK
GND
VCC
KB_DATA
KB_CLK
MS_DATA
Description
1
2
3
4
5
6
7
8
GND
PIN
VCC
KB1: 8-pin Keyboard/Mouse Connector
8
4.17 System Front Panel Connectors
The HS-4701 has one LED at location CN3 that indicates the HDD
status.
CN3: HDD LED Connector
PIN
Description
1
2
150Ω Pull +5V
HDD ACTIVE#
CN5 is the Reset Button connector onboard. The CN6 is Green
function LED indicates.
29
Description
1
2
GND
External Reset
1
2
Ext. Reset
PIN
GND
CN5: Reset Button Connector
CN6: Green LED Connector
PIN
Description
1
2
150Ω Pull +5V
ACTIVE#
4.18 External Speaker
Aside from the buzzer at location BZ1 onboard, the HS-4701 also offers
a connector (CN2) for an external speaker connection. The table below
lists the pin assignments of CN2.
CN2: External Speaker Connector
PIN
Description
1
2
3
4
VCC
GND
GND
Speaker Signal
Speaker Signal
GND
GND
4
VCC
1
4.19 Audio Connectors
The HS-4701 has an onboard AC97 3D audio interface. The following
table list the pin assignments of the MIC In / Audio Out and Line In
connector.
CN1: MIC In / Audio Out Connector
PIN
Description
PIN
Description
1
3
5
7
AOUT_L
GND
MIC_IN
GND
2
4
6
8
AOUT_R
GND
N/C
GND
30
2
8
1
7
CD2: Line In Connector
PIN Description PIN Description
GND
IN_L
4
IN_L
1
GND
2
4
GND
IN_R
GND
IN_R
1
3
4.20 Digital Input/Output
The HS-4701 provides a CN7 connector for Digital I/O function.
CN7: Digital I/O Connector
PIN Description PIN Description
GND
DO_15
DO_14
DO_13
DO_12
DO_11
VCC5
DI_0
DI_1
DI_2
DI_3
DI_4
DI_5
DI_6
DI_7
DI_8
DI_9
DI_10
DI_11
DI_12
DI_13
DI_14
DI_15
GND
DO_10
DO_9
DO_8
DO_7
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
DO_6
DO_5
DO_4
DO_3
DO_2
DO_1
VCC5
DO_0
DO_1
DO_2
DO_3
DO_4
DO_5
DO_6
DO_7
DO_8
DO_9
DO_10
DO_11
DO_12
DO_13
DO_14
DO_15
GND
DO_0
VCC5
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
GND
DI_15
DI_14
DI_13
DI_12
DI_11
DI_10
DI_9
DI_8
DI_7
DI_6
DI_5
DI_4
DI_3
DI_2
DI_1
36
DI_0
35
2
VCC5
1
31
4.21 TV Out Function
HS-4701 can support TV-Out function which input could be up to 800 x
600 graphics resolutions. World Wide Video standards are supported
including NTSC-M (North America, Taiwan), NTSC-J (Japan), PAL-B,
D, G, H, I (Europe, Asia), PAL-M (Brazil), PAL-N (Uruguay, Paraguay)
and PAL-NC (Argentina).
J2: TV-Out Connector
PIN Description PIN Description
1
GND
2
TVCVB
4.22 Mini AGP Connector
HS-4701 provides one Mini AGP expansion slot, has at location J7, you
can use slot for expansion when necessary.
4.23 PCI Expansion Slot
HS-4701 provides one standard PCI expansion slot at PCI1.
32
Chapter 5
Award BIOS Setup
The HS-4701 uses Award BIOS for the system configuration. The
Award BIOS setup program is designed to provide the maximum
flexibility in configuring the system by offering various options that
could be selected for end-user requirements. This chapter is written to
assist you in the proper usage of these features.
5.1
Starting Setup
The Award BIOS is immediately activated when you first power on the
computer. The BIOS reads the system information contained in the
CMOS and begins the process of checking out the system and
configuring it. When it finishes, the BIOS will seek an operating system
on one of the disks and then launch and turn control over to the
operating system.
While the BIOS is in control, the Setup program can be activated in one
of two ways:
1. By pressing <Del> immediately after switching the system on, or
2. By pressing the <Del> key when the following message appears
briefly at the bottom of the screen during the POST (Power On Self
Test).
Press DEL to enter SETUP.
If the message disappears before you respond and you still wish to
enter Setup, restart the system to try again by turning it OFF then ON or
pressing the "RESET" button on the system case. You may also restart
by simultaneously pressing <Ctrl>, <Alt>, and <Delete> keys. If you do
not press the keys at the correct time and the system does not boot, an
error message will be displayed and you will again be asked to...
PRESS F1 TO CONTINUE, DEL TO ENTER SETUP
33
5.2
Using Setup
In general, you use the arrow keys to highlight items, press <Enter> to
select, use the <PageUp> and <PageDown> keys to change entries,
press <F1> for help and press <Esc> to quit. The following table
provides more detail about how to navigate in the Setup program using
the keyboard.
Up arrow
Down arrow
Left arrow
Right arrow
Esc key
PgUp key
PgDn key
+ key
- key
F1 key
(Shift)F2 key
F3 key
F4 key
F5 key
F6 key
F7 key
F8 key
F9 key
F10 key
Move to previous item
Move to next item
Move to the item in the left hand
Move to the item in the right hand
Main Menu -- Quit and not save changes into CMOS
Status Page Setup Menu and Option Page Setup Menu -Exit current page and return to Main Menu
Increase the numeric value or make changes
Decrease the numeric value or make changes
Increase the numeric value or make changes
Decrease the numeric value or make changes
General help, only for Status Page Setup Menu and Option
Page Setup Menu
Change color from total 16 colors. F2 to select color
forward, (Shift) F2 to select color backward
Calendar, only for Status Page Setup Menu
Reserved
Restore the previous CMOS value from CMOS, only for
Option Page Setup Menu
Load the default CMOS value from BIOS default table, only
for Option Page Setup Menu
Load the default
Reserved
Reserved
Save all the CMOS changes, only for Main Menu
5.2.1 Getting Help
Press F1 to pop up a small help window that describes the appropriate
keys to use and the possible selections for the highlighted item. To exit
the Help Window press <Esc> or the F1 key again.
34
5.3
Main Menu
Once you enter the Award BIOS CMOS Setup Utility, the Main Menu
will appear on the screen. The Main Menu allows you to select from
several setup functions and two exit choices. Use the arrow keys to
select among the items and press <Enter> to enter the sub-menu.
Phoenix – AwardBIOS CMOS Setup Utility
` Standard CMOS Features
` Frequency/Voltage Control
` Advanced BIOS Features
Load Fail-Safe Defaults
` Advanced Chipset Features
Load Optimized Defaults
` Integrated Peripherals
Set Supervisor Password
` Power Management Setup
Set User Password
` PnP/PCI Configurations
Save & Exit Setup
` PC Health Status
Exit Without Saving
Esc：Quit
F9：Menu in BIOS
：Select Item
F10：Save & Exit Setup
Time, Date, Hard Disk Type…
NOTE:
A brief description of the highlighted choice appears at the bottom
of the screen.
35
5.4
Standard CMOS Setup
The Standard Setup is used for the basic hardware system
configuration. The main function is for Data/Time and Floppy/Hard Disk
Drive settings. Please refer to the following screen for the setup. When
the IDE hard disk drive you are using is larger than 528MB, you must
set the HDD mode to LBA mode. Please use the IDE Setup Utility in
BIOS SETUP to install the HDD correctly.
Phoenix – AwardBIOS CMOS Setup Utility
Standard CMOS Features
Date (mm:dd:yy)
Wed, Oct 31 2001
Item Help
Time (hh:mm:ss)
10 : 32 :57
Menu Level
X IDE Primary Master
X IDE Primary Slave
X IDE Secondary Master
X IDE Secondary Slave
Change the day, month,
year and century
Drive A
Drive B
[1.44M, 3.5in.]
[None]
Video
Halt On
[EGA/VGA]
[All, But Keyboard]
Base Memory
640K
Extended Memory
65472K
Total Memory
1024K
: Select Item + / - /PU/PD: Value
F10: Save ESC: Quit
F5: Previous Values
F6: Fail-Safe Defaults F7: Optimized Defaults
36
X
F1: General Help
5.5
Advanced CMOS Setup
This section allows you to configure your system for the basic
operation. You have the opportunity to select the system’s default
speed, boot-up sequence, keyboard operation, shadowing and
security.
Phoenix – AwardBIOS CMOS Setup Utility
Advanced BIOS Features
Item Help
Virus Warning
[Disabled]
Menu Level
X
CPU L1& L2 Cache
[Enabled]
Hyper-Threading
[Enabled]
Quick Power On Self Test
[Enabled]
First Boot Device
[Floppy]
Allows you to choose
Second Boot Device
[HDD-0]
the VIRUS warning
Third Boot Device
[LS120]
feature for IDE Hard
Boot Other Device
[Enabled]
Disk boot sector
Swap Floppy Drive
[Disabled]
protection. If this
Boot Up Floppy Seek
[Enabled]
function is enabled
Boot Up Num Lock Status
[On]
and someone attempt to
Gate A20 Option
[Fast]
write data into this
Typematic Rate Setting
[Disabled]
area, BIOS will show
Typematic Rate (Chars/Sec)
6
a warning message on
Typematic Delay (Msec)
250
screen and alarm beep
Security Option
[Setup]
APIC Mode
[Enabled]
MPS Version Control For OS
[1.4]
OS Select For DRAM > 64MB
[Non-OS2]
Report No FDD for WIN95
[NO]
Small Logo (EPA) Show
[Enabled]
: Select Item + / - /PU/PD: Value
F10: Save ESC: Quit F1: General Help
F5: Previous Values
F6: Fail-Safe Defaults F7: Optimized Defaults
37
5.6
Advanced Chipset Setup
This section allows you to configure the system based on the specific
features of the installed chipset. This chipset manages bus speeds and
the access to the system memory resources, such as DRAM and the
external cache. It also coordinates the communications between the
conventional ISA and PCI buses. It must be stated that these items
should never be altered. The default settings have been chosen
because they provide the best operating conditions for your system.
You might consider and make any changes only if you discover that the
data has been lost while using your system.
Phoenix – AwardBIOS CMOS Setup Utility
Advanced Chipset Features
Item Help
DRAM Timing Selectable
[By SPD]
Menu Level
X
CAS Latency Time
[1.5]
Active to Precharge Delay
[7]
DRAM RAS# to CAS# Delay
[3]
DRAM RAS# Precharge
[3]
Turbo Mode
[Disabled]
Memory Frequency For
[Auto]
System BIOS Cacheable
[Enabled]
Video BIOS Cacheable
[Enabled]
Memory Hole At 15M-16M
[Disabled]
Delayed Transaction
[Enabled]
Delay Prior to Thermal
[16Min]
AGP Aperture Size (MB)
[64]
** ON-chip VGA Setting **
On-chip VGA
[Enabled]
On-chip Frame Buffer size
[8MB]
Boot Display
[CRT]
Panel Scaling
[Auto]
Panel Number
[1]
: Select Item + / - /PU/PD: Value
F10: Save ESC: Quit F1: General Help
F5: Previous Values
F6: Fail-Safe Defaults F7: Optimized Defaults
NOTE: Panel Number: 1 (Default Panel 1: TOSHIBA LTM10C348F)
38
5.7
Power Management Setup
The Power Management Setup allows user to configure the system for
saving energy in a most effective way while operating in a manner
consistent with his own style of computer use.
Phoenix – AwardBIOS CMOS Setup Utility
Power Management Setup
ACPI function
ACPI Suspend Type
[Enabled]
[S1(POS)]
Run VGABIOS id S3 Resume
Power Management
Auto
[Use Define]
Video off Method
Video off In Suspend
[DPMS]
[Yes]
Suspend Type
MODEM Use IRQ
[Stop Grant]
[Modify]
Suspend Mode
HDD Power Down
[Disabled]
[Disabled]
Soft-off by PWR-BTTN
CPU THRM-throttling
[Instant-Off]
[50.00%]
Wake-up by PCI card
Power On by Ring
[Enabled]
[Enabled]
USB KB Wake-up From S3
Resume by Alarm
Disabled
[Disabled]
Date(of Month) Alarm
Time(hh:mm:ss) Alarm
0
0:0:0
Primary IDE 0
Item Help
Menu Level
X
** Reload Global Timer Events **
[Disabled]
Primary IDE 1
Secondary IDE 0
[Disabled]
[Disabled]
Secondary IDE 1
FDD, COM, LPT Port
[Disabled]
[Disabled]
PCI PIRQ[A-D]#
: Select Item
F5: Previous Values
[Disabled]
+ / - /PU/PD: Value
F10: Save ESC: Quit
F6: Fail-Safe Defaults F7: Optimized Defaults
F1: General Help
39
5.8
PCI / Plug and Play Setup
This section describes configuring the PCI bus system. PCI, or
Personal Computer Interconnect, is a system that allows I/O devices to
operate at speeds nearing the speed the CPU itself uses when
communicating with its own special components. This section covers
some very technical items and it is strongly recommended that only
experienced users should make any changes to the default settings.
Phoenix – AwardBIOS CMOS Setup Utility
PnP/PCI Configurations
PNP OS Installed
[No]
Item Help
Reset Configuration Data
[Disabled]
Menu Level
Resources Controlled By
IRQ Resources
[Auto(ESCD)]
Press Enter
Select Yes if you are
using a plug and play
DMA Resources
Press Enter
capable operating
system. Select No
PCI/VGA Palette Snoop
[Disabled]
if you need the BIOS
to configure
X
non-boot devices
: Select Item
F5: Previous Values
40
+ / - /PU/PD: Value
F10: Save
F6: Fail-Safe Defaults
F7: Optimized Defaults
ESC: Quit
F1: General Help
5.9
Peripheral Setup
The IDE hard drive controllers can support up to four separate hard
drives. These drives have a master/slave relationship that is
determined by the cabling configuration used to attach them to the
controller. Your system supports two IDE controllers--a primary and a
secondary--so you can install up to four separate hard disks.
Phoenix – AwardBIOS CMOS Setup Utility
Integrated Peripherals
On-chip Primary PCI IDE
[Enabled]
Item Help
IDE Primary Master PIO
[Auto]
Menu Level
X
IDE Primary Slave PIO
[Auto]
IDE Primary Master UDMA
[Auto]
IDE Primary Slave UDMA
[Auto]
On-chip Secondary PCI IDE
[Enabled]
IDE Secondary Master PIO
[Auto]
IDE Secondary Slave PIO
[Auto]
IDE Secondary Master UDMA
[Auto]
IDE Secondary Slave UDMA
[Auto]
USB Controller
[Enabled]
USB 2.0 Controller
[Enabled]
USB Keyboard Support
[Disabled]
USB Mouse Support
[Disabled]
AC97 Audio
[Auto]
Init Display First
[PCI Slot]
IDE HDD Block Mode
[Enabled]
POWER ON Function
[BUTTON ONLY]
KB Power ON Password
[Enter]
Hot Key Power On
[Ctrl-F1]
Onboard FDC Controller
[Enabled]
Onboard Serial Port 1
[3F8/IRQ4]
Onboard Serial Port 2
[2F8/IRQ3]
UART Mode Select
[Normal]
RxD, TxD Active
[Hi, Lo]
IR Transmission delay
[Enabled]
UR2 Duplex Mode
[Half]
Use IR Pins
[IR-RX2TX2]
Onboard Parallel Port
[378/IRQ7]
Parallel Port Mode
[SPP]
EPP Mode Select
[EPP1.7]
ECP Mode Use DMA
[3]
PWRON After PWR-Fail
[Off]
Midi Port Address
[330]
Midi Port IRQ
[5]
Onboard Serial Port 3
[3E8]
Serial Port 3 Use IRQ
IRQ10]
Onboard Serial Port 4
[2E8]
Serial Port 4 Use IRQ
[IRQ11]
: Select Item + / - /PU/PD: Value
F10: Save ESC: Quit F1: General Help
F5: Previous Values
F6: Fail-Safe Defaults F7: Optimized Defaults
41
5.10 PC Health Status
Phoenix – AwardBIOS CMOS Setup Utility
PC Health Status
CPU Warning Temperature
Current System Temp.
[Disabled]
Item Help
Menu Level
X
Current CPU1 Temperature
Current CPUFAN1 Speed
Current CPUFAN2 Speed
Current CPUFAN3 Speed
IN0(V)
IN1(V)
IN2(V)
+5V
+12V
-12V
-5V
VBAT(V)
5VSB(V)
Shutdown Temperature
: Select Item
F5: Previous Values
[Disabled]
+ / - /PU/PD: Value
F10: Save
F6: Fail-Safe Defaults
F7: Optimized Defaults
ESC: Quit
F1: General Help
5.11 Frequency/Voltage Control
Phoenix – AwardBIOS CMOS Setup Utility
Frequency/Voltage Control
CPU Clock Ratio
[Auto (Modify)]
Item Help
Auto Detect PCI Clk
Spread Specturm
[Enabled]
[Disabled]
Menu Level
: Select Item
F5: Previous Values
42
+ / - /PU/PD: Value
F10: Save
F6: Fail-Safe Defaults
F7: Optimized Defaults
ESC: Quit
F1: General Help
X
Chapter 6
Software Utilities
This chapter contains the detailed information of IDE, VGA, LAN and
Audio driver installation procedures. The utility disk that came with the
delivery package contains an auto-run program that invokes the
installation programs for the VGA, LAN and Audio drivers. The
following sections describe the installation procedures of each driver
based on Win 95/98, Win 2000 and Win NT operating systems. It is
recommended that you install the drivers matching the sections listed in
this chapter.
6.1
IDE Driver Installation
6.1.1 Installing Intel Chipset Software Utility
1.
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
2.
Click on the ICH4 Driver button to continue.
43
3.
Immediately after clicking the IDE button in Step 1, the program
launches the InstallShield Wizard that will assist you in the
installation process. Click on the Next > button to proceed.
4.
The Intel OEM Software License Agreement dialog box then
appears on the screen. Choose Yes to proceed.
44
5.
When the Readme Information dialog box pops up, just click on
the Next button to proceed.
6.
Once the Install Shield Wizard finishes updating your system, it
will prompt you to restart the computer. Tick on the Yes, I want to
restart my computer now followed by a click on the Finish
button to reboot. Only after your computer boots will the new
settings take effect.
45
6.1.2 Installing Intel Application Accelerator
1.
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
2.
Click on the IDE Driver button to continue.
3.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Next > button to proceed.
46
4.
The Intel OEM Software License Agreement dialog box then
appears on the screen. Choose Yes to proceed.
5.
Setup will then prompt you to specify the path where you would like
the Security driver installed. Select the Next > button after you
have made your path/installation choice.
47
6.
48
Once the setup program finishes copying files into your system, it
will prompt you to restart the computer. Tick on the Yes, I want to
restart my computer now followed by a click on the Finish button
to reboot. Only after your computer boots will the new settings take
effect.
6.2
VGA Driver Installation
6.2.1 Win 98
1.
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
2.
Click on the VGA Driver button to continue.
3.
Click on the Windows 9x button to continue.
49
4.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Next > button to proceed.
5.
The Intel OEM Software License Agreement dialog box then
appears on the screen. Choose Yes to proceed.
50
6.
Once the setup program finishes copying files into your system, it
will prompt you to restart the computer. Tick on the Yes, I want to
restart my computer now followed by a click on the Finish button
to reboot. Only after your computer boots will the new settings take
effect.
NOTE:
Installation procedure for Windows 98 is similar to Windows95.
51
6.2.2 Win NT
NOTE:
Please make sure you have already install Service Pack 6.0.
1.
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
2.
Click on the VGA Driver button to continue.
3.
Click on the Windows NT button to continue.
52
4.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Next > button to proceed.
5.
The Intel OEM Software License Agreement dialog box then
appears on the screen. Choose Yes to proceed.
53
6.
54
Once the setup program finishes copying files into your system, it
will prompt you to restart the computer. Tick on the Yes, I want to
restart my computer now followed by a click on the Finish button
to reboot. Only after your computer boots will the new settings take
effect.
6.2.3 Win 2000
1.
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
2.
Click on the VGA Driver button to continue.
3.
Click on the Windows 2K button to continue.
55
4.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Next > button to proceed.
5.
The Intel OEM Software License Agreement dialog box then
appears on the screen. Choose Yes to proceed.
56
6.
Once the setup program finishes copying files into your system, it
will prompt you to restart the computer. Tick on the Yes, I want to
restart my computer now followed by a click on the Finish button
to reboot. Only after your computer boots will the new settings take
effect.
57
6.3
LAN Driver Installation
6.3.1 Win 95/98
1.
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
2.
Click on the LAN Driver button to continue.
3.
Click on the Windows 9x button to continue.
58
4.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Next > button to proceed.
5.
The Intel OEM Software License Agreement dialog box then
appears on the screen. Choose Accept to proceed.
59
6.
The Setup Type dialog box then appears on the screen. Choose
Typical to proceed.
7.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Install button to proceed.
60
8.
When the dialog box below appears, it means your driver is install
completed. Click Finish button to proceed.
9.
Once the setup program finishes copying files into your system, it
will prompt you to restart the computer. Tick on the Yes to reboot.
Only after your computer boots will the new settings take effect.
6.3.2 Win NT
NOTE:
1.
Please make sure you have already install Service Pack 6.0.
The system automatically detects the absence of Windows NT
Networking. Click on the Yes button to start installation.
61
2.
Tick on the Wired to Network once the following screen appears.
Click on the Next to proceed.
3.
Click on the Start Search button for the program to locate the
Network Adapter.
62
4.
Once setup finishes the search, it will list a number of adapters for
you to choose from. Press on the Have Disk button to assign the
driver path location.
5.
Setup now asks you for the location of the driver. When you have
entered the new driver path, press on the OK button to continue.
6.
When Setup finds the information it needs about the new driver, it
will display the device it found on the following screen. Please
choose “Intel(R) PRO/100 Family Adapter”. Press on the OK
button to accept and proceed.
63
7.
Setup then returns to Network Setup Wizard screen and displays
your new Network Adapter. Click on Next to continue.
8.
The Network Setup Wizard then allows you to set the Network
Protocols on your network. Select the appropriate protocol and
then click on Next to continue.
64
9.
Before Setup starts installing the components found and the
settings you made, it will give you the option to proceed or go back
for changes from the following screen. Click on the Next button
once you are sure of your devices.
10. Windows NT Setup will then need to copy files necessary to
update the system information. Specify the path then press
Continue.
11. When Setup asks if you wish to change the TCP/IP settings of your
system, select the appropriately. The default choice is No.
12. Setup then starts the Networking installation and copies the files.
65
13. When the screen below appears, click on Next to continue.
14. Setup then prompts you that it is ready to start the network. You
may complete the installation thereafter. Click on Next to continue.
66
15. Assign the workgroup or domain setting of your computer. Click on
Next to continue.
16. Click on the Yes button to restart your computer. The LAN driver
installation for WIN NT4.0 is now complete.
6.4
1.
Audio Driver Installation
Insert Utility CD Disk to your CD ROM drive. The main menu will
pop up as shown below. Select on the HS-4701 button to launch
the installation program.
67
2.
Click on the AUDIO Driver button to continue.
3.
When the dialog box below appears, make sure you close all other
Windows applications then click on the Next > button to proceed.
68
4.
Once the InstallShield Wizard completes the operation and update
of your AC97 driver, it will ask you to remove disks from their
drives, and prompt you to restart your system. Tick on the Yes, I
want to restart my computer now. Afterwards, click on the Finish
button to complete the installation process. The system changes
you made will take effect after the system restarts.
69
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70
Appendix A
Power Supply
This is the specification of Model FSP180-50PLA; AC-line powered
switching power supply with active PFC (Power Factor Correction)
circuit, meet EN61000-3-2 and with Full Range Input features.
The specification below is intended to describe as detailedly as
possible the functions and performance of the subject power supply.
Any comment or additional requirements to this specification from our
customers will be highly appreciated and treated as a new target for us
to approach.
A.1 Safety Approvals
The subject power supply will meet the EMI requirements and obtain
main safety approvals as following:
A.1.1 EMI Regulatory
FCC Part 15 Subpart J, Class ‘B’ 115 Vac operation
CISPR 22 Class ‘b’ 230 Vac operation
A.1.2 Safety
NEMKO EN 60950
TUV EN60950 OR VDE EN60950
CSA 22.2 NO. 234 LEVEL 3
IEC 950
UL 1950
CE
71
A.2 Physical Requirements
A.2.1 Mechanical Specifications
The mechanical drawing of the subject power supply, which indicate
the form factor, location of the mounting holes, location, the length of
the connectors, and other physical specifications of the subject power
supply. Please refer to the attachment drawing.
A.2.2 Connector Specifications
The power supply connectors are:
AC Inlet: Standard inlet socket 10A/250V, UL/CSA/VED approved
P1: The equivalent of MOLEX 39-01-2200, 20-pin connector
PA, PC, PD: The equivalent of AMP 1-480424-0, 4-pin connector
PB: The equivalent of AMP 171822-4, 4-pin connector
PE: The equivalent of MOLEX 39-01-2040, 4-pin connector
A.2.3 Connector PIN Designations
P1
PIN1
PIN2
PIN3
PIN4
PIN5
PIN6
PIN7
PIN8
PIN9
PIN10
PIN11
PIN12
PIN13
PIN14
PIN15
PIN16
PIN17
PIN18
PIN19
PIN20
72
+3.3V
+3.3V
COM
+5V
COM
+5V
COM
PW-OK
+5Vsb
+12V
+3.3V
+3.3VS
-12V
COM
PS-ON
COM
COM
COM
N/C
+5V
+5V
Orange
Orange
Black
Red
Black
Red
Black
Gray
Purple
Yellow
Orange
Brown
Blue
Black
Green
Black
Black
Black
N/C
Red
Red
PA, PC, PD
+12V
COM
COM
+5V
Yellow
Black
Black
Red
PB
+12V
COM
COM
+5V
Yellow
Black
Black
Red
PE
COM
COM
+12V
+12V
Black
Black
Yellow
Yellow
A.3 Electrical Requirements
The subject power supply will meet all electrical specifications below,
over the full operation temperature range and dynamic load regulation.
Output Rating
Output Nominal Regulation Ripple/Noise
1
2
3
4
5
+3.3V
+5V
+12V
-12V
+5VSB
+/-5%
+/-5%
+/-5%
+/-10%
+/-5%
50mV
50mV
120mV
120mV
50mV
Min.
Max.
0.3A
0.3A
1.5A
0.0A
0.0A
16.8A
12.0A
10.0A
0.8A
2.0A
NOTE: -12V, +3.3V, +5V, +12V will have the regulation to +/-10% when all load take off.
The +3.3V and +5V total output shall not exceed 61 watts. The +3.3V,
+5V and +12V total output shall not exceed 165 watts and the total
output for this subject power supply is 180 watts. Ripple and noise
measurements shall be made under all specified load conditions
through a single pole low pass filter with 20MHz cutoff frequency.
Outputs shall bypassed at the connector with a 0.1uF ceramic disk
capacitor and a 10uF electrolytic capacitor to simulate system loading.
Load Capacity Specifications
Load
STM
+3.3V
+5V
+12V
-12v
All Max
+5V Max other Min
+3.3V Max other Min
+12V max other Min
All Min
HHHH
LHLL
HLLL
LLHL
LLLL
4.5A
0.3A
16.8A
0.3A
0.3A
9.0A
12.0A
0.3A
0.3A
0.3A
9.0A
1.5A
1.5A
10.0A
1.5A
0.8A
0.0A
0.0A
0.0A
0.0A
Hold Up Timer (@Full Load)
115V/60Hz: 17mSec. Minimum.
230V/50Hz: 17mSec. Minimum.
Output Rise Time (10% to 90% of Final Output Value, @Full
Load)
115V-rms or 230V-rms; +5Vdc: 20mx Max.
73
Over Voltage Protection
+5Vdc output: +5.7Vdc min.; +6.5Vdc max.
+12Vdc output: +13.3Vdc min.; +15.6Vdc max.
+3.3Vdc output: +3.7Vdc min.; +4.5Vdc max.
Short Circuit Protection
Output short circuit is defined to be a short circuit load of less then 0.1
ohm.
In the event of an output short circuit condition on +3.3V, +5V or +12V
output, the power supply will shutdown and latch off. The power supply
shall return to normal operation after the short circuit has been removed
and the power switch has been turned off for no more than 2 seconds.
In the event of an output short circuit condition – 12V output, the power
supply will not be latch off. The power supply shall return to normal
operation as soon as the short circuit has been removed and the power
switch has been turned of for no more than 2 seconds.
Overload Protection
Overload currents defined as a 10 amp/sec fault current ramp starting
from full load, applied to the +3.3V, +5V output, shall snot cause that
output to exceed 32 amps before the output voltage drops below 0.5 volts
and is latched off. The +12V output shall not exceed 20 amps under the
same ramp conditions starting at full load before it is latched off.
Power Good Signal
The power good signal is a TTL compatible signal for the purpose of
initiating an orderly star-up procedure under normal input operating
conditions. This signal is asserted (low) until +5Vdc has reached 4.75
volts during power up. Characteristics:
TTL signal asserted (low state): less the 0.5V while sinking 10mA.
TTL signal asserted (high state): greater than 4.75V while sourcing
500uA.
High state output impedance: less or equal to 1Kohm from output to
common.
Power Good @ 115/230V, Full Load 100~500mSec.
Power Fail @ 115/230V, Full Load 1mSec. Minimum
74
Output Transient Load Response
+5V and +12V must be within specification for a step change in current as
specified below. The outputs will be tested one section at a time with all
other sections at maximum load. The test transition will be from IA to IB and
IB to IA.
+5V vdc
IA
IB
Volts Variation
Setting Time
Transient Load
Slew Rate Is
+12V vdc +3.3V vdc
12.0 amps
8.4 amps
+5V +/-5%
10ms max.
9.0 amps
7.0 amps
+12V +/-5%
10ms max.
16.8 amps
13.0 amps
+3.3V +/-5%
10ms max.
0.5A/uS
0.1A/uS
0.1A/uS
NOTE: +5Vsb: 0.5A; -12V: 0.1A
AC Input Line Requirements
Parameter
Min.
Nom.(1)
Max.
Unit
Vin (115VAC)
Vin (230VAC)
Vin Frequency
90
180
47
115
230
----
135
265
63
VACrms
VACrms
HZ
NOTE: Nominal voltages for test purposes are considered to be within +/-1.0V of nominal.
Inrush Current (Cold start – 25 deg. C)
115V
230V
50Amps-peak
80Amps-peak
Input Line Current
115V
230V
4.0 Amps – rms max.
2.0 Amps – rms max.
Efficiency
115VAC @ Full Load
230VAC @ Full Load
68% min.
68% min.
PS_ON
VIL, Input Low Voltage
VIL, Input Low Current (Vin=0.4V)
VIH, Input High Voltage (lin=-200uA)
VIH, Open Circuit, lin =0
Min.
Max.
0.0V
0.8V
-1.6mA
2.0V
5.25V
75
A.4 Environmental Requirements
The power supply will be compliant with each item in this specification
for the following Environmental conditions.
Temperature Range
Operating
Storage
0 to +50 deg. C
-20 to +80 deg. C
Humidity
Operating
Storage
5~95% RH, Non-condensing
5~95% RH, Non-condensing
Vibration
The subject power supplies will withstand the following imposed
conditions without experiencing non-recoverable failure or deviation from
specified output characteristics.
Vibration Operating – Sine wave excited, 0.5G maximum acceleration,
10~250Hz swept at one octave/min. Fifteen minute dwell at all resonant
points, where resonance is defined as those exciting frequencies at which
the device under text experiences excursions two times large than
non-resonant excursions.
Plane of vibration to be along three mutually perpendicular axes.
Shock
The subject power supplies will withstand the following imposed
conditions without experiencing non-recoverable failure or deviation from
specified output characteristics.
Storage: -40G, 11mSec. Half-sine wave pulse in both directions on
three mutually perpendicular axes.
Operating: -10G, 11mSec. Half-sine wave pulse in both directions on
three mutually perpendicular axes.
Cooling Specifications
The PS is cooled by a self-contained, 40mm, 12VDC
76
A.5 Safety
In addition to the UL CSA and NEMKO safety requirements, the
leakage current from AC to safety ground will not exceed 1mA-rms at
240Vac, 50Hz
A.6 Electormagnetic Compatibility
Line Conducted EMI
The subject power supplies will meet FCC and VFG class B
requirements.
Radiated EMI
The subject power supplies will meet FCC and CISPR 22 requirements.
A.7 Labeling
Label marking will be permanent, legible and complied with all agency
requirements.
Model Number Label
Labels will be affixed to the sides of the power supply showing the
following:
Manufacturer’s name and logo
Model no., serial no., revision level, location of manufacturer
The total power output and the maximum load for each output
AC input rating
DC Output Identification
Each output connector will be labeled.
A.8 Reliability
MTBF
The power supply have a minimum predicted MTBF of 100,000
hours of continuous operation at 25 deg. C, maximum-output load,
and nominal AC input voltage.
77
A.9 Safety Requirements
Safety
The subject power designed to meet the following safety
regulations.
NEMKO
TUV or VDE
UL 1950
CSA 22.2 LEVEL 3
CE
A.10 Dimensions
78
Appendix B
Capture card
BS-667 is an acquisition board designed without compromise for
security and video surveillance applications. It constitutes an ideal
device for PC based multiple-channel digital video recorder.
This 32-bit 33MHz PCI Bus frame grabber captures simultaneously
four video analog streams in real-time. It accepts standard composite
color (PAL, NTSC) or monochrome video formats (CCIR, EIA).
The resolution is programmable including the square-pixel resolution
(640 * 480 or 768 * 576) and the broadcast resolution. Before transfer
into the PC memory, the image can be scaled down using a selectable
ratio.
Arbitrary cropping to a region of interest is possible. BS-667 generates
bitmaps in all popular color formats such as RGB, YUV, planar or
packed.
System integrators benefit from a watchdog for fault-tolerant
applications and from easy-to-use standard connectors.
I/O connectivity is built-in. Protection circuit design for software design
security issue.
B.1 Features
Four channels full-frame real-time acquisition from four video
streams
32-bit PCI, Rev2.2, 33MHz
Channel expand up to 8 channels
Applicable signal type: color-PAL/NTSC, monochrome-CCIR/EIA
Onboard TTL I/O lines
Built-in watchdog timer
Protection circuit for security issue
B.2 Frame Rate
30 full-frame images acquired per second for each channel.
79
B.3 Image Acquisition
Color Image: The color video format is compatible with the following
composite video input formats
NTSC-M, NTSC-Japan, PCL-B, PAL-D, PAD-G, PAL-H, PAL-I, PAM-M,
PAL-N and SECAM
Monochrome Images: The monochrome video acquisition is
compatible with CCIR and EIA (RS-170)
Optional Scaling: The BS-667 acquire images or portions of images
with optional scaling
Acquisition of a programmable area of interest
Scaling of the image (down to 1:16)
Adjustment of hue (for NTSC signals), contrast (0 to 200%),
brightness and saturation (0 to 200% for U and V signals)
Automatic chrominance gain control
B.4 I/O Lines
The BS-667 is fitted with TTL compatible I/O lines protected against
overloads and electrostatic discharges.
Every line may be configured as an input or output. They can be used to
trigger the acquisition or report alarms signal.
B.5 Watchdog Timer
A hardware watchdog timer is available on BS-667. The watchdog
timer is able to monitor the PC application operation and will
automatically restart the PC after a programmable inactivity time-out.
This ensures a reliable operation of remote systems.
B.6 Applications
PC Based Surveillance System
Digital Video Recorder (DVR)
Factory Monitoring System
Industrial Inspection System
B.7 Software Supporting WDM Driver
The drivers support VC++/VB programming on Windows NT/98/2000 platform
with DLL..
80