PCE-5120
LGA775 Intel® Core™ 2 Duo / Pentium® D / Pen-
tium® 4 / Celeron® D Processor Card with PCI
Express/IPMI/VGA/Dual Gigabit LAN
User Manual
PCE-5120 User Manual ii
Copyright
This document is copyrighted, 2007, by Advantech Co., Ltd. All rights
are reserved. Advantech Co., Ltd. reserves the right to make improve-
ments to the products described in this manual at any time without notice.
No part of this manual may be reproduced, copied, translated or transmit-
ted in any form or by any means without the prior written permission of
Advantech Co., Ltd. Information provided in this manual is intended to
be accurate and reliable. However, Advantech Co., Ltd. assumes no
responsibility for its use, nor for any infringements upon the rights of
third parties which may result from its use.
Acknowledgements
• AWARD is a trademark of Phoenix Technologies Ltd.
• IBM and PC are trademarks of International Business Machines Cor-
poration.
• Intel®, Core™ 2 Duo, Pentium® D, Pentium® 4, and Celeron® D are
trademarks of Intel Corporation.
• WinBond is a trademark of Winbond Corporation.
• All other product names or trademarks are the properties of their
respective owners.
Part No. 2002512001 2nd Edition
Printed in Taiwan May 2007
iii
A Message to the Customer
Advantech Customer Services
Each and every Advantech product is built to the most exacting specifica-
tions to ensure reliable performance in the harsh and demanding condi-
tions typical of industrial environments. Whether your new Advantech
equipment is destined for the laboratory or the factory floor, you can be
assured that your product will provide the reliability and ease of operation
for which the name Advantech has come to be known.
Your satisfaction is our primary concern. Here is a guide to Advantech’s
customer services. To ensure you get the full benefit of our services,
please follow the instructions below carefully.
Technical Support
We want you to get the maximum performance from your products. So if
you run into technical difficulties, we are here to help. For the most fre-
quently asked questions, you can easily find answers in your product doc-
umentation. These answers are normally a lot more detailed than the ones
we can give over the phone.
So please consult this manual first. If you still cannot find the answer,
gather all the information or questions that apply to your problem, and
with the product close at hand, call your dealer. Our dealers are well
trained and ready to give you the support you need to get the most from
your Advantech products. In fact, most problems reported are minor and
are able to be easily solved over the phone.
In addition, free technical support is available from Advantech engineers
every business day. We are always ready to give advice on application
requirements or specific information on the installation and operation of
any of our products.
PCE-5120 User Manual iv
Certifications
This device complies with the requirements in part 15 of the FCC rules:
Operation is subject to the following two conditions:
• This device may not cause harmful interference
• This device must accept any interference received, including interfer-
ence that may cause undesired operation
This equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to Part 15 of the FCC Rules. These limits
are designed to provide reasonable protection against harmful interfer-
ence when the equipment is operated in a commercial environment. This
equipment generates, uses, and can radiate radio frequency energy and, if
not installed and used in accordance with the instruction manual, may
cause harmful interference to radio communications. Operation of this
device in a residential area is likely to cause harmful interference in
which case the user will be required to correct the interference at his/her
own expense. The user is advised that any equipment changes or modifi-
cations not expressly approved by the party responsible for compliance
would void the compliance to FCC regulations and therefore, the user's
authority to operate the equipment.
Caution! There is a danger of a new battery exploding if
it is incorrectly installed. Do not attempt to
recharge, force open, or heat the battery.
Replace the battery only with the same or
equivalent type recommended by the manufac-
turer. Discard used batteries according to the
manufacturer’s instructions.
v
Memory Compatibility
Table 1.1: PCE-5120 Memory Tested for Compatibility
Brand Size Speed Type Memory
Apacer 1GB DDR2 533 DDR2 SAMSUNG K4T51083QB-
ZKD5 (128x4)
UG 512MB DDR2 400 DDR2
1GB DDR2 400 DDR2 ELPIDA E5108AB-5C-E
(64x8)
Transcend 256MB DDR2 533 DDR2 SAMSUNG 443
K4T56083QF-GCD5 (32x8)
512MB DDR2 533 DDR2 ELPIDA E5108AB-5C-E
(64x8)
1GB DDR2 533 DDR2 ELPIDA E5108AB-5C-E
(64x8)
DSL 512MB DDR2 533 DDR2 Infineon HYB18T512
800AF37 FSS43331 (64x8)
1GB DDR2 533 DDR2 ELPIDA E5108AE-5C-E
(64x8)
Apacer
(RoHS)
512MB DDR2 533 DDR2 ELPIDA E5108AG-5C-E
(64x8)
1GB DDR2 533 DDR2 ELPIDA E5108AG-5C-E
(64x8)
512MB DDR2 667 DDR2 ELPIDA E5108AG-6E-E
(64x8)
1GB DDR2 667 DDR2 ELPIDA E5108AG-6E-E
(64x8)
Transcend
(RoHS)
256MB DDR2 533 DDR2 Infineon
HYB18T512 160AF3.7
3VV21710 (32x16)
512MB DDR2 533 DDR2 SEC
K4T51083QC (64X8)
1GB DDR2 533 DDR2 SEC
K4T51083QC (64X8)
512MB DDR2 667 DDR2 SEC
K4T51083QC ES (64x8)
512MB DDR2 667 DDR2 SEC
K4T51083QC
512MB DDR2 667 DDR2 5*32 D9DCL
1GB DDR2 667 DDR2 SEC
K4T51083QC ES
PCE-5120 User Manual vi
Network Feature Comparison
Table 1.2: PCE-5120 comparison table
LAN/Model PCE-5120F PCE-5120G2 PCE-5120VG
LAN1: Intel® 82573V Yes Yes Yes
LAN2: Intel® 82573V Yes Yes No
IPMI Yes No No
vii
Product warranty
Advantech warrants to you, the original purchaser, that each of its prod-
ucts will be free from defects in materials and workmanship for two years
from the date of purchase.
This warranty does not apply to any products which have been repaired or
altered by persons other than repair personnel authorized by Advantech,
or which have been subject to misuse, abuse, accident or improper instal-
lation. Advantech assumes no liability under the terms of this warranty as
a consequence of such events.
If an Advantech product is defective, it will be repaired or replaced at no
charge during the warranty period. For out-of-warranty repairs, you will
be billed according to the cost of replacement materials, service time and
freight. Please consult your dealer for more details.
If you think you have a defective product, follow these steps:
1. Collect all the information about the problem encountered. (For
example, type of PC, CPU speed, Advantech products used, other
hardware and software used, etc.) Note anything abnormal and list
any on-screen messages you get when the problem occurs.
2. Call your dealer and describe the problem. Please have your man-
ual, product, and any helpful information readily available.
3. If your product is diagnosed as defective, obtain an RMA (return
material authorization) number from your dealer. This allows us to
process your return more quickly.
4. Carefully pack the defective product, a fully-completed Repair and
Replacement Order Card and a photocopy proof of purchase date
(such as your sales receipt) in a shippable container. A product
returned without proof of the purchase date is not eligible for war-
ranty service.
5. Write the RMA number visibly on the outside of the package and
ship it prepaid to your dealer.
PCE-5120 User Manual viii
Initial Inspection
Before you begin installing your single board computer, please make sure
that the following materials have been shipped:
If any of these items are missing or damaged, contact your distributor or
sales representative immediately. We have carefully inspected the PCE-
5120 mechanically and electrically before shipment. It should be free of
marks and scratches and in perfect working order upon receipt. As you
unpack the PCE-5120, check it for signs of shipping damage. (For exam-
ple, damaged box, scratches, dents, etc.) If it is damaged or it fails to meet
the specifications, notify our service department or your local sales repre-
sentative immediately. Also notify the carrier. Retain the shipping carton
and packing material for inspection by the carrier. After inspection, we
will make arrangements to repair or replace the unit.
• PCE-5120 Intel® Core™ 2 Duo/Pen-
tium® D/Pentium® 4/Celeron® D proces-
sor-based single board computer
• 1 PCE-5120 startup manual
• 1 CD with driver utility and manual (in PDF format)
• 1 FDD cable P/N: 1700340640
• 1 Ultra ATA 66/100 HDD cable P/N: 1701400452
• 2 Serial ATA HDD data cable P/N: 1700003194
• 2 Serial ATA HDD power cable P/N: 1703150102
• 1 Printer (parallel) port & COM port cable kit
P/N: 1701260305
• 1 Dual COM port cable kit P/N: 1701092300
• 1 Y cable for PS/2 keyboard and PS/2 mouse
P/N: 1700060202
• 1 CPU cooler P/N: 1750000400
• 1 USB cable with 4 ports P/N: 1700002314
• 1 warranty card P/N: 2190000902
ix
Contents
Chapter 1 Hardware Configuration .................................2
1.1 Introduction ....................................................................... 2
1.2 Features ............................................................................. 3
1.3 Specifications .................................................................... 4
1.3.1 System............................................................................. 4
1.3.2 Memory........................................................................... 4
1.3.3 Input/Output.................................................................... 5
1.3.4 Ethernet LAN.................................................................. 5
1.3.5 Industrial features ........................................................... 5
1.3.6 Mechanical and environmental specifications................ 5
1.4 Jumpers and Connectors.................................................... 6
Table 1.1: Jumpers ....................................................... 6
Table 1.2: Connectors .................................................. 6
1.5 Board Layout: Jumper and Connector Locations.............. 8
Figure 1.1: Jumper and Connector locations ................. 8
1.6 PCE-5120 Block Diagram................................................. 9
Figure 1.2: PCE-5120 Block Diagram .......................... 9
1.7 Safety Precautions .......................................................... 10
1.8 Jumper Settings ............................................................... 11
1.8.1 How to set jumpers ....................................................... 11
1.8.2 CMOS clear (CMOS1) ................................................. 11
Table 1.3: CMOS (CMOS1) ...................................... 11
1.8.3 Watchdog timer output (JWDT1)................................. 12
Table 1.4: Watchdog timer output (JWDT1) ............. 12
1.8.4 COM2 RS 232/422/485 mode selector (JSETCOM2) . 12
Table 1.5: COM2 RS 232/422/485 mode selector
(JSETCOM2) ............................................ 12
1.9 System Memory .............................................................. 13
1.9.1 CPU FSB and memory speed ....................................... 13
1.10 Memory Installation Procedures ..................................... 13
1.11 Cache Memory ................................................................ 13
1.12 Processor Installation ...................................................... 14
1.13 CPU Cooler Installation .................................................. 16
Chapter 2 Connecting Peripherals .................................18
2.1 Introduction ..................................................................... 18
2.2 IDE Connectors (IDE1)................................................... 18
2.3 Floppy Drive Connector (FDD1) .................................... 19
2.4 Parallel Port (LPT1) ........................................................ 20
2.5 VGA Connector (VGA1) ................................................ 21
2.6 Serial Ports (COM1, COM2, COM3, COM4) ................ 21
PCE-5120 User Manual x
2.7 PS/2 Keyboard and Mouse Connector (KBMS1) ........... 22
2.8 External Keyboard & Mouse (KBMS2).......................... 22
2.9 CPU Fan Connector (CPFAN1)...................................... 23
2.10 Front Panel Connectors (JFP1, JFP2, JFP3) ................... 23
2.10.1 ATX soft power switch (JFP1 / PWR_SW) ................. 24
2.10.2 Reset (JFP1 / RESET)................................................... 24
2.10.3 HDD LED (JFP2 / HDDLED)...................................... 24
2.10.4 SM Bus Connector (JFP2 / SNMP) .............................. 24
2.10.5 External speaker (JFP2 / SPEAKER) ........................... 24
2.10.6 Power LED and keyboard lock connector (JFP3 /
PWR_LED&KEY LOCK) ........................................... 24
Table 2.1: ATX power supply LED status (No support
for AT power) ........................................... 25
2.11 H/W Monitor Alarm (JOBS1)......................................... 25
Table 2.2: Hardware Monitor Alarm setting .............. 25
2.12 Gigabit LAN RJ45 connector (LAN1, LAN2)................ 26
2.13 AC'97 Link connector (AC97) ........................................ 26
2.14 Serial ATA2 Interface ..................................................... 27
2.15 LAN1 and LAN2 LED connector (LANLED1) ............. 27
2.16 BMC connector (BMC1)................................................. 28
2.17 USB (USB12, USB34).................................................... 28
Chapter 3 Award BIOS Setup.........................................30
3.1 Introduction ..................................................................... 30
3.1.1 CMOS RAM Auto-backup and Restore ....................... 30
3.2 Entering Setup ................................................................. 31
Figure 3.1: Award BIOS Setup initial screen .............. 31
3.3 Standard CMOS Setup .................................................... 31
3.3.1 Date............................................................................... 31
3.3.2 Time .............................................................................. 31
3.3.3 IDE channel 0/1 Master/Slave ...................................... 31
3.3.4 Drive A / Drive B.......................................................... 32
3.3.5 Halt On.......................................................................... 32
3.3.6 Memory......................................................................... 32
Figure 3.2: Standard CMOS Features Screen.............. 32
3.4 Advanced BIOS Features ................................................ 33
Figure 3.3: Advanced BIOS features screen................ 33
3.4.1 CPU Features ................................................................ 33
3.4.2 Hard Disk Boot Priority................................................ 34
3.4.3 Virus Warning............................................................... 34
3.4.4 CPU L1, L2 & L3 Cache .............................................. 34
3.4.5 Hyper-Threading Technology....................................... 34
3.4.6 Quick Power On Self Test ............................................ 34
3.4.7 First/Second/Third Boot Device ................................... 34
3.4.8 Boot Other Device ........................................................ 34
xi
3.4.9 Swap Floppy Drive ....................................................... 34
3.4.10 Boot Up Floppy Seek.................................................... 34
3.4.11 Boot Up NumLock Status............................................. 34
3.4.12 Gate A20 Option ........................................................... 34
3.4.13 Typematic Rate Setting................................................. 35
3.4.14 Typematic Rate (Chars/Sec) ......................................... 35
3.4.15 Typematic Delay (msec)............................................... 35
3.4.16 Security Option ............................................................. 35
3.4.17 APIC Mode................................................................... 35
3.5 Advanced Chipset Features............................................. 36
Figure 3.4: Advanced chipset features screen ............. 36
3.5.1 DRAM Timing Selectable ............................................ 36
3.5.2 CAS Latency Time ....................................................... 36
3.5.3 DRAM RAS# to CAS# Delay ...................................... 37
3.5.4 DRAM RAS# Precharge............................................... 37
3.5.5 Precharge Delay (t RAS) .............................................. 37
3.5.6 System Memory Frequency .......................................... 37
3.5.7 System BIOS Cacheable............................................... 37
3.5.8 Video BIOS Cacheable ................................................. 37
3.5.9 Memory Hole At 15M-16M ......................................... 37
3.5.10 PCI-Express Root Port Func......................................... 38
3.5.11 PEG / Onchip VGA Control ......................................... 38
3.5.12 PEG Force X1............................................................... 38
3.5.13 On-Chip Video Memory Size ....................................... 38
3.5.14 On-Chip Frame Buffer Size.......................................... 38
3.5.15 DVMT Mode ................................................................ 38
3.5.16 DVMT / FIXED Memory Size ..................................... 38
3.5.17 Init Display First ........................................................... 38
3.6 Integrated Peripherals...................................................... 39
Figure 3.5: Integrated peripherals................................ 39
Figure 3.6: On-Chip IDE Device................................. 39
3.6.1 IDE HDD Block Mode ................................................. 39
3.6.2 IDE DMA Transfer Access........................................... 39
3.6.3 On-Chip Primary / Secondary IDE Device................... 40
3.6.4 SATA Mode.................................................................. 40
3.6.5 Note: On-Chip Serial ATA ........................................... 40
3.6.6 PATA IDE Mode .......................................................... 40
3.6.7 SATA Port .................................................................... 40
Figure 3.7: Onboard Device ........................................ 41
3.6.8 USB Controller ............................................................. 41
3.6.9 USB 2.0 Controller ....................................................... 41
3.6.10 USB Keyboard / Mouse Support .................................. 41
3.6.11 AC97 Audio.................................................................. 41
3.6.12 Onboard LAN1 Control................................................ 41
3.6.13 Onboard LAN2 Control................................................ 41
PCE-5120 User Manual xii
Figure 3.8: Super I/O Device....................................... 42
3.6.14 Onboard FDC Controller .............................................. 42
3.6.15 Onboard Serial Port 1 ................................................... 42
3.6.16 Onboard Serial Port 2 ................................................... 42
3.6.17 UART Mode Select ...................................................... 42
3.6.18 RxD, TxD Active.......................................................... 42
3.6.19 IR Transmission Delay ................................................. 42
3.6.20 UR2 Duplex Mode........................................................ 43
3.6.21 Use IR Pins ................................................................... 43
3.6.22 Onboard Parallel Port.................................................... 43
3.6.23 Parallel Port Mode ........................................................ 43
3.6.24 EPP Mode Select .......................................................... 43
3.6.25 ECP Mode Use DMA ................................................... 43
3.6.26 Onboard Serial Port 3 ................................................... 43
3.6.27 Onboard Serial Port 4 ................................................... 43
3.7 Power Management Setup............................................... 44
Figure 3.9: Power management setup screen (1)......... 44
3.7.1 PCI express PM Function ............................................. 44
3.7.2 Power Supply Type....................................................... 44
3.7.3 ACPI Function .............................................................. 44
3.7.4 Power Management ...................................................... 45
Table 3.1: Power Saving ............................................ 45
3.7.5 Video Off Method......................................................... 45
3.7.6 Video Off In Suspend ................................................... 45
3.7.7 Suspend Type................................................................ 45
3.7.8 Modem Use IRQ........................................................... 45
3.7.9 Suspend Mode............................................................... 45
3.7.10 HDD Power Down........................................................ 45
3.7.11 Soft-Off by PWR-BTTN .............................................. 46
3.7.12 PowerOn by LAN ......................................................... 46
3.7.13 PowerOn by Modem..................................................... 46
3.7.14 PowerOn by Alarm ....................................................... 46
3.7.15 Primary IDE 0 (1) and Secondary IDE 0 (1) ................ 46
3.7.16 FDD, COM, LPT PORT ............................................... 46
3.7.17 PCI PIRQ [A-D]# ......................................................... 46
3.7.18 PWRON After PWR-Fail ............................................. 46
3.8 PnP/PCI Configurations .................................................. 47
Figure 3.10:PnP/PCI configurations screen.................. 47
3.8.1 Reset Configuration Data.............................................. 47
3.8.2 Resources Controlled By .............................................. 47
3.8.3 PCI / VGA Palette Snoop ............................................. 47
3.8.4 Maximum Payload Size ................................................ 47
3.9 PC Health Status.............................................................. 48
Figure 3.11:PC Health Status Screen ........................... 48
3.9.1 Case Open Warning ...................................................... 48
xiii
3.9.2 CPU Warning Temperature .......................................... 48
3.9.3 Current System Temperature ........................................ 48
3.9.4 Current CPU Temperature ............................................ 48
3.9.5 CPU FAN Speed........................................................... 48
3.9.6 System FAN 1 / 2 Speed............................................... 48
3.9.7 VCORE and Other Voltages......................................... 48
3.9.8 Shutdown Temperature................................................. 48
3.10 Frequency / Voltage Control ........................................... 49
Figure 3.12:Spread Spectrum Control screen............... 49
3.10.1 CPU Clock Ratio .......................................................... 49
3.10.2 Spread Spectrum ........................................................... 49
3.11 Load Setup Defaults ........................................................ 50
Figure 3.13: Load Setup Defaults screen...................... 50
3.12 Save & Exit Setup ........................................................... 50
3.13 Exit Without Saving ........................................................ 50
Chapter 4 Chipset Software Install Utility.....................52
4.1 Before you begin ............................................................. 52
4.2 Introduction ..................................................................... 52
4.3 Windows XP Driver Setup.............................................. 53
Chapter 5 VGA Setup ......................................................58
5.1 Introduction ..................................................................... 58
5.2 Windows XP Driver Setup.............................................. 58
Chapter 6 Onboard Security Setup ................................62
6.1 Introduction ..................................................................... 62
6.2 Windows XP Driver Setup.............................................. 62
6.3 Using the OBS Hardware Doctor Utility ........................ 65
Chapter 7 LAN Configuration ........................................68
7.1 Introduction ..................................................................... 68
7.2 Features ........................................................................... 68
7.3 Installation....................................................................... 68
7.4 Win XP Driver Setup (Intel 82573) ................................ 69
Chapter 8 SATA RAID Setup .........................................74
8.1 Introduction ..................................................................... 74
8.2 SATA RAID Driver and Utility Setup............................ 74
Chapter 9 IPMI ................................................................76
9.1 IPMI introduction............................................................ 76
9.2 Definitions....................................................................... 76
9.3 IPMI function list ............................................................ 76
Table 9.1: Supported IPMI commands ...................... 76
9.4 IPMI OEM command lists .............................................. 80
Table 9.2: OEM Commands list................................. 80
PCE-5120 User Manual xiv
Appendix A Watchdog Timer.............................................82
A.1 Programming the Watchdog Timer................................. 82
A.1.1 Watchdog timer overview............................................. 82
A.1.2 Jumper selection ........................................................... 82
A.1.3 Programming the Watchdog Timer .............................. 82
Table A.1: Watchdog timer registers .......................... 84
A.1.4 Example Program ......................................................... 85
Appendix B I/O Pin Assignments.......................................92
B.1 IDE Hard Drive Connector (IDE1) ................................. 92
Table B.1: IDE hard drive connector (IDE1).............. 92
B.2 Floppy Drive Connector (FDD1) .................................... 93
Table B.2: Floppy drive connector (FDD1)................ 93
B.3 Parallel Port Connector (LPT1)....................................... 94
Table B.3: Parallel port connector (LPT1).................. 94
B.4 VGA Connector (VGA1) ................................................ 95
Table B.4: VGA connector (VGA1)........................... 95
B.5 RS-232 Serial Port (COM1, COM2, COM3, COM4)..... 96
Table B.5: RS-232 serial port (COM1, COM2, COM3,
COM4) ...................................................... 96
B.6 PS/2 Keyboard/Mouse Connector (KBMS1).................. 97
Table B.6: PS/2 keyboard/mouse connector
(KBMS1)................................................... 97
B.7 External Keyboard Connector (KBMS2)........................ 97
Table B.7: External keyboard connector (KBMS2).... 97
B.8 CPU Fan Power Connector (CPUFAN1)........................ 98
Table B.8: CPU Fan Power Connector
(CPUFAN1) .............................................. 98
B.9 Power LED and Keyboard Lock Connector (JFP3 /
PWR_LED & KEY LOCK)............................................ 98
Table B.9: Power LED and Keyboard Lock Connector
(JFP3 / PWR_LED & KEY LOCK) ......... 98
B.10 External Speaker Connector (JFP2 / SPEAKER) ........... 99
Table B.10: External Speaker Connector (JFP2 / SPEAK-
ER) ............................................................ 99
B.11 Reset Connector (JFP1 / RESET) ................................... 99
Table B.11: Reset connector (JFP1 / RESET) .............. 99
B.12 HDD LED (JFP2 / HDDLED) ...................................... 100
Table B.12: HDD LED (JFP2 / HDDLED) ................ 100
B.13 ATX Soft Power Switch (JFP1 / PWR_SW) ................ 100
Table B.13: ATX soft power switch
(JFP1 / PWR_SW) .................................. 100
B.14 AC'97 Link connector (AC97) ..................................... 101
Table B.14: AC'97 Link connector (AC97)................ 101
xv
B.15 SM Bus Connector (JFP2 / SNMP)............................... 101
Table B.15: SM bus connector (JFP2 / SNMP).......... 101
B.16 LAN1 and LAN2 LED connector (LANLED1) ........... 102
Table B.16: LAN1 and LAN2 LED connector
(LANLED1) ............................................ 102
B.17 System I/O Ports............................................................ 103
Table B.17: System I/O ports...................................... 103
B.18 DMA Channel Assignments.......................................... 104
Table B.18: DMA channel assignments ..................... 104
B.19 Interrupt Assignments ................................................... 105
Table B.19: Interrupt assignments .............................. 105
B.20 1st MB Memory Map.................................................... 105
Table B.20: 1st MB memory map............................... 105
B.21 PCI Bus Map ................................................................. 106
Table B.21: PCI bus map ............................................ 106
PCE-5120 User Manual xvi
1 Chapter 1
CHAPTER
1
Hardware
Configuration
PCE-5120 User Manual 2
Chapter 1 Hardware Configuration
1.1 Introduction
The PCE-5120 is designed with the Intel® 945G chipset and ICH7R (I/O
controller) to support Core™ 2 Duo, Dual-Core Pentium® D / Pentium®
4 / Celeron® D processors with a 533/800/1066 MHz front side bus and
DDR2 533/667 MHz memory up to 4 GB. It follows the PICMG 1.3
specification and is the best solution for high-performance computing and
applications in which a wide I/O bandwidth is demanded.
The PCE-5120 offers a high-performance cost-saving integrated graphics
unit, built into the Intel® 945G chipset, and features the unique Intel®
Extreme Graphics architecture to maximize VGA performance and share
system memory up to 224MB. Whenever higher graphics computing abil-
ity is required, the PCE-5120 also provides a mainstream PCI Express x
16 Link to the PICMG 1.3 backplane to interface add-on graphic cards. In
addition, the PCE-5120 has a single/dual Gigabit Ethernet LAN via dedi-
cated PCI Express x 1 bus, which offers bandwidths up to 500 MB/sec.,
eliminating the network data flow bottlenecks, and incorporating Gigabit
Ethernet to operate at 1000 Mbps. High reliability and outstanding perfor-
mance make the PCE-5120 the ideal platform for industrial networking
applications.
By using the Intel® ICH7R chipset, the PCE-5120 offers another four
PCI-Express x 1 Link to backplane which can be configured for support-
ing variety expansion slots. With four on-board SATA2 interfaces (band-
width = 300MB/sec), the PCE-5120 may support software RAID 0, 1, 5,
10 functions; eight USB 2.0 connections (four on board and four to back-
plane). These powerful I/O capabilities ensure even more reliable data
storage capabilities and suitable for work with high-speed I/O peripher-
als.
In addition, the PCE-5120 also provides most of the popular I/O inter-
faces such as one ATA-100 EIDE ports, AC'97 audio interface, four RS-
232 ports (COM2 port may be configured for supporting RS-232/422/485
through a pin header), one enhanced parallel port and floppy disk inter-
face.
3 Chapter 1
The PCE-5120 retains a legacy PCI 32-bit /33 MHz bus from the CPU
board to the Backplane. It does not require a PCI-Express to PCI bridge
chip to lower the system cost. It is good for the application and only needs
a few legacy PCI Buses.
The PCE-5120 is designed with considerations for extended reliability,
and is built especially to suit demanding industrial environments. The
CMOS data backup and restore function protects the BIOS setup data
from loss due to battery failure. A 256-level watchdog timer prevents the
system from hanging up if a program cannot be executed normally. A
remote management port allows users to monitor the system health status
and control the system remotely through standard SNMP/HTTP protocol
when used with Advantech's ACMM-1000 and SNMP-1000 Intelligent
System Manager.
The PCE-5120 also adopts Advantech's unique patented “Sleep Mode
Control Circuit” for AT Power Mode. With this thoughtful design, users
need NOT clear the CMOS after the system enters S3 mode. With all
these excellent features and outstanding performance, the PCE-5120 is
definitely the ideal platform for today's industrial applications.
1.2 Features
• Compliance with PICMG 1.3
• Support LGA 775 Intel® Core™ 2 Duo / Dual Core Pentium® D / Pen-
tium® 4 / Celeron® D FSB 533/800/1066 MHz processors
• Support Dual Channel DDR2 533/667 SDRAM up to 4GB
• One PCI Express x 16 Link and Four x1 Link to backplane
• Dual Gigabit Ethernet via PCI Express x1 port
• Support Intel IAMT Technology (optional)
• On board IPMI BMC module (optional)
• 4 SATA2 HDDs (only on SHB)
• Support S/W RAID 0, 1, 5, 10
• 8 USB 2.0 ports (4 on SHB; 4 to Backplane)
PCE-5120 User Manual 4
• 4 COM port, COM2 port can be configured to support RS-232/422/485
through a pin header
• CMOS automatic backup and restore to prevent accidental data loss of
BIOS setup
1.3 Specifications
1.3.1 System
• CPU: Intel® LGA 775 Core™ 2 Duo, Pentium D, Pentium 4, Celeron
D up to 2.66/3.2/3.8/3.06 GHz, FSB 533/8001066 MHz. PCE-5120
also attaches a verified CPU cooler(1750000400) for customers who
use high-speed CPUs in 2U chassis or in a high-temperature environ-
ment.
• L2 Cache: CPU has built-in 4 MB (for Core™ 2 Duo), 2 x 1024KB/2 x
2048KB (for Pentium D CPU), 1024KB/2048KB (for Pentium 4
CPU), 256KB/512 KB (For Celeron D CPU) full-speed L2 cache.
• BIOS: Award Flash BIOS (4Mb Flash Memory)
• System Chipset: Intel 945G with ICH7R
• SATA/EIDE hard disk drive interface: Four on-board SATA2 con-
nectors with data transmission rate up to 300 MB/s and supporting
Advanced Host controller interface (AHCI) technology. One on-board
IDE connector supporting up to two
enhanced IDE devices. Supports
PIO mode 4 (16.67MB/s data transfer rate) and ATA 33/66/100 (33/66/
100MB/s data transfer rate.) BIOS enabled/disabled.
• CF Socket: PCE-5120 offer a alternative type II CF socket of IDE port.
Note: CF socket and IDE port can't work at the same time
• Floppy disk drive interface: Supports one floppy disk drive, 5¼" (360
KB and 1.2 MB) or 3½" (720 KB, 1.44 MB). BIOS enable/disable
1.3.2 Memory
• RAM:
Up to 4 GB in four 240-pin DIMM sockets. Supports dual-chan-
nel DDRII 400/533/667 SDRAM.
Note: Due to limitations of the PC architecture, the
system may NOT fully detect 4 GB of RAM
when 4 GB of RAM is installed.
5 Chapter 1
1.3.3 Input/Output
• PCI Express links: 1 PCI-E x 16 Link and 4 PCIe x1 Link to the
PICMG 1.3 backplane.
• PCI Bus: 32bit / 33MHz to the backplane
• Enhanced parallel port: Configured to LPT1, LPT2, LPT3, or dis-
abled. Standard DB-25 female connector provided. Supports EPP/SPP/
ECP
• Serial ports: Four serial ports on-board pin header, COM2 port can be
configured for support RS 232/422/485.
• Keyboard and PS/2 mouse connector:
One 6-pin mini-DIN connector
is located on the mounting bracket for easy connection to a keyboard or
PS/2 mouse. An on board keyboard pin header connector is also avail-
able
• USB port: Supports up to eight USB 2.0 ports (four on board and four
to backplane) with transmission rate up to 480Mbps.
1.3.4 Ethernet LAN
• Supporting single/dual 10/100/1000Base-T Ethernet port(s) via PCI
Express x1 bus which provides 500 MB/s data transmission rate.
• Controller:
LAN 1: Intel® 82573V (G2 version or VG version)
LAN 2: Intel® 82573V (G2 Version)
1.3.5 Industrial features
• Watchdog timer: Can generate a system reset. The watchdog timer is
programmable, with each unit equal to one second or one minute (255
levels)
1.3.6 Mechanical and environmental specifications
• Operating temperature: 0 ~ 55° C (32 ~ 131° F, Depending on CPU)
• Storage temperature: -20 ~ 70° C (-4 ~ 158° F)
• Humidity: 20 ~ 95% non-condensing
• Power supply voltage: +3.3V, +5V, +12V, +5VSBY
• Power consumption: Maximum: +5 V at 2A, +3.3V at 20A, +12V at
15A, +5VSBY at 0.7A (Intel Pentium D 3.2GHz (800 MHz FSB), 4 x
1GB DDR2 667 SDRAM)
• Board size: 338 x 122 mm (13.3” x 4.8”)
PCE-5120 User Manual 6
• Board weight: 0.5 kg (1.2 lb)
1.4 Jumpers and Connectors
Connectors on the PCE-5120 single board computer link it to external
devices such as hard disk drives and a keyboard. In addition, the board has a
number of jumpers used to configure your system for your application.
The tables below list the function of each of the board jumpers and connec-
tors. Later sections in this chapter give instructions on setting jumpers. Chap-
ter 2 gives instructions for connecting external devices to your motherboard.
Table 1.1: Jumpers
Label Function
CMOS1 CMOS Clear
JWDT1 Watchdog timer output selection
JSETCOM2 COM2 RS 232/422/485 mode selector
Table 1.2: Connectors
Label Function
IDE1 Primary IDE connector
FDD1 Floppy Drive Connector
LPT1 Parallel port
VGA1 VGA connector
COM1 Serial port: COM1 (9-pin connector)
COM2 Serial port: COM2 (9-pin connector)
COM3 Serial port: COM3 (9-pin connector)
COM4 Serial port: COM4 (9-pin connector)
KBMS1 PS/2 keyboard and mouse connector
KBMS2 External keyboard/mouse connector
JIR1 Reserved
CPUFAN1 CPU FAN connector
JFP1 Power and Reset Button connector
JFP2 HDD LED/SNMP SMbus/Speaker connector
JFP3 Power LED and keyboard lock connector
7 Chapter 1
JOBS1 HW Monitor Alarm
Close: Enable OBS Alarm
Open: Disable OBS Alarm
LAN1 Giga LAN RJ45 connector
LAN2 Giga LAN RJ45 connector
AC97 AC'97 Link connector
SATA1 Serial ATA1
SATA2 Serial ATA2
SATA3 Serial ATA3
SATA4 Serial ATA4
LANLED1 LAN1 and LAN2 LED connector
BMC1 BMC connector
USB12 Two USB port pin headers
USB34 Two USB port pin headers
EXPCI1 HIROSA Extended PCI connector (Optional)
Table 1.2: Connectors
Label Function
PCE-5120 User Manual 8
1.5 Board Layout: Jumper and Connector Locations
Figure 1.1: Jumper and Connector locations
COM1
COM2
COM3
COM4
IDE1
FDD1
CF1
SATA1
SATA3
SATA2
SATA4
LAN2
LAN1
VGA1
KBMS1
JWDT1 JOBS1
JIR1
BMC1
KBMS2
EXPPCI1
COMS1
AC97
CPUFAN1
JFP3
JFP2
JFP1
DIMMB1
DIMMB2
DIMMA2
DIMMA1
LPT1
JSETCOM2
USB34
USB12
LANLED1
JFP3
PWR_LED&KEY LOCK
SPEAKER
HDDLED
PWR_SW RESET
SNMP
JFP1
JFP2
CPU 1 LPT1
9 Chapter 1
1.6 PCE-5120 Block Diagram
Figure 1.2: PCE-5120 Block Diagram
945G
GMCH
CRT
1 ATA 100
port
4 SATA II
ports
4 USB Ports
LGA775 Processor
Audio Codec
BIOS
Super IO
Winbond
W83627HF
G-LAN1 :
Intel 82573V
Direct Media
Interface
2GB/s bandwidth
ICH7R
533/800/1066
MHz FSB
300MB/s
PCI-Express x1
DMA 33/
66/100
USB 2.0/1.1
AC’97
LPC Bus
PCI-E X16
PCI Express
x16 slot
(Connector A & B )
G-LAN2 :
Intel 82573V
DDRII 533/667
DDRII 533/667
DDRII 533/667
DDRII 533/667
Channel A
Channel B
PCI-E X1
PCI-E X1
PCI-E X1
PCI-E X1
PCI-E X1
PCI-E X1
Connector A
32bit/33MHz PCI
Bus
Connector D
Connector C
4 USB
IPMI
I/F
PCE-5120 User Manual 10
1.7 Safety Precautions
Warning!
Always completely disconnect the power cord
from your chassis whenever you work with the
hardware. Do not make connections while the
power is on. Sensitive electronic components
can be damaged by sudden power surges. Only
experienced electronics personnel should open
the PC chassis.
Caution! Always ground yourself to remove any static
charge before touching the boards. Modern
electronic devices are very sensitive to static
electric charges. As a safety precaution, use a
grounding wrist strap at all times. Place all elec-
tronic components on a static-dissipative sur-
face or in a static-shielded bag when they are
not in the chassis.
Caution! The computer is provided with a battery-pow-
ered Real-time Clock circuit. There is a danger
of explosion if battery is incorrectly replaced.
Replace only with same or equivalent type rec-
ommended by the manufacturer. Discard used
batteries according to manufacturer's instruc-
tions.
Caution! There is a danger of a new battery exploding if
it is incorrectly installed. Do not attempt to
recharge, force open, or heat the battery.
Replace the battery only with the same or
equivalent type recommended by the manufac-
turer. Discard used batteries according to the
manufacturer’s instructions.
11 Chapter 1
1.8 Jumper Settings
This section provides instructions on how to configure your PCE-5120 by
setting the jumpers. It also includes the PCE-5120's default settings and
your options for each jumper.
1.8.1 How to set jumpers
You can configure your PCE-5120 to match the needs of your applica-
tion by setting the jumpers. A jumper is a metal bridge that closes an elec-
trical circuit. It consists of two metal pins and a small metal clip (often
protected by a plastic cover) that slides over the pins to connect them. To
“close” (or turn ON) a jumper, you connect the pins with the clip. To
“open” (or turn OFF) a jumper, you remove the clip. Sometimes a jumper
consists of a set of three pins, labeled 1, 2, and 3. In this case you connect
either pins 1 and 2, or 2 and 3. A pair of needle-nose pliers may be useful
when setting jumpers.
1.8.2 CMOS clear (CMOS1)
The PCE-5120 single board computer contains a jumper that can erase
CMOS data and reset the system BIOS information. Normally this
jumper should be set with pins 1-2 closed. If you want to reset the CMOS
data, set CMOS1 to 2-3 closed for just a few seconds, and then move the
jumper back to 1-2 closed. This procedure will reset the CMOS to its
default setting.
Table 1.3: CMOS (CMOS1)
Function Jumper Setting
* Keep CMOS data
Clear CMOS data
* default setting
1-2 closed
2-3 closed
PCE-5120 User Manual 12
1.8.3 Watchdog timer output (JWDT1)
The PCE-5120 contains a watchdog timer that will reset the CPU in the
event the CPU stops processing. This feature means the PCE-5120 will
recover from a software failure or an EMI problem. The JWDT1 jumper
settings control the outcome of what the computer will do in the event the
watchdog timer is tripped.
1.8.4 COM2 RS 232/422/485 mode selector (JSETCOM2)
Users can use JSETCOM2 to select among RS 232/422/485 modes for
COM2. The default setting is RS 232.
Table 1.4: Watchdog timer output (JWDT1)
Function Jumper Setting
Reserved
* Reset
*default setting
Table 1.5: COM2 RS 232/422/485 mode selector (JSETCOM2)
COM 2 Port Function Jumper Configuration
RS-232 *
RS-422
RS-485
*default setting
1
1-2 closed
1
2-3 closed
97
8
531
6421012
1115 13
141618
17
97
8
531
6421012
1115 13
141618
17
97
8
531
6421012
1115 13
141618
17
13 Chapter 1
1.9 System Memory
The PCE-5120 has four sockets for 240-pin dual inline memory modules
(DIMMs) in two memory channels.
All these sockets use 1.8 V unbuffered double data rate synchronous
DRAMs (DDR SDRAM). They are available in capacities of 256, 512
and 1024 MB. The sockets can be filled in any combination with DIMMs
of any size, giving a total memory size between 256 MB and 4 GB.
1.9.1 CPU FSB and memory speed
The PCE-5120 can accept DDR2 SDRAM memory chips without parity.
Also note: The PCE-5120 accepts DDR2 400/533/667MHz SDRAM.
The PCE-5120 does NOT support ECC (error checking and correction).
1.10 Memory Installation Procedures
To install DIMMs, first make sure the two handles of the DIMM socket
are in the “open” position. i.e. The handles lean outward. Slowly slide the
DIMM module along the plastic guides on both ends of the socket. Then
press the DIMM module right down into the socket, until you hear a
click. This is when the two handles have automatically locked the mem-
ory module into the correct position of the DIMM socket. To remove the
memory module, just push both handles outward, and the memory mod-
ule will be ejected by the mechanism in the socket.
1.11 Cache Memory
The CPU that PCE-5120 supports built-in 4 MB (for Core™ 2 Duo), 2 x
1024KB/2 x 2048KB cache memory (for Pentium D CPU), and 1024KB/
2048KB (for Pentium 4 CPU), and 256KB/512 KB (For Celeron D CPU)
full-speed L2 cache. The built-in second-level cache in the processor
yields much higher performance than conventional external cache memo-
ries.
PCE-5120 User Manual 14
1.12 Processor Installation
The PCE-5120 is designed for Intel® LGA 775 socket CPUs.
Step 1: Pull the bar besides the CPU socket outward and lift it.
Step 2: Align the triangular marking on the processor with the cut edge of
the socket.
15 Chapter 1
Step 3: Put back the socket cap and press down the bar to fix it.
1.13 CPU Cooler Installation
Please ensure that the CPU cooler included with the PCE-5120 is
installed as follows:
17 Chapter 2
CHAPTER
2
Connecting
Peripherals
PCE-5120 User Manual 18
Chapter 2 Connecting Peripherals
2.1 Introduction
You can access most of the connectors from the top of the board while it
is installed in the chassis. If you have a number of cards installed or have
a packed chassis, you may need to partially remove the card to make all
the connections.
2.2 IDE Connectors (IDE1)
You can attach up to two IDE (Integrated Drive Electronics) drives to the
PCE-5120's built-in controller.
Wire number 1 on the cable is red or blue and the other wires are gray.
Connect one end to connector IDE1 on the single board computer. Make
sure that the red/blue wire corresponds to pin 1 on the connector (in the
upper right hand corner). See Chapter 1 for help finding the connector.
Unlike floppy drives, IDE hard drives can connect in either position on
the cable. If you install two drives to a single connector, you will need to
set one as the master and the other as the slave. You do this by setting the
jumpers on the drives. If you use just one drive per connector, you should
set each drive as the master. See the documentation that came with your
drive for more information.
Connect the first hard drive to the other end of the cable. Wire 1 on the
cable should also connect to pin 1 on the hard drive connector, which is
labeled on the drive circuit board. Check the documentation that came
with the drive for more information.
PCE-5120 offers an alternative type II CF socket of IDE port. The CF
socket and IDE port can't work at the same time. It will cause the data
conflict.
IDE1
JFP3
JFP2
JFP1
LPT1
19 Chapter 2
2.3 Floppy Drive Connector (FDD1)
You can attach up to two floppy disk drives to the PCE-5120's on board
controller. You can use 3.5" (720 KB, 1.44 MB) drives.
The single board computer comes with a 34-pin daisy-chain drive con-
nector cable. On one end of the cable is a 34-pin flat-cable connector. On
the other end are two sets of 34-pin flat-cable connector (usually used for
3.5" drives). The set on the end (after the twist in the cable) connects to
the A: floppy drive. The set in the middle connects to the B: floppy drive.
JFP3
JFP2
JFP1
LPT1
FDD1
PCE-5120 User Manual 20
2.4 Parallel Port (LPT1)
The parallel port is normally used to connect the single board computer to
a printer. The PCE-5120 includes an onboard parallel port, accessed
through a 26-pin flat-cable connector, LPT1. The card comes with an
adapter cable which lets you use a traditional DB-25 connector. The cable
has a 26-pin connector on one end and a DB-25 connector on the other,
mounted on a retaining bracket. The bracket installs at the end of an
empty slot in your chassis, giving you access to the connector.
The parallel port is designated as LPT1, and can be disabled or changed
to LPT2 or LPT3 in the system BIOS setup.
To install the bracket, find an empty slot in your chassis. Unscrew the
plate that covers the end of the slot. Screw in the bracket in place of the
plate. Next, attach the flat-cable connector to LPT1 on the CPU card.
Wire 1 of the cable is red or blue, and the other wires are gray. Make sure
that wire 1 corresponds to pin 1 of LPT1. Pin 1 is on the upper right side
of LPT1.
JFP3
JFP2
JFP1
LPT1 LPT1
21 Chapter 2
2.5 VGA Connector (VGA1)
The PCE-5120 includes a VGA interface that can drive conventional
CRT displays. VGA1 is a standard 15-pin D-SUB connector commonly
used for VGA. Pin assignments for CRT connector VGA1 are detailed in
Appendix B.
2.6 Serial Ports (COM1, COM2, COM3, COM4)
The PCE-5120 offers four serial ports COM1, COM2, COM3 and
COM4. These ports can connect to serial devices, such as a mouse or to a
communications network. The COM2 port can be configured to support
RS-232/422/485 by pin header (JSETCOM2) setting, please refer to 1.8.4
for the information.
The IRQ and address ranges for all ports are fixed. However, if you want
to disable the port or change these parameters later, you can do this in the
system BIOS setup.
JFP3
JFP2
JFP1
LPT1
VGA1
JFP3
JFP2
JFP1
LPT1
COM4
COM3
COM2
COM1
PCE-5120 User Manual 22
Different devices implement the RS-232 standard in different ways. If
you are having problems with a serial device, be sure to check the pin
assignments for the connector.
2.7 PS/2 Keyboard and Mouse Connector (KBMS1)
One 6-pin mini-DIN connectors (KBMS1) on the card mounting bracket
provide connection to a PS/2 keyboard or a PS/2 mouse, respectively.
KBMS1 can also be connected to an adapter cable (P/N: 1700060202) for
connecting to both a PS/2 keyboard and a PS/2 mouse.
2.8 External Keyboard & Mouse (KBMS2)
In addition to the PS/2 mouse/keyboard connector on the PCE-5120's rear
plate, there is also an extra onboard external keyboard and mouse connector.
This gives system integrators greater flexibility in designing their systems.
JFP3
JFP2
JFP1
LPT1
KBMS1
JFP3
JFP2
JFP1
LPT1
KBMS2
23 Chapter 2
2.9 CPU Fan Connector (CPFAN1)
If a fan is used, this connector supports cooling fans of 12V/1A (12W) or
less.
2.10 Front Panel Connectors (JFP1, JFP2, JFP3)
There are several external switches to monitor and control the PCE-5120.
JFP3
JFP2
JFP1
LPT1
CPUFAN1
JFP3
JFP2
JFP1
LPT1
JFP2
JFP3
SNMP
PWR_LED&KEY LOCK
HDDLED
SPEAKER
JFP1
RESET
PWR_SW
PCE-5120 User Manual 24
2.10.1ATX soft power switch (JFP1 / PWR_SW)
If your computer case is equipped with an ATX power supply, you should
connect the power on/off button on your computer case to (JFP1 /
PWR_SW). This connection enables you to turn your computer on and
off.
2.10.2Reset (JFP1 / RESET)
Many computer cases offer the convenience of a reset button. Connect the
wire for the reset button.
2.10.3HDD LED (JFP2 / HDDLED)
You can connect an LED to connector (JFP2 / HDDLED) to indicate
when the HDD is active.
2.10.4SM Bus Connector (JFP2 / SNMP)
This connector is reserved for Advantech's SNMP-1000 HTTP/SNMP
Remote System Manager. The SNMP-1000 allows users to monitor the
internal voltages, temperature and fans from a remote computer through
an Ethernet network.
(JFP2 / SNMP) can be connected to CN19 of SNMP-1000. Please be
careful about the pin assignments, pin 1 must be connected to pin 1 and
pin 2 to pin 2 on both ends of cable.
2.10.5External speaker (JFP2 / SPEAKER)
(JFP2 / SPEAKER) is a 4-pin connector for an external speaker. If there
is no external speaker, the PCE-5120 provides an onboard buzzer as an
alternative. To enable the buzzer, set pins 3-4 as closed.
2.10.6Power LED and keyboard lock connector (JFP3 /
PWR_LED&KEY LOCK)
(JFP3 / PWR_LED&KEY LOCK) is a 5-pin connector for the power on
LED and Key Lock function. Refer to Appendix B for detailed informa-
tion on the pin assignments. The Power LED cable should be connected
to pin 1-3. The key lock button cable should be connected to pin 4-5.
There are 3 modes for the power supply connection. The first is “ATX
power mode”, system is on/off by a tentative power button. The second is
“AT Power Mode”, system is on/off by the switch of the Power supply.
The third is another “AT Power Mode” which is using the front panel
power switch. The power LED status is indicated as following table:
25 Chapter 2
:
2.11 H/W Monitor Alarm (JOBS1)
(JOBS1) is a 2-pin connector for setting enable/disable alarm while the
On Board security event acts.
Table 2.1: ATX power supply LED status (No support for AT power)
Power mode LED (ATX
Power Mode)
(On/off by tentative
button)
LED (AT power
Mode)
(On/off by switch-
ing power supply)
LED (AT power
Mode)
(On/off by front
panel switch)
PSON1(On
Back plane)
Jumper setting
2-3 pin closed 1-2 pin closed Connect 1-2 pin
cable with
switch
System On On On On
System Sus-
pend
Fast flashes Fast flashes Fast flashes
System Off Slow flashes Off Off
Table 2.2: Hardware Monitor Alarm setting
Pin setting Function
Close Enable OBS alarm
open Disable OBS alarm
JFP3
JFP2
JFP1
LPT1
JOBS1
PCE-5120 User Manual 26
2.12 Gigabit LAN RJ45 connector (LAN1, LAN2)
PCE-5120 uses the Intel 82573V Gigabit LAN chip which is linked to
PCIe x1 Link. With this chip PCE-5120 may provide high throughputs
for heavy loading networking environment. It provides two or one RJ-45
connectors in the rear side and is convenient for most industrial applica-
tions.
2.13 AC'97 Link connector (AC97)
The PCE-5120 provides AC'97 audio through PCA-AUDIO-00A1 mod-
ule from Advantech.
JFP3
JFP2
JFP1
LPT1
LAN1
LAN2
JFP3
JFP2
JFP1
LPT1
AC97
27 Chapter 2
2.14 Serial ATA2 Interface
In addition to the EIDE interfaces (up to two devices), the PCE-5120 fea-
tures a high performance serial ATA2 interface (up to 300MB/s) which
eases cabling to hard drives with thin and long cables. These four port can
be configured as RAID 0, 1, 5, 10 applications.
2.15 LAN1 and LAN2 LED connector (LANLED1)
PCE-5120 provides an external LAN LED Pin header for connecting to
the front side of the chassis. With this convenient design users may know
whether the LAN port is acting or not easily. Refer to Appendix B for
detailed information on the pin assignments.
JFP3
JFP2
JFP1
LPT1
SATA3
SATA1 SATA2
SATA4
JFP3
JFP2
JFP1
LPT1
LANLED1
PCE-5120 User Manual 28
2.16 BMC connector (BMC1)
PCE-5120 is designed for supporting IPMI 2.0. The BMC module is
mounted on board through this connector. For more detail operating
information, please refer to Chapter 9.
2.17 USB (USB12, USB34)
The PCE-5120 provides four on board USB 2.0 ports which support
transmission rate up to 480 Mbps and is fuse-protected. To install the
USB cable (p/n: 1700002314) bracket, find an empty slot in your chassis
and unscrew the plate that covers the end of the slot. Screw in the bracket
in place of the plate. Next, attach the USB connector to USB12 and
USB34 on the CPU card.
JFP3
JFP2
JFP1
LPT1
BMC1
JFP3
JFP2
JFP1
LPT1
USB12
USB34
29 Chapter 3
CHAPTER
3
Award BIOS Setup
PCE-5120 User Manual 30
Chapter 3 Award BIOS Setup
3.1 Introduction
Award’s BIOS ROM has a built-in setup program that allows users to
modify the basic system configuration. This type of information is stored
in battery backed-up memory (CMOS RAM) so that it retains the setup
information when the power is turned off.
3.1.1 CMOS RAM Auto-backup and Restore
The CMOS RAM is powered by an onboard button cell battery. When
you finish BIOS setup, the data in CMOS RAM will be automatically
backed up to Flash ROM. If operation in harsh industrial environments
causes a soft error, BIOS will recheck the data in CMOS RAM and auto-
matically restore the original data in Flash ROM to CMOS RAM for
booting.
Note: If you intend to change the CMOS setting with-
out restoring the previous backup, you have to
click on “DEL” within two seconds of the
“CMOS checksum error...” display screen mes-
sage appearing. Then enter the “Setup” screen
to modify the data. If the “CMOS checksum
error...” message appears again and again,
please check to see if you need to replace the
battery in your system.
31 Chapter 3
3.2 Entering Setup
Turn on the computer and press <Del> to enter the BIOS setup.
Figure 3.1: Award BIOS Setup initial screen
3.3 Standard CMOS Setup
3.3.1 Date
The date format is <week>, <month>, <day>, <year>.
3.3.2 Time
The time format is <hour> <minute> <second>, based on the 24-hour
clock.
3.3.3 IDE channel 0/1 Master/Slave
•IDE HDD Auto-Detection: Press “Enter” to select this option for
automatic device detection.
•IDE Device Setup:
Auto: Automatically detects IDE devices during POST
None: Select this when no IDE device is used. The system will skip the
auto-detection step to make system start up faster.
Manual: User can manually input the correct settings.
•Access Mode: The options are CHS/LBA/Large/Auto
•Capacity: Capacity of currently installed hard disk.
•Cylinder: Number of cylinders
PCE-5120 User Manual 32
•Head: Number of heads
•Precomp: Write precomp
•Landing Zone: Landing zone
•Sector: Number of sectors
3.3.4 Drive A / Drive B
This category identifies the types of floppy disk drives installed in the
system. The options are: None/360K, 5.25"/1.2M, 5.25"/720K, 3.5"/
1.44M, 3.5"/2.88M, 3.5".
3.3.5 Halt On
This category determines whether system start-up will halt or not when
an error is detected during power up.
The options are: No Errors/All Errors/All, But Keyboard/All, But Dis-
kette/All, But Disk/Key
3.3.6 Memory
This category displays base memory, extended memory, and total mem-
ory detected during POST (Power On Self Test).
Figure 3.2: Standard CMOS Features Screen
33 Chapter 3
3.4 Advanced BIOS Features
The “Advanced BIOS Features” screen appears when choosing the
“Advanced BIOS Features” item from the “Initial Setup Screen” menu. It
allows the user to configure the PCE-5120 according to his particular
requirements. Below are some major items that are provided in the
Advanced BIOS Features screen. A quick booting function is provided
for your convenience. Simply enable the Quick Booting item to save
yourself valuable time.
Figure 3.3: Advanced BIOS features screen
3.4.1 CPU Features
Delay Prior to thermal
This feature controls the activation of the Thermal Monitor's automatic
mode. It allows you to determine when the Pentium 4's Thermal Monitor
should be activated in automatic mode after the system boots. For exam-
ple, with the default value of 16 Minutes, the BIOS activates the Thermal
Monitor in automatic mode 16 minutes after the system starts booting up.
The choices are 4 Min, 8 Min, 16 Min, and 32 Min.
Limit CPUID MaxVal
Set Limit CPUID MaxVa1 to 3. This should be disabled for WinXP.
Execute Disable Bit
When disabled, forces the XD feature flag to always return 0.
PCE-5120 User Manual 34
3.4.2 Hard Disk Boot Priority
Set hard disk boot device priority.
3.4.3 Virus Warning
Enables or disables the virus warning.
3.4.4 CPU L1, L2 & L3 Cache
Enabling this feature speeds up memory access. The commands are
“Enabled” or “Disabled.”
3.4.5 Hyper-Threading Technology
While using a CPU with Hyper-Threading technology, you can select
“Enabled” to enable Hyper-Threading Technology in an OS which sup-
ports Hyper-Threading Technology or select “Disabled” for other OSs
which do not support Hyper-Threading technology.
3.4.6 Quick Power On Self Test
This allows the system to skip certain tests to speed up the boot-up proce-
dure.
3.4.7 First/Second/Third Boot Device
The BIOS tries to load the OS with the devices in the sequence selected.
Choices are: “Floppy”, “LS120”, “Hard Disk”, “CDROM”, “ZIP100”,
“USB-FDD”, “USB-ZIP”, “USB-CDROM”, “LAN1”, “LAN2” and
“Disabled”.
3.4.8 Boot Other Device
Use this to boot another device. The options are “Enabled” and “Dis-
abled”.
3.4.9 Swap Floppy Drive
If the system has two floppy drives, choose “Enabled” to assign physical
drive B to logical drive A and vice-versa. The commands are “Enabled”
or “Disabled”.
3.4.10 Boot Up Floppy Seek
Selection of the command “Disabled” will speed the boot up. Selection of
“Enabled” searches disk drives during boot up.
3.4.11 Boot Up NumLock Status
Sets the boot up status Num Lock. The options are “On” and “Off”.
3.4.12 Gate A20 Option
“Normal”: A pin in the keyboard controller controls GateA20. Fast
(Default) lets chipset control GateA20.
35 Chapter 3
3.4.13 Typematic Rate Setting
The typematic rate is the rate key strokes repeat as determined by the key-
board controller. The commands are “Enabled” or “Disabled”. Enabling
allows the typematic rate and delay to be selected.
3.4.14 Typematic Rate (Chars/Sec)
The BIOS accepts the following input values (characters/second) for
typematic rate: 6, 8, 10, 12, 15, 20, 24, and 30.
3.4.15 Typematic Delay (msec)
Typematic delay is the time interval between the appearances of two con-
secutive characters, when the key is continuously depressed. The input
values for this category are: 250, 500, 750, and 1000 (ms).
3.4.16 Security Option
This category determines whether the password is required when the sys-
tem boots up or only when entering setup. The options are:
•System: The system will not boot, and access to Setup will be also
denied unless the correct password is entered at the prompt.
•Setup: The system will boot, but access to Setup will be denied unless
the correct password is entered at the prompt.
3.4.17 APIC Mode
This setting allows you to enable the APIC mode. The choices are “Dis-
abled” or “Enabled.”
Note: To disable security, select PASSWORD SET-
TING in the main menu. Then, you will be asked
to enter a password. Simply press <Enter> to
disable security. When security is disabled, the
system will boot and you can enter Setup freely.
PCE-5120 User Manual 36
3.5 Advanced Chipset Features
By choosing the “Advanced Chipset Features” option from the “Initial
Setup Screen” menu, the screen below will be displayed. This sample
screen contains the manufacturer’s default values for the PCE-5120, as
shown in Figure 3-4:
Figure 3.4: Advanced chipset features screen
3.5.1 DRAM Timing Selectable
This item allows you to control the DRAM speed. The selections are
“Manual” or “By SPD”.
3.5.2 CAS Latency Time
When DRAM Timing Selectable is set to [Manual], this field is adjust-
able. This controls the CAS latency, which determines the time interval
between SDRAM starting a read command and receiving it. The options
are [3T], [4T], [5T], and [Auto].
Note: DRAM default timings have been carefully cho-
sen and should ONLY be changed if data is
being lost. Please first contact technical sup-
port.
37 Chapter 3
3.5.3 DRAM RAS# to CAS# Delay
When DRAM Timing selectable is set to [Manual], this field is adjust-
able. When DRAM is refreshed, the rows and columns are addressed sep-
arately. This setup item allows user to determine the timing of the
transition from RAS (row address strobe) to CAS (column address
strobe). The less the clock cycles are, the faster the DRAM speed is. Set-
ting options are [2T] to [5T], and [Auto].
3.5.4 DRAM RAS# Precharge
When the DRAM Timing Selectable is set to [Manual], this field is
adjustable. This setting controls the number of cycles for Row Address
Strobe (RAS) to be allowed to precharge. If no sufficient time is allowed
for the RAS to accumulate its charge before DRAM refresh, refreshing
may be incomplete and DRAM may fail to retain data. This item applies
only when synchronous DRAM is installed in the system. Setting options
are [2T] to [5T], and [Auto].
3.5.5 Precharge Delay (t RAS)
This item allows you to select the value in this field, depending on
whether the board has paged DRAMs or EDO (extended data output)
DRAMs. The choices are: “4” to “15” and “Auto”.
3.5.6 System Memory Frequency
To adjust the frequency of memory. The choices are: “333MHz”,
“400MHz”, “533MHz” and “Auto”.
3.5.7 System BIOS Cacheable
Selecting “Enabled” allows caching of the system BIOS ROM at F0000h-
FFFFFh, resulting in better system performance. However, if any pro-
gram writes data to this memory area, a system error may occur. The
Choices are “Enabled”, and “Disabled”.
3.5.8 Video BIOS Cacheable
Selecting “Enabled” allows caching of the video BIOS, resulting in better
system performance. However, if any program writes to this memory
area, a system error may occur. The choices are “Enabled”, and “Dis-
abled”.
3.5.9 Memory Hole At 15M-16M
Enabling this feature reserves 15 MB to 16 MB memory address space
for ISA expansion cards that specifically require this setting. This makes
memory from 15 MB and up unavailable to the system. Expansion cards
can only access memory up to 16 MB. The default setting is “Disabled”.
PCE-5120 User Manual 38
3.5.10 PCI-Express Root Port Func
PCI Express Port 1/2/3/4
The default setting is “Auto.” The choices are “Enabled,” “Disabled,” and
“Auto.”
PCI-E Compliancy Mode
This allows the user to select the PCI-E compliant mode. The options are
[v1.0], and [v1.0a].
3.5.11 PEG / Onchip VGA Control
Use this field to select PEG or Onchip VGA. The default is AUTO.
3.5.12 PEG Force X1
Use this field to select the PEG Force X1. The default is disabled.
3.5.13 On-Chip Video Memory Size
Use this field to select the On-Chip Frame Buffer Size, Fixed Memory
Size and DVMT Memory Size. The total graphics memory can be up to
128 MB.
3.5.14 On-Chip Frame Buffer Size
The On-Chip Frame Buffer Size can be set to 1 MB or 8 MB. This mem-
ory is shared with the system memory.
3.5.15 DVMT Mode
Displays the active system memory mode.
3.5.16 DVMT / FIXED Memory Size
Specify the size of DVMT / FIXED system memory to allocate for video
memory.
3.5.17 Init Display First
Choose the first display interface to initiate while booting. The choice is
“PCI Slot” or “Onboard”.
39 Chapter 3
3.6 Integrated Peripherals
Figure 3.5: Integrated peripherals
Figure 3.6: On-Chip IDE Device
3.6.1 IDE HDD Block Mode
If your IDE hard drive supports block mode select Enabled for automatic
detection of the optimal number of block read/writes per sector the drive
can support.
3.6.2 IDE DMA Transfer Access
Use this field to enable or disable IDE DMA transfer access.
PCE-5120 User Manual 40
3.6.3 On-Chip Primary / Secondary IDE Device
IDE Primary Master/Slave PIO/UDMA Mode (Auto). The channel has
both a master and a slave, making four IDE devices possible. Because
two IDE devices may have a different Mode timing (0, 1, 2, 3, 4), it is
necessary for these to be independent. The default setting “Auto” will
allow auto detection to ensure optimal performance.
3.6.4 SATA Mode
The setting choices for the SATA Mode are IDE, RAID and AHCI Mode.
Select [IDE] if you want to have SATA function as IDE. Select [AHCI]
for Advanced Host Controller Interface (AHCI) feature, with improved
SATA performance and native command queuing. Select [RAID] to use
SATA for RAID.
3.6.5 Note: On-Chip Serial ATA
Choose the status of serial ATA. The default setting is “Auto” which lets
the system arrange all parallel and serial ATA resources automatically.
The “Disabled” setting disables the SATA controller. The “Combined
Mode” combines PATA and SATA, and maximum of 2 IDE drives in
each channel. The “Enhanced Mode” enables both SATA and PATA, and
a maximum of 6 IDE drives are supported. The “SATA Only” setting
means SATA is operating in legacy mode.
3.6.6 PATA IDE Mode
This item allows you to select the parallel ATA channel. Setting options
are Primary and Secondary.
3.6.7 SATA Port
This feature allows users to view the SATA port as primary or secondary
channel. If PATA IDE Mode is set to “Primary”, it will display “P1, P3
Secondary” which means that SATA1 and SATA3 are secondary. If
PATA IDE Mode is set to “Secondary,” it will display “P0, P2 Second-
ary” which means that SATA0 and SATA2 are secondary.
Note: Please refer to the PDF-format Intel (R) Matrix
Storage Technology Quick Start Guide and
Intel (R) Matrix Storage Manager User's Manual
in this CD (in the MANUAL folder) to know the
necessary steps to build and configure your
RAID 0, 1, 10, 5 system using Intel (R) Matrix
Storage Technology and Matrix Storage Man-
ager.
41 Chapter 3
Figure 3.7: Onboard Device
3.6.8 USB Controller
Select Enabled if your system contains a Universal Serial Bus (USB) con-
troller and you have USB peripherals. The choices are “Enabled” and
“Disabled”.
3.6.9 USB 2.0 Controller
This entry is to disable/enable the USB 2.0 controller only. The BIOS
itself may/may not have high-speed USB support. If the BIOS has high
speed USB support built in, the support will automatically turn on when a
high speed device is attached. The choices are “Enabled” or “Disabled”.
3.6.10 USB Keyboard / Mouse Support
Select Enabled if you plan to use an USB keyboard. The choices are
“Enabled” and “Disabled”.
3.6.11 AC97 Audio
Select “Disable” if you do not want to use AC’97 audio. Options are
“Auto”, and “Disabled”.
3.6.12 Onboard LAN1 Control
Options are “Enabled” and “Disabled”. Select “Disabled” if you don’t
want to use onboard LAN controller1.
3.6.13 Onboard LAN2 Control
Options are “Enabled” and “Disabled”. Select Disabled if you don’t want
to use the onboard LAN controller2.
PCE-5120 User Manual 42
Figure 3.8: Super I/O Device
3.6.14 Onboard FDC Controller
When enabled, this field allows you to connect your floppy disk drives to
the onboard floppy disk drive connector instead of a separate controller
card. If you want to use a different controller card to connect the floppy
disk drives, set this field to Disabled.
3.6.15 Onboard Serial Port 1
The settings are “3F8/IRQ4”, “2F8/IRQ3”, “3E8/IRQ4”, “2E8/IRQ3”,
and “Disabled” for the on-board serial connector.
3.6.16 Onboard Serial Port 2
The settings are “3F8/IRQ4”, “2F8/IRQ3”, “3E8/IRQ4”, “2E8/IRQ3”,
and “Disabled” for the on-board serial connector.
3.6.17 UART Mode Select
This item allows you to select UART mode. The choices: “IrDA”,
“ASKIR”, and “Normal”.
3.6.18 RxD, TxD Active
This item allows you to determine the active level of the RxD and TxD
serial lines. The Choices: “Hi, Hi”, “Lo, Lo”, “Lo, Hi”, and “Hi, Lo”.
3.6.19 IR Transmission Delay
This item allows you to enable/disable IR transmission delay. The
choices are “Enabled” and “Disabled”.
43 Chapter 3
3.6.20 UR2 Duplex Mode
This item allows you to select the IR half/full duplex function. The
choices are “Half” and “Full”.
3.6.21 Use IR Pins
The choices are “RxD2, TxD2” and “IR-Rx2Tx2”.
3.6.22 Onboard Parallel Port
This field sets the address of the on-board parallel port connector. You
can select “378/IRQ7”, “278/IRQ5”, “3BC/IRQ7”, or “Disabled”. If you
install an I/O card with a parallel port, make sure there is no conflict in
the address assignments. The single board computer can support up to
three parallel ports.
3.6.23 Parallel Port Mode
This field allows you to set the operation mode of the parallel port. The
setting “Normal” allows normal speed operation, but in one direction
only. “EPP” allows bidirectional parallel port operation at maximum
speed. “ECP” allows the parallel port to operate in bidirectional mode and
at a speed faster than the maximum data transfer rate. “ECP + EPP”
allows normal speed operation in a two-way mode.
3.6.24 EPP Mode Select
This field allows you to select EPP port type 1.7 or 1.9. The choices are
“EPP1.9” and “EPP1.7”.
3.6.25 ECP Mode Use DMA
This selection is available only if you select “ECP” or “ECP + EPP” in
the Parallel Port Mode field. In ECP Mode, you can select DMA channel
1 or DMA channel 3. Leave this field on the default setting.
3.6.26 Onboard Serial Port 3
The settings are “4F8h/IRQ10”, “4E8h/IRQ10” and “Disabled” for the
on-board serial connector 3.
3.6.27 Onboard Serial Port 4
The settings are “4F8h/IRQ11”, “4E8h/IRQ11” and “Disabled” for the
on-board serial connector 4.
PCE-5120 User Manual 44
3.7 Power Management Setup
The power management setup controls the single board computer's
“green” features to save power. The following screen shows the manufac-
turer’s defaults.
Figure 3.9: Power management setup screen (1)
3.7.1 PCI express PM Function
This is to setup PCI Express's PME function “Enable” or “Disable”.
3.7.2 Power Supply Type
PCE-5120 can support both “ATX” and “AT” power supplies. Customers
can choose the PSU type through this selection. The choices are “ATX”
and “AT”. Selecting “AT” disables the ACPI function automatically.
3.7.3 ACPI Function
The choices are: “Enabled” and “Disabled”.
45 Chapter 3
3.7.4 Power Management
This category allows you to select the type (or degree) of power saving
and is directly related to the following modes:
• HDD Power Down
• Suspend Mode
There are three selections for Power Management, and they have fixed
mode settings.
3.7.5 Video Off Method
Use this to select the method to turn off the video. The choices are “Blank
Screen”, “V/H SYNC+ Blank”, and “DPMS”.
3.7.6 Video Off In Suspend
When the system is in suspend mode, the video will turn off. The choices
are “No” and “Yes”.
3.7.7 Suspend Type
The choices are “Stop Grant” and “PwrOn Suspend”.
3.7.8 Modem Use IRQ
This determines the IRQ that the MODEM can use.The choices are “3”,
“4”, “5”, “7”, “9”, “10”, “11”, and “NA”.
3.7.9 Suspend Mode
Please refer to 3.7.3
3.7.10 HDD Power Down
Please refer to 3.7.3
Table 3.1: Power Saving
Saving Mode Function
Min Saving Minimum power management., Suspend Mode = 1
hr., and HDD Power Down = 15 min.
Max Saving Maximum power management., Suspend Mode = 1
min., and HDD Power Down = 1 min.
User Defined
(Default)
Allows you to set each mode individually. When not
disabled, each of the ranges are from 1 min. to 1 hr.
except for HDD Power Down which ranges from 1
min. to 15 min., and disabled.
PCE-5120 User Manual 46
3.7.11 Soft-Off by PWR-BTTN
If you choose “Instant-Off”, then pushing the ATX soft power switch but-
ton once will switch the system to “system off” power mode. You can
choose “Delay 4 sec”. If you do, then pushing the button for more than 4
seconds will turn off the system, whereas pushing the button momentarily
(for less than 4 seconds) will switch the system to “suspend” mode.
3.7.12 PowerOn by LAN
This item allows you to power on the system by LAN. The choices are
“Enabled” and “Disabled”.
3.7.13 PowerOn by Modem
To enabled or disable the function to power on the system via a Modem
connection from a remote host. The choice “Enabled” and “Disabled”.
3.7.14 PowerOn by Alarm
The choices are “Enabled” and “Disabled”. Fields that follow below indi-
cate date of current month and time of alarm settings, if enabled.
3.7.15 Primary IDE 0 (1) and Secondary IDE 0 (1)
When Enabled, the system will resume from suspend mode if Primary
IDE 0 (1) or Secondary IDE 0 (1) becomes active. The choices are
“Enabled” and “Disabled”.
3.7.16 FDD, COM, LPT PORT
When Enabled, the system will resume from suspend mode if the FDD,
interface, COM port, or LPT port is active. The choices are “Enabled”
and “Disabled”.
3.7.17 PCI PIRQ [A-D]#
When Enabled, the system resumes from suspend mode if an interrupt
occurs. The choices are “Enabled” and “Disabled”.
3.7.18 PWRON After PWR-Fail
Use this to set up the system after power failure. The “Off” setting keeps
the system powered off after power failure, the “On” setting boots up the
system after failure, and the “Former-Sts” returns the system to the status
before power failure.
47 Chapter 3
3.8 PnP/PCI Configurations
Figure 3.10: PnP/PCI configurations screen
3.8.1 Reset Configuration Data
The default is Disabled. Select Enabled to reset Extended System Config-
uration Data (ESCD) if you have installed a new add-on card, and system
configuration is in such a state that the OS cannot boot.
3.8.2 Resources Controlled By
The commands here are “Auto (ESCD)” or “Manual”. Choosing “Man-
ual” requires you to choose resources from the following sub-menu.
“Auto (ESCD)” automatically configures all of the boot and Plug and
Play devices, but you must be using Windows 95 or above.
3.8.3 PCI / VGA Palette Snoop
This is set to “Disabled” by default.
3.8.4 Maximum Payload Size
This allows you to set the maximum TLP payload size for PCI Express
devices. The options are [128 bytes], [256 bytes], [512 bytes], [1024
bytes], [2048 bytes], and [4096 bytes].
PCE-5120 User Manual 48
3.9 PC Health Status
Figure 3.11: PC Health Status Screen
3.9.1 Case Open Warning
Enable this to detect if the case is open or closed.
3.9.2 CPU Warning Temperature
This item will prevent the CPU from overheating. The choices are “Dis-
abled”, “60C/140F”, “63C/145F”, “66C/151F”, “70C/158F”, “75C/
167F”, “80C/176F”, “85C/185F”, “90C/194F”, and “95C/205F”.
3.9.3 Current System Temperature
This shows you the current temperature of system.
3.9.4 Current CPU Temperature
This shows the current CPU temperature.
3.9.5 CPU FAN Speed
This shows the current CPU FAN operating speed.
3.9.6 System FAN 1 / 2 Speed
This shows the current System FAN operating speed.
3.9.7 VCORE and Other Voltages
This shows the voltage of VCORE, +1.5V, +3.3, +5V, +12V, -12V, -5V,
VBAT(V), and 5VSB(V).
3.9.8 Shutdown Temperature
The system will shut down automatically when the CPU temperature is
over the selected setting. This function can prevent CPU damage caused
by overheating.
49 Chapter 3
3.10 Frequency / Voltage Control
Figure 3.12: Spread Spectrum Control screen
3.10.1 CPU Clock Ratio
Type a DEC number to set up the CPU Clock Ratio (Min=14; Max=17).
This item only shows up in special situations.
3.10.2 Spread Spectrum
This setting allows you to reduce EMI by modulating the signals the CPU
generates so that the spikes are reduced to flatter curves. This is achieved
by varying the frequency slightly so that the signal does not use any par-
ticular frequency for more than a moment. The choices are “Disabled”
and “Enabled”.
PCE-5120 User Manual 50
3.11 Load Setup Defaults
Figure 3.13: Load Setup Defaults screen
When you press <Enter> on this item, you get a confirmation dialog box
with a message similar to:
• Load setup Defaults (Y/N)? N
Pressing 'Y' loads the default values that are factory settings for optimal
performance system operations.
3.12 Save & Exit Setup
If you select this and press <Enter>, the values entered in the setup utili-
ties will be recorded in the CMOS memory of the chipset. The processor
will check this every time you turn your system on and compare this to
what it finds as it checks the system. This record is required for the sys-
tem to operate.
3.13 Exit Without Saving
Selecting this option and pressing <Enter> lets you exit the setup program
without recording any new values or changing old ones.
51 Chapter 4
CHAPTER
4
Chipset Software
Installation Utility
PCE-5120 User Manual 52
Chapter 4 Chipset Software Install Utility
4.1 Before you begin
To facilitate the installation of the enhanced display drivers and utility
software, read the instructions in this chapter carefully. The drivers for
the PCE-5120 are located on the software installation CD. The auto-run
function of the driver CD will guide and link you to the utilities and driv-
ers under a Windows system. The Intel® Chipset Software Installation
Utility is not required on any systems running Windows NT 4.0. Updates
are provided via Service Packs from Microsoft*.
Before you begin, it is important to note that most display drivers need to
have the relevant software application already installed in the system
prior to installing the enhanced display drivers. In addition, many of the
installation procedures assume that you are familiar with both the rele-
vant software applications and operating system commands. Review the
relevant operating system commands and the pertinent sections of your
application software’s user manual before performing the installation.
4.2 Introduction
The Intel® Chipset Software Installation (CSI) utility installs the Win-
dows INF files that outline to the operating system how the chipset com-
ponents will be configured. This is needed for the proper functioning of
the following features:
• Core PCI and ISAPNP Services
• PCIe Support
Note: The files on the software installation CD are
compressed. Do not attempt to install the driv-
ers by copying the files manually. You must use
the supplied SETUP program to install the driv-
ers.
Note: The Auto-Run function only can run under the
32-bit Microsoft Windows OS. If it can’t run
under your system, please set up the driver
manually.
53 Chapter 4
• IDE/ATA33/ATA66/ATA100 Storage Support
• SATA Storage Support
• USB Support
• Identification of Intel (R) Chipset Components in the Device Manager
4.3 Windows XP Driver Setup
1. Insert the driver CD into your system's CD-ROM drive. In a few
seconds, the software installation main menu appears. Move the
mouse cursor over the “Install” button under the “CSI UTILITY”
heading. A message pops up telling you to install the CSI utility
before other device drivers, as shown in the following figure. Click
on this button. To take Windows XP as example.
Note: This utility is used for the following versions of
Windows system, and it has to be installed
before installing all the other drivers:
• Microsoft Windows* Server 2003 with Service Pack 1
• Microsoft Windows Server 2003 x64 Edition*
• Microsoft Windows XP Professional x64 Edition
• Microsoft Windows XP with Service Pack 2
• Microsoft Windows 2000 with Service Pack
PCE-5120 User Manual 54
2. Click “Next” when you see the following message.
3. Click “Yes” when you see the following message.
55 Chapter 4
4. Click “Next” when you see the following message.
5. When the following message appears, click “Finish” to complete
the installation and restart Windows.
57 Chapter 5
CHAPTER
5
VGA Setup
PCE-5120 User Manual 58
Chapter 5 VGA Setup
5.1 Introduction
The Intel 945G integrated graphics controller provides an analog display
port. You need to install the VGA driver to enable the function. The Intel
945G integrated graphics controller incorporates the latest Microsoft*
DirectX*9 support capabilities. It allows software developers to create
life like environments and characters. Enhanced display modes for wide-
screen flat panels, and optimized 3D support deliver an intense and realis-
tic visual experience without requiring a separate graphics card.
5.2 Windows XP Driver Setup
Insert the driver CD into your system's CD-ROM drive. In a few seconds,
the software installation main menu appears, as shown in the following
figure.
The following installation procedure is for Windows XP. For other oper-
ating systems, please do a manual installation.
Note: Before installing this driver, make sure the CSI
utility has been installed in your system. See
Chapter 4 for information on installing the CSI
utility.
59 Chapter 5
1. Click “Next” to continue the installation.
2. You will see a welcome window. Please click “Yes” to continue the
installation.
.
PCE-5120 User Manual 60
3. Click “Finish” to complete the installation and restart the computer
now or later.
61 Chapter 6
CHAPTER
6
Onboard Security
Setup
PCE-5120 User Manual 62
Chapter 6 Onboard Security Setup
6.1 Introduction
The PCE-5120's hardware monitor is based on the Winbond W83627HF
chip. Onboard security (OBS) functions monitor key hardware to help
you maintain system stability and durability. The PCE-5120 can monitor
five sets of positive system voltages, two sets of system negative volt-
ages, CPU cooling fan speed, and CPU temperature. The positive system
voltage sets that can be monitored include:
• CPU core voltage: 1.3 ~ 3.3 V, according to Intel specifications.
• Transmission voltage from CPU to chipset: typically 1.8 V.
• Chipset voltage: typically 3.3 V.
• Main voltage: +5 V, +12 V.
The negative system voltage sets which can be monitored include:
• Main voltage: -5 V, -12 V.
6.2 Windows XP Driver Setup
1. Insert the driver CD into your system's CD-ROM drive. In a few
seconds, the software installation main menu appears, as shown in
the following figure. Click on the “Install” button under the “OB
DRIVERS” heading.
63 Chapter 6
2. Click “Next” when you see the following message.
3. Click “Next” when you see the following message.
PCE-5120 User Manual 64
4. Click “Next” when you see the following message.
5. Click “Next” to continue.
65 Chapter 6
6. Click “Finish” when you see the following message.
6.3 Using the OBS Hardware Doctor Utility
After completing the setup, all the OBS functions are permanently
enabled. When a monitored reading exceeds safe limits, a warning mes-
sage will be displayed and an error beep will sound to attract your atten-
tion.
OBS Hardware Doctor will show an icon on the right side of the bottom
window bar. This icon is the “Terminate and Stay Resident” (TSR) icon.
It will permanently remain in the bottom window bar, and will activate
warning signals when triggered by the onboard security system.
You can view or change values for various OBS settings by following
these steps.
From the desktop of Windows, click on “Start” and select “Programs”,
select “Winbond HWDoctor” and click “HWDOCTOR”. It is recom-
mended that you load the default values for all the OBS settings. How-
ever, if desired, you can establish new conditions for voltage, fan speed,
and temperature.
PCE-5120 User Manual 66
67 Chapter 7
CHAPTER
7
LAN Configuration
PCE-5120 User Manual 68
Chapter 7 LAN Configuration
7.1 Introduction
The PCE-5120 has a single/dual Gigabit Ethernet LAN via dedicated PCI
Express x 1 bus (Intel® 82573), which offers bandwidth of up to 500
MB/sec, eliminating the bottleneck of network data flow and incorporat-
ing Gigabit Ethernet to operate at 1000 Mbps.
7.2 Features
• Integrated 10/100/100 BASE-T transceiver
• 10/100/1000 BASE-T triple-speed MAC
• High-speed RISC core with 24-KB cache
• On-chip voltage regulation
• Wake-on-LAN (WOL) support
• PCI Express X1 host interface
7.3 Installation
The PCE-5120 Intel 82573 Gigabit integrated controller supports all
major network operating systems. However, the installation procedure
varies with different operating systems. In the following sections, refer to
the one that provides the driver setup procedure for the operating system
you are using.
Note: Before installing the LAN drivers, make sure the
CSI utility has been installed on your system.
See Chapter 4 for information on installing the
CSI utility.
69 Chapter 7
7.4 Win XP Driver Setup (Intel 82573)
1. Insert the driver CD into your system's CD-ROM drive. In a few
seconds, the software installation main menu appears, as shown in
the following figure. Under the “LAN Drivers” heading, click on
the “Manual” to open file manager, then click “SETUP.EXE” to
run the installation procedure.
2. Select “I accept the terms in the license agreement” and click
“Next” to continue.
3. Click “Next” to continue.
PCE-5120 User Manual 70
4. Click “Install Software” to start the installation procedure.
71 Chapter 7
5. The driver will be installed automatically and the LAN function
will be enabled after the installation.
73 Chapter 8
CHAPTER
8
SATA RAID Setup
PCE-5120 User Manual 74
Chapter 8 SATA RAID Setup
8.1 Introduction
To support demanding disk I/O, Intel ICH7R chipset integrates four
Serial ATA controllers with software RAID 0, 1, 5, 10 capabilities.
RAID 0 stripping increases the storage performance and is designed to
speed up data transfer rates for disk-intensive applications.
RAID 1 mirroring protects valuable data that might be lost in the event of
a hard drive failure.
RAID 5 array contains three or more hard drives where the data is divided
into manageable blocks called strips. Parity is a mathematical method for
recreating data that was lost from a single drive, which increases fault-tol-
erance. The data and parity are striped across all the hard drives in the
array. The parity is striped in a rotating sequence to reduce bottlenecks
associated with the parity calculations.
RAID 10 array uses four hard drives to create a combination of RAID
levels 0 and 1. The data is striped across a two-drive array forming the
RAID 0 component. Each of the drives in the RAID 0 array is then mir-
rored by a RAID 1 component.
8.2 SATA RAID Driver and Utility Setup
The driver is put in the CD's path: \\Drv_RAID\ICH7R\Driver\32bit for
32bits Windows OS and path: \\ Drv_RAID\ICH7R\Driver\64bitXP for
64bits Windows OS.
You may go to the directory of the CD and follow Intel's installation
guide for install the driver and Utility.
Note: For the detail installation guide of SATA RAID
driver & utility please check the User Guide in
the driver CD. Path: \\MANUAL\SATA_RAID
Note: Operating system support list: Windows* XP,
Windows 2000, Windows Server 2003, Win-
dows XP x64 Edition, and Windows Server
2003 x64 Edition.
75 Chapter 9
CHAPTER
9
IPMI
PCE-5120 User Manual 76
Chapter 9 IPMI
9.1 IPMI introduction
This product fully supports Intelligent Platform Management Interface
2.0 (IPMI 2.0) specifications. It uses a micro-controller (Hitachi H8/
2167) to run an IPMI firmware.
9.2 Definitions
• BMC - (Baseboard Management Controller) This is the common abbre-
viation for an IPMI Baseboard Management Controller
• IPMB – (Intelligent Platform Management Bus) Protocol defined for
passing IPMI messages over a public I2C bus.
• IPMI - (Intelligent Platform Management Interface) A standardized
system management interface. Please refer to the IPMI Specification
for more detail.
• IPMIv2.0 – Specifically version 2.0 of IPMI
9.3 IPMI function list
The following standard IPMI commands will be supported. The 5th col-
umn (Mandatory / Optional) is the record to distinguish the command is
mandatory or optional based on the definitions of Intel IPMI specification
(Intelligent Platform Management Interface Specification v2.0, revision
1.0, Intel, HP, NEC and Dell).
Table 9.1: Supported IPMI commands
IPMI Device Global
Commands
NetFn Cmd Mandatory /
Optional
Get Device Id App 0x01 M
Cold Reset App 0x02 O
Get Self Test Results App 0x04 M
Manufacturing Test On App 0x05 O
Set ACPI Power State App 0x06 O
Get ACPI Power State App 0x07 O
Get Device GUID App 0x08 O
BMC Device and
Messaging Commands
NetFn Cmd Mandatory /
Optional
77 Chapter 9
Set BMC Global Enables App 0x2e M
Get BMC Global Enables App 0x2f M
Clear Message Flags App 0x30 M
Get Message Flags App 0x31 M
Enable Message Channel
Receive
App 0x32 O
Get Message App 0x33 M
Send Message App 0x34 M
Read Event Message Buffer App 0x35 O
Get System GUID App 0x37 O
Get Channel Authentication
Capabilities
App 0x38 O
Get Session Challenge App 0x39 O
Activate Session App 0x3a O
Set Session Privilege Level App 0x3b O
Close Session App 0x3c O
Get Session Information App 0x3d O
Get AuthCode App 0x3f O
Set Channel Access App 0x40 O
Get Channel Access App 0x41 O
Get Channel Info App 0x42 O
Set User Access App 0x43 O
Get User Access App 0x44 O
Set User Name App 0x45 O
Get User Name App 0x46 O
Set User Password App 0x47 O
Master Write-Read App 0x52 M
BMC Watchdog Timer
Commands
NetFn Cmd Mandatory /
Optional
Reset Watchdog Timer App 0x22 M
Set Watchdog Timer App 0x24 M
Get Watchdog Timer App 0x25 M
Chassis Device
Commands
NetFn Cmd Mandatory /
Optional
Get Chassis Capabilities Chassis 0x00 M
Get Chassis Status Chassis 0x01 M
Chassis Control Chassis 0x02 M
Chassis Identify Chassis 0x04 O
Set Chassis Capabilities Chassis 0x05 O
Get System Restart Cause Chassis 0x07 O
Set System Boot Options Chassis 0x08 O
PCE-5120 User Manual 78
Get System Boot Options Chassis 0x09 O
Set Front Panel Button Enables Chassis 0x0a O
Set Power Cycle Interval Chassis 0x0b O
Event Commands NetFn Cmd Mandatory /
Optional
Set Event Receiver S/E 0x00 M
Get Event Receiver S/E 0x01 M
Platform Event S/E 0x02 M
PEF and Alerting
Commands
NetFn Cmd Mandatory /
Optional
Get PEF Capabilities S/E 0x10 M
Arm PEF Postpone Timer S/E 0x11 M
Set PEF Configuration
Parameters
S/E 0x12 M
Get PEF Configuration
Parameters
S/E 0x13 M
Set Last Processed Event ID S/E 0x14 M
Get Last Processed Event ID S/E 0x15 M
Alert Immediate S/E 0x16 O
PET acknowledge S/E 0x17 O
SEL Device Commands NetFn Cmd Mandatory /
Optional
Get SEL Info Storage 0x40 M
Reserve SEL Storage 0x42 O
Get SEL Entry Storage 0x43 M
Add SEL Entry Storage 0x44 M
Clear SEL Storage 0x47 M
Get SEL Time Storage 0x48 M
Set SEL Time Storage 0x49 M
SDR Device Commands NetFn Cmd Mandatory /
Optional
Get SDR Repository Info Storage 0x20 M
Reserve SDR Repository Storage 0x22 M
Get SDR Storage 0x23 M
Get SDR Repository Time Storage 0x28 M
Set SDR Repository Time Storage 0x29 M
Run Initialization Agent Storage 0x2c O
FRU Device Commands NetFn Cmd Mandatory /
Optional
Get FRU Inventory Area Info Storage 0x10 M
79 Chapter 9
Read FRU Inventory Data Storage 0x11 M
Write FRU Inventory Data Storage 0x12 M
Sensor Device
Commands
NetFn Cmd Mandatory /
Optional
Set Sensor Hysteresis S/E 0x24 O
Get Sensor Hysteresis S/E 0x25 O
Set Sensor Threshold S/E 0x26 O
Get Sensor Threshold S/E 0x27 O
Set Sensor Event Enable S/E 0x28 O
Get Sensor Event Enable S/E 0x29 O
Re-arm Sensor Events S/E 0x2a O
Get Sensor Event Status S/E 0x2b O
Get Sensor Reading S/E 0x2d M
LAN Device Commands NetFn Cmd Mandatory /
Optional
Set LAN Configuration Parame-
ters
Transport 0x01 M
Get LAN Configuration Param-
eters
Transport 0x02 M
Serial/Modem Device
Commands
NetFn Cmd Mandatory /
Optional
Set Serial/Modem Configura-
tion Parameters
Transport 0x10 M
Get Serial/Modem Configura-
tion Parameters
Transport 0x11 M
Set Serial/Modem Mux Transport 0x12 M
Note: Network function (NetFn) is a field that identifies
the functional class of the message. The Net-
work Function clusters IPMI commands into dif-
ferent sets. You can refer the IPMI spec of
network function codes for more information.
Note: These command codes follow the IPMI spec.
Note: Mandatory and Optional command are define in
IPMI spec. If you want to know more detail,
please refer to IPMI spec.
PCE-5120 User Manual 80
9.4 IPMI OEM command lists
In addition to the above list of IPMI commands, the following OEM com-
mands will be supported.
Table 9.2: OEM Commands list
Net Function = 0x2E, LUN = 0
Code Command Request, Response Data Description
05h Set System
GUID
Request:
Byte 1:16 – System GUID
Response:
Byte 1 — Completion code.
This command is
used to set the
system GUID.
The GUID can be
retrieved using a
standard IPMI
command.
0Dh Reset to
Defaults
Request:
Reset module ID
Byte 1[7:0]
1 = OEM module
2 = LAN module
3 = User Info module
4 = Serial module
5 = SOL module
6 = PEF module
7 = Firewall module
8 = System Information
0xFF = all modules
Byte 2:4
Reserved.
Response:
Byte 1
Status of Reset to Default. If fail,
this value indicate the last fail
module and the reset process
stops.
[7:0]
0 = success
1 = fail in OEM module
2 = fail in LAN module
3 = fail in User Info module
4 = fail in Serial module
5 = fail in SOL module
6 = fail in PEF module
7 = fail in Firewall module
8 = fail in System Information
This command
resets the BMC
configuration to
default values.
81 Appendix A
Appendix
A
Programming the
Watchdog Timer
PCE-5120 User Manual 82
Appendix A Watchdog Timer
A.1 Programming the Watchdog Timer
The PCE-5120's watchdog timer can be used to monitor system software
operation and take corrective action if the software fails to function
within the programmed period. This section describes the operation of the
watchdog timer and how to program it.
A.1.1 Watchdog timer overview
The watchdog timer is built in to the super I/O controller W83627HF. It
provides the following functions for user programming:
• Can be enabled and disabled by user's program
• Timer can be set from 1 to 255 seconds or 1 to 255 minutes
• Generates an interrupt or resets signal if the software fails to reset the
timer before time-out
A.1.2 Jumper selection
The JWDT1 jumper is used to select reset in the event the watchdog timer
is tripped. See Chapter 1 for detailed jumper settings.
A.1.3 Programming the Watchdog Timer
The I/O port address of the watchdog timer is 2E(hex) and 2F(hex).
2E (hex) is the address port. 2F(hex) is the data port. You must first
assign the address of register by writing an address value into address
port 2E (hex), then write/read data to/from the assigned register through
data port 2F (hex).
83 Appendix A
Unlock W83627HF
Select register of
watchdog timer
Enable the function of
the watchdog timer
Use the function of
Lock W83627HF
the watchdog timer
PCE-5120 User Manual 84
Table A.1: Watchdog timer registers
Address of
register (2E)
Attribute
Read/Write Value (2F)
&
description
87 (hex) ----- Write this address to I/O address
port 2E (hex) twice to unlock the
W83627HF
07 (hex) write Write 08 (hex) to select register of
watchdog timer.
30 (hex) write Write 01 (hex) to enable the func-
tion of the watchdog timer. Disabled
is set as default.
F5 (hex) write Set seconds or minutes as units for
the timer.
Write 0 to bit 3: set
second as count-
ing unit. [default]
Write 1 to bit 3: set
minutes as count-
ing unit
F6 (hex) write 0: stop timer [default]
01~FF (hex): The amount of the
count, in seconds or minutes,
depends on the value set in register
F5 (hex). This number decides how
long the watchdog timer waits for
strobe before generating an inter-
rupt or reset signal. Writing a new
value to this register can reset the
timer to count with the new value.
F7 (hex) read/write Bit 6: Write 1 to enable keyboard to
reset the timer, 0 to disable.[default]
Bit 5: Write 1 to generate a timeout
signal immediately and automati-
cally return to 0. [default=0]
Bit 4: Read status of watchdog
timer, 1 means timer is “timeout”.
AA (hex) ----- Write this address to I/O port 2E
(hex) to lock the watchdog timer 2.
85 Appendix A
A.1.4 Example Program
1. Enable watchdog timer and set 10 sec. as timeout interval
;-----------------------------------------------------------
Mov dx,2eh ; Unlock W83627HF
Mov al,87h
Out dx,al
Out dx,al
;-----------------------------------------------------------
Mov al,07h ; Select registers of watchdog timer
Out dx,al
Inc dx
Mov al,08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable the function of watchdog timer
Mov al,30h
Out dx,al
Inc dx
Mov al,01h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Set second as counting unit
Mov al,0f5h
Out dx,al
Inc dx
In al,dx
And al,not 08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Set timeout interval as 10 seconds and start counting
Mov al,0f6h
Out dx,al
PCE-5120 User Manual 86
Inc dx
Mov al,10
Out dx,al
;-----------------------------------------------------------
Dec dx ; lock W83627HF
Mov al,0aah
Out dx,al
2. Enable watchdog timer and set 5 minutes as timeout interval
;-----------------------------------------------------------
Mov dx,2eh ; unlock W83627HF
Mov al,87h
Out dx,al
Out dx,al
;-----------------------------------------------------------
Mov al,07h ; Select registers of watchdog timer
Out dx,al
Inc dx
Mov al,08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable the function of watchdog timer
Mov al,30h
Out dx,al
Inc dx
Mov al,01h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Set minute as counting unit
Mov al,0f5h
Out dx,al
Inc dx
87 Appendix A
In al,dx
Or al,08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Set timeout interval as 5 minutes and start counting
Mov al,0f6h
Out dx,al
Inc dx
Mov al,5
Out dx,al
;-----------------------------------------------------------
Dec dx ; lock W83627HF
Mov al,0aah
Out dx,al
3. Enable watchdog timer to be reset by mouse
;-----------------------------------------------------------
Mov dx,2eh ; unlock W83627HF
Mov al,87h
Out dx,al
Out dx,al
;-----------------------------------------------------------
Mov al,07h ; Select registers of watchdog timer
Out dx,al
Inc dx
Mov al,08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable the function of watchdog timer
Mov al,30h
Out dx,al
Inc dx
PCE-5120 User Manual 88
Mov al,01h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable watchdog timer to be reset by mouse
Mov al,0f7h
Out dx,al
Inc dx
In al,dx
Or al,80h
Out dx,al
;-----------------------------------------------------------
Dec dx ; lock W83627HF
Mov al,0aah
Out dx,al
4. Enable watchdog timer to be reset by keyboard
;-----------------------------------------------------------
Mov dx,2eh ; unlock W83627HF
Mov al,87h
Out dx,al
Out dx,al
;-----------------------------------------------------------
Mov al,07h ; Select registers of watchdog timer
Out dx,al
Inc dx
Mov al,08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable the function of watchdog timer
Mov al,30h
Out dx,al
Inc dx
89 Appendix A
Mov al,01h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable watchdog timer to be strobed reset by keyboard
Mov al,0f7h
Out dx,al
Inc dx
In al,dx
Or al,40h
Out dx,al
;-----------------------------------------------------------
Dec dx ; lock W83627HF
Mov al,0aah
Out dx,al
5. Generate a time-out signal without timer counting
;-----------------------------------------------------------
Mov dx,2eh ; unlock W83627HF
Mov al,87h
Out dx,al
Out dx,al
;-----------------------------------------------------------
Mov al,07h ; Select registers of watchdog timer
Out dx,al
Inc dx
Mov al,08h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Enable the function of watchdog timer
Mov al,30h
Out dx,al
Inc dx
PCE-5120 User Manual 90
Mov al,01h
Out dx,al
;-----------------------------------------------------------
Dec dx ; Generate a time-out signal
Mov al,0f7h
Out dx,al ;Write 1 to bit 5 of F7 register
Inc dx
In al,dx
Or al,20h
Out dx,al
;-----------------------------------------------------------
Dec dx ; lock W83627HF
Mov al,0aah
Out dx,al
91 Appendix B
Appendix
B
I/O Pin Assignments
PCE-5120 User Manual 92
Appendix B I/O Pin Assignments
B.1 IDE Hard Drive Connector (IDE1)
Table B.1: IDE hard drive connector (IDE1)
Pin Signal Pin Signal
1IDE RESET* 2 GND
3DATA 7 4DATA 8
5DATA 6 6DATA 9
7DATA 5 8DATA 10
9DATA 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 15
19 SIGNAL GND 20 N/C
21 DISK DMA REQUEST 22 GND
23 IO WRITE 24 GND
25 IO READ 26 GND
27 IO CHANNEL READY 28 CSEL
29 HDACKO* 30 GND
31 IRQ14 32 IDSC16-
33 ADDR 1 34 PDIAG
35 ADDR 0 36 ADDR 2
37 HARD DISK SELECT 0* 38 HARD DISK SELECT 1*
39 IDE ACTIVE* 40 GND
* low active
93 Appendix B
B.2 Floppy Drive Connector (FDD1)
Table B.2: Floppy drive connector (FDD1)
Pin Signal Pin Signal
1GND 2FDHDIN*
3GND4N/C
5N/C 6FDEDIN*
7 GND 8 INDEX*
9GND 10 MOTOR 0*
11 GND 12
DRIVE SELECT 1*
13 GND 14
DRIVE SELECT 0*
15 GND 16 MOTOR 1*
17 GND 18 DIRECTION*
19 GND 20 STEP*
21 GND 22 WRITE DATA*
23 GND 24 WRITE GATE*
25 GND 26 TRACK 0*
27 GND 28
WRITE PROTECT*
29 GND 30 READ DATA*
31 GND 32 HEAD SELECT*
33 GND 34 DISK CHANGE*
* low active
434
33 3
32
31 1
2
PCE-5120 User Manual 94
B.3 Parallel Port Connector (LPT1)
Table B.3: Parallel port connector (LPT1)
Pin Signal Pin Signal
1STROBE* 14 AUTOFD*
2D015ERR
3D1 16 INIT*
4D217SLCTINI*
5D3 18 GND
6D419GND
7D5 20 GND
8D621GND
9D7 22 GND
10 ACK* 23 GND
11 BUSY 24 GND
12 PE 25 GND
13 SLCT 26 N/C
* low active
1526
13 2
25
12 1
14
95 Appendix B
B.4 VGA Connector (VGA1)
Table B.4: VGA connector (VGA1)
Pin Signal Pin Signal
1RED 9VCC
2 GREEN 10 GND
3BLUE 11 N/C
4N/C12SDT
5 GND 13 H-SYNC
6 GND 14 V-SYNC
7 GND 15 SCK
5
15
1
11
10 6
PCE-5120 User Manual 96
B.5 RS-232 Serial Port (COM1, COM2, COM3, COM4)
Table B.5: RS-232 serial port (COM1, COM2, COM3, COM4)
Pin Signal
1DCD
2RXD
3TXD
4DTR
5GND
6DSR
7RTS
8CTS
9RI
10 N/A
8
57
6
93
2
4
1
97 Appendix B
B.6 PS/2 Keyboard/Mouse Connector (KBMS1)
B.7 External Keyboard Connector (KBMS2)
Table B.6: PS/2 keyboard/mouse connector
(KBMS1)
Pin Signal
1KB DATA
2MS DATA
3GND
4VCC
5KB CLOCK
6MS CLOCK
Table B.7: External keyboard connector (KBMS2)
Pin Signal
1KBCLK
2 KBDAT
3MSDAT
4GND
5MSVCC
6MSCLK
5
3
12
4
6
54 2316
PCE-5120 User Manual 98
B.8 CPU Fan Power Connector (CPUFAN1)
B.9 Power LED and Keyboard Lock Connector (JFP3 /
PWR_LED & KEY LOCK)
Table B.8: CPU Fan Power Connector
(CPUFAN1)
Pin Signal
1GND
2+12V
3Detect
4 FANPWM
Table B.9: Power LED and Keyboard Lock Connector (JFP3 /
PWR_LED & KEY LOCK)
Pin Signal
1LED power (+5 V)
2NC
3 GND
4 KEYLOCK#
5 GND
1
2
4
3
99 Appendix B
B.10 External Speaker Connector (JFP2 / SPEAKER)
B.11 Reset Connector (JFP1 / RESET)
Table B.10:External Speaker Connector (JFP2 / SPEAKER)
Pin Signal
1SPK+
2NC
3SPK_IN
4 SPK-
Table B.11:Reset connector (JFP1 / RESET)
Pin Signal
1 RESET #
2GND
PCE-5120 User Manual 100
B.12 HDD LED (JFP2 / HDDLED)
B.13 ATX Soft Power Switch (JFP1 / PWR_SW)
Table B.12:HDD LED (JFP2 / HDDLED)
Pin Signal
1IDE LED+
2IDE LED-
Table B.13:ATX soft power switch
(JFP1 / PWR_SW)
Pin Signal
1 5VSB
2PWR-BTN
101 Appendix B
B.14 AC'97 Link connector (AC97)
B.15 SM Bus Connector (JFP2 / SNMP)
Table B.14:AC'97 Link connector (AC97)
Pin Signal Pin Signal
1 VCC 2 GND
3 Sync 4 BITCLK
5 SDOUT 6 SDIN0
7 SDIN1 8 AC-RST
9 +12V 10 GND
11 GND 12 N/C
Table B.15:SM bus connector (JFP2 / SNMP)
Pin Signal
1SMB_DATA
2 SMB_CLK
PCE-5120 User Manual 102
B.16 LAN1 and LAN2 LED connector (LANLED1)
Table B.16:LAN1 and LAN2 LED connector (LANLED1)
Pin Signal
1#LAN1_ACT
2 V33_AUX
3#LAN1_LINK1000
4 #LAN1_LINK100
5V33_AUX
6 #LAN2_ACT
7V33_AUX
8 #LAN2_LINK1000
9#LAN2_LINK100
4
5
3
6
12
87
9
103 Appendix B
B.17 System I/O Ports
Table B.17:System I/O ports
Addr. range (Hex) Device
000-01F DMA controller
020-021 Interrupt controller 1, master
022-023 Chipset address
040-05F 8254 timer
060-06F 8042 (keyboard controller)
070-07F Real-time clock, non-maskable interrupt (NMI)
mask
080-09F DMA page register
0A0-0BF Interrupt controller 2
0C0-0DF DMA controller
0F0 Clear math co-processor
0F1 Reset math co-processor
0F8-0FF Math co-processor
1F0-1F8 Fixed disk
200-207 Game I/O
278-27F Parallel printer port 2 (LPT3)
290-297 On-board hardware monitor
2F8-2FF Serial port 2
300-31F Prototype card
360-36F Reserved
378-37F Parallel printer port 1 (LPT2)
380-38F SDLC, bisynchronous 2
3A0-3AF Bisynchronous 1
3B0-3BF Monochrome display and printer adapter (LPT1)
3C0-3CF Reserved
3D0-3DF Color/graphics monitor adapter
3F0-3F7 Diskette controller
3F8-3FF Serial port 1
PCE-5120 User Manual 104
B.18 DMA Channel Assignments
Table B.18:DMA channel assignments
Channel Signal
0Available
1Available
2Floppy disk (8-bit transfer)
3Available
4Cascade for DMA controller 1
5Available
6Available
7Available
105 Appendix B
B.19 Interrupt Assignments
B.20 1st MB Memory Map
Table B.19:Interrupt assignments
Priority Interrupt# Interrupt source
1NMI Parity error detected
2 IRQ0 Interval timer
3IRQ1 Keyboard
- IRQ2 Interrupt from controller 2 (cascade)
4IRQ8 Real-time clock
5 IRQ9 Cascaded to INT 0A (IRQ 2)
6IRQ10 Available
7 IRQ11 Available
8IRQ12 PS/2 mouse
9 IRQ13 INT from co-processor
10 IRQ14 Primary IDE Channel
11 IRQ15 Secondary IDE Channel
12 IRQ3 Serial communication port 2
13 IRQ4 Serial communication port 1
14 IRQ5 Parallel port 2
15 IRQ6 Diskette controller (FDC)
16 IRQ7 Parallel port 1 (print port)
Table B.20:1st MB memory map
Addr. range (Hex) Device
E0000h - FFFFFh BIOS
CC000h - DFFFFh Unused
C0000h - CBFFFh VGA BIOS
A0000h - BFFFFh Video Memory
00000h - 9FFFFh Base memory
PCE-5120 User Manual 106
B.21 PCI Bus Map
Table B.21:PCI bus map
Signal IDSEL INT# pin GNT REQ
SCSI AD19 INT B,C GNT B REQ B
PCI slot 1 AD31
INT D, A, B, C
GNT A REQ A
PCI slot 2 AD30
INT C, D, A, B
GNT B REQ B
PCI slot 3 AD29 INT B,C,D,A GNT C REQ C
PCI slot 4 AD28
INT A, B, C, D
GNT D REQ D
