PCM-9380 User Manual

PCM-9380
Pentium® M 3.5" SBC with MIO,
VGA, LCD, LVDS, Ethernet, USB
2.0 and SSD
User Manual
Copyright
This document is copyrighted, © 2006. All rights are reserved. The original manufacturer reserves the right to make improvements to the products
described in this manual at any time without notice.
No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of
the original manufacturer. Information provided in this manual is
intended to be accurate and reliable. However, the original manufacturer
assumes no responsibility for its use, nor for any infringements upon the
rights of third parties that may result from such use.
Acknowledgements
Award is a trademark of Award Software International, Inc.
VIA is a trademark of VIA Technologies, Inc.
IBM, PC/AT, PS/2 and VGA are trademarks of International Business
Machines Corporation.
Intel, Pentium, Celeron, and MMX are registered trademarks of Intel Corporation.
Microsoft Windows® is a registered trademark of Microsoft Corp.
RTL is a trademark of Realtek Semi-Conductor Co., Ltd.
ESS is a trademark of ESS Technology, Inc.
UMC is a trademark of United Microelectronics Corporation.
SMI is a trademark of Silicon Motion, Inc.
Creative is a trademark of Creative Technology LTD.
All other product names or trademarks are properties of their respective
owners.
For more information on this and other Advantech products, please visit
our websites at:
http://www.advantech.com
http://www.advantech.com/eplatform
For technical support and service, please visit our support website at:
http://www.advantech.com/support
This manual is for the PCM-9380.
Part No. 2006938012
3rd Edition
Printed in Taiwan
Nov. 2006
PCM-9380 User Manual
ii
Packing List
Before you begin installing your card, please make sure that the following
materials have been shipped:
• 1 PCM-9380 SBC
• 1 Startup manual
• 1 Utility CD
• 1 Mini jumper pack
p/n: 9689000002
• 1 Audio cable
p/n: 1703100152
• 1 IDE 44 pin cable
p/n: 1701440351
• 1 USB 2 port cable
p/n: 1703100121
• 1 Parallel port cable
p/n: 1700260250
• 1 Keyboard/Mouse cable
p/n: 1700060202
• 1 FDD adapter for slim FDD and FDD p/n: 9681000044
• 1 Cable for slim FDD
p/n: 1701260125
• 1 Flat cable for FDD
p/n: 1701340700
• 1 Embedded COM port cable
p/n: 1701140201
• 1 ATX power cable 20P-12P cable
p/n: 1700000265
If any of these items are missing or damaged, contact your distributor or
sales representative immediately.
iii
Model No. List
Description
PCM-9380F-00A2E
3.5" SBC, uFCPGA SKT 478 with VGA,
LVDS, LAN, USB, MIO
PCM-9380FG-00A2E
3.5" SBC, uFCPGA SKT 478 with VGA,
LVDS, Gigabit LAN, USB, MIO
PCM-9380F-M0A2E
3.5" SBC with ULV Celeron M 600 (512
KB) VGA, LVDS, LAN, USB, MIO
PCM-9380F-S0A2E
3.5" SBC with ULV Celeron M 373, 1.0 G
(512 KB) VGA, LVDS, LAN, USB, MIO
PCM-9380F-S1A2E
3.5" SBC with Pentium M 1.1 G, VGA,
LVDS, LAN, USB, MIO
PCM-9380S-54A2E
PCM-9380F-S0A1E, MIO-6254, XPe OS,
512 MB CF, 512 MB RAM
PCM-9380S-60A2E
PCM-9380F-S0A1E, MIO-6260, XPe OS,
512 MB CF, 512 MB RAM
PCM-9380 User Manual
iv
Additional Information and Assistance
Step 1. Visit the Advantech web site at www.advantech.com where you
can find the latest information about the product.
Step 2. Contact your distributor, sales representative, or Advantech's customer service center for technical support if you need additional
assistance. Please have the following information ready before
you call:
• Product name and serial number
• Description of your peripheral attachments
• Description of your software (operating system, version,
application software, etc.)
• A complete description of the problem
• The exact wording of any error messages
v
This device complies with the requirements in part
15 of the FCC rules: Operation is subject to the following two conditions:
1.This device may not cause harmful interference,
and
2.This device must accept any interference
received, including interference 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 interference 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 modifications 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!
Achtung!
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 manufacturer. Discard used batteries according to the manufacturer’s instructions.
PCM-9380 User Manual
vi
Contents
Chapter
1 Introduction ......................................................2
1.1
1.2
1.3
Introduction ....................................................................... 2
Features ............................................................................. 2
Specifications .................................................................... 3
1.3.1
1.3.2
1.3.3
1.3.4
1.3.5
1.4
Standard 3.5" Biscuit SBC Functions............................. 3
VGA/LVDS Interface ..................................................... 4
Ethernet Interface............................................................ 4
Audio Function ............................................................... 4
Mechanical and Environmental ...................................... 4
Board layout and dimensions ............................................ 6
Figure 1.2:Board layout and Dimensions (Solder Side) . 7
Chapter
2 Installation ......................................................10
2.1
Jumpers............................................................................ 10
2.1.1
2.1.2
Jumper Location ........................................................... 10
Table 2.1:Jumpers......................................................... 10
Jumper Settings............................................................. 11
Table 2.2:Audio Power Selector (J1)............................ 11
Table 2.3:COM2 Mode Setting(J3/J4/J5)..................... 11
Table 2.4:LCD Power Setting (J6) ............................... 11
Table 2.5:Audio Enable/Disable (J7)............................ 11
Table 2.6:AT/ATX Power Setting (J8)......................... 11
Table 2.7:Clear CMOS (S1) ......................................... 12
2.2
Connectors....................................................................... 13
2.3
Locating Connectors ....................................................... 14
Table 2.8:Connectors .................................................... 13
2.3.1
2.4
2.5
2.6
Setting Jumpers ............................................................... 22
Installing SO-DIMM ....................................................... 23
IDE connector (CN6) ...................................................... 23
2.6.1
2.7
2.8
Connecting the hard drive............................................. 23
CompactFlash (CN21)..................................................... 24
Floppy Disk Drive connector (CN20)............................. 24
2.8.1
2.9
2.10
2.11
2.12
Figure 2.1:Connectors (component side)...................... 14
Figure 2.2:Connectors (solder side).............................. 15
Connector's Pin Sequence Drawing.............................. 16
Connecting the floppy disk drive.................................. 24
Parallel port connector (CN13) ....................................... 25
Keyboard and PS/2 mouse connector (CN14) ................ 25
Power & HDD LED Connector (CN10) ......................... 25
Power connectors (CN3, CN15)...................................... 26
2.12.1 Main power connector (CN3) ....................................... 26
vii
2.12.2 Fan power connector (CN15) ....................................... 26
2.13
Audio interfaces (CN2) ................................................... 26
2.13.1 Audio connector (CN2) ................................................ 26
2.14
COM port connectors (CN8, CN19) ............................... 26
2.14.1 COM2 RS-232/422/485 setting (J3/J4/J5).................... 26
Table 2.9: COM2 RS-232/422/485 selection (J3/J4/J5)26
2.15
VGA/LCD/LVDS interface connections ........................ 27
2.15.1 CRT display connector (CN18) .................................... 27
2.15.2 LVDS LCD panel connector (CN1) ............................. 27
2.16
Ethernet configuration..................................................... 27
2.16.1 100Base-T/1000Base-T connector (CN12) .................. 27
2.16.2 Network boot ................................................................ 27
2.17
2.18
2.19
2.20
2.21
Watchdog timer configuration ........................................ 28
USB connectors (CN5, CN9) .......................................... 28
GPIO (CN7) .................................................................... 28
MIO Connector (CN4) .................................................... 28
SMBus/SIR Connector (CN11)....................................... 28
2.21.1 SMBus (Default)........................................................... 28
2.21.2 SIR (Optional)............................................................... 29
Chapter
3 Chipset Software Installation Utility............32
3.1
3.2
3.3
Chapter
Before you begin ............................................................. 32
Introduction ..................................................................... 32
Installing the CSI Utility ................................................. 33
4 Award BIOS Setup.........................................38
4.1
Introduction ..................................................................... 38
4.1.1
CMOS RAM Auto-backup and Restore ....................... 38
4.2
Entering Setup ................................................................. 39
4.3
Standard CMOS Setup .................................................... 40
4.4
Advanced BIOS Features ................................................ 41
Figure 4.1:Award BIOS Setup initial screen ................ 39
Figure 4.2:Standard CMOS features screen ................. 40
4.4.1
4.4.2
4.4.3
4.4.4
4.4.5
4.4.6
4.4.7
4.4.8
4.4.9
4.4.10
4.4.11
PCM-9380 User Manual
Figure 4.3:Advanced BIOS features screen.................. 41
Virus Warning............................................................... 41
L1 & L2 Cache ............................................................. 41
Quick Power On Self Test ............................................ 41
First/Second/Third/Other Boot Device......................... 42
Swap Floppy Drive ....................................................... 42
Boot UP Floppy Seek ................................................... 42
Boot Up NumLock Status............................................. 42
Gate A20 Option........................................................... 42
Typematic Rate Setting................................................. 42
Typematic Rate (Chars/Sec) ......................................... 42
Typematic Delay (msec)............................................... 42
viii
4.4.12 Security Option ............................................................. 42
4.4.13 APIC Mode ................................................................... 43
4.4.14 MPS Version Control For OS....................................... 43
4.5
Integrated Peripherals...................................................... 43
4.5.1
4.5.2
4.5.3
4.5.4
4.5.5
4.5.6
4.5.7
4.5.8
4.5.9
4.5.10
4.5.11
4.5.12
4.5.13
4.5.14
4.5.15
4.5.16
4.5.17
4.5.18
4.6
Power Management Setup............................................... 46
4.6.1
4.6.2
4.6.3
4.6.4
4.6.5
4.6.6
4.6.7
4.6.8
4.6.9
4.6.10
4.6.11
4.6.12
4.6.13
4.6.14
4.7
IDE Master/Slave PIO/UDMA Mode,.......................... 43
On-Chip Secondary PCI IDE........................................ 44
Figure 4.4:Integrated peripherals.................................. 44
USB Controller ............................................................. 44
USB Keyboard/Mouse Support .................................... 44
AC97 Audio.................................................................. 44
Init Display First ........................................................... 44
Onboard LAN Control .................................................. 44
IDE HDD Block Mode ................................................. 45
Onboard FDC Controller .............................................. 45
Onboard Serial Port ...................................................... 45
UART Mode Select ...................................................... 45
RxD, TxD Active.......................................................... 45
IR Transmission Delay ................................................. 45
UR2 Duplex Mode........................................................ 45
Onboard Parallel Port.................................................... 45
Parallel Port Mode ........................................................ 45
EPP Mode Select .......................................................... 46
ECP Mode Use DMA ................................................... 46
Figure 4.5:Power management setup screen................. 46
Power-Supply Type ...................................................... 46
ACPI function ............................................................... 46
Power Management ...................................................... 47
Video Off In Suspend ................................................... 47
Modem Use IRQ........................................................... 47
HDD Power Down........................................................ 47
Soft-Off by PWR-BTTN .............................................. 47
CPU THRM-Throttling................................................. 47
PowerOn By LAN ........................................................ 47
PowerOn By Modem .................................................... 48
PowerOn By Alarm ...................................................... 48
Primary IDE 0 (1) and Secondary IDE 0 (1) ................ 48
FDD, COM, LPT PORT ............................................... 48
PCI PIRQ [A-D]# ......................................................... 48
PnP/PCI Configurations .................................................. 49
4.7.1
4.7.2
4.7.3
4.7.4
PnP OS Installed ........................................................... 49
Figure 4.6:PnP/PCI configurations screen.................... 49
Reset Configuration Data.............................................. 49
Resources controlled by:............................................... 49
PCI/VGA Palette Snoop ............................................... 49
ix
4.8
4.9
4.10
Chapter
Password Setting ............................................................. 50
Save & Exit Setup ........................................................... 50
Exit Without Saving ........................................................ 51
5 PCI SVGA/LCD Setup ..................................54
5.1
Introduction ..................................................................... 54
5.1.1
5.1.2
5.1.3
5.2
Connections to Two Standard LCDs............................... 56
5.2.1
5.2.2
5.3
Chapter
Introduction ..................................................................... 64
Driver installation............................................................ 64
6.2.1
6.2.2
Before you begin........................................................... 64
Windows 98 drivers ...................................................... 65
7 Ethernet Interface ..........................................68
7.1
7.2
Introduction ..................................................................... 68
Installation of Ethernet driver ......................................... 68
7.2.1
7.2.2
7.3
Chapter
Installation of Windows 98/2000.................................. 58
Further Information ......................................................... 61
6 Audio Setup.....................................................64
6.1
6.2
Chapter
LG LM 150x06 (1024x768 LVDS LCD) ..................... 56
Table 5.1:Connections to LCD/Flat Panel (CN1)......... 56
AU M170EG01 (1280x1024 TFT LCD @ 48bit) ..... 57
Table 5.2:Connections to AU M170EG01 (CN1) ........ 57
Installation of the SVGA Driver ..................................... 58
5.3.1
5.4
CMOS setting for panel type ....................................... 54
Display type ................................................................. 54
Dual Independent Display ........................................... 54
Installation for Windows 98 ......................................... 68
Installation for Windows 2000 ..................................... 72
Further information ......................................................... 77
8 Installing MIO Modules ................................80
8.1
MIO Introduction ............................................................ 80
8.1.1
8.1.2
8.1.3
8.2
Optional Modules............................................................ 80
8.2.1
8.2.2
8.2.3
8.3
8.4
The most flexible embedded interface.......................... 80
An SBC shortcut to system design wins....................... 80
PCM-9380 + MIO-6254: the best combination............ 80
MIO-6250 module with fast Ethernet and LAN bypass80
MIO-6253 4 COM port module.................................... 81
MIO-6254 DVO to DVI/TV/Audio module................. 81
Installing MIO Modules .................................................. 81
MIO drawings ................................................................. 82
Figure 8.1:MIO module mounting diagram.................. 83
Table 8.1:MIO connectors ............................................ 84
Appendix A GPIO & Watchdog Timer Programming ....88
A.1
Supported GPIO Register................................................ 88
PCM-9380 User Manual
x
A.1.1
A.1.2
A.2
GPIO Registers ............................................................. 88
GPIO Example program-1 ........................................... 89
Watchdog programming.................................................. 91
Appendix B Pin Assignments .............................................94
B.1
CPU Fan Power Connector (CN15) ................................ 94
B.2
Audio Connector (CN2) .................................................. 94
B.3
Main Power Connector (CN3) ........................................ 95
B.4
Keyboard and PS/2 Mouse Connector (CN14) ............... 95
B.5
Floppy Disk Drive Connector (CN20) ............................ 96
B.6
IDE Hard Drive Connector (CN6) .................................. 97
B.7
Parallel Port Connector (CN13) ...................................... 98
B.8
Power & HDD LED Connector (CN10) ......................... 99
B.9
USB Connector (CN5) .................................................... 99
B.10
Inverter Power Connector (CN17) ................................ 100
B.11
LVDS Connector (CN1)................................................ 101
B.12
COM2 RS232/422/485 series port (CN8)..................... 102
Table B.1:IR connector (CN15).................................... 94
Table B.2:Audio connector (CN2)................................ 94
Table B.3:Main Power Connector (CN3) ..................... 95
Table B.4:Keyboard and mouse connector (CN14)...... 95
Table B.5:Floppy Disk Drive Connector (CN20)......... 96
Table B.6:IDE HDD connector (CN6) ......................... 97
Table B.7:Parallel Port Connector (CN13)................... 98
Table B.8:Power & HDD LED Connector (CN10)...... 99
Table B.9:USB Connector (CN5)................................. 99
Table B.10:Inverter Power Connector (CN17)........... 100
Table B.11:LVDS Connector (CN1) .......................... 101
Table B.12:COM2 RS-232/422/485 serial port (CN8).....
.........................................................................102
B.13
CompactFlash Card Connector (CN21) ....................... 103
B.14
SMBus/IrDA Connector (CN11) .................................. 104
B.15
MIO interface (CN4).................................................... 105
B.16
GPIO (CN7) .................................................................. 108
B.17
USB2 Connector (CN9) ............................................... 108
B.18
LAN connector (CN12)................................................. 108
B.19
Print Port (CN13) .......................................................... 109
Table B.13:CompactFlash Card Connector (CN21)... 103
Table B.14:SMBus/IrDA Connector (CN11) ............. 104
Table B.15:MIO interface (CN4)................................ 105
Table B.16:GPIO (CN7) ............................................. 108
Table B.17:USB2 Connector (CN9)........................... 108
Table B.18:LAN Connector (CN12) .......................... 108
Table B.19:Print Port (CN13)..................................... 109
xi
B.20
Power Connector (CN16).............................................. 109
B.21
CRT Connector (CN18) ................................................ 109
B.22
COM1 Connector (CN19)............................................. 110
Table B.20:Power (CN16) .......................................... 109
Table B.21:CRT Connector (CN18)........................... 109
Table B.22:COM1 (CN19) ......................................... 110
Appendix C System Assignments .....................................112
C.1
System I/O Ports............................................................ 112
C.2
1st MB memory map..................................................... 113
C.3
DMA channel assignments............................................ 113
C.4
Interrupt assignments .................................................... 114
Table C.1:System I/O ports ........................................ 112
Table C.2:1st MB memory map ................................. 113
Table C.3:DMA channel assignments ........................ 113
Table C.4:Interrupt assignments ................................. 114
Appendix D Intel SpeedStep Technology ........................116
D.1
Intel® Pentium® M SpeedStep instruction................... 116
Appendix E AT/ATX Power setting ................................122
E.1
Introduction ................................................................... 122
Table E.1:Power Connector........................................ 122
Appendix F Optional Kit ..................................................126
F.1
F.2
F.3
Embedded OS................................................................ 126
MIO module ................................................................. 126
Heatsink......................................................................... 126
Appendix G Mechanical Drawings...................................130
G.1
Mechanical Drawings.................................................... 130
Figure G.1:PCM-9380 (Component Side).................. 130
Figure G.2:PCM-9380 (Solder Side) .......................... 131
PCM-9380 User Manual
xii
CHAPTER
1
General Information
This chapter gives background information on the PCM-9380.
Sections include:
• Introduction
• Features
• Specifications
• Board layout and dimensions
Chapter 1 Introduction
1.1 Introduction
The PCM-9380 is a 3.5" SBC (Single Board Computing) with high performance and low power consumption. It is based on Pentium M / Celeron M processors. The PCM-9380’s Intel 855GME chipset supports
processors clocked at up to 1.8 GHz (with optional Pentium M 738, 745
and Celeron M 320), three USB 2.0 compatible ports, a PCI Fast or Gigabit Ethernet interface, 2 channel LVDS interface, one MIO expansion
connector, and up to 1 GB of ECC DDR RAM.
SpeedStep (GV3) technology is an important features of the PCM-9380.
This technology can save energy and ensure longer battery life by
enabling the operating system to reduce the processor clock speed when
there is not much work to be done.
The PCM-9380’s board can be easily stacked on MIO modules for different applications. MIO (module I/O) is an open pin definition from Advantech. MIO integrates the most popular interfaces in the world in to a highdensity 160-pin connector. These popular interfaces include PCI 2.0,
LPC, USB 2.0, SMBus, AC97 and the DVO bus. MIO can help a board
level engineer to speed up system project design. See Appendix B for
more details.
1.2 Features
• Embedded Intel Pentium M / Celeron M Processor
• Supports ECC DDR memory
• Supports 1000Base-T Ethernet
• Supports 2 channel 2 x 18-bit LVDS LCD display (2 x 24-bit
optional)
• Supports 3 x USB 2.0 port
• Supports MIO expansion
• Support Intel SpeedStep (GV3) Technology
PCM-9380 User Manual
2
1.3 Specifications
1.3.1 Standard 3.5" Biscuit SBC Functions
• CPU: Embedded Intel Pentium M (Banias/Dothan) /LV/ULV
Celeron M Processor supported at Front Side Bus (FSB) 400 MHz
on board Celeron M 600 (512 KB)
on board Celeron M 373, 1.0GHz (512K L2 cache)
on board Pentium M 1.1 GHz
socket 478*, Ethernet
socket 478, Gigabit Ethernet
Optional:
Penitum M 745 1.8 GHz
Pentium M 1.6 GHz
Pentium M 738 1.4 GHz
Celeron M 320 1.3 GHz
*socket 478 for Intel uFCPGA2
• System Memory: 1 x SODIMM socket, supporting ECC Double Data
Rate (DDR) 128 MB to 1 GB, accept 128/256/512/1024 MB
DDR200/266/333 DRAM
• 2nd Cache Memory: 512 KB to 2 MB (Depends on CPU type)
• System Chipset: Intel 855GME GMCH/ICH4 chipset
• BIOS: AWARD 4 Mbit Flash BIOS
• Watchdog timer: 255 levels timer interval
• Expansion Interface: MIO interface, integrated PCI 2.0, LPC, USB
2.0, SMBus, AC97 and DVO Bus
• Battery: Lithium 3 V, 196 mAH
• Power management: Supports power saving modes including Normal/
Standby/Suspend modes. APM 1.2, ACPI compliant wake on LAN
and modem ring-in functions
• Supports Enhanced Intel Speed Step (GV3) Technology
• Enhanced IDE interface: One channel supports up to four EIDE
devices. BIOS auto-detect, PIO Mode 3 or Mode 4, supports
UDMA 33 mode
• FDD Interface: Supports up to one FDD
• Serial ports: Two serial RS-232 ports, COM1: RS-232,
COM2: RS-232/422/485 (2nd internal RS-232 optional)
• Parallel port: One parallel port, supports SPP/EPP/ECP mode
• Keyboard/mouse connector: Supports one standard PC/AT keyboard
and a PS/2 mouse
3
Chapter 1
• Audio: Support AC97 Audio stereo sound
• USB: Three USB 2.0 compliant universal serial bus ports
• Solid State Disk (SSD): Supports one 50-pin socket for CFC type I/II
• IrDA: 115 kbps, SIR, IrDA 1.0 complaint (optional, share with SMBus)
• SMBus: System Management Bus for advanced monitoring/control
interface
• GPIO: 8 bit general purpose Input/Output
1.3.2 VGA/LVDS Interface
• Chipset: Intel 855GME Graphic Memory Control Hub (GMCH)
• Memory Size: Optimized Shared Memory Architecture supports 64 MB frame
buffer using system memory
• Resolution: CRT display Mode supports up to 1600 x 1200 @ 85 Hz
• TTL LCD: Optional, supported by PCM-3540R module
• LVDS LCD: Supports 2 channel 2 x 18-bit LVDS LCD Panel (2 x 24bit optional), 16:9 wide screen panel supported.
• TV-out: Optional, by MIO-6254 module
• Dual Independent Display: Supports three dual independent mode: CRT +
LVDS; CRT + DVI (w/MIO-6254); LVDS + DVI (w/MIO-6254)
1.3.3 Ethernet Interface
• Chipset Support: 10/100 Mbps Intel 82551QM (wake on LAN); 10/
100/1000 Mbps Intel 82541PI
• Interface: RJ45 connector with standard IEEE 802.3 z/ab (1000Base-T)
or IEEE 802.3u (100Base-T) protocol compatible
• Built-in boot ROM
1.3.4 Audio Function
• Chipset: IntelR 82801DB I/O Controller Hub 4 (ICH4) & ALC203
codec chipset
• Audio controller: AC97 3D audio stereo sound
• Audio interface: Microphone in, line in and line out
1.3.5 Mechanical and Environmental
• Dimensions: 145 x 102 mm (5.9" x 4.2") mechanical drawing (dxf file)
is available
• Power Supply Type: AT/ATX
• Power Requirement: +5 V ±5%, +12 V ±5% (Optional), +5 V standby
for ATX mode or single +5 V power support
• Power Consumption:
Typical:+ 5 V @ 2.91 A, +12 V @ 0.09 A
(Pentium M 1.6 GHz, 256 MB DDR333 with MPEG-1)
PCM-9380 User Manual
4
Max: + 5 V @ 4.54 A, +12 V @ 0.13 A
(Pentium M 1.6GHz, 256 MB DDR333 with HCT9.5)
• Operating temperature: 0 ~ 60° C
(32 ~ 140° F)
• Operating Humidity: 10 ~ 90% relative humidity, non-condensing
• Weight: 0.85 kg (reference weight of total package)
5
Chapter 1
1.4 Board layout and dimensions
Figure 1.1: Board layout and Dimensions (Component Side)
PCM-9380 User Manual
6
Figure 1.2: Board layout and Dimensions (Solder Side)
7
Chapter 1
PCM-9380 User Manual
8
CHAPTER
2
Installation
This chapter explains how to set jumpers connect peripherals, switches and
indicators and install memory. Read all
safety precautions before beginning
installation.
Chapter 2 Installation
2.1 Jumpers
The PCM-9380 has jumpers that allow you to configure your system to
suit your application. The table below lists the functions of the various
jumpers.
2.1.1 Jumper Location
J7
J8
J6
J1
S1
J3
J5
J4
Table 2.1: Jumpers
Label
Function
J1
Audio Power Source
J3/J4/J5
COM2 Setting
J6
LCD Power Setting
J7
Audio Enable/Disable
J8
AT/ATX Power Setting
S1
Clear CMOS
PCM-9380 User Manual
10
2.1.2 Jumper Settings
Table 2.2: Audio Power Selector (J1)
Setting
Function
1-2 (Default)
2-3
Audio Power form 12 V
Audio Power from 5 V
Table 2.3: COM2 Mode Setting(J3/J4/J5)
Setting
Function
J3 (1-2)(Default)
J4 (1-2)
J5 (1-2)
RS-232
RS-422
RS-485
Table 2.4: LCD Power Setting (J6)
Setting
Function
1-2
2-3 (Default)
+5 V
+3.3 V
Table 2.5: Audio Enable/Disable (J7)
Setting
Function
Open (Default)
Close
Enable
Disable
Table 2.6: AT/ATX Power Setting (J8)
Setting
Function
Open
AT Power*
Close (Default)
ATX Power
* If an AT power is used, the standby power connector should be connected to 5 V.
11
Chapter 2
Table 2.7: Clear CMOS (S1)
Condition
Result
1-2 (Default)
2-3
Normal
Clear CMOS
This jumper is used to erase CMOS data and reset system BIOS information.
Follow these steps to clear the CMOS memory:
1.
Turn off the system.
2.
Insert a jumper on pin 2 and 3.
3.
Return the jumper to pins 1 and 2.
4.
Turn on the system. The BIOS is now reset to its default setting.
Warning!
To avoid damaging the computer, always turn
off the power supply before setting “Clear
CMOS” Before turning on the power supply, set
the jumper back to “3.0 V Battery On”.
PCM-9380 User Manual
12
2.2 Connectors
On-board connectors link the PCM-9380 to external devices such as hard
disk drives, a keyboard, or floppy drives. The table below lists the function of each of the board’s connectors.
Generally, you simply need a standard cable to make most connections.
Table 2.8: Connectors
Label
Function
CN1
LVDS Connector
CN2
Audio Connector
CN3
Power Connector
CN4
MIO Connector
CN5
Internal USB connector (Channel 0,1) USB 0/1 connector
CN6
Primary IDE connector
CN7
GPIO connector
CN8
COM2 connector
CN9
External USB connector (Channel2) connector
CN10
HD LED & Power LED connector
CN11
SMBus connector (default); SIR (optional)
CN12
LAN connector
CN13
Print Port connector
CN14
Keyboard/Mouse Connector
CN15
Fan Power connector
CN16
Power Switch connector
CN17
Inverter Power connector
CN18
CRT Connector
CN19
COM1 connector
CN20
Floppy Disc Drive (FDD) Connector
CN21
CF Connector
13
Chapter 2
2.3 Locating Connectors
Figure 2.1: Connectors (component side)
PCM-9380 User Manual
14
Figure 2.2: Connectors (solder side)
15
Chapter 2
2.3.1 Connector's Pin Sequence Drawing
In order to configure each connector easily see Fig 2.1 and Fig 2.2 connector drawings with detailed pin numbers and locations.
Location
Dimension
CN1
2
31
CN2
3 1
2
CN3
3
1
2
CN4
CN5
1
3
PCM-9380 User Manual
16
2
Location
Dimension
CN6
1
3
2
CN7
CN8
2
1 3
CN9
32 1
17
Chapter 2
Location
Dimension
CN10
1
2
3
CN11
3
2
1
CN12
4
2
3
1
CN13
2
1 3
CN14
6 4 2 1 3 5
PCM-9380 User Manual
18
Location
Dimension
CN15
3
2
1
CN16
1
2
CN17
1
3
2
CN18
5 14 9 3 7 1
17 1510 4 13 8122 11 6
16
CN19
10
1
19
6
2
7
3
8
4
9
5
11
Chapter 2
Location
Dimension
CN21
282726
32 1
J1
3
2
1
J2
2
1 3
J3/J4/J5
J6
3
2
1
PCM-9380 User Manual
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Location
Dimension
J7
2
1
2
1
J8
21
Chapter 2
2.4 Setting Jumpers
You may configure your card to match the needs of your application by
setting jumpers. A jumper is a metal bridge used to close an electric 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” a
jumper, you connect the pins with the clip. To “open” a jumper, you
remove the clip. Sometimes a jumper will have three pins, labeled 1, 2
and 3. In this case you would connect either pins 1 and 2, or 2 and 3.
open
closed
closed 2-3
The jumper settings are schematically depicted in this manual as follows:.
open
closed
closed 2-3
A pair of needle-nose pliers may be helpful when working with jumpers.
If you have any doubts about the best hardware configuration for your
application, contact your local distributor or sales representative before
you make any changes.
PCM-9380 User Manual
22
2.5 Installing SO-DIMM
Module Key aligned
with housing key
2
Housing
Card Slot
PC Board
1
Module tilted
approximately 25
3
Module Latching
Ledge (to engage
edge of module)
The procedures for installing SODIMMs are described below. Please follow these steps carefully. You can install SDRAM memory modules
using 200-pin SODIMMs (Small Outline Dual In-line Memory Modules).
1.
Ensure that all power supplies to the system are switched off.
2.
Tilt the SODIMM card approximately 25° above the board, and
move it in the direction of the housing card slot. Make sure that the key in
the module and the key in the housing are aligned.
3.
Push the module into the socket until the module latches. There
should be a slight insertion force to engage the module into the contacts.
2.6 IDE connector (CN6)
The board provides 1 IDE channel to enable up to two Enhanced Integrated Device Electronics hard disk drives or CDROMs to be attached to
the board’s internal controller. Its IDE controller uses a PCI interface.
This IDE controller supports PIO mode 3, mode 4 and UDMA/33.
2.6.1 Connecting the hard drive
Connecting drives is done in a daisy-chain fashion. This package includes
One 44 pin IDE cable that can connect to 1.8" and 2.5" drives.
23
Chapter 2
1.
Connect one end of the cable to the hard drive connector on the
board. Make sure that the red (or blue) wire corresponds to pin 1 on
the connector, which is labeled on the right side of the board.
2.
Plug the other end of the cable into the Enhanced IDE hard drive,
with pin 1 on the cable aligned with pin 1 on the hard drive. See
your hard drive’s documentation for the location of the connector.
3.
If desired, connect a second drive as described above.
If you install two drives, you will need to set one as the master and one as
the slave by using jumpers on the drives. If you install only one drive, set
it as the master.
2.7 CompactFlash (CN21)
The board provides a CompactFlash™ card type I/II socket. The CompactFlash card shares a secondary IDE channel which can be enabled/disabled via the BIOS settings.
2.8 Floppy Disk Drive connector (CN20)
You can attach up to two floppy drives to the board. You can use 3.5"
(720 KB, 1.44 MB, and 2.88 MB) drives.
A 26-pin FPC connector cable is required for a dual-drive system. On one
end of the cable is a 26-pin FPC-cable connector. On the other end are
two sets of floppy disk drive connectors. Each set consists of a 26-pin
FPC-cable connector (usually used for 3.5" drives).
2.8.1 Connecting the floppy disk drive
1.
Plug the 26-pin FPC-cable into the board’s Floppy drive connector.
Make sure that the red wire corresponds to pin one on the connector.
2.
Attach the appropriate connector on the other end of the cable to
the floppy drive(s). You can use only one connector in the set. The
set on the end (after the twist in the cable) connects to the A: drive.
The set in the middle connects to the B: drive.
If you are connecting a 3.5" floppy drive, you may have trouble determining which pin is number one. Look for a number printed on the circuit
board indicating pin number one. In addition, the connector on the floppy
drive may have a slot. When the slot is up, pin number one should be on
the right. Check the documentation that came with the drive for more
information.
PCM-9380 User Manual
24
In case you need to make your own cable, you can find the pin assignments for the board’s connector in Appendix B.
2.9 Parallel port connector (CN13)
Normally, the parallel port is used to connect the card to a printer. The
board includes a multi-mode (ECP/EPP/SPP) parallel port accessed via
CN13 and a 26-pin flat-cable connector. You will need an adapter cable if
you use a traditional DB-25 connector. The adapter cable has a 26-pin
connector on one end, and a DB-25 connector on the other.
The parallel port is designated as LPT1, and can be disabled or changed to
LPT2 or LPT3 in the system BIOS setup.
The parallel port uses IRQ7.
You can select ECP/EPP DMA channel via BIOS setup.
2.10 Keyboard and PS/2 mouse connector (CN14)
The board provides a keyboard connector that supports both a keyboard
and a PS/2 style mouse. A keyboard is not used in most embedded applications. If the keyboard is not present, the standard PC/AT BIOS will
report an error or fail during power-on self-test (POST) after a reset. The
PCM-9380’s BIOS standard setup menu allows you to select “All, But
Keyboard” under the “Halt On” section. This allows embedded system
applications to boot without the system halting during POST when no
keyboard is attached.
2.11 Power & HDD LED Connector (CN10)
You may want to install external LEDs to monitor the board. These features are optional: install them only if you need them. The Power & HDD
LED connector is a 6-pin wafer box connector. It provides connections
for power status and hard disk access indicators.
The HDD LED indicator for hard disk access is an active low signal (24
mA sink current). This connector also has power supply status LED signals.
25
Chapter 2
2.12 Power connectors (CN3, CN15)
2.12.1 Main power connector (CN3)
This connector supplies main power to the PCM-9380 (+5 V), and to
devices that require +12 V.
2.12.2 Fan power connector (CN15)
This connector provides +5 V power to the CPU cooling fan.
2.13 Audio interfaces (CN2)
2.13.1 Audio connector (CN2)
The board provides all major audio signals on a 10-pin connector. These
audio signals include Microphone in (mono), Line in (stereo) and Line
out (stereo).
2.14 COM port connectors (CN8, CN19)
The PCM-9380 provides one 14-pin dual-inline male header (CN8) and
one DB-9 connector (CN19). These can be used for serial devices (a
mouse, etc.) or a communication network. You can find the pin assignments for these connectors in Appendix B.
CN8 has two functions. The default function of CN8 is to be an RS-232/
422/485 serial port on COM2. The optional function of CN8 is to provide
dual RS-232 serial ports through two different cables. A special cable and
small board modifications are needed to enable this option.
CN19 provides a single COM1 port.
2.14.1 COM2 RS-232/422/485 setting (J3/J4/J5)
COM2 can be configured to operate in RS-232, RS-422, or RS-485 mode.
This is done via J3/J4/J5
Table 2.9: COM2 RS-232/422/485 selection (J3/J4/J5)
Setting
Function
J3 (1-2) (J4, J5 open)
RS-232
J4 (1-2) (J3, J5 open)
RS-422
J5 (1-2) (J3, J4 open)
RS-485
PCM-9380 User Manual
26
2.15 VGA/LCD/LVDS interface connections
The board’s PCI SVGA interface can drive conventional CRT displays
and is capable of driving a wide range of flat panel displays, including
passive LCD and active LCD displays. The board has two connectors to
support these displays: one for standard CRT VGA monitors and one for
LVDS type LCD panels.
2.15.1 CRT display connector (CN18)
The CRT display connector is a 15-pin D-SUB connector used for conventional CRT displays.
2.15.2 LVDS LCD panel connector (CN1)
The board supports 2 channel 36-bit (48-bit optional) LVDS LCD panel
displays. Users can connect a 36-bit or 48-bit LVDS LCD to it.
2.16 Ethernet configuration
The board is equipped with a high performance 32-bit PCI-bus Ethernet
interface which is fully compliant with IEEE 802.3U 10/100Mbps and
IEEE 802.3 z/ab 1000base-T standards. It is supported by all major network operating systems.
Note:
Plugging in the LAN cable, triggers an update of
the LAN status LEDs. Unplugging the LAN
cable doesn’t trigger an update of the LAN status LEDs. After the LAN cable is removed, the
LAN status LEDs continue to show the old status until the LAN cable is plugged in again.
2.16.1 100Base-T/1000Base-T connector (CN12)
Connections are made via the on-board RJ-45 connector.
2.16.2 Network boot
The availability of the Network Boot feature depends on the Ethernet
controller. Network Boot can be utilized by incorporating the Boot ROM
image files for the appropriate network operating system. The Boot ROM
BIOS files are included in the system BIOS, which is on the utility CD.
27
Chapter 2
2.17 Watchdog timer configuration
An on-board watchdog timer reduces the chance of disruptions which
EMP (electro-magnetic pulse) interference can cause. This is an invaluable protective device for standalone or unmanned applications. Setup
involves one jumper and running the control software (refer to Appendix
A).
2.18 USB connectors (CN5, CN9)
The board provides up to three USB (Universal Serial Bus) ports. This
gives complete Plug and Play, and hot attach/detach for up to 127 external
devices. The USB interfaces comply with USB specification rev. 2.0
which supports 480 Mbps transfer rate, and are fuse protected.
Two USB interfaces are accessed through one 5 x 2-pin flat-cable connector, CN5 (USB0, 1). You will need an adapter cable if you want to use a
standard USB connector. The adapter cable has a 5 x 2-pin connector on
one end and two USB connectors on the other.
One USB 2.0 interface is presented by an on-board jack (CN9) for convenience.
The USB interfaces can be disabled in the system BIOS setup.
2.19 GPIO (CN7)
The board supports 10-bit GPIO (General Purpose Input Output) through
CN7. Each of the 10 connections can be individually programmed for
input or output. The default setting is 5 bits input and 5 bits output.
2.20 MIO Connector (CN4)
Please refer to chapter 8.
2.21 SMBus/SIR Connector (CN11)
2.21.1 SMBus (Default)
CN11 supports SMBus by default. SMBus is the System Management
Bus and is usually used for low-speed system management communications. This board supports SMBus for the Advantech embedded API:
SUSI (Secured and Unified Smart Interface). It allows a developer to
PCM-9380 User Manual
28
interface a Windows XP or CE PC to a downstream embedded system
environment and transfer serial messages using the SMBus protocols.
Multiple devices can be controlled simultaneously.
2.21.2 SIR (Optional)
The board provides an IrDA port for transfer rates of 115 kbps. This connector supports the optional wireless infrared transmitting and receiving
module, which is mounted on the system case. Configuration of the module is done through BIOS setup
29
Chapter 2
PCM-9380 User Manual
30
CHAPTER
3
Chipset Software
Installation Utility
31
Chapter 3
Chapter 3 Chipset Software Installation
Utility
3.1 Before you begin
To facilitate the installation of the enhanced display device drivers and
utility software, you should read the instructions in this chapter carefully
before you attempt installation. The device drivers for the AIMB-340
board are located on the software installation CD. The auto-run function
of the driver CD will guide and link you to the utilities and device drivers
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*.
Note:
The files on the software installation CD are
compressed. Do not attempt to install the drivers by copying the files manually. You must use
the supplied SETUP program to install the drivers.
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 relevant 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.
3.2 Introduction
The Intel® Chipset Software Installation (CSI) utility installs to the target
system the Windows INF files that outline to the operating system how
the chipset components will be configured. This is needed for the proper
functioning of the following features:
• Core PCI and ISA PnP services.
• USB 1.1 support (USB 2.0 driver needs to be installed separately)
• Identification of Intel® chipset components in the Device Manager.
• Integrates superior video features. These include filtered sealing of
PCM-9380 User Manual
32
720 pixel DVD content, and MPEG-2 motion compensation for software DVD
Note:
This utility is used for the following versions of
Windows system, and it has to be installed
before installing all the other drivers:
Windows 98SE
Windows 2000
Windows XP
3.3 Installing the CSI Utility
1.
Insert the driver CD into your system’s CD-ROM drive. In a few
seconds, the cd main menu appears. Move to “\\PCM9380\1_FIRST_INST”. And click “INFINST_ENU” icon.
33
Chapter 3
2.
Click “Next” when you see the following message.
3.
Click “Yes” when you see the following message.
PCM-9380 User Manual
34
4.
Click “Next” when you see the following message.
5.
When the following message appears, click “Finish” to complete
the installation and restart Windows.
35
Chapter 3
PCM-9380 User Manual
36
CHAPTER
4
Award BIOS Setup
37
Chapter 4
Chapter 4 Award BIOS Setup
4.1 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 memory (CMOS RAM) so that it retains the setup
information when the power is turned off.
4.1.1 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 environment
cause a soft error, BIOS will recheck the data in CMOS RAM and automatically restore the original data in Flash ROM to CMOS RAM for
booting.
Note:
If you intend to change the CMOS setting without restoring the previous backup, you have to
click on “DEL” within two seconds of the
“CMOS checksum error...” display screen message 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.
PCM-9380 User Manual
38
4.2 Entering Setup
Turn on the computer and check for the “patch code”. If there is a number
assigned to the patch code, it means that the BIOS supports your CPU.
If there is no number assigned to the patch code, please contact Advantech’s applications engineer to obtain an up-to-date patch code file. This
will ensure that your CPU’s system status is valid. After ensuring that you
have a number assigned to the patch code, press <Del> to allow you to
enter the setup.
Figure 4.1: Award BIOS Setup initial screen
39
Chapter 4
4.3 Standard CMOS Setup
Choose the “Standard CMOS Features” option from the “Initial Setup
Screen” menu, and the screen below will be displayed. This menu allows
users to configure system components such as date, time, hard disk drive,
floppy drive, display, and memory.
Figure 4.2: Standard CMOS features screen
PCM-9380 User Manual
40
4.4 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 PCM-9380 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 4.3: Advanced BIOS features screen
4.4.1 Virus Warning
If enabled, a warning message and alarm beep activates if someone
attempts to write here. The commands are “Enabled” or “Disabled.”
4.4.2 L1 & L2 Cache
Enabling this feature speeds up memory access. The commands are
“Enabled” or “Disabled.”
4.4.3 Quick Power On Self Test
This option speeds up the Power-On Self Test (POST) conducted as soon
as the computer is turned on. When enabled, BIOS shortens or skips some
of the items during the test. When disabled, the computer conducts normal POST procedures.
41
Chapter 4
4.4.4 First/Second/Third/Other Boot Device
The BIOS tries to load the OS with the devices in the sequence selected.
Choices are: Floppy, LS/ZIP, HDD, SCSI, CDROM, LAN, Disabled.
4.4.5 Swap Floppy Drive
Logical name assignments of floppy drives can be swapped if there is
more than one floppy drive. The commands are “Enabled” or “Disabled.”
4.4.6 Boot UP Floppy Seek
Selection of the command “Disabled” will speed the boot up. Selection of
“Enabled” searches disk drives during boot up.
4.4.7 Boot Up NumLock Status
This feature selects the “power on” state for NumLock. The commands
are “Enabled” or “Disabled.”
4.4.8 Gate A20 Option
Normal:
A pin in keyboard controller controls GateA20
Fast (Default):
Chipest controls GateA20.
4.4.9 Typematic Rate Setting
The typematic rate is the rate key strokes repeat as determined by the keyboard controller. The commands are “Enabled” or “Disabled.” Enabling
allows the typematic rate and delay to be selected.
4.4.10 Typematic Rate (Chars/Sec)
BIOS accepts the following input values (characters/second) for typematic rate: 6, 8, 10, 12, 15, 20, 24, 30.
4.4.11 Typematic Delay (msec)
Typematic delay is the time interval between the appearance of two consecutive characters, when holding down a key. The input values for this
category are: 250, 500, 750, 1000 (msec).
4.4.12 Security Option
This setting determines whether the system will boot up if the
password is denied. Access to Setup is always limited.
System
The system will not boot, and access to Setup will be denied
if the correct password is not entered at the prompt.
PCM-9380 User Manual
42
Setup
The system will boot, but access to Setup will be denied if
the correct password is not entered at the prompt.
Note:
To disable security, select “PASSWORD SETTING” in the main menu. At this point, 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.
4.4.13 APIC Mode
This setting allows selecting an OS with greater than 64MB of RAM.
Commands are “Non-OS2” or “OS2.”
4.4.14 MPS Version Control For OS
This reports if an FDD is available for Windows 95. The commands are
“Yes” or “No.”
4.5 Integrated Peripherals
4.5.1 IDE Master/Slave PIO/UDMA Mode,
IDE Primary (Secondary) Master/Slave PIO/UDMA Mode (Auto) Each
channel (Primary and Secondary) has both a master and a slave, making
four IDE devices possible. Because each IDE device 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 autodetection to ensure optimal performance.
43
Chapter 4
4.5.2 On-Chip Secondary PCI IDE
If you enable IDE HDD Block Mode, the enhanced IDE driver will be
enabled. Leave IDE HDD Block Mode on the default setting.
Figure 4.4: Integrated peripherals
4.5.3 USB Controller
Select Enabled if your system contains a Universal Serial Bus (USB) controller and you have USB peripherals. The choices: Enabled, Disabled.
4.5.4 USB Keyboard/Mouse Support
Select Enabled if user plan to use an USB keyboard. The choice: Enabled,
Disable.
4.5.5 AC97 Audio
Select Disable if you do not want to use AC-97 audio. Option is Auto,
Disable.
4.5.6 Init Display First
This item allows you to choose which one to activate first, PCI Slot or onchip VGA. The choices: PCI Slot, Onboard.
4.5.7 Onboard LAN Control
Option is Enable and Disable. Select Disable if user does not want to use
onboard LAN controller1.
PCM-9380 User Manual
44
4.5.8 IDE HDD Block Mode
You can enable the Primary IDE channel and/or the Secondary IDE channel. Any channel not enabled is disabled. This field is for systems with
only SCSI drives.
4.5.9 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.
4.5.10 Onboard Serial Port
For settings reference the Appendix for the serial resource allocation,
and Disabled for the on-board serial connector
4.5.11 UART Mode Select
This item allows you to select UART mode. The choices: IrDA, ASKIR,
Normal.
4.5.12 RxD, TxD Active
This item allows you to determine the active of RxD, TxD. The Choices:
“Hi, Hi,” “Lo, Lo,” “Lo, Hi,” “Hi, Lo.”
4.5.13 IR Transmission Delay
This item allows you to enable/disable IR transmission delay. The
choices: Enabled, Disabled.
4.5.14 UR2 Duplex Mode
This item allows you to select the IR half/full duplex function. The
choices: Half, Full.
4.5.15 Onboard Parallel Port
This field sets the address of the on-board parallel port connector. You
can select either 3BCH/IRQ7, 378H/IRQ7, 278H/IRQ5 or Disabled. If
you install an I/O card with a parallel port, make sure there is no conflict
in the address assignments. The CPU card can support up to three parallel
ports, as long as there are no conflicts for each port.
4.5.16 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 bi-directional mode
and at a speed faster than the maximum data transfer rate. “ECP + EPP”
allows normal speed operation in a two-way mode.
45
Chapter 4
4.5.17 EPP Mode Select
This field allows you to select EPP port type 1.7 or 1.9. The choices:
EPP1.7, 1.9.
4.5.18 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 Use DMA, you can select
DMA channel 1, DMA channel 3, or Disable. Leave this field on the
default setting.
4.6 Power Management Setup
The power management setup controls the CPU card’s “green” features to
save power. The following screen shows the manufacturer’s defaults:
Figure 4.5: Power management setup screen
4.6.1 Power-Supply Type
Choose AT or ATX power supply.
4.6.2 ACPI function
The choice: Enabled, Disabled.
PCM-9380 User Manual
46
4.6.3 Power Management
This category allows you to select the type (or degree) of power saving
and is directly related to the following modes:
1. HDD Power Down
2. Suspend Mode
There are four selections for Power Management, three of which have
fixed mode settings.
Min. Power Saving
Minimum power management., Suspend Mode = 1 hr.,
and HDD Power Down = 15 min.
Max. Power 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 disable.
4.6.4 Video Off In Suspend
When system is in suspend, video will turn off.
4.6.5 Modem Use IRQ
This determines the IRQ in which the MODEM can use.The choices: 3, 4,
5, 7, 9, 10, 11, NA.
4.6.6 HDD Power Down
You can choose to turn the HDD off after one of the time intervals listed,
or when the system is in “suspend” mode. If the HDD is in a power saving mode, any access to it will wake it up.
4.6.7 Soft-Off by PWR-BTTN
If you choose “Instant-Off”, then pushing the ATX soft power switch button 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.
4.6.8 CPU THRM-Throttling
This field allows you to select the CPU THRM-Throttling rate. The
choices: 12.5%, 25.0%, 37.5%, 50.0%, 62.5%, 75.0%, 87.5%.
4.6.9 PowerOn By LAN
This item allows you to wake up the system via LAN from the remotehost. The choices: Enabled, Disabled.
47
Chapter 4
4.6.10 PowerOn By Modem
When Enabled, an input signal on the serial Ring Indicator (RI) line (in
other words, an incoming call on the modem) awakens the system from a
soft off state. The choices: Enabled, Disabled.
4.6.11 PowerOn By Alarm
When Enabled, your can set the date and time at which the RTC (realtime clock) alarm awakens the system from Suspend mode. The choices:
Enabled, Disabled.
4.6.12 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) is active. The choice: Enabled, Disabled.
4.6.13 FDD, COM, LPT PORT
When Enabled, the system will resume from suspend mode if FDD, COM
port, or LPT port is active. The choice: Enabled, Disabled.
4.6.14 PCI PIRQ [A-D]#
When Enabled, the system will resume from suspend mode if interrupt
occurs. The choice: Enabled, Disabled.
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48
4.7 PnP/PCI Configurations
4.7.1 PnP OS Installed
Select Yes if you are using a plug and play capable operating system.
Select No if you need the BIOS to configure non-boot device
Figure 4.6: PnP/PCI configurations screen
4.7.2 Reset Configuration Data
Default is Disable. Select Enable to reset Extended System Configuration
Data (ESCD) if you have installed a new add-on and system configuration has caused such a conflict that OS cannot boot.
4.7.3 Resources controlled by:
The commands here are “Auto” or “Manual.” Choosing “manual”
requires you to choose resources from each following sub-menu. “Auto”
automatically configures all of the boot and Plug and Play devices but
you must be using Windows 95 or above.
4.7.4 PCI/VGA Palette Snoop
This is left at “Disabled.”
49
Chapter 4
4.8 Password Setting
To change the password:
1.
Choose the “Set Password” option from the “Initial Setup Screen”
menu and press <Enter>.
The screen will display the following message:
Please Enter Your Password
Press <Enter>.
2.
If the CMOS is good or if this option has been used to change the
default password, the user is asked for the password stored in the CMOS.
The screen will display the following message:
Please Confirm Your Password
Enter the current password and press <Enter>.
3.
After pressing <Enter> (ROM password) or the current password
(user-defined), you can change the password stored in the CMOS. The
password must be no longer than eight (8) characters.
Remember, to enable the password setting feature, you must first select
either “Setup” or “System” from the “Advanced BIOS Features” menu.
4.9 Save & Exit Setup
If you select this and press <Enter>, the values entered in the setup utilities will be recorded in the CMOS memory of the chipset. The microprocessor 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
system to operate.
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50
4.10 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
PCM-9380 User Manual
52
CHAPTER
5
PCI SVGA/LCD Setup
This chapter details the software configuration information. It shows you
how to configure the card to match
your application requirements. The
AWARD System BIOS is covered in
Chapter 4.
Sections include:
• Installation of SVGA drivers
-for Windows 98
-for Windows NT/2000/XP
• Connections for standard LCDs
• Further information
Chapter 5 PCI SVGA/LCD Setup
5.1 Introduction
The board has an onboard Intel 855GME chipset for its AGP/SVGA controller. It supports LVDS LCD displays and conventional analog CRT
monitors with 64MB frame buffer shared with system memory. The VGA
controller can drive CRT displays with resolutions up to 1600 x [email protected]
Hz and support 2 channel LVDS display mode up to UXGA panel resolution with
frequency range from 25-MHz to 112-MHz
5.1.1 CMOS setting for panel type
The PCM-9380 system BIOS and custom drivers are located in a 512
Kbyte, Flash ROM device, designated U29. A single Flash chip holds the
system BIOS, VGA BIOS and network Boot ROM image. The display
can be configured via CMOS settings. This method minimized the number of chips and different type of LCD panels, please choose “panel type”
from the “integrated peripherals” menu in CMOS setting.
5.1.2 Display type
The PCM-9380F can be set in one of three configurations: on a CRT, on a
flat panel display, or on both dual independent display. The system is initially set to dual display mode. If you want to enable the CRT display
only or the flat panel display only, please contact Intel Corporation or our
sales representative for detailed information.
5.1.3 Dual Independent Display
The PCM-9380F uses a Intel 855GME controller that is
capable of providing multiple views and simultaneous display with mixed
video and graphics on a flat panel and CRT.
To set up dual display under Windows 98, Windows NT/2000/XP follow
these steps:
1. Select “Windows98”, “Control panel”, “Setting”, “Advanced”,
“Graphics Properties” “Device”.
PCM-9380 User Manual
54
2. Select “1” for current display, or “2” for second display.
3. Enable “Extend my Windows desktop onto this monitor”.
4. Click “OK”.
55
Chapter 5
5.2 Connections to Two Standard LCDs
The following tables illustrate typical LCD connection pinouts for the
PCM-9380.
5.2.1 LG LM 150x06 (1024x768 LVDS LCD)
Table 5.1: Connections to LCD/Flat Panel (CN1)
LCD Connector
Flat Panel Connector
Unipac-UB104S01
DF-13 4OP
Pin
Function
Pin
Function
1
VCC
1
+5V
2
VCC
2
+5V
3
GND
3
GND
4
GND
4
GND
5
RxIN0-
7
LVDS_YAM0R
6
RxIN0+
9
LVDS_YAP0R
7
GND
11
GND
8
RxIN1-
13
LVDS_YAM1R
9
RxIN1+
15
LVDS_YAP1R
10
GND
17
GND
11
RxIN2-
19
LVDS_YAM2R
12
RxIN2+
21
LVDS_YAP2R
13
GND
23
GND
14
CKIN-
25
LVDS_CLKAMR
15
CKIN+
27
LVDS_CLKAPR
16
GND
29
GND
17
NC
NC
18
NC
NC
19
GND
33
GND
20
GND
34
GND
* LCD connector type: HRS DF 19K-20P-1H or compatible
PCM-9380 User Manual
56
5.2.2 AU M170EG01
(1280x1024 TFT LCD @ 48bit)
Table 5.2: Connections to AU M170EG01 (CN1)
AU M170EG01
PCM-9380 CN1
Pin
Function
Pin
Function
1
RxOIN0-
7
LVDS_YAM0
2
RxOIN0+
9
LVDS_YAP0
3
RxOIN1-
13
LVDS_YAM1
4
RxOIN1+
15
LVDS_YAP1
5
RxOIN2-
19
LVDS_YAM2
6
RxOIN2+
21
LVDS_YAP2
7
VSS
11
GND
8
RxOCLKIN-
25
LVDS_CLKAM
9
RxOCLKIN+
27
LVDS_CLKAP
10
RxOIN3-
35
LVDS_YAM3
11
RxOIN3+
37
LVDS_YAP3
12
RxEIN0-
8
LVDS_YBM0
13
RxEIN0+
10
LVDS_YBP0
14
VSS
17
GND
15
RxEIN1-
14
LVDS_YBM1
16
RxEIN1+
16
LVDS_YBP1
17
VSS
23
GND
18
RxEIN2-
20
LVDS_YBM2
19
RxEIN2+
22
LVDS_YBP2
20
RxECLKIN-
26
LVDS_CLKBM
21
RxECLKIN+
28
LVDS_CLKBP
22
RxEIN3-
36
LVDS_YBM3
23
RxEIN3+
38
LVDS_YBP3
24
VSS
29
GND
25
VSS
30
GND
26
NC
27
VSS
33
GND
28
VCC
1
LCD VDD (+5V)
29
VCC
2
LCD VDD (+5V)
30
VCC
NC
57
Chapter 5
5.3 Installation of the SVGA Driver
Complete the following steps to install the SVGA driver. Follow the procedures in the flow chart that apply to the operating system that you are
using within your PCM-9380.
Notes:
1. The windows illustrations in this chapter are intended
as examples only. Please follow the listed steps, and pay
attention to the instructions which appear on your screen.
2. For convenience, the CD-ROM drive is designated as
“D” throughout this chapter.
5.3.1 Installation of Windows 98/2000
1. Find Win98/2000 VGA driver from CD at the directory of PCM-9380
CD, VGA\Win9x_ME\Graphics\Setup
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58
2. Or, find Win2000 VGA driver from CD at the directory of PCM-9380
CD-ROM, VGA\win2k_xp1332.
59
Chapter 5
3. Double click “setup” and “next” into setup wizard.
PCM-9380 User Manual
60
4.Restart computer when installation finished.
5.4 Further Information
For further information about the AGP/VGA installation in your PCM9380, including driver updates, troubleshooting guides and FAQ lists,
visit the following web resources:
Intel website: www.intel.com
Advantech websites: www.advantech.com
www.advantech.com.tw
61
Chapter 5
PCM-9380 User Manual
62
CHAPTER
6
Audio Setup
The PCM-9380 is equipped with an
audio interface that records and plays
back CD-quality audio. This chapter
provides instructions for installing the
software drivers included on the audio
driver diskettes.
Chapter 6 Audio Setup
6.1 Introduction
The PCM-9380's on-board audio interface provides high-quality stereo
sound and FM music synthesis (ESFM) by using the Intel ICH4 audio
controller. The audio interface can record, compress, and play back voice,
sound, and music with built-in mixer control.
6.2 Driver installation
6.2.1 Before you begin
Please read the instructions in this chapter carefully before you attempt
installation. The audio drivers for the PCM-9380 board are located on the
audio driver CD. Run the supplied SETUP program to install the drivers;
don’t copy the files manually.
Note:
The files on the software installation diskette
are compressed. Do not attempt to install the
drivers by copying the files manually. You must
use the supplied SETUP program to install the
drivers.
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64
6.2.2 Windows 98 drivers
1.
Find Win98/2000 Audio driver folder from CD at the directory of
PCM-9380 CD, click “setup” to start the installation process.
65
Chapter 6
2.
Click “yes” to reboot your computer.
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66
CHAPTER
7
Ethernet Interface
This chapter provides information on
Ethernet configuration.
Sections include:
• Introduction
• Installation of Ethernet drivers for
Windows 98/2000/NT
• Further information
Chapter 7 Ethernet Interface
7.1 Introduction
The PCM-9380 is equipped with a high performance 32-bit Ethernet
chipset which is fully compliant with IEEE 802.3 100 Mbps CSMA/CD
standards. It is supported by major network operating systems. It is also
both 1000Base-T and 100Base-T compatible. The network boot feature
can be utilized by incorporating the boot ROM image files for the appropriate network operating system. The boot ROM BIOS files are combined
with system BIOS, which can be enabled/disabled in the BIOS setup.
7.2 Installation of Ethernet driver
Before installing the Ethernet driver, note the procedures below. You
must know which operating system you are using in your PCM-9373
Series, and then refer to the corresponding installation flow chart. Then
just follow the steps described in the flow chart. You will quickly and
successfully complete the installation, even if you are not familiar with
instructions for MS-DOS or Windows.
Note:
The windows illustrations in this chapter are
examples only. Follow the steps and pay attention to the instructions which appear on your
screen.
7.2.1 Installation for Windows 98
1.
a. Select "Start", "Settings". "Control Panel".
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68
b. Double click “Network”.
2.
a. Click “Add New Hardware” and prepare to install network functions.
69
Chapter 7
3.
a. Select the “Adapter” item to add the Ethernet card.
4.
a. Click “Have Disk” to install the driver.
5.
a. Insert the CD into the D: drive
b. Fill in “E:\3_LAN\82551ER\W9X&W2K”
c. Click “OK”
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70
6.
a. Choose the Choose the “Intel(R) GD82559ER PCI Adapter”
item.
b. Click “Next”.
7.
a. Make sure the configurations of relative items are set correctly.
b. Click “Finish” to reboot.
71
Chapter 7
7.2.2 Installation for Windows 2000
1.
a. Select “Start”, “Settings”. “Control Panel”.
b. Double click “Network”.
PCM-9380 User Manual
72
2.
Click “Add new hardware wizard” and prepare to install network
function
73
Chapter 7
3.
Choose Hardware Device “Ethernet Controller”
PCM-9380 User Manual
74
4.
Insert the CD into D: drive
a. Fill in the Find the LAN chipset folder at the directory of PCM-9380
win2000 folder from CD ROM drive
b. Click “OK”.
5.
Choose the “Intel(R) GD82559ER PCI Adapter” item
75
Chapter 7
Click “Next”
6
a. Make sure the configurations of relative items are set correctly
PCM-9380 User Manual
76
b. Click “OK”
7.3 Further information
Intel website: www.intel.com
Advantech websites:www.advantech.com
www.advantech.com.tw
77
Chapter 7
PCM-9380 User Manual
78
CHAPTER
8
Installing MIO Modules
This appendix gives instructions for
installing MIO modules.
Chapter 8 Installing MIO Modules
8.1 MIO Introduction
8.1.1 The most flexible embedded interface
Today is an Embedded any where world, and a lot of standard Embedded
single board computer cannot 100% to meet application specification
because there are not a flexible interface to do expansion form the system
point of view.
8.1.2 An SBC shortcut to system design wins
MIO (module I/O) is an open pin definition from Advantech. MIO interface integrate the most popular interface in the world in a high-density
160-pin connector, these popular interface include, PCI, USB, DVO,
SMBus, LPC, AC97.With MIO (module I/O) interface can do the great
help a board level engineer to speed up the system project design.
8.1.3 PCM-9380 + MIO-6254: the best combination
8.2 Optional Modules
8.2.1 MIO-6250 module with fast Ethernet and LAN
bypass
•
3* Realtek RTL8139DL 10/100BaseT Ethernet Controller
PCM-9380 User Manual
80
•
3* RJ45 Connectors
•
LAN Bypass supported on LAN2&LAN3
8.2.2 MIO-6253 4 COM port module
•
4* RS-232/422/485 ports
•
with 3* DB-9 connectors and 1*5pin-2arries pin headers
8.2.3 MIO-6254 DVO to DVI/TV/Audio module
•
Dual 6W Stereo AC97 Audio, Support Spk_out, Line_In, Mic_In
•
S-Video
•
C-Video
•
DVI
8.3 Installing MIO Modules
The MIO connectors give you the flexibility to attach MIO modules.
Installing these modules on the main board/CPU board is quick and simple. The following steps show how to mount the MIO modules:
1.
Remove the main board/CPU board from your system, paying particular attention to the safety instructions already mentioned above.
2.
Make any jumper or link changes required to the CPU card now.
Once the MIO module is mounted you may have difficulty in accessing
these.
3.
Normal MIO modules have male connectors and mount directly
onto the main card. (Refer to the diagram on the following page.)
4.
Mount the MIO module onto the CPU card by pressing the module
firmly but carefully onto the mounting connectors.
5.
Secure the MIO module onto the CPU card using the spacers and
screws.
81
Chapter 8
8.4 MIO drawings
USB Rev 2.0
LPC I/O
PCI Rev 2.2
AC97 Audio
DVO Display
PCM-9380 User Manual
82
Figure 8.1: MIO module mounting diagram
83
Chapter 8
Table 8.1: MIO connectors
Pin
Net Name
InterFace
Pin
Net Name
InterFace
A1
USB_OC#4
USB
B1
I2CCLK
I2C
A2
USB_4N
USB
B2
I2CDAT
I2C
A3
USB_4P
USB
B3
Global Reset
A4
GND
Power
B4
PWROK_5V
A5
LPC_CLK48M
LPC
B5
GPIO
A6
GPIO
B6
LPC_FRAME#
LPC
A7
GPIO
B7
LPC_AD0
LPC
A8
LPC_SUSCLK
B8
LPC_AD1
LPC
A9
LPC_DRQ#0
LPC
LPC
B9
LPC_AD2
LPC
A10 IOCHRDY
LPC
B10
LPC_AD3
LPC
A11
AD0
PCI
B11
DEVSEL#
PCI
A12 AD1
PCI
B12
TRDY#
PCI
A13 AD2
PCI
B13
IRDY#
PCI
A14 AD3
PCI
B14
LOCK#
PCI
A15 AD4
PCI
B15
FRAME#
PCI
A16 AD5
PCI
B16
CBE#2
PCI
A17 AD6
PCI
B17
AD16
PCI
A18 AD7
PCI
B18
AD17
PCI
A19 CBE#0
PCI
B19
AD18
PCI
A20 AD8
PCI
B20
AD19
PCI
A21 AD9
PCI
B21
AD20
PCI
A22 AD10
PCI
B22
AD21
PCI
A23 AD11
PCI
B23
AD22
PCI
A24 AD12
PCI
B24
AD23
PCI
A25 AD13
PCI
B25
CBE#3
PCI
A26 AD14
PCI
B26
AD24
PCI
A27 AD15
PCI
B27
AD25
PCI
A28 CBE#1
PCI
B28
AD26
PCI
A29 PAR
PCI
B29
AD27
PCI
A30 SERR#
PCI
B30
AD28
PCI
PCM-9380 User Manual
84
Table 8.1: MIO connectors
A31 PERR#
PCI
B31
AD29
PCI
A32 STOP#
PCI
B32
AD30
PCI
A33 PME#
PCI
B33
AD31
PCI
A34 INTA#
PCI
B34
INTC#
PCI
A35 INTB#
PCI
B35
INTD#
PCI
A36 REQ0
PCI
B36
GNT0
PCI
A37 REQ1
PCI
B37
GNT1
PCI
A38 REQ2
PCI
B38
GNT2
PCI
A39 REQA
PCI
B39
PCIRST
PCI
A40 GNTA
PCI
B40
Ring
PCI
A41 CLK0
PCI
B41
Serial IRQ
PCI
A42 CLK1
PCI
B42
Reserved
A43 CLK2
PCI
B43
Reserved
A44 V_BAT
Power
B44
Reserved
A45 Reserved
B45
Reserved
A46 AC97_RST#
AC97
B46
AC97_SDIN0
AC97
A47 AC97_SYNC
AC97
B47
AC97_BITCLK
AC97
A48 AC97_SDIN1
AC97
B48
AC97_SDOUT
AC97
A49 DVO_Detect
DVO
B49
Reserved
A50 DVOBD11
DVO
B50
MDVICLK
DVO
A51 DVOBD10
DVO
B51
MDVIDATA
DVO
A52 DVOBD9
DVO
B52
MI2CCLK
DVO
A53 DVOBD8
DVO
B53
MI2CDATA
DVO
A54 DVOBD7
DVO
B54
DVOCFLDSTL
DVO
A55 DVOBD6
DVO
B55
DVOCBLANK#
DVO
A56 GND
GND
B56
DVOCVSYNC
DVO
A57 DVOBCLK
DVO
B57
DVOCHSYNC
DVO
A58 DVOBCLK#
DVO
B58
DVOCD11
DVO
A59 GND
GND
B59
DVOCD10
DVO
A60 DVOBD5
DVO
B60
DVOCD9
DVO
A61 DVOBD4
DVO
B61
DVOCD8
DVO
A62 DVOBD3
DVO
B62
DVOCD7
DVO
85
Chapter 8
Table 8.1: MIO connectors
A63 DVOBD2
DVO
B63
DVOCD6
DVO
A64 DVOBD1
DVO
B64
DVOCD5
DVO
A65 DVOBD0
DVO
B65
DVOCD4
DVO
A66 DVOBHSYNC
DVO
B66
DVOCD3
DVO
A67 DVOBVSYNC
DVO
B67
DVOCD2
DVO
A68 DVOBBLANK# DVO
B68
DVOCD1
DVO
A69 DVOBFLDSTL
DVO
B69
DVOCD0
DVO
A70 DVO_VREF
DVO
B70
PCIRST
DVO
A71 DVOBCCLKINT
DVO
B71
MDDCCLK
DVO
A72 DVOBCINTR#
DVO
B72
MDDCDATA
DVO
A73 ADDID1
DVO
B73
ADDID7
DVO
A74 GND
GND
B74
ADDID6
DVO
A75 DVOCCLK
DVO
B75
ADDID5
DVO
A76 DVOCCLK#
DVO
B76
ADDID4
DVO
A77 GND
GND
B77
ADDID3
DVO
A78 ADDID0
DVO
B78
ADDID2
DVO
A79 VCC
Power
B79
VCC12
Power
A80 VCC
Power
B80
VCCSB
Power
PCM-9380 User Manual
86
Appendix
A
Programming the GPIO
and Watchdog Timer
The PCM-9380 is equipped with a
watchdog timer that resets the CPU or
generates an interrupt if processing
comes to a standstill for any reason.
This feature ensures system reliability
in industrial standalone or unmanned
environments.
87
Appendix A
Appendix A GPIO & Watchdog Timer
Programming
A.1 Supported GPIO Register
Bellow are detailed description of the GPIO addresses and programming
sample.
A.1.1 GPIO Registers
CRF0 (GP10-GP17 I/O selection register. Default 0xFF)
When set to a '1', respective GPIO port is programmed as an input port.
When set to a '0', respective GPIO port is programmed as an output port.
CRF1 (GP10-GP17 data register. Default 0x00)
If a port is programmed to be an output port, then its respective bit can be
read/written.
If a port is programmed to be an input port, then its respective bit can
only be read.
CRF2 (GP10-GP17 inversion register. Default 0x00)
When set to a '1', the incoming/outgoing port value is inverted.
When set to a '0', the incoming/outgoing port value is the same as in data
register.
Extended Function Index Registers (EFIRs)
The EFIRs are write-only registers with port address 2Eh or 4Eh on PC/
AT system.
Extended Function Data Registers (EFDRs)
the EFDRs are read/write registers with port address 2Fh or 4Fh on PC/
AT systems.
PCM-9380 User Manual
88
A.1.2 GPIO Example program-1
-----------------------------------------------Enter the extended function mode, interruptible double-write
-----------------------------------------------MOV DX,2EH
MOV AL,87H
OUT DX,AL
OUT DX,AL
--------------------------------------------------------------Configure logical device 7 (GP10~GP17), configuration register
CRF0,CRF1,CRF2
--------------------------------------------------------------MOV DX,2EH
MOV AL,07H; point to Logical Device Number Reg.
OUT DX,AL
MOV DX,2FH
MOV AL,07H; select logical device 7
OUT DX,AL;
MOV DX,2EH
MOV AL,F0
OUT DX,AL
MOV DX,2FH
MOV AL,00H; 01:Input 00:output for GP10~GP17
OUT DX,AL
MOV DX,2EH
MOV AL,F2H;
OUT DX,AL
MOV DX,2FH
MOV AL,00H;Set GPIO is normal not inverter
OUT DX,AL;
MOV DX,2EH
MOV AL,F1H
89
Appendix A
OUT DX,AL
MOV DX,2FH
MOV AL,??H; Put the output value into AL
OUT DX,AL
-----------------------------------------Exit extended function mode |
-----------------------------------------MOV DX,2EH
MOV AL,AAH
OUT DX,AL
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90
A.2 Watchdog programming
Bellow is a sample of programming code for controlling the Watchdog
Timer function.
----------------------------------------------------------------------------------Enter the extended function mode, interruptible double-write |
----------------------------------------------------------------------------------MOV DX,2EH
MOV AL,87H
OUT DX,AL
OUT DX,AL
----------------------------------------------------------------------------Configure logical device 8, configuration register CRF6 |
----------------------------------------------------------------------------MOV DX,2EH
MOV AL,07H; point to Logical Device Number Reg.
OUT DX,AL
MOV DX,2FH
MOV AL,08H; select logical device 8
OUT DX,AL;
MOV DX,2EH
MOV AL,30H;Set watch dog activate or inactivate
OUT DX,AL
MOV DX,2FH
MOV AL,01H; 01:activate 00:inactivate
OUT DX,AL;
MOV DX,2EH
MOV AL,F5H; Setting counter unit is second
OUT DX,AL
MOV DX,2FH
MOV AL,00H
OUT DX,AL;
91
Appendix A
MOV DX,2EH
MOV AL,F6H
OUT DX,AL
MOV DX,2FH
MOV AL,05H; Set 5 seconds
OUT DX,AL
;-----------------------------------------; Exit extended function mode |
;-----------------------------------------MOV DX,2EH
MOV AL,AAH
OUT DX,AL
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92
Appendix
B
Pin Assignments
This appendix contains information
of a detailed or specialized nature. It
includes:
• CPU Fan Power Connector
• Audio Connector
• Main Power Connector
• Keyboard and PS/2 Mouse Connector
• Floppy Disk Drive Connector
• IDE Hard Drive Connector
• Parallel Port Connector
• Power & HDD LED Connector
• USB Connector
• Inverter Power Connector
• LVDS Connector
• COM2 RS-232/422/485 series port
• CompactFlash Card Connector
• IR Connector
• MIO interface
• SMBus connector
• GPIO connector
Appendix B Pin Assignments
B.1 CPU Fan Power Connector (CN15)
Table B.1: IR connector (CN15)
Description
Wafer Box 2.0mm 3P180D w/Lock
Pin
Signal
1
FAN_DET
2
VCC
3
GND
B.2 Audio Connector (CN2)
Table B.2: Audio connector (CN2)
Description
BOX HEADER SMD 5*2 180D (M) 2.0mm
Pin
Signal
1
LINE OUT R
2
LINE IN R
3
GND
4
GND
5
LINE OUT L
6
LINE IN L
7
GND
8
GND
9
MIC IN
10
Reserved for MIC2
PCM-9380 User Manual
Pin
94
Signal
B.3 Main Power Connector (CN3)
Table B.3: Main Power Connector (CN3)
Description
Power CONN. 6*2 180D
Pin
Signal
Pin
Signal
1
GND
2
GND
3
VCC
4
GND
5
VCC
6
VCCSB
7
GND
8
PWR_PSON#
9
VCC
10
GND
11
VCC
12
+12V
B.4 Keyboard and PS/2 Mouse Connector (CN14)
Table B.4: Keyboard and mouse connector (CN14)
Description
MINI DIN 6P Short body W/Shielding
Pin
Signal
1
KB DATA
2
MS DATA
3
GND
4
VCC
5
KB CLOCK
6
MS CLOCK
95
Appendix B
B.5 Floppy Disk Drive Connector (CN20)
Table B.5: Floppy Disk Drive Connector (CN20)
Description
FPC ZIF SKT PD17-26PIN W/LOCK
Pin
Signal
Pin
Signal
1
+5V
2
INDEX
3
+5V
4
Disk Select A
5
+5V
6
Disk Change
7
NC
8
NC
9
NC
10
Motor 0
11
NC
12
Direction
13
NC
14
STEP
15
GND
16
Write Data
17
GND
18
Write Enable
19
GND
20
TRACK 0
21
GND
22
Write Protect
23
GND
24
Read Data
25
GND
26
Head Select
PCM-9380 User Manual
96
B.6 IDE Hard Drive Connector (CN6)
Table B.6: IDE HDD connector (CN6)
Description
BOX HEADER SMD 22*2P 180 D(M) 2.0mm IDIOTPROOF
Pin
Signal
Pin
Signal
1
IDE RESET
2
GND
3
DATA 7
4
DATA 8
5
DATA 6
6
DATA 9
7
DATA 5
8
DATA 10
9
DATA 4
10
DATA 11
11
DATA 3
12
DATA 12
13
DATA 2
14
DATA 13
15
DATA 1
16
DATA 14
17
DATA 0
18
DATA 15
19
GND
20
N/C
21
DRQ
22
GND
23
IO WRITE
24
GND
25
IO READ
26
GND
27
HD READY
28
N/C
29
HDACK 0
30
GND
31
IDE IRQ
32
IOCS16
33
ADDR 1
34
N/C
35
ADDR 0
36
ADDR 2
37
HARD DISK
SELECT 0
38
HARD DISK
SELECT 1*
39
IDE ACTIVE
40
GND
41
Vcc
42
Vcc
43
GND
44
NC
97
Appendix B
B.7 Parallel Port Connector (CN13)
Table B.7: Parallel Port Connector (CN13)
Description
BOX HEADER SMD 13*2P
180D(M) 2.0mm
Pin
Signal
Pin
Signal
1
STROBE
2
AUTOFD
3
D0
4
ERR
5
D1
6
INIT
7
D2
8
SLCTINI
9
D3
10
GND
11
D4
12
GND
13
D5
14
GND
15
D6
16
GND
17
D7
18
GND
19
ACK
20
GND
21
BUSY
22
GND
23
PE
24
GND
25
SLCT
26
N/C
PCM-9380 User Manual
98
B.8 Power & HDD LED Connector (CN10)
Table B.8: Power & HDD LED Connector (CN10)
Description
WAFER BOX 2.0mm 6P 180D MALE W/LOCK
Pin
Signal
1
+5V
2
GND
3
power LED+ (+5V)
4
power LED- (GND)
5
HDD LED +
6
HDD LED -
B.9 USB Connector (CN5)
Table B.9: USB Connector (CN5)
Description
PIN HEADER 5*2P 180D(M) 2.0mm SMD IDIOT-PROOF
Pin
Signal
Pin
Signal
1
VCC
2
VCC
3
USB_P0-
4
USB_P1-
5
USB_P0+
6
USB_P1+
7
GND
8
GND
9
GND
10
NC
99
Appendix B
B.10 Inverter Power Connector (CN17)
Table B.10: Inverter Power Connector (CN17)
Description
PIN HEADER 3*2P 180D SMDMALE SQUARE PIN 2.0mm
Pin
Signal
1
+12 V
2
BKLTEN
3
VBR
4
+5V
5
GND
6
NC
PCM-9380 User Manual
100
B.11 LVDS Connector (CN1)
Table B.11: LVDS Connector (CN1)
Description
*CONN. DF13-40DP-1.25V
Pin
Signal
Pin
Signal
1
VDDSAFE5
2
VDDSAFE5
3
GND
4
GND
5
VDDSAFE3
6
VDDSAFE3
7
LVDS_YAM0
8
LVDS_YBM0
9
LVDS_YAP0
10
LVDS_YBP0
11
GND
12
GND
13
LVDS_YAM1
14
LVDS_YBM1
15
LVDS_YAP1
16
LVDS_YBP1
17
GND
18
GND
19
LVDS_YAM2
20
LVDS_YBM2
21
LVDS_YAP2
22
LVDS_YBP2
23
GND
24
GND
25
LVDS_CLKAM
26
LVDS_CLKBM
27
LVDS_CLKAP
28
LVDS_CLKBP
29
GND
30
GND
31
LVDS_DCLK
32
LVDS_DDAT
33
GND
34
GND
35
LVDS_YAM3
36
LVDS_YBM3
37
LVDS_YAP3
38
LVDS_YBP3
39
NC
40
NC
Note:
The model number of the CN1 socket is
DF13A-40DP-1.25V (Hirose Electric Co., Ltd.)
101
Appendix B
B.12 COM2 RS232/422/485 series port (CN8)
Table B.12: COM2 RS-232/422/485 serial port (CN8)
Description
BOX HEADER SMD 7*2P 180D MALE 2.0mm
Pin
RS-232 port
RS-422 port
RS-485 port
1
DCD
N/C
N/C
2
DSR
N/C
N/C
3
RXD
N/C
N/C
4
RTS
N/C
N/C
5
TxD
N/C
N/C
6
CTS
N/C
N/C
7
DTR
N/C
N/C
8
RI
N/C
N/C
9
GND
N/C
N/C
10
GND
N/C
N/C
11
N/C
TxD-+
DATA+
12
N/C
TxD-
DATA-
13
N/C
RxD+
N/C
14
N/C
RxD-
N/C
CN8 has two functions. The default function of CN8 is to be an RS-232/
422/485 serial port. The optional function of CN8 is to be an internal dual
RS-232 serial port with two different cables. To select the two functions,
modify the board as follows.
To change CN8 from a single RS-232/422/485 COM2 port to an internal dual RS-232 port:
• Remove component R536 and R537 from the board
• Add component R538 and R539 to the board
To change CN8 from an internal dual RS-232 port to a single RS-232/
422/485 COM2 port:
• Remove component R538 and R539 from the board
• Add component R536 and R537 to the board
PCM-9380 User Manual
102
B.13 CompactFlash Card Connector (CN21)
Table B.13: CompactFlash Card Connector (CN21)
Description
HEADER for CF type II 50P 90D(M)SMD 3M W/O Ejector
Pin
Signal
Pin
Signal
1
GND
2
D03
3
D04
4
D05
5
D06
6
D07
7
*CS0
8
A10
9
*ATA SEL
10
A09
11
A08
12
A07
13
+5 V
14
A06
15
A05
16
A04
17
A03
18
A02
19
A01
20
A00
21
D00
22
D01
23
D02
24
-IOCS16
25
*CD2
26
-CD1
27
D11
28
D12
29
D13
30
D14
31
D15
32
-CS1
33
*VS1
34
-IORD
35
*IOWR
36
-WE
37
INTRQ
38
+5 V
39
*CSEL
40
-VS2
41
*RESER
42
IORDY
43
*INPACK
44
-REG
45
*DASP
46
-PDIAG
47
D08
48
D09
49
D10
50
GND
* low active
103
Appendix B
B.14 SMBus/IrDA Connector (CN11)
CN11 is configured as an SMBus interface by default. CN11 can optionally be configured as an IrDA interface.
Table B.14: SMBus/IrDA Connector (CN11)
Part Number: 1655305020
Description: WAFER BOX 2.0mm 5P 180D MALE W/LOCK
Pin
Pin Name
1.
+5V
2.
SMBCLK_STBY (Default l)
IR_CIRRX (Optional)
3.
SMBDATA_STBY (Default)
IR_IRRX (Optional)
4.
GND
5.
IR_IRTX
PCM-9380 User Manual
Pin Name
104
B.15 MIO interface (CN4)
Table B.15: MIO interface (CN4)
Description
Pin
B/B CONN. 80P SMD 0.8mm 180D QSE-080-01-F-D-A
Net Name
InterFace
Pin
Net Name
InterFace
A1
USB_OC#4
USB
B1
I2CCLK
I2C
A2
USB_4N
USB
B2
I2CDAT
I2C
A3
USB_4P
USB
B3
Global Reset
A4
GND
Power
B4
PWROK_5V
A5
LPC_CLK48M
LPC
B5
GPIO
A6
GPIO
B6
LPC_FRAME#
LPC
A7
GPIO
B7
LPC_AD0
LPC
A8
LPC_SUSCLK
LPC
B8
LPC_AD1
LPC
A9
LPC_DRQ#0
LPC
B9
LPC_AD2
LPC
A10
IOCHRDY
LPC
B10
LPC_AD3
LPC
A11
AD0
PCI
B11
DEVSEL#
PCI
A12
AD1
PCI
B12
TRDY#
PCI
A13
AD2
PCI
B13
IRDY#
PCI
A14
AD3
PCI
B14
LOCK#
PCI
A15
AD4
PCI
B15
FRAME#
PCI
A16
AD5
PCI
B16
CBE#2
PCI
A17
AD6
PCI
B17
AD16
PCI
A18
AD7
PCI
B18
AD17
PCI
A19
CBE#0
PCI
B19
AD18
PCI
A20
AD8
PCI
B20
AD19
PCI
A21
AD9
PCI
B21
AD20
PCI
A22
AD10
PCI
B22
AD21
PCI
A23
AD11
PCI
B23
AD22
PCI
A24
AD12
PCI
B24
AD23
PCI
A25
AD13
PCI
B25
CBE#3
PCI
A26
AD14
PCI
B26
AD24
PCI
A27
AD15
PCI
B27
AD25
PCI
105
Appendix B
Table B.15: MIO interface (CN4)
A28
CBE#1
PCI
B28
AD26
PCI
A29
PAR
PCI
B29
AD27
PCI
A30
SERR#
PCI
B30
AD28
PCI
A31
PERR#
PCI
B31
AD29
PCI
A32
STOP#
PCI
B32
AD30
PCI
A33
PME#
PCI
B33
AD31
PCI
A34
INTA#
PCI
B34
INTC#
PCI
A35
INTB#
PCI
B35
INTD#
PCI
A36
REQ0
PCI
B36
GNT0
PCI
A37
REQ1
PCI
B37
GNT1
PCI
A38
REQ2
PCI
B38
GNT2
PCI
A39
REQA
PCI
B39
PCIRST
PCI
A40
GNTA
PCI
B40
Ring
PCI
A41
CLK0
PCI
B41
Serial IRQ
PCI
A42
CLK1
PCI
B42
Reserved
A43
CLK2
PCI
B43
Reserved
A44
V_BAT
Power
B44
Reserved
A45
Reserved
B45
Reserved
A46
AC97_RST#
AC97
B46
AC97_SDIN0
AC97
A47
AC97_SYNC
AC97
B47
AC97_BITCLK
AC97
A48
AC97_SDIN1
AC97
B48
AC97_SDOUT
AC97
A49
DVO_Detect
DVO
B49
Reserved
A50
DVOBD11
DVO
B50
MDVICLK
DVO
A51
DVOBD10
DVO
B51
MDVIDATA
DVO
A52
DVOBD9
DVO
B52
MI2CCLK
DVO
A53
DVOBD8
DVO
B53
MI2CDATA
DVO
A54
DVOBD7
DVO
B54
DVOCFLDSTL
DVO
A55
DVOBD6
DVO
B55
DVOCBLANK#
DVO
A56
GND
GND
B56
DVOCVSYNC
DVO
A57
DVOBCLK
DVO
B57
DVOCHSYNC
DVO
A58
DVOBCLK#
DVO
B58
DVOCD11
DVO
A59
GND
GND
B59
DVOCD10
DVO
PCM-9380 User Manual
106
Table B.15: MIO interface (CN4)
A60
DVOBD5
DVO
B60
DVOCD9
DVO
A61
DVOBD4
DVO
B61
DVOCD8
DVO
A62
DVOBD3
DVO
B62
DVOCD7
DVO
A63
DVOBD2
DVO
B63
DVOCD6
DVO
A64
DVOBD1
DVO
B64
DVOCD5
DVO
A65
DVOBD0
DVO
B65
DVOCD4
DVO
A66
DVOBHSYNC
DVO
B66
DVOCD3
DVO
A67
DVOBVSYNC
DVO
B67
DVOCD2
DVO
A68
DVOBBLANK#
DVO
B68
DVOCD1
DVO
A69
DVOBFLDSTL
DVO
B69
DVOCD0
DVO
A70
DVO_VREF
DVO
B70
PCIRST
DVO
A71
DVOBCCLKINT
DVO
B71
MDDCCLK
DVO
A72
DVOBCINTR#
DVO
B72
MDDCDATA
DVO
A73
ADDID1
DVO
B73
ADDID7
DVO
A74
GND
GND
B74
ADDID6
DVO
A75
DVOCCLK
DVO
B75
ADDID5
DVO
A76
DVOCCLK#
DVO
B76
ADDID4
DVO
A77
GND
GND
B77
ADDID3
DVO
A78
ADDID0
DVO
B78
ADDID2
DVO
A79
VCC
Power
B79
VCC12
Power
A80
VCC
Power
B80
VCCSB
Power
107
Appendix B
B.16 GPIO (CN7)
Table B.16: GPIO (CN7)
Part Number
1653005261
Footprint
JH5X2S-2M
Description
PIN HEADER SMD 5*2 180D (M) 2.0mm
Pin
Pin Name
Pin
Pin Name
1
VCC
2
GPIO4
3
GPIO0
4
GPIO5
5
GPIO1
6
GPIO6
7
GPIO2
8
GPIO7
9
GPIO3
10
GND
B.17 USB2 Connector (CN9)
Table B.17: USB2 Connector (CN9)
Part Number
1654904105
Description
PIN HEADER 5*2P 180D(M) 2.0mm SMD IDIOTPROOF
Pin
Pin Name
Pin
Pin Name
1
VCC
2
D-
3
D+
4
GND
5
GND
6
GND
7
GND
B.18 LAN connector (CN12)
Table B.18: LAN Connector (CN12)
Part Number
165250820S
Description
Phone Jack RJ45 90D(F) W/Xfam P62-1D7-1AK9
GIGA
PCM-9380 User Manual
108
B.19 Print Port (CN13)
Table B.19: Print Port (CN13)
Part Number
1653213260
Description
BOX HEADER SMD 13*2P
Pin
Pin Name
1
STROBE
2
AUTOFD
3
D0
4
ERROR
5
D1
6
INIT
7
D2
8
SLCTINI
Pin
180D(M) 2.0mm
Pin Name
9
D3
10
GND
11
D4
12
GND
13
D5
14
GND
15
D6
16
GND
17
D7
18
GND
19
ACK
20
GND
21
BUSY
22
GND
23
PE
24
GND
25
SLCT
26
N/C
B.20 Power Connector (CN16)
Table B.20: Power (CN16)
Part Number
1655302020
Description
WAFER BOX 2P 180D 2.0mm MALE W/Lock
B.21 CRT Connector (CN18)
Table B.21: CRT Connector (CN18)
Part Number
1654000055
Footprint
DBVGA-VF5MS
Description
D-SUB CON 15P 90D(F)
109
SLIM CRT
Appendix B
B.22 COM1 Connector (CN19)
Table B.22: COM1 (CN19)
Part Number
1654000056
Footprint
DBCOM-VM5MS
Description
D-SUB CON. 9P 90D(M) SLI M COM SUYIN
PCM-9380 User Manual
110
Appendix
C
System Assignments
This appendix contains information of a detailed
nature. It includes:
• System I/O ports
• 1st MB memory map
• DMA channel assignments
• Interrupt assignments
Appendix C System Assignments
C.1 System I/O Ports
Table C.1: System I/O ports
Addr. range (Hex)
Device
000-01F
020-021
040-05F
060-06F
070-07F
DMA controller
Interrupt controller 1, master
8254 timer
8042 (keyboard controller)
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
Reserved (Game I/O)
278-27F
Reserved (Parallel port 2,LTP3)
2E8-2EF
Reserved (Series port 4)
2F8-2FF
Serial port 2
300-31F
Prototype card
360-36F
Reserved
378-37F
Parallel printer port 1 (LPT 2)
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
3E8-3EF
Reserved (Series port 3)
3F0-3F7
Diskette controller
3F8-3FF
Serial port 1
* PNP audio I/O map range from 220 ~ 250H (16 bytes)
MPU-401 select from 300 ~ 330H (2 bytes)
PCM-9380 User Manual
112
C.2 1st MB memory map
Table C.2: 1st MB memory map
Addr. range (Hex)
Device
F0000h - FFFFFh
*CC000h - EFFFFh
C0000h - CBFFFh
B8000h - BFFFFh
B0000h - B7FFFh
A0000h - AFFFFh
00000h - 9FFFFh
System ROM
Unused (reserved for Ethernet ROM)
Expansion ROM (for VGA BIOS)
CGA/EGA/VGA text
Unused
EGA/VGA graphics
Base memory
* If Ethernet boot ROM is disabled (Ethernet ROM occupies about 16 KB)
* E0000 - EFFFF is reserved for BIOS POST
C.3 DMA channel assignments
Table C.3: DMA channel assignments
Channel
Function
0
1
2
3
4
5
6
7
Available
Available (audio)
Floppy disk (8-bit transfer)
Available (parallel port)
Cascade for DMA controller 1
Available
Available
Available
* Audio DMA select 1, 3, or 5
** Parallel port DMA select 1 (LPT2) or 3 (LPT1)
113
Chapter C
C.4 Interrupt assignments
Table C.4: Interrupt assignments
Interrupt#
Interrupt source
IRQ 0
IRQ 1
IRQ 2
IRQ 3
IRQ 4
IRQ 5
IRQ 6
IRQ 7
IRQ 8
IRQ 9
IRQ 10
IRQ 11
IRQ 12
IRQ 13
IRQ 14
IRQ 15
Interval timer
Keyboard
Interrupt from controller 2 (cascade)
COM2
COM1
Reserved (COM4)
FDD
LPT1
RTC
Reserved (audio)
Reserved (COM3)
Reserved for watchdog timer
PS/2 mouse
INT from co-processor
Primary IDE
Secondary IDE for CFC
* Ethernet interface IRQ select: 9, 11, 15
* PNP audio IRQ select: 9, 11, 15
* PNP USB IRQ select: 9, 11, 15
* PNP ACPI IRQ select: 9, 11, 15
PCM-9380 User Manual
114
Appendix
D
Intel SpeedStep
Technology
• Introduction and Installation
Appendix D Intel SpeedStep Technology
D.1 Intel® Pentium® M SpeedStep instruction
Mobile Intel® Pentium® M processors with Enhanced Intel SpeedStep®
technology let users customize high performance computing on their
PC.The Enhanced Intel SpeedStep technology provides the Pentium M
processor a flexible, multi-point operating mode, completely self managed, and with a very low CPU and memory unavailability time, which
optimizes its power and performance according to demand.
Advantech’s product with Intel® Pentium® M processors support speed
stepping feature at Windows XP, To implement the speed stepping feature
under Windows XP, please follow the listed steps(*):
*: For Windows XP, the Service Pack 2 has implement SpeedStep technology, no need to install it again.
Step 1. Update “Processor” driver by using “cpu_driver_winxp.zip”
PCM-9380 User Manual
116
Step 2. Change “Power schemes” to “Portable/Laptop”
117
Appendix D
Step 3. Discover the different CPU freq. by using Frequency Display
utility
PCM-9380 User Manual
118
The Result of Pentium M speed stepping:
1.1G---600MHz / 800MHz / 1.1GHz(Intel® Pentium® M)
1.6G---600MHz / 800MHz / 1.0GHz /1.2GHz / 1.4GHz / 1.6GHz(Intel®
Pentium® M)
119
Appendix D
PCM-9380 User Manual
120
Appendix
E
AT/ATX Power setting
121
Appendix E
Appendix E AT/ATX Power setting
E.1 Introduction
PCM-9380 supports 2 kinds of power mode to boot up system. One is
ATX mode, the other is AT mode. ATX should connect standby power
and power supply on# signal to turn on main power supply. AT power
doesn’t have those two pins and the pin 6 of PCM-9380 power connector
(CN3) needs to be connected to 5 voltage for properly boot up.
The power connector table & Power supply diagram tables are as bellow:
Table E.1: Power Connector
Power Connector (CN3)
Power Type: ATX
Power Type: AT
Pin 1: GND
GND
GND
Pin 2: GND
GND
GND
Pin 3: VCC
+5V
+5V
Pin 4: GND
GND
GND
Pin 5: VCC
+5V
+5V
Pin 6:VCCSB
Standby +5V
+5V
Pin 7: GND
GND
GND
Pin 8: PWR_PSON#
PWR_PSON#
NC
Pin 9: VCC
+5V
+5V
Pin 10: GND
GND
GND
Pin 11: VCC
+5V
+5V
Pin 12: +12V
+12V(Optional)
+12V(Optional)
PCM-9380 User Manual
122
ATX power supply diagram
ATX Power
Supply
+5V
Pin3
Pin5
Pin9
Pin11
Standby
+5V
Pin6
PSON#
Pin8
+12V
(Optional)
Pin12
GND
Pin1
Pin2
Pin4
Pin7
Pin10
123
PCM-9380
PCM-9381
PCM-9386
PCM-9387
Power
Connector
Appendix E
AT power supply diagram
Pin3
Pin5
Pin9
Pin11
Pin6
+5V
Pin8
AT Power
Supply
+12V
(Optional)
Pin12
Pin1
Pin2
Pin4
Pin7
Pin10
GND
PCM-9380 User Manual
124
PCM-9380
PCM-9381
PCM-9386
PCM-9387
Power
Connector
Appendix
F
Optional Kit
125
Appendix F
Appendix F Optional Kit
F.1 Embedded OS
2070000584
Win CE 4.2 P-M Core Image, PCM-938x, 2 COM,
English, V 1.10 (17.2MB) (Optional)
2070000585
Win CE 4.2 P-M Pro Image, PCM-938x, 2 COM, English,
V 1.10 (29.1MB) (Optional)
2070000586
Win CE 4.2 P-M Plus Image, PCM-938x, 2 COM, English,
V 1.10(29.9MB) (Optional)
2070000765
Image CE 5.0 Pro Plus EN for P-M with 2COM
2070000605
Win XPE SP2 Image, PCM-938x, English, V2.10,
(440MB) (Optional)
F.2 MIO module
MIO-6250
MIO module w/ 3 x Fast Ethernet with LAN bypass
MIO-6251
MIO module w/ 2 x mini PCI, Audio
MIO-6253
MIO module w/ 4 COM port
MIO-6254
MIO module w/ 1 x DVI, S-Video, Audio
MIO-6255
MIO module w/ 2 x Cardbus
MIO-6260
MIO module w/ 4 x USB, 2 x COM, 1 x LAN
F.3 Heatsink
Assembly for CPU and cooling for PCM-9380, uFCPGA type CPU,
please follow the following assembly information.
Product Part number:
PCM-9380F-00A1(E) ; PCM-9380F-00A2E
PCM-9380FG-00A1(E) ; PCM-9380FG-00A2E
PCM-9381F-00A1(E) ; PCM-9381F-00A2E
PCM-9380 User Manual
126
PCM-9381F-00A1(E) ; PCM-9381FG-00A2E
CPU type: uFCPGA
Cooling Part number: 1750000287
This cooling heatsink is designed for both PCM-9380 and PCM-9381.
While stacking the PCI-104 module or MIO module, you need to remove
the unnecessary spacer as below:
1.
For the PCM9380 series, the left spacer should be removed.
2.
For the PCM9381 series, the right spacer should be removed.
127
Appendix F
PCM-9380 User Manual
128
Appendix
G
Mechanical Drawings
Appendix G Mechanical Drawings
G.1 Mechanical Drawings
Figure G.1: PCM-9380 (Component Side)
PCM-9380 User Manual
130
Figure G.2: PCM-9380 (Solder Side)
131
Appendix G
PCM-9380 User Manual
132