BCM MX855E, MX852E-C10 User Manual

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Part No.

Pentium® M/ Celeron® M

Mini ITX Mainboard

MX855E/ MX852E-C10

User’s Manual

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MX855E/ MX852E-C10 Series

2 MX855E/ MX852E-C10 Series User’s Manual

FCC Statement

THIS DEVICE COMPLIES WITH PART 15 FCC RULES. OPERATION IS

SUBJECT TO THE FOLLOWING TWO CONDITIONS:

(1) THIS DEVICE MAY NOT CAUSE HARMFUL INTERFERENCE.

(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 INSTATLLED AND USED IN

ACCORDANCE WITH THE INSTRUCTION MANUAL, MAY CAUSE HARMFUL

INTERFERENCE TO RADIO COMMUNICATIONS.

OPERATION OF THIS EQUIPMENT IN A RESIDENTIAL AREA IS LIKELY TO CAUSE

HARMFUL INTERFERENCE IN WHICH CASE THE USER WILL BE REQUIRED TO

CORRECT THE INTERFERENCE AT HIS OWN EXPENSE.

Notice

This guide is designed for experienced users to setup the system within the shortest time.

For detailed information, please always refer to the electronic user's manual.

No part of this document may be reproduced, copied, translated, or transmitted in any form

or by any means, electronic or mechanical, for any purpose, without the prior written

permission of the original manufacturer.

Trademark Acknowledgement

Brand and product names are trademarks or registered trademarks of their respective

owners.

User’s Manual

MX855E/ MX852E-C10 Series User’s Manual

Disclaimer

BCM Advanced Research. Reserves the right to make changes, without notice, to any

product, including circuits and/or software described or contained in this manual in order to

improve design and/or performance. BCM assumes no responsibility or liability for the use

of the described product(s), conveys no license or title under any patent, copyright, or

masks work rights to these products, and makes no representations or warranties that

these products are free from patent, copyright, or mask work right infringement, unless

otherwise specified. Applications that are described in this manual are for illustration

purposes only BCM. makes no representation or warranty that such application will be

suitable for the specified use without further testing or modification.

Life Support Policy

BCM Advanced Research PRODUCTS ARE NOT FOR USE AS CRITICAL

COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE PRIOR

WRITTEN APPROVAL OF BCM Advanced Research.

As used herein:

1. Life support devices or systems are devices or systems which, (a) are intended for

surgical implant into body, or (b) support or sustain life and whose failure to perform,

when properly used in accordance with instructions for use provided in the labeling, can

be reasonably expected to result in significant injury to the user.

2. A critical component is any component of a life support device or system whose failure

to perform can be reasonably expected to cause the failure of the life support device or

system, or to affect its safety or effectiveness.

A Message to the Customer

BCM Customer Services

Each and every BCM product is built to the most exacting specifications to ensure reliable

performance in the harsh and demanding conditions typical of industrial environments.

Whether your new BCM device is destined for the laboratory or the factory floor, you can be

assured that your product will provide the reliability and ease of operation for which the

name BCM has come to be known.

Your satisfaction is our primary concern. Here is a guide to BCM customer services. To

ensure you get the full benefit of our services, please follow the instructions below carefully.

MX855E/ MX852E-C10 Series

4 MX855E/ MX852E-C10 Series User’s Manual

Technical Support

We want you to get the maximum performance from your products. So if you run into

technical difficulties, we are here to help. For the most frequently asked questions, you can

easily find answers in your product documentation. These answers are normally a lot more

detailed than the ones we can give over the phone. So please consult the user’s manual

first.

To receive the latest version of the user’s manual; please visit our Web site at:

http://www.bcmcom.com/

If you still cannot find the answer, gather all the information or questions that apply to your

problem, and with the product close at hand, call your dealer. Our dealers are well trained

and ready to give you the support you need to get the most from your BCM products. In fact,

most problems reported are minor and are able to be easily solved over the phone.

In addition, free technical support is available from BCM engineers every business day. We

are always ready to give advice on application requirements or specific information on the

installation and operation of any of our products. Please do not hesitate to call or e-mail us.

Headquarters

BCM Advanced Research.

7 Marconi, Irvine, California, U.S.A Tel : 949-470-1888 Fax : 949-470-0971

http://www.bcmcom.com

E-mail: support@bcmcom.com

User’s Manual

MX855E/ MX852E-C10 Series User’s Manual

Product Warranty

BCM warrants to you, the original purchaser, that each of its products will be free from

defects in materials and workmanship for two years from the date of purchase.

This warranty does not apply to any products which have been repaired or altered by

persons other than repair personnel authorized by BCM, or which have been subject to

misuse, abuse, accident or improper installation. BCM assumes no liability under the terms

of this warranty as a consequence of such events. Because of BCM high quality-control

standards and rigorous testing, most of our customers never need to use our repair service.

If any of BCM products is defective, it will be repaired or replaced at no charge during the

warranty period. For out-of-warranty repairs, you will be billed according to the cost of

replacement materials, service time, and freight. Please consult your dealer for more

details. If you think you have a defective product, follow these steps:

1. Collect all the information about the problem encountered. (For example, CPU type and

speed, BCM products model name, hardware & BIOS revision number, other hardware

and software used, etc.) Note anything abnormal and list any on-screen messages you

get when the problem occurs.

2. Call your dealer and describe the problem. Please have your manual, product, and any

helpful information available.

3. If your product is diagnosed as defective, obtain an RMA (return material authorization)

number from your dealer. This allows us to process your good return more quickly.

4. Carefully pack the defective product, a complete Repair and Replacement Order Card

and a photocopy proof of purchase date (such as your sales receipt) in a shippable

container. A product returned without proof of the purchase date is not eligible for

warranty service.

5. Write the RMA number visibly on the outside of the package and ship it prepaid to your

dealer.

MX855E/ MX852E-C10 Series

6 MX855E/ MX852E-C10 Series User’s Manual

Contents

1. Getting Started..........................................................................................................10

1.1 Safety Precautions ..................................................................................................10

1.2 Packing List.............................................................................................................10

1.3 Document Amendment History ...............................................................................11

1.4 Manual Objectives...................................................................................................12

1.5 System Specifications .............................................................................................13

1.6 Architecture Overview ............................................... Error! Bookmark not defined.

1.6.1 Block Diagram................................................................................................................................16

1.6.2 Intel RG82855GME and FW82801DB ......................................................................................... 17

1.6.3 Intel RG82852GM and FW82801DB.............................................................................................. 19

1.6.4 DRAM Interface (Intel RG855GME)............................................................................................... 20

1.6.5 DRAM Interface (Intel RG852GM) ................................................................................................. 20

1.6.6 PCI Interface .................................................................................................................................. 20

1.6.7 IDE Interface (Bus Master Capability and Synchronous DMA Mode ) .......................................... 21

1.6.8 USB 2.0 .......................................................................................................................................... 21

1.6.9 VIA VT1616 Audio Codec .............................................................................................................. 21

1.6.10 Chrontel CH7009A TV/DVI Transmitter..................................................................................... 22

1.6.11 Ethernet...................................................................................................................................... 23

1.6.12 Winbond W83627HF.................................................................................................................. 25

1.6.13 Compact Flash Interface............................................................................................................ 25

2. Hardware Configuration...........................................................................................26

2.1 Product Overview....................................................................................................27

2.1.1

MX855E............................................................................................ Error! Bookmark not defined.

2.1.2

MX852E-C10.................................................................................... Error! Bookmark not defined.

2.2 Installation Procedure .............................................................................................29

2.2.1 Processor Installation ..................................................................................................................... 29

2.2.2 Main Memory.................................................................................................................................. 31

2.3 Jumper and Connector List .....................................................................................33

2.4 Setting Jumpers & Connectors ...............................................................................36

2.4.1 Clear CMOS (JBAT1)..................................................................................................................... 36

2.4.2 COM1 Pin 9 Signal Select (JP1) .................................................................................................... 36

2.4.3 COM1 RS-232/422/485 Select (JP2, JP3)..................................................................................... 37

2.4.4 4/5/8-wire Touch Screen Select (SW1) (Optional)......................................................................... 38

2.4.5 ATX Power Connector (ATXPWR1)............................................................................................... 38

2.4.6 CPU Fan Connector (C_FAN1)......................................................................................................39

2.4.7 Parallel Port Connector & VGA Connector (CN1).......................................................................... 40

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MX855E/ MX852E-C10 Series User’s Manual

2.4.8 Serial Port 1 Connector in RS-232 Mode (CN1) ............................................................................ 41

2.4.9 Serial Port 1 Connector in RS-422 Mode (CN1) ............................................................................ 42

2.4.10 Serial Port 1 Connector in RS-485 Mode (CN1)........................................................................ 43

2.4.11 Audio Connector (CN2).............................................................................................................. 44

2.4.12 RJ-45 Ethernet / USB 0 & 1, 4 & 5 Connectors (CN3, CN4) ..................................................... 44

2.4.13 4/5/8-Wire Touch Screen Connector (CN5) (Optional)..................................................................

................................................................................................................................................... 44

2.4.14 Floppy Connector (FLP1)........................................................................................................... 45

2.4.15 Primary IDE Connector (IDE_1)................................................................................................. 47

2.4.16 Secondary IDE Connector (IDE_2)............................................................................................ 48

2.4.17 LCD Inverter Connector (JBKL1)............................................................................................... 50

2.4.18 CD-ROM Audio Input Connector (JCD1)................................................................................... 51

2.4.19 Serial Port 2 Connector (JCOM1) ............................................................................................ 51

2.4.20 Serial Port 3/4 Connector (JCOM2, JCOM3)............................................................................. 52

2.4.21 Digital Input / Output Connector (JDIO1)................................................................................... 53

2.4.22 Front Panel Connector (JFP1)................................................................................................... 54

2.4.23 IrDA Connector (JIR1) ............................................................................................................... 55

2.4.24 LVDS Connector (JLVDS1) ....................................................................................................... 56

2.4.25 Miscellaneous Setting Connector (JMISC1) .............................................................................. 57

2.4.26 TMDS Connector (JTMDS1)...................................................................................................... 58

2.4.27 TV Out Connector (JTV1) .......................................................................................................... 59

2.4.28 USB Connector 2 & 3 (JUSB1).................................................................................................. 60

2.4.29 USB Connector 4 & 5 (JUSB2).................................................................................................. 60

2.4.30 PS/2 Keyboard & Mouse Connector (KB_MS1) ........................................................................ 61

2.4.31 System Fan Connector 1 & 2 (S_FAN1, S_FAN2).................................................................... 61

3 BIOS Setup................................................................................................................62

3.1 Starting Setup ........................................................... Error! Bookmark not defined.

3.2 Using Setup ............................................................................................................64

3.3 Getting Help ............................................................................................................65

3.4 In Case of Problems................................................................................................65

3.5 Main Menu ..............................................................................................................66

3.5.1 Standard CMOS Features.............................................................................................................. 67

3.5.2 Advanced BIOS Features .............................................................................................................. 69

3.5.3 Advanced Chipset Features........................................................................................................... 72

3.5.4 Integrated Peripherals.................................................................................................................... 75

3.5.5 Power Management Setup............................................................................................................. 79

3.5.6 PnP / PCI Configuration ................................................................................................................. 81

3.5.7 PC Health Status............................................................................................................................ 82

3.5.8 Frequency / Voltage Control .......................................................................................................... 83

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8 MX855E/ MX852E-C10 Series User’s Manual

3.5.9 Load Fail-Safe Defaults.................................................................................................................. 84

3.5.10 Load Optimized Defaults............................................................................................................ 84

3.5.11 Set Supervisor / User Password................................................................................................ 85

3.5.12 Save & Exit Setup ...................................................................................................................... 86

3.5.13 Exit Without Save....................................................................................................................... 87

4 Drivers Installation ...................................................................................................88

4.1 Install Chipset Driver (For Intel RG82855GME) ......................................................89

4.2 Install Chipset Driver (For Intel 82852GM)................ Error! Bookmark not defined.

4.3 Install Display Driver (For Intel RG82855GME) ........ Error! Bookmark not defined.

4.4 Install Display Driver (For Intel 82852GM) ................ Error! Bookmark not defined.

4.5 Install Audio Driver (For VIA VT1616) ....................... Error! Bookmark not defined.

4.6 Install Ethernet Driver (For Realtek RTL810x, RTL813x Family) ............................94

4.7 Install Ethernet Driver (For Realtek RTL8110S)......................................................95

5 Measurement Drawing .............................................................................................96

5.1 MX855E/ MX852E-C10...........................................................................................97

Appendix A: BIOS Revisions..........................................................................................98

Appendix B: AWARD BIOS POST Messages ................................................................99

Overview..........................................................................................................................100

Post Beep ........................................................................................................................100

Error Messages ...............................................................................................................100

1. CMOS BATTERY HAS FAILED ....................................................................................................... 100

2. CMOS CHECKSUM ERROR ........................................................................................................... 100

3. DISK BOOT FAILURE, INSERT SYSTEM DISK AND PRESS ENTER .......................................... 100

4. DISKETTE DRIVES OR TYPES MISMATCH ERROR - RUN SETUP............................................ 100

5. DISPLAY SWITCH IS SET INCORRECTLY.................................................................................... 101

6. DISPLAY TYPE HAS CHANGED SINCE LAST BOOT ................................................................... 101

7. EISA Configuration Checksum Error PLEASE RUN EISA CONFIGURATION UTILITY................. 101

8. EISA Configuration Is Not Complete PLEASE RUN EISA CONFIGURATION UTILITY ................. 101

9. ERROR ENCOUNTERED INITIALIZING HARD DRIVE.................................................................. 101

10.

ERROR INITIALIZING HARD DISK CONTROLLER ................................................................... 101

11.

FLOPPY DISK CNTRLR ERROR OR NO CNTRLR PRESENT ................................................. 101

12.

Invalid EISA Configuration PLEASE RUN EISA CONFIGURATION UTILITY ............................ 102

13.

KEYBOARD ERROR OR NO KEYBOARD PRESENT ............................................................... 102

14.

Memory Address Error at ... ......................................................................................................... 102

15.

Memory parity Error at ................................................................................................................. 102

16.

MEMORY SIZE HAS CHANGED SINCE LAST BOOT ............................................................... 102

17.

Memory Verify Error at ... ............................................................................................................. 102

18.

OFFENDING ADDRESS NOT FOUND ....................................................................................... 102

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MX855E/ MX852E-C10 Series User’s Manual

19.

OFFENDING SEGMENT: ............................................................................................................ 102

20.

PRESS A KEY TO REBOOT ....................................................................................................... 103

21.

PRESS F1 TO DISABLE NMI, F2 TO REBOOT ......................................................................... 103

22.

RAM PARITY ERROR - CHECKING FOR SEGMENT ... ........................................................... 103

23.

Should Be Empty But EISA Board Found PLEASE RUN EISA CONFIGURATION UTILITY..... 103

24.

Should Have EISA Board But Not Found PLEASE RUN EISA CONFIGURATION UTILITY ..... 103

25.

Slot Not Empty ............................................................................................................................. 103

26.

SYSTEM HALTED, (CTRL-ALT-DEL) TO REBOOT ... ............................................................... 103

27.

Wrong Board In Slot PLEASE RUN EISA CONFIGURATION UTILITY...................................... 104

28.

FLOPPY DISK(S) fail (80) → Unable to reset floppy subsystem................................................. 104

29.

FLOPPY DISK(S) fail (40) → Floppy Type dismatch................................................................... 104

30.

Hard Disk(s) fail (80) → HDD reset failed.................................................................................. 104

31.

Hard Disk(s) fail (40) → HDD controller diagnostics failed........................................................ 104

32.

Hard Disk(s) fail (20) → HDD initialization error........................................................................ 104

33.

Hard Disk(s) fail (10) → Unable to recalibrate fixed disk........................................................... 104

34.

Hard Disk(s) fail (08) → Sector Verify failed.............................................................................. 104

35.

Keyboard is locked out - Unlock the key...................................................................................... 104

36.

Keyboard error or no keyboard present. ...................................................................................... 104

37.

Manufacturing POST loop............................................................................................................ 104

38.

BIOS ROM checksum error - System halted. .............................................................................. 104

39.

Memory test fail. ........................................................................................................................... 104

40.

POST Codes ................................................................................................................................ 105

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10 MX855E/ MX852E-C10 Series User’s Manual

1. Getting Started

1.1 Safety Precautions

Warning!

Always completely disconnect the power cord from your chassis whenever you work with the hardware. Do not make connections while the power is on. Sensitive electronic components can be damaged by sudden power surges. Only experienced electronics personnel should open the PC chassis.

Caution!

Always ground yourself to remove any static charge before touching the CPU card. Modern electronic devices are very sensitive to static electric charges. As a safety precaution, use a grounding wrist strap at all times. Place all electronic components in a static-dissipative surface or static-shielded bag when they are not in the chassis.

1.2 Packing List

Before you begin installing your single board, please make sure that the

following materials have been shipped:

1 x MX855E/ MX852E-C10 Intel Socket 478/479 Pentium® M/Celeron®

M Mini ITX Main Board (Onboard Intel® Celeron® M 1000 MHz with 0K

L2 Cache

1 x Quick Installation Guide for MX855E/ MX852E-C10

1 x CD-ROM or DVD-ROM contains the followings:

— User’s Manual (this manual in PDF file) — Ethernet driver and utilities — VGA drivers and utilities — Audio drivers and utilities

1 x Cable set contains the followings:

— 1 x IDE HDD cable (40-pin, pitch 2.54mm) — 1 x IDE HDD cable (44-pin, pitch 2.0mm) — 1 x FDD cable (34-pin, pitch 2.54mm) — 1 x Serial port cable with 3 DB9P(M) (10-pin, pitch 2.54mm) — 1 x I/O shield

1 x Pentium® M CPU cooler

User’s Manual

MX855E/ MX852E-C10 Series User’s Manual

1.3 Document Amendment History

Revision Date By Comment

1st Nov., 2005 Vicky Lin Initial Release

2nd Jan., 2006 Vicky Lin 1. MX852E-C10 series added

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12 MX855E/ MX852E-C10 Series User’s Manual

1.4 Manual Objectives

This manual describes in detail the BCM MX855E/ MX852E-C10 Single Board.

We have tried to include as much information as possible but we have not duplicated

information that is provided in the standard IBM Technical References, unless it proved to

be necessary to aid in the understanding of this board.

We strongly recommend that you study this manual carefully before attempting to interface

with MX855E/ MX852E-C10 series or change the standard configurations. Whilst all the

necessary information is available in this manual we would recommend that unless you are

confident, you contact your supplier for guidance.

Please be aware that it is possible to create configurations within the CMOS RAM that

make booting impossible. If this should happen, clear the CMOS settings, (see the

description of the Jumper Settings for details).

If you have any suggestions or find any errors concerning this manual and want to inform

us of these, please contact our Customer Service department with the relevant details.

User’s Manual

MX855E/ MX852E-C10 Series User’s Manual

1.5 System Specifications

System

Model

MX855E MX852E-C10

CPU

Supports Intel® µFC-PGA 478 / µFC-BGA 479 Pentium®

M / Celeron® M up to 1.8 GHz with 0.13µ and 90nm

process technology

Onboard Intel® µFC-BGA

479 Celeron® M 1000

MHz with 0K L2 Cache

FSB

400 MHz

BIOS

Award 512 KB Flash BIOS

System Chipset

Intel

RG82855GME GMCH/FW82801DB ICH4

Intel® RG82852GM

GMCH/FW82801DB ICH4

I/O Chip

Winbond W83627HF-AW

System Memory

One 184-pin DIMM socket supports up to 1 GB DDR 266/333 SDRAM

SSD

One CompactFlash Type I/II socket

Watchdog Timer

Reset: 1 sec.~255 min. and 1 sec. or 1 min./step

H/W Status Monitor

Monitoring system temperature, voltage, and cooling fan status. Auto throttling

control when CPU overheats.

Expansion

One PCI slot (PCI Rev. 2.2 compliant), one Mini PCI slot

I/O

MIO

4 x EIDE (Ultra DMA 100), 2 x FDD , 1 x LPT,

1 x RS-232, 1x RS-232/422/485, 1x K/B, 1 x

Mouse

4 x EIDE (Ultra DMA 100), 2 x

FDD , 1 x LPT, 3 x RS-232, 1x

RS-232/422/485, 1x K/B, 1 x

Mouse

IrDA

115k bps, IrDA 1.0 compliant

USB

6 USB 2.0 ports

DIO

16-bit General Purpose I/O for DI and DO

MX855E/ MX852E-C10 Series

14 MX855E/ MX852E-C10 Series User’s Manual

Display

Model

MX855E MX852E-C10

Chipset

Intel® RG82855GME GMCH integrated Extreme

Graphics 2 controller

Intel® RG82852GM

GMCH integrated Extreme

Graphics 2 controller

Display Memory

Intel

DVMT 2.1 supports up to 64 MB video memory

Resolution

CRT mode: 1600 x 1200 @ 32 bpp (85 Hz)

LCD/Simultaneous mode: 1600 x 1200 @ 32 bpp (85 Hz)

Dual Display

CRT + LVDS, or DVI/TV-out + LVDS or CRT + DVI

LVDS

Dual-channel 18/24-bit LVDS

DVI

Chrontel CH7009A DVI transmitter up to 135M pixels/second

TV-Out

Chrontel CH7009A TV encoder supports both NTSC/PAL

Supports both S-Video and composite video

Built-in Touch Screen (Optional)

Chipset

PenMount DMC9000

Touch Screen Interface

With 9-pin 2 mm box header (can be selected with 4/5/8-wire connector)

Audio

Chipset Intel® 82801DB ICH4 AC97 Codec

VIA VT1616 supports 5.1 CH Audio

Audio Interface Mic in, Line in, CD Audio in, Line out

Ethernet

LAN1

Realtek RTL8100C

Realtek RTL8110S

Gigabit LAN

Realtek RTL8100C

LAN2

Realtek RTL8110S

Gigabit LAN

N/A

Realtek RTL8110S

Gigabit LAN

Ethernet Interface

100Base-Tx Fast Ethernet

compatible: Realtek

RTL8100C

1000Base-T Fast Ethernet

compatible: Realtek

RTL8110S

1000Base-T Fast Ethernet

compatible: Realtek

RTL8110S

100Base-Tx Fast Ethernet

compatible: Realtek

RTL8100C

1000Base-T Fast Ethernet

compatible: Realtek

RTL8110S

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MX855E/ MX852E-C10 Series User’s Manual

Mechanical & Environmental

Model

MX855E MX852E-C10

Power Requirement

+5 v @ 3.28 A, +12 V @

0.11 A, +3.3 V @ 4.36 A,

5VSB @ 0.18 A, -5 V @

0.01 A, -12 V @ 0.01 A

(with Intel® Pentium® M

1.8 GHz & 1 GB DDR

SDRAM)

+5 V @ 3.34 A, +12 V @

0.09 A, +3.3 V @ 3.74 A,

5 Vsb @ 0.23 A (with

Intel® Celeron® M 1.0 GHz

& 1 GB DDR SDRAM)

N/A

Power Type

AT/ATX

Operation Temperature

0~60o C (32~140 o F)

Operating Humidity

0%~90% relative humidity, non-condensing

Size ( L x W )

6.69" x 6.69" (170 mm x 170 mm)

Weight

0.88 lbs (0.4 Kg)

MX855E/ MX852E-C10 Series

16 MX855E/ MX852E-C10 Series User’s Manual

1.6 System Specifications

1.6.1 Block Diagram

The following block diagram shows the architecture and main components of MX855.

1.6.1.1 MX855E

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MX855E/ MX852E-C10 Series User’s Manual

1.6.2 Intel RG82855GME and FW82801DB (For MX855E)

The Intel 855GM/855GME GMCH components provide the processor interface, DDR

SDRAM interface, display interface, and Hub interface. The Intel 855GME also has an

option for AGP external graphics port, in addition to integrated graphics support for added

board flexibility options.

The Intel 855GM GMCH is in a 732-pin Micro-FCBGA package and contains the following

functionality listed below:

•

AGTL+ host bus supporting 32-bit host addressing with Enhanced Intel SpeedStep

technology support

•

Supports a single channel of DDR SDRAM memory

•

System memory supports DDR200/266 MHz (SSTL_2) DDR SDRAM

•

Integrated graphics capabilities: Display Core frequency at 133 MHz or 200 MHz

•

Render Core frequency at 100 MHz ,133 MHz, and 200 MHz

•

Provides supports four display ports: one progressive scan analog monitor, dual

channel LVDS interface and two DVO port.

The Intel 855GME GMCH is in a 732-pin Micro-FCBGA package and contains all features

listed above and the additional functionality list below:

•

Display Core frequency at 133 MHz, 200 MHz, or 250 MHz

•

Render Core frequency at 100 MHz ,133 MHz, 166 MHz, 200 MHz, or 250 MHz

•

System memory supports 200/266/333- MHz (SSTL_2) DDR SDRAM.

•

Enhanced Power Management Graphics features

The GMCH IGD provides a highly integrated graphics accelerator delivering high

performance 2D, 3D, and video capabilities. With its interfaces to UMA using a DVMT

configuration, an analog display, a LVDS port, and two digital display ports (e.g. flat panel),

the GMCH can provide a complete graphics solution.

The GMCH also provides 2D hardware acceleration for block transfers of data (BLTs). The

BLT engine provides the ability to copy a source block of data to a destination and perform

raster operations (e.g., ROP1, ROP2, and ROP3) on the data using a pattern, and/or

another destination. Performing these common tasks in hardware reduces CPU load, and

thus improves performance. High bandwidth access to data is provided through the system

memory interface. The GMCH uses Tiling architecture to increase system memory

efficiency and thus maximize effective rendering bandwidth. The Intel 855GM/855GME

GMCH improves 3D performance and quality with 3D Zone rendering technology. The Intel

855GME GMCH also supports Video Mixer rendering and Bi-Cubic filtering.

MX855E/ MX852E-C10 Series

18 MX855E/ MX852E-C10 Series User’s Manual

The Intel 855GM/855GME GMCH has four display ports, one analog and three digital. With

these interfaces, the GMCH can provide support for a progressive scan analog monitor, a

dedicated dual channel LVDS LCD panel, and two DVO devices. Each port can transmit

data according to one or more protocols. The data that is sent out the display port is

selected from one of the two possible sources, Pipe A or Pipe B.

The Intel 855GM/855GME GMCH have an integrated dual channel LFP Transmitter

interface to support LVDS LCD panel resolutions up to UXGA The display pipe provides

panel up-scaling to fit a smaller source image onto a specific native panel size, as well as

provides panning and centering support. The LVDS port is only supported on Pipe B. The

LVDS port can only be driven by Pipe B, either independently or simultaneously with the

Analog Display port. Spread Spectrum Clocking is supported: center and down spread

support of 0.5%, 1%, and 2.5% utilizing an external SSC clock.

The DVO B/C interface is compliant with the DVI Specification 1.0. When combined with a

DVI compliant external device (e.g. TMDS Flat Panel Transmitter, TV-out encoder, etc.),

the GMCH provides a high-speed interface to a digital or analog display (e.g. flat panel, TV

monitor, etc.). The DVO ports are connected to an external display device. Examples of this

are TV-out encoders, external DACs, LVDS transmitters, and TMDS transmitters. Each

display port has control signals that may be used to control, configure and/or determine the

capabilities of an external device. The GMCH provides two DVO ports that are each

capable of driving a 165-MHz pixel clock at the DVO B or DVO C interface. When DVO B

and DVO C are combined into a single DVO port, then an effective pixel rate of 330 MHz

can be achieved. The DVO B/C ports can be driven by Pipe A or Pipe

B. If driven on Pipe B, then the LVDS port must be disabled.

The ICH4 is a highly integrated multifunctional I/O Controller Hub that provides the

interface to the PCI Bus and integrates many of functions needed in today’s PC platform.

The GMCH and ICH4 communicate over a dedicated hub interface. The 82801DB ICH4

functions and capabilities include:

•

PCI Rev. 2.2 compliant with support for 33MHz PCI operations

•

Supports up to 6 Request/Grant pairs (PCI slots)

•

Power management logic support

•

Enhanced DMA controller, interrupt controller, and timer functions

•

Integrated IDE controller; Ultra ATA/100/66/33

•

USB host interface; 3 host controllers and supports 6 USB ports; includes a EHCI

high-speed 2.0 USB controller

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MX855E/ MX852E-C10 Series User’s Manual

•

Integrated LAN controller

•

System Management Bus (SMBus) compatible with most IC devices; ICH4 has both

bus master and slave capability

•

AC ’97 2.3 compliant link for audio and telephony codecs; up to 6 channels

•

Low Pin Count (LPC) interface

•

FWH Interface (FWH Flash BIOS support)

•

Alert on LAN* (AOL and AOL2)

1.6.3 Intel RG82852GM and FW82801DB (For MX852E-C10)

The Intel 852GM GMCH component provides the processor interface, DDR SDRAM

interface, display interface, and Hub Interface in an Intel 852GM chipset platform. The Intel

852GM GMCH is optimized for the Mobile Intel Pentium 4 Processor-M, Mobile Intel

Celeron processor and Intel Celeron M processor. It supports a single channel of DDR

SDRAM memory. Intel 852GM Chipset contains advanced power management logic. The

Intel 852GM Chipset platform supports the fourth generation mobile I/O Controller Hub to

provide the features required by a mobile platform.

The Intel 852GM GMCH is in a 732-pin Micro-FCBGA package and contains the following

functionality:

•

Supports single Intel processor configurations at 400-MHz or 3 GB/s

•

1.2-1.30-V AGTL+ host bus supporting 32-bit host bus addressing with Enhanced

Intel SpeedStep® technology (Intel Celeron M processor and Intel Celeron

Processor do not support Enhanced Intel SpeedStep Technology).

•

System Memory supports 200/266-MHz (SSTL_2) DDR DRAM Up to 1 GB (with

256-Mb technology and two SO-DIMMs) of PC1600/2100 DDR SDRAM without

ECC

•

Integrated graphics capabilities, including 3D rendering acceleration and 2D

hardware acceleration

•

Integrated 350-MHz, 24-bit RAMDAC with pixel resolution up to 1600x1200 at 85-Hz

and up to 1920x1440 @ 60 Hz

•

One Dedicated Dual Channel LFP LVDS interface with frequency range of 25 MHz

to 112 MHz (single channel/dual channel) for support up to SXGA+ (1400x1050 @

60 Hz) panel resolutions with maximum pixel depth of 18-bpp

•

Integrated PWM (Pulse Width Modulation) interface for LFP backlight inverter

control for panel brightness

•

One 165-MHz, 12-bit, DVO interface for TV-out encoder and DVI (LVDS transmitter

and TMDS transmitter) support I2C and DDC channels supported

•

Dual Pipe Independent Display with Tri-view support through LFP, DVO, and CRT

•

Deeper Sleep state support

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20 MX855E/ MX852E-C10 Series User’s Manual

•

Distributed arbitration for highly concurrent operation

•

Three USB host controllers provide high performance peripherals with 480 Mbps of

bandwidth, while enabling support for up to six USB 2.0 ports. This results in a

significant increase over previous integrated 1-4 port hubs at 12 Mbps

•

The latest AC ’97 implementation delivers 20-bit audio for enhanced sound quality

and full surround sound capability. Integrated audio solutions continue to enjoy

success as a very cost-effective, yet high-performance solution

•

LAN Connect Interface (LCI) provides flexible network solutions such as 10/100

Mbps Ethernet and 10/100 Mbps Ethernet with LAN manageability

•

Dual Ultra ATA/100 controllers, coupled with the Intel® Application Accelerator – a

performance software package – support faster IDE transfers to storage devices

•

Intel Application Accelerator software provides additional performance over native

ATA drivers by improving I/O transfer rates and enabling faster O/S load time,

resulting in accelerated boot times

•

Communication and Network Riser (CNR) offers flexibility in system configuration

with a baseline feature set that can be upgraded with an audio card, modem card, or

network card

1.6.4 DRAM Interface (Intel RG855GME)

The 855GME GMCH system memory controller directly supports the following:

• One channel of PC1600/2100/2700 DDR SDRAM memory

• DDR SDRAM devices with densities of 128-Mb, 256-Mb, and 512-Mb technology

• Up to 1 GB (512-Mb technology) SDRAM

1.6.5 DRAM Interface (Intel RG852GM)

The 852GM GMCH system memory controller directly supports the following:

• One channel of PC1600/2100 DDR SDRAM memory

• DDR SDRAM devices with densities of 128-Mb, 256-Mb, and 512-Mb technology

• Variable page sizes of 2-kB, 4-kB, 8-kB, and 16-kB. Page size is individually selected

for every row and a maximum of 16 pages may be opened simultaneously

1.6.6 PCI Interface

The ICH4 PCI interface provides a 33 MHz, Rev. 2.2 compliant implementation. All PCI

signals are 5V tolerant, except PME#. The ICH2 integrates a PCI arbiter that supports up to

six external PCI bus masters in addition to the internal ICH4 requests.

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1.6.7 IDE Interface (Bus Master Capability and Synchronous DMA Mode )

The fast IDE interface supports up to four IDE devices providing an interface for IDE hard

disks and ATAPI devices. Each IDE device can have independent timings. The IDE

interface supports PIO IDE transfers up to 16 Mbytes/sec and Ultra ATA transfers up 100

Mbytes/sec. It does not consume any ISA DMA resources. The IDE interface integrates

16x32-bit buffers for optimal transfers.

The ICH4’s IDE system contains two independent IDE signal channels. They can be

electrically isolated independently. They can be configured to the standard primary and

secondary channels (four devices). There are integrated series resistors on the data and

control lines.

Access to these controllers is provided by two standard IDC 40-pin connectors.

1.6.8 USB 2.0

The ICH4 contains an Enhanced Host Controller Interface (EHCI) compliant host controller

that supports USB high-speed signaling. High-speed USB 2.0 allows data transfers up to

480Mb/s which is 40 times faster than full-speed USB. The ICH4 also contains three

Universal Host Controller Interface (UHCI) controllers that support USB full-speed and

low-speed signaling.

The ICH4 supports 6 USB 2.0 ports. All six USB ports are high-speed, full-speed, and

low-speed capable. ICH4’s port-routing logic determines whether a USB port is controlled

by one of the UHCI controllers or by the EHCI controller.

1.6.9 VIA VT1616 Audio Codec

VIA Technologies’ VT1616TM 18-bit audio codec conforms to the AC’97 2.2 specifications.

The VT1616 integrates Sample Rate Converters on all channels and can be adjusted in

1Hz increments. There is a provision in hardware for down-mixing the 6 channels into

stereo when only two end points are available. The analog mixer circuitry integrates a

stereo enhancement to provide a pleasing 3D surround sound effect for stereo media. This

codec is designed with aggressive power management to achieve low power consumption.

When used with a 3.3V analog supply, power consumption is further reduced. The primary

applications for this part are desktop and portable personal computers multimedia

subsystems.

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22 MX855E/ MX852E-C10 Series User’s Manual

1.6.10 Chrontel CH7009A TV/DVI Transmitter

The Chrontel CH7009A is a display controller device which accepts a digital graphics input

signal, and encodes and transmits data through a DVI (DFP can also be supported) or TV

output (analog composite, s-video or RGB). The device accepts data over one 12-bit wide

variable voltage data port which supports five different data formats including RGB and

YCrCb.

The DVI processor includes a low jitter PLL for generation of the high frequency serialized

clock, and all circuitries are required to encode, serialize and transmit data. The CH7009

comes in versions able to drive a DVI display at a pixel rate of up to 165MHz, supporting

UXGA resolution displays. No scaling of input data is performed on the data output to the

DVI device.

The TV-Out processor performs non-interlace to interlace conversion with scaling and

flicker filters, and encode the data into any of the NTSC or PAL video standards. The

scaling and flicker filter is adaptive and programmable to enable superior text display.

Eight graphics resolutions are supported up to 1024 by 768 with full vertical and horizontal

underscan capability in all modes. A high accuracy low jitter phase locked loop is

integrated to create outstanding video quality. Support is provided for MacrovisionTM and

RGB bypass mode which enables driving a VGA CRT with the input data.

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1.6.11 Ethernet

1.6.11.1 Realtek RTL8100C Ethernet Controller (For MX855E/ MX852E-C10)

The Realtek RTL8100C(L) is a highly integrated, cost-effective single-chip Fast Ethernet

controller that provides 32-bit performance, PCI bus master capability, and full compliance

with IEEE 802.3u 100Base-T and Power Interface (ACPI), PCI power management for

modern operating systems that are cpable of Operating System-Directed Power

Management (OSPM) to achieve that most efficient power management possible. The

RTL8100C(L) does not support CardBus mode (the RTL8139C does).

In addition to the ACPI feature, the RTL8100C(L) also supports remote wake-up (including

AMD magic Packet, LinkChg, and Microsoft® wake-up frame) in both ACPI and APM

(Advanced Power Management) environments. The RTL8100C(L) is capable of performing

an internal reset through the application of auxiliary power. When auxiliary power is applied

and the main power remains off, the RTL8100C(L) is ready and waiting for a Magic Packet

or Link Change to wake the system up. Also, the LWAKE pin provides 4 output signals

(active high, active low, positive pulse, and negative pulse). The versatility of the

RTL8100C(L) LWAKE pin provides motherboards, with Wake-On-LAN (WOL) functionality.

The RTL8100C(L) also supports Analog Auto-Power-down. The analog part of the

RTL8100C(L) can be shut down temporarily according to user requirements, or when the

RTL8100C(L) is in a power down state with the wakeup function disabled. When the analog

part is shut down and the IsolateB pin is low (i.e. the main power is off), both the analog and

digital parts stop functioning and the power consumption of the RTL8100C(L) is negligible.

The RTL8100C(L) also supports an auxiliary power auto-detect function, and will

auto-configure related bits of its PCI power management registers in PCI configuration

space.

PCI Vital Product Data (VPD) is also supported to provide hardware identifier information.

The information may consist of part number, serial number, OEM brand name, and other

detailed information.

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24 MX855E/ MX852E-C10 Series User’s Manual

1.6.11.2 Realtek RTL8100S Gigabit Ethernet Controller (MX855E/ MX852E-C10)

The Realtek RTL8110SB(L) LOM Gigabit Ethernet controllers (RTL8110SB (128 QFP) &

RTL8110SBL (128 LQFP)) combine a triple-speed IEEE 802.3 compliant Media Access

Controller (MAC) with a triple-speed Ethernet transceiver, 32-bit PCI bus controller, and

embedded memory. With state-of-the-art DSP technology and mixed-mode signal

technology, they offer high-speed transmission over CAT 5 UTP cable or CAT 3 UTP

(10Mbps only) cable. Functions such as Crossover Detection & Auto-Correction, polarity

correction, adaptive equalization, cross-talk cancellation, echo cancellation, timing recovery,

and error correction are implemented to provide robust transmission and reception

capability at high speeds.

The devices support the PCI v2.3 bus interface for host communications with power

management and are compliant with the IEEE 802.3 specification for 10/100Mbps Ethernet

and the IEEE 802.3ab specification for 1000Mbps Ethernet. They also support an auxiliary

power auto-detect function, and will auto-configure related bits of the PCI power

management registers in PCI configuration space.

They support the Advanced Configuration Power management Interface (ACPI)--power

management for modern operating systems that are capable of Operating System-directed

Power Management (OSPM)--to achieve the most efficient power management possible.

PCI Message Signaled Interrupt (MSI) is also supported.

In addition to the ACPI feature, the RTL8110SB(L) support remote wake-up (including AMD

Magic Packet, Re-LinkOk, and Microsoft® Wake-up frame) in both ACPI and APM

(Advanced Power Management) environments. The LWAKE pin provides four different

output signals including active high, active low, positive pulse, and negative pulse. The

versatility of the LWAKE pin provides motherboards with Wake-On-LAN (WOL)

functionality. To support WOL from a deep power down state (e.g. D3cold, i.e. main power

is off and only auxiliary exists), the auxiliary power source must be able to provide the

needed power for the RTL8110SB(L).

The RTL8110SB(L) is fully compliant with Microsoft® NDIS5 (IP, TCP, UDP) Checksum

and Segmentation Task-offload features, and supports IEEE 802 IP Layer 2 priority

encoding and 802.1Q Virtual bridged Local Area Network (VLAN). The above features

contribute to lowering CPU utilization, especially benefiting performance when in operation

on a network server. Also, the devices boost their PCI performance by supporting PCI

Memory Read Line & Memory Read Multiple when transmitting, and Memory Write and

Invalidate when receiving. To better qualify for server use, the RTL8110SB(L) support the

PCI Dual Address Cycle (DAC) command when the assigned buffers reside at a physical

memory address higher than 4 Gigabytes.

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1.6.12 Winbond W83627HF

The Winbond W83627F/HF is made to fully comply with Microsoft PC98 and PC99

Hardware Design Guide. Moreover, W83627F/HF is made to meet the specification of

PC98/PC99’s requirement in the power management: ACPI and DPM (Device Power

Management). Super I/O chip provides features as the following:

• Meet LPC Spec. 1.0

• Support LDRQ# (LPC DMA), SERIRQ (serial IRQ)

• Include all features of Winbond I/O W83977TF and W83977EF

• Integrate Hardware Monitor functions

• Compliant with Microsoft PC98/PC99 Hardware Design Guide.

• Support DPM (Device Power Management), ACPI

• Programmable configuration settings

• Single 24 or 48 MHz clock input

1.6.13 Compact Flash Interface

A Compact Flash type II connector is connected to the secondary IDE controller. The

Compact Flash storage card is IDE compatible. It is an ideal replacement for standard IDE

hard drives. The solid-state design offers no seek errors even under extreme shock and

vibration conditions. The Compact Flash storage card is extremely small and highly suitable

for rugged environments, thus providing an excellent solution for mobile applications with

space limitations. It is fully compatible with all consumer applications designed for data

storage PC card, PDA, and Smart Cellular Phones, allowing simple use for the end user.

The Compact Flash storage card is O/S independent, thus offering an optimal solution for

embedded systems operating in non-standard computing environments. The Compact

Flash storage card is IDE compatible and offers various capacities.

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26 MX855E/ MX852E-C10 Series User’s Manual

2. Hardware Configuration

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2.1 Product Overview

2.1.1 MX855E

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28 MX855E/ MX852E-C10 Series User’s Manual

2.1.2 MX852E-C10

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MX855E/ MX852E-C10 Series User’s Manual

2.2 Installation Procedure

This chapter explains you the instructions of how to setup your system.

1. Turn off the power supply.

2. Insert the DIMM module (be careful with the orientation).

3. Insert all external cables for hard disk, floppy, keyboard, mouse, USB etc. except for flat

panel. A CRT monitor must be connected in order to change CMOS settings to support

flat panel.

4. Connect power supply to the board via the ATXPWR.

5. Turn on the power.

6. Enter the BIOS setup by pressing the delete key during boot up. Use the “LOAD BIOS

DEFAULTS” feature. The Integrated Peripheral Setup and the Standard CMOS Setup

Window must be entered and configured correctly to match the particular system

configuration.

7. If TFT panel display is to be utilized, make sure the panel voltage is correctly set before

connecting the display cable and turning on the power.

2.2.1 Processor Installation

2.2.1.1 Installing Pentium M CPU

• The processor socket comes with a screw to secure the processor, please unlock the

screw first.

• Position the CPU above the socket and the gold triangular mark on the CPU must

align with pin 1 of the CPU socket. Then Insert the CPU gently seated in place.

• Turn the screw to the lock position.

Note: Do not force the CPU into the socket. It may bend the pins and damage the

CPU.

Unlock

Pin 1 of the socket

Gold triangular mark

Lock

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2.2.1.2 Installing the Fan and Heat Sink

• Insert the copper studs to the screw holes around the CPU socket from the top

through the rear side of the board with screw nuts fastened.

• Match and place the CPU fan and heat sink assembly on the top of the CPU and

copper studs. Tighten the screws into the copper studs through washers and the

screw holes around the heat sink.

• Place the CPU Fan Connector.

Note: Make sure the CPU fan and heat sink assembly and the CPU top surface

are in total contact to avoid CPU overheating problem that would cause the

system to hang or unstable

2.2.1.3 Removing CPU

• Disconnect the CPU fan connector.

• Remove the CPU fan and heat sink assembly first.

• Unfasten the copper studs from the board.

• Unlock the Pentium M processor.

• Carefully lift up the existing CPU to remove it from the socket.

• Follow the steps of installing a CPU to change to another one.

Copper Stud

Screw nut

(Rear side)

Screws

CPU Fan & heat sink assembl

CPU fan connector

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2.2.2 Main Memory

MX855E/ MX852E-C10 provide one 184-pin DIMM socket to support DDR SDRAM. The

total maximum memory size is 1GB.

Make sure to unplug the power supply before adding or removing DIMMs or

other system components. Failure to do so may cause severe damage to

both the board and the components.

DIMM1

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• Locate the DIMM slot on the board.

• Hold two edges of the DIMM module carefully. Keep away of touching its connectors.

• Align the notch key on the module with the rib on the slot.

• Firmly press the modules into the slot automatically snaps into the mounting notch. Do

not force the DIMM module in with extra force as the DIMM module only fit in one

direction.

• To remove the DIMM modules, push the two ejector tabs on the slot outward

simultaneously, and then pull out the DIMM module.

Note: (1) Please do not change any DDR SDRAM parameter in BIOS setup to

increase your system’s performance without acquiring technical

information in advance.

(2) Static electricity can damage the electronic components of the computer

or optional boards. Before starting these procedures, ensure that you

are discharged of static electricity by touching a grounded metal object

briefly.

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2.3 Jumper and Connector List

You can configure your board to match the needs of your application by setting jumpers. A

jumper is the simplest kind of electric switch.

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 two pins.

The jumper settings are schematically depicted in this manual as follows:

A pair of needle-nose pliers may be helpful when working with jumpers.

Connectors on the board are linked to external devices such as hard disk drives, a

keyboard, or floppy drives. In addition, the board has a number of jumpers that allow you to

configure your system to suit your application.

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.

The following tables list the function of each of the board's jumpers and connectors.

Jumpers

Label Function Note JBAT1

Clear CMOS 3 x 1 header, pitch 2.54mm

JP1

COM1 pin 9 signal select 3 x 2 header, pitch 2.0mm

JP2, JP3

COM1 RS-232/422/485 select 3 x 2 header, pitch 2.0mm

4 x 3 header, pitch 2.0mm

SW1

4/5/8-wire touch screen select (Optional) Switch

SW2

Reserved Switch

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Connectors

Label Function Note ATXPWR1

ATX Power connector ATX power connector

C_FAN1

CPU fan connector 3 x 1 wafer, pitch 2.54mm

CF1

CF card connector

CN1

Parallel port connector

Serial port 1 connector

VGA connector

D-sub 25-pin, female

D-sub 9-pin, male

D-sub 15-pin, female

CN2

Audio connector Phone Jack X 3

CN4

RJ-45 Ethernet / USB 0 & 1 connector

CN5

4/5/8-wire touch screen connector

(Optional)

9 x 1 wafer, pitch 2.0mm

DIMM1

184-pin DDR SDRAM DIMM socket

FLP1

Floppy connector 17 x 2 header, pitch 2.54mm

IDE_1

Primary IDE connector

20 x 2 header, pitch 2.54mm

IDE_2

Secondary IDE connector

22 x 2 header, pitch 2.0mm

JBKL1

LCD inverter connector

5 x 1 wafer, pitch 2.0mm

JCD1

CD-ROM audio input connector 4 x 1 wafer, pitch 2.0mm

JCOM1

Serial port 2 connector 5 x 2 header, pitch 2.54mm

JCOM2

Serial port 3 connector 5 x 2 header, pitch 2.54mm

JCOM3

Serial port 4 connector 5 x 2 header, pitch 2.54mm

JDIO1

Digital input/output connector 10 x 2 header, pitch 2.54mm

JFP1

Front panel connector 8 x 2 header, pitch 2.54mm

JIR1

IrDA connector 5 x 1 header, pitch 2.54mm

JLVDS1

LVDS connector HIROSE DF13-40DP-1.25V

JMISC1

Miscellaneous setting connector 5 x 2 header, pitch 2.54mm

JTMDS1

TMDS connector HIROSE DF13-20DP-1.25V

JTV1

TV out connector 3 x 2 header, pitch 2.54mm

JUSB1

USB connector 2 & 3 5 x 2 header, pitch 2.54mm

JUSB2

USB connector 4 & 5 5 x 2 header, pitch 2.54mm

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Connectors

Label Function Note KB_MS1

PS/2 Keyboard & mouse connector 6-pin Mini-DIN x 2

MPCI1

Mini PCI slot

PCI1

PCI slot

S_FAN1,S_FAN2

System fan connector 1 & 2

3 x 1 wafer, pitch 2.54mm

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2.4 Setting Jumpers & Connectors

2.4.1 Clear CMOS (JBAT1)

* Default

Protect*

Clear CMOS

2.4.2 COM1 Pin 9 Signal Select (JP1)

* Default

Ring*

+5V

+12V

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2.4.3 COM1 RS-232/422/485 Select (JP2, JP3)

* Default

(JP2)

RS-232*

RS-422

RS-485

(JP3)

RS-232*

RS-422

RS-485

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2.4.4 4/5/8-wire Touch Screen Select (SW1) (Optional)

* Default

Wire BIT1 BIT2

* 4, 8 OFF ON

5 ON OFF

2.4.5 ATX Power Connector (ATXPWR1)

Signal PIN PIN Signal

+12V 10 20 +5V

VCCSB 9 19 +5V

PWROK 8 18 -5V

GND 7 17 GND

+5V 6 16 GND

GND 5 15 GND

+5V 4 14 PS_ON

GND 3 13 GND

+3.3V 2 12 -12V

+3.3V 1 11 +3.3V

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2.4.6 CPU Fan Connector (C_FAN1)

Signal PIN

TAC 3

+12V 2

GND 1

2.4.6.1 Signal Description – CPU Fan Connector (C_FAN1)

Signal Signal Description

TAC Fan speed monitor

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40 MX855E/ MX852E-C10 Series User’s Manual

2.4.7 Parallel Port Connector & VGA Connector (CN1)

Port Description

Parallel

Connects a parallel printer, a

scanner, or other devices.

COM

For pointing devices or other

serial devices

VGA

Signal PIN Signal

6 GND

RED 1 11 NC

7 GND

GREEN 2 12 DAT

8 GND

BLUE 3 13 HSYNC

9 VCC

NC 4 14 VSYNC

10 GND

GND 5 15 DCK

2.4.7.1 Signal Description – VGA Connector (CN1)

Signal Signal Description

HSYNC CRT horizontal synchronisation output.

VSYNC CRT vertical synchronisation output.

DCK

Display Data Channel Clock. Used as clock signal to/from monitors with DDC

interface.

DAT

Display Data Channel Data. Used as data signal to/from monitors with DDC

interface.

RED

Analog output carrying the red colour signal to the CRT. For 75 Ω cable

impedance.

GREEN

Analog output carrying the green colour signal to the CRT. For 75 Ω cable

impedance.

BLUE

Analog output carrying the blue colour signal to the CRT. For 75 Ω cable

impedance.

COM

VGA

Parallel

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2.4.8 Serial Port 1 Connector in RS-232 Mode (CN1)

Signal PIN PIN Signal

DCD 1 2 RxD

TxD 3 4 DTR

GND 5 6 DSR

RTS 7 8 CTS

RI/+5V/+12V 9 10 NC

2.4.8.1 Signal Description – Serial Port 1 Connector in RS-232 Mode (CN1)

Signal Signal Description

TxD

Serial output. This signal sends serial data to the communication link. The signal is

set to a marking state on hardware reset when the transmitter is empty or when

loop mode operation is initiated.

RxD Serial input. This signal receives serial data from the communication link.

DTR

Data Terminal Ready. This signal indicates to the modem or data set that the

on-board UART is ready to establish a communication link.

DSR

Data Set Ready. This signal indicates that the modem or data set is ready to

establish a communication link.

RTS

Request To Send. This signal indicates to the modem or data set that the on-board

UART is ready to exchange data.

CTS

Clear To Send. This signal indicates that the modem or data set is ready to

exchange data.

DCD

Data Carrier Detect. This signal indicates that the modem or data set has detected

the data carrier.

Ring Indicator. This signal indicates that the modem has received a telephone

ringing signal.

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42 MX855E/ MX852E-C10 Series User’s Manual

2.4.9 Serial Port 1 Connector in RS-422 Mode (CN1)

Signal PIN PIN Signal

TxD- 1 2 RxD+

TxD+ 3 4 RxD-

GND 5 6 NC

NC 7 8 NC

NC 9 10 NC

2.4.9.1 Signal Description – Serial Port 1 Connector in RS-422 Mode (CN1)

Signal Signal Description

TxD+/-

Serial output. This differential signal pair sends serial data to the communication

link. Data is transferred from Serial Port 2 Transmit Buffer Register to the

communication link, if the RTS register of the Serial Port 2 is set to LOW.

RxD+/-

Serial input. This differential signal pair receives serial data from the

communication link. Received data is available in Serial Port 2 Receiver Buffer

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MX855E/ MX852E-C10 Series User’s Manual

2.4.10 Serial Port 1 Connector in RS-485 Mode (CN1)

Signal PIN PIN Signal

DATA- 1 2 NC

DATA+ 3 4 NC

GND 5 6 NC

NC 7 8 NC

NC 9 10 NC

2.4.10.1 Signal Description – Serial Port 1 Connector in RS-485 Mode (CN1)

Signal Signal Description

DATA+/-

This differential signal pair sends and receives serial data to the communication

link. The mode of this differential signal pair is controlled through the RTS

transmitting, HIGH for receiving.

Do not select a mode different from the one used by the connected peripheral,

as this may damage CPU board and/or peripheral.

The transmitter drivers in the port are short circuit protected by a thermal

protection circuit. The circuit disables the drivers when the die temperature

reaches 150 °C.

RS-422 mode is typically used in point to point communication. Data and

control signal pairs should be terminated in the receiver end with a resistor

matching the cable impedance (typical 100-120 Ω). The resistors could be

placed in the connector housing.

RS-485 mode is typically used in multi drop applications, where more than 2

units are communicating. The data and control signal pairs should be

terminated in each end of the communication line with a resistor matching the

cable impedance (typical 100-120 Ω). Stubs to substations should be

avoided.

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2.4.11 Audio Connector (CN2)

Port Description

Audio-In

Connects a tape player or

other audio sources.

Audio-Out

Connects a headphone or a

speaker.

Microphone Connects a microphone.

2.4.12 RJ-45 Ethernet / USB 0 & 1, 4 & 5 Connectors (CN3, CN4)

Port Description

RJ-45

Allows connection to a Local

Area Network (LAN) through

a network hub.

USB 2.0

For connecting USB port 0,

1 (CN4), 4, 5 (CN3)

2.4.13 4/5/8-Wire Touch Screen Connector (CN5) (Optional)

PIN 4-Wire 5-Wire 8-Wire

1 NA NA Right Sense

2 NA NA Left Sense

3 NA NA Bottom Sense

4 NA Sense Top Sense

5 Right LR Right Excite

6 Left LL Left Excite

7 Bottom UR Bottom Excite

8 Top UL Top Excite

9 GND GND GND

Microphone

Audio-Out

Audio-In

CN4

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2.4.14 Floppy Connector (FLP1)

Signal PIN PIN Signal

GND 1 2 REDWC

GND 3 4 NC

GND 5 6 NC

GND 7 8 INDEX

GND 9 10 MOTSA

GND 11 12 DRVSB

GND 13 14 DRVSA

GND 15 16 MOTEB

GND 17 18 DIR

GND 19 20 STEP

GND 21 22 WDATA

GND 23 24 WGATE

GND 25 26 TK00

GND 27 28 WPT

GND 29 30 RDATA

GND 31 32 SIDE1

GND 33 34 DSKCHG

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2.4.14.1 Signal Description – Floppy Connector (FLP)

Signal Signal Description

RDATA The read data input signal from the FDD.

WDATA

Write data. This logic low open drain writes pre-compensation serial data to the

selected FDD. An open drain output.

WGATE Write enable. An open drain output.

MOATSA

Motor A On. When set to 0, this pin enables disk drive 0. This is an open drain

output.

MOTEB

Motor B On. When set to 0, this pin enables disk drive 1. This is an open drain

output.

DRVSA

Drive Select A. When set to 0, this pin enables disk drive A. This is an open drain

output.

DRVSB

Drive Select B. When set to 0, this pin enables disk drive B. This is an open drain

output.

SIDE1 This output signal selects side of the disk in the selected drive.

DIR

Direction of the head step motor. An open drain output

Logic 1 = outward motion

Logic 0 = inward motion

STEP

Step output pulses. This active low open drain output produces a pulse to move

the head to another track.

REDWC

This output indicates whether a low drive density (250/300kbps at low level) or a

high drive density (500/1000kbps at high level) has been selected.

TK00

Track 0. This Schmitt-triggered input from the disk drive is active low when the

head is positioned over the outermost track.

INDEX

This Schmitt-triggered input from the disk drive is active low when the head is

positioned over the beginning of a track marked by an index hole.

WPT

Write protected. This active low Schmitt input from the disk drive indicates that the

diskette is write-protected.

DSKCHG

Diskette change. This signal is active low at power on and whenever the diskette is

removed.

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2.4.15 Primary IDE Connector (IDE_1)

Signal PIN PIN Signal

RESET# 1 2 GND

PDD7 3 4 PDD8

PDD6 5 6 PDD9

PDD5 7 8 PDD10

PDD4 9 10 PDD11

PDD3 11 12 PDD12

PDD2 13 14 PDD13

PDD1 15 16 PDD14

PDD0 17 18 PDD15

GND 19 20 NC

PDREQ 21 22 GND

PDIOW# 23 24 GND

PDIOR# 25 26 GND

PIORDY 27 28 GND

PDDACK# 29 30 GND

IRQ14 31 32 NC

PDA1 33 34 PATADET

PDA0 35 36 PDA2

PDCS1# 37 38 PDCS3#

IDEACTP# 39 40 GND

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2.4.16 Secondary IDE Connector (IDE_2)

Signal PIN PIN Signal

RESET# 1 2 GND

SDD7 3 4 SDD8

SDD6 5 6 SDD9

SDD5 7 8 SDD10

SDD4 9 10 SDD11

SDD3 11 12 SDD12

SDD2 13 14 SDD13

SDD1 15 16 SDD14

SDD0 17 18 SDD15

GND 19 20 NC

SDREQ 21 22 GND

SDIOW# 23 24 GND

SDIOR# 25 26 GND

SIORDY 27 28 GND

SDDACK# 29 30 GND

IRQ15 31 32 NC

SDA1 33 34 SATADET

SDA0 35 36 SDA2

SDCS1# 37 38 SDCS3#

IDEACTP# 39 40 GND

+5V 41 42 +5V

GND 43 44 NC

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2.4.16.1 Signal Description – Primary / Secondary IDE Connector (IDE_1, IDE_2)

The IDE interface supports PIO modes 0 to 4 and Bus Master IDE. Data transfer rates up to

100 MB/Sec is possible.

Signal Signal Description

DA [2:0]

IDE Address Bits. These address bits are used to access a register or data port in

a device on the IDE bus.

DCS1#, DCS3#

IDE Chip Selects. The chip select signals are used to select the command block

registers in an IDE device. DCS1# selects the primary hard disk.

D [15:0] IDE Data Lines. D [15:0] transfers data to/from the IDE devices.

IOR#

IDE I/O Read. Signal is asserted on read accesses to the corresponding IDE port

addresses.

IOW#

IDE I/O Write. Each signal is asserted on write accesses to corresponding the IDE

port addresses.

IORDY

When deasserted, these signals extend the transfer cycle of any host register

access when the device is not ready to respond to the data transfer request.

RESET# IDE Reset. This signal resets all the devices that are attached to the IDE interface.

IRQ14 Interrupt line from hard disk. Connected directly to PC-AT bus.

DREQ

The DREQ is used to request a DMA transfer from the South Bridge. The direction

of the transfers is determined by the IOR#/IOW# signals.

DACK#

DMA Acknowledge. The DACK# acknowledges the DREQ request to initiate DMA

transfers.

DACT#

Signal from hard disk indicating hard disk activity. The signal level depends on the

hard disk type, normally active low. The signal is routed directly to the LED1.

PATADET,

SATADET

Primary/Secondary IDE detected.

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2.4.17 LCD Inverter Connector (JBKL1)

Signal PIN

+12V 1

GND 2

ENBKL 3

VR 4

+5V 5

Note:

For inverters with adjustable Backlight function, it is possible to control the

LCD brightness through the VR signal controlled by JMISC. Please see the

JMISC section for detailed circuitry information.

2.4.17.1 Signal Description – LCD Inverter Connector (JBKL1)

Signal Signal Description

VR Vadj = 0.75V ~ 4.25V (Recommended: 4.7KΩ, >1/16W)

ENBKL LCD backlight ON/OFF control signal

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2.4.18 CD-ROM Audio Input Connector (JCD1)

Signal PIN

CD_L 1

GND 2

GND 3

CD_R 4

2.4.18.1 Signal Description – CD-ROM Audio Input Connector (JCD1)

Signal Signal Description

CD_R Right CD-IN signal

CD_L Left CD-IN signal

2.4.19 Serial Port 2 Connector (JCOM1)

Signal PIN PIN Signal

DCD 1 2 RxD

TxD 3 4 DTR

GND 5 6 DSR

RTS 7 8 CTS

RI 9 10 NC

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2.4.20 Serial Port 3/4 Connector (JCOM2, JCOM3)

Signal PIN PIN Signal

DCD 1 2 RxD

TxD 3 4 DTR

GND 5 6 DSR

RTS 7 8 CTS

RI 9 10 NC

2.4.20.1 Signal Description – Serial Port 2/3/4 Connector (JCOM1, JCOM2, JCOM3)

Signal Signal Description

TxD

Serial output. This signal sends serial data to the communication link. The signal is

set to a marking state on hardware reset when the transmitter is empty or when

loop mode operation is initiated.

RxD Serial input. This signal receives serial data from the communication link.

DTR

Data Terminal Ready. This signal indicates to the modem or data set that the

on-board UART is ready to establish a communication link.

DSR

Data Set Ready. This signal indicates that the modem or data set is ready to

establish a communication link.

RTS

Request To Send. This signal indicates to the modem or data set that the on-board

UART is ready to exchange data.

CTS

Clear To Send. This signal indicates that the modem or data set is ready to

exchange data.

DCD

Data Carrier Detect. This signal indicates that the modem or data set has detected

the data carrier.

Ring Indicator. This signal indicates that the modem has received a telephone

ringing signal.

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2.4.21 Digital Input / Output Connector (JDIO1)

Signal PIN PIN Signal

DIO0 1 2 DIO10

DIO1 3 4 DIO11

DIO2 5 6 DIO12

DIO3 7 8 DIO13

DIO4 9 10 DIO14

DIO5 11 12 DIO15

DIO6 13 14 DIO16

DIO7 15 16 DIO17

SMB_CLK_S 17 18 SMB_DATA_S

GND 19 20 +5V

2.4.21.1 Signal Description – Digital Input / Output Connector (JDIO1)

Signal Signal Description

DI [0:17] Digital Input/Output Data Bit 0 to Bit 17

SMB_CLK Data input for I2C input, 5V tolerant

SMB_DATA Data input for I2C serial input, 5V tolerant

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2.4.22 Front Panel Connector (JFP1)

Signal PIN PIN Signal

RESET

1 2

SYS_LED+

GND

3 4

SYS_LED-

HDD_LED+

5 6

PWR_LED+

HDD_LED-

7 8

PWR_LED-

VCCSB

9 10

SUS_LED+

PWR_BUT

11 12

SUS_LED-

SUS_BUT

13 14

SPK+

GND

15 16

SPK-

2.4.22.1 Signal Description – Front Panel Connecter (JFP1)

PIN No. Description

1, 3 Reset SW

2, 4 System LED

5, 7 HDD LED

6, 8 Power-On LED

9, 11 Power SW

10, 12 Suspend LED

13, 15 Suspend SW

14, 16 Speaker

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2.4.23 IrDA Connector (JIR1)

Signal PIN

+5V 1

NC 2

IRRX 3

GND 4

IRTX 5

2.4.23.1 Signal Description – IrDA Connecter (JIR1)

Signal Signal Description

IRRX Infrared Receiver input

IRTX Infrared Transmitter output

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2.4.24 LVDS Connector (JLVDS1)

Signal PIN PIN Signal

+5V 2 1 +3.3V

+5V 4 3 +3.3V

I2C_DAT 6 5 I2C_CLK

GND 8 7 GND

Txout0 10 9 Txout1

Txout0# 12 11 Txout1#

GND 14 13 GND

Txout2 16 15 Txout3

Txout2# 18 17 Txout3#

GND 20 19 GND

E_Txout0 22 21 E_Txout1

E_Txout0# 24 23 E_Txout1#

GND 26 25 GND

E_Txout2 28 27 E_Txout3

E_Txout2# 30 29 E_Txout3#

GND 32 31 GND

Txclk 34 33 E_Txclk

Txclk# 36 35 E_Txclk#

GND 38 37 GND

+12V 40 39 +12V

2.4.24.1 Signal Description – LVDS Connector (JLVDS1)

Signal Signal Description

I2C_DAT, I2C_CLK

I2C interface for panel parameter EEPROM. This EERPOM is mounted on the LVDS receiver. The data in the EEPROM allows the EXT module to automatically set the proper timing parameters for a specific LCD panel.

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2.4.25 Miscellaneous Setting Connector (JMISC1)

Signal PIN PIN Signal

CASEOPEN# 1 2 VTIN3

GND 3 4 THRMDN

+5V 5 6 +5V

VR 7 8 #MASTER

GND 9 10 GND

2.4.25.1 Signal Description – Miscellaneous Setting Connecter (JMISC1)

PIN No. Description

1, 3 Case open detection

5, 7, 9

LCD brightness setting

VCC

JBKL1 pin 4

JMISC1

Variation Resistor (Recommended: 4.7KΩ, >1/16W)

2, 4 Thermal detection

6, 8, 10 CF Master/Slave setting 8-10 short (default: Master)

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2.4.26 TMDS Connector (JTMDS1)

Signal PIN PIN Signal

+5V 2 1 TDC0#

GND 4 3 TDC0

NC 6 5 NC

NC 8 7 NC

HPDET 10 9 TDC1#

TMDSDATA 12 11 TDC1

TMDSDCLK 14 13 NC

GND 16 15 NC

TLC# 18 17 TDC2#

TLC 20 19 TDC2

2.4.26.1 Signal Description – TMDS Connecter (JTMDS1)

Signal Type Signal Description

TDC0, TDC0# O

DVI Data Channel 0 Outputs: These pins provide the DVI differential

outputs for data channel 0 (blue).

TDC1, TDC1# O

DVI Data Channel 1 Outputs: These pins provide the DVI differential

outputs for data channel 1 (green).

TDC2, TDC2# O

DVI Data Channel 2 Outputs: These pins provide the DVI differential

outputs for data channel 2 (red).

HPDET I

Hot Plug Detect (internal pull-down): This input pin determines

whether the DVI is connected to a DVI monitor. When terminated,

the monitor is required to apply a voltage greater than 2.4 volts.

Changes on the status of this pin will be relayed to the graphics

controller via the P-OUT/TLDET* or GPIO (1)/TLDET* pin pulling low.

TMDSDATA I/O

DVO I2C Data: This signal is used as the I2C_DATA for a digital

display (i.e. TV-Out Encoder, TMDS transmitter). This signal is

tri-stated during a hard reset.

TMDSDCLK I/O

DVI DDC Clock: This signal is used as the DDC clock for a digital

display connector (i.e. primary digital monitor). This signal is tri-stated

during a hard reset.

TLC, TLC# O

DVI Clock Outputs: These pins provide the differential clock outputs

for the DVI interface corresponding to data on TDC (0:2) outputs.

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2.4.27 TV Out Connector (JTV1)

Signal PIN PIN Signal

TVCVB 1 2 GND

TVYFCC2 3 4 TVCFCC2

GND 5 6 GND

2.4.27.1 Signal Description – TV Out Connecter (JTV1)

Signal Signal Description

TVYFCC2

Luma / Green Output. This pin outputs a selectable video signal. The output is

designed to drive a 75 ohm doubly terminated load. The output can be selected to

be S-video luminance or green.

TVCFCC2

Chroma / Green Output. This pin outputs a selectable video signal. The output is

designed to drive a 75 ohm doubly terminated load. The output can be selected to

be S-video chrominance or red

TVCVB

Composite Video / Blue Output. Chroma / Green Output. This pin outputs a

selectable video signal. The output is designed to drive a 75 ohm doubly

terminated load. The output can be selected to be composite video or blue.

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2.4.28 USB Connector 2 & 3 (JUSB1)

Signal PIN PIN Signal

+5V 1 2 GND

D2- 3 4 GND

D2+ 5 6 D3+

GND 7 8 D3-

GND 9 10 +5V

2.4.29 USB Connector 4 & 5 (JUSB2)

Signal PIN PIN Signal

+5V 1 2 GND

D4- 3 4 GND

D4+ 5 6 D5+

GND 7 8 D5-

GND 9 10 +5V

2.4.29.1 Signal Description – USB Connecter 2, 3, 4 & 5 (JUSB1, JUSB2)

Signal Signal Description

D2+/D2-

Differential bi-directional data signal for USB channel 2. Clock is transmitted along

with the data using NRZI encoding. The signalling bit rate is up to 12 Mbs.

D3+/D3-

Differential bi-directional data signal for USB channel 3. Clock is transmitted along

with the data using NRZI encoding. The signalling bit rate is up to 12 Mbs.

D4+/D4-

Differential bi-directional data signal for USB channel 4. Clock is transmitted along

with the data using NRZI encoding. The signalling bit rate is up to 12 Mbs.

D5+/D5-

Differential bi-directional data signal for USB channel 5. Clock is transmitted along

with the data using NRZI encoding. The signalling bit rate is up to 12 Mbs.

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2.4.30 PS/2 Keyboard & Mouse Connector (KB_MS1)

Port Description

Mouse PS/2 Mouse connector

Keyboard PS/2 Keyboard connector

2.4.31 System Fan Connector 1 & 2 (S_FAN1, S_FAN2)

Signal PIN

TAC 3

+12V 2

GND 1

2.4.31.1 Signal Description – System Fan Connector (S_FAN1, S_FAN2)

Signal Signal Description

TAC Fan speed monitor

Mouse

Keyboard

S_FAN1

S_FAN2

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3 BIOS Setup

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3.1 Using Setup

The AwardBIOS™ is immediately activated when you first power on the computer. The

BIOS reads the system information contained in the CMOS and begins the process of

checking out the system and configuring it. When it finishes, the BIOS will seek an

operating system on one of the disks and then launch and turn control over to the operating

system.

While the BIOS is in control, the Setup program can be activated in one of two ways:

By pressing <Del> immediately after switching the system on, or

By pressing the <Del> key when the following message appears briefly at the bottom of the

screen during the POST (Power On Self Test).

Press DEL to enter SETUP

If the message disappears before you respond and you still wish to enter Setup, restart the

system to try again by turning it OFF then ON or pressing the "RESET" button on the

system case. You may also restart by simultaneously pressing <Ctrl>, <Alt>, and <Delete>

keys. If you do not press the keys at the correct time and the system does not boot, an error

message will be displayed and you will again be asked to.

Press F1 to Continue, DEL to enter SETUP

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3.2 Using Setup

In general, you use the arrow keys to highlight items, press <Enter> to select, use the

PageUp and PageDown keys to change entries, press <F1> for help and press <Esc> to

quit. The following table provides more detail about how to navigate in the Setup program

using the keyboard.

Button Description ↑

Move to previous item

↓

Move to next item

←

Move to the item in the left hand

→

Move to the item in the right hand

Esc key

Main Menu -- Quit and not save changes into CMOS Status Page Setup Menu and Option Page Setup Menu -- Exit current page and return to Main Menu

PgUp key Increase the numeric value or make changes

PgDn key Decrease the numeric value or make changes

+ key Increase the numeric value or make changes

- key Decrease the numeric value or make changes

F1 key General help, only for Status Page Setup Menu and Option Page Setup Menu

(Shift) F2 key

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

F3 key Calendar, only for Status Page Setup Menu

F4 key Reserved

F5 key Restore the previous CMOS value from CMOS, only for Option Page Setup Menu

F6 key

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

F7 key Load the default

F8 key Reserved

F9 key Reserved

F10 key Save all the CMOS changes, only for Main Menu

• Navigating Through The Menu Bar

Use the left and right arrow keys to choose the menu you want to be in.

Note: Some of the navigation keys differ from one screen to another.

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• To Display a Sub Menu

Use the arrow keys to move the cursor to the sub menu you want. Then press

<Enter>. A “¾” pointer marks all sub menus.

3.3 Getting Help

Press F1 to pop up a small help window that describes the appropriate keys to use and the

possible selections for the highlighted item. To exit the Help Window press <Esc> or the F1

key again.

3.4 In Case of Problems

If, after making and saving system changes with Setup, you discover that your computer no

longer is able to boot, the AwardBIOS™ supports an override to the CMOS settings which

resets your system to its defaults.

The best advice is to only alter settings which you thoroughly understand. To this end, we

strongly recommend that you avoid making any changes to the chipset defaults. These

defaults have been carefully chosen by both Award and your systems manufacturer to

provide the absolute maximum performance and reliability. Even a seemingly small change

to the chipset setup has the potential for causing you to use the override.

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3.5 Main Menu

Once you enter the AwardBIOS™ CMOS Setup Utility, the Main Menu will appear on the

screen. The Main Menu allows you to select from several setup functions and two exit

choices. Use the arrow keys to select among the items and press <Enter> to accept and

enter the sub-menu.

Note that a brief description of each highlighted selection appears at the bottom of the

screen.

Note: The BIOS setup screens shown in this chapter are for reference purposes

only, and may not exactly match what you see on your screen.

Visit the BCM website (www.bcmcom.com) to download the latest product

and BIOS information.

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3.5.1 Standard CMOS Features

The items in Standard CMOS Setup Menu are divided into few categories. Each category

includes no, one or more than one setup items. Use the arrow keys to highlight the item and

then use the <PgUp> or <PgDn> keys to select the value you want in each item.

3.5.1.1 Main Menu Selection

This reference table shows the selections that you may make on the Main Menu.

Item Options Description

Time HH : MM : SS Set the system time

IDE Primary Master

IDE Primary Slave IDE Secondary Master IDE Secondary Slave

Options are in 3.5.1.2

Press <Enter> to enter the sub menu of detailed options

Drive A Drive B

None

360K, 5.25 in

1.2M, 5.25 in 720K, 3.5 in

1.44M, 3.5 in

2.88M, 3.5 in

Select the type of floppy disk drive installed in your system

Video

EGA/VGA

CGA 40 CGA 80

MONO

Select the default video device

Halt On

All Errors

No Errors

All, but Keyboard

All, but Diskette

All, but Disk/Key

Select the situation in which you want the BIOS to stop the POST process and notify you

Boot Display

CRT

LFP (LVDS)

CRT+LFP(LVDS)

EFP(PANEL-LINK)

CRT+EFP

Select Display Device that the screen will be shown

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Item Options Description

Panel Type

640 x 480 18 800 x 600 18

1024 x 768 18

1280 x 1024 24/2

1400 x 1050 24 1600 x 1200 24

1280 x 768 24 1680 x 1050 24 1920 x 1200 24

1024 x 768 24

1024 x 768 18/2 1024 x 768 24/2

1280 x 800 18

1280 x 600 18

Select Panel Resolution that will be displayed depending on the LCD Panel (LFP)

TV Standard

Off, NTSC

PAL, SECAM

Select the output mode of TV Standard

Video Connector

Automatic, Composite

Component, Both

Select the type of Video display connector

TV Format

Auto, NTSC_M,

NTSC_M_J, NTSC_433,

NTSC_N, PAL_B,

PAL_G, PAL_D,

PAL_H, PAL_I,

PAL_M, PAL_N,

PAL_60, SECAM_L,

SECAM_L1, SECAM_B,

SECAM_D, SECAM_G, SECAM_H, SECAM_K,

SECAM_K1

This item allows you to select different TV signal format when the TV Standard item is not off.

3.5.1.2 IDE Adapter Setup

The IDE adapters control the hard disk drive. Use a separate sub menu to configure each

hard disk drive. The below table will shows the IDE primary master sub menu.

Item Options Description

IDE HDD Auto-detection Press Enter

Press Enter to auto-detect the HDD on this channel. If detection is successful, it fills the remaining fields on this menu.

IDE Primary Master

IDE Primary Slave,

IDE Secondary Master,

IDE Secondary Slave

None

Auto

Manual

Selecting ‘manual’ lets you set the remaining fields on this screen. Selects the type of fixed disk. "User Type" will let you select the number of cylinders, heads, etc. Note: PRECOMP=65535 means NONE !

Access Mode

CHS, LBA

Large, Auto

Choose the access mode for this hard disk

The following options are selectable only if the ‘IDE Channel …’ item is set to ‘Manual’

Cylinder

Min = 0

Max = 65535

Set the number of cylinders for this hard disk.

Head

Min = 0

Max = 255

Set the number of read/write heads

Precomp

Min = 0

Max = 65535

**** Warning: Setting a value of 65535

means no hard disk

Landing zone

Min = 0

Max = 65535

****

Sector

Min = 0

Max = 255

Number of sectors per track

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3.5.2 Advanced BIOS Features

This section allows you to configure your system for basic operation. You have the

opportunity to select the system’s default speed, boot-up sequence, keyboard operation,

shadowing and security.

3.5.2.1 CPU Feature

This item allows you to setup the CPU thermal management function.

Item Options Description

Thermal Management

Thermal Monitor 1 Thermal Monitor 2

TM2 Bus VID 0.700 ~ 1.708

Execute Disable Bit Enabled, Disabled

3.5.2.2 Virus Warning

Allows you to choose the VIRUS Warning feature for IDE Hard Disk boot sector protection.

If this function is enabled and someone attempt to write data into this area, BIOS will show

a warning message on screen and alarm beep.

Item Description

Enabled

Activates automatically when the system boots up causing a warning message to appear when anything attempts to access the boot sector or hard disk partition table.

Disabled

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

3.5.2.3 CPU L1 & L2 & L3 Cache

The item allows you to speed up memory access. However, it depends on CPU design.

Item Description Enabled Enable cache Disabled Disable cache

3.5.2.4 Quick Power On Self Test

This category speeds up Power On Self Test (POST) after you power up the computer. If it

is set to Enable, BIOS will shorten or skip some check items during POST.

Item Description Enabled Enable quick POST Disabled Normal POST

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3.5.2.5 First/Second/Third/Other Boot Device

The BIOS attempts to load the operating system from the devices in the sequence selected

in these items.

Item Description Floppy Floppy Device LS120 LS120 Device HDD-0~4 Hard Disk Device 0, 1, 2, 3, 4 SCSI SCSI Device CDROM CDROM Device ZIP100 ZIP-100 Device USB-FDD USB Floppy Device USB-ZIP USB ZIP Device

USB-CDROM

USB CDROM Device

USB-HDD

USB Hard Disk Device LAN Network Device Disabled Disabled any boot device

3.5.2.6 Swap Floppy Drive

While system has two floppy drivers installed, this item will be affected. This function is to

assign physical drive B to logical drive A.

Item Description Enabled Assign physical drive B to logical drive A Disabled No change

3.5.2.7 Book Up Floppy Seek

Seeks disk drives during boot up. Disabling seeds boot up.

Item Description Enabled Enable Floppy Seek Disabled Disable Floppy Seek

3.5.2.8 Boot Up NumLock Status

Select power on state for NumLock.

Item Description Enabled Enable NumLock Disabled Disable NumLock

3.5.2.9 Gate A20 Option

Select if chipset or keyboard controller should control Gate A20.

Item Description Normal A pin in the keyboard controller controls Gate A20 Fast Lets chipset control Gate A20

3.5.2.10 Typematic Rate Setting

Key strokes repeat at a rate determined by the keyboard controller. When enabled, the

typematic rate and typematic delay can be selected.

Item Description Enabled Enable typematic rate/delay setting Disabled Disable typematic rate/delay setting

3.5.2.11 Security Option

Select whether the password is required every time the system boots or only when you

enter setup.

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Item Description

System

The system will not boot and access to Setup will be denied if the correct password is not entered at the prompt.

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 at Main Menu and then

you will be asked to enter password. Do not type anything and just press

<Enter>, it will disable security. Once the security is disabled, the system

will boot and you can enter Setup freely.

3.5.2.12 APIC Mode

The BIOS supports versions 1.4 of the Intel multiprocessor specification. When enabled,

The MPS Version 1.4 Control for OS can be activated.

The choice: Enabled/Disabled.

3.5.2.13 MPS Version Control For OS

This feature is only applicable to multiprocessor board as it specifies the version of the

Multi-Processor Specification (MPS) that the board will use.

The choice: 1.4, 1.1.

3.5.2.14 OS Select for DRAM > 64MB

Select the operating system that is running with greater than 64MB of RAM on the system.

Item Description Non-OS2 Disable OS for over 64 MB DRAM OS2 Enable OS for over 64 MB DRAM

3.5.2.15 Report No FDD For WIN95

The original Windows95 requires the presence of a floppy. Unless the BIOS tells it to

disregard the absence of the drive, it will generate an error message. For other operating

systems as Win98 etc this field is without relevance.

Item Description No Don’t generate error message Yes Generate error message

3.5.2.16 Full Screen LOGO Show

This item allows to enabled/disabled the full screen logo during BIOS boot up process.

Item Description Enabled Full Screen Logo show is enabled Disabled Full Screen Logo show is disabled

3.5.2.17 Logo (EPA) Show

This item allows you enabled/disabled the small EPA logo show on screen at the POST

step.

Item Description Enabled EPA Logo show is enabled Disabled EPA Logo show is disabled

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3.5.3 Advanced Chipset Features

This section allows you to configure the system based on the specific features of the

installed chipset. This chipset manages bus speeds and access to system memory

resources, such as DRAM and the external cache. It also coordinates communications

between the conventional ISA bus and the PCI bus. It must be stated that these items

should never need to be altered. The default settings have been chosen because they

provide the best operating conditions for your system. The only time you might consider

making any changes would be if you discovered that data was being lost while using your

system.

The first chipset settings deal with CPU access to dynamic random access memory

(DRAM). The default timings have been carefully chosen and should only be altered if data

is being lost. Such a scenario might well occur if your system had mixed speed DRAM

chips installed so that greater delays may be required to preserve the integrity of the data

held in the slower memory chips.

3.5.3.1 DRAM Timing Selectable

This item allows you to select the DRAM timing value by SPD data or Manual by yourself.

The choices: Manual, By SPD.

3.5.3.2 CAS Latency Time

This item controls the time delay (in clock cycles - CLKs) that passes before the SDRAM

starts to carry out a read command after receiving it. This also determines the number of

CLKs for the completion of the first part of a burst transfer. In other words, the lower the

latency, the faster the transaction.

The choices: 2, 2.5.

3.5.3.3 Active to Precharge Delay

This item is the minimum delay time between Active and Precharge

The choices: 5, 6, 7.

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3.5.3.4 DRAM RAS# to CAS# Delay

This option allows you to insert a delay between the RAS (Row Address Strobe) and CAS (Column Address Strobe) signals. This delay occurs when the SDRAM is written to, read

from or refreshed. Naturally, reducing the delay improves the performance of the SDRAM

while increasing it reduces performance.

The choices: 2, 3.

3.5.3.5 DRAM RAS# Precharge

This option sets the number of cycles required for the RAS to accumulate its charge before

the SDRAM refreshes. Reducing the precharge time to 2 improves SDRAM performance but if the precharge time of 2 is insufficient for the installed SDRAM, the SDRAM may not

be refreshed properly and it may fail to retain data

So, for better SDRAM performance, set the SDRAM RAS Precharge Time to 2 but increase it to 3 if you face system stability issues after reducing the precharge time.

The choices: 2, 3.

3.5.3.6 DRAM Data Integrity Mode

Select ECC if your memory module supports it. The memory controller will detect and

correct single-bit soft memory errors. The memory controller will also be able to detect

double-bit errors though it will not be able to correct them. This provides increased data

integrity and system stability.

The choices: Non-ECC, ECC.

3.5.3.7 MGM Core Frequency

This field sets the frequency of the DRAM memory installed.

The choices: Auto Max 266MHz, 400/266/133/200 MHz, 400/200/100/200 MHz,

400/200/100/133 MHz, 400/266/133/267 MHz, 533/266/133/200 MHz,

533/266/133/266 MHz, 400/333/166/250 MHz, Auto Max 400/333 MHz,

Auto Max 533/333 MHz.

3.5.3.8 System BIOS Cacheable

This feature is only valid when the system BIOS is shadowed. It enables or disables the

caching of the system BIOS ROM at F0000h-FFFFFh via the L2 cache. This greatly speeds up accesses to the system BIOS. However, this does not translate into better

system performance because the OS does not need to access the system BIOS much.

The choices: Disabled, Enabled.

3.5.3.9 Video BIOS Cacheable

This feature is only valid when the video BIOS is shadowed. It enables or disables the

caching of the video BIOS ROM at C0000h-C7FFFh via the L2 cache. This greatly speeds up accesses to the video BIOS. However, this does not translate into better system

performance because the OS bypasses the BIOS using the graphics driver to access the

video card's hardware directly.

The Choice: Enabled, Disabled.

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3.5.3.10 Memory Hole At 15M-16M

Enabling this feature reserves 15MB to 16MB memory address space to ISA expansion

cards that specifically require this setting. This makes the memory from 15MB and up

unavailable to the system. Expansion cards can only access memory up to 16MB.

The choice: Enable, Disable.

3.5.3.11 Delayed Transaction

This feature is used to meet the latency of PCI cycles to and from the ISA bus. The ISA bus

is much, much slower than the PCI bus. Thus, PCI cycles to and from the ISA bus take a

longer time to complete and this slows the PCI bus down.

However, enabling Delayed Transaction enables the chipset's embedded 32-bit posted

write buffer to support delayed transaction cycles. This means that transactions to and from

the ISA bus are buffered and the PCI bus can be freed to perform other transactions while

the ISA transaction is underway.

This option should be enabled for better performance and to meet PCI 2.1 specifications.

Disable it only if your PCI cards cannot work properly or if you are using an ISA card that is

not PCI 2.1 compliant.

The Choice: Enabled, Disabled.

3.5.3.12 Delay Prior to Thermal

When you system temperature higher, you can set the DRAM access time slowdown

between on 4 min – 32 min delay.

The choice: 4 Min, 8 Min, 16 Min, and 32 Min.

3.5.3.13 AGP Aperture Size (MB)

Select the size of Accelerated Graphics Port (AGP) aperture. The aperture is a portion of

the PCI memory address range dedicated for graphics memory address space. Host cycles

that hit the aperture range are forwarded to the AGP without any translation.

The Choice: 4, 8, 16, 32, 64, 128, 256.

3.5.3.14 Init Display First

This item allows you to decide to active whether PCI Slot or Onboard/AGP first.

The choice: PCI Slot, Onboard/AGP.

3.5.3.15 On-Chip VGA

This item is enabled as the onboard VGA is used.

The Choices: Enabled, Disabled.

3.5.3.16 On-Chip Frame Buffer Size

This item is to select the amount of system memory that will be utilized as internal graphics

device memory

The choices: 1MB, 4MB, 8MB, 16MB, 32MB.

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3.5.4 Integrated Peripherals

Use this menu to specify your settings for integrated peripherals.

3.5.4.1 OnChip IDE Device

The chipset contains a PCI IDE interface with support for two IDE channels. Select Enabled

to activate the primary IDE interface. Select Disabled to deactivate this interface.

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Item Options Description

On-Chip Primary PCI IDE

On-Chip Secondary PCI IDE

Enabled

Disabled

The chipset contains a PCI IDE interface with support for two IDE channels. Select Enabled to activate the primary/secondary IDE interface. Select Disabled to deactivate this interface.

IDE Primary Master PIO

IDE Primary Slave PIO

IDE Secondary Master PIO

IDE Secondary Slave PIO

Auto Mode 0 Mode 1 Mode 2 Mode 3 Mode 4

The IDE PIO (Programmed Input/Output) fields let you set a PIO mode (0-4) for each of the four IDE devices that the onboard IDE interface supports. Modes 0 through 4 provide successively increased performance. In Auto mode, the system automatically determines the best mode for each device.

IDE Primary Master UDMA

IDE Primary Slave UDMA

IDE Secondary Master UDMA

IDE Secondary Slave UDMA

Auto

Disabled

Ultra DMA implementation is possible only if your IDE hard drive supports it and the operating environment includes a DMA driver (Windows 95 OSR2 or a third-party IDE bus master driver). If the hard drive and the system software both support Ultra DMA, select Auto to enable BIOS support.

3.5.4.2 Onboard Device

Item Options Description

USB Controller

Enabled

Disabled

This item allows you to set the USB Controller.

USB 2.0 Controller

Disabled

Enabled

This item allows you to set the USB 2.0 Controller.

USB Keyboard Support

Enabled

Disabled

This item allows you to set the system’s USB keyboard to Enabled/Disabled.

USB Mouse Support

Enabled

Disabled

This item allows you to set the system’s USB Mouse to Enabled/Disabled.

AC97 Audio

Auto

Disabled

This item allows you to decide to Auto/disable the Codec chip to support AC97 Audio.

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3.5.4.3 Super IO Device

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Item Options Description

Onboard FDC Controller

Enabled

Disabled

Select Enabled if your system has a floppy disk controller (FDC) installed on the system board and you wish to use it. If you are not going to use FDC or the system has no floppy drive, select Disabled in this field.

Onboard Serial Port 1 Onboard Serial Port 2

Disable, 3F8/IRQ4

2F8/IRQ3, 3E8/IRQ4

2E8/IRQ3, AUTO

Select an address and corresponding interrupt for the first and second serial ports.

Onboard Parallel Port

Disabled, 378/IRQ7

278/IRQ5, 3BC/IRQ7

Select a matching address and interrupt for the physical parallel (printer) port.

Parallel Port Mode

SPP, EPP

ECP, Normal

ECP+EPP

Select an operating mode for the onboard parallel port. Select Compatible or Extended unless you are certain both your hardware and software support EPP or ECP mode.

EPP Mode Select EPP1.9, EPP1.7 Select EPP port type 1.7 or 1.9.

ECP Mode Use DMA 1, 3 Select a DMA channel for the port.

PWRON After PWR-Fail

Off, On

Former-Sts

This item is to set whether to run Ac Loss Auto Restart or off

Onboard Serial Port 3 Onboard Serial Port 4

Disable, 3F8

2F8, 3E8,

2E8

Select an IRQ address for the third and forth serial Ports.

Serial Port 3 Use IRQ Serial Port 4 Use IRQ

IRQ3, IRQ4, IRQ5

IRQ9, IRQ10, IRQ11

Select an IRQ for the third and forth serial ports.

Serial Port 3 Mode

Normal

IRDA

Select an IO address for the third serial ports

3.5.4.4 Watch Dog Timer

This option will determine watch dog timer.

The choices: Disabled, 10, 20, 30, 40 Sec. 1, 2, 4 Min.

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3.5.5 Power Management Setup

The Power Management Setup allows you to configure you system to most effectively save

energy while operating in a manner consistent with your own style of computer use.

3.5.5.1 ACPI Function

This item allows you to enable/disable the ACPI function.

The choices: Enable, Disable.

3.5.5.2 ACPI Suspend Type

This item will set which ACPI suspend type will be used.

The choice: S1(POS), S3(STR).S1&S3.

3.5.5.3 Power Management

This category allows you to select the type (or degree) of power saving and is directly

related to the following modes:

Item Description

Min. Power Saving

Minimum power management, HDD Power Down = 15 Min,

Max. Power Saving

Maximum power management, HDD Power Down =1 Min,

User Defined

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.

3.5.5.4 Video Off Method

This determines the manner in which the monitor is blanked.

The choices: Blank Screen, V/H SYNC+Blank, DPMS.

3.5.5.5 Video Off In Suspend

This determines the manner in which the monitor is blanked.

The choice: No, Yes.

3.5.5.6 Suspend Type

This function allows to select Suspend type.

The choices: Stop Grant, PwrOn Suspend.

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3.5.5.7 MODEM Use IRQ

This determines the IRQ in which the MODEM can use.

The choices: NA, 3, 4, 5, 7, 9, 10, 11.

3.5.5.8 Soft-Off by PWR-BTTN

Pressing the power button for more than 4 seconds forces the system to enter the Soft-Off

state when the system has “hung”.(Only could working on ATX Power supply)

The choices: Delay 4 Sec, Instant-Off.

3.5.5.9 Wake Up by PCI Card

This will enable the system to wake up through PCI Card peripheral.

The choices: Enable, Disabled.

3.5.5.10 Power On By Ring

This determines whether the system boot up if there’s an incoming call from the Modem.

The choices: Enable, Disabled.

3.5.5.11 Resume By Alarm

This function is for setting date and time for your computer to boot up.

The choices: Enabled, Disabled.

3.5.5.12 Primary/Secondary IDE 0/1, FDD,COM,LPT PORT, PCI PIRQ[A-D]#

Reload Global Timer events are I/O events whose occurrence can prevent the system from

entering a power saving mode or can awake the system from such a mode. In effect ,the

system remain alert for anything which occurs to a device which is configured as

Enabled ,even when the system is in a power down mode.

The choices: Enabled, Disabled.

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3.5.6 PnP / PCI Configuration This section describes configuring the PCI bus system. PCI, or Personal Computer Interconnect, is a system which allows I/O devices to operate at speeds nearing the speed

the CPU itself uses when communicating with its own special components. This section

covers some very technical items and it is strongly recommended that only experienced

users should make any changes to the default settings.

3.5.6.1 Reset Configuration Data

Normally, you leave this field Disabled. Select Enabled to reset Extended System

Configuration Data (ESCD) when you exit Setup if you have installed a new add-on and the

system reconfiguration has caused such a serious conflict that the operating system cannot

boot.

The choices: Enabled, Disabled.

3.5.6.2 Resources Controlled By

The Award Plug and Play BIOS has the capacity to automatically configure all of the boot

and Plug and Play compatible devices. However, this capability means absolutely nothing

unless you are using a Plug and Play operating system such as Windows®95. If you set

this field to “manual” choose specific resources by going into each of the sub menu that

follows this field (a sub menu is preceded by a “¾”).

The choices: Auto(ESCD), Manual.

3.5.6.3 PCI / VGA Palette Snoop

Leave this field at Disabled.

The choices: Enabled, Disabled.

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3.5.7 PC Health Status

This section shows the status of your CPU, Fan & System.

3.5.7.1 Case Open Warning

This item allows to enable the case open warning function.

The choices: Enabled, Disabled.

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3.5.8 Frequency / Voltage Control

This menu specifies your setting for frequency/voltage control.

3.5.8.1 Auto Detect PCI Clk

This item allows you to enable/disable auto detect PCI Clock.

The choices: Enable, Disable.

3.5.8.2 Spread Spectrum

This item is to adjust extreme values of the pulse for EMI test.

The choices: Enable, Disable.

3.5.8.3 CPU Host / 3V66 / PCI Clock

These options allow you to set CPU Host/3V66/PCI clock into various types of frequencies.

The choices: Default, 100/66/33MHz, 105/70/35MHz, 109/73/36MHz, 114/76/38MHz,

117/78/39MHz, 127/85/42MHz, 130/87/43MHz, 133/67/33MHz,

137/69/34MHz, 141/71/35MHz, 145/73/36MHz, 150/75/38MHz,

155/78/39MHz, 160/80/40MHz.

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3.5.9 Load Fail-Safe Defaults

Use this menu to load the BIOS default values for the minimal/stable performance for your

system to operate.

Press <Y> to load the BIOS default values for the most stable, minimal-performance

system operations.

3.5.10 Load Optimized Defaults

Use this menu to load the BIOS default values that are factory settings for optimal

performance system operations. While Award has designed the custom BIOS to maximize

performance, the factory has the right to change these defaults to meet their needs.

Press <Y> to load the default values setting for optimal performance system operations.

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3.5.11 Set Supervisor / User Password

You can set either supervisor or user password, or both of them.

Supervisor Password: able to enter/change the options of setup menus.

User Password: able to enter but no right to change the options of setup menus.

Type the password, up to eight characters in length, and press <Enter>. The password

typed now will clear any previously entered password from CMOS memory. You will be

asked to confirm the password. Type the password again and press <Enter>. You may also

press <Esc> to abort the selection and not enter a password. To disable a password, just

press <Enter> when you are prompted to enter the password. A message will confirm the

password will be disabled. Once the password is disabled, the system will boot and you can

enter Setup freely.

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PASSWORD DISABLED.

When a password has been enabled, you will be prompted to enter it every time you try to

enter Setup. This prevents an unauthorized person from changing any part of your system

configuration. Additionally, when a password is enabled, you can also require the BIOS to

request a password every time your system is rebooted. This would prevent unauthorized

use of your computer. You determine when the password is required within the BIOS

Features Setup Menu and its Security option (see Section 3). If the Security option is set to

“System”, the password will be required both at boot and at entry to Setup. If set to “Setup”,

prompting only occurs when trying to enter Setup

3.5.12 Save & Exit Setup

Save CMOS value changes to CMOS and exit setup.

Enter <Y> to store the selection made in the menus in CMOS, a special section in memory

that stays on after turning the system off. The BIOS configures the system according to the

Setup selection stored in CMOS when boot the computer next time.

The system is restarted after saving the values.

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3.5.13 Exit Without Save

Abandon all CMOS value changes and exit setup, and the system is restarted after exiting.

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4 Drivers Installation

Note: Installation procedures and screen shots in this section are

for your reference and may not be exactly the same as

shown on your screen.

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4.1 Install Chipset Driver (For Intel RG82855GME)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to \Driver_Chipset\Intel\ 855GM.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Click Next.

Step1. Locate 「\Driver_Chipset\Intel\

855GM\ infinst_enu.exe」.

Step 4. Click Finish to complete setup.

Step 2. Click Next.

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4.2 Install Chipset Driver (For Intel RG82852GME)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to \Driver_Chipset\Intel\852GM.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Click Next.

Step1. Locate 「\Driver_Chipset\Intel\

852GM\infinst_enu.exe」.

Step 4. Click Next to complete setup.

Step 2. Click Next. Step 4. Click Finish to complete setup.

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4.3 Install Display Driver (For Intel RG82855GME)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to \Driver_Video\Intel\855GM.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Click Next.

Step 1. Locate 「Driver_Video\Intel\

855GM\Win2K_XP\setup.exe」.

Step 4. Click Yes.

Step 2. Click Next. Step 5. Click Finish to complete setup.

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4.4 Install Display Driver (For Intel RG82855GME)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to \Driver_Video\Intel\82852GM\

WinXP_2k.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Click Next.

Step 1. Locate 「Driver_Video\Intel\

82852GM\WinXP_2k\win2k_xp147.exe」.

Step 4. Click Yes.

Step 2. Click Next. Step 5. Click Finish to complete setup.

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4.5 Install Audio Driver (For VIA VT1616)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to \Driver_Audio\VIA\VT1616.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Select Install Driver and click Next to the following step.

Step 1. Locate「\Driver_Audio\VIA\VT1616

\A1u590b\setup.exe」.

Step 4. Click Continue Anyway to run the

setup.

Step 2. Click Next.

Step 5. Click Finish to complete the setup

and restart the PC.

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4.6 Install Realtek LAN Driver (For RTL813x Family)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to \Driver_Network\Realtek\

RTL810x_813X Family.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Click Yes to continue the

installation.

Step 1. Locate 「\Driver_Network\Realtek\

RTL810x_813X Family\Setup.exe」.

Step 4. Click Finish to complete the

setup.

Step 2. Setup executing.

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4.7 Install Realtek LAN Driver (For Realtek RTL8110S)

Insert the Supporting CD-ROM to

CD-ROM drive, and it should show the

index page of BCM products

automatically. If not, locate Index.htm and

choose the product from the menu left, or

link to D:\Driver_Gigabit\Realtek\

RTL8110S.

Note: The installation procedures and

screen shots in this section are based on Windows XP operation system.

Step 3. Click Continue Anyway to run the

installation.

Step 1. Locate 「\Driver_Gigabit\Realtek\

RTL8110S\Setup.exe」.

Step 4. Click Finish to complete the

setup.

Step 2. Click Next.

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5 Measurement

Drawing

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5.1 MX855E/ MX852E-C10

Unit: mm

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Appendix A: BIOS Revisions

BIOS Rev.

New Features

Bugs/Problems Solved

Known Problems

Unit: mm

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Appendix B: AWARD BIOS POST Messages

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Overview

During the Power On Self-Test (POST), if the BIOS detects an error requiring you to do

something to fix, it will either sound a beep code or display a message.

If a message is displayed, it will be accompanied by:

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

Post Beep

Currently there are two kinds of beep codes in BIOS. This code indicates that a video error

has occurred and the BIOS cannot initialize the video screen to display any additional

information. This beep code consists of a single long beep followed by two short beeps.

The other code indicates that your DRAM error has occurred. This beep code consists of a

single long beep repeatedly.

Error Messages

One or more of the following messages may be displayed if the BIOS detects an error

during the POST. This list includes messages for both the ISA and the EISA BIOS.

1. CMOS BATTERY HAS FAILED

CMOS battery is no longer functional. It should be replaced.

2. CMOS CHECKSUM ERROR

Checksum of CMOS is incorrect. This can indicate that CMOS has become corrupt. This

error may have been caused by a weak battery. Check the battery and replace if

necessary.

3. DISK BOOT FAILURE, INSERT SYSTEM DISK AND PRESS ENTER

No boot device was found. This could mean that either a boot drive was not detected or the

drive does not contain proper system boot files. Insert a system disk into Drive A: and

press <Enter>. If you assumed the system would boot from the hard drive, make sure the

controller is inserted correctly and all cables are properly attached. Also be sure the disk

is formatted as a boot device. Then reboot the system.

4. DISKETTE DRIVES OR TYPES MISMATCH ERROR - RUN SETUP

Type of diskette drive installed in the system is different from the CMOS definition. Run

Setup to reconfigure the drive type correctly.

BCM MX855E, MX852E-C10 User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual