Detailed USER MANUAL FOR:
EBX
smartModule800/900
MSEBX800/900
Nordstrasse 11/F
CH - 4542 Luterbach
Tel.:
Fax:
Email:
++41 (0)32 681 58 00
++41 (0)32 681 58 01
Homepage: http://www.digitallogic.com
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
Table of Contents
PREFACE .....................................................................................................................................................5
Trademarks..................................................................................................................................... 5
Environmental Protection Statement........................................................................................... 5
Technical Support.......................................................................................................................... 6
Limited Two Year Warranty........................................................................................................... 6
1.10. For Your Safety............................................................................................................................... 9
1.11. RoHS Commitment......................................................................................................................... 9
1.12. Swiss Quality................................................................................................................................ 11
1.13. The Swiss Association for Quality and Management Systems............................................... 11
OVERVIEW .................................................................................................................................................12
Standards...................................................................................................................................... 12
MSEBX800/900 Specifications.................................................................................................... 15
Examples of Ordering Codes...................................................................................................... 18
Dimensions & Diagrams.............................................................................................................. 19
Incompatibilities to a Standard PC/AT....................................................................................... 22
2.10. High Frequency Radiation (to meet EN55022/EN61000) .......................................................... 22
2.11. Thermoscan.................................................................................................................................. 23
2.12. RTC Battery Lifetime.................................................................................................................... 23
PREPARATION............................................................................................................................................24
Important Information.................................................................................................................. 24
RAM Assembly/Disassembly...................................................................................................... 26
BUS SIGNALS ............................................................................................................................................29
Addressing PCI Devices on the MSEBX800:............................................................................. 31
DETAILED SYSTEM DESCRIPTION................................................................................................................32
PS/2 Keyboard (AT Compatible) and PS/2 Mouse .............................................................. 33
Line Printer Port LPT1........................................................................................................... 33
Serial Ports COM1 - COM2................................................................................................... 33
Floppy Disk Interface............................................................................................................. 34
Interrupt Controllers............................................................................................................... 35
Timers and Counters............................................................................................................. 35
DESCRIPTION AND LOCATION OF THE CONNECTORS ....................................................................................37
Connector Plan............................................................................................................................. 38
JUMPER LOCATIONS ON THE BOARD...........................................................................................................50
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INDEX ........................................................................................................................................................52
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1. PREFACE
The information contained in this manual has been carefully checked and is believed to be accurate; it is
subject to change without notice. Product advances mean that some specifications may have changed.
DIGITAL-LOGIC AG assumes no responsibility for any inaccuracies, or the consequences thereof, that may
appear in this manual. Furthermore, DIGITAL-LOGIC AG does not accept any liability arising from the use or
application of any circuit or product described herein.
1.1. Trademarks
DIGITAL-LOGIC, DIGITAL-LOGIC-Logo, MICROSPACE, and smartModule are registered trademarks
owned worldwide by DIGITAL-LOGIC AG, Luterbach (Switzerland). In addition, this document may include
names, company logos, and registered trademarks which are, therefore, proprietary to their respective
owners.
1.2. Disclaimer
DIGITAL-LOGIC AG makes no representations or warranties with respect to the contents of this manual, and
specifically disclaims any implied warranty of merchantability or fitness, for any particular purpose. DIGITAL-
LOGIC AG shall, under no circumstances, be liable for incidental or consequential damages or related
expenses resulting from the use of this product, even if it has been notified of the possibility of such damage.
1.3. Environmental Protection Statement
This product has been manufactured to satisfy environmental protection requirements wherever possible.
Many of the components used (structural parts, printed circuit boards, connectors, batteries, etc.) are
capable of being recycled. Final disposal of this product after its service life must be accomplished in
accordance with applicable country, state, or local laws or regulations.
1.4. Who should use this Product
ꢀ Electrical engineers with know-how in PC-technology.
ꢀ Because of the complexity and the variability of PC-technology, we cannot guarantee that the product
will work in any particular situation or set-up. Our technical support will try to help you find a solution.
ꢀ Pay attention to electrostatic discharges; use a CMOS protected workplace.
ꢀ Power supply must be OFF when working on the board or connecting any cables or devices.
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1.5. Recycling Information
All components within this product fulfill the requirements of the RoHS (Restriction of Hazardous Substances
Directive). The product is soldered with a lead free process.
1.6. Technical Support
1. Contact your local DIGITAL-LOGIC Technical Support, in your country.
2. Use the Internet Support Request form at http://support.digitallogic.ch/ ꢀ embedded products ꢀ New
Support Request
Support requests are only accepted with detailed information about the product (i.e., BIOS-, Board-
version)!
1.7. Limited Two Year Warranty
DIGITAL-LOGIC AG guarantees the hardware and software products it manufactures and produces to be
free from defects in materials and workmanship for two years following the date of shipment from DIGITAL-
LOGIC AG, Switzerland. This warranty is limited to the original purchaser of the product and is not
transferable.
During the two year warranty period, DIGITAL-LOGIC AG will repair or replace, at its discretion, any
defective product or part at no additional charge, provided that the product is returned, shipping prepaid, to
DIGITAL-LOGIC AG. All replaced parts and products become property of DIGITAL-LOGIC AG.
Before returning any product for repair, direct customers of DIGITAL-LOGIC AG, Switzerland
are required to register a RMA (Return Material Authorization) number in the Support Center at
All other customers must contact their local distributors for returning defective materials.
This limited warranty does not extend to any product which has been damaged as a result of accident,
misuse, abuse (such as use of incorrect input voltages, wrong cabling, wrong polarity, improper or
insufficient ventilation, failure to follow the operating instructions that are provided by DIGITAL-LOGIC AG or
other contingencies beyond the control of DIGITAL-LOGIC AG), wrong connection, wrong information or as
a result of service or modification by anyone other than DIGITAL-LOGIC AG. Nor if the user has insufficient
knowledge of these technologies or has not consulted the product manuals or the technical support of
DIGITAL-LOGIC AG and therefore the product has been damaged.
Empty batteries (external and onboard), as well as all other battery failures, are not covered by this
manufacturer’s limited warranty.
Except, as directly set forth above, no other warranties are expressed or implied, including, but not limited to,
any implied warranty of merchantability and fitness for a particular purpose, and DIGITAL-LOGIC AG
expressly disclaims all warranties not stated herein. Under no circumstances will DIGITAL-LOGIC AG be
liable to the purchaser or any user for any damage, including any incidental or consequential damage,
expenses, lost profits, lost savings, or other damages arising out of the use or inability to use the product.
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1.8. Explanation of Symbols
CE Conformity
This symbol indicates that the product described in this manual is in compliance with all
applied CE standards.
Caution, Electric Shock!
This symbol and title warn of hazards due to electrical shocks (> 60V) when touching
products or parts of them. Failure to observe the precautions indicated and/or prescribed by
the law may endanger your life/health and/or result in damage to your equipment.
Caution, Electric Shock!
This symbol and title warn of hazards due to electrical shocks (> 32V) when touching
products or parts of them. Failure to observe the precautions indicated and/or prescribed by
the law may endanger your life/health and/or result in damage to your equipment
Warning, ESD Sensitive Device!
This symbol and title inform that electronic boards and their components are sensitive to
Electro Static Discharge (ESD). In order to ensure product integrity at all times, care must
always be taken while handling and examining this product.
Attention!
This symbol and title emphasize points which, if not fully understood and taken into
consideration by the reader, may endanger your health and/or result in damage to your
equipment.
Note...
This symbol and title emphasize aspects the user should read through carefully for his, or
her, own advantage.
Warning, Heat Sensitive Device!
This symbol indicates a heat sensitive component.
Safety Instructions
This symbol shows safety instructions for the operator to follow.
This symbol warns of general hazards from mechanical, electrical, and/or
chemical failure. This may endanger your life/health and/or result in damage
to your equipment.
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1.9. Applicable Documents and Standards
The following publications are used in conjunction with this manual. When any of the referenced
specifications are superseded by an approved revision, that revision shall apply. All documents may be
obtained from their respective organizations.
ꢀ Advanced Configuration and Power Interface Specification Revision 2.0c, August 25, 2003 Copyright
© 1996-2003 Compaq Computer Corporation, Intel Corporation, Microsoft Corporation, Phoenix
Technologies Ltd., Toshiba Corporation. All rights reserved. http://www.acpi.info/
ꢀ ANSI/TIA/EIA-644-A-2001: Electrical Characteristics of Low Voltage Differential Signaling (LVDS)
Interface Circuits, January 1, 2001. http://www.ansi.org/
ꢀ ANSI INCITS 361-2002: AT Attachment with Packet Interface - 6 (ATA/ATAPI-6), November 1, 2002.
ꢀ ANSI INCITS 376-2003: American National Standard for Information Technology – Serial Attached
SCSI (SAS), October 30, 2003. http://www.ansi.org/
ꢀ Audio Codec ’97 Revision 2.3 Revision 1.0, April 2002 Copyright © 2002 Intel Corporation. All rights
reserved. http://www.intel.com/labs/media/audio/
ꢀ Display Data Channel Command Interface (DDC/CI) Standard (formerly DDC2Bi) Version 1, August
14, 1998 Copyright © 1998 Video Electronics Standards Association. All rights reserved.
ꢀ ExpressCard Standard Release 1.0, December 2003 Copyright © 2003 PCMCIA. All rights reserved.
ꢀ IEEE 802.3-2002, IEEE Standard for Information technology, Telecommunications and information
exchange between systems–Local and metropolitan area networks–Specific requirements – Part 3:
Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical
Layer Specifications. http://www.ieee.org
ꢀ IEEE 802.3ae (Amendment to IEEE 802.3-2002), Part 3: Carrier Sense Multiple Access with Collision
Detection (CSMA/CD) Access Method and Physical Layer Specifications, Amendment: Media Access
Control (MAC) Parameters, Physical Layers, and Management Parameters for 10 GB/s Operation.
ꢀ Intel Low Pin Count (LPC) Interface Specification Revision 1.1, August 2002 Copyright © 2002 Intel
Corporation. All rights reserved. http://developer.intel.com/design/chipsets/industry/lpc.htm
ꢀ PCI Express Base Specification Revision 1.1, March 28, 2005, Copyright © 2002-2005 PCI Special
Interest Group. All rights reserved. http://www.pcisig.com/
ꢀ PCI Express Card Electromechanical Specification Revision 1.1, March 28, 2005, Copyright © 2002-
2005 PCI Special Interest Group. All rights reserved. http://www.pcisig.com/
ꢀ PCI Local Bus Specification Revision 2.3, March 29, 2002 Copyright © 1992, 1993, 1995, 1998, 2002
PCI Special Interest Group. All rights reserved. http://www.pcisig.com/
ꢀ PICMG® Policies and Procedures for Specification Development, Revision 2.0, September 14, 2004,
PCI Industrial Computer Manufacturers Group (PICMG®), 401 Edgewater Place, Suite 500,
Wakefield, MA 01880, USA, Tel: 781.224.1100, Fax: 781.224.1239. http://www.picmg.org/
ꢀ Serial ATA: High Speed Serialized AT Attachment Revision 1.0a January 7, 2003 Copyright © 2000-
2003, APT Technologies, Inc, Dell Computer Corporation, Intel Corporation, Maxtor Corporation,
Seagate Technology LLC. All rights reserved. http://www.sata-io.org/
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ꢀ System Management Bus (SMBus) Specification Version 2.0, August 3, 2000 Copyright © 1994, 1995,
1998, 2000 Duracell, Inc., Energizer Power Systems, Inc., Fujitsu, Ltd., Intel Corporation, Linear
Technology Inc., Maxim Integrated Products, Mitsubishi Electric Semiconductor Company, Power-
Smart, Inc., Toshiba Battery Co. Ltd., Unitrode Corporation, USAR Systems, Inc. All rights reserved.
ꢀ Universal Serial Bus Specification Revision 2.0, April 27, 2000 Copyright © 2000 Compaq Computer
Corporation, Hewlett-Packard Company, Intel Corporation, Lucent Technologies Inc., Microsoft
Corporation, NEC Corporation, Koninklijke Philips Electronics N.V. All rights reserved.
1.10. For Your Safety
Your new DIGITAL-LOGIC product was developed and tested carefully to provide all features
necessary to ensure its compliance with electrical safety requirements. It was also designed for a
long, fault-free life. However, this life expectancy can be drastically reduced by improper treatment
during unpacking and installation. Therefore, in the interest of your own safety and for the correct
operation of your new DIGITAL-LOGIC product, please comply with the following guidelines.
Attention!
All work on this device must only be carried out by sufficiently skilled personnel.
Caution, Electric Shock!
Before installing your new DIGITAL-LOGIC product, always ensure that your mains power is
switched off. This applies also to the installation of piggybacks or peripherals. Serious
electrical shock hazards can exist during all installation, repair and maintenance operations
with this product. Therefore, always unplug the power cable and any other cables which
provide external voltage before performing work.
Warning, ESD Sensitive Device!
Electronic boards and their components are sensitive to static electricity. In order to ensure
product integrity at all times, be careful during all handling and examinations of this product.
1.11. RoHS Commitment
DIGITAL-LOGIC AG is committed to develop and produce environmentally friendly products according to the
Restriction of Hazardous Substances (RoHS) Directive (2002/95/EC) and the Waste Electrical and Electronic
Equipment (WEEE) Directive (2002/96/EC) established by the European Union. The RoHS directive was
adopted in February 2003 by the European Union and came into effect on July 1, 2006. It is not a law but a
directive, which restricts the use of six hazardous materials in the manufacturing of various types of
electronic and electrical equipment. It is closely linked with the Waste Electrical and Electronic Equipment
Directive (WEEE) 2002/96/EC, which has set targets for collection, recycling and recovery of electrical goods
and is part of a legislative initiative to solve the problem of huge amounts of toxic e-waste.
Each European Union member state is adopting its own enforcement and implementation policies using the
directive as a guide. Therefore, there could be as many different versions of the law as there are states in
the EU. Additionally, non-EU countries like China, Japan, or states in the U.S. such as California may have
their own regulations for green products, which are similar, but not identical, to the RoHS directive.
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RoHS is often referred to as the "lead-free" directive but it restricts the use of the following substances:
ꢀ Lead
ꢀ Mercury
ꢀ Cadmium
ꢀ Chromium VI
ꢀ PBB and PBDE
The maximum allowable concentration of any of the above mentioned substances is 0.1% (except for
Cadmium, which is limited to 0.01%) by weight of homogeneous material. This means that the limits do not
apply to the weight of the finished product, or even to a component but to any single substance that could
(theoretically) be separated mechanically.
1.11.1. RoHS Compatible Product Design
All DIGITAL-LOGIC standard products comply with RoHS legislation.
Since July 1, 2006, there has been a strict adherence to the use of RoHS compliant electronic and
mechanical components during the design-in phase of all DIGITAL-LOGIC standard products.
1.11.2. RoHS Compliant Production Process
DIGITAL-LOGIC selects external suppliers that are capable of producing RoHS compliant devices. These
capabilities are verified by:
1. A confirmation from the supplier indicating that their production processes and resulting devices are
RoHS compliant.
2. If there is any doubt of the RoHS compliancy, the concentration of the previously mentioned
substances in a produced device will be measured. These measurements are carried out by an
accredited laboratory.
1.11.3. WEEE Application
The WEEE directive is closely related to the RoHS directive and applies to the following devices:
ꢀ Large and small household appliances
ꢀ IT equipment
ꢀ Telecommunications equipment (although infrastructure equipment is exempt in some countries)
ꢀ Consumer equipment
ꢀ Lighting equipment – including light bulbs
ꢀ Electronic and electrical tools
ꢀ Toys, leisure and sports equipment
ꢀ Automatic dispensers
It does not apply to fixed industrial plants and tools. The compliance is the responsibility of the company that
brings the product to market, as defined in the directive. Components and sub-assemblies are not subject to
product compliance. In other words, since DIGITAL-LOGIC does not deliver ready-made products to end
users the WEEE directive is not applicable for DIGITAL-LOGIC. Users are nevertheless encouraged to
properly recycle all electronic products that have reached the end of their life cycle.
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1.12. Swiss Quality
ꢀ 100% Made in Switzerland
ꢀ DIGITAL-LOGIC is a member of "Swiss-Label"
ꢀ This product was not manufactured by employees earning
piecework wages
ꢀ This product was manufactured in humane work conditions
ꢀ All employees who worked on this product are paid
customary Swiss market wages and are insured
ꢀ ISO 9000:2001 (quality management system)
1.13. The Swiss Association for Quality and Management
Systems
The Swiss Association for Quality and Management Systems (SQS) provides certification and assessment
services for all types of industries and services. SQS certificates are accepted worldwide thanks to
accreditation by the Swiss Accreditation Service (SAS), active membership in the International Certification
Network, IQNet, and co-operation contracts/agreements with accredited partners.
The SQS Certificate ISO 9001:2000 has been issued to DIGITAL-LOGIC AG, the entire company, in the field
of development, manufacturing and sales of embedded computer boards, embedded computer modules and
computer systems. The certification is valid for three years at which time an audit is performed for
recertification.
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2. OVERVIEW
2.1. Standard Features
The MICROSPACE EBX is a miniaturized modular device incorporating the major elements of a PC/AT
compatible computer. It includes standard PC/AT compatible elements, such as:
ꢀ Powerful GEODE LX800/900 with 500/600MHz
ꢀ DDRAM 128-1024MByte SODIMM 200pin
ꢀ Real-time clock with CMOS-RAM and 10-year battery buffer
ꢀ LPT1 parallel port
ꢀ COM1-, COM2- RS232 serial port 16C550 comp.
ꢀ Speaker interface
ꢀ PS/2-keyboard and mouse interface
ꢀ Floppy disk interface
ꢀ AT-IDE hard disk interface
ꢀ VGA video interface, LCD, LVDS
ꢀ 6-channel sound interface AC97-V2.3
ꢀ 100/10-Base-T LAN
ꢀ PC/104 (ISA) BUS optional
ꢀ 4 Ports USB V2.0
ꢀ PC/104plus (PCI) BUS optional
2.2. Unique Features
The MICROSPACE MSEBX800 includes all standard PC/AT functions plus unique DIGITAL-LOGIC AG
enhancements, such as:
ꢀ Single 8V to 30V supply
ꢀ Watchdog
ꢀ EEPROM for setup and configuration
ꢀ 2nd LAN Port 100Base-T
ꢀ PATA ports optional
ꢀ UL approved parts
ꢀ Console redirection
2.3. Standards
The MICROSPACE product meet all standards for personal computer architecture.
Standard
PC/104BUS
USB
Contact to the organisation
Remarks
PCI
SMB
WfM
AC97
audio
Wired for management baseline
LPC
industry/lpc.htm
Power management
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2.5. MSEBX800/900 Specifications
CPU
Specification
CPU SM800
CPU Core Supply
1st Level Cache
2nd Level Cache
Performance
SM800PCX
SM900PCX
Clock
AMD GEODE LX800/900 located in the smartModule800/900
1.25V very low powered
32k data and 32k code
128kByte
P2 Equivalent Performance:
500MHz
600MHz
The CPU Clock is defined with the ordered SM800/900-xxx
SM800PCX
SM900PCX
500MHz
600MHz
Chipset
Specification
Northbridge
Southbridge
LAN
Audio
Codec
AMD LX800/900
AMD CS5536
2x 10/100Mbit Intel 82551ER (LAN A), Intel 82551ER (LAN B)
Stereo In and Stereo Line-Out
AD1985 up to 96kHz sampling rate, 16bit (Analog Devices)
Not on board
Firewire IEEE1394
Video
16MByte Video-DDRAM
Memory
Specification
SODIMM
SODIMM200pin DDR PC2700 333MHz 256-1024MByte
8MByte Flash
2kByte for CMOS-backup in battery-less applications
Combined in the core BIOS
16MByte to 64MByte DDRAM
Flash-BIOS
Setup EEPROM
Flash-Video BIOS
Video RAM
Video Controller
Controller
Video Memory
Channel 1
Channel 2
Specification
AMD graphics integrated in the LX800/900 chipset
16MB
CRT VGA up to 2048x1600 pixels
LVDS, TV-Out, CRT
Bootup-Resolution
2D-Graphics
3D-Graphics
Direct-X Version
PnP
640x480 / 800x600 / 1024x768
Integrated accelerator
None
-
Integrated
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External Interfaces
Video Interfaces
USB V1.1/2.0
LPT
COM1
COM2
COM3
COM4
Keyboard
Mouse
Floppy
Specification
CRT1, DVO
4 Ports
IEEE1293 Printer
RS232
RS232
-
-
PS/2
PS/2
26pin FCC Interface for TEAC Mini-Floppy
2 x 44pin RM2.0mm ATAIDE-cable
2 x 40pin RM2.5mm PATA-IDE cable
0.1Watt Speaker
Parallel-Hard disk 2.5”
Parallel-Hard disk 3.5”
Speaker
ISA-Bus
PCI-Bus
PCI-Riser-Bus
PC/104
PC/104plus
PCI-Slot
Power Supply
Input voltage
Input inrush current
Protection
Spec.
3.3Volt Power Output
Specification
Nominal 8V-30V, maximum Ripple=200mVpp
t.b.d.
EMI filtered
None
Not available
Power Consumption
Specification
With 256MByte
Typical (10W) at 500MHz
Typical (11W) at 600MHz
Typical 0.5 Amp.
Typical 7.3mA
Typical 8.6mA
Typical 9.6mA
Standby
Power off (if VCC 12V)
Power off (if VCC 19V)
Power off (if VCC 24V)
Physical Characteristics Specification PC/104plus
Dimensions
Length: 203mm
Depth:
Height:
300gr
146mm
33mm
Weight
Operating Environment Specification
Relative Humidity
5 - 90% non-condensing
IEC68-2-30 at -20°to +50°C operating
IEC68-2-6 10-50Hz, 0.075mm and 55-500Hz, 1.0G
IEC68-2-6 10-50Hz, 0.15mm and 55-500Hz, 2.0G
IEC68-2-27 10G, 11ms ½ sine
Vibration operating
Vibration non-operating
Shock operating
Shock non-operating
Altitude
IEC68-2-27 50G, 11ms, ½ sine
IEC68-2-13 4571meter operating
Temperature operating
Extended Temp. option
Temperature storage
IEC68-2-1,2,14: MSEBX800 Standard -20°C to +60°C
MIL-810-501/502 see separate table below
IEC68-2-1,2,14-65°C to +125°C ꢀ
ꢀ The backup battery is limited on -40°C to +80°C
operating and storage temperature!
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Operating Temperature
Specification:
MIL-810-501
MIL-810-502
Extended temperature range:
SM800PCX (500MHz)
-40°C to +70°C
Security
e1
UL
Not planned
Not planned
ETS 301
CE/SEV
Safety
Not planned
Yes
AR385-16
If all signals are externally filtered and assembled into an enclosed metallic case!
EMI / EMC Tests
Specification
EMC emission EN61000-6-2:2001
Conducted disturbance
Radiated disturbance
EN55022 Class B
EN55022 Class B
EMC immunity EN61000-6-2
Electrostatic discharge (ESD)
EN61000-4-2
Voltage = 4kV contact / 8kV air, Criteria A
EN61000-4-3
Level = 10V/m, Criteria A
Radiated RF-Field
Electrical fast transients (Burst)
EN61000-4-4
Grade 2: DC-Power lines = 1000V (5/50ns)
Grade 2: AC-Power lines = 2000V (5/50ns)
Grade 2: Signal lines
Criteria B
EN61000-4-5
= 500V (5/50ns)
Surge
Grade 2: DC-Power lines = 1kV, (1.2/50us)
Grade 2: AC-Power lines = 2kV, (1.2/50us)
Criteria B
Conducted disturbances
EN61000-4-6
Voltage = 10V coupled by case, Criteria A
All information is subject to change without notice.
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2.6. Examples of Ordering Codes
The MSEBX800 system is combined from:
Baseboard MSEBX800
smartModule 800/900-xxx (must be ordered separately)
Memory: SODIMM200-DDRAM (must be ordered separately)
Article
Part No.
Description
EBX board without SM800/900-xxx, 0MB RAM,
no PC/104-Plus connector
MSEBX800
811060
SM800PCX
SM900PCX
Accessories
MSFloppy
MSFDCK
MSEBX800-DK
Options
805212
805242
Part No.
891001
802600
811210
Part No.
807006
890670
890671
890672
LX800
LX900
Description
3.5” Micro-Floppy drive (26Pin)
Micro-Floppy cable (26Pin)
Aluminium housing with 20GB HDD, FDD, CD-R, PSU
Description
Option L+
PC/104- Plus, connector long (without option CF)
DDR-SODIMM Module 256MB
DDR-SODIMM Module 512MB
DDR-SODIMM Module 1GB
DDRAM256M
DDRAM512M
DDRAM1G
These are only examples; for current ordering codes, please see the current price list.
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2.8. Incompatibilities to a Standard PC/AT
None.
2.9. MSEBX800/900 Related Application Notes
#
Description
80 High frequency Radiation (to meet EN55022)
ꢁ
Application Notes are availble at http://www.digitallogic.com ꢀ support, or on any Application CD from
DIGITAL-LOGIC.
2.10. High Frequency Radiation (to meet EN55022/EN61000)
All peripheral interfaces are filtered to meet the EMI/EMC standards EN55022.
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2.11. Thermoscan
Product
Part Number
Serial Number
45320210010
45316410032
-
Version
MSEBX800
SM800PCX
SODIMM DDR 1GB
Software
811202
805164
870672
0.2
2.1
-
Windows XP SP2 running desktop
Top view, passive cooled:
t [min] fCPU [MHz] I [A]
60 500 0.5
P [W]
9.5
2.12. RTC Battery Lifetime
Battery Specifications
Lowest Temp. Nominal Temp. Highest Temp.
-40°C
+20°C
+85°C
Manufacturer
Type
Capacity versus Temp.
Voltage versus Temp.
Nominal Values
pbq
ER10280
8uA
8uA
850mAh
3.5V
910mAh
3.6V
850mAh
Ca. 3.6V
3.6V / 450mAh / -40°C...~+85°C
Information is taken from the data sheet of the pbq ER10280.
Product
Temperature
°C
Battery Voltage
V
VCC (+12V)
switched ON
µA
VCC (+12V)
switched off
µA
MSEBX800
Battery Current
+25°C
-40°C
+85°C
+25°C
-40°C
+85°C
3.6
3.5
3.8
15
15
15
18
14
30
Battery Lifetime
>10 years
>10 years
>10 years
>10 years
>10 years
Ca. 6 years
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
3. PREPARATION
3.1. Important Information
Warning, ESD Sensitive Device!
Place the embedded computer board on an isolated, ESD-protected surface. Also ensure that all
equipment, tools and people are fully protected against ESD.
Attention!
The smartModule must be firmly attached to the board with screws. Do not attempt to
power-up the system without taking this step or the system may not work and you risk damaging
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
3.2. Mounting the smartModule
Line up the holes in the smartModule on the MSEBX board (top side). Then on the reverse side, attach the
smartModule using 4 Phillips head screws (circled in red, within the red frame marking the approximate
location of the smartModule). The screws are delivered with the smartModule but if lost may be ordered: Part
Nr. 502528, description: M2x 5 galvanized machine screw.
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MSEBX800/900 Detailed Manual V1.0
3.3. RAM Assembly/Disassembly
To install or change the RAM, follow these steps:
1. Unmount the smartModule by removing the 4 screws marked in red (see the photo from the previous
page).
2. To change the RAM:
a. Using your thumbnails, gently push the clips holding the RAM module in place toward the
outside (Photo 1, marked "A").
Photo 1
b. There will be a slight "click" and the RAM will flip up at an angle (Photo 2).
Photo 2
c. Remove the original RAM.
d. With the new RAM, carefully place the side with the connectors into the slot. There is only one
correct way to place the RAM in the slot due to a notch between the connectors which matches
up to a tab in the slot. Do not force the RAM into the slot, it should fit very easily.
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
e. Slowly push the RAM down until the clips "click" into place (Photo 3).
Photo 3
3. To install a RAM:
a. Carefully place the side of the RAM with the connectors into the slot. There is only one correct
way to place the RAM in the slot due to a notch between the connectors which matches up to a
tab in the slot. Do not force the RAM into the slot, it should fit very easily.
b. Slowly push the RAM down until the clips "click" into place (Photo 3).
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MSEBX800/900 Detailed Manual V1.0
4. BUS SIGNALS
4.1. PC104 Bus
Note...
AEN, output
Address Enable: used to degate the microprocessor and other devices from the I/O channel to allow
DMA transfers to take place. low = CPU Cycle, high = DMA Cycle
BALE, output
Address Latch Enable: provided by the bus controller and used on the system board to latch valid
addresses and memory decodes from the microprocessor. This signal is used so that devices on the
bus can latch LA17-23. The SA0-19 address lines latch internally according to this signal. BALE is
forced high during DMA cycles.
/DACK[0-3, 5-7], output
DMA Acknowledge: 0 to 3 and 5 to 7 are used to acknowledge DMA requests (DRQ0 through DRQ7).
They are active low. This signal indicates that the DMA operation can begin.
DRQ[0-3, 5-7], input
DMA Requests: 0 through 3 and 5 through 7 are asynchronous channel requests used by peripheral
devices and the I/O channel microprocessors to gain DMA service (or control of the system). A
request is generated by bringing a DRQ line to an active level. A DRQ line must be held high until the
corresponding DMA Request Acknowledge (DACK/) line goes active. DRQ0 through DRQ3 will
perform 8bit DMA transfers; DRQ5-7 are used for 16 accesses.
/IOCHCK, input
IOCHCK/: provides the system board with parity (error) information about memory or devices on the
I/O channel. low = parity error, high = normal operation
IOCHRDY, input
I/O Channel Ready: pulled low (not ready) by a memory or I/O device to lengthen I/O or memory
cycles. Any slow device using this line should drive it low immediately upon detecting its valid address
and a Read or Write command. Machine cycles are extended by an integral number of one clock cycle
(67 nanoseconds). This signal should be held in the range of 125-15600nS. low = wait, high =
normal operation
/IOCS16, input
I/O 16 Bit Chip Select: signals the system board that the present data transfer is a 16bit, 1 wait-state,
I/O cycle. It is derived from an address decode. /IOCS16 is active low and should be driven with an
open collector (300 Ohm pull-up) or tri-state driver capable of sinking 20mA. The signal is driven
based only on SA15-SAO (not /IOR or /IOW) when AEN is not asserted. In the 8bit I/O transfer, the
default transfers a 4 wait-state cycle.
/IOR, input/output
I/O Read: instructs an I/O device to drive its data onto the data bus. It may be driven by the system
microprocessor or DMA controller, or by a microprocessor or DMA controller resident on the I/O
channel. This signal is active low.
/IOW, input/output
I/O Write: instructs an I/O device to read the data on the data bus. It may be driven by any
microprocessor or DMA controller in the system. This signal is active low.
IRQ [3-7, 9-12, 14, 15], input
These signals are used to tell the microprocessor that an I/O device needs attention. An interrupt
request is generated when an IRQ line is raised from low to high. The line must be held high until
the microprocessor acknowledges the interrupt request.
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
/Master, input
This signal is used with a DRQ line to gain control of the system. A processor or DMA controller on the
I/O channel may issue a DRQ to a DMA channel in cascade mode and receive a /DACK.
/MEMCS16, input
MEMCS16 Chip Select: signals the system board if the present data transfer is a 1 wait-state, 16bit,
memory cycle. It must be derived from the decode of LA17 through LA23. /MEMCS16 should be
driven with an open collector (300 Ohm pull-up) or tri-state driver capable of sinking 20mA.
/MEMR, input/output
These signals instruct the memory devices to drive data onto the data bus. /MEMR is active on all
memory read cycles. /MEMR may be driven by any microprocessor or DMA controller in the system.
When a microprocessor on the I/0 channel wishes to drive /MEMR, it must have the address lines
valid on the bus for one system clock period before driving /MEMR active. These signals are active
low.
/MEMW, input/output
These signals instruct the memory devices to store the data present on the data bus. /MEMW is active
in all memory read cycles. /MEMW may be driven by any microprocessor or DMA controller in the
system. When a microprocessor on the I/O channel wishes to drive /MEMW, it must have the address
lines valid on the bus for one system clock period before driving /MEMW active. Both signals are
active low.
OSC, output
Oscillator (OSC): a high-speed clock with a 70 nanosecond period (14.31818 MHz). This signal is not
synchronous with the system clock. It has a 50% duty cycle. OSC starts 100µs after reset is inactive.
RESETDRV, output
Reset Drive: used to reset or initiate system logic at power-up time or during a low line-voltage outage.
This signal is active high. When the signal is active all adapters should turn off or tri-state all drivers
connected to the I/O channel. This signal is driven by the permanent Master.
/REFRESH, input/output
These signals are used to indicate a refresh cycle and can be driven by a microprocessor on the I/O
channel. These signals are active low.
SA0-SA19, LA17 - LA23 input/output
Address bits 0 through 19 are used to address memory and I/0 devices within the system. These 20
address lines allow access of up to 1MByte of memory. SAO through SA19 are gated on the system
bus when BALE is high and are latched on the falling edge of BALE. LA17 to LA23 are not latched and
addresses the full 16MByte range. These signals are generated by the microprocessors or DMA
controllers. They may also be driven by other microprocessor or DMA controllers that reside on the I/0
channel. The SA17-SA23 are always LA17-LA23 address timings for use with the MSCS16 signal.
This is advanced AT96 design. The timing is selectable with jumpers LAxx or SAxx.
/SBHE, input/output
Bus High Enable (system): indicates a transfer of data on the upper byte of the data bus, XD8 through
XD15. Sixteen-bit devices use /SBHE to condition data-bus buffers tied to XD8 through XD15.
SD[0-15], input/output
These signals provide bus bits 0 through 15 for the microprocessor, memory, and I/O devices. D0 is
the least significant bit and D15 is the most significant bit. All 8bit devices on the I/O channel should
use D0 through D7 for communications to the microprocessor. The 16bit devices will use D0 through
D15. To support 8bit devices, the data on D8 through D15 will be gated to D0 through D7 during 8bit
transfers to these devices; 16bit microprocessor transfers to 8bit devices will be converted to two 8bit
transfers.
/SMEMR, input/output
These signals instruct the memory devices to drive data onto the data bus for the first MByte. /SMEMR
is active on all memory read cycles. /SMEMR may be driven by any microprocessor or DMA controller
in the system. When a microprocessor on the I/0 channel wishes to drive /SMEMR, it must have the
address lines valid on the bus for one system clock period before driving /SMEMR active. The signal is
active low.
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MSEBX800/900 Detailed Manual V1.0
/SMEMW, input/output
These signals instruct the memory devices to store the data present on the data bus for the first
MByte. /SMEMW is active in all memory read cycles. /SMEMW may be driven by any microprocessor
or DMA controller in the system. When a microprocessor on the I/O channel wishes to drive /SMEMW,
it must have the address lines valid on the bus for one system clock period before driving /SMEMW
active. Both signals are active low.
SYSCLK, output
This is an 8MHz system clock. It is a synchronous microprocessor cycle clock with a cycle time of 167
nanoseconds. The clock has a 66% duty cycle. This signal should only be used for synchronization.
TC, output
Terminal Count: provides a pulse when the terminal count for any DMA channel is reached. The TC
completes a DMA-Transfer. This signal is expected by the onboard floppy disk controller. Do not use
this signal because it is internally connected to the floppy controller.
/0WS, input
The Zero Wait State (/0WS) signal tells the microprocessor that it can complete the present bus cycle
without inserting any additional wait cycles. In order to run a memory cycle to a 16bit device without
wait cycles, /0WS is derived from an address decode gated with a Read or Write command. In order to
run a memory cycle to an 8bit device with a minimum of one-wait states, /0WS should be driven active
one system clock after the Read or Write command is active, gated with the address decode for the
device. Memory Read and Write commands to an 8bit device are active on the falling edge of the
system clock. /0WS is active low and should be driven with an open collector or tri-state driver
capable of sinking 20mA.
12V, +/- 5%
This signal is used only for the flat panel supply.
GROUND = 0V
This is used for the entire system.
VCC, +5V +/- 0.25V
This is used to supply other PC/104 peripheral cards. Maximum current is 2Amp.
For further information about PC/104 and PC/104plus, please refer to the PC/104 Specification
4.2. Addressing PCI Devices on the MSEBX800:
PCI Slot Assignment
The following definitions for the peripherals correspond with the BIOS:
Device
IDSEL
AD20
AD21
AD22
AD23
AD29
AD24
AD25
---
PIRQ
REQ#
GNT#
Comments
SLOT 1
SLOT 2
SLOT 3
SLOT 4
LAN Controller
ISA-Bridge
CS5536
Arbiter 0
Arbiter 1
A, B, C, D
B, C, D, A
C, D, A, B
D, A, B, C
3
4
5
6
7
8
2
0
1
3
4
5
6
7
8
2
0
1
A
--
---
---
---
For VGA, IDE and USB
---
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MSEBX800/900 Detailed Manual V1.0
5. DETAILED SYSTEM DESCRIPTION
5.1. Boot Time
System Boot Times
Definitions/Boot-Medium
Quick
Boot*
Normal
Boot
MSEBX800-500MHz with RTC-Backup Battery
Memory 256MB shared 8MB for Video
time [s]
From Floppy disk
Boot from Setup-Disk1 MS-DOS v6.22 to "Starting MS-DOS"-Prompt.
Boot from Setup-Disk1 MS-DOS v6.22 to "Welcome Setup Screen"-Prompt.
Boot from "(Sys a:)-Disk“ to "A:/>“-Prompt.
10
30
18
26
45
33
From Hard disk-Toshiba MK2110MAF
Boot from Hard disk to "Starting MS-DOS"-Prompt.
Boot from Hard disk to "Win2000: Windows-Login"-Prompt.
10
80
26
95
From CompactFlash SanDisk SDCFB-64-101-00 64MB
Boot from CF to "Starting MS-DOS"-Prompt.
Boot from CF to "C:\>"-Prompt.
10
13
26
29
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MSEBX800/900 Detailed Manual V1.0
5.2. Interfaces
5.2.1.
PS/2 Keyboard (AT Compatible) and PS/2 Mouse
X31 Keyboard
Pin Signal
Pin Signal
1
3
6
KB_Data
GND
KB_Clk
2
5
8
-
+5Volt / 100mA
-
X32 Mouse
Pin Signal
Pin Signal
1
3
6
MB_Data
GND
MB_Clk
2
5
8
-
+5Volt / 100mA
-
5.2.2.
Line Printer Port LPT1
A standard bi-directional LPT port is integrated into the MICROSPACE PC.
Further information about these signals is available in numerous publications, including the IBM technical
reference manuals for the PC and AT computers and from other reference documents.
The current is:
IOH = 12mA
IOL = 24mA
The SMC 37C672 may be programmed via software commands.
In the new BIOS version, this selection may be controlled with the BIOS setup screen.
5.2.3.
Serial Ports COM1 - COM2
The serial channels are fully compatible with 16C550 UARTS.
X30B / X39 Serial Port Connectors COM1, COM2
Pin Signal Name Function
in/out
in
DB25 Pin
DB9 Pin
1
2
3
4
5
6
7
8
9
CD
RXD
TXD
DTR
GND
DSR
RTS
CTS
RI
Data Carrier Detect
Data Receive Data
Transmit Data
8
6
1
6
2
7
3
8
4
9
5
in
out
out
-
3
Data Terminal Ready
System Ground
Data Set Ready
Request to Send
Clear to Send
4
2
In
5
out
in
20
22
7
Ring Indicator
in
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MSEBX800/900 Detailed Manual V1.0
5.2.4.
Floppy Disk Interface
Supported Floppy Formats
Capacity
1.2 MB
720 K
Drive size
5-1/4"
3-1/2"
Tracks Data rate
DOS version
80
80
80
500 KHz
250 KHz
500 KHz
3.0 - 6.22
3.2 - 6.22
3.3 - 6.22
1.44 M
3-1/2"
Floppy Interface Configuration
The desired configuration of floppy drives (number and type) must be properly initialized in the board's
CMOS – configuration memory. This is generally done by using DEL or F2 at bootup time.
Floppy Interface Connector
The table shows the pin-out and signal definitions of the board's floppy disk interface connector. It is
identical in pin-out to the floppy connector of a standard AT. Note that, as in a standard PC or AT, both
floppy drives are jumpered to the same drive select: as the 'second' drive. The drives are uniquely
selected as a result of a swapping of a group of seven wires (conductors 10-16) that must be in the
cable between the two drives. The seven-wire swap goes between the computer board and drive 'A';
the wires to drive 'B' are unswapped (or swapped a second time). The 26pin high density (1mm pitch
FCC) connector has only one drive and motor select. The onboard jumper defines the drive A: or B:.
Default is always A:.
Floppy Disk Interface Technology
Only CMOS drives are supported. This means the termination resistors are 1 KOhm and 5 1/4“-drives
are not recommended (TTL interface).
The 26pin connector:
Floppy Disk Interface Connector
FD26: Pin Signal Name Function
FFC/FPC 0.3mm thick 1.0mm (0.039") pitch (MOLEX 52030 Series)
in/out
in
1
VCC
IDX
+5Volt
Index Pulse
+5Volt
2
3
VCC
DS2
VCC
DCHG
MO2
DIRC
STEP
WD
4
Drive Select 2
+5Volt
out
5
6
Disk Change
Motor On 2
Direction Select
Step
in
10
12
14
16
17
18
19
20
21
22
23
24
25
26
out
out
out
out
Write Data
Signal grounds
Write Enable
Signal grounds
Track 0
GND
WE
out
in
GND
TRKO
GND
WP
Signal grounds
Write Protect
Signal grounds
Read Data
Signal grounds
Head Select
in
GND
RDD
GND
HS
in
out
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
5.3. Controllers
5.3.1.
Interrupt Controllers
An 8259A compatible interrupt controller, within the chipset, provides seven prioritized interrupt levels. Of
these, several are normally associated with the board's onboard device interfaces and controllers, and
several are available on the AT expansion bus.
Interrupt
IRQ0
IRQ1
Sources
Used Onboard
Yes
Yes
ROM-BIOS clock tick function, from timer 0
Keyboard controller output buffer full
Used for cascade 2. 8259
COM2 serial port
IRQ2
IRQ3
Yes
Yes
IRQ4
IRQ5
COM1 serial port
LPT2 parallel printer (if present)
Floppy controller
Yes
No ꢀ
Yes
Yes
IRQ6
IRQ7
LPT1 parallel printer
Battery backed clock
Free for user
IRQ8
IRQ9
Yes
No ꢀ
No ꢀ
No ꢀ
Yes
IRQ10
IRQ11
IRQ12
IRQ13
IRQ14
IRQ15
Free for user
Free for user
PS/2 mouse
Math. coprocessor
Hard disk IDE / SCSI
Free for user
Yes
Yes
No ꢀꢀ
ꢀ It may depend on the LAN configuration.
ꢀꢀ IRQ 15 = if option CF is not assembled, then free for user.
5.3.2.
Timers and Counters
5.3.2.1. Programmable Timers
An 8253 compatible timer/counter device is also included in the board's ASIC device. This device is utilized
in precisely the same manner as in a standard AT implementation. Each channel of the 8253 is driven by a
1.190MHz clock, derived from a 14.318MHz oscillator, which can be internally divided in order to provide a
variety of frequencies.
Timer 2 can also be used as a general purpose timer if the speaker function is not required.
Timer Assignment
Timer Function
0
1
2
ROM-BIOS clock tick (18.2Hz)
DRAM refresh request timing (15µs)
Speaker tone generation time base
5.3.2.2. Watchdog
The watchdog timer detects a system crash and performs a hardware reset. After power up, the watchdog is
always disabled as the BIOS does not send strobes to the watchdog. In case the user wants to take
advantage of the watchdog, the application must produce a strobe at least every 800ms. If no strobe occurs
within the 800ms, the watchdog resets the system.
5.3.3.
Core BIOS Download
See the separate driver/software/BIOS manual, GEODE_LX800-900.
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MSEBX800/900 Detailed Manual V1.0
6. DESCRIPTION AND LOCATION OF THE CONNECTORS
Connector Structure
Pin
Remarks
X1
X2
Power Input
ATX Power Connector
2
20
Power Jack
X11
X14
LVDS
Video IN
2x 10
2
2x 25
RM2.54
SMA
X15
X20
LCD
MIC IN
RM2.54
Phone Jack
Phone Jack
SPDIF
D-Sub25
D-Sub 9
HDsub 15
PS/2
-
X22
X27
Line Out Front
SPDIF OUT
-
-
25
9
X30A
X30B
X30C
X31
LPT
COM 1
VGA
Keyboard
15
-
X32
Mouse
LAN A (LAN interface of SM800PCX)
-
PS/2
RJ45
X33A
X33B
X33C
X34A
X34B
X34C
X36
8
USB 0
USB 1
4
-
4
-
RJ45
LAN B (82551ER – SM800DK)
USB 2
USB 3
8
4
-
4
-
ISA POD CPLD
COM 2
JTAG
2x 5
9
RM2.54
D-Sub 9
RM2.54
RM2.54
RM2.54
RM2.54
RM2.54
FCC
X39
X51
2x 5
2x 3
2x 10
2x 22
2x 20
26
X52
X53
AVR Programming
Utility / Extension
HDD 2.5”
X60
X62
HDD 3.5”
Floppy
X70
X100
X101
X120
X130
PC/104
PC/104+
PC/104 PC/104
PC/104+ PC/104+
Mini PCI Mini PCI
Mini PCI
PCI Slot (standard PCI slot)
-
PCI
Special Connectors
LS1
Buzzer
-
-
Onboard Switches
SW1
SW2
Main Switch / Power Button (Pwrbtn)
Reset Switch
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
6.2. Connector Descriptions
X1
Power Input
Pin Signal
Pin Signal
Ground
1
8-30V DC-Input
2
X2
ATX Connector
Pin Signal
Pin Signal
1
+3.3V
GND
GND
2
4
6
8
+3.3V
+5V
+5V
3
5
7
9
GND
+5VSB
PWR-OK
10 +12V
12 -12V
14 PS-ON#
16 GND
18 -5V
11 +3.3V
13 GND
15 GND
17 GND
19 +5V
20 +5V
X11 LVDS
Pin Signal
Pin Signal
1
3
5
7
9
LVDS_A0-
GND
2
4
6
8
LVDS_A0+
GND
LVDS_A1-
LCD BKL (dep. J5)
LVDS_A2-
LVDS_A1+
LCD BKL (dep. J5)
10 LVDS_A2+
12 LCD VDD (dep 3)
14 LVDS_A3+
16 NC
11 LCD VDD (dep 3)
13 LVDS_A3-
15 NC
17 NC 18 NC
19 LVDS_Clock- 20 LVDS_Clock+
The LVDS interface works only if the J6 Jumper is not installed.
X14 Video Input Channel
Pin Signal Name
Function
in/out
1
2
Video Signal
Ground
CVBS
In
The Video IN interface works only if the J6 Jumper is installed.
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DIGITAL-LOGIC AG
X15 LCD Connector
Pin Signal
MSEBX800/900 Detailed Manual V1.0
Pin Signal
1
3
5
7
9
DE_SPLIT
BLK
2
4
6
8
VSYNC
HSYNC
Ground
SHFCLK
VCCLCD_SB
NC
VDD
10 D0
12 D2
11 D1
13 D3
15 D5
17 D7
19 D9
21 D11
23 D13
25 D15
27 D16
29 D18
31 D20
33 D21
35 D23
37 NC
39 NC
41 NC
43 NC
45 NC
47 NC
49 VCC
14 D4
16 D6
18 D8
20 D10
22 D12
24 D14
26 Ground
28 D17
30 D19
32 NC
34 D22
36 NC
38 NC
40 NC
42 NC
44 Ground
46 NC
48 NC
50 NC
The LCD interface works only if the J6 Jumper is not installed.
X20 Microphone Input Audio Connector
Pin Signal
Pin Signal
1
3
5
NC
Audio Ground
Channel L
2
4
6
Sense
Channel R
NC
X22 Front (Stereo Output) Audio Connector
Pin Signal Pin Signal
1
3
5
NC
Audio Ground
Channel L
2
4
6
Sense
Channel R
NC
X27 SPDif Connector
Pin Signal
Pin Signal
GND
1
Digital Audio Data Out
2
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
X30A Printer Port (Centronics, EMI-Filtered)
D-SUB Connector: Signal
Pin 1
Pin 2
Strobe
Data 0
Pin 3
Pin 4
Data 1
Data 2
Pin 5
Pin 6
Data 3
Data 4
Pin 7
Pin 8
Pin 9
Data 5
Data 6
Data 7
Acknowledge
Busy
Pin 10
Pin 11
Pin 12
Pin 13
Pin 14
Pin 15
Pin 16
Pin 17
Pins 18-25
paper end
select
autofeed
error
init printer
shift in (SI)
GND
X30B Serial Port COM1 RS232 (EMI-Filtered)
D-SUB connector: Signal
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
Pin 7
Pin 8
Pin 9
DCD
RXD
TXD
DTR
GND
DSR
RTS
CTS
RI
X30C VGA
Pin
Signal
Red
1
2
Green
Blue
3
13
H-Synch
V-Synch
GND
14
5, 6, 7, 8, 10
4, 9, 11, 12, 15
NC
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DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
X31 PS/2Keyboard (AT Compatible)
Pin Signal
Pin Signal
1
3
6
KB_Data
GND
KB_Clk
2
5
8
-
+5Volt / 100mA
-
X32 PS/2Mouse
Pin Signal
Pin Signal
1
3
6
MB_Data
GND
MB_Clk
2
5
8
-
+5Volt / 100mA
-
X33A Ethernet LAN
RJ-45 Pin Signal
RJ-45 Pin Signal
1
3
5
7
TX+
2
4
6
8
TX-
RX+
GND
GND
GND
RX-
GND
X33B / X33C
Pin Signal
USB 0/1
Pin Signal
1
2
3
4
VCC
5
6
7
8
VCC
USB-Px-
USB-Px-
USB-Px+
GND
USB-Px+
GND
X34A Ethernet LAN
RJ-45 Pin Signal
RJ-45 Pin Signal
1
3
5
7
TX+
2
4
6
8
TX-
RX+
GND
GND
GND
RX-
GND
X34B / X34C
Pin Signal
USB 2/3
Pin Signal
1
2
3
4
VCC
5
6
7
8
VCC
USB-Px-
USB-Px+
GND
USB-Px-
USB-Px+
GND
42
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
RJ45 Connector 10BaseT (IEEE 802.3i), 100BaseTX (IEEE 802.3u):
MDI-Pin EIA/TIA 568A colors Pin Twisted
(wire/line)
Pair
TX+
White / Green
Green
1
2
3
4
5
6
7
8
3
3
2
1
1
2
4
4
TX-
RX+
White / Orange
GND ..
GND ..
RX-
Orange
GND ..
GND ..
Cabling:
Do not exceed 100m (328 feet); minimum quality of CAT5, preferably S/FTP or STP CAT6.
Be careful to have a well balanced shield/ground concept.
X36 CPLD
Pin Signal
Pin Signal
1
3
5
7
9
CPLD TCK
2
4
6
8
GND
VCC5SB
NC
CPLD TDO
CPLD TMS
SYS RST#
CPLD TDI
NC
10 GND
Only for internal use.
X39 Serial Port
D-SUB connector:
Signal
DCD
RXD
TXD
DTR
GND
DSR
RTS
CTS
RI
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
Pin 7
Pin 8
Pin 9
X51 JTAG
Pin Signal
Pin Signal
1
2
3
4
5
TCK
GND
6
7
8
9
NC
RESET_IN (RST)
TDO
VCCSUS
TMS
NC
TDI
10 GND
43
DIGITAL-LOGIC AG
X52 AVR
MSEBX800/900 Detailed Manual V1.0
Pin Signal
Pin Signal
1
3
5
AVR VCC
AVR SCL
AVR MISO
2
4
6
GND
AVR RST
AVR MOSI
Only for internal use
X53 Utility
Pin Signal
Pin Signal
1
3
5
7
9
SUSC
2
4
6
8
VCCBat TP
PS ON ATX
System Reset
PWRBTN
GPIO 30
VCC5SB TP
VCC3 TP
VCC TP
10 VCC12 TP
12 GND
14 GND
16 NC
11 GPIO 31
13 GPIO 34
15 SMB SDA
17 SMB SCL
19 NC
18 NC
20 NC
X60 2.5" Hard Disk
Pin Signal
Pin Signal
1
Reset (active low)
D7
2
NC
D8
3
4
5
D6
D5
6
D9
D10
7
8
9
D4
D3
10
12
14
16
18
20
22
24
26
28
30
D11
D12
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
D2
D1
D13
D14
D0
GND
DRQ
D15
(keypin) NC
GND
GND
IOW(active low)
IOR(active low)
IOCHRDY
DACK
GND
ALE / Master-Slave NC
GND
IRQ14 (pri) IRQ15 (sec) 32
IOCS16 (active low)
DIAG
ADR2
ADR1
ADR0
34
36
38
40
42
44
CS0 (active low)
LED (active low)
VCC Logic
GND
CS1 (active low)
GND
VCC Motor
NC
44
DIGITAL-LOGIC AG
X62 3.5" Hard Disk
Pin Signal
MSEBX800/900 Detailed Manual V1.0
Pin Signal
1
3
5
7
9
Reset (active low)
2
4
6
8
GND
D8
D9
D7
D6
D5
D4
D10
10 D11
12 D12
11 D3
13 D2
14 D13
16 D14
18 D15
15 D1
17 D0
19 GND
21 DRQ
20 (keypin) NC
22 GND
24 GND
23 IOW(active low)
25 IOR(active low)
27 IOCHRDY
29 DACK
26 GND
28 ALE / Master-Slave NC
30 GND
31 IRQ14 (pri) IRQ15 (sec) 32 IOCS16 (active low)
33 ADR1
35 ADR0
34 DIAG
36 ADR2
37 CS0 (active low)
39 LED (active low)
38 CS1 (active low)
40 GND
X70 Floppy Disk
FD26:
Pin
1
Signal Name
VCC
IDX
Function
in/out
in
+5Volt
Index Pulse
+5Volt
2
3
VCC
DS2
4
Drive Select *
+5Volt
out
5
VCC
DCHG
M02
6
Disk Change
Motor on *
in
10
12
14
16
17
18
19
20
21
22
23
24
25
26
out
out
out
out
DIRC
STEP
WD
Direction Select
Step
Write Data
Signal grounds
Write Enable
Signal grounds
Track 0
GND
WE
out
in
GND
TRKO
GND
WP
Signal grounds
Write Protect
Signal grounds
Read Data
Signal grounds
Head Select
in
GND
RDD
GND
HS
in
out
45
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
X100 PC/104 Connector (ISA)
Pin A:
B:
C:
D:
0
Ground
SBHE
LA23
LA22
LA21
LA20
LA19
LA18
LA17
MEMR
MEMW
SD8
Ground
1
2
3
4
5
6
7
8
9
IOCHCK
Ground
RESET
+5V
MEMCS16
IOCS16
IRQ10
SD7
SD6
SD5
SD4
SD3
SD2
SD1
SD0
IRQ9
NC
IRQ11
IRQ12
DRQ2
(-12V) NC
0WS
IRQ15
IRQ14
DACK0
DRQ0
+12V
10 IOCHRDY
11 AEN
12 SA19
13 SA18
14 SA17
15 SA16
16 SA15
17 SA14
18 SA13
19 SA12
20 SA11
21 SA10
22 SA9
Ground NC
SMEMW
SMEMR
SIOW
SIOR
DACK5
DRQ5
SD9
DACK6
DRQ6
SD10
SD11
SD12
SD13
SD14
SD15
Ground
DACK7
DRQ7
DACK3
DRQ3
DACK1
DRQ1
REF
+5 Volt
MASTER
Ground
Ground
SYSCLK
IRQ7
IRQ6
23 SA8
24 SA7
IRQ5
IRQ4
IRQ3
25 SA6
26 SA5
DACK2
TC
ALE
27 SA4
28 SA3
29 SA2
30 SA1
+5 Volt
OSC
31 SA0
32 Ground
Ground
Ground
46
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
X101 PC/104+ Connector (PCI)
Pin A:
B:
C:
D:
1
2
3
4
5
6
7
8
9
GND/5.0V KEY2
VI/O
AD05
C/BE0*
GND
AD11
AD14
+3.3V
SERR*
Reserved
AD02
GND
AD07
AD09
VI/O
AD13
C/BE1*
GND
PERR*
+3.3V
TRDY*
GND
AD16
+3.3V
AD20
AD23
GND
C/BE3*
AD26
+5V
AD30
GND
REQ2*
VI/O
+5
AD00
+5V
AD03
AD06
GND
M66EN
AD12
+3.3V
PAR
SDONE
GND
DEVSEL*
+3.3V
C/BE2*
GND
AD01
AD04
GND
AD08
AD10
GND
AD15
SB0*
+3.3V
LOCK*
GND
IRDY*
+3.3V
AD17
GND
AD22
IDSEL1
VI/O
AD25
AD28
GND
REQ1*
+5V
GNT2*
GND
10 GND
11 STOP*
12 +3.3V
13 FRAME*
14 GND
15 AD18
16 AD21
17 +3.3V
18 IDSEL0
19 AD24
20 GND
21 AD29
22 +5V
23 REQ0*
24 GND
25 GNT1*
26 +5V
27 CLK2
28 GND
29 +12V
30 -12V
AD19
+3.3V
IDSEL2
IDSEL3
GND
AD27
AD31
VI/O
GNT0*
GND
CLK1
GND
RST*
CLK0
+5V
INTD*
INTA*
Reserved
CLK3
+5V
INTB*
Reserved
INTC*
GND/3.3V KEY2
47
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
X120 MiniPCI Interface
Pin Signal
Pin Signal
Pin Signal
Pin Signal
1
3
5
7
9
TIP
2
4
6
8
RING
63 3.3V
65 CLKRUN#
67 SERR#
69 GROUND
71 PERR#
73 C/BE[1]#
75 AD[14]
77 GROUND
79 AD[12]
81 AD[10]
83 GROUND
85 AD[08]
87 AD[07]
89 3.3V
91 AD[05]
93 RESERVED
95 AD[03]
97 5V
64 FRAME#
66 TRDY#
68 STOP#
8PMJ-3
8PMJ-6
8PMJ-7
8PMJ-8
8PMJ-1
8PMJ-2
8PMJ-4
70 3.3V
10 8PMJ-5
12 LED2_YELP
14 LED2_YELN
16 RESERVED
18 5V
72 DEVSEL#
74 GROUND
76 AD[15]
78 AD[13]
80 AD[11]
82 GROUND
84 AD[09]
86 C/BE[0]#
88 3.3V
90 AD[06]
92 AD[04]
94 AD[02]
96 AD[00]
98 RESERVED_WIP5
100 RESERVED_WIP5
102 GROUND
104 M66EN
106 AC_SDATA_OUT
108 AC_CODEC_ID0#
110 AC_RESET#
11 LED1_GRNP
13 LED1_GRNN
15 CHSGND
17 INTB#
19 3.3V
20 INTA#
21 RESERVED
23 GROUND
25 CLK
27 GROUND
29 REQ#
31 3.3V
33 AD[31]
35 AD[29]
37 GROUND
39 AD[27]
41 AD[25]
22 RESERVED
24 3.3VAUX
26 RST#
28 3.3V
30 GNT#
32 GROUND
34 PME#
36 RESERVED
38 AD[30]
40 3.3V
99 AD[01]
101 GROUND
103 AC_SYNC
105 AC_SDATA_IN
107 AC_BIT_CLK
109 AC_CODEC_ID1#
42 AD[28]
44 AD[26]
46 AD[24]
48 IDSEL
43 RESERVED
45 C/BE[3]#
47 AD[23]
49 GROUND
51 AD[21]
53 AD[19]
55 GROUND
57 AD[17]
50 GROUND
52 AD[22]
54 AD[20]
56 PAR
58 AD[18]
60 AD[16]
62 GROUND
111 MOD_AUDIO_MON
113 AUDIO_GND
115 SYS_AUDIO_OUT
117 SYS_AUDIO_OUT GND
119 AUDIO_GND
112 RESERVED
114 GROUND
116 SYS_AUDIO_IN
118 SYS_AUDIO_IN GND
120 AUDIO_GND
122 MPCIACT#
59 C/BE[2]#
61 IRDY#
121 RESERVED
123 VCC5VA
124 3.3VAUX
48
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
Pin Name PCI Pin Description
X130 PCI Slot (Standard PCI Slot)
Pin Name
PCI Pin Description
Test Logic Reset
+12 VDC
A1
A2
TRST
+12V
TMS
B1
B2
-12V
TCK
-12 VDC
Test Clock
Ground
A3
A4
Test Mde Select
Test Data Input
+5 VDC
B3
B4
GND
TDO
TDI
+5V
Test Data Output
+5 VDC
+5 VDC
A5
A6
B5
B6
+5V
+5V
INTA
INTC
Interrupt A
Interrupt C
A7
A8
B7
B8
INTB
INTD
Interrupt B
Interrupt D
+5V
-----
+5 VDC
Reserved
A9
B9
PRSNT1
-----
Present
Reserved
Present
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
A36
A37
A38
A39
A40
A41
A42
A43
A44
A45
A46
A47
A48
A49
A50
A51
A52
A53
A54
A55
A56
A57
A58
A59
A60
A61
A62
+5V
-----
Power (+5 V or +3.3 V)
Reserved
Ground or Keyway for 3.3/Universal PWB
Ground or Keyway for 3.3/Universal PWB
-----
B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
PRSNT2
GND
GND
Ground or Keyway for 3.3/Universal PWB
Ground or Open (Key) for 3.3/Universal PWB
Reserved
GND03
GND05
3.3Vaux
RESET
+5V
RES
GND
Reset
Ground
Clock
Power (+5 V or +3.3 V)
Grant PCI use
Ground
CLK
GND
GNT
Ground
Request
GND08
PME#
AD30
+3.3V01
AD28
AD26
GND10
AD24
IDSEL
+3.3V03
AD22
AD20
GND12
AD18
AD16
+3.3V05
FRAME
GND14
TRDY#
GND15
STOP
+3.3V07
-----
REQ
+5V
Power Managment Event
Address/Data 30
+3.3 VDC
Power (+5 V or +3.3 V)
Address/Data 31
Address/Data 29
Ground
AD31
AD29
GND
Address/Data 28
Address/Data 26
Ground
AD27
AD25
+3.3V
C/BE3
AD23
GND
Address/Data 27
Address/Data 25
+3.3VDC
Address/Data 24
Initialization Device Select
+3.3 VDC
Command, Byte Enable 3
Address/Data 23
Ground
Address/Data 22
Address/Data 20
Ground
AD21
AD19
+3.3V
AD17
C/BE2
GND13
IRDY#
+3.3V06
DEVSEL
GND16
LOCK#
PERR#
+3.3V08
SERR#
+3.3V09
C/BE1
AD14
GND18
AD12
AD10
GND20
Keyway
Keyway
AD8
Address/Data 21
Address/Data 19
+3.3 VDC
Address/Data 18
Address/Data 16
+3.3 VDC
Address/Data 17
Command, Byte Enable 2
Ground
Address or Data phase
Ground
Initiator Ready
+3.3 VDC
Target Ready
Ground
Device Select
Ground
Lock bus
Stop Transfer Cycle
+3.3 VDC
Reserved
Parity Error
+3.3 VDC
-----
GND17
PAR
Reserved
Ground
System Error
+3.3 VDC
Parity
Address/Data 15
+3.3 VDC
AD15
+3.3V10
AD13
AD11
GND19
AD9
Command, Byte Enable 1
Address/Data 14
Ground
Address/Data 13
Address/Data 11
Ground
Address/Data 12
Address/Data 10
Ground
Address/Data 9
Open or Ground for 3.3V PWB
Open or Ground for 3.3V PWB
Command, Byte Enable 0
+3.3 VDC
Keyway
Keyway
C/BE0
+3.3V11
AD6
Open or Ground for 3.3V PWB
Open or Ground for 3.3V PWB
Address/Data 8
Address/Data 7
+3.3 VDC
AD7
Address/Data 6
Address/Data 4
Ground
+3.3V12
AD5
AD3
AD4
Address/Data 5
Address/Data 3
Ground
GND21
AD2
AD0
Address/Data 2
Address/Data 0
Power (+5 V or +3.3 V)
Request 64 bit
+5 VDC
GND22
AD1
Address/Data 1
Power (+5 V or +3.3 V)
Acknowledge 64 bit
+5 VDC
+5V
VCC08
ACK64
VCC10
VCC12
REQ64
VCC11
VCC13
+5 VDC
+5 VDC
49
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
7. JUMPER LOCATIONS ON THE BOARD
The following tables show the location of the jumper blocks on the MSEBX800/900 board. The numbers
shown in these tables are silk screened on the board so that the pins can be easily located. This chapter
refers to the individual pins for these jumpers.
Be careful: some jumpers are soldering bridges; you will need a miniature soldering station with a vacuum
pump.
Settings written in bold are defaults!
7.1. The 2pin Jumpers
Jumper Structure
Open
Closed
1 - 2
J2
J6
J8
LAN B (SM800DK LAN) isolate
Select Video Out- or Input
Disable write protection of local FWH FWH read only
Enable LAN B
Enable LCD/LVDS Enable Video-In
Disable LAN B
FHW read / write
(FirmWareHub)
Boot FWH from SM800PCX or from Boot SM800PCX Boot local FWH
the MSEBX800-Board
FWH
J9
7.2. The 3pin Jumpers
Jumper Structure
Open
Closed
1 - 2
Closed
2 - 3
J1
J3
J4
J5
J7
PCI X130 slot in JTAG chain
LCD VDD voltage
LVDS transmitter
JTAG w/
+3.3V
JTAG w/o
+5V
LVDS on
LVDS auto on
+5V
Enable RTC batt Disable RTC batt 2)
LVDS off
+12V 1)
LCD Backlight voltage
RTC enable / disable
1.) The 12V are only available if an ATX-Supply is connected.
2.) It's possible to connect an external RTC back-up battery to pin 2-3 of J7.
50
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
8. INDEX
A
H
Addressing PCI Devices............................................. 31
High Frequency Radiation..........................................22
B
I
BIOS Recovery .......................................................... 36
Block Diagrams.......................................................... 13
Boot Time................................................................... 32
Bus Signals ................................................................ 29
Important Information .................................................24
Interfaces....................................................................33
ISO 9001:2000 ...........................................................11
J
C
Jumper Locations.......................................................50
Jumpers......................................................................51
2pin........................................................................50
3pin........................................................................50
Connector Descriptions.............................................. 39
Connector Plan .......................................................... 38
Connectors................................................................. 37
2.5" Hard Disk ....................................................... 44
3.5" Hard Disk ....................................................... 45
ATX ....................................................................... 39
Ethernet LAN......................................................... 42
Floppy Disk............................................................ 45
JTAG ..................................................................... 43
Keyboard PS/2 ...................................................... 42
LCD ....................................................................... 40
LVDS..................................................................... 39
Microphone............................................................ 40
MiniPCI Interface................................................... 48
Mouse PS/2........................................................... 42
PC/104 .................................................................. 46
PC/104+ Slot......................................................... 47
PCI Slot ................................................................. 49
Power Input ........................................................... 39
Printer Port ............................................................ 41
RJ45...................................................................... 43
Serial Port........................................................ 41, 43
SPDif ..................................................................... 40
Stereo Output........................................................ 40
USB....................................................................... 42
Utility...................................................................... 44
VGA....................................................................... 41
Video Input Channel.............................................. 39
Controllers.................................................................. 35
Core BIOS Download................................................. 35
K
Keyboard....................................................................33
L
LPT1...........................................................................33
M
Manual, How to Use It..................................................2
Mouse.........................................................................33
O
Ordering Codes..........................................................18
P
PC104 Bus .................................................................29
PCI Slot Assignment...................................................31
Power & Reset Buttons ..............................................28
Preparation.................................................................24
Printer.........................................................................33
Programmable Timers................................................35
D
Dimensions & Diagrams............................................. 19
Disclaimer .................................................................... 5
R
RAM Assembly/Disassembly......................................26
Recycling Information...................................................6
Related Application Notes ..........................................22
RoHS Commitment.......................................................9
RTC Battery Lifetime..................................................23
E
Environmental Protection Statement............................ 5
F
S
Features, Standard .................................................... 12
Features, Unique........................................................ 12
Floppy Disk ................................................................ 34
Floppy Disk Interface Connector................................ 34
Safety Precautions .......................................................9
Security ......................................................................17
Serial Ports.................................................................33
smartModule
52
DIGITAL-LOGIC AG
MSEBX800/900 Detailed Manual V1.0
Mounting................................................................ 25
Specifications............................................................. 15
SQS............................................................................ 11
Standards..................................................................... 8
Swiss Association for Quality and Management
Systems................................................................. 11
Swiss Quality.............................................................. 11
Symbols ....................................................................... 7
Thermoscan ...............................................................23
Timers and Counters..................................................35
Trademarks ..................................................................5
W
Warranty.......................................................................6
Watchdog ...................................................................35
T
Technical Support ........................................................ 6
53
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