DETECTION MONITORING TECHNOLOGIES AIMSFS-05X AIMS FAST SCAN RADAR SYSTEM (AIMSFS-05X) User Manual MSM855 Detailed

DETECTION MONITORING TECHNOLOGIES, LLC (dba DMT, LLC) AIMS FAST SCAN RADAR SYSTEM (AIMSFS-05X) MSM855 Detailed

User Manual 1B

DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    62 5.6.3.  ROM-BIOS Sockets An EPROM socket with 8bit wide data access normally contains the board's AT compatible ROM-BIOS. The socket  takes  an  E82802AC8  EPROM  (or  equivalent)  device.  The  board's  wait-state  control  logic automatically inserts  four memory wait-states  in  all  CPU  accesses  to  this  socket.  The  ROM-BIOS  sockets occupy the memory area from C0000H through FFFFFh; however, the board's ASIC logic reserves the entire area from C0000h through FFFFFh for onboard devices, so that this area is already usable for ROM-DOS and BIOS expansion modules. Consult the appropriate address map for the MICROSPACE MSM855 ROM-BIOS sockets.  5.7.  CMOS RAM Map Systems based on the industry-standard specification include a battery backed Real Time Clock chip. This clock  contains at  least 64Bytes  of non-volatile  RAM. The  system BIOS uses  this  area to store  information including system configuration and initialization parameters, system diagnostics, and the time and date. This information remains intact even when the system is powered down. The BIOS supports 128Bytes of CMOS RAM. This information is accessible through I/O ports 70h and 71h. CMOS RAM can be divided into several segments:   Locations 00h - 0Fh contain real time clock (RTC) and status information   Locations 10h - 2Fh contain system configuration data   Locations  30h  -  3Fh  contain  System  BIOS-specific  configuration  data  as  well  as  chipset-specific information   Locations 40h - 7Fh contain chipset-specific information as well as power management configuration parameters  The following table provides a summary of how these areas may be further divided.  Beginning Ending  Checksum  Description 00h  0Fh  No  RTC and Checksum 10h  2Dh  Yes  System Configuration 2Eh  2Fh  No  Checksum Value of 10h - 2Dh 30h  33h  No  Standard CMOS 34h  3Fh  No  Standard CMOS - SystemSoft Reserved 40h  5Bh  Yes  Extended CMOS - Chipset Specific 5Ch  5Dh  No  Checksum Value of 40h - 5Bh 5Eh  6Eh  No  Extended CMOS - Chipset Specific 6Fh  7Dh  Yes  Extended CMOS - Power Management 7Eh  7Fh  No  Checksum Value of 6Fh - 7Dh
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    63 CMOS Map Location  Description 00h  Time of day (seconds) specified in BCD 01h  Alarm (seconds) specified in BCD 02h  Time of day (minutes) specified in BCD 03h  Alarm (minutes) specified in BCD 04h  Time of day (hours) specified in BCD 05h  Alarm (hours) specified in BCD 06h  Day of week specified in BCD 07h  Day of month specified in BCD  08h  Month specified in BCD 09h  Year specified in BCD 0Ah  Status Register A Bit 7  =  Update in progress Bits 6-4  =  Time based frequency divider Bits 3-0  =  Rate selection bits that define the periodic interrupt rate and output frequency. 0Bh  Status Register B Bit 7  =  Run/Halt   0  Run   1  Halt Bit 6  =  Periodic Timer   0  Disable   1  Enable Bit 5  =  Alarm Interrupt   0  Disable   1  Enable Bit 4  =  Update Ended Interrupt   0  Disable   1  Enable Bit 3  =  Square Wave Interrupt   0  Disable   1  Enable Bit 2  =  Calendar Format   0  BCD   1  Binary Bit 1  =  Time Format   0  12-Hour   1  24-Hour Bit 0  =  Daylight Savings Time   0  Disable   1  Enable 0Ch  Status Register C Bit 7  =  Interrupt Flag Bit 6  =  Periodic Interrupt Flag Bit 5  =  Alarm Interrupt Flag Bit 4  =  Update Interrupt Flag Bits 3-0  =  Reserved 0Dh  Status Register D Bit 7  =  Real Time Clock   0  Lost Power   1  Power 0Eh  CMOS Location for Bad CMOS and Checksum Flags Bit 7  =  Flag for CMOS Lost Power 0  =  Power OK 1  =  Lost Power Bit 6  =  Flag for CMOS checksum bad 0  =  Checksum is valid 1  =  Checksum is bad
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    64 0Fh  Shutdown Code 10h  Diskette Drives Bits 7-4  =  Diskette Drive A 0000  =  Not installed 0001  =  Drive A = 360 kB 0010  =  Drive A = 1.2MB 0011  =  Drive A = 720 kB 0100  =  Drive A = 1.44MB 0101  =  Drive A = 2.88MB Bits 3-0  =  Diskette Drive B 0000  =  Not installed 0001  =  Drive B = 360 kB 0010  =  Drive B = 1.2MB 0011  =  Drive B = 720 kB 0100  =  Drive B = 1.44MB 0101  =  Drive B = 2.88MB 11h  Reserved 12h  Fixed (Hard) Drives Bits 7-4  =  Hard Drive 0, AT Type 0000  =  Not installed 0001-1110  =  Types 1-14 1111  =  Extended drive types 16-44.         See location 19h. Bits 3-0  =  Hard Drive 1, AT Type 0000  =  Not installed 0001-1110  =  Types 1-14 1111  =  Extended drive types 16-44.         See location 2Ah. 13h  Reserved 14h  Equipment Bits 7-6  =  Number of Diskette Drives 00  =  One diskette drive 01  =  Two diskette drives 10, 11  =  Reserved  Bits 5-4  =  Primary Display Type 00  =  Adapter with option ROM 01  =  CGA in 40 column mode 10  =  CGA in 80 column mode 11  =  Monochrome Bits 3-2  =  Reserved Bit 1  =  Math Coprocessor Presence 0  =  Not installed 1  =  Installed Bit 0  =  Bootable Diskette Drive 0  =  Not installed 1  =  Installed 15h  Base Memory Size (in kB) - Low Byte  16h  Base Memory Size (in kB) - High Byte 17h  Extended Memory Size (in kB) - Low Byte 18h  Extended Memory Size (in kB) - High Byte 19h  Extended Drive Type - Hard Drive 0 1Ah  Extended Drive Type - Hard Drive 1
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    65 1Bh  Custom and Fixed (Hard) Drive Flags Bits 7-6  =  Reserved Bit 5  =  Internal Floppy Disk Controller 0  =  Disabled 1  =  Enabled Bit 4  =  Internal IDE Controller 0  =  Disabled 1  =  Enabled Bit 3  =  Hard Drive 0 Custom Flag 0  =  Disabled 1  =  Enabled Bit 2  =  Hard Drive 0 IDE Flag 0  =  Disabled 1  =  Enabled Bit 1  =  Hard Drive 1 Custom Flag 0  =  Disabled 1  =  Enabled Bit 0  =  Hard Drive 1 IDE Flag 0  =  Disabled 1  =  Enabled 1Ch  Reserved 1Dh  EMS Memory Size Low Byte 1Eh  EMS Memory Size High Byte 1Fh - 24h  Custom Drive Table 0 These 6 Bytes (48 bits) contain the following data: Cylinders    10bits  range 0-1023 Landing Zone    10bits  range 0-1023 Write Precompensation  10bits  range 0-1023 Heads      08bits  range 0-15 Sectors/Track    08bits  range 0-254 1Fh  Byte 0 Bits 7-0  =  Lower 8 bits of Cylinders 20h  Byte 1 Bits 7-2  =  Lower 6 bits of Landing Zone Bits 1-0  =  Upper 2 bits of Cylinders 21h    Byte 2 Bits 7-4  =  Lower 4 bits of Write Precompensation Bits 3-0  =  Upper 4 bits of Landing Zone 22h  Byte 3 Bits 7-6  =  Reserved Bits 5-0  =  Upper 6 bits of Write Precompensation 23h  Byte 4 Bits 7-0  =  Number of Heads 24h  Byte 5 Bits 7-0  =  Sectors Per Track 25h - 2Ah  Custom Drive Table 1 These 6 Bytes (48 bits) contain the following data: Cylinders    10bits  range 0-1023 Landing Zone    10bits  range 0-1023 Write Precompensation  10bits  range 0-1023 Heads      08bits  range 0-15 Sectors/Track  08bits  range 0-254 25h  Byte 0 Bits 7-0  =  Lower 8 bits of Cylinders
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    66 26h  Byte 1 Bits 7-2  =  Lower 6 bits of Landing Zone Bits 1-0  =  Upper 2 bits of Cylinders 27h  Byte 2 Bits 7-4  =  Lower 4 bits of Write Precompensation Bits 3-0  =  Upper 4 bits of Landing Zone 28h  Byte 3 Bits 7-6  =  Reserved Bits 5-0  =  Upper 6 bits of Write Precompensation 29h  Byte 4 Bits 7-0  =  Number of Heads 2Ah  Byte 5 Bits 7-0  =  Sectors Per Track 2Bh  Boot Password Bit 7  =  Enable/Disable Password 0  =  Disable Password 1  =  Enable Password Bits 6-0  =  Calculated Password 2Ch  SCU Password Bit 7  =  Enable/Disable Password 0  =  Disable Password 1  =  Enable Password Bits 6-0  =  Calculated Password 2Dh  Reserved 2Eh  High Byte of Checksum - Locations 10h to 2Dh 2Fh  Low Byte of Checksum - Locations 10h to 2Dh 30h  Extended RAM (kB) detected by POST - Low Byte 31h  Extended RAM (kB) detected by POST - High Byte 32h  BCD Value for Century 33h  Base Memory Installed Bit 7  =  Flag for Memory Size 0  =  640kB 1  =  512kB Bits 6-0  =  Reserved 34h  Minor CPU Revision Differentiates CPUs within a CPU type (i.e., 486SX vs 486 DX, vs 486 DX/2). This is crucial for correctly determining CPU input clock frequency. During a power-on reset, Reg DL holds minor CPU revision. 35h  Major CPU Revision Differentiates between different CPUs (i.e., 386, 486, Pentium). This is crucial for correctly determining CPU input clock frequency. During a power-on reset, Reg DH holds major CPU revision. 36h  Hotkey Usage Bits 7-6  =  Reserved Bit 5  =  Semaphore for Completed POST Bit 4  =  Semaphore for 0 Volt POST (not currently used) Bit 3  =  Semaphore for already in SCU menu Bit 2  =  Semaphore for already in PM menu Bit 1  =  Semaphore for SCU menu call pending Bit 0   =  Semaphore for PM menu call pending 40h-7Fh  Definitions for these locations vary depending on the chipset.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    67 5.8.  EEPROM Saved CMOS Setup The EEPROM has different functions, as listed below:   Backup of the CMOS-Setup values.   Storing system informations like: version, production date, customisation of the board, CPU type.   Storing user/application values.  The EEPROM will be updated automatically after exiting the BIOS setup menu. The system will also operate without a CMOS battery. While booting up, the CMOS is automatically updated with the EEPROM values. Press the ESC-key while powering on the system before the video shows the BIOS message and the CMOS will not be updated. This is helpful if incorrect parameters are stored in the EEPROM and the setup of the BIOS does not start. If the system hangs or a problem appears, the following steps must be performed: 1.  Reset the CMOS-Setup (to reset the CMOS, disconnect the battery for at least 10 minutes). 2.  Press ESC until the system starts up. 3.  Enter the BIOS Setup: a.  load DEFAULT values (F9) b.  enter the settings for the environment c.  exit the setup (F10) 4.  Restart the system.  The user may access the EEPROM through the INT15 special functions. The system information is read-only and  uses  the  SFI  functions.  Please  refer  to  the  driver/software/BIOS  manual  855_BIOS,  the  chapter  on Special Peripherals / Configurations, the Special Function Interface (SFI).  5.8.1.  EEPROM Memory for Setup The  EEPROM  is  used  for  setup  and  configuration  data,  stored  as  an  alternative  to  the  CMOS-RTC. Optionally, the  EEPROM  setup  driver may update  the  CMOS  RTC,  if  the battery  is  running down  and the checksum error would appear and stop the system. The capacity of the EEPROM is 2 kByte. Organization of the 2048Byte EEPROMs: Address MAP  Function 0000h  CMOS-Setup valid (01=valid) 0001h  Reserved 0003h  Flag for DLAG-Message (FF=no message) 0010h-007Fh  Copy of CMOS-Setup data 0080h-00FFh  Reserved for AUX-CMOS-Setup 0100h-010Fh  Serial-Number  0110h-0113h  Production date (year/day/month) 0114h-0117h  1. Service date (year/day/month) 0118h-011Bh  2. Service date (year/day/month) 011Ch-011Fh  3. Service date (year/day/month) 0120h-0122h  Boot errors (Auto incremented if any boot error occurs) 0123h-0125h  Setup Entries (Auto incremented on every Setup entry) 0126h-0128h  Low Battery (Auto incremented every time the battery is low, EEPROM -> CMOS) 0129h-012Bh  Startup (Auto incremented on every power-on start) 0130h  Reserved 0131h  Reserved 0132h/0133h  BIOS Version (V1.4 => [0132h]:= 4, [0133h]:=1) 0134h/0135h  BOARD Version (V1.5 => [0124h]:=5, [0125h]:=1) 0136h  BOARD TYPE (‘M’=PC/104, ‘E’=Euro, ‘W’=MSWS, ‘S’=Slot, ‘C’=Custom,      ‘X’= smartCore or smartModule) 0137h  CPU TYPE: (01h=ELAN300/310, 02h=ELAN400, 05h=P5, 08h=P3, 09h=ELAN520, 10h=P-M). 0200h-03FFh  Reserved 0200h-027Fh  Reserved 0400h-07FFh  Free for Customer use
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    68 5.9.  Memory & I/O Map 5.9.1.  Replacement of the SODIMM-DDRAM     MSM855 and SM855 with heat sink Step 1: Remove the fan connection x12 on the MSEBX855. Remove the 3 screws from heat sink and dismantle the heatsink. Screw Type: Cylinder hexagon socket type screw M2x6mm /BN7 DIN912 ISO 4762 Tool:  Hexagon head socket wrench no. 1.5     Step 2: Remove  the  2  screws  from  the  SODIMM  cover  and dismantle the cover very carefully. Slide the cover to the side and gently lift it away from the casing.  Screw Type: Cylinder hexagon socket type screw M2x4mm /BN11 DIN912 ISO 4762 Tool:  Hexagon head socket wrench no. 1.5     Step 3: Press  the  memory  holder  sideways  and  click  the module out.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    69      Completely dismantled parts.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    70 5.9.2.  System I/O Map 5.9.2.1.  Fixed IO Address Space  IO Address  Size  Target 00h-1Fh  32  DMA controller 20h-2Dh  14  Interrupt controller 2Eh-2Fh  2  LPC SIO 30h-3Dh  14  Interrupt controller 40h-43h  4  8254 compatible timer 4Eh-4Fh  2  LPC SIO 50h-53h  4  8254 compatible timer 60h-66h (even)  4  8254 compatible timer 61h-67h (odd)  4  NMI controller 70h-77h  8  RTC controller 80h-91h  18  DMA controller 92h  1  Reset controller 93h-9Fh  13  DMA controller A0h-B1h  18  Interrupt controller B2h-B3h  2  Power management B4h-BDh  10  Interrupt controller C0h-DFh  32  DMA controller F0h  1  Depends on configuration F8h-FFh  8  Reserved 170h-177h  8  IDE controller 1F0h-1F7h  8  IDE controller 376h  1  IDE controller 3F6h  1  IDE controller   5.9.2.2.  Variable IO Address Space The variable IO address space depends on the BIOS settings. The following ranges are  with default setup values loaded. IO Address  Size  Target 000h-0FFh  256  Fixed IO address space 274h-277h  4  ISAPNP 279h-279h  1  ISAPNP 295h-296h  2  SuperIO 2F8h-2FFh  8  Serial port (COM2) 378h-37Fh  8  Printer port (LPT1) 3B0h-3BBh  12  Graphic controller 3C0h-3DFh  32  Graphic controller 3F0h-3F7h  8  Floppy controller 3F8h-3FFh  8  Serial port (COM1)
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    71 5.10.  VGA / LCD Start / Control Panel / Appearance and Themes / Display Register Settings:
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    72       Attention! If there is no picture after changing the values in the menu "DISPLAY PROPERTIES  Settings" or if the system was started without a monitor connected: Press the following key combination to get a picture again:     CTRL+ALT+ Fx Where Fx is:   F1 = VGA   F2 or F3 = SVIDEO   F4 = DVI  We recommend changing the settings in the Intel graphics menu.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    73 5.11.  LVDS-Display There  are  various  LCD-panels  available  with  a  6bit-LVDS  interface  which  can  be  directly  adapted  to  the LVDS-interface of the 855GME video controller. The LVDS interface is composed of:   3x2 LVDS Datalines (differential)   1x2 LVDS Clockline (differential)   Backlight Power = 5V / DCMain   LCD Power = 3.3V / 5V  Here is a list of LVDS-Panels: Display Part No.  Size  Resolution  Colors  Luminance  Power  Remarks LVDS 18bit             Toshiba LTM06C310  6.3”  1024x768  262k  150 cd/m3  3W  Tested, limited availability LTM10C306L  10.4”  1024x768  262k  200cd/m3  3W  Tested SIEMENS I-SFT G23916-B65-H068  10.4”  1024x768  262k  1000cd/m3  20W   NEC    1) NL10276BC24-13  12.1”  1024x768  262k/16M  400cd/m3    8/6bit LCD  1) NL8060BC31-28D  12.1”  800x600  262k  350cd/m3    1) NL10276BC26-17  10.4”  1024x768  262k      1) NL10276BC16-01  8.4”  1024x768  262k/16M      8/6bit LCD  1) NL10276BC12-02  6.3”  1024x768  262k/16M      8/6bit LCD  1) SANYO-TORISAN TM121XG-02L01  12.1”  1024x768  262k  150cd/m3     TM100SV-02L02   10”  800x600  262k  170cd/m3     LG-Philips LCD LP104S5  10.4”  800x600  262k  170cd/m3    -T with 300cd/m3 LB150X06  15.0”  1024x768  262k  250cd/m3      To use NEC Panels, please ask the manufacturer for any application notes.  5.12.  LAN / Ethernet  5.12.1.  LAN Cable Connection
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    74 RJ45 connector 10BaseT (IEEE 802.3i), 100BaseTX (IEEE 802.3u): MDI-Pin  EIA/TIA 568A colors (wire/line) Pin  Twisted Pair TX+  White / Green  1  3 TX-  Green  2  3 RX+  White / Orange  3  2 GND ..    4  1 GND ..    5  1 RX-  Orange  6  2 GND ..    7  4 GND ..    8  4  Cabling:  Do not exceed 100 meters (328 feet)   Has a quality of at least CAT5, though S/FTP or STP CAT6 would be better   Be sure to have a well balanced shield/ground concept  5.12.2.  Boot from LAN The integrated LAN boot option in the BIOS supports only the PXE LAN boot. Enable the PXE OPROM function in the BIOS setup:   After enabling this feature, Save, Exit and Reboot. To boot from LAN, re-enter the BIOS setup and select the “IBA FE Slot 0240” as the first boot device in the boot order.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    75 5.13.  AC97 Sound 5.13.1.  Audio Cable Connection           5.13.2.  Sound Settings
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    76 5.14.  SpeedStep Performance Control The Pentium-M improved the SpeedStep mechanism by adding a third power scheme in addition to the low-power and the full-performance modes. This new mode is called adaptive mode, and allows the frequency and voltage to switch according to the CPU activity. The CPU uses a low-power mode by default, but when its  activity  increases,  it  switches  itself  very quicky  into  full-performance  mode.  This  new  power  scheme  is very pleasant to  use,  because it  allows  full CPU speed  only  when needed.  Of course, power consumption depends on the CPU activity, and the more the CPU is used, the more it consumes power.  Windows XP Power Schemes AC Power (Frequency example: mobile Pentium-M 1.6 GHz) Battery DC (Frequency example: mobile Pentium-M 1.6 GHz) Home/Office    Desktop None (1.6 GHz Always)  Adaptive (600 MHz <...>1.6 GHz) Portable /Laptop  Adaptive (600 MHz <...> 1.6 GHz)  Adaptive (600 MHz <...>1.6 GHz) Presentation  Adaptive (600 MHz <...> 1.6 GHz)  Degrade (600 MHz) Always On  None (1.6 GHz Always)  None (1.6 GHz Always) Minimal Power Management Adaptive (600 MHz <...> 1.6 GHz)  Adaptive (600 MHz <...>1.6 GHz) Maximum Battery Adaptive (600 MHz <...> 1.6 GHz)  Degrade (600 MHz) CPU performance is heavily dependent on the choice of power scheme in the system control  5.14.1.  Set up Power Management Start / Control Panel / Appearance and Themes / Display Go to the Register Screen Saver:    Press the Power Button
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    77
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    78 6.  DESCRIPTION & LOCATION OF THE CONNECTORS  Connector  Structure  Pin  Grid  Angle J1  USB Port1  4  RM2.54  180° J2  USB Port0 (preparation for Wakeup from USB)  4  RM2.54  180° J4  Floppy disk  26  FFC  180° J5  COM2 RS232C   10  RM2.54  90° J6  COM1 RS232C   10  RM2.54  180° J7  LPT1 Printer port   26  RM2.54  90° J8  Utility (KB,MS,Battery,Reset,Sp.)  10  RM2.54  90° J9  IrDA  4  RM2.54  J10  Ext.Temp. Sensor (manufacturer's use only)  2    J11  Ext.Temp. Sensor (manufacturer's use only)  2    J12  PCI-Bus PC/104+  120    J15  VGA interface (RGB,H&V-Synch,I2C)  10  RM2.54  180° J16  ATX-Mainswitch (toggle)  3  RM2.54  180° J21  ATA-IDE primary  44  RM2.00  90° J22  ISA-Bus PC/104  104    J23  USB Port3  4  RM2.54  180° J24  USB Port2  4  RM2.54  180° J25  USB Port5  4  RM2.54  180° J26  USB Port4  4  RM2.54  180° J27  POD (manufacturer's use only)  14  RM2.00  180° J29  LAN (LAN, LED, Battery)  10  RM2.00  90° J30  Sound (3xStereo, MIC, Line)  30  RM2.00  90° J33  LAN (LAN, LED)   10  RM2.00  180° J34  Factory test   14  RM2.00  X7  Optional CompactFlash  50  CF  X8  Power input (Main Input)  8  RM2.54  90° X11  LVDS, DVO channel B, DVO channel C  50  RM2.00  180° X12  FAN-Power Output (5V/GND)  2  RM2.54  180° X13  FAN-Power Output 1 (5V/FANPWM/GND)  3  RM2.54  180° X14  Power Input GND      90° X15  Power Input VCC 5V      90° X16  FAN-Power Output 2 (5V/FANPWM/GND)  3  RM2.54  180°  only available on the MSM855B2  Different connectors on board version 0.4 Connector  Structure  Pin  Remarks  Angle J16  ATX-Mainswitch (toggle)  2  RM2.54   X8  Power Input (Main Input)  8  RM2.54   X9  LVDS Interface  20  RM2.00   X10  DVO channel B  26  RM2.00   X11  DVO channel C  26  RM2.00    Also refer to Chapter 13, Previous Product Versions  Remarks: J16 is used to start up the computer system. 90° angle =  180° angle (straight)  =
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    79 6.1.  Top Side of the MSM855 V1.2/V1.3
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    80 6.2.  Bottom Side of the MSM855 V1.2/V1.3
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    81 6.3.  Top Side of the MSM855B/B2 V1.1    6.4.  Top Side of the MSM855B/B2 V1.1 The bottom of the MSM855B/B2 is indentical to the bottom side of the MSM855 V1.3.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    82 Standard MSM855 X8  Power Supply (J31 = closed)  Pin  Signal  Pin  Signal 1  GND  2  Main supply +5V 3  Main switch (= J16 pin1)  4  (+12V) 5  SMBUS DAT  6  SMBUS CLK 7  GND  8  Main supply +5V  Remarks:   Main switch is low active and internally pulled up to 3.3V.   12V are not used for onboard functions; only wired to PC/104bus.   The Main supply is the only external (5V) supply used for this system.  or  X14  Power Supply GND (mounting tab 4.75mm)  Pin  Signal  Info 1  GND  www.compona.ch PartNr. 236 713-1     X15  Power Supply VCC (mounting tab 2.8mm)  Pin  Signal  Info 1  Main supply +5V  www.compona.ch PartNr. 236 712-1
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    83 Customized MSM855 with HLV input High Level Voltage-Input (5V-24V)  Supply for the MSM855 baseboard only:  X8  Power Supply with J31 open (HLV-Input)  Pin  Signal  Pin  Signal 1  NC  2  5V 3  Main switch (= J16 pin1)  4  (+12V) 5  SMBUS DAT  6  SMBUS CLK 7  NC  8  5V  Supply for the SM855 (5V-24V):  X14  Power Supply GND (mounting tab 4.75mm) with J31 open (HLV-Input)  Pin  Signal  Info 1  GND  www.compona.ch Part Nr. 236 713-1     X15  Power Supply VCC (mounting tab 2.8mm) with J31 open (HLV-Input)  Pin  Signal  Info 1  Main supply 5-32V  www.compona.ch Part Nr. 236 712-1    Attention! The  board,  CPU  and  all  peripherals  will  be  destroyed  if  voltage  between  5  and  24V  is  supplied through  X14/X15  with  Jumper  J31  closed!  The  warranty  will  also  be  void!  You  must  check  J31 before connecting power to the system!
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    84 J1  USB 1 Connector J2  USB 0 Connector (not assembled on the MSM855) J23  USB 3 Connector J24  USB 2 Connector J25  USB 5 Connector (not assembled on the MSM855B/B2) J26  USB 4 Connector  Pin  Signal 1  VCC5 2  USB-Px- 3  USB-Px+ 4  GND Remarks: Use twisted pair USB cables for USB V2.0 compatibility.   Components assembled on MSM855  Dubox 4 pole  Nr. 246 562   Cable  Dubox 4 pole  Nr. 246 552   Crimp Contacts  Dubox  Nr. 246 513 Contact: www.compona.ch  J4  Floppy Disk Interface Connector  FD26:    Pin  Signal  Function  in/out 1  VCC  +5V   2  IDX  Index Pulse  in 3  VCC  +5V   4  DS2  Drive Select 2  out 5  VCC  +5V   6  DCHG  Disk Change  in 10  M02  Motor On 2  out 12  DIRC  Direction Select  out 14  STEP  Step  out 16  WD  Write Data  out 17  GND  Signal grounds   18  WE  Write Enable  out 19  GND  Signal grounds   20  TRKO  Track 0  in 21  GND  Signal grounds   22  WP  Write Protect  in 23  GND  Signal grounds   24  RDD  Read Data  in 25  GND  Signal grounds   26  HS  Head Select  out  J5  Serial Port COM2  Header onboard  D-SUB connector  Signal Pin 1  Pin 1  DCD Pin 2  Pin 6  DSR  Pin 3  Pin 2  RxD Pin 4  Pin 7  RTS Pin 5  Pin 3  TxD Pin 6  Pin 8  CTS Pin 7  Pin 4  DTR Pin 8  Pin 9  RI Pin 9  Pin 5  GND Pin10    open
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    85 J6  Serial Port COM1  Header onboard  D-SUB connector  Signal Pin 1  Pin 1  DCD Pin 2  Pin 6  DSR  Pin 3  Pin 2  RxD Pin 4  Pin 7  RTS Pin 5  Pin 3  TxD Pin 6  Pin 8  CTS Pin 7  Pin 4  DTR Pin 8  Pin 9  RI Pin 9  Pin 5  GND Pin10    open  J7  Printer Port (Centronics) The printer connector provides an interface for 8bit Centronics printers. Header onboard  D-SUB connector  Signal Pin 1  Pin 1  Strobe Pin 3  Pin 2  Data 0 Pin 5  Pin 3  Data 1 Pin 7  Pin 4  Data 2 Pin 9  Pin 5  Data 3 Pin 11  Pin 6  Data 4 Pin 13  Pin 7  Data 5 Pin 15  Pin 8  Data 6 Pin 17  Pin 9  Data 7 Pin 19  Pin 10  Acknowledge Pin 21  Pin 11  Busy Pin 23  Pin 12  Paper end Pin 25  Pin 13  Select Pin 2  Pin 14  Autofeed Pin 4  Pin 15  Error Pin 6  Pin 16  Init printer Pin 8  Pin 17  Shift in (SI) Pins 10, 12, 14, 16, 18  Pins 18-22  Left open Pins 20, 22, 24  Pin 23-25  GND  J8  Keyboard PS/2/-Mouse Utility Connector Attention: The speaker must be connected to VCC, to have a low inactive current in the speaker ! Pin  Signal  Pin  Signal 1  Speaker Out  2  Ground 3  Reset In  4  VCC 5  Keyboard Data  6  Keyboard Clock 7  Ground  8  Ext. 3.6V Lithium Battery 9  PS/2 Mouse Clock  10  PS/2 Mouse Data   J9  IrDA Connector  Pin  Signal 1  VCC 2  IRTX 3  IRRX 4  GND
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    86 J12  PC/104+ BUS Interface  Pin  A:  B:  C:  D: 1  GND/5.0V KEY2  Reserved  +5  AD00 2  VI/O  AD02  AD01  +5V 3  AD05  GND  AD04  AD03 4  C/BE0*  AD07  GND  AD06 5  GND  AD09  AD08  GND 6  AD11  VI/O  AD10  M66EN 7  AD14  AD13  GND  AD12 8  +3.3V  C/BE1*  AD15  +3.3V 9  SERR*  GND  SB0*  PAR 10  GND  PERR*  +3.3V  SDONE 11  STOP*  +3.3V  LOCK*  GND 12  +3.3V  TRDY*  GND  DEVSEL* 13  FRAME*  GND  IRDY*  +3.3V 14  GND  AD16  +3.3V  C/BE2* 15  AD18  +3.3V  AD17  GND 16  AD21  AD20  GND  AD19 17  +3.3V  AD23  AD22  +3.3V 18  IDSEL0  GND  IDSEL1  IDSEL2 19  AD24  C/BE3*  VI/O  IDSEL3 20  GND  AD26  AD25  GND 21  AD29  +5V  AD28  AD27 22  +5V  AD30  GND  AD31 23  REQ0*  GND  REQ1*  VI/O 24  GND  REQ2*  +5V  GNT0* 25  GNT1*  VI/O  GNT2*  GND 26  +5V  CLK0  GND  CLK1 27  CLK2  +5V  CLK3  GND 28  GND  INTD*  +5V  RST* 29  +12V  INTA*  INTB*  INTC* 30  -12V  Reserved  Reserved  GND/3.3V KEY2  Notes: 1.  The shaded area denotes power or ground signals. 2.  The KEY pins are to guarantee proper module installation. Pin-A1 will be removed and the female side plugged for 5.0V I/O signals and Pin-D30 will be modified in the same manner for 3.3V I/O. It is recommended that both KEY pins (A1 and D30) be electrically connected to GND for shielding. DLAG boards have them as NC  Signals Used Onboard (not for external use): IRQ3, IRQ4  COM1/2 IRQ7  LPT1 IRQ6  FD IRQ14  HD IRQ12  PS/2 Mouse IRQ13  Coprocessor TC  FD DACK2 and DRQ2  FD
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    87 J15  VGA Monitor (CRT-Signals)  J15 Header  15 pins HiDensity DSUB 10 Pin -M Signal  Pin  Signal Pin 2  VGA Red  1  Red Pin 4  VGA Green  2  Green Pin 6  VGA Blue  3  Blue Pin 8  Horizontal Synch  13  H-Synch Pin 9  Vertical Synch  14  V-Synch            5 + 11  Bridged        Pin 1  Ground  5, 6, 7, 8  Ground        Pin 3  NC     Pin 5  NC     Pin 7  DDC-Data  12  DDC- Data Pin 10  DDC-Clock  15  DDC- Clock  The VGA-CRT signals from J15 must be wired to a standard VGA HiDensity DSub connector (female): The LCD signals must be wired panel specific.    Solder-side view of the female 15pin HiDSub     1         2        3        4        5        Red  Green  Blue           GND               6        7        8         9       10         GND      11      12      13      14      15      Hsyn    VSyn  J16  Main-Switch Connector 3pin  Pin  Signal  Pin  Signal 1  Main Switch *  2  GND 3  Power Button **      * J16 Default Setting: closed by a jumper between Pins 1 and 2. If this jumper is closed until the main supply powers up, the computer system will start with a boot sequence. If you want to use a push button to start the system: If this jumper is open until the main supply powers up, the board does not start. You must connect a push button (Main Button) to Pins 1-2. After pushing the main button, the board will start. (If you press the Main Button for more than 4 seconds, the power will be switched off.) ** if you want to use the PWRBTN signal (i.e., in W2k or XP) you must connect another push button to Pins 2-3 of the J16 jumper to shut down the Windows OS by pressing the push button. Note… After  the  system  is  shut  down  with  the  Power  Button,  to  restart  the  system  the  Main  Button (connected to Pins 1-2) must be used. The PWRBTN signal is low active and internally pulled to 3.3V.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    88 J21  IDE Interface   Pin  Signal  Pin  Signal 1  Reset (active low)  2  GND 3  D7  4  D8 5  D6  6  D9 7  D5  8  D10 9  D4  10  D11 11  D3  12  D12 13  D2  14  D13 15  D1  16  D14 17  D0  18  D15 19  GND  20  (keypin) NC 21  NC  22  GND 23  IOW (active low)  24  GND 25  IOR (active low)  26  GND 27  IORDY  28  ALE / Master-Slave 29  DACK  30  GND 31  IRQ14   32  IOCS16 (active low) NC 33  ADR1  34  NC 35  ADR0  36  ADR2 37  CS0 (active low)  38  CS1 (active low) 39  LED (active low)  40  GND 41  VCC Logic  42  VCC Motor 43  GND  44  NC  J22  PC/104 BUS Interface  Pin  A:  B:  C:  D: 0      Ground  Ground 1  IOCHCK  Ground  SBHE  MEMCS16 2  SD7  RESET  LA23  IOCS16 3  SD6  +5V  LA22  IRQ10 4  SD5  IRQ9  LA21  IRQ11 5  SD4  NC  LA20  IRQ12 6  SD3  DRQ2  LA19  IRQ15 7  SD2  (-12V)  LA18  IRQ14 8  SD1  0WS  LA17  DACK0 9  SD0  +12V  MEMR  DRQ0 10  IOCHRDY  Ground NC  MEMW  DACK5 11  AEN  SMEMW  SD8  DRQ5 12  SA19  SMEMR  SD9  DACK6 13  SA18  SIOW  SD10  DRQ6 14  SA17  SIOR  SD11  DACK7 15  SA16  DACK3  SD12  DRQ7 16  SA15  DRQ3  SD13  +5 Volt 17  SA14  DACK1  SD14  MASTER 18  SA13  DRQ1  SD15  Ground 19  SA12  REF  Ground  Ground 20  SA11  SYSCLK     21  SA10  IRQ7     22  SA9  IRQ6     23  SA8  IRQ5     24  SA7  IRQ4     25  SA6  IRQ3     26  SA5  DACK2     27  SA4  TC     28  SA3  ALE     29  SA2  +5V     30  SA1  OSC     31  SA0  Ground     32  Ground  Ground
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    89  J29  LAN Interface Connector  MSM855: Pin  Signal  Pin  Signal 1  TDN (LAN TX-)  2  TDP (LAN TX+) 3  RDN (LAN RX-)  4  RDP (LAN RX+) 5  LAN-LED Activity  6  3.6V-RTC Lithium Battery Input 7  GND  8  VCC3 (+3.3V) 9  LAN-LED Speed  10  LAN-LED Link  Remarks:   Pins 1-4 must be connected to a 100/10-BASE-T transformation for isolation.   Pins 5, 8, 9 and 10 are used to connect 3pc LAN LED’s. Each LAN-LED-signal must be terminated with a 330 Ohm resistor.   Pins 6 & 7 are used to connect the RTC-Battery.  MSM855B/B2: Pin  Signal  Pin  Signal 1  LAN TX-  2  LAN TX+ 3  LAN RX-  4  LAN RX+ 5  LAN-LED Activity  6  NC 7  GND  8  VCC3 (+3.3V) 9  LAN-LED Speed  10  LAN-LED Link  J30  Sound Interface Connector  Pin  Signal  Pin  Signal 1  CD Input Left  2  GND for CD 3  CD Input Right  4  AUX-Line Input Left 5  GND for AUX  6  AUX-Line Input Right 7  LINE Input Left  8  GND for LINE 9  LINE Input Right  10  GND for MIC1 11  MIC1 Input  12  GND for MIC2 13  MIC2 Input  14  MONO Input 15  Output Suround Left  16  GND 17  Output Suround Right  18  GND 19  Output Front Left  20  GND 21  Output Front Right  22  GND 23  Output Center  24  GND 25  Output Subwoofer  26  GND 27  SPDIF Output  28  Jack-sense 0 (Front-sense) 29  Jack-sense 2  LineIn)  30  Jack-sense 3 (MIC-sense)  J33  LAN Interface Connector  Only on the MSM855B2: Pin  Signal  Pin  Signal 1  LAN TX-  2  LAN TX+ 3  LAN RX-  4  LAN RX+ 5  LAN-LED Activity  6  NC 7  GND  8  VCC3 (+3.3V) 9  LAN-LED Speed  10  LAN-LED Link
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    90 X11  LVDS / DVO on board version V1.0   Pin  Signal  Pin  Signal 1  DVO_C_CLK  2  DVO_C_CLK# 3  GND  4  DVO_C_BLANK# 5  DVO_C_D0  6  DVO_C_D1 7  DVO_C_D10  8  DVO_C_D11 9  DVO_C_D2  10  DVO_C_D3 11  DVO_C_D4  12  DVO_C_D5 13  DVO_C_D6  14  DVO_C_D7 15  DVO_C_D8  16  DVO_C_D9 17  DVO_C_FLDSTL  18  DVO_C_HSYNC 19  DVO_C_VSYNC  20  DVO_BC_CLKINT 21  DVO_DVIC  22  DVO_DVID 23  GND  24  DVO_MI2C 25  DVO_MI2D  26  DVI_REF 27  VCC15  28  VCC15 29  VCC3S  30  VCC3S 31  DVO_detect  32  DVO_reset# 33  VCC5S  34  VCC5S 35  VCC12  36  LVDS_BKLC 37  LVDS_BKLEN  38  LVDS_VDDEN 39  GND  40  LVDS_CLKAM 41  LVDS_CLKAP  42  GND 43  LVDS_YAM  44  LVDS_YAP0 45  LVDS_YAM1  46  LVDS_YAP1 47  LVDS_YAM2  48  LVDS_YAP2 49  LVDS_YAM3  50  LVDS_YAP3  Detailed signal description: Signal  LVDS_CLKAM [ICLKAM] Description  Output, LVDS, voltage: 1.25V±225mV Channel A differential clock pair output (compliment): 245-800 MHz.   Signal  LVDS_CLKAP [ICLKAP] Description  Output, LVDS, voltage: 1.25V±225mV Channel A differential clock pair output (true): 245-800 MHz.   Signal  LVDS_BKLC [PANELBKLTCTL] Description  Output, CMOS LVDS LCD Flat Panel Backlight Brightness Control: This signal is used as the Pulse Width Modulated (PWM) control signal to control the backlight inverter.   Signal  LVDS_BKLEN [PANELBKLTEN] Description  Output,  CMOS  LVDS  LCD  Flat  Panel  Backlight  Enable:  This  signal  is  used  to  enable  the backlight inverter (BLI).   Signal  LVDS_VDDEN [PANELVDDEN] Description  Output, CMOS LVDS LCD Flat Panel Power Control: This signal is used enable power to the panel interface.   Signal  LVDS_YAP0..3 [IYAP[3:0]] Description  Output, LVDS, voltage: 1.25V±225mV Channel A differential data pair 3:0 output (true): 245-800MHz.   Signal  LVDS_YAM0..3 [IYAM[3:0]] Description  Output, LVDS, 1.25V±225mV Channel A differential data pair 3:0 output (compliment): 245-800 MHz.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    91 X12  FAN-Power Supply, 2pin  Pin  Signal  Pin  Signal 1  VCC5  2  GND  X13  FAN-Power Supply 1, 3pin  Pin  Signal  Pin  Signal 1  GND  P2  VCC12V ** 3  FAN1IN*  * for future use / ** only if 12V on X8 pin 4  X16  FAN-Power Supply 2, 3pin  Pin  Signal  Pin  Signal 1  GND  2  VCC12V ** 3  FAN2IN*  * for future use / ** only if 12V on X8 pin 4   7.  JUMPER LOCATIONS ON THE BOARD The following figures show the location of all jumper blocks on the MSM855 board. The numbers shown in the figures are silk screened on the board so that the pins can easily be located. This chapter refers to the individual pins for these jumpers. The default jumper settings are written in bold. Be careful:  some jumpers are soldering bridges; you will need a miniature soldering station with a vacuum pump. Settings written in bold are defaults! Jumper  Structure  1-2 / open  2-3 / closed  Remarks J16  Main switch manually set  1-2 = Automatic power on 2-3 = ATX-Switch (push button) must be connected to GND (press button for boot up)  J10  Only for manufacturer's use       J11  Only for manufacturer's use       J32 LAN onboard function  Enabled  Disabled    only available on the MSM855B/B2 For the jumpers of board Version 0.4 please refer to Chapter 13, Previous Product Versions.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    92 7.1.  The Jumpers on the MSM855 MSM855 V1.2 / V1.3 – Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    93 7.2.  The Jumpers on the MSM855/B2 MSM855B/B2 V1.1 – Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    94 8.  LED CRITERIA  LED  Color  Function L1  Green  Run OK located in the SM855 cover L2  Red  Hard disk activity located near the power supply connector L3  Green  SM855 waiting for start (led blinks)    LED  Color  Function L1  Red  Power L2  Red  LAN Link L3  Red  LAN Speed (100MB = lights / 10MB = no light) L4  Red  LAN Activity     L1 L2 L3 L1 L2 L3 L4
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    95 9.  CABLE INTERFACES 9.1.  The Hard Disk Cable 44pin IDT Terminal for Dual Row (2.00mm grid) and 1.00mm flat cable; 44pins = 40pins signal and 4pins power.  1 1 24343444439 3940 402  Maximum length for the IDE cable is 30cm.  Attention! Check the Pin  1 marker of the cable and the connector before  you power-on. Refer to the technical manual of the installed drives because a wrong cable will immediately destroy the drive  and/or  the MICROSPACE MSM945  board.  In  this  case  the  warranty is  void! Without the technical manual you may not connect this type of drive.  The 44pin IDE connector on the drives is normally composed of the 44 pins, 2 open pins and 4 test pins, 50 pins in total. Leave the 4 test pins unconnected.  1 3 43a   bc    dTestpinopen pin44pin  IDE  Interface with integrated power lines
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    96 9.2.  The COM 1/2 Serial Cable DT terminal for dual row 0.1" (2.54 mm grid) and 1.27 mm flat cable.   2 1 COM1 9pin D-Sub male   COM1/2 1 6  2 3 4 5 7 8 9 Line of pin 1 9        10   Attention!   Do not short circuit these signal lines.   Never  connect  any  pins  on  the  same  plug  or  to  any  other  plug  on  the  MICROSPACE MSM945.  The  +/-  10Volts  will  destroy  the  MICROSPACE  core  logic  immediately.  In  this case the warranty is void!   Do not overload the output; the maximum output current converters: 10mA   9.3.  VGA Cable
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    97 9.4.  The Printer Cable (P4) IDT terminal for dual row 0.1" (2.54mm grid) and 1.27 mm flat cable  1421512425 1213Parallelport Cable LPT1  Attention!   Maximum length of this cable is 6 meters.   Prevent short-circuits.  Never apply power to these signals, the MICROSPACE MSM945 will be destroyed.   9.5.  USB Cable
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    98 9.6.  The Micro Floppy Cable
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    99 9.7.  The LAN Interface Cable (RJ45)      This picture shows the MSM855-LANCON.  RJ45 connector 10BaseT (IEEE 802.3i), 100BaseTX (IEEE 802.3u): MDI-Pin  EIA/TIA 568A Colors (wire/line) Pin Twisted Pair TX+  White / Green  1  3 TX-  Green  2  3 RX+  White / Orange  3  2 GND ..    4  1 GND ..    5  1 RX-  Orange  6  2 GND ..    7  4 GND ..    8  4  Cabling:  Do not exceed 100 meters (328 feet)   Has a minimum quality of CAT5, preferably S/FTP or STP CAT6   Be sure to have a well balanced shield/ground concept
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    100 9.7.1.  MSM855 LANCON  9.7.2.  MSM855B/B2 LANCON
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    101 10. THERMAL SPECIFICATIONS 10.1.  Thermal Analysis for Case Integration Since the integrated heat sink is uni-directional, the airflow must be exactly in the direction of the heat rails. If possible, mount the board vertically, so that the heat rails are up/down. In this case, the self produced airflow is about 3m/sec. Pay particular attention when mounting the PC-product in a fully enclosed case/box. The thermal energy will be stored in the inner room of this environment. If the case has a fan:   The hot air must be exchanged with cool air from outside using a filtered fan.   The hot air must be cooled with a heat exchanger.  If the case has no fan or opening to exchange the hot air:   The heat sink of the CPU must be mounted directly to a heat sink integrated in the case. The thermal energy does not go through the air;  the  heat  will  be  conducted directly through  the alloy of the  heat sink to the outside.   Diminish the thermal energy production by reducing the CPU performance, i.e. by using the 600MHz clock only.
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    102 10.2.  Assembly of the Passive Heat Sink     Photo of basic SM855 with passive heat sink and 3 screws.  Step 1: Put the passive heat sink onto the SM855.    Step 2: Attach the heat sink with 3 screws. Screw Type: Cylinder hexagon socket type screw M2x6mm BN7 DIN 912 ISO 4762 / www.sfsunimarket.biz  Tool:  Hexagon head socket wrench no. 1.5  Attention! When using an active/passive heat sink that is not from DLAG, be very careful! The  maximum  depth  the  screws  can  go  into  the  product  is  3mm  or  the  smartModule  will  be destroyed!
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    103 10.3.  Assembly of the Active Heat Sink     Photo of basic SM855 with active heat sink and 3 screws.  Step 1: Put the heat sink onto the SM855.    Step 2: Attach the heat sink with 3 screws. Screw Type: Cylinder hexagon socket type screw M2x6mm BN7 DIN 912 ISO 4762 / www.sfsunimarket.biz  Tool:  Hexagon head socket wrench no. 1.5  Step 3: Plug the fan into the electrical connection.  Attention! When using an active/passive heat sink that is not from DLAG, be very careful! The  maximum  depth  the  screws  can  go  into  the  product  is  3mm  or  the  smartModule  will  be destroyed!
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    104 11. ASSEMBLY VIEWS 11.1.  MSM855 V1.2 / V1.3
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    105
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    106 11.2.  MSM855B/B2
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    107
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    108 12. Q&A – QUESTIONS & ANSWERS Problem  Solution There is no picture after changing values in the menu "DISPLAY PROPERTIES  Settings". You must press the following key combination to get a picture again:   CTRL+ALT+ Fx Fx: F1 = VGA F2 or F3 = SVIDEO F4 = DVI  We recommend changing the settings in the Intel graphics menu: "DISPLAY PROPERTIES  Settings  Advanced  Intel  Device Properties"  Strange behavior of the system during the boot-up of the OS or while using the system. Enter the BIOS setup and set the primary IDE channel to “user” (instead “auto”). Change the value “Ultra DMA Mode” = “2”  After changing the hardware to a newer revision  or version with the IHC4, Windows gives a blue screen during the boot-up. You must install Windows again (a new installation of the OS).  Note… To have better sound quality configure the “Sound” as follows: 1.  Enter the Menu Settings 2.  Enable the “AUX” input in the playback device area 3.  Mute the following inputs: AUX, CD-Player, Phone, Line IN
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    109 13. PREVIOUS PRODUCT VERSIONS 13.1.  Mechanical Drawing V0.3/V0.4
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    110 13.2.  Assembly Views 13.2.1.  MSM855 V0.3 / V0.4 13.2.1.1.  Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    111 13.2.1.2.  Bottom View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    112 13.2.2.  MSM855 V1.0 / V1.1 13.2.2.1.  Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    113 13.2.2.2.  Bottom View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    114 13.3.  Connectors & Jumpers 13.3.1.  MSM855 V0.3 / V0.4 13.3.1.1.  Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    115 13.3.1.2.  Bottom View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    116 13.3.2.  MSM855 V0.3 / V0.4 – Jumpers only 13.3.2.1.  Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    117 13.3.2.2.  Bottom View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    118 13.3.3.  MSM855 V1.0 / V1.1 13.3.3.1.  Top View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    119 13.3.3.2.  Bottom View
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    120 13.4.  Description of the Connectors for V0.4 Note… Only the following connectors are different to the newer board version. All other connectors are the same. Therefore, please refer to Chapter 6 for the other connectors.  J16  Main Switch Connector, 2pin  Pin  Signal  Pin  Signal 1  Main Switch  2  GND    Used for connecting the ATX–compatible toggle switch (momentary close between Pins 1 and 2).   If this jumper is closed until the main supply powers up, the computer system starts by booting.   If  this  jumper  is  open  until  the  main  supply  power  up,  then  Pin1  (ATX-switch)  must  be  tied  to  the ground (Pin 2) to start the computer system (this is the ATX-function).  X8  Power Supply  Pin  Signal  Pin  Signal 1  GND  2  Main supply +5Vo 3  Main switch (=J16 Pin1)  4  +12V 5  Reserved for AC-Present 6  Reserved for PWRBTN 7  GND  8  Main supply +5V  Remarks:   The Main Switch is low active and internally pulled up to 3.3V.   PWRBTN signal is low active and internally pulled up to 3.3V.   12V are not used for onboard functions, only wired to the PC/104bus.   The Main Supply is the only external (5V) supply used for this system.  X9  LVDS Interface   Pin  Signal  Pin  Signal 1  LVDS_CLKAM  2  LVDS_CLKAP 3  NC  4  NC 5  LVDS_BKLC  6  LVDS_BKLEN 7  LVDS_VDDEN  8  NC 9  LVDS_YAM0  10  LVDS_YAM1 11  LVDS_YAM2  12  LVDS_YAM3 13  LVDS_YAP0  14  LVDS_YAP1 15  LVDS_YAP2  16  LVDS_YAP3 17  NC  18  NC 19  VCC3S  20  GND
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    121 X10  DVO Channel B  Pin  Signal  Pin  Signal 1  DVO_B_CLK  2  DVO_B_CLK# 3  DVO_B_BLANK#  4  DVO_B_D0 5  DVO_B_D1  6  DVO_B_D10 7  DVO_B_D11  8  DVO_B_D2 9  DVO_B_D3  10  DVO_B_D4 11  DVO_B_D5  12  DVO_B_D6 13  DVO_B_D7  14  DVO_B_D8 15  DVO_B_D9  16  VCC3S 17  DVO_B_FLDSTL  18  DVO_B_HSYNC 19  DVO_B_VSYNC  20  DVO_BC_CLKINT 21  DVO_DDC  22  DVO_DDD 23  GND  24  DVI_REV 25  NC  26  DVO_Detect  X11  DVO Channel C  Pin  Signal  Pin  Signal 1  DVO_C_CLK  2  DVO_C_CLK# 3  DVO_C_BLANK#  4  DVO_C_D0 5  DVO_C_D1  6  DVO_C_D10 7  DVO_C_D11  8  DVO_C_D2 9  DVO_C_D3  10  DVO_C_D4 11  DVO_C_D5  12  DVO_C_D6 13  DVO_C_D7  14  DVO_C_D8 15  DVO_C_D9  16  VCC3S 17  DVO_C_FLDSTL  18  DVO_C_HSYNC 19  DVO_C_VSYNC  20  DVO_BC_INTR# 21  DVO_DVIC  22  DVO_DVID 23  GND  24  DVI_REF 25  NC  26  DVO_Detect   13.5.  Description of the Jumpers for V0.4 Note… Only the following connectors are different to the newer board version. All other connectors are the same. Therefore, please refer to Chapter 7 for the other jumpers.  Settings written in bold are defaults! Jumper  Structure  open  closed  Remarks J13  PCI-IO voltage select  1-2 = 5V  2-3 = 3.3V   J16  Main switch set manually  ATX-Switch  (on  X8  Pin6)  must be closed for boot-up Automatic power-on
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    122 14. INDEX 1 10/100 BASE-T Interface ........................................... 89 A AC97 Sound............................................................... 75 Active Heat Sink....................................................... 103 Addressing PCI Devices............................................. 48 Assembly Views ....................................................... 104 B Block Diagrams.......................................................... 14 Boot from LAN............................................................ 74 Bus Currents .............................................................. 47 Bus Signals ................................................................ 45 C Cable Interfaces......................................................... 95 CMOS Setup.............................................................. 67 COM 1/2 Serial Cable ................................................ 96 Connectors................................................................. 78 Core BIOS Download................................................. 61 D Disclaimer .................................................................... 6 E EEPROM Memory for Setup ...................................... 67 Environmental Protection Statement............................ 6 Ethernet...................................................................... 73 External Battery Assembly ......................................... 37 F Features, Standard .................................................... 13 Features, Unique........................................................ 13 Floppy Disk Interface............................................ 55, 84 Floppy Disk Interface Connector ................................ 56 H Hard Disk Cable......................................................... 95 I IDE Interface .............................................................. 88 IO Address ................................................................. 70 IrDA............................................................................ 85 ISO 9001:2000........................................................... 12 J Jumper Locations ....................................................... 91 K Keyboard.............................................................. 54, 85 L LAN ............................................................................ 73 LAN boot .................................................................... 74 LAN Interface Cable ................................................... 99 LED Criteria................................................................ 94 LPT1........................................................................... 54 LVDS Interface ......................................................... 120 M Main Switch Connector............................................. 120 Manual, How to Use It .................................................. 2 Micro Floppy Cable..................................................... 98 Mouse Utility Connector ............................................. 85 P Passive Heat Sink .................................................... 102 PC/104 BUS Interface ................................................ 88 PC/104+ BUS Interface .............................................. 86 PC104 Bus ................................................................. 45 Power Supply ............................................... 87, 91, 120 Previous Product Versions ....................................... 109 Printer......................................................................... 54 Printer Cable .............................................................. 97 Printer Interface Cable................................................ 97 Printer Port ................................................................. 85 Q Q&A.......................................................................... 108 Questions & Answers ............................................... 108 R Recycling Information................................................... 7 Remote Function ........................................................ 58 RoHS Commitment..................................................... 10 ROM-BIOS ................................................................. 62 RTC Battery Lifetime .................................................. 36 S Safety Precautions ..................................................... 10 Security ...................................................................... 17 Serial Cable................................................................ 96 Serial Ports........................................................... 55, 85 Speaker...................................................................... 56 Specifications ............................................................. 16
DIGITAL-LOGIC AG    MSM855/HLV/B/B2 Detailed Manual V1.0A    123 SQS............................................................................ 12 Standards............................................................... 9, 13 Swiss Association for Quality and Management Systems................................................................. 12 Swiss Quality.............................................................. 12 Symbols ....................................................................... 8 System I/O Map ......................................................... 70 T Technical Support ........................................................ 7 Thermal Specifications............................................. 101 Trademarks.................................................................. 6 U USB............................................................................ 84 USB Interface Protection............................................ 57 V VGA Cable ................................................................. 96 VGA Monitor............................................... 87, 120, 121 W Warranty....................................................................... 7 Watchdog ................................................................... 59

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