Cool SpaceRunner-LX800 PC/104-Plus CPU Board Technical Manual TME-104P-CSR-LX800-R1V11.doc Revision 1.11 / April 11 ©LiPPERT Embedded Computers GmbH Hans-Thoma-Str. 11 D-68163 Mannheim http://www.lippertembedded.
Technical Manual Cool SpaceRunner-LX800 LiPPERT Document: TME-104P-CSR-LX800-R1V11 Revision 1.11 Copyright ©2011 LiPPERT Embedded Computers GmbH, All rights reserved Contents and specifications within this manual are subject of change without notice. Trademarks MS-DOS, Windows, Windows 95, Windows 98, Windows NT and Windows XP are trademarks of Microsoft Corporation. PS/2 is a trademark of International Business Machines, Inc. Intel and Solid State Drive are trademarks of Intel Corporation.
Table of Contents 1 1.1 1 Overview Introduction ............................................................................................... 1 Features .................................................................................................... 1 Block Diagram ............................................................................................. 2 1.2 Ordering Information ....................................................................................
3.5 Ethernet Controller ..................................................................................... 18 Ethernet Interface ........................................................................................ 18 3.6 On Board Power Supply .............................................................................. 19 Power Connector ........................................................................................ 19 3.7 EIDE Port .....................................................
Trouble Shooting BIOS Settings ...................................................................... 41 4.4 Drivers ................................................................................................... 42 4.5 Programming Examples .............................................................................. 43 LIVE-LED .................................................................................................. 43 Watchdog ..............................................................
Acronyms ACPI AES APM ATA BIOS BPP CD COM CPU CRT CSR DAC DDR DMA DOT EIDE EMC ETH FIFO FPU FWH GPIO HDD I²C IP ISA LCD LEMT LED LPC LVDS MAC MMU PCI PHY PLL PS/2 PWR SMB SMC SPI SSD SVGA TCP TLB UART USB UDMA UDP VGA WDOG Advanced Configuration and Power Management Interface Advanced Encryption Standard Advanced Power Management Advanced Technology Attachment Basic Input Output System Bits Per Pixel Compact Disc Communication Equipment Central Processing Unit Cathode Ray Tube Cool SpaceRunner Digital-to-A
1 Overview 1.1 Introduction The Cool SpaceRunner-LX800 is a CPU-board for especially designed with rugged appliances in mind. It allows the design of devices without moving parts. Additional resilience comes from the used through-hole connectors. The PC/104-Plus board with AMD’s Geode™ LX processor has a very good performance to power ratio. The board comprises all peripherals needed for an embedded PC on a small 3.775" by 4.050" printed circuit board.
Block Diagram COM1 RS232/485 IDC 10 2.54 mm LPT/ Parallel IDC 26 2.54 mm Line Driver LTC1334 Super I/O ITE8712 COM2 RS232/485 IDC 10 2.54 mm Line Driver LTC1334 PS/2-MS/KB MISC IDC 10 2.54 mm PS/2 SMC UPD78F0511GA LPC FWH DF13 10 pin 1.25 mm SST FWH SST25LF080A SPI SMB EIDE IDC 44 2.00 mm EIDE SSD 2GB USB1/2/3 IDC12 2.54 mm I/O Companion CS5536 USB0 Ethernet1 IDC 10 2.54 mm ETH Intel 82551IT PCI PCI -> ISA ITE8888 VGA IDC 10 2.54 mm ISA PCI PC/104 Plus Backlight DF13 8 pin 1.
1.2 Ordering Information Cool SpaceRunner-LX800 Models Order number Description 903-0019-10 Cool SpaceRunner-LX800 with LCD+VGA-CRT, AMD GEODE LX800@0.9W (500 MHz), low power consumption, 256MB DDR SDRAM, 4x USB2.
1.3 Specifications Electrical Specifications Supply voltage +5 V DC Rise time < 10 ms Supply voltage tolerance ± 5% Inrush current 6.5 A, 25µs Supply current maximal 0.95 A (Memtest86 v1.70) typical 0.6 A (Windows XP idle mode) typical 0.2 A (suspend to ram mode) 1 2 Environmental Specifications Operating: Temperature range -20 … 60 °C (standard version) -40 … 85 °C (extended version) Temperature change max.
1.4 Mechanical Dimensions (L x W) 95.9 mm x 90.2 mm (including I/O extension) Height max. 14 mm on top side above PCB max. 12 mm on bottom side above PCB Weight 100 g Mounting 4 mounting holes Note: It is strongly recommend using plastic spacers instead of metal spacers to mount the board. With metal spacers, there is a possible danger to create a short circuit with the components located around the mounting holes. This can damage the board! TOP Pin1 TME-104P-CSR-LX800-R1V11.doc Pin2 Rev 1.
2 Getting Started 2.1 Connector Locations Top (Click on the blue font to reach the right chapter.) LPT X15 COM1 X11 COM2 X12 PC/104 Plus X17 PC/104 X18 PWR X19 LVDS X7 Backlight X6 ETH/USB0 X9 USB1/2/3 X8 VGA X3 EIDE X10 PS/2 X16 The connectors' pin 1 is marked RED TME-104P-CSR-LX800-R1V11.doc Rev 1.
Bottom PC/104 Plus X17 PC/104 X18 The connectors' pin 1 is marked RED TME-104P-CSR-LX800-R1V11.doc Rev 1.
2.2 Jumper Locations (Click on the blue font to reach the right chapter.) Jumper COM1 termination X13 Pin 1 Pin 3 Pin 2 Pin 4 Jumper COM2 termination X14 Pin 1 Pin 3 Pin 2 Pin 4 Jumper Battery X30 Jumper LVDS and Backlight Power Supply X5 TME-104P-CSR-LX800-R1V11.doc Rev 1.
2.3 LED indicators The onboard LED indicators provide a very comfortable way to check the board’s status. The boot success, power status, IDE accesses, Watchdog and Ethernet accesses are all visible. The LED indicators are located on top of the board, near the PC/104 connector. LINK Green LED shows the Ethernet Link status. ACT Red LED flashes at Ethernet activity. Speed Yellow LED lights up if 100Mbit connection is established. MAIN Green LED lights up when Main Power is supplied.
2.4 Hardware Setup Caution Be sure to observe the EMC security measures. Make sure you are always at the same potential as the module. Caution Never connect or disconnect peripherals like HDD's, PCI, and ISA boards while the board's power supply is connected and switched on! Use the cable set provided by LiPPERT to connect the Cool SpaceRunner-LX800 to a VGA monitor. Connect either PS/2 or USB keyboard or mouse, respectively. Use the 44-wire cable to connect the hard disk.
3 Module Description 3.1 Processor The AMD Geode LX 800@0.9W processor delivers one of the best performance-per-watt figures in the industry, providing x86 power and versatility to embedded products. Its architecture and high level of integration guarantees longer battery life and allows very small designs, while delivering full x86 functionality. The AMD Geode LX 800 processor consumes a maximum power of 3.9W and 1.8W typical at 500 MHz, enabling systems that only need to be passively cooled.
Processor functional blocks are • CPU Core • GeodeLink™ Control Processor • GeodeLink Interface Units • GeodeLink Memory Controller • Graphics Processor • Display Controller • Video Processor • Video Input Port • GeodeLink PCI Bridge • Security Block For further information please refer to the data book of the AMD Geode LX 800 TM P 3.
3.3 Graphics-Controller The graphics controller is integrated in the Geode LX processor and does high performance 2D-graphics handling. CRT monitors can be used as well as LVDS displays. Therefore, two different connectors are on the board. It is possible to use a CRT and a LVDS display simultaneously (depends on drivers setting), but only with the same graphics content on both displays.
Resolution Color Depth (bpp) Refresh Rate (Hz) Dot Clock (MHz) Min. GLIU Frequency (MHz) 8, 16, or 24/32 85 157.500 200 1600 x 1200 1920x1440 8, 16, or 24/32 90 172.800 400 8, 16, or 24/32 100 192.000 400 8, 16, or 24/32 60 162.000 200 8, 16, or 24/32 70 189.000 200 8, 16, or 24/32 72 198.000 233 8, 16, or 24/32 75 202.500 233 8, 16, or 24/32 85 229.500 266 8, 16, or 24/32 90 251.182 400 8, 16, or 24/32 100 280.640 400 8, 16, or 24/32 60 234.
LVDS Configuration The display options of LVDS are shown in the table: Setting Possible Values Flat Panel Type Resolution LVDS 320x240, 640x480, 800x600, 1024x768, 1152x864, 1280x1024, 1600x1200 Data Bus Type 18/24 Bits, 2ppc Refresh Rate 60 70, 72, 75, 85, 90, 100 Hz HSYNC Polarity High, Low VSYNC Polarity High, Low LP Active Period Active Only Free Running à only active during SYNC à always active SHFCLK Active Period Active Only Free Running à only active during SYNC à always active To
LVDS Color Mapping Backlight Connector Connector type: Matching connector: Hirose DF13 8 pin Hirose DF13-8S-1.25C, part number 536-0007-0 00 Pin Signal 1 +12 Volt 4 2 +12 Volt 4 3 +5 Volt 4 4 +5 Volt 4 5 EN 6 VCC 7 GND 8 GND 5 4 0.5 A is the maximum current for each pin 5 That voltage can be selected using the jumper "Backlight", shown on next page. TME-104P-CSR-LX800-R1V11.doc Rev 1.
Display Voltage Jumpers Jumper LVDS and Backlight Connector type: Matching part: IDC6 pin header 2.0 mm 2.0 mm jumper Use a 2 mm jumper between 1-3 or 3-5 to select the backlight voltage. Use a 2 mm jumper between 2-4 or 4-6 to select the display voltage. Pin Signal Pin Signal 1 +12 Volt 2 +5 Volt 3 Backlight voltage 4 Display voltage 5 + 5 Volt 6 +3.3 Volt X5 default jumper setting Backlight Jumper 1-3 3-5 +12V +5V Jumper 2-4 4-6 Power supply +5V +3.
3.5 Ethernet Controller Intel 82551IT Fast Ethernet Controller The 82551IT is an evolutionary addition to Intel’s family of 8255x controllers. It provides excellent performance by offloading TCP, UDP and IP checksums and supports TCP segmentation off-load for operations such as Large Send. The 82551IT provides an extended operating temperature in addition to all of the same capabilities and features as the 82551ER to address applications requiring a wider operating temperature range.
3.6 On Board Power Supply The on board power controllers generate all necessary voltages from the single supply voltage of 5 Volt. The generated 3.3 Volt is available at Backlight- and LVDS- connector. Note This 3.3 V cannot be used to supply external electronic devices with high power consumption like other PC/104 boards or displays.
3.7 EIDE Port An EIDE port is provided by the chipset to connect one drive. The connected device can be set as master and slave, depending on the SSD mode.. To enhance the performance, this port has a 100 MB/s IDE controller in UDMA mode per the ATA-5 specification The EIDE port is available on a standard 44-pin header (2 mm) for 2.5" hard disks. Only one more EIDE device can be connected, one slot is reserved for the SSD. EIDE Connector Connector type Matching connector: IDC44 pin header 2.
3.8 PS/2 Interface PS/2-connectors for mouse and keyboard are shared with several system signals. An adapter cable for the PS/2 devices is available. Keyboard and Mouse Connector Connector type: Matching connector: 3.9 IDC10 pin header 2.54 mm IDC10 pin female connector 2.54 mm Pin Signal Pin Signal 1 Speaker 2 Mouse Clock 3 Reset-In 4 Mouse Data 5 KB Data 6 KB Clock 7 GND 8 +5 Volt Switched 9 Ext. Battery 10 Power Button 7 X16 USB 2.0 Ports Four standard USB 2.
USB 2.0 Connector 0 Connector type: Matching connector: IDC10 pin header 2.54 mm IDC10 pin female connector 2.54 mm Pin Signal Pin 1 ETH1-TX+ 2 ETH1-TX- 3 ETH1-RX+ 4 SMB_DATA 5 SMB_CLK 6 ETH1-RX- 7 USB0+ 8 USB0- 9 VCC_USB0 10 USB-GND 8 Signal X9 USB 2.0 Connector 1/2/3 Connector type: Matching connector: IDC12 pin header 2.54 mm IDC12 pin female connector 2.
3.10 Serial Ports The maximum supported baud rates: RS485 mode RS232 mode 1,5 Mbit/s 115 kbit/s 9 The serial ports are located on two IDC headers "COM1" and "COM2". Adapter cables with standard DSUB-9 male connectors are available. The ports either work in RS232 or RS485 mode, selectable in BIOS. When entering Serial and Parallel Device Configurations, COM Port 1 Mode and COM Port 2 Mode can be selected.
RS485-Termination Jumpers Connector type: Matching connector: IDC4 pin header 2.0 mm IDC4 pin female connector 2.0 mm Use 2 mm jumpers to terminate lines correctly. There are two jumpers COM1 and COM2, respectively. The RS485 termination jumpers are located at the top of the printed circuit board, see chapter 2.2 Pin Signal Pin Signal 1 TX+ 2 TX- 3 RX+ 4 RX- X13, X14 When the jumper is set, the differential pairs are terminated with 120Ω between them. (e.g.
LPT Connector Connector type: Matching connector: IDC26 pin header 2.54 mm IDC26 pin female connector 2.54 mm Pin Signal Pin Signal 1 Strobe 2 Auto LF 3 Data0 4 Error 5 Data1 6 Init 7 Data2 8 Select In 9 Data3 10 GND 11 Data4 12 GND 13 Data5 14 GND 15 Data6 16 GND 17 Data7 18 GND 19 ACK 20 GND 21 Busy 22 GND 23 Paper End 24 GND 25 Select 26 +5Volt 11 X15 11 0.5 A is the maximum current for that pin TME-104P-CSR-LX800-R1V11.doc Rev 1.
3.12 Speaker The speaker signal is located on the IDC10 Header PS/2. A standard PC Speaker can be connected between the signal SPEAKER and VCCKB. Connector type: Matching connector: IDC10 pin header 2.54 mm IDC10 pin female connector 2.54 mm Pin Signal Pin Signal 1 Speaker 2 Mouse Clock 3 Reset-In 4 Mouse Data 5 KB Data 6 KB Clock 7 GND 8 +5 Volt Switched 9 Ext. Battery 10 Power Button (default)/ Reset-In 12 X16 3.
3.14 Reset-In Signal The "Reset-In" signal is located on the IDC10 Header PS/2. To reset the board, the signal "Reset-In" must be pulled to GND. Connector type: Matching connector: IDC10 pin header 2.54 mm IDC10 pin female connector 2.54 mm Pin Signal Pin Signal 1 Speaker 2 Mouse Clock 3 Reset-In 4 Mouse Data 5 KB Data 6 KB Clock 7 GND 8 +5 Volt Switched 9 Ext. Battery 10 Power Button X16 3.
3.17 PC/104-Plus Bus Interface The PC/104-Plus bus is a modification of the standard PCI bus. It allows all of the PC/104 features to be used, together with the high speed PCI bus. The main features are: • PC/104-Plus Bus slot, fully compatible with PCI version 2.2 specifications. • Integrated PCI arbitration interface (32 bit wide, 3.3V). • Translation of PCI cycles to ISA bus. • Translation of ISA master initiated cycle to PCI. • Support for burst read/write from PCI master. • 33 MHz PCI clock.
PC/104 Plus Bus Connector Pin A B C D 1 GND Reserved +5 Volt AD00 2 VI/O AD02 AD01 +5 Volt 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 n.c. C/BE1 AD15 n.c. 9 SERR GND SB0 PAR 10 GND PERR n.c. SDONE 11 STOP n.c. LOCK GND 12 n.c. TRDY GND DEVSEL 13 FRAME GND IRDY n.c. 14 GND AD16 n.c. C/BE2 15 AD18 n.c. AD17 GND 16 AD21 AD20 GND AD19 17 n.c. AD23 AD22 n.c.
3.18 PC/104 Bus Interface The PC/104 bus is a modification of the industry standard (ISA) PC bus specified in IEEE P996. The PC/104 bus has different mechanics than P966 to allow the stacking of modules. The main features are: • Supports programmable extra wait state for ISA cycles • Supports I/O recovery time for back-to-back I/O cycles The following table shows the pin assignment of the PC/104 connector.
3.19 BIOS Recovery Onboard there is a soldered SPI bios connected to an interface of the Super I/O IT8712. Next to the PC104 header is a connector to plug in a recovery bios on the LPC bus. If the system should boot from a connected FWH, the pin 6 "BIOS_DISABLE#" have to push to ground. The mounted SPI BIOS will be disabled for booting activities and can be reprogrammed with a tool running in DOS. To program the SPI flash the FWH can be disconnected after the operation system is loaded successfully.
4 Using the Module 4.1 Watchdog A watchdog timer is integrated on-board and managed with the SMC LEMT functionality. There are different possibilities for its activation. More details can be found in the next chapter where a detailed description of the SMC can be found. A watchdog event is triggered by internal circuit of the ITE8712 Super I/O. It is possible to program the trigger duration, see chapter "Watchdog" for an example. 4.
4.3 BIOS The Cool SpaceRunner-LX800 is delivered with an Insyde Technology XpressROM BIOS. The default settings guarantee a "ready to run" system, even without a BIOS setup backup battery. All setup changes of the BIOS are stored in the CMOS RAM. A copy of the CMOS RAM, excluding date and time, is stored in the flash memory. This means that even if the backup battery runs out of power, the BIOS settings are not lost. Only date and time will be reset to their default value.
BOTTOM A short help text about the selected menu is shown. Field Selection To move between fields in Setup, use the keys listed below: Key à, ß, â, á +, Enter Esc Function Move between fields Selects next/previous values in fields Go to the submenu for the field To previous field then to exit menu In order to save your settings, select Save values and Exit and confirm with Y. Should you want to discard everything, select Exit Without Save.
The Drive Configuration menu allows configuring connected EIDE devices. Here you can turn off the primary (and only) ATA controller, disabling the on-board SSD device and IDE connector, maybe in favor of external hardware. Independently, you can disable all IDE drive support (INT 13) in the BIOS, including the capability to boot from IDE. You can also switch the on-board SSD from primary Master to Slave device.
The Serial and Parallel Device Configurations menu allows configuring COM1, COM2 and LPT. COM-Ports can be switched between RS232 and RS485. It is possible to change the resource and interrupts of all ports. Hard Drive Setting Serial Port 1/2 Options Disabled, 0x3f8 IRQ 4, 0x2f8 IRQ 3, 0x3e8 IRQ4, 0x2e8 IRQ3 Serial Mode RS232, RS485 Parallel Port Disabled, 0x378, 0x278, 0x3BC Parallel Mode Compatible, PS/2 Bi-directional, EPP 1.7, EPP 1.
The Graphics Configuration menu allows setting up different displays and their several functions. Possible options are mentioned in chapter "LVDS Configuration" too. The PCI Configuration menu contents options about PCI interrupts and USB. Here the PCI ports can be assigned to an interrupt. In the USB Settings the different controllers can be selected. Port 4 can be changed to client mode. Note: TME-104P-CSR-LX800-R1V11.doc If you have an external ISA card that needs e.g.
to IRQ 10. System Clock/PLL Configuration lets you define the CPU and PLL settings. Note: TME-104P-CSR-LX800-R1V11.doc CPU Multipliers above 15 (500Mhz) may seriously damage the CPU! Rev 1.
The Power Management menu gives control over supported power down modes. Note: Some Linux versions may require “acpi=force” as a kernel boot parameter to make use of ACPI. Miscellaneous Configuration controls various other features TME-104P-CSR-LX800-R1V11.doc Rev 1.
ISA I/O and Memory Configuration allows setting the board’s ISA memory and I/O map. The DDMA Configuration allows activating ISA DMA for channel 0 to 7. By default the following I/O and Memory Ranges are mapped to ISA and NOT accessible for other devices any more: I/O: Range-0: 100h-17Fh Range-1: 17Fh-1BFh Range-2: 1C0h-1DFh Range-3: 200h-27Fh Range-4: 300h-33Fh Range-5: 340h-35Fh Memory: Range-0: C8000h-CFFFFh Range-1: D0000h-DFFFFh If a PCI device (e.g.
The Boot Order menu specifies the order in which the BIOS tries the various mass memory devices for a bootable operating system. Boot over LAN is also supported. Trouble Shooting BIOS Settings It may happen that the BIOS is configured that the Cool SpaceRunner-LX800 does not start at all. To repair this, the default values of the BIOS can be automatically loaded at boot time. To load these, the power must be switched on and off again within 2 seconds.
4.4 Drivers Software drivers for Ethernet, AES and graphics adapter are available for the Cool SpaceRunner-LX800. These drivers can be downloaded from LiPPERT's website http://www.lippertembedded.com. Follow the installation instructions that come with the drivers. TME-104P-CSR-LX800-R1V11.doc Rev 1.
4.5 Programming Examples The following programming examples are made for a Linux operation system. If other operation systems are used some header files could be unnecessary or they can have different names. The "iopl()" function is a Linux specific one, in Windows XP a tool called "porttalk" can be used instead.
Watchdog Since the Watchdog is disabled in delivery status, it must be set up for proper use. The Watchdog is an internal feature of the ITE8712 Super I/O. If the Watchdog is activated and the timer is not set back within a programmed amount of time, the board does a system reset. The mounted LEMT initialize a hardware reset and turns on the watchdog LED. #include #include #include
Reading Temperatures There are temperature sensors available that allow measurement of the CPU's chip temperature as well as the board's ambient temperature. These are shown in the BIOS setup screens, see above. #include #include #include // needed for inb/outb #define EC_INDEX 0x295 #define EC_DATA 0x296 int main() { signed char cputemp, ambtemp; if (iopl(3)) { // Linux-specific, e.g. DOS doesn't need this printf("Failed to get I/O access permissions.
Reading Voltages The +12/-12V supplies are not used by any on board components, but only forwarded to the PC/104+ and backlight connectors. Still, the voltages on these lines can be monitored in the BIOS Setup (see above) or by an application, as shown here. #include #include // needed for inb/outb #define EC_INDEX 0x295 #define EC_DATA 0x296 int main() { signed int p12V, n12V; if (iopl(3)) { // Linux-specific, e.g. DOS doesn't need this printf("Failed to get I/O access permissions.
5 Address Maps This section describes the layout of the CPU memory and I/O address spaces. Note Depending on enabled or disabled functions in the BIOS, other or more resources may be used 5.
5.2 I/O Address Map The system chipset implements a number of registers in I/O address space.
5.3 Interrupts IRQ System Resource 0 Timer 1 Keyboard 2 (Secondary interrupt controller) 3 Serial port 2 4 Serial port 1 5 PCI INTC# 6 (not used) 7 Parallel port 8 Real-time clock 9 ACPI (Environment controller) 10 PCI INTA# (Graphics, ethernet, AES) 11 PCI INTB# (Misc. CS5536 devices) 12 PS/2 mouse 13 Numeric coprocessor 14 Primary IDE channel 15 PCI INTD# (USB) Note 5.
5.5 PC/104 Bus Address Space The PC/104 bus address space mapping can be changed in the BIOS setup. The table shows the factory default values. None of these ranges is used by any on-board devices so they all may be changed at will.
Appendix A, Contact Information Headquarters LiPPERT Embedded Computers GmbH Hans-Thoma-Straße 11 68163 Mannheim Germany Phone +49 621 43214-0 Fax +49 621 4321430 E-mail sales@lippertembedded.com support@lippertembedded.com Website www.lippertembedded.com US Office LiPPERT Embedded Computers, Inc. 2220 Northmont Parkway Suite 250 Duluth, GA 30096 USA Phone +1 (770) 295 0031 Fax +1 (678) 417 6273 E-mail ussales@lippertembedded.com support@lippertembedded.
Appendix B, Additional Information B.1 Additional Reading AMD Geode™ LX Processors Data Book AMD Geode™ CS5536 Companion Device Data Book Datasheet LPC interface ITE IT8712F, available at http://www.ite.com.tw B.2 PC/104 and PC/104-Plus Specifications A copy of the latest PC/104 and PC104-Plus specifications can be obtained from the PC/104 Consortium's website at www.pc104.org TME-104P-CSR-LX800-R1V11.doc Rev 1.
Appendix C, Getting Help Should you have technical questions that are not covered by the respective manuals, please contact our support department at support@lippertembedded.com . Please allow one working day for an answer! Technical manuals as well as other literature for all LiPPERT products can be found in the Products section of LiPPERT's website www.lippertembedded.com. Simply locate the product in question and follow the link to its manual.
Appendix D, Revision History Filename Date Edited by Change TME-104P-CSR_LX800-R0V1.doc 2008-05-09 CS Draft TME-104P-CSR_LX800-R0V2.doc 2008-05-28 CS Block diagram, wrong USB connector removed TME-104P-CSR_LX800-R0V3.doc 2008-06-05 JR RS485, ISA-Bus, ACPI with Linux, Live-LED, minor changes and typos TME-104P-CSR_LX800-R0V4.doc 2008-07-10 CS Solid State Disk: SST instead of Intel TME-104P-CSR_LX800-R0V5.doc 2008-09-01 CS Changed all BIOS hardcopies TME-104P-CSR_LX800-R0V6.
Filename Date Edited by TME-104-CSR-LX800-R1V11 2011-04-01 MF TME-104P-CSR-LX800-R1V11.doc Rev 1.11 Change Ch.3.
