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1. ized mating A proper mating is further assured by the use of color ness coded keys for 3 3V and 5V operation a Color coded keys prevent inadvertent installation of a 5V peripheral EECH board into a 3 3V slot The CP6000 board is a 5V version Backplane A connectors are always keyed according to the signaling VIO level HE Coding key colors on J1 are defined as follows HE Table 2 24 Coding Key Colors on J1 J3 esse 3 3V i Cadmium Yellow SES 1 Fesses 5V Brilliant Blue 22 sueur Universal board 5V and 3 3V None TEREE To prevent plugging a 5V CP6000 version into a 3 3V VI O backplane J2 sens slot a blue key is installed in J1 as To prevent plugging the CP6000 into an H 110 backplane slot a ER brown key is installed in J4 esse EEEE 25 Eemu J1 Dr Note Pinrows 1 less F and Z are F DBZ GND pins ECA D Page 2 30 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 2 3 15 2 CompactPCI Connectors J1 and J2 Pinouts The CP6000 is provided with two 2 mm x 2 mm pitch female CompactPCI bus connectors J1 Functional Description y
2. Checkpoint Description 33 Initializes the silent boot module Set the window for displaying text information 37 Displaying sign on message CPU information setup key message and any OEM specific information 38 Initializes different devices through DIM See DIM Code Checkpoints section of document for more information 39 Initializes DMAC 1 8 DMAC 2 3A Initialize RTC date time 3B Test for total memory installed in the system Also Check for DEL or ESC keys to limit memory test Display total memory in the system 3C Mid POST initialization of chipset registers 40 Detect different devices Parallel ports serial ports and coprocessor in CPU etc successfully installed in the system and update the BDA EBDA etc 50 Programming the memory hole or any kind of implementation that needs an adjustment in system RAM size if needed 52 Updates CMOS memory size from memory found in memory test Allocates memory for Extended BIOS Data Area from base memory 60 Initializes NUM LOCK status and programs the KBD typematic rate 75 Initialize Int 13 and prepare for IPL detection 78 Initializes IPL devices controlled by BIOS and option ROMs 7A Initializes remaining option ROMs 7C Generate and write contents of ESCD in NVRam 84 Log errors encountered during POST 85 Display errors to the user and gets the user response for error 87 Execut
3. and J2 Table 2 25 CompactPCI Bus Connector J1 System Slot Pinout PIN ROW F ROW A ROW B ROW C ROW D ROWE ROW F 25 GND 5V REQ64 ENUM 3 3V 5V GND 24 GND AD 1 5V V 1 0 AD 0 ACK64 GND 23 GND 3 3V AD 4 AD 3 5V AD 2 GND 22 GND AD 7 GND 3 3V AD 6 AD 5 GND 21 GND 3 3V AD 9 AD 8 M66EN C BE 0 GND 20 GND AD 12 GND V 1 0 AD 11 AD 10 GND 19 GND 3 3V AD 15 AD 14 GND AD 13 GND 18 GND SERR GND 3 3V PAR C BE 1 GND 17 GND 3 3V IPMB SCL IPMB SDA GND PERR GND 16 GND DEVSEL GND V 1 0 STOP LOCK GND 15 GND 3 3V FRAME IRDY GND TRDY GND 12 14 Key Area 11 GND AD 18 AD 17 AD 16 GND CIBE 2H GND 10 GND AD 21 GND 3 3V AD 20 AD 19 GND 9 GND C BE 3 NC AD 23 GND AD 22 GND 8 GND AD 26 GND V 1 0 AD 25 AD 24 GND 7 GND AD 30 AD 29 AD 28 GND AD 27 GND 6 GND REQO GND 3 3V CLKO AD 31 GND 5 GND BRSVP1A5 BRSVP1B5 RST GND GNTO GND 4 GND IPMB PWR GND V 1 0 INTP INTS GND 3 GND INTA INTB INTC 5V INTD GND 2 GND TCK 5V TMS TDO TDI GND 1 GND 5V 12V TRST 12V 5V GND ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 31 Functional Description CP6000 e Table 2 26 CompactPCI Bus Connector J1 Peripheral Slot Pinout 25 GND 5V R ENUM 3 3V 5V GND 24 GND 5V V 1 0 GND 23 GND 3
4. 4 3 47 2 Clearing BIOS CMOS Setup artisans 4 3 ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page v Preface CP m 4 1 3 Shorting Chassis GND Shield to Logic GND 4 14 VGA CRT Rear I O Configuration 4 1 5 Front l and Front II General Purpose LEDS 4 1 6 Serial Ports COM1 and COM2 Jumper and Resistor Settings OT er ea A a nn 4 3 Onboard PCI Interrupt Routing ooooooocccccocccocoocnanonnnnnnnnnnnnnnnnnnononononnannnos 4 4 Memory MA ie es 4 4 1 Memory Map for the 1st Megabyte ooooooooooccccccccccccccccccccinnnananannn nn 4 4 2 I O Address Map 4 5 Special Registers Description AAA 451 IPM COMI E 45 2 Watchdog nan ne da E 4 5 3 Watchdog Trigger iii ai A da 454 Watchdog TIM r A AA 4 5 5 Geographic Addressing Register 2 cccccscccccscccennseanseaeesssrenees 4 5 6 Watchdog CompactPCI Interrupt Configuration Register 4 5 7 CPCI Master Reset aa Seen eee A 459 Board VOI EE e E Ee EE 4 5 11 Hot Swap Control EE 4 5 12 LOGIE VERSION E 4513 LED CONTO eieiei 4 5 14 Hot Swap LED Control EE Chapter 5 OR A E A A E e A ee Chapter 6 Power Consumption E 6 1 Syston PO WO een dede ue Do eo E D Page vi 2005 Kontron Modular C
5. saa SE Tee PS 2 IECH J8 MOUSE amp KEYBOARD SR J10 PS 2 vea SCSI External scsi VHDCI MEE SCSI Internal ALI Mezzanine Mounting holes O Bracket Mounting holes Note The CTM80 2 RIO Module supports USB1 1 protocol Page A A O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 CP6000 EXT SATA y Appendix B CP6000 EXT SATA ID 27942 Rev 05 DW 2005 Kontron Modular Computers GmbH Page B 1 CP6000 EXT SATA m This page has been intentionally left blank Page B 2 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 CP6000 EXT SATA y B CP6000 EXT SATA B 1 Overview The CP6000 EXT SATA module order no CP6000 MK2 5SATA has been designed for use with the CP6000 6U CompactPCI board from Kontron Modular Computers and enables the user to connect an onboard 2 5 Serial ATA hard disk to the CP6000 B 2 Technical Specifications Table B 1 CP6000 EXT SATA Module Main Specifications Board to Board Connectors Two 12 pin male board to board connectors J1 and J3 D Serial ATA Connector One 22 pin Serial ATA connector J2 E Power Con
6. Core 0 956 V 1 180 V 1 116 V 1 484 V 1 340 V 1 356 V 5V 2 3 W 27W 3 5 W 5 8 W 6 7 W 4 0 W 3 3 V 8 5 W 8 4 W 8 4 W 8 4 W 8 4 W 10 4 W Total 10 6 W 11 1 W 11 9 W 14 2 W 15 1 W 13 4 W The Power Consumption using Windows 2000 at 100 CPU Usage was measured at a VGA resolution of 1024X768 Table 6 6 Power Consumption Windows 2000 100 CPU Usage ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Core 0 956 V 1 180 V 1 116 V 1 484 V 1 340 V 1 356 V 5V 4 0 W 5 0 W 45 W 18 5 W 16 5 W 10 1 W 3 3 V 8 5 W 10 6 W 10 6 W 10 6 W 10 6 W 10 8 W Total 12 5 W 15 6 W 15 1 W 29 1 W 27 1 W 21 0 W Page 6 7 Power Consumption CP6000 m The Power Consumption using Windows 2000 3D Mark Benchmark was measured at a VGA resolution of 1024X768 using a high performance VGA application Table 6 7 Power Consumption Windows 2000 3D Mark Benchmark Core 0 956 V 1 180 V 1 116 V 1 484 V 1 340 V 1 356 V 5V 4W 7 0 W 6 5 W 18 2 W 14 2 W 14 9 W 3 3 V 10 6 W 12 9 W 12 4 W 10 9 W 12 1 W 9 5 W Total 14 6 W 19 9 W 18 9 W 29 1 W 26 3 W 24 4 W 6 2 2 Testing Application The Power Consumption using Windows 2000 Intel High Power Tool was measured at a VGA resolution of 1024X768 with the processor running at maximum power consumption no real application Power Consumption Windows 2000 Intel High Power Tool Table 6 8
7. Core 0 956 V 1 180 V 1 116 V 1 484 V 1 340 V 1 356 V 5V 5 5 W 11 3 W 10 2 W 27 2 W 21 3 W 16 5 W 3 3 V 9 3 W 9 5 W 9 5 W 8 4 W 8 4 W 10 0 W Total 13 9 W 20 8 W 19 7 W 35 6 W 29 7 W 26 5 W Note Ss The values in the above table are measured using the Intel High Power Tool X This tool serves only for checking the onboard power supplies and does not represent the power consumption of the CP6000 during normal operation In normal software applications this maximum power consumption level will never be reached 6 2 3 Power Consumption of CP6000 Accessories The following table indicates the power consumption of the CP6000 accessories Table 6 9 Power Consumption Table for CP6000 Accessories 27942 05 UG VC 051020 172758 Keyboard 100 mW DDR SDRAM SODIMM PC2700 DDR333 1 GB 2W 6W DDR SDRAM SODIMM PC2700 DDR333 2 GB 6W 8W CompactFlash 100 mW 300 mW Ethernet Page 6 8 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 CP6000 System Considerations Chapter System Considerations ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 7 1 System Considerations This page has been intentionally left blank Page 7 2 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 System Considerations
8. Note A indicates that the signal normally present at this pin is disconnected from the CompactPCI bus when the CP6000 is inserted in a peripheral slot 2 3 15 3 CompactPCI Rear I O Connectors J3 J5 and Pinouts The CP6000 conducts all I O signals through the rear I O connectors J3 J4 and J5 The CP6000 board provides optional rear I O connectivity for peripherals for special compact sys tems All standard PC interfaces are implemented and assigned to the front panel and to the rear I O connectors J3 and J5 Page 2 34 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description When the rear I O module is used the signals of some of the main board front panel connectors are routed to the module interface Thus the rear UO module makes it much easier to remove the CPU in the rack as there is practically no cabling on the CPU board For the system rear I O feature a special backplane is necessary The CP6000 with rear I O is compatible with all standard 6U CompactPCI passive backplanes with rear I O support on the system slot The CP6000 conducts all I O signals through the rear I O connectors J3 J4 and J5 Table 2 29 CompactPCI Rear 1 0 Connector J3 Pinout 1 GND SPORTS SPO RX SPO DSR SPO DCD D T GND 2 GND SPO RI SPO DTR SPO CTS SPO TX PS2 CL
9. P1 3 3V 3 3V power P2 3 3V 3 3V power P3 3 3V 3 3V power P4 GND Ground signal P5 GND Ground signal P6 GND Ground signal P7 5V 5V power P8 5V 5V power P9 5V 5V power P10 GND Ground signal P11 RES Reserved P12 GND Ground signal P13 NC 12V Not connected P14 NC 12V Not connected P15 NC 12V Not connected Power Segment Key Page B 6 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 AMIBIOS8 Appendix AMIBIOS8 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page C 1 AMIBIOS8 e Page C 2 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 AMIBIOS8 C AMIBIOS8 Attached to this appendix is the original AMIBIOS8 description as modified by Kontron Modular Computers for the CP6000 ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page C 3 AMIBIOS8 e Page C 4 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 American Megatrends CP6000 Setup for AMIBIOS8 MAN EZP 80 07 12 02 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Copyright 2002 American Megatrends Inc All rights reserved American M
10. ATE Backplane HEALTHY Status of board health Backplane BDSEL Status of board select input signal Hot Swap LED Controls the front panel hot swap LED Hot Swap handle Status of hot swap handle Table 2 36 Onboard Power Supply Supervision Power supply power good Status of various onboard supply voltages Hot swap early power good Status of hot swap early supply voltages Hot swap controller Controls the various board input power voltages Table 2 37 Reset Control RTC reset Resets the RTC controller Board reset Resets the complete board Table 2 38 Onboard Voltage Sensors Voltage 5V 1 Board 5V supply Voltage 3 3V 1 Board 3 3V supply Voltage IPMI 1 IPMI supply Voltage 2 5V 1 Memory 2 5V supply Voltage 1 25V 1 Memory 1 25V termination supply Voltage 1 5V 1 Chipset core 1 5V supply Voltage 1 8V 1 Processor 1 8V supply Voltage battery 1 Board RTC battery ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 2 43 Functional Description CP6000 e Table 2 39 Temperature Sensors Processor temperature Current board temperature under processor Board temperature Current board temperature CPU temperature control signal Indicates a CPU overtemperature event DIE temperature Board temperature control signal Indicates a board overtemperature event CPU overtemperature Indicated a catastrophic cooling failure CPU temperature gt 125
11. CTM80 2 RIO Module ID 27942 Rev 05 DW 2005 Kontron Modular Computers GmbH Page A 1 CTM80 2 RIO Module m This page has been intentionally left blank Page A 2 O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 CTM80 2 RIO Module E A CTM80 2 RIO Module A 1 Introduction The CTM80 2 rear I O module is available for use with the CP6000 6U CompactPCI board from Kontron Modular Computers This rear UO module provides comprehensive rear I O function ality There are two different CTM80 2 versions available which have been designed for use both in a PICMG 2 16 and a non PICMG 2 16 environment Everything that can be routed through the front panel may also be routed through the rear I O A particular advantage of the rear I O capability is that there is no cabling on the CPU board which makes it much easier to remove the CPU in the rack The rear I O is installed in the back of the system into the backplane connectors P3 P4 and P5 in line with the CPU board The following figure illustrates the basic board layout including the front panel For further in formation regarding connector pinouts refer to the product s Quick Reference Card ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page A 3 CTM80 2 RIO Module CP6000 e Figure A 1 CTM80 2 RIO Module 4HP Variant 4HP Configuration Oc o ge 2 J6
12. 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration Chapter Configuration ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 4 1 Configuration Page 4 2 This page has been intentionally left blank 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration 4 Configuration 4 1 Jumper Description 41 1 CompactFlash Configuration Table 4 1 CompactFlash Configuration Open Configured for master Closed Configured for slave The default setting is indicated by using italic bold 4 1 2 Clearing BIOS CMOS Setup Ifthe system does not boot due to for example the wrong BIOS configuration or wrong pass word setting the CMOS setting may be cleared using jumper J15 Procedure for clearing CMOS setting The system is booted with the jumper in the new closed position then powered down again The jumper is reset back to the normal position then the system is rebooted again Table 4 2 Clearing BIOS CMOS Setup Open Normal boot using the CMOS settings Closed Clear the CMOS settings and use the default values The default setting is indicated by using italic bold 4 1 3 Shorting Chassis GND Shield to Logic GND The front panel and front panel connectors ar
13. 3 2 CP6000 Initial Installation Procedures The following procedures are applicable only for the initial installation of the CP6000 in a sys tem Procedures for standard removal and hot swap operations are found in their respective chapters To perform an initial installation of the CP6000 in a system proceed as follows 1 Ensure that the safety requirements indicated Chapter 3 1 are observed Warning Failure to comply with the instruction below may cause damage to the board or result in improper system operation 2 Ensure that the board is properly configured for operation in accordance with application requirements before installing For information regarding the configuration of the CP6000 refer to Chapter 4 For the installation of CP6000 specific peripheral devices and rear I O devices refer to the appropriate chapters in Chapter 3 Warning Care must be taken when applying the procedures below to ensure that neither the CP6000 nor other system boards are physically damaged by the application of these procedures 3 To install the CP6000 perform the following 1 Ensure that no power is applied to the system before proceeding Warning When performing the next step DO NOT push the board into the back plane connectors Use the ejector handles to seat the board into the backplane connectors 2 Carefully insert the board into the slot designated by the application requirements for the board until it makes
14. 7 System Considerations The thermal energy dissipation of the new generation of Intel Pentium M processors is less than that of Pentium 4 processors however certain application configurations of the CP6000 require active thermal energy dissipation This requires new technology to ensure that the processor s die temperature is maintained within factory specifications The following chapters provide system integrators with the necessary information to satisfy thermal require ments when implementing CP6000 applications 7 1 Passive Thermal Regulation The thermal management architecture implemented on the CP6000 can be described as being three separate but related functions The goal of all three functions is to protect the processor and reduce processor power consumption Enabling the thermal control circuit allows the pro cessor to maintain a safe operating temperature without the need for special software drivers or interrupt handling routines The three thermal protection functions provided by the processor are 1 Pentium M internal thermal monitor This function controls the processor temperature by modulating the processor core clocks 2 External LM87 thermal monitor This function controls via the processor Stopclock signal the power consumption While asserted it has the effect of stopping the clock to many internal elements of the proces sor 3 Thermtrip In the event of a cooling failure resulting in extr
15. ACPI 2 0 22 ACPI Advanced Configuration 22 ACPI ADVANCED SETTING 22 ACPI Aware O S 21 Add On ROM Display Mode 39 Advanced BIOS Setup 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Allocate IRQ to PCI VGA 34 AML 23 ARMD Emulation Type 16 ATA PI 80 Pin Cable Detection 11 ATAPI CD ROM Drives 37 44 ATAPI CDROM DRIVES 44 B BIOS gt AML ACPI Table 22 Block Multi Sector Transfer 14 Boot Device Priority 37 41 BOOT DEVICE PRIORITY 41 Boot Sector Virus Protection 47 Boot Settings Configuration 38 Boot Up Num Lock 39 C Change Supervisor Password 46 47 CHANGE SUPERVISOR PASSWORD 47 Change User Password 46 47 48 Clear User Password 46 47 48 D Discard Changes 66 DMA 13 15 33 36 DMA Mode 13 15 Drive Parameters 13 Index Kontron Modular Computers GmbH E Erase Old Password 69 71 Exit Discarding Changes 66 Exit Saving Changes 65 ezPORT Password Support 45 ezPORT Setup Menu 2 F FLOPPY CONFIGURATION SCREEN 17 Floppy Configuration Settings 17 Floppy Drive A and B 18 H Hard Disk Drive Write Protect 10 Hard disk drives 37 41 42 Hard Disk Drives 42 HARD DISK DRIVES 42 Headless Mode 23 IDE CONFIGURATION SCREEN 8 9 IDE Configuration Settings 8 9 IDE Detect Time Out Seconds 10 Interrupt 19 Capture 40 IRQ 18 20 34 35 L LBA Large Mode 13 Legacy USB Support 30 31 Load Fail Safe Defaults 68 Load Optimal Defaults 67 N
16. BOOT SETTINGS CONFIGURATION Boot Settings Configuration Use this screen to select options for the Boot Settings Configuration Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below Quick Boot The Optimal and Fail Safe default setting is Enabled Option Description Disabled Set this value to allow the BIOS to perform all POST tests Enabled Set this value to allow the BIOS to skip certain POST tests to boot faster This is the default setting Quiet Boot Set this value to allow the boot up screen options to be modified between POST messages or OEM logo The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to allow the computer system to display the POST messages This is the default setting Enabled Set this value to allow the computer system to display the OEM logo 38 Chapter 5 Boot Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued Add On ROM Display Mode Set this option to display add on ROM read only memory messages The Optimal and Fail Safe default setting is Force BIOS An example of this is a SCSI BIOS or VGA BIOS Option Force BIOS Description Set this value to allow the computer system to force a third party BI
17. Changes EE 66 Exit Men Pa CONTINUO ici ten eee ne de te 2e nuits 67 Load Optimal Default eee ee ee ENEE 67 Exit Menus CONEA acta ta oia 68 Load Fail Safe Defaults cnn nan mena nnnnnnrnannninns 68 Chapter 11 Deleting a Password din 69 Erase Old Password ves o a A e e e e ade 69 Chapter 12 POST Codes 0 a 71 Bootblock Initialization Code Checkpnoints ernn neren neene nne 71 Bootblock Recovery Code Checkpoints ocooocccnccccoccccooccnoncnconnnonncconnnnnnncnnoncnnnnn nn n cnn ran nnna narran 72 POST Goode CMe Ck DOI ts 2e sn ge See ee nee ee eee d ad seed De sn ee 73 POST Code Checkpoints Continue 74 DIM Code Checkpoldts eee ts ia 75 VOX E 77 Preface vii CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intentionally left blank viii Preface CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 1 Starting CP6000 AMIBIOS has been integrated into many motherboards for over a decade In the past people often referred to the AMIBIOS setup menu as BIOS BIOS setup or CMOS setup With the AMIBIOS Setup program you can modify BIOS settings and control the special features of your computer The Setup program uses a number of menus for making changes and turning the special features on or off Kontron refers to this setup as CP6000 This chapter describes the basic navigation of the CP6000 setup screens Starting CP6000 To enter the CP6000 setup screens
18. Navigation 2 3 4 NorthBridge Configuration 50 O OffBoard PCI ISA IDE Card 35 Onboard PCI IDE Controller 8 P Palette Snooping 34 PCI IDE BusMaster 35 PCI Latency Timer 34 PIO Mode 13 14 Plug and Play O S 33 77 CP6000 UG ID 27942 Rev 05 Power Button Mode 63 Power Management APM 63 Primary IDE Master Primary IDE Slave Secondary IDE Master Secondary IDE Slave Third IDE Master Third IDE Slave Fourth IDE Master Fourth IDE Slave 10 Primary Secondary Third and Fourth IDE Master and Slave Settings 12 PRIMARY SECONDARY THIRD AND FOURTH IDE MASTER AND SLAVE SUB MENU 12 PS 2 Mouse Support 39 Q Quick Boot 38 Quiet Boot 38 40 R Remember the Password 45 Remote Access 25 26 27 28 REMOTE ACCESS CONFIGURATION 21 24 27 28 Removable Devices 37 43 REMOVABLE DEVICES 43 Repost Video on S3 Resume 22 Reserved Memory Size 36 RSDT 23 78 Kontron Modular Computers GmbH S S M A R T for Hard disk drives 15 Serial Port Mode 29 Serial Port Number 28 Serial Port1 Address 20 Serial Port2 Address 20 SouthBridge Configuration 51 SOUTHBRIDGE CONFIGURATION 51 SUPER lO CONFIGURATION SCREEN 19 SuperlO Configuration Screen 19 Supervisor Password 46 Suspend Time Out Minute 63 System Time System Date 5 T Two Levels of Password Protection 45 Type 13 45 47 48 U USB Configuration 30 USB CONFIGURATION 30 USB Function 30 User Password 46 Index
19. Watchdog when remains lit during bootup it indicates a power failure e IPMI Control information Gigabit Ethernet status ACT green network activity SPEED green orange network speed General Purpose LEDs green General Purpose or POST code Il green General Purpose or POST code Watchdog Software configurable Watchdog generates IRQ NMI or hardware reset Thermal Management CPU overtemperature protection is provided by e Internal processor temperature control unit CPU shut down via hardware monitor Custom designed heat sinks HW Monitoring System Monitor LM87 hardware monitor for supervision of Several system power voltages e Two fan speed input IPMI 1 5 IMPI compliant Baseboard Management Controller BMC that supports keyboard style and block transfer interfaces The IPMI has been designed to monitor and control All system power voltages The CPU surrounding board temperature Up to two fan speed inputs The hot swap LED The hot swap controller The IPMI supports two DC busses via the J1 and J2 connectors D Page 1 16 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction Software BIOS AMI BIOS with 1 MB of Flash memory and having the following features e QuickBoot e QuietBoot BootBlock LAN boot capability for diskless systems standard Etherboot PXE on d
20. C CPU internal thermal monitor Status of the internal thermal monitor Table 2 40 Fan Sense Sensors Fan sense Fan tachometer input Fan sense Il Fan tachometer input 2 4 4 Data Repositories All the data gathered by the BMC is stored in a non volatile memory providing the possibility to obtain information about working conditions and failure situations Page 2 44 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Installation y Chapter Installation ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 3 1 Installation Page 3 2 This page has been intentionally left blank 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Installation 3 Installation The CP6000 has been designed for easy installation However the following standard precau tions installation procedures and general information must be observed to ensure proper in stallation and to preclude damage to the board other system components or injury to personnel 3 1 Safety Requirements The following safety precautions must be observed when installing or operating the CP6000 Kontron assumes no responsibility for any damage resulting from failure to comply with these requirements Warning Due care should be exercised wh
21. MTRO FD INDEX GND FD FDEDIN FD DENSEL GND 12 GND FD DIRA FD MTR1 GND FD DSELO FD DSEL1 GND 13 GND FD TRKO FD WGATE GND FD WDATA FD STEP GND 14 GND FD DSKCHG FD HDSEL GND FD RDATA FD WRPROT GND 15 GND IDE D6 IDE D8 GND IDE D7 IDE RESET GND 16 GND IDE D4 IDE D10 GND IDE D5 IDE D9 GND 17 GND IDE D2 IDE D12 GND IDE D3 IDE D11 GND 18 GND IDE DO IDE D14 GND IDE D1 IDE D13 GND 19 GND IDE IOR IDE IOW GND IDE REQ IDE D15 GND 20 GND IDE IOCS16 IDE IRQ GND IDE ACK IDE IORDY GND 21 GND IDE A2 IDE A0 GND IDE A1 IDE DIAG GND 22 GND IDE ACT RSV IDE CS1 GND IDE CSO BATT 3 0V GND 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description 2 3 15 4 Rear UO Configuration Rear I O interfaces are only available on the rear I O version of the board Ethernet Interfaces Gigabit Ethernet signals are available on the rear I O interface PICMG 2 16 pinout VGA CRT Interface The VGA signals are available on both rear I O and front I O The 75 ohm termination resistor for the red green and blue video signals are equipped on the CP6000 To enable the rear I O VGA port configure the jumper J23 Note Both VGA ports are electrically identical and can be switched between front and rear by configuring jumper J23 open front closed rear Serial Interfaces COM1 and COM2 Only one interface may be used rear I O or fr
22. Page 2 14 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description 2 3 5 COM Ports The CP6000 provides two COM ports COM1 and COM2 COM1 is available on the front panel as a 9 pin D Sub PC compatible connector and is routed to rear I O COM2 is only available on the rear I O Thus COM1 and COM2 are also available on the CTM80 2 RIO module COM1 and COM2 are fully compatible with the 16550 controller and include a complete set of handshaking and modem control signals maskable interrupt generation and data transfer of up to 460 8 kB s The two COM interfaces may be configured as either RS 232 RS 422 or RS 485 ports by setting the appropriate solder jumpers The standard setting of the two COM ports envisages the RS 232 configuration RS 422 configuration The RS 422 interface uses two differential data lines RX and TX for communication Full Duplex RS 485 configuration The RS 485 interface uses one differential data line It differs from the RS 422 mode in that it provides the ability to transmit and receive over the same wire The RTS signal is used to en able the RS 485 transmitter The following figure and table provide pinout information for the serial port connector J9 which depends on the interface configuration Figure 2 5 Serial Port Con J9 COM1 Table 2 13 Serial Port Con J9 COM1 Pinout ANNE sal
23. SMART for Hard Disk Drives sis 15 Advanced BIOS Setup Continued is 16 32Bit D ta Transferir ia 16 ARMD Emulation Type ve rss Mere nn nn ft E las re atl 16 Advanced BIOS Setup Continued iii 17 FLOPPY CONFIGURATION SCREEN usines 17 Floppy Configuration Settings ccccesecceseeeeeeeeeneeeeneeeeeeeeaeeeeaeeesaeeeeaeeceaeeecaeeeeateseaneseaeeeeas 17 Advanced BIOS Setup Continue 18 Onboard Floppy Controller use 18 Floppy Drive Ar and Bi diia o ii idea 18 Advanced BIOS Setup Continue 19 SUPER IO CONFIGURATION SCREEN 0 2 ccc cccceeeececeeeeeceeeseneeeeseceeeseaeeeeseeeeeseaeessaes 19 SuperlO Configuration Screen sise 19 Preface iii CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued iii 20 Serial POI ele 20 S rlal POrt2 Address nr died te tt 20 Advanced BIOS Setup Continued iii 21 ACPI CONFIGURATION SCREEN Mo A a a a A E a OAN 21 ACPI Aware OS RAO coed seet EE E eebe AE S A A O PE EE E Ee ee 21 Advanced BIOS Setup Continue 22 General ACPI Configuration sise 22 SUSpend MOd EE 22 Repost Video on S3 Resume 22 S4 BIOS Suppott iiig i a ee aa e e EE oa 22 Advanced ACPI Configuration 22 ACPI2 0 F atur EE 22 AGPIAPIGC Sup een GE 22 APIC ACPISC UE EE 22 AMI OEMB TAbl 252 see cco occ A TNA RP AT cid er 22 Advanced BIOS Setup Continue 23 RSDT ER EE 23 AM EE E RE 23 Headless MOG er Dagesrees dE d t dE Maca aches ti de a
24. The goal of this description is to provide a method to calculate the power consumption for the CP6000 baseboard and for additional configurations The Pentium M processor dissipates the majority of the thermal power The power consumption tables below list the voltage and power specifications for the CP6000 board and the CP6000 accessories The values were measured using an 8 slot passive Com pactPCI backplane with two power supplies one for the CPU and the other for the hard disk The operating systems used were DOS and Windows 2000 All measurements were conduct ed at a temperature of 25 C The measured values varied because the power consumption was dependent on processor activity Page 6 6 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Power Consumption l 6 2 1 Real Applications The following tables indicate the power consumption using real applications The power consumption for the DOS was measured with power management not active Table 6 4 Power Consumption DOS Core 0 956 V 1 180 V 1 116 V 1 484 V 1 340 V 1 356 V 5V 4 3 W 9 7 W 74 W 14 3 W 14 2 W 10 2 W 3 3 V 74W 7 9 W 5 8 W 7 9 W 7 9 W 9 9 W Total 11 8 W 17 7 W 13 2 W 22 2 W 22 1 W 20 1 W The Power Consumption using Windows 2000 IDLE Mode was measured at a VGA resolu tion of 1024X768 Table 6 5 Power Consumption Windows 2000 IDLE Mode
25. 051020 172758 CP6000 Introduction CompactPCI Compliant with CompactPCI Specification PICMG 2 0 R 3 0 e System Master operation e 32 bit 33 MHz master interface e 5V compliant 3 3V compliant version optional When the CP6000 is operated in a peripheral slot the CompactPCI bus is elec trically isolated passive mode Rear 1 0 The following interfaces are routed to the rear I O connector J3 J4 and J5 e COM1 and COM2 RS 232 RS 422 and RS 485 signaling no buffer on the rear I O module is necessary 2 x USB 2 0 CRT VGA PS 2 Mouse Keyboard 2 x Gigabit Ethernet compliant with PICMG 2 16 R 1 0 Secondary EIDE ATA 100 2 x SATA 150 General purpose signals PMC rear I O Floppy disk interface Hot Swap Compatible Interfaces The CP6000 supports System Master hot swap functionality and application dependent hot swap functionality when used in a peripheral slot When used as a System Master the CP6000 supports individual clocks for each slot and ENUM signal handling is in compliance with the PICMG 2 1 Hot Swap Specification VGA Built in Intel 3D Graphics accelerator for enhanced graphics performance e Supports resolutions of up to 2048 x 1536 by 16 bit color resolution at a 60 Hz refresh rate or up to 1280 x 1024 by 24 bit color resolution at an 85 Hz refresh rate e Hardware motion compensation for software MPEG2 and MPEG4 decoding e The graphics controller provides flexible allocation o
26. 1 It has a data transfer rate of 4 2 MBs SWDMA2 Set this value to allow the BIOS to use Single Word DMA mode 2 It has a data transfer rate of 8 3 MBs MWDMAO Set this value to allow the BIOS to use Multi Word DMA mode 0 It has a data transfer rate of 4 2 MBs MWDMAI Set this value to allow the BIOS to use Multi Word DMA mode 1 It has a data transfer rate of 13 3 MBs MWDMA2 Set this value to allow the BIOS to use Multi Word DMA mode 2 It has a data transfer rate of 16 6 MBs UDMAO Set this value to allow the BIOS to use Ultra DMA mode 0 It has a data transfer rate of 16 6 MBs It has the same transfer rate as PIO mode 4 and Multi Word DMA mode 2 UDMAI Set this value to allow the BIOS to use Ultra DMA mode 1 It has a data transfer rate of 25 MBs UDMA2 Set this value to allow the BIOS to use Ultra DMA mode 2 It has a data transfer rate of 33 3 MBs UDMA3 Set this value to allow the BIOS to use Ultra DMA mode 3 It has a data transfer rate of 44 4 MBs To use this mode it is required that an 80 conductor ATA cable is used UDMA4 Set this value to allow the BIOS to use Ultra DMA mode 4 It has a data transfer rate of 66 6 MBs To use this mode it is required that an 80 conductor ATA cable is used UDMAS Set this value to allow the BIOS to use Ultra DMA mode 5 It has a data transfer rate of 99 9 MBs To use this mode it is required that an 80 conductor ATA cable is used UDMA6 Set this value to allow the BIOS to use Ultra DMA mode 6
27. 1 0 I O HD data 3 HD3 HD12 HD data 12 1 0 I O HD data 2 HD2 HD13 HD data 13 1 0 I O HD data 1 HD1 HD14 HD data 14 1 0 I O HD data 0 HDO HD15 HD data 15 1 0 Ground signal GND N C DMA request IDEDRQ GND Ground signal O I O write IOW GND Ground signal O I O read IOR GND Ground signal I O channel ready IOCHRDY GND Ground signal O DMA Ack IDEDACKA GND Ground signal Interrupt request IDEIRQ N C O Address 1 A1 ATA66 Detect ATA66 0 Address 0 AU A2 Address 2 0 HD select 0 HCSO HCS1 HD select 1 LED driving LED GND Ground signal 2 3 8 3 CompactFlash Socket To enable flexible flash extension a CompactFlash CF type II socket J17 is available CF is a very small removable mass storage device It provides true IDE functionality compatible with the 16 bit ATA ATAPI 4 interface CF cards are also available for data storage using the Microdrive hard disk from IBM with up to 6 GB capacity The CompactFlash socket is connected to the primary EIDE port and can be set to master or slave The board supports DMA and both CF types type and type II CompactFlash is available in both CF type and CF type II cards The IBM Microdrive is a CF type II card D Page 2 20 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Note Functional Description The following table provides the pinout for the Compact
28. 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface Table of Contents Revisi n HIStory assisen ce NG a aha ene coe oc oe eee Ge cease eases ii OR nn A ii COPIAN E A E ii Table of Contents oo iii LIST OF EE deene ege eege eege ge Ix List Of US Raman sla tus tative Soloed cea eh nou Rond xiii Proprietary e E US EEE E XV Ree XV Environmental Protection Statement ssssmansemienmen onsesanssennmmnmenncantens XV Explanation of Symbols NE Sn A xvi For Your SS iii cds xvii High Voltage Safety Instructions nn nadando a A xvii Special Handling and Unpacking Instructions xvii General Instructions ON Usage oooooononnnnnnconoceconocccnocoooncconanononnnnnononnnnnnnononnnonnnos xviii Two Year Waranty ES Rd ee XIX Chapter 1 1 Introduction 1 1 ere 1 3 1 2 POGGIO E 1 4 1 2 1 Board Introduction en manner near 1 4 1 2 2 Board Specific Information 1 5 1 3 System Expansion Capabilities EE 1 6 13 1 EMO MODES si id dia 1 6 1 3 2 CTMG0 2 Rear VO Module inca ci 1 6 1 3 3 CP6000 EXT SATA Module 22 ccccccceecccecccnsnsensceaesssertseeseeseeeees 1 6 1 4 System Relevant Information oomocomccnnicccccconrrrerener rancia 1 6 E 1 7 1 5 1 Functional Block Diagram 1 7 152 dl AN md no Rae 1 8 1 9 3 BOSE
29. 33 e Two interfaces e Primary EIDE one 44 pin 2 0 mm male pinrow EIDE connector for HDD with CompactFlash card only up to ATA 33 one 50 pin CompactFlash socket e Secondary EIDE one 40 pin 2 54 mm male pinrow EIDE con nector standard and rear I O connector e Up to four devices one CompactFlash and up to three hard disks or CD ROMs Onboard 2 5 hard disk e Onboard 2 5 hard disk is supported on a 44 pin Parallel ATA interface or a 22 pin Serial ATA interface only for standard temperature range e For the Serial ATA interface the CP6000 EXT SATA module is used CompactFlash e CompactFlash type II socket true IDE mode and DMA support e Supports type and Il CompactFlash cards and IBM Microdrive SATA Integrated Serial ATA Host Controllers e Provides independent DMA operation on 2 ports one onboard port which can be routed to rear I O and one additional port only on rear I O e Data transfer rates up to 150 MB s Floppy Disk only with rear I O module e Supports 5 25 or 3 5 floppy drives e 1 44 or 2 88 MB 3 5 floppy disks 1 0 Extension Interface D Page 1 14 1 0 extension interface LPC devices O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Mechanical Introduction 6U 4HP CompactPCI compliant form factor Power Consumption See Chapter 5 for details Temperature Range Operation
30. 34 Signal Rear I O 33 34 Rear I O Signal 35 36 Signal Rear 1 0 35 36 Rear 1 0 Signal 37 38 Ground Rear 1 0 37 38 Rear 1 0 V I O 39 40 Signal Rear 1 0 39 40 Rear 1 0 Signal 41 42 Signal Rear 1 0 41 42 Rear 1 0 Signal 43 44 Ground Rear 1 0 43 44 Rear 1 0 Ground 45 46 Signal Rear I O 45 46 Rear I O Signal 47 48 Signal Rear 1 0 47 48 Rear 1 0 Signal 49 50 Ground Rear 1 0 49 50 Rear 1 0 Ground 51 52 Signal Rear I O 51 52 Rear I O Signal 53 54 Signal Rear 1 0 53 54 Rear 1 0 Signal 55 56 Ground Rear 1 0 55 56 Rear 1 0 V 1 0 57 58 Signal Rear 1 0 57 58 Rear 1 0 Signal 59 60 Signal Rear 1 0 59 60 Rear 1 0 Signal 61 62 Ground Rear 1 0 61 62 Rear 1 0 Ground 63 64 Signal Rear I O 63 64 Rear I O Note K ID 27942 Rev 05 The PMC rear I O signals from Jn4 J27 are routed to CompactPCI connector J4 whose pinout is described later in this chapter 2005 Kontron Modular Computers GmbH Page 2 27 Functional Description CP6000 2 3 14 CompactPCI Interface The CP6000 supports a flexibly configurable hot swap CompactPCI interface In the System Master slot the interface is in the transparent mode and in the peripheral slot the CompactPCl interface is isolated so that it cannot communicate with the CompactPCI bus This mode is known as passive mode 2 3 14 1 System Master Configuration In a system slot the CP6000 can communicate with all other CompactPCI boards through a 32 bit 33MHz interfac
31. 47 48 Signal M66EN 47 48 Signal Signal 49 50 5V Signal 49 50 3 3V Ground 51 52 Signal Signal 51 52 Signal Signal 53 54 Signal 3 3V 53 54 Signal Signal 55 56 Ground Signal 55 56 Ground V 1 0 57 58 Signal Signal 57 58 Signal Signal 59 60 Signal Ground 59 60 Signal Signal 61 62 5V Signal 61 62 3 3V Ground 63 64 Signal Ground 63 64 Signal Note The PMC capabilities are detected using the PCIXCAP and M66EN signals The host controller detects the bus speed via the PICXCAP signal ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description Table 2 23 PMC Connectors J25 and J27 Pinouts C Signal 1 2 Ground Rear 1 0 1 2 Rear 1 0 Ground 3 4 Signal Rear 1 0 3 4 Rear 1 0 Signal 5 6 Signal Rear 1 0 5 6 Rear 1 0 Signal T 8 Ground Rear 1 0 7 8 Rear 1 0 V I O 9 10 Signal Rear 1 0 9 10 Rear UO Signal 11 12 Signal Rear 1 0 11 12 Rear 1 0 Signal 13 14 Ground Rear 1 0 13 14 Rear 1 0 Ground 15 16 Signal Rear I O 15 16 Rear 1 0 Signal 17 18 Signal Rear 1 0 17 18 Rear 1 0 Signal 19 20 Ground Rear 1 0 19 20 Rear 1 0 V 1 0 21 22 Signal Rear 1 0 21 22 Rear 1 0 Signal 23 24 Signal Rear 1 0 23 24 Rear 1 0 Signal 25 26 Ground Rear 1 0 25 26 Rear 1 0 Ground 27 28 Signal Rear 1 0 27 28 Rear 1 0 Signal 29 30 Signal Rear 1 0 29 30 Rear 1 0 Signal 31 32 Ground Rear 1 0 31 32 Rear 1 0 Ground 33
32. AD 40 GND AD 39 GND 11 GND AD 45 GND V 1 0 AD 44 AD 43 GND 10 GND AD 49 AD 48 AD 47 GND AD 46 GND 9 GND AD 52 GND V 1 0 AD 51 AD 50 GND 8 GND AD 56 AD 55 AD 54 GND AD 53 GND 7 GND AD 59 GND V 1 0 AD 58 AD 57 GND 6 GND AD 63 AD 62 AD 61 GND AD 60 GND 5 GND C BE 5 GND V 1 0 C BE 4 4 PAR64 GND 4 GND V I O RSV C BE 7 GND C BE 6 GND 3 GND CLK4 GND GNT3 REQ4 GNT4 GND 2 GND CLK2 CLK3 SYSEN GNT2 REQ3 GND 1 GND CLK1 GND REQ1 GNT1 REQ2 GND Note The 64 bit CompactPCI signals are not supported but all 64 control signals are ter minated to V I O ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 2 33 Functional Description CP6000 GND GA4 GA3 GA2 GA1 GAO GND 21 GND pe GND RSV RSV RSV GND 20 GND GND RSV GND RSV GND 19 GND GND GND RSV RSV RSV GND 18 GND BRSVP2A18 BRSVP2B18 BRSVP2C18 GND BRSVP2E18 GND 17 GND BRSVP2A17 GND PRST S S GND 16 GND BRSVP2A16 BRSVP2B16 DEG GND BRSVP2E16 GND 15 GND BRSVP2A15 GND FAL i GND 14 GND GND GND 13 GND GND V 1 0 GND 12 GND GND GND 11 GND GND V 1 0 R R GND 10 GND R S i GND j GND 9 GND GND V 1 0 S GND 8 GND j R R GND i GND 7 GND R GND V 1 0 i GND 6 GND R R S GND GND 5 GND i GND V 1 0 R GND 4 GND V 1 0 BRSVP2B4 KR GND GND 3 GND S GND i GND 2 GND SYSEN S GND 1 GND GND GND
33. Backplane Backplanes to be used with the CP6000 must be adequately specified The backplane must provide optimal power distribution for the 3 3 V 5 V and 12 V power inputs It is recom mended to use only backplanes which have two power planes for the 3 3 V and 5 V voltages Input power connections to the backplane itself should be carefully specified to ensure a mini mum of power loss and to guarantee operational stability Long input lines under dimensioned cabling or bridges high resistance connections etc must be avoided It is recommended to use POSITRONIC or M type connector backplanes and power supplies where possible 6 1 3 Power Supply Units Power supplies for the CP6000 must be specified with enough reserve for the remaining sys tem consumption In order to guarantee a stable functionality of the system it is recommended to provide more power than the system requires An industrial power supply unit should be able to provide at least twice as much power as the entire system requires An ATX power supply unit should be able to provide at least three times as much power as the entire system requires As the design of the CP6000 has been optimized for minimal power consumption the power supply unit shall be stable even without minimum load Where possible power supplies which support voltage sensing should be used Depending on the system configuration this may require an appropriate backplane The power supply should be suf
34. CPCI Master Reset Register 0x285 0 CRST 0 Disable the reset routing from the CompactPCI interface 1 Enable the reset routing from the CompactPCI interface Reserved Reserved Reserved Reserved Reserved NN OD N Reserved D Page 4 18 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration 4 5 8 UO Status The I O status register describes the local and CompactPCI control signals The watchdog status bit indicates the status of the watchdog timer If the timer is not retriggered within the previously set time period the bit is set to 0 and the watchdog LED lights The fail signal is an output of the power supply and indicates a power supply failure For the description of the derate and enumeration signals please see the interrupt routing register Table 4 22 I O Status Register RE EF I O Status Register 0x286 0 i CDER 0 jj Indicates power derating CPCI DEG signal 1 Power normal 1 CFAIL 0 Indicates a power supply failure CPCI FAIL signal 1 Power normal 2 CENUM 0 Indicates the insertion or removal of a hot swap system board CPCI ENUM 1 No hot swap event 3 CSLOT 0 Indicates that the board is installed in a system slot 1 Indicates that the board is installed in a peripheral slot 4 0 Reserved 5 0 Reserved
35. Computers GmbH Page 2 29 Functional Description CP6000 r 2 3 15 CompactPCI Bus Connector Figure 2 14 CompactPCI Connectors J1 J5 22 The complete CompactPCI connector configuration comprises five connectors named J1 to J5 Their functions are as follows e J1 J2 32 bit CompactPCI interface with PCI bus signals arbi tration clock and power e J3 J4 and J5 have rear I O interface functionality e J4 only has optional rear I O functionality from the PMC module The CP6000 is designed for a CompactPCI bus architecture The CompactPCI standard is electrically identical to the PCI local bus 25 However these systems are enhanced to operate in rugged industrial environments and to support multiple slots J5 Co Co en mn Cm ns 1 mL nn fm Cm LC Cm fm o CC Cm a mn a Cas Cons Con ma Em mu mu ma Cm Cm om Y Cm Cm Cm Lo Cm Ca Cm Cm CC Cm Cm Cm Cm Cm a mm mm mm em Ln Cm mL o Y Cm Lo Lo o o oo mm om 2 3 15 1 CompactPCI Connector Keying J4 CompactPCI connectors support guide lugs to ensure a correct polar
36. GND Ground signal 2 5V 5V power 3 GND Ground signal 4 5V 5V power 5 GND Ground signal 6 5V 5V power 7 GND Ground signal 8 5V 5V power 9 GND Ground signal 10 5V 5V power 11 GND Ground signal 12 5V 5V power O 2005 Kontron Modular Computers GmbH Page 2 23 CP6000 Functional Description Figure 2 12 Connecting an Onboard 2 5 SATA HDD to CP6000 EXT SATA CP6000 EXT SATA Module 2 5 Serial ATA HDD 8G C11 0C01GO DA OT GO Cl D ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 24 27942 05 UG VC 051020 172758 CP6000 Functional Description 2 3 13 PMC Interface For flexible and easy configuration one onboard PMC socket is available The Jn1 and Jn2 con nectors provide the signals for the 32 bit PCI Bus The 64 bit extension for the PMC interface is supported by the Jn3 connector User defined I O signals are supported Jn4 and are con nected to the CompactPCI rear I O connector J4 This interface has been designed to comply with the IEEEP 1386 1 specification which defines a PCI electrical interface for the CMC Common Mezzanine Card form factor The CP6000 provides only 3 3V PMC PCI signaling environment Figure 2 13 PMC Connectors J25 J26 J27 and J28 1 2 1 2 J26 J28 Jn1 Jn2 63 64 63 64 J25 J27 Jn3 Jn4 63 64 63 64 The PMC interface supports the following configurations Table 2 21 Onboard PCI Configuration SIZE SPEED INTERFACE 32 bit 33 M
37. Hit DEL message will not display Enabled This allows the CP6000 to display Hit Del to enter Setup during memory initialization This is the default setting Interrupt 19 Capture Set this value to allow option ROMs such as network controllers to trap BIOS interrupt 19 The Optimal and Fail Safe default setting is Disabled Option Description Disabled The BIOS prevents option ROMs from trapping interrupt 19 This is the default setting Enabled The BIOS allows option ROMs to trap interrupt 19 40 Chapter 5 Boot Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued BOOT DEVICE PRIORITY Boot Device Priority Use this screen to specify the order in which the system checks for the device to boot from To access this screen select Boot Device Priority on the Boot Setup screen and press lt Enter gt The following screen displays BIOS SETUP UTILITY 1st Boot Device Removable Deu 1 Boot Device 2 Boot Device 3 Boot Device Set the boot device options to determine the sequence in which the computer checks which device to boot from The settings are Removable Dev Hard Drive or ATAPI CDROM The Optimal and Fail Safe default settings are e 1 boot device Removable Device e 2 boot device Hard Drive e 3 boot device ATAPI CDROM To change the boot order select a boot category type such as Hard disk drives Removable media or ATA
38. In order to maintain Kontron s product warranty this product must not be altered or modified in any way Changes or modifications to the device which are not explicitly approved by Kontron Modular Computers GmbH and described in this manual or received from Kontron s Technical Support as a special handling instruction will void your warranty This device should only be installed in or connected to systems that fulfill all necessary technical and specific environmental requirements This applies also to the operational temperature range of the specific board version which must not be exceeded If batteries are present their temperature restrictions must be taken into account In performing all necessary installation and application operations please follow only the instructions supplied by the present manual Keep all the original packaging material for future storage or warranty shipments If it is necessary to store or ship the board please re pack it as nearly as possible in the manner in which it was delivered Special care is necessary when handling or unpacking the product Please consult the special handling and unpacking instruction on the previous page of this manual D Page xviii 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface y Two Year Warranty Kontron Modular Computers GmbH grants the original purchaser of Kontron s products a Tw
39. It has a data transfer rate of 133 2 MBs To use this mode it is required that an 80 conductor ATA cable is used S M A R T for Hard Disk Drives Self Monitoring Analysis and Reporting Technology SMART feature can help predict impending drive failures The Optimal and Fail Safe default setting is Auto Option Description Auto Set this value to allow the BIOS to auto detect hard disk drive support Use this setting if the IDE disk drive support cannot be determined This is the default setting Disabled Set this value to prevent the BIOS from using the SMART feature Enabled Set this value to allow the BIOS to use the SMART feature on support hard disk drives Chapter 3 Advanced BIOS Setup 15 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued 32Bit Data Transfer This option sets the 32 bit data transfer option The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to prevent the BIOS from using 32 bit data transfers This is the default setting Enabled Set this value to allow the BIOS to use 32 bit data transfers on support hard disk drives ARMD Emulation Type ATAPI Removable Media Device ARMD is a device that uses removable media such as the LS120 MO Magneto Optical or Iomega Zip drives If you want to boot up from media on an ARMD it is required that you emulate boot
40. RS 422 RS 485 1 DCD eg NC 2 RXD NC NC i b 3 TXD TXD TRXD 4 DTR NC NC 5 GND GND GND 8 6 DSR RXD NC 7 RTS NC NC 8 CTS TXD TRXD 9 RIN NC NC 2 3 6 Floppy Drive Interface The onboard floppy disk controller supports either 5 25 inch or 3 5 inch 1 44 or 2 88 MB floppy disks The floppy disk port is only available on the CompactPCI rear I O interface DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 15 Functional Description CP6000 2 3 7 Gigabit Ethernet Figure 2 6 Dual Gigabit Ethernet The CP6000 board includes up to four 10Base T Connector J6A B 100Base TX 1000Base T Ethernet ports based on the Intel 82546GB Gigabit Ethernet PCI X Controller which is connected to the PCI X interface J6B The Intel 82546GB Dual Gigabit Ethernet Controller 1 architecture is optimized to deliver high performance with the lowest power consumption The controller s architecture includes independent transmit and re J6A ceive queues to limit PCI bus traffic and a PCI X inter 1 face that maximizes the use of bursts for efficient bus usage ACT SPEED ACT SPEED The Boot from LAN feature is supported a Note The maximum length of cabling over which the Ethernet transmission can oper ate effectively depends upon the transceiver in use The Ethernet connectors are realized as RJ45 connectors The interfaces provide automatic detection and switch
41. Select Security Setup from the CP6000 Setup main BIOS setup menu All Security Setup options such as password protection and virus protection are described in this section To access the sub menu for the following items select the item and press lt Enter gt e Change Supervisor Password e Change User Password e Clear User Password The Security Setup screen is shown below The sub menus are documented on the following pages BIOS SETUP UTILITY Change User Passuord Enter New Passuord ESS Supervisor Password Indicates whether a supervisor password has been set Ifthe password has been installed Installed displays If not Not Installed displays User Password Indicates whether a user password has been set Ifthe password has been installed Installed displays If not Not Installed displays 46 Chapter 6 Security Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Security Setup Continued Change Supervisor Password Select this option and press lt Enter gt to access the sub menu You can use the sub menu to change the supervisor password Change User Password Select this option and press lt Enter gt to access the sub menu You can use the sub menu to change the user password Clear User Password Select this option and press lt Enter gt to access the sub menu You can use the sub menu to clear the user password Boot Sector Virus Protection This option is near the bottom of the Securi
42. a hub link interface to the 6300ESB and high performance internal graphics Graphics and Memory Controller Hub Feature Set Host Interface The 855GME is optimized for the Intel Pentium M microprocessors The chipset supports a Processor Side Bus PSB frequency of 400 MHz using 1 05 V AGTL signalling Single ended AGTL termination is supported for single processor configurations The AGTL bus supports 32 bit host addressing for decoding up to 4 GB memory address space System Memory Interface The 855GME integrates a system memory Dual Data Rate DDR SDRAM controller with a 72 bit wide interface including ECC bits The chipset supports DDR200 DDR266 and DDR333 PC1600 PC2100 and PC2700 DDR SDRAM for system memory The best memory speed for the CP6000 is DDR333 PC2700 855GME Graphics Controller The 855GME includes a highly integrated graphics accelerator and H W Motion Compensation engines for software MPEG2 decoding delivering high performance 3D and 2D video capabil ities The internal graphics controller provides an interface for a standard CRT display 2 1 5 UO Controller Hub 6300ESB The 6300ESB is a highly integrated multifunctional I O Controller Hub that provides the inter face to the PCI and PCI X Bus and integrates many of the functions needed in today s PC plat forms such as Ultra DMA 100 66 33 controller SATA 150 USB host controller supporting USB 2 0 LPC interface and FWH Flash BIOS interface controller The 63
43. all times Please read also the section Special Handling and Unpacking Instructions on the following page Warning 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 material Note This symbol and title emphasize aspects the reader should read through carefully for his or her own advantage O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface Your new Kontron 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 the life expectancy of your product can be drastically reduced by improper treatment during unpacking and installation Therefore in the interest of your own safety and of the correct operation of your new Kontron product you are requested to conform with the following guidelines For Your Safety High Voltage Safety Instructions Warning All operations on this device must be carried out by sufficiently skilled personnel only Caution Electric Shock Before installing your new Kontron product into a system always ensure that your mains power is switched off This applies also to the installation of piggybacks Serious electrical shock hazards can exist
44. and use 3F8 as its I O port address and IRQ 4 for its interrupt address This requires that the Serial Port2 Address be set to Disabled or another base I O port address and Interrupt Request address 3E8 IRQ4 Set this value to allow the serial port to use 3E8 as its I O port address and IRQ 4 for the interrupt address If the system will not use a serial device it is best to set this port to Disabled 2E8 IRQ3 Set this value to allow the serial port to use 2E8 as its I O port address and IRQ 3 for the interrupt address If the system will not use a serial device it is best to set this port to Disabled Cont d 20 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued ACPI CONFIGURATION SCREEN Select the ACPI Configuration Menu to enter the ACPI BIOS Setup screen You can select General ACPI Configuration or Advanced ACPI Configuration in the left frame of the screen to go to the sub menus for that item You can display an ACPI BIOS Setup option by highlighting it using the lt Arrow gt keys All ACPI BIOS Setup options are described in this section The ACPI BIOS Setup screen is shown below v02 53 ACPI Aware O S Set this value to allow the system to utilize the Intel ACPI Advanced Configuration and Power Interface specification The Optimal and Fail Safe default setting is Yes Option Description No This setting should be set
45. computer system to enter suspend mode after being inactive for 1 minute 5Min Set this value to allow the computer system to enter suspend mode after being inactive for 5 minutes 10Min Set this value to allow the computer system to enter suspend mode after being inactive for 10 minutes Power Button Mode This option specifies how the externally mounted power button on the front of the computer chassis is used The Optimal and Fail Safe default setting is On Off Option Description On Off Pushing the power button turns the computer on or off This is the default setting This is the default setting Suspend Pushing the power button places the computer in Suspend mode or Full On power mode Chapter 9 Power Setup 63 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Power Setup Continued USB Controller Resume USB wake from sleep state PME Resume PME Power Management Event wake form sleep states RI Resume Ring Indicator wake form sleep states 64 Chapter 9 Power Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 10 Exit Menu Select the Exit tab from the CP6000 setup screen to enter the Exit BIOS Setup screen You can display an Exit BIOS Setup option by highlighting it using the lt Arrow gt keys All Exit BIOS Setup options are described in this section The Exit BIOS Setup screen is shown below cu S amixx AMIBCP simulate exe BIOS SETUP UT
46. during all installation repair and maintenance operations with this product Therefore always unplug the power cable and any other cables which provide external voltages before performing work Special Handling and Unpacking Instructions ESD Sensitive Device Electronic boards and their components are sensitive to static elec tricity Therefore care must be taken during all handling operations and inspections of this product in order to ensure product integrity at all times Do not handle this product out of its protective enclosure while it is not used for operational purposes unless it is otherwise protected Whenever possible unpack or pack this product only at EOS ESD safe work stations Where a safe work station is not guaranteed it is important for the user to be electrically discharged before touching the product with his her hands or tools This is most easily done by touching a metal part of your system housing It is particularly important to observe standard anti static precautions when changing piggy backs ROM devices jumper settings etc If the product contains batteries for RTC or memory backup ensure that the board is not placed on conductive surfaces including anti static plas tics or sponges They can cause short circuits and damage the batteries or conductive circuits on the board ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page xvii Preface CP6000 e General Instructions on Usage
47. epee e ee eee eS iii Chapter 1 El e Deg AA PA 1 Starting CPOOOO ua lt Pt eh ve se vee vee es ce ess Ms de 1 CP6000 Setup Melvin died 2 Navigation ne er oi 2 Navigation ee UI DEE 3 Navigation Continued iienaa ee asada 4 Chapter 2 Mad a ee ee 5 System Time System Date iii 5 Chapter 3 e UR E TT ler A liner anses 7 Advanced BIOS Setup et hai ANEREN 8 CPU CONFIGURATION SCREEN seine 8 CPU Configuration Settings sense 8 plett geseet ts te na ete 8 Advanced BIOS Setup EE 9 IDE CONFIGURATION SCREEN siennes 9 IDE Configuration Settings 9 IIe lut Ee EE 9 Advanced BIOS S tup Continued ns EENS 10 Primary Secondary Third and Fourth IDE Master and Glave 10 Hard Disk Drive Write Protect nono n ono n nono non nnnnnnnnnnnnnnnnnns 10 IDE Detect Time Out Seconds 10 Advanced BIOS Setup Continued iii 11 ATA PI 80 Pin Cable Detection 11 Advanced BIOS Setup Continued iii 12 PRIMARY SECONDARY THIRD AND FOURTH IDE MASTER AND SLAVE SUB MENU 12 Primary Secondary Third and Fourth IDE Master and Slave Geitngs 12 Advanced BIOS Setup Continued issus 13 Drive Parameters AE E E A A A seach en es frise tte nid br dias 13 IMPR ege ani nent col ria Mn ue den 13 LBA Large Mode cnica reed rire ren rar riens 13 Advanced BIOS Setup Continued iii 14 Block Multi Sector Transfer 14 PIO Modes een ain eet e at eh Bete nied E het ME od Ce A a Me ae te 14 Advanced BIOS Setup Continued iii 15 DMAMO de i tienne A a een TR a 15
48. exchange the battery after 4 5 years 3 5 5 Hard Disk Installation The following information pertains to hard disks which may be connected to the CP6000 via normal cabling To install a hard disk it is necessary to perform the following operations in the given order 1 Install the hardware Warning The incorrect connection of power or data cables may damage your hard disk unit and or CP6000 board Page 3 8 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 D Installation Note ATA 66 and ATA 100 are faster timings and require a specialized cable which has additional grounding wires to reduce reflections noise and inductive coupling This cable will also support all legacy IDE drives The blue end of the ATA 100 cable must connect to the motherboard the gray connector to the UltraDMA 100 slave device and the black connector to the UltraDMA 100 master device Some symptoms of incorrectly installed HDDs are e Hard disk drives are not auto detected may be a Master Slave problem or a bad IDE cable Contact your vendor e Hard Disk Drive Fail message at bootup may be a bad cable or lack of power going to the drive e No video on bootup usually means the cable is installed backwards e Hard drive lights are constantly on usually means bad IDE cable or defective drives motherboard Try another HDD e Hard drives do n
49. for BIOS Memory Extension CompactFlash socket type II true IDE mode Serial EEPROM e 24LC64 64 kbit O 2005 Kontron Modular Computers GmbH Page 1 11 Introduction Table 1 2 CP6000 4HP Version Main Specifications Continued E Intel 855GME Chipset Intel 855GME Graphics Memory Controller Hub GMCH e Support for a single Pentium M microprocessor ECC Integrated 2D and 3D Graphics Engines e Integrated H W Motion Compensation Engine e Integrated 350 MHz DAC e 64 bit AGTL AGTL based System Bus interface at 400 MHz e 64 bit System Memory interface with optimized support for DDR333 PC2700 SDRAM memory with ECC additional 8 bits for CP6000 Intel 6300ESB Chipset Chipsets D Page 1 12 Intel 6300ESB UO Controller Hub e Power management logic support e Integrated IDE controller Ultra ATA 100 66 33 e Dual Channel SATA 150 CP6000 vices e Low Pin Count LPC interface e Firmware Hub FWH interface support 2005 Kontron Modular Computers GmbH e PCI X Rev 1 0 with support for 64 bit 66 MHz PCI X operations e PCI Rev 2 2 compliant with support for 32 bit 33 MHz PCI operations Enhanced DMA controller interrupt controller and timer functions e USB 2 0 host interface with up to four USB ports available on the e System Management Bus SMBus compatible with most ICT de ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC
50. for the Super I O settings Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below Serial Porti Address SF8 TRQ4 Chapter 3 Advanced BIOS Setup 19 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued Serial Portl Address This option specifies the base 1 O port address and Interrupt Request address of serial port 1 The Optimal setting is 3FS IRO4 The Fail Safe default setting is Disabled Option Description Disabled Set this value to prevent the serial port from accessing any system resources When this option is set to Disabled the serial port physically becomes unavailable 3F8 IRQ4 Set this value to allow the serial port to use 3F8 as its I O port address and IRQ 4 for the interrupt address This is the default setting The majority of serial port 1 or COMI ports on computer systems use IRQ4 and I O Port 3F8 as the standard setting The most common serial device connected to this port is a mouse If the system will not use a serial device it is best to set this port to Disabled 2F8 IRQ3 Set this value to allow the serial port to use 2F8 as its I O port address and IRQ 3 for the interrupt address If the system will not use a serial device it is best to set this port to Disabled 3E8 IRQ4 Set this value
51. ie tisane d e E dinde tarot Eder 39 PS 2 Mouse Support Nee 39 Wait for Far it Eric nn teint ees mee en a D tab 39 Boot Setup Continu d eer tege degen ei eesti acest A0 Hit DEL Messag Display main Eder dire dore ie nie ee 40 Interrupt 19 Capture rent zee sees cached esha eves A er RE at ede tens 40 BootiSetup Gontinu d 2 218 11 vee hee fig dee idas 41 BOOT DEVICE PRIORI Y oia die he testis ARR LA ace wes Wed ees Gack wees ec ded det due 41 Boot Device Priority eier here a dates rein Ten Patent DUR a ane Pt 41 Ka o a DIES 0 OR RS RIA 41 ROO BEE 41 Ka EE 41 Boot Setup Continued geed et gd 42 HARD DISK DRIVES sms nue ad didas 42 Hard Disk Drives gege dee asie td 42 Boot Setup Oppel iia ida 43 REMOVABLE DEVICES hu chs he tdt cab Gale lia 43 Removable D vic s isiriireedinenanerenmersmeenntiteesetentenese fant eluettaencebene i nsn tance tar ocean ans 43 Boot Set p Continued iii it 44 CD DVD DRIVES EE 44 CD DVD DIVES ete 44 Chapter 6 Security Setup iii ii read 45 CP6000 Password Support eee 45 Two Levels of Password Protection 0ceesseeesneenseeaeeeceeeeceeeseeceeeececeeeeceeeeceeeseeeeeeeess 45 Remember the Password inicia cdas 45 Security Setup Continued sise 46 Supervisor Password Auen 46 User Pass Wo Eege 46 Security Setup Continued een 47 Preface v CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Change Supervisor Password 47 Change User Password siennes 47 Cl
52. if the operating system in use does not comply with the ACPI Advanced Configuration and Power Interface specification DOS Windows 3 x and Windows NT are examples of non ACPI aware operating systems Yes This setting should be set if the operating system complies with the ACPI Advanced Configuration and Power Interface specification This is the default setting Windows 95 Windows 98 and Windows 2000 are examples of ACPI aware operating systems Chapter 3 Advanced BIOS Setup 21 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued General ACPI Configuration Suspend Mode Select the ACPI state used for System Suspend Repost Video on S3 Resume Set this value to allow video repost support Option Description No This setting prevents the video BIOS to be initialized coming out of the S3 state Yes This setting allows the video BIOS to be initialized coming out of the S3 state Some video controllers require this option to be enabled This is the default setting Note In some cases the ACPI Setup screen will not appear even if the BIOS supports the Advanced Configuration and Power Interface ACPT S4 BIOS Support Enable S4BIOS support if S4 Hibernation is not supported by OS Advanced ACPI Configuration You can use this screen to select options for the ACPI Advanced Configuration Settings Use the up and down lt Arrow gt keys to selec
53. in the BIOS whereby the default value is disabled There are two independent and isolated thermal sensors in the Pentium M processor One is the on die thermal diode The other is the temperature sensor used for the Thermal Monitor and for Thermtrip The measured temperature of both sensors can vary significantly whereby the temperature of the external measured on die sensors is always lower When the external thermal control circuit has been enabled and a high temperature situation occurs the front panel TH LED will be switched on and the external Stopclock signal of the processor will be modulated by alternately turning the clocks off and on at a duty cycle specified in the BIOS 12 5 75 and the processor power dissipation will be reduced The thermal control circuit does not automatically go inactive once the temperature goes below the selected external thermal supervision point Explicit software action is necessary to switch back to normal mode Note The duty cycle and the external thermal supervision point can be configured in the BIOS For all Mobile Pentium M processor the default external thermal supervision point is 100 C 7 1 3 CPU Emergency Thermal Supervision This function cannot be enabled or disabled in the BIOS It is always enabled to ensure that the processor is protected in any event Assertion of Thermtrip indicates that the processor junction temperature has reached a level beyond which perma
54. keyboard Press the lt Tab gt key or the lt Arrow gt keys to move between fields The date must be entered in MM DD YY format The time is entered in HH MM SS format Note The time is in 24 hour format For example 5 30 A M appears as 05 30 00 and 5 30 P M as 17 30 00 Chapter 2 Main Setup 5 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intentionally left blank 6 Chapter 2 Main Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 3 Advanced BIOS Setup Select the Advanced tab from the CP6000 setup screen to enter the Advanced BIOS Setup screen You can select any of the items in the left frame of the screen such as SuperlO Configuration to go to the sub menu for that item You can display an Advanced BIOS Setup option by highlighting it using the lt Arrow gt keys All Advanced BIOS Setup options are described in this section The Advanced BIOS Setup screen is shown below The sub menus are described on the following pages CPU Configuration Chapter 3 Advanced BIOS Setup 7 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup CPU CONFIGURATION SCREEN CPU Configuration Settings Vou can use this screen for Board information or to select the Intel Speed Step options Use the lt Plus gt and lt Minus gt keys to change the value of the selected option A description of the item appears on the right side of the screen Th
55. of ce seet 23 Advanced BIOS Setup Continued sisi 24 EVENT LOG CONFIGURATION SCREEN iii 24 VIEW EVOnt LOG coria ilatina 24 Mark all events aeteagd coordinando diana didas 24 Clear Event Log eege ZENNER deed dd 24 SE Re le e Une imc mr Amine nm entente tb 24 Advanced BIOS Setup Continued is 25 IPMI 1 5 CONFIGURATION GCHREEN inin a A A N TA 25 IMN Configuration da 25 IPMC Watchdog Timer Action 25 IPMC Watchdog Time Out 25 Advanced BIOS Setup Continued iii 26 KGES2SMS ARQ rh e a 26 Dual Port IPMB ReGunidaney 22081 Sek eek cscs iria a tnad adia gai ias 26 Management Controller Configuration c ceccceeseceeseceeeeeeeneeceaeeceaeeeeaeeeeaeeseaeeeeaeeeeaeeeaeeeaas 26 Advanced BIOS Setup Continued is 27 SMBIOS CONFIGURATION SCREEN iii iii 27 SMBIOS GonfiguratiOn dde 27 SMBIOS SMI Support rer ee eh mere nr eels ie 27 Advanced BIOS Setup Continued iii 28 REMOTE ACCESS CONFIGURATION SCREEN us 28 Remote Access Configuration 28 Remote ACCESS tii ia Mises el rien AE E men late AI nn tee esta la anale 28 Seal LOEN DTNA OI EEA EEEE AAA T aida 28 Advanced BIOS Setup Continued is 29 Serial POMO A ras tee cale auth dr 29 FIOW Control 2 f sheet dd 29 Redirection After BIOS POS Tic isla 29 Terminal Ty Pee ees rhin A A A ib 29 VT UTF8 Combo Key Support sien 29 Advanced BIOS Setup Continued iii 30 USB CONFIGURATION GCHREEN moon nnnonnnonnnnnnnnnnonenenon
56. period either the system does not support hot swap or a malfunction has occurred In this event the application is responsible for handling this situation and must provide the operator with appropriate guidance to remedy the situation 3 After approximately 1 to 15 seconds the blue HS LED should light up If the LED lights up proceed with the next step of this procedure Ifthe LED does not light up refer to ap propriate application documentation for further action Disconnect any interfacing cables that may be connected to the board Unscrew the front panel retaining screws oa E Warning Due care should be exercised when handling the board due to the fact that the heat sink can get very hot Do not touch the heat sink when changing the board 6 Using the ejector handles disengage the board from the backplane and carefully remove it from the system Dispose of the old board as required observing the safety requirements indicated in Chapter 3 1 Y D Page 3 6 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Installation e 8 Obtain the replacement CP6000 board E 9 Carefully insert the new board into the old board slot until it makes contact with the backplane connectors Warning When performing the next step DO NOT push the board into the back plane connectors Use the ejector handles to seat the boa
57. supports a temperature control feature In instances of overtem perature the hardware monitor will reduce the processor clock speed to reduce power consumption The maximum case temperatures for both processor types is a follows e Pentium M all versions 100 C e Celeron M all versions 100 C In addition to the Pentium M processor the two Gigabit Ethernet controllers need protection against overheating to provide a reliable operation of the CP6000 at operating temperatures up to 85 C The two Gigabit Ethernet controllers must be connected to the heat sink to ensure that sufficient heat is absorbed from them For the standard temperature range 0 C to 60 C the standard heat sink can be used whereas the CP6000 for extended temperature range 40 C to 85 C requires a larger heat sink with connection to the Ethernet controller E Warning If the CP6000 is operating at a higher temperature than 70 C and not suffi cient airflow is available the performance of the Dual Ethernet controller must be reduced either by connecting only one Gigabit Ethernet interface to the con troller one on the front and one on the rear or by reducing the transfer rate to Fast Ethernet 100 Base TX Failure to comply with the above may result in damage to your board In order to disable the Ethernet Port the cable must be removed If the Ethernet Port is connected to the receiver it requires the same power regardless of whe
58. that supports 48 bit LBA mode Option Description Disabled Set this value to prevent the BIOS from using Large Block Addressing mode control on the specified channel Auto Set this value to allow the BIOS to auto detect the Large Block Addressing mode control on the specified channel This is the default setting Chapter 3 Advanced BIOS Setup 13 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued Block Multi Sector Transfer This option sets the block mode multi sector transfers option The Optimal and Fail Safe default setting is Auto Option Description Disabled Set this value to prevent the BIOS from using Multi Sector Transfer on the specified channel The data to and from the device will occur one sector at a time Auto Set this value to allow the BIOS to auto detect device support for Multi Sector Transfers on the specified channel If supported Set this value to allow the BIOS to auto detect the number of sectors per block for transfer from the hard disk drive to the memory The data transfer to and from the device will occur multiple sectors at a time This is the default setting PIO Mode IDE PIO Programmable I O mode programs timing cycles between the IDE drive and the programmable IDE controller As the PIO mode increases the cycle time decreases The Optimal and Fail Safe default setting is Auto Option Description Auto Set th
59. to this product Table 1 4 Related Publications CompactPCI Systems and Boards CompactFlash Cards ID 27942 Rev 05 CompactPCl Specification 2 0 Rev 3 0 CompactPCl Packet Switching Backplane Specification PICMG 2 16 Rev 2 0 CompactPCI System Management Specification PICMG 2 9 Rev 1 0 CompactPCI Hot Swap Specification PICMG 2 1 Rev 2 0 Hot Swap Specification PICMG 2 1 Kontron Modular Computers CompactPCl System Manual ID 19954 CF and CompactFlash Specification Revision 1 4 O 2005 Kontron Modular Computers GmbH Page 1 19 Introduction m D Page 1 20 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description Chapter Functional Description DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 1 Functional Description e Page 2 2 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description y 2 Functional Description 2 1 CPU Memory and Chipset 2 1 1 CPU The CP6000 supports the latest Intel Pentium M processor family up to speeds of 1 8 GHz with 400 MHz FSB The Intel Pentium M microprocessors offer exceptional performan
60. turn off 6 1 3 4 Regulation The power supply shall be unconditionally stable under line load unload and transient load conditions including capacitive loads The operation of the power supply must be consistent even without the minimum load on all output lines Note Non industrial ATX PSUs require a greater minimum load than a single CP6000 is capable of creating When a PSU of this type is used it will not power up correctly and the CP6000 may hang up The solution is to use an industrial PSU or to add more load to the system Note Ifthe main power input is switched off the 3 3V supply voltage will not go to OV instantly It will take a couple of seconds until capacitors are discharged If the voltage rises again before it went below a certain level the circuits may enter a latch up state where even a hard RESET will not help any more The system must be switched off for at least 3 seconds before it may be switched on again If problems still occur turn off the main power for 30 seconds before turning it on again ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 6 5 Power Consumption CP6000 m 6 1 3 5 Rise Time Diagram The following figure illustrates an example of the recommended start up ramp of a CPCI power supply for all Kontron boards delivered up to now Figure 6 1 Start Up Ramp of the CP3 SVE180 AC Power Supply 4 Vce5 1V 2 Y 25 mS 2 Ve 3 3V 1 V 25 mS 6 2 Power Consumption
61. up from a floppy or hard disk drive This is especially necessary when trying to boot to DOS You can select the type of emulation used if you are booting from such a device The Optimal and Fail Safe default setting is Auto Option Description Auto Set this value to allow the BIOS to automatically set the emulation used by ARMD This is the default setting Floppy Set this value for ARMD to emulate a floppy drive during boot up Hard disk drive Set this value for ARMD to emulate a hard disk drive during boot up 16 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued FLOPPY CONFIGURATION SCREEN Floppy Configuration Settings You can use this screen to specify options for the Floppy Configuration Settings Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below OnBoard Floppy Controller Enabled Chapter 3 Advanced BIOS Setup 17 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued Onboard Floppy Controller This option controls the legacy disk controller The Optimal and Fail Safe default setting is Disabled Option Description Disabled Disabled turns off all legacy diskette drives This is the default setting Enabled Enables the onbo
62. will be switched on and off At a 50 duty cycle for example the average power dissipation can drop by up to 50 In this case the processor performance also drops by about 50 since program execution halts when the clocks are removed Warning For Benchmarks and performance tests all Thermal Management functions should be disabled if enabled the results will be erroneous due to the thermal power reduction 7 2 Active Thermal Regulation The thermal management concept of the CP6000 also encompasses active thermal regulation For this processor a specifically designed heat sink is employed to ensure the best possible basis for operational stability and long term reliability Coupled together with system chassis which provide variable configurations for forced air flow controlled active thermal energy dis sipation is guaranteed 7 2 1 Heat Sinks The CP6000 is fitted with an optimally designed heat sink The physical size shape and con struction ensures the best possible thermal resistance Ri coefficients In addition it is spe cifically designed to efficiently support forced air flow concepts as found in a modern CompactPCI system chassis Even though the CP6000 is fitted with an optimally designed heat sink the thermal energy dis sipated by the high performance Pentium M exceeds the thermal capabilities of the heat sink except for very low performance applications which still require the outstanding features of fered by
63. with a fuse 500 mA and all the signal lines are EMI filtered Page 2 12 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description y The 855GME includes a highly integrated graphics accelerator delivering high performance 3D 2D video capabilities The internal graphics controller provides interfaces to a standard progressive scan monitor This interface is only active when running in internal graphics mode Integrated 2D 3D Graphics e 3D hyperpipelined architecture e Full 2D hardware acceleration e Intel 855GME D V M Technology graphics core e Integrated 350 Mhz DAC e Resolution up to 1600 x 1200 100 Hz and 2048 x 1536 75 Hz with True colors e Integrated H W Motion Compensation engines for software MPEG2 decode 2 3 4 Graphics Controller 2 3 4 1 Video Memory Usage The 855GME chipset supports the new Dynamic Video Memory Technology D V M T This new technology ensures the most efficient use of all available memory for maximum 3D graphics performance D V M T dynamically responds to application requirements allocating display and texturing memory resources as required The operating system requires a minimum of 1 MB and a maximum of 64 MB of system mem ory to support legacy VGA System properties will display up to 64MB less than physical sys tem memory available to the operating system The graphics driver for the I
64. 00 Introduction 1 5 3 Board Layout Figure 1 3 CP6000 Board Layout Front View J5 SODIMM Socket SODIMM Socket J4 A A ee 82855 GME J3 MA J2 La O EIA AAA UU CompactFlash Socket EE HS LED 1 J11 J15J16 maan UU J1 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 1 9 Introduction CP6000 r Figure 1 4 CP6000 Board Layout Reverse View m JP6 JP8 JP9 FE R513 Page 1 10 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction 1 6 Technical Specification Table 1 2 CP6000 4HP Version Main Specifications The CP6000 supports the following microprocessors e Intel Pentium M with 1024 kB L2 cache 1 1 GHz LV version e 1 6 GHz version e Intel Pentium M with 2048 KB L2 cache 1 4 GHz LV version e 1 8 GHz version e Intel Celeron M with 512 kB L2 cache e 1 3 GHz version All microprocessors are provided with 400 MHz PSB Processor Side Bus in 479 uFCBGA packaging Memory Processor and Memory ID 27942 Rev 05 Main Memory e Up to 2 GB DDR333 PC2700 SODIMM socket for DDR SDRAM mem ory with ECC Cache structure e 64kB L1 on die full speed processor cache e 32 kB for instruction cache e 32 kB for data cache e Up to 2048 kB L2 on die full speed processor cache FLASH Memory e 1MB FLASH
65. 00ESB communicates with the host controller over a dedicated hub interface The I O Controller Hub Feature set comprises PCI 2 2 interface with 32 bit 33 MHz and eight IRQ inputs PCI X 1 0 interface with 64 bit 66 MHz and four IRQ inputs Bus Master EIDE controller UltraDMA 100 66 33 SATA 150 controller Two USB controllers with up to four USB 1 1 or USB 2 0 ports Hub interface for a 855GME chipset FWH interface LPC interface RTC controller ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 7 Functional Description CP6000 2 2 Peripherals The following standard peripherals are available on the CP6000 board 2 2 1 Timer The CP6000 is equipped with the following timers e Real time clock The 6300ESB contains a MC146818A compatible real time clock with 256 bytes of bat tery backed RAM The real time clock performs timekeeping functions and includes 256 bytes of general purpose battery backed CMOS RAM Features include an alarm function programmable periodic interrupt and a 100 year calendar All battery backed CMOS RAM data remains stored in an additional EEPROM This prevents data loss e Counter Timer Three 8254 style counter timers are included on the CP6000 as defined for the PC AT e Multimedia Timer The 6300ESB includes an additional free timer 2 2 2 Watchdog Timer A watchdog timer is provided which forces either an IRQ5 NMI or Reset condition configurable in the watchdog register The watchdo
66. 0Base T 2 3 8 EIDE Interfaces The EIDE interfaces support the following modes e Programmed UO PIO CPU controls data transfer e 8237 style DMA DMA offloads the CPU supporting transfer rates of up to 16 MB sec e Ultra DMA DMA protocol on IDE bus supporting host and target throttling and transfer rates of up to 33 MB sec ATA 66 DMA protocol on IDE bus supporting host and target throttling and transfer rates of up to 66 MB sec ATA 66 protocol is similar to Ultra DMA and is device driver compat ible e ATA 100 DMA protocol on IDE bus allows host and target throttling The 6300ESB ATA 100 logic can achieve read transfer rates of up to 100 MB sec and write transfer rates up to 88 MB sec Note ATA 66 and ATA 100 are faster timings and require a specialized cable which has additional grounding wires to reduce reflections noise and inductive coupling This cable will also support all legacy IDE drives Figure 2 7 EIDE Interface Connectors J19 and J20 39 J20 1 40 2 2 J19 44 S GA There are two independent EIDE ports available The primary port is connected to the 44 pin 2 row male connector J19 and to the onboard CompactFlash socket J17 The secondary EIDE interface is a 40 pin 2 row male connector J20 AT standard interface for an EIDE hard disk This interface is also available at rear I O The onboard 2 5 HDD can be installed on the 44 pin connector ID 27942 Rev 05 2005 Kontron M
67. 1 1 System Overview The CompactPCI board described in this manual operates with the PCI and PCI X bus architecture to support additional UO and memory mapped devices as required by various industrial applications For detailed information concerning the CompactPCI standard please consult the complete Peripheral Component Interconnect PCI and CompactPCl Specifications For further information regarding these standards and their use visit the home page of the PCI Industrial Computer Manufacturers Group PICMG Many system relevant CompactPCI features that are specific to Kontron Modular Computers CompactPCI systems may be found described in the Kontron CompactPCI System Manual Due to its size this manual cannot be downloaded via the internet Please refer to the section Related Publications at the end of this chapter for the relevant ordering information The CompactPCl System Manual includes the following information e Common information that is applicable to all system components such as safety information warranty conditions standard connector pinouts etc e All the information necessary to combine Kontron s racks boards backplanes power supply units and peripheral devices in a customized CompactPCI system as well as configuration examples e Data on rack dimensions and configurations as well as information on mechanical and electrical rack characteristics e Information on the distinctive features of Kontron CompactPCI b
68. 27942 05 UG VC 051020 172758 kontron CP6000 6U Pentium M PICMG 2 16 CPU Blade Manual ID 27942 Rev Index 05 October 20 2005 User Guide Preface CP6000 e Revision History Publication Title CP6000 6U Pentium M PICMG 2 16 CPU Blade Brief Description of Changes Date of Issue 01 Hardware Reference Guide Feb 23 2004 02 Hardware Reference Guide Apr 28 2004 03 Initial Issue of User Guide Jun 7 2004 04 General update addition of the CP6000 EXT SATA module Oct 11 2005 05 General update Oct 20 2005 Imprint Kontron Modular Computers GmbH may be contacted via the following MAILING ADDRESS TELEPHONE AND E MAIL Kontron Modular Computers GmbH 49 0 800 SALESKONTRON Sudetenstrake 7 sales kontron com D 87600 Kaufbeuren Germany For further information about other Kontron Modular Computers products please visit our Internet web site www kontron com Copyright Copyright 2005 Kontron Modular Computers GmbH All rights reserved This manual may not be copied photocopied reproduced translated or converted to any electronic or machine readable form in whole or in part without prior written approval of Kontron Modular Computers GmbH Disclaimer Kontron Modular Computers GmbH rejects any liability for the correctness and completeness of this manual as well as its suitability for any particular purpose Page ii 2005 Kontron Modular Computers GmbH ID
69. 3V S 5V GND 22 GND S GND 3 3V GND 21 GND 3 3V i j M66EN i GND 20 GND S GND V 1 0 J GND 19 GND 3 3V i i GND i GND 18 GND GND 3 3V f K GND 17 GND 3 3V IPMB SCL IPMB SDA GND GND 16 GND GND V 1 0 jj R GND 15 GND 3 3V il E GND i GND 12 14 Key Area 11 GND R GND S GND 10 GND j GND 3 3V GND 9 GND i NC j GND GND 8 GND i GND V 1 0 GND 7 GND i GND GND 6 GND GND 3 3V R GND 5 GND BRSVP1A5 BRSVP1B5 GND GND 4 GND IPMB PWR Healthy V 1 0 INTP INTS GND 3 GND R 5V i GND 2 GND TCK 5V TMS TDO TDI GND 1 GND 5V 12V TRST 12V 5V GND Note K A indicates that the signal normally present at this pin is disconnected from the CompactPCI bus when the CP6000 is inserted in a peripheral slot D Page 2 32 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Table 2 27 64 bit CompactPCI Bus Connector J2 System Slot Pi out Functional Description 22 GND GA4 GA3 GA2 GA1 GAO GND 21 GND CLK6 GND RSV RSV RSV GND 20 GND CLK5 GND RSV GND RSV GND 19 GND GND GND RSV RSV RSV GND 18 GND RSV RSV RSV GND RSV GND 17 GND RSV GND PRST REQ6 GNT6 GND 16 GND RSV RSV DEG GND RSV GND 15 GND RSV GND FAL REQ5 GNT5 GND 14 GND AD 35 AD 34 AD 33 GND AD 32 GND 13 GND AD 38 GND V 1 0 AD 37 AD 36 GND 12 GND AD 42 AD 41
70. 3V only with rear I O support and bezel cutout on front panel and PCI X functionality Four Gigabit Ethernet interfaces e Two Gigabit Ethernet interfaces on the front panel e Two Gigabit Ethernet interfaces on rear I O PICMG 2 16 Two EIDE Ultra ATA 100 interfaces Two Serial ATA interfaces on rear I O one thereof can be routed to onboard connectors Optional socket for 2 5 hard disk only for standard temperature range Onboard CompactFlash type II socket True IDE Four USB ports e Two USB 2 0 ports on the front panel e Two USB 2 0 ports on rear I O 1 MB onboard FWH for BIOS Hardware Monitor LM87 Floppy disk interface on rear I O Watchdog timer Real time clock Two COM ports on rear I O RS 232 RS 422 RS 485 1 O extension connector LPC AHP 6U CompactPCI Jumperless board configuration Extended temperature range 40 C to 85 C optional Passive heat sink solution for external airflow AMI BIOS PCI X interface onboard 64 bit 66 MHz Compatible with CompactPCI spec Rev 3 0 32 bit 33 MHz Hot swap capability as system controller or as peripheral device Supports PICMG Packet Switching Backplane Specification 2 16 Several rear I O configurations Rear UO on J3 and J5 optionally on J4 IPMI compliant Baseboard Management controller ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 1 5 Introduction CP6000 1 3 System Expansion Capabilities 1 3 1 PMC Modules The CP6000 has one PCI X
71. 4 HD8 HD data 8 1 0 VO HD data 6 HD6 5 6 HD9 HD data 9 1 0 VO HD data 5 HD5 7 8 HD10 HD data 10 1 0 VO HD data 4 HD4 9 10 HD11 HD data 11 1 0 VO HD data 3 HD3 11 12 HD12 HD data 12 1 0 VO HD data 2 HD2 13 14 HD13 HD data 13 1 0 VO HD data 1 HD1 15 16 HD14 HD data 14 1 0 VO HD data 0 HDO 17 18 HD15 HD data 15 1 0 Ground signal GND 19 20 N C DMA request IDEDRQ 21 22 GND Ground signal O I O write IOW 23 24 GND Ground signal 0 I O read IOR 25 26 GND Ground signal I O channel ready IOCHRDY 27 28 GND Ground signal O DMA Ack IDEDACKA 29 30 GND Ground signal Interrupt request IDEIRQ 31 32 N C O Address 1 A1 33 34 ATA66 Detect ATA66 O Address 0 AU 35 36 A2 Address 2 O HD select 0 HCSO 37 38 HCS1 HD select 1 LED driving LED 39 40 GND Ground signal 5V power VCC 41 42 VCC 5V power Ground signal GND 43 44 N C Page 2 19 Functional Description CP6000 r 2 3 8 2 J20 ATA 40 Pin Connector The following table sets out the pinout of the J20 connector giving the corresponding signal names The maximum length of cable the that may be used is 35 cm Table 2 16 Pinout of ATA 40 Pin Connector J20 O FUNCTION SIGNAL SIGNAL FUNCTION O O Reset HD IDERESET GND Ground signal I O HD data 7 HD7 HD8 HD data 8 1 0 I O HD data 6 HD6 HD9 HD data 9 1 0 I O HD data 5 HD5 HD10 HD data 10 1 0 I O HD data 4 HD4 HD11 HD data 11
72. 5 PIM 7 GND PIM 6 PIM 8 GND 25 GND PIM 1 PIM 3 GND PIM 2 PIM 4 GND is directly connected to the Jn4 connector from the PMC The RIO_XXX signals are power supply OUTPUTS to supply the rear I O mod ule with power These pins MUST NOT be connected to any other power source either within the backplane itself or within a rear I O module Failure to comply with the above will result in damage to your board ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 2 37 Functional Description e Table 2 32 CompactPCI Rear I O Connector J5 Pinout CP6000 The following table describes the signals of the J5 connector Table 2 33 CompactPCI Rear I O Connector J5 Signals SATA Port 0 Signaling D Page 2 38 HTO HT1 SATA Port 1 Signaling SMB System Management Bus Signaling FD Floppy Disk Signaling IDE Secondary Hard Disk Drive Channel Signaling O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 1 GND GND GND GND GND GND GND 2 GND HTO TX HTO TX GND HTO RX HTO RX GND 3 GND GND GND GND GND GND GND 4 GND HT1 TX HT1 TX GND HT1 RX HT1 RX GND 5 GND GND GND GND GND GND GND 6 GND NC NC GND NC NC GND 7 GND GND GND GND GND GND GND 8 GND NC NC GND NC NC GND 9 GND GND GND GND GND GND GND 10 GND FD MSENO FD MSEN1 GND SMB SDA SMB SCL GND 11 GND FD
73. 512KB memory Adjust policies and cache first 8MB Set stack D5 Bootblock code is copied from ROM to lower system memory and control is given to it BIOS now executes out of RAM D6 Both key sequence and OEM specific method is checked to determine if BIOS recovery is forced Main BIOS checksum is tested If BIOS recovery is necessary control flows to checkpoint E0 See Bootblock Recovery Code Checkpoints section of document for more information D7 Restore CPUID value back into register The Bootblock Runtime interface module is moved to system memory and control is given to it Determine whether to execute serial flash D8 The Runtime module is uncompressed into memory CPUID information is stored in memory D9 Store the Uncompressed pointer for future use in PMM Copying Main BIOS into memory Leaves all RAM below 1MB Read Write including E000 and F000 shadow areas but closing SMRAM DA Restore CPUID value back into register Give control to BIOS POST ExecutePOSTKernel See POST Code Checkpoints section of document for more information Chapter 12 POST Codes 71 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Bootblock Recovery Code Checkpoints 72 The Bootblock recovery code gets control when the BIOS determines that a BIOS recovery needs to occur because the user has forced the update or the BIOS checksum is corrupt The following table describes the type of checkpoints that may occur d
74. 58 27942 05 UG VC 051020 172758 CP6000 BIOS Chapter h BIOS ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 5 1 BIOS Page 5 2 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 BIOS 5 BIOS Detailed information concerning the BIOS for the CP6000 is contained in Appendix C ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 5 3 BIOS Page 5 4 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Power Consumption Chapter 6 Power Consumption ID 27942 Rev 05 DW 2005 Kontron Modular Computers GmbH Page 6 1 Power Consumption e Page 6 2 This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Power Consumption y 6 Power Consumption 6 1 System Power Some processors of the new Intel Pentium M processor family require more power than ear lier Pentium Ill processors but less than the Pentium 4 This results in special requirements for the power supply and the backplane The considerations presented in t
75. 6 0 Reserved 7 WST 0 Indicates that a Watchdog timeout has occurred 1 Indicates that no Watchdog timeout has occurred 4 5 9 Board Version The board version register describes the hardware and the board version The content of this register is unique for each Kontron CompactPCI board Table 4 23 Board ID Register Board Version 0x288 ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 4 19 Configuration CP6000 4 5 10 Hardware Index The hardware index will signal to the software when differences in the hardware require different handling by the software It starts with the value 0 and will be incremented with each change in hardware as development continues Table 4 24 Hardware Index Register Hardware Index 0x289 4 5 11 Hot Swap Control The hot swap control register describes the hot swap control signals Table 4 25 Hot Swap Control Register Hot Swap Control Register 0x28A 0 0 Reserved 1 0 Reserved 2 0 Reserved 3 0 Reserved 4 0 Reserved 5 HSLED 0 Hot swap LED switch off 1 Hot swap LED switch on 6 HSH 0 Hot swap handle in closed position 1 Hot swap handle in open position 7 0 Reserved Page 4 20 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration e The logic version register may be used to iden
76. 64 bit 66 MHz 3 3V rear I O capable PMC mezzanine interface This interface supports a wide range of available PMC modules with PCI and PCI X interface including all of Kontron s PMC modules and provides an easy and flexible way to configure the CP6000 for various application requirements 1 3 2 CTM80 2 Rear I O Module The CTM80 2 rear I O module has been designed for use with the CP6000 6U CompactPCI board from Kontron Modular Computers This module provides comprehensive rear l O functionality and may also be configured for use in other applications For further information concerning the CTM80 2 module please refer to Appendix A 1 3 3 CP6000 EXT SATA Module The CP6000 EXT SATA module order no CP6000 MK2 5SATA has been designed for use with the CP6000 6U CompactPCI board from Kontron Modular Computers and enables the user to connect an onboard 2 5 Serial ATA hard disk to the CP6000 For further information concerning the CP6000 EXT SATA module please refer to Appendix B 1 4 System Relevant Information The following system relevant information is general in nature but should still be considered when developing applications using the CP6000 Table 1 1 System Relevant Information It may however be operated in a peripheral slot in which case it does not support the CompactPCI bus interface SUBJECT INFORMATION System Slot System Master The CP6000 is designed for use as a System Master board whereby it can Fun
77. COM1 and COM2 Jumper and Resistor Settings 4 1 6 1 COM Jumper and Resistor Setting The serial interface COM1 J9 may be configured for either RS 232 RS 422 or RS 485 using solder jumpers and appropriate resistors The following figure and tables indicate the physical locations of these jumpers and resistors and their required configurations for the various 27942 05 UG VC 051020 172758 operational modes Figure 4 1 COM1 Configuration Jumpers and Resistors The default setting is indicated by using italic bold ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Table 4 6 Resistor Setting to Configure COM1 RESISTOR RS 232 RS 422 RS 485 JP3 soldered or 0 ohm 0805 package Closed Open Open R464 4700 ohm 0603 package Open Open Closed R509 soldered or 0 ohm 0603 package Open Open Closed Page 4 5 Configuration CP6000 RS 422 and RS 485 COM1 Termination When COM1 is configured for RS 422 or RS 485 operation and is the last device on the RS 422 or RS 485 bus then the RS 422 or RS 485 interface must provide termination resistance The purpose of jumpers JP5 and JP7 is to enable this line termination resistor 120 ohm Table 4 7 Jumper Setting for RS 422 RXD Termination COM1 ON Closed soldered or 0 ohm 0805 package OFF Open The default setting is indicated by using italic bold Table 4 8 Jumper Setting for RS 422 TX
78. CP6000 Preface 2 3 12 2 5 SATA HDD Extension Connectors J30 and J31 Optional 2 22 E ee 2 25 2 3 14 CompactPCI Interface on hoc 2 28 2 3 15 CompactPCI Bus COMERCIO iii a iii ti 2 30 2 4 Intelligent Platform Management Interface 2 40 2 4 1 Technical Background of IPM oooocococccccnnccicocicononiconnccnnnonnnonnnnnnos 2 40 242 HEMECIOSS TY ni 2 41 2 4 3 IPMI Implementation on the CP6000 cooooooniccciciciconoconoccnnnccnnnnonononos 2 42 2 4 4 Data Repositories as 2 44 Chapter 3 3 Installation 3 1 Safety el 3 3 3 2 CP6000 Initial Installation Procedures 3 4 3 3 Standard Removal Procedures 3 5 3 4 Hot Swap Procedur s renard umo deep 3 5 3 4 1 System Master Hot Swap oscar 3 5 3 4 2 Peripheral Hot Swap Procedure cccccccccccccsnssenssenssssesssessesseeeees 3 6 3 5 Installation of CP6000 Peripheral Devices 3 7 3 5 1 CompactFlash Installation cinc aaa 3 7 3 5 2 USB Device Installation sas AAA AAA A AAA 3 7 3 5 3 Rear I O Device Installation 3 8 3 5 4 Battery Replacement A 3 8 3 5 5 Hard Disk Installation cid osier needs 3 8 o WEE 3 9 Chapter 4 4 e eo e E 4 3 Bot Jumper Description a A om 4 3 4 1 1 CompactFlash Configuration
79. Card to be selected The Optimal and Fail Safe default setting is Auto Option Description Auto This setting will auto select the location of an OffBoard PCI IDE adapter card This is the default setting PCI Slotl This setting will select PCI Slot 1 as the location of the OffBoard PCI IDE adapter card Use this setting only if there is an IDE adapter card installed in PCI Slot 1 PCI Slot2 This setting will select PCI Slot 2 as the location of the OffBoard PCI IDE adapter card Use this setting only if there is an IDE adapter card installed in PCI Slot 2 PCI Slot3 This setting will select PCI Slot 3 as the location of the OffBoard PCI IDE adapter card Use this setting only if there is an IDE adapter card installed in PCI Slot 3 This option is available even if the motherboard does not have a PCI Slot 3 If the motherboard does not have a PCI Slot 3 do not use this setting PCI Slot4 This setting will select PCI Slot 4 as the location of the OffBoard PCI IDE adapter card Use this setting only if there is an IDE adapter card installed in PCI Slot 4 This option is available even if the motherboard does not have a PCI Slot 4 Ifthe motherboard does not have a PCI Slot 4 do not use this setting PCI Slots This setting will select PCI Slot 5 as the location of the OffBoard PCI IDE adapter card Use this setting only if there is an IDE adapter card installed in PCI Slot 5 This option is available even if the
80. Connector J24 Pinout ooooocccociciciconoccccococnccnonnnnnncnonononinnnnnnnnnnnns 2 12 USB Connectors J7 and J8 Pinout iia ai ii 2 12 Partial List of Display Modes Supported 2 13 D Sub CRT Connector EEN eebe 2 14 Serial Port Con J9 COM1 Pinout ooooconcccnccccccononccccccnoncnnnnornccccnonanananons 2 15 Pinouts of J6A B Based on the Implementation 2 16 Pinout of ATA 44 Pin Connector J19 e 2 19 Pinout of ATA 40 Pin Connector 20 2 20 CompactFlash Connector J17 Pinout msn diisnsdaneinisanissteiess 2 21 SATA Connector 418 Pinout ss 2 22 SATA Extension Connector J30 Pinout ooocccccccccccccccccccconccconanonananonnnnnnos 2 23 SATA Extension Connector J31 Pinout ooooccccccccccccconccccnonccconananananonnnnnnos 2 23 Onboard PCI Configuration EE 2 25 PMC Connectors J26 and J28 Pinouts siria 2 26 PMC Connectors J25 and J27 Pinouts 2 27 Coding Key Colors ON JT A A 2 30 CompactPCI Bus Connector J1 System Slot Pinout 2 31 CompactPCI Bus Connector J1 Peripheral Slot Pinout 2 32 64 bit CompactPCI Bus Connector J2 System Slot Pinout 2 33 64 bit CompactPCI Bus Connector J2 Peripheral Slot Pinout 2 34 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page ix Preface CP6000 e 2 29 CompactPCI Rear I O Connector J3 Pinout oooonoococicccccccococccccccocini
81. D and RS 485 Termination COM1 ON Closed soldered or 0 ohm 0805 package OFF Open The default setting is indicated by using italic bold Note COM1 is available on the front and rear UO without any switch It is strongly recommended to use only one option at the same time Page 4 6 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration 4 1 6 2 COM Jumper and Resistor Setting The serial interface COM2 rear 1 0 may be configured for either RS 232 RS 422 or RS 485 by setting solder jumpers The following figure and tables indicate the physical locations of these solder jumpers and their required configurations for the various operational modes Figure 4 2 COM2 Configuration Jumpers and Resistors Table 4 9 Resistor Setting to Configure COM2 JP6 soldered or 0 ohm 0805 package T Closed T Open T Open R513 4700 ohm 0603 package Open Open Closed R501 soldered or 0 ohm 0603 package Open Open Closed The default setting is indicated by using italic bold ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 4 7 Configuration CP6000 e RS 422 and RS 485 COM2 Termination When COM1 is configured for RS 422 or RS 485 operation and is the last device on the RS 422 or RS 485 bus then the RS 422 or RS 485 interface must provide terminatio
82. DFFFF 64 k Free OxCC000 OxCFFFF 16k Free 0xC0000 OxCBFFF 48 k BIOS of the VGA card 0xA0000 OxBFFFF 128 k Normally used as video RAM as follows CGA video 0xB8000 0xBFFFF Monochrome video 0xB0000 0xB7FFF EGA VGA video OxA0000 0xAFFFF 0x000000 0x9F FFF 640 k DOS reserved memory space 4 4 2 UO Address Map The following table sets out the memory map for the UO memory The shaded table cells indicate CP6000 specific registers ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 4 11 Configuration Table 4 15 1 0 Address Map Page 4 12 ADDRESS DEVICE 000 00F DMA controller 1 020 021 Interrupt controller 1 022 02F Reserved 040 043 Timer 060 063 Keyboard interface 070 071 RTC port 080 08F DMA page register 0A0 0A Interrupt controller 2 0C0 0DF DMA controller 2 0E0 0EF Reserved OF0 0FF Math coprocessor 170 17F Hard disk secondary 1F0 1FF Hard disk primary 19C 19F IPMI control 278 27F Parallel port LPT2 280 Watchdog trigger 282 Watchdog timer 283 Geographic addressing 284 Watchdog CPCI IRQ routing 285 CPCI reset 286 1 0 status 288 Board version 289 Hardware index 28A HS status 28B Logic index 28D LED control 28E HS LED control 2E8 2EF Serial port COM4 2F8 2FF Serial port COM2 378 37F Parallel printer port LPT1 3BC 3BF Parallel printer port LPT3 3E8 3EF Serial
83. Flash connector J17 Table 2 17 CompactFlash Connector J17 Pinout The easiest way to remove the CompactFlash card is to affix a wide piece of adhesive tape to the top side then pull it out and afterwards remove the tape ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Ground signal GND 2 D03 Data 3 1 0 I O Data 4 D04 4 D05 Data 5 1 0 I O Data 6 D06 6 D07 Data 7 1 0 O Chip select 0 IDE CS0 8 GND A10 GND ATASEL 10 GND A09 GND A08 12 GND A07 Power 5V VCC 14 GND A06 GND A05 16 GND A04 GND A03 18 A02 Address 2 O 0 Address 1 A01 20 A00 Address 0 0 I O Data0 D00 22 D01 Data 1 1 0 I O Data 2 D02 24 IOCS16 O NC CD2 26 NC CD1 I O Data 11 D11 28 D12 Data 12 1 0 I O Data 13 D13 30 D14 Data 14 1 0 I O Data 15 D15 32 IDE_CS1 Chip select 1 NC VS1 34 IORD I O read O 1 0 write IOWR 36 WE VCC Write enable Interrupt request INTRQ 38 VCC Power 5V O Master Slave CSEL GND pull up 40 NC VS2 0 Reset Reset 42 IORDY I O ready O Acknowledge INPACK 44 DACK Data acknowl edge VO Drive active slave DASP 46 NC PDIAG present VO Data 08 D08 48 D09 Data 09 1 0 VO Data 10 D10 50 GND Page 2 21 Functional Description CP6000 r 2 3 9 Extension Connector J12 Figure 2 9 Extension Con J12 The I O extension connector provides cost effective flexible confi
84. Hz PCI 64 bit 33 MHz PCI 64 bit 66 MHz PCI X Note The 64 bit 66 MHz PCI mode is not supported DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 25 Functional Description r 2 3 13 1 PMC Connectors J25 J26 J27 and J28 Pinouts Table 2 22 PMC Connectors J26 and J28 Pinouts CP6000 Low PCI 33 MHz High PCI X 66 MHz Page 2 26 2005 Kontron Modular Computers GmbH Signal 1 2 12V 12V 1 2 Signal Ground 3 4 Signal Signal 3 4 Signal Signal 5 6 Signal Signal 5 6 Ground BUSMODE1 7 8 5V Ground 7 8 Signal Signal 9 10 Signal Signal 9 10 Signal Ground 11 12 Signal BUSMODE2 11 12 3 3V Signal 13 14 Ground Signal 13 14 BUSMODE3 Ground 15 16 Signal 3 3V 15 16 BUSMODE4 Signal 17 18 5V Signal 17 18 Ground V 1 0 19 20 Signal Signal 19 20 Signal Signal 21 22 Signal Ground 21 22 Signal Signal 23 24 Ground Signal 23 24 3 3V Ground 25 26 Signal Signal 25 26 Signal Signal 27 28 Signal 3 3V 27 28 Signal Signal 29 30 5V Signal 29 30 Ground V 1 0 31 32 Signal Signal 31 32 Signal Signal 33 34 Ground Ground 33 34 Signal Ground 35 36 Signal Signal 35 36 3 3V Signal 37 38 5V Ground 37 38 Signal PCIXCAP 39 40 Signal Signal 39 40 Ground Signal 41 42 Signal 3 3V 41 42 Signal Signal 43 44 Ground Signal 43 44 Ground V 1 0 45 46 Signal Signal 45 46 Signal Signal
85. ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 39 Functional Description CP6000 m 2 4 Intelligent Platform Management Interface 2 4 1 Technical Background of IPMI The CP6000 has been designed to support the Intelligent Platform Management Interface IPMI subsystem which is another step in providing high availability platforms Intelligent Plat form Management means monitoring the health of the entire system beyond the confines of the board itself so that the status of the complete system is available to be used for example for control and intervention purposes A range of variables is monitored on every board to provide information on the system status e g voltages temperature powergood signals reset signals etc Additionally the IPMI Baseboard controller can intervene regulating the operating status of the system by controlling fans shutting down systems and generating alarm signals as and when fault conditions occur These fault conditions are simultaneously logged in non volatile memory for analysis and for fault recovery IPMI also defines a protocol software stack for ex changing the status messages of the board so that IPMI ready boards systems from different suppliers can be monitored In addition a clear interface registers addresses etc is defined for guaranteeing that System Management software can work with every compliant IPMI hard ware The electrical interconnection between IPMI capabl
86. ILITY Save Changes and Exit Save Changes and Exit When you have completed the system configuration changes select this option to leave CP6000 Setup and reboot the computer so the new system configuration parameters can take effect Select Exit Saving Changes from the Exit menu and press lt Enter gt Save Configuration Changes and Exit Now Ok Cancel appears in the window Select Ok to save changes and exit Chapter 10 Exit Menu 65 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Exit Menu Continued Discard Changes and Exit Select this option to quit CP6000 Setup without making any permanent changes to the system configuration Select Exit Discarding Changes from the Exit menu and press lt Enter gt Discard Changes and Exit Setup Now Ok Cancel appears in the window Select Ok to discard changes and exit Discard Changes Select Discard Changes from the Exit menu and press lt Enter gt BIOS SETUP UTILITY Discard Changes Discard Changes IO Cancel Select Ok to discard changes 66 Chapter 10 Exit Menu CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Exit Menu Continued Load Optimal Defaults CP6000 automatically sets all CP6000 Setup options to a complete set of default settings when you select this option The Optimal settings are designed for maximum system performance but may not work best for all computer applications In particular do not use the
87. K GND 3 GND SP1 RTS SP1 RX SP1 DSR SP1 DCD PS2 DATA GND 4 GND SP1 RI SP1 DTR SP1 CTS SP1 TX KB DATA GND 5 GND VGA BLUE VGA HSYNC VGA VSYNC VGA SCL KB CLK GND 6 GND VGA RED VGA GREEN VGA SDA NC NC GND 7 GND RIO_3 3V 1D2 1D3 ID4 SPEAKER GND 8 GND USBO D USBO D GND NC NC GND 9 GND USB1 D USB1 D GND NC NC GND 10 GND USB1 VCC USBO VCC GND NC NC GND 11 GND NC NC GND NC NC GND 12 GND NC NC GND NC NC GND 13 GND LPa ACT LPb ACT NC NC FAN SENSE1 GND 14 GND LPa LINK LPb LINK LPab CT1 NC FAN SENSE2 GND 15 GND LPb_DB LPb_DB GND LPb_DD LPb_DD GND 16 GND LPb_DA LPb_DA GND LPb_DC LPb_DC GND 17 GND LPa_DB LPa_DB GND LPa_DD LPa_DD GND 18 GND LPa_DA LPa_DA GND LPa_DC LPa_DC GND 19 GND RIO_VCC RIO_VCC RIO_3 3V RIO_ 12V RIO_ 12V GND Warning The RIO_XXX signals are power supply OUTPUTS to supply the rear I O mod ule with power These pins MUST NOT be connected to any other power source either within the backplane itself or within a rear I O module Failure to comply with the above will result in damage to your board DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 35 Functional Description e The following table describes the signals of the J3 connector Table 2 30 CompactPCI Rear I O Connector J3 Signals D Page 2 36 2005 Kontron Modular Computers GmbH SPO COM1 Signaling RS 232 RS 422 R
88. M at FO00 FFFOh Chapter 12 POST Codes CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH POST Code Checkpoints The POST code checkpoints are the largest set of checkpoints during the BIOS pre boot process The following table describes the type of checkpoints that may occur during the POST portion of the BIOS Checkpoint Description 03 Disable NMI Parity video for EGA and DMA controllers Initialize BIOS POST Runtime data area Also initialize BIOS modules on POST entry and GPNV area Initialized CMOS as mentioned in the Kernel Variable wCMOSFlags 04 Check CMOS diagnostic byte to determine if battery power is OK and CMOS checksum is OK Verify CMOS checksum manually by reading storage area If the CMOS checksum is bad update CMOS with power on default values and clear passwords Initialize status register A Initializes data variables that are based on CMOS setup questions Initializes both the 8259 compatible PICs in the system 05 Initializes the interrupt controlling hardware generally PIC and interrupt vector table 06 Do R W test to CH 2 count reg Initialize CH 0 as system timer Install the POSTINT1Ch handler Enable IRQ 0 in PIC for system timer interrupt Traps INT1Ch vector to POSTINT1ChHandlerBlock 08 Initializes the CPU The BAT test is being done on KBC Program the keyboard controller command byte is being done af
89. O Controller Hub chipset The board includes two SODIMM sockets to provide up to 2 GB Double Data Rate DDR memory with Error Checking and Correcting ECC for rugged environments The CP6000 supports memory speed up to 333 MHz PC2700 The CP6000 offers more features and expandability than other CompactPCI boards in its class The board comes with two onboard Ultra ATA 100 interfaces two Serial ATA interfaces four Gigabit Ethernet ports two Intel 82546GB controllers up to four USB 2 0 ports one PMC interface with 64 bit 66 MHz on the PCI X bus rear I O with several interfaces one CompactFlash type Il socket and a built in Intel 3D Graphics accelerator with up to 64 MB of shared memory for enhanced graphics performance with a VGA CRT display interface Several onboard connectors provide flexible expandability The board supports a configurable 32 bit 33 MHz hot swap CompactPCI interface In the System Master slot the interface is enabled and if installed in a peripheral slot the CP6000 is isolated from the CompactPCI bus One of the more important features of the CP6000 is its support of the PICMG CompactPCI Packet Switching Backplane Specification 2 16 When installed in a backplane which supports packet switching the CP6000 can communicate via two Gigabit Ethernet interfaces with other peripherals Designed for stability and packaged in a rugged format the board fits into all applications situated in industrial environments inc
90. OS to display during system boot This is the default setting Keep Current Set this value to allow the computer system to display the CP6000 information during system boot Boot Up Num Lock Set this value to allow the Number Lock setting to be modified during boot up The Optimal and Fail Safe default setting is On Option Description Off This option does not enable the keyboard Number Lock automatically To use the 10 keys on the keyboard press the Number Lock key located on the upper left hand corner of the 10 key pad The Number Lock LED on the keyboard will light up when the Number Lock is engaged On Set this value to allow the Number Lock on the keyboard to be enabled automatically when the computer system is boot up This allows the immediate use of 10 keys numeric keypad located on the right side of the keyboard To confirm this the Number Lock LED light on the keyboard will be lit This is the default setting PS 2 Mouse Support Set this value to allow the PS 2 mouse support to be adjusted The Optimal and Fail Safe default setting is Auto Option Description Disabled This option will prevent the PS 2 mouse port from using system resources and will prevent the port from being active Use this setting if installing a serial mouse Enabled Set this value to allow the system to use a PS 2 mouse Auto Set this value to allow the system to automatically use a PS 2 mouse if it is connected This is
91. Optimal CP6000 Setup options if your computer is experiencing system configuration problems Select Load Optimal Defaults from the Exit menu and press lt Enter gt BIOS SETUP UTILITY Load Optimal Defaults Load Optimal Defaults Select Ok to load optimal defaults Chapter 10 Exit Menu 67 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Exit Menu Continued Load Fail Safe Defaults CP6000 automatically sets all CP6000 Setup options to a complete set of default settings when you select this option The Fail Safe settings are designed for maximum system stability but not maximum performance Select the Fail Safe CP6000 Setup options if your computer is experiencing system configuration problems Select Load Fail Safe Defaults from the Exit menu and press lt Enter gt Load Fail Safe Defaults Ok Cancel appears in the window Select Ok to load Fail Safe defaults 68 Chapter 10 Exit Menu CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 11 Deleting a Password If you forget the passwords you set up through CP6000 Setup the only way you can reset the password is to erase the system configuration information where the passwords are stored System configuration data is stored in CMOS RAM a type of memory that consumes very little power Erase Old Password You can drain CMOS RAM power by using the CMOS drain jumper on the motherboard or by removing the battery CMOS RAM loos
92. PI CD ROM devices from the boot menu For example if the 1 boot device is set to Hard disk drives then BIOS will try to boot to hard disk drives first Note When you select a boot category from the boot menu a list of devices in that category appears For example if the system has three hard disk drives connected then the list will show all three hard disk drives attached Chapter 5 Boot Setup 41 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued HARD DISK DRIVES Hard Disk Drives Use this screen to view the hard disk drives in the system To access this screen select Hard disk drives on the Boot Setup screen and press lt Enter gt The following screen displays examples of hard disk drives E BIOS SETUP UTILITY ist Hard Disk Drive 57320430A 42 Chapter 5 Boot Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued REMOVABLE DEVICES Removable Devices Use this screen to view the removable drives attached to the system To access this screen select Removable Devices on the Boot Setup screen and press lt Enter gt The following screen displays examples of removable devices BOS SETUP UTILITY 2nd Removable Device IOMEGA ZIP 100 Chapter 5 Boot Setup 43 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued CD DVD DRIVES CD DVD Drives Use this screen to view the CD DVD ROM drives in the
93. S485 SP1 COM2 Signaling RS 232 RS 422 RS485 VGA Graphic Signaling USBO USB Port Signaling USB1 USB Port Signaling KB PS2 Keyboard Signaling PS2 PS2 Mouse Signaling SPEAKER Standard PC Speaker FAN Fan Sensoring LPa Rear I O LAN Port B LPb Rear I O LAN Port A CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Table 2 31 Functional Description CompactPCI Rear UO Connector J4 Pinout GND Note The J4 connector module Warning 1 GND PIM 61 PIM 63 GND PIM 62 PIM 64 2 GND PIM 57 PIM 59 GND PIM 58 PIM 60 GND 3 GND GND GND GND GND GND GND 4 GND PIM 53 PIM 55 GND PIM 54 PIM 56 GND 5 GND PIM 49 PIM 51 GND PIM 50 PIM 52 GND 6 GND GND GND GND GND GND GND 7 GND PIM 45 PIM 47 GND PIM 46 PIM 48 GND 8 GND PIM 41 PIM 43 GND PIM 42 PIM 44 GND 9 GND GND GND GND GND GND GND 10 GND PIM 37 PIM 39 GND PIM 38 PIM 40 GND 11 GND PIM 33 PIM 35 GND PIM 34 PIM 36 GND 12 14 Key Area 15 GND PIM 29 PIM 31 GND PIM 30 PIM 32 GND 16 GND PIM 25 PIM 27 GND PIM 26 PIM 28 GND 17 GND GND GND GND GND GND GND 18 GND PIM 21 PIM 23 GND PIM 22 PIM 24 GND 19 GND PIM 17 PIM 19 GND PIM 18 PIM 20 GND 20 GND GND GND GND GND GND GND 21 GND PIM 13 PIM 15 GND PIM 14 PIM 16 GND 22 GND PIM 9 PIM 11 GND PIM 10 PIM 12 GND 23 GND NC RIO_VCC GND NC RIO_3 3V GND 24 GND PIM
94. Safe default setting is Enabled Option Description Disabled This option disables the SMBIOS SMI Support Enabled This option enables the SMBIOS SMI Support for the PNP Function 50 h 54 h This is the default setting Chapter 3 Advanced BIOS Setup 27 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued REMOTE ACCESS CONFIGURATION SCREEN Remote Access Configuration You can use this screen to select options for the Remote Access Configuration Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below Enabled Remote Access You can disable or enable the BIOS remote access feature here The Optimal and Fail Safe default setting is Enabled Option Description Disabled Set this value to prevent the BIOS from using Remote Access Enabled Set the value for this option to Enabled to allow the system to use the remote access feature The remote access feature requires a dedicated serial port connection This is the default setting Serial Port Number Select the serial port you want to use for console redirection You can set the value for this option to either CH COM1 or ICH COM2 The Optimal and Fail Safe default setting is ICH COM1 Option Description ICH COM1 Set this value t
95. Watchdog 6 0 Reserved 7 0 Reserved ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 4 15 Configuration CP6000 4 5 5 Geographic Addressing Register The geographic addressing register describes the CompactPCI geographic addressing sig nals Table 4 19 Geographic Addressing Register Geographic Addressing Register 0x283 0 GAO Geographic address 1 GA1 Geographic address 2 GA2 Geographic address 3 GA3 Geographic address 4 GA4 Geographic address 5 0 Reserved 6 0 Reserved 7 0 Reserved D Page 4 16 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration The interrupt configuration register holds a series of bits defining the interrupt routing for the watchdog the power control derate signal and the CompactPCI enumeration signal If the watchdog timer fails it can generate three independent hardware events reset NMI and IRQ5 interrupt 4 5 6 Watchdog CompactPCI Interrupt Configuration Register The enumeration signal is generated by a hot swap compatible board after insertion and prior to removal The system uses this interrupt signal to force software to configure the new board The derate signal indicates that the power supply is beginning to derate its power output Table 4 20 Watchdog CompactPCI Interrupt Configuration Register Interrupt Config
96. a GML NorthBridge Configuration You can use this screen to select options for the NorthBridge Configuration Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option Note The NorthBridge Configuration setup screen varies depending on the supported NorthBridge chipset Primary Video Device 50 Chapter 7 Chipset Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chipset Setup Continued SOUTHBRIDGE CONFIGURATION SouthBridge Configuration Vou can use this screen to select options for the SouthBridge Configuration SouthBridge is a chipset on the motherboard that controls the basic I O functions USB ports audio functions modem functions IDE channels and PCI slots Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option Note The SouthBridge Configuration setup screen varies depending on the supported SouthBridge chipset IORPIC Enabled Chapter 7 Chipset Setup 51 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intentionally left blank 52 Chapter 7 Chipset Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 8 OEM Feature Select the OEM Feature tab from the CP6000 setup screen to enter the Kontron specific BIOS Setup screen You can display a Kontron BIOS Setup o
97. able e Complete IPMI watchdog functionality e Complete SEL SDRR and FRU functionality e Master Read Write 1 C support for external PC communication devices FRU EEPROM FAN BMC or PM operation mode can be configured via BIOS e Firmware can be updated in the field e Firmware fully customizable according to the customer needs e Interoperable with other IPMI solution 2 4 3 1 Sensors Implemented on the CP6000 The IPMI firmware includes many sensors The CP6000 implements several sensors such as sensors for voltage and pass fail type signal monitoring Each sensor s description is built in the IPMI firmware and is accessible to the SMS The following tables indicate the signals implemented on the CP6000 Table 2 34 Processor and Chipset Supervision FUNCTION DESCRIPTION j PCI reset Em d Status of PCI reset signal System reset Status of reset input to chipset Chipset Sleep state Status of chipset sleep state Critical interrupt NMI Status of processor NMI line Critical interrupt SMI Status of processor SMI line D Page 2 42 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description y Table 2 35 CompactPCI Sensors System slot detection Indicates board is in a system slot Backplane power supply FAIL Status of power supply Backplane power supply DER Status of power supply
98. able the USB 2 0 controller This is the default setting USB 2 0 Controller Mode Set this value to allow the system to configure the USB 2 0 controller The Optimal default setting is Full Speed The Fail Safe default setting is HiSpeed Option Description Full Speed Set this value to configure the USB 2 0 controller in Full Speed 12 Mbps HiSpeed Set this value to configure the USB 2 0 controller in HiSpeed 480 Mbps USB Mass Storage Device Configuration Chapter 3 Advanced BIOS Setup Configure the USB Mass Storage Class Devices More Information displays the BIOS help 31 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intentionally left blank 32 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 4 PCI PnP Setup Select the PCI PnP tab from the CP6000 setup screen to enter the Plug and Play BIOS Setup screen You can display a Plug and Play BIOS Setup option by highlighting it using the lt Arrow gt keys All Plug and Play BIOS Setup options are described in this section The Plug and Play BIOS Setup screen is shown below Plug and Play O S Set this value to allow the system to modify the settings for Plug and Play operating system support The Optimal and Fail Safe default setting is No Option Description No The No setting is for operating systems that do not meet the Plug and Play spec
99. afe default setting is Disabled CPU Performance The CPU performance will be reduced to the selected value when reaching the temperature threshold CPU Performance 12 5 25 50 75 56 Chapter 8 OEM Feature CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued LAN BOOT Etherboot Rom Disabled Etherboot ROM Enable LAN Boot When enabled the BIOS loads the Etherboot Expansion ROM The Optimal and Fail Safe default setting is Disabled Chapter 8 OEM Feature 57 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued System INFO E S amixxx AMIBCP simulate exe E AE BIOS SETUP UTILITY Geographic Addressing Displays the slot in which the card is placed starting on the Left side with address 0 Logic Index This is a display only field which reflects the value of an onboard register It shows the index of the onboard logic Hardware Index This is a display only field which reflects the value of an onboard register It shows the index of the Hardware Index Board Version This is a display only field which reflects the value of an onboard register This must always correspond with the CPU on which the BIOS is installed System Slot Displays whether the board is in a System Slot or not Serial Number EKS Index This is a display only field which shows Kontron internal information about the board EKS Index refers to the production n
100. al 0 C to 60 C Standard 40 C to 85 C E2 optional only with designated CPU types and DDR memory modules Storage 55 C to 85 C Without hard disk ID 27942 Rev 05 5 40 C to 65 C With hard disk Climatic Humidity 93 RH at 40 C non condensing acc to IEC 60068 2 78 Dimensions 233 35 mm x 160 mm Board Weight 477 g 4HP variants with standard heat sink and without mezzanine boards Battery 3 0V lithium battery for RTC with battery socket Recommended types VARTA CR2025 PANASONIC BR2020 Front Panel Connectors e VGA 15 pin D Sub connector e USB two 4 pin connectors e Ethernet up to two RJ 45 connectors e COM 9 pin D Sub connector PMC front panel Onboard Connectors e Two EIDE interfaces supporting Ultra ATA 100 66 33 e One 44 pin 2 0 mm connector E e One 40 pin 2 54 mm connector e CompactFlash socket for type I Il and MicroDrive devices primary CO EIDE interface e UO extension connector e PMC connector Jn1 Jn4 e Optional SATA connectors either one 7 pin standard SATA connector or two 12 pin SATA extension connectors CompactPCI Connector J1 and J2 J3 J5 optional e 5 pin PS 2 connector keyboard e Two 200 pin SODIMM sockets DW 2005 Kontron Modular Computers GmbH Page 1 15 Introduction CP6000 LEDs System status TH green Overtemperature Status when remains lit during bootup it indicates a PCI reset is active WD green
101. amp up the onboard supply voltage This is done to avoid transients on the 3 3V 5V 12V and 12V power supplies from the hot swap system When the power supply is stable the hot swap controller generates an onboard reset to put the board into a definite state 2 3 14 6 Precharge Precharge is provided on the CP6000 by a resistor on each signal line PCI bus connected to a 1V reference voltage If the board is configured in the system master configuration the ref erence voltage is disabled Page 2 28 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description 2 3 14 7 Handle Switch A microswitch is situated in the extractor handle Opening the handle initiates the generation of a local interrupt produced by the onboard logic The microswitch is routed to J11 on the board 2 3 14 8 ENUM Interrupt The onboard logic generates a low active interrupt signal to indicate that the board is about to be extracted from the system or inserted into the system This interrupt is only generated in the peripheral master configuration In system master configuration the ENUM signal is an input 2 3 14 9 Hot Swap LED On the CP6000 a blue HS LED can be switched on or off by software It may be used for ex ample to indicate that the shutdown process is finished and the board is ready for extraction ID 27942 Rev 05 O 2005 Kontron Modular
102. and Slave Settings From the IDE Configuration screen press lt Enter gt to access the sub menu for the primary and secondary IDE master and slave drives Use this screen to select options for the Primary and Secondary IDE drives Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen for the Primary IDE Master is shown below 12 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued Drive Parameters The grayed out items in the left frame are the IDE disk drive parameters taken from the firmware of the IDE disk drive selected The drive parameters listed are as follows LBA Mode LBA Logical Block Addressing is a method of addressing data on a disk drive In LBA mode the maximum drive capacity is 137 GB For drive capacities over 137 GB your AMIBIOS must be equipped with 48 bit LBA mode addressing If not contact your motherboard manufacturer or install an ATA 133 IDE controller card that supports 48 bit LBA mode Block Mode Block mode boosts IDE drive performance by increasing the amount of data transferred Only 512 bytes of data can be transferred per interrupt if block mode is not used Block mode allows Do transfers of up to 64 KB per interrupt PIO Mode IDE PIO mode programs timing cycles between the IDE
103. ard legacy diskette controller Floppy Drive A and B Move the cursor to these fields via up and down lt arrow gt keys Select the floppy type The Optimal setting for floppy drive A is 1 44 MB 3 The Fail Safe setting for floppy drive A is 1 44 MB 3 2 The Optimal setting for floppy drive B is Disabled The Fail Safe setting for floppy drive B is Disabled Option Description Disabled Set this value to prevent the use of the selected floppy disk drive channel This option should be set if no floppy disk drive is installed on the specified channel This is the default setting for Floppy Drive B 360 KB 5 Y Set this value if the floppy disk drive attached to the corresponding channel is a 360 KB 514 floppy disk drive 1 2 MB 5 Y Set this value if the floppy disk drive attached to the corresponding channel is a 1 2 MB 51 4 floppy disk drive 720 KB 3 Y Set this value if the floppy disk drive attached to the corresponding channel is a 720 KB 314 floppy disk drive 1 44 MB 3 Y Set this value if the floppy disk drive attached to the corresponding channel is a 1 44 MB 3 2 floppy disk drive This is the default setting for Floppy Drive A 18 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued SUPER 10 CONFIGURATION SCREEN SuperlO Configuration Screen You can use this screen to select options
104. cccncccccccooo 6 7 6 6 Power Consumption Windows 2000 100 CPU Usage 0088 6 7 6 7 Power Consumption Windows 2000 3D Mark Benchmark ooo o 6 8 6 8 Power Consumption Windows 2000 Intel High Power Tool 00 6 8 6 9 Power Consumption Table for CP6000 Accessories 6 8 7 1 Intel 82546 Dual Gigabit Ethernet Controller Power Supply 7 6 B 1 CP6000 EXT SATA Module Main Specifications B 3 B 2 Board to Board Connector J3 Piot B 5 B 3 Board to Board Connector J1 Pinout ccccccceceeeeeeeeeeeeneeneeeeseneeseeeeeeeeeess B 5 B 4 SATA Connector J2 Pinout is B 6 ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page xi Preface m D Page xii This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface 1 1 1 2 1 3 1 4 2 1 2 3 2 4 2 5 2 6 2 7 2 8 2 9 2 10 2 11 2 12 2 13 2 14 2 15 4 1 4 2 6 1 7 1 7 2 A 1 B 1 B 2 B 3 List of Figures CP6000 Functional Block Diagram oooooooccoccccccccnccccononononononnnnnnnnnnononanonnns 1 7 CP6000 4 AP Front POROS SA AAA 1 8 CP6000 Board Layout Front View cccccccccseeeeeeeeeeeenseeeeeeseensenneeees 1 9 CP6000 Board Layout Reverse View oooocooocicicicicicicoconcccncnonicocininnnnn
105. ce with low power consumption This processor is based on a new core which is optimized for low power consumption The Intel Pentium M supports the latest Intel SpeedStep technology which enables real time dynamic switching of the voltage and frequency between several modes This is achieved by switching the bus ratios core operating voltage and core processor speeds without reset ting the system The frequency for the Pentium M processor may also be selected in the BIOS The following list sets out some of the key features of this processor e Supports Intel Architecture with Dynamic Execution e High performance low power core e On die primary 32 kB instruction cache and 32 kB write back data cache e On die second level cache with Advanced Transfer Cache Architecture e Intel Celeron M with 512 kB L2 cache e Intel Pentium M with 1024 kB L2 cache e Intel Pentium M with 2048 kB L2 cache Advanced Branch Prediction and Data Prefetch Logic e Streaming SIMD Extensions 2 SSE2 400 MHz Source Synchronous processor system bus Advanced Power Management features including Enhanced Intel SpeedStep tech nology ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 2 3 Functional Description The following tables indicate the Intel Pentium M processors supported on the CP6000 CP6000 their maximum power dissipation and their core voltage in the various frequency modes Table 2 1 Supp
106. cinininanns 2 35 2 30 CompactPCI Rear I O Connector J3 Signals oooooooooicccccoccccccccccnonononononnnos 2 36 2 31 CompactPCI Rear I O Connector J4 Pinout aaananeeeeneeennaann0aaaannnnanna 2 37 2 33 CompactPCI Rear I O Connector J5 Signals oooooooooicccocococcccccccncnononononnnos 2 38 2 32 CompactPCI Rear I O Connector J5 Pinout Ae 2 38 2 34 Processor and Chipset Supervision 2 42 2 39 CompactPCI EE an ame oeil anne 2 43 2 36 Onboard Power Supply Supervision 2 43 2 37 Reset E 2 43 2 38 Onboard Voltage Sensors shine AAA 2 43 2 39 Temperature Sensors 2 44 2 40 Fan Sense Sensors A la Ra 2 44 4 1 CompactFlash Configuration 4 3 4 2 Clearing BIOS CMOS Setup srvurasssaseronmnmmannnnanneneenrermentieneneneseness 4 3 4 3 Shorting Chassis GND Shield to Logic GN 4 3 4 4 VGA CRT Jumper Setting nos 4 4 4 5 General Purpose LED Setting EEN 4 4 4 6 Resistor Setting to Configure COM 4 5 4 7 Jumper Setting for RS 422 RXD Termination COM 4 6 4 8 Jumper Setting for RS 422 TXD and RS 485 Termination COM1 4 6 4 9 Resistor Setting to Configure COM 4 7 4 10 Jumper Setting for RS 422 RXD Termination COM2 ssssasssnnnssnnnnnnnnnnnnnn 4 8 4 11 Jumper Setting for RS 422 TXD and RS 485 Terminatio
107. contact with the backplane connectors 3 Using both ejector handles engage the board with the backplane When the ejector handles are locked the board is engaged 4 Fasten the two front panel retaining screws 5 Connect all external interfacing cables to the board as required 6 Ensure that the board and all required interfacing cables are properly secured 4 The CP6000 is now ready for operation For operation of the CP6000 refer to appropriate CP6000 specific software application and system documentation Warning During power up the 3 3 V input power supply must be able to provide a minimum peak current of 10 A to the CP6000 This applies for each CP6000 in a given system Failure to comply with the above warning may result in damage to or improper operation of the CP6000 Page 3 4 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Installation e 3 3 Standard Removal Procedures To remove the board proceed as follows 1 Ensure that the safety requirements indicated in Chapter 3 1 are observed Particular at tention must be paid to the warning regarding the heat sink Warning Care must be taken when applying the procedures below to ensure that neither the CP6000 nor system boards are physically damaged by the application of these procedures Ensure that no power is applied to the system before proceeding Disconnect an
108. ct an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below IPMC Watchdog Timer Action This item specifies the IPMC watchdog timer actions and allows the IPMC to reset or power down the system if the operating system crashes or hangs The settings are Disabled Reset System Power Down or Power Cycle The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to prevent the computer system from using the IPMC watchdog timer This is the default setting Reset System Set this value to reset the computer system Power Down Set this value to power down the computer system Power Cycle Set this value to power cycle the computer system IPMC Watchdog Time Out This item specifies the amount of time for the IPMC to wait before assuming the system has crashed and needs to be reset The settings are 5 Min 1 Min 30 Sec or 10 Sec The Optimal and Fail Safe default setting is 3 Min Chapter 3 Advanced BIOS Setup 25 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued KCS SMS IRQ This option is used to select the IRQ for the system management software The Optimal and Fail Safe default setting is Disabled Option Description Disabled No IRQ is reserved This is the default setting IRQS IRQ7 Set this value to all
109. ctionality support up to 7 peripheral boards with 32 bit 33 MHz Peripheral Slot Functionality When installed in a peripheral slot the CP6000 is electrically isolated from the CompactPCI bus It receives power from the backplane and supports rear IO and if the system supports it packet switching in this case up to two channels of Gigabit Ethernet Hot Swap Compatibility When operated as a System Master the CP6000 supports individual clocks for each slot and ENUM signal handling is in compliance with the PICMG 2 1 Hot Swap Specification When operated in a peripheral slot the CP6000 supports basic hot swap Operating Systems The CP6000 can be operated under the following operating systems Microsoft Windows 2000 Microsoft Windows XP Microsoft Windows XP Embedded e Linux e VxWorks Please contact Kontron Modular Computers for further information concern ing other operating systems D Page 1 6 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction The following diagrams provide additional information concerning board functionality and component layout 1 5 Board Diagrams 1 5 1 Functional Block Diagram Figure 1 1 CP6000 Functional Block Diagram o CPU oO Front Panel connectors O Onboard connectors oO Bus Connector SATA 1 2 J5 CPCI rie secon J4 CPCI PMC Rear UO VGA uz 33 CPCI ke
110. d Checkpoint 2A Description Initialize different buses and perform the following functions Reset Detect and Disable function 0 Static Device Initialization function 1 Boot Output Device Initialization function 2 Function O disables all device nodes PCI devices and PnP ISA cards It also assigns PCI bus numbers Function 1 initializes all static devices that include manual configured onboard peripherals memory and I O decode windows in PCI PCI bridges and noncompliant PCI devices Static resources are also reserved Function 2 searches for and initializes any PnP PCI or AGP video devices 38 Initialize different buses and perform the following functions Boot Input Device Initialization function 3 IPL Device Initialization function 4 General Device Initialization function 5 Function 3 searches for and configures PCI input devices and detects if system has standard keyboard controller Function 4 searches for and configures all PnP and PCI boot devices Function 5 configures all onboard peripherals that are set to an automatic configuration and configures all remaining PnP and PCI devices Chapter 12 POST Codes 79 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intentionally left blank 76 Chapter 12 POST Codes CP6000 UG ID 27942 Rev 05 Index 1 1st Boot Device 41 2 2nd Boot Device 41 3 32Bit Data Transfer 16 3rd Boot Device 41 A
111. d that uses the PCI local bus This is the default setting No Set this value to prevent the allocation of an IRQ to a VGA adapter card that uses the PCI local bus Palette Snooping Set this value to allow the system to modify the Palette Snooping settings The Optimal and Fail Safe default setting is Disabled Option Description Disabled This is the default setting and should not be changed unless the VGA card manufacturer requires Palette Snooping to be Enabled Enabled This setting informs the PCI devices that an ISA based Graphics device is installed in the system It does this so the ISA based Graphics card will function correctly This does not necessarily indicate a physical ISA adapter card The graphics chipset can be mounted on a PCI card Always check with your adapter card s manuals first before modifying the default settings in the BIOS 34 Chapter 4 PCI PnP Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH PCI PnP Setup Continued PCI IDE BusMaster Set this value to allow or prevent the use of PCI IDE busmastering The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to prevent PCI busmastering This is the default setting Enabled This option specifies that the IDE controller on the PCI local bus has mastering capabilities OffBoard PCI ISA IDE Card Set this value to allow the OffBoard PCI ISA IDE
112. drive and the programmable IDE M Sole as dle MO mote os ee O SMART Self Monitoring Analysis and Reporting Technology protocol used by IDE drives of some manufacturers to predict drive failures Type This option sets the type of device that the AMIBIOS attempts to boot from after the Power On Self Test POST has completed The Optimal and Fail Safe default setting is Auto Option Description Not Installed Set this value to prevent the BIOS from searching for an IDE disk drive on the specified channel Auto Set this value to allow the BIOS auto detect the IDE disk drive type attached to the specified channel This setting should be used if an IDE hard disk drive is attached to the specified channel This is the default setting CDROM This option specifies that an IDE CD ROM drive is attached to the specified IDE channel The BIOS will not attempt to search for other types of IDE disk drives on the specified channel ARMD This option specifies an ATAPI Removable Media Device This includes but is not limited to es ZIP e LS 120 LBA Large Mode LBA Logical Block Addressing is a method of addressing data on a disk drive In LBA mode the maximum drive capacity is 137 GB The Optimal and Fail Safe default setting is Auto Note For drive capacities over 137 GB your AMIBIOS must be equipped with 48 bit LBA mode addressing If not contact your motherboard manufacturer or install an ATA 133 IDE controller card
113. dule Layout oococccccccccccccncnnnonncnnonononn nono nnnnnnnnos B 4 B 4 1 CP6000 EXT SATA Module Layout cooooooooooococccccccccccccccocanananananann non B 4 E Ee B 5 DAT Board to Board Connectors J1 and JN B 5 E SATA Connector J2 seen ebe B 6 Annex C C AMIBIOS 8 a O E E C 3 D Page viii O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface 1 1 1 2 1 3 1 4 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 2 10 2 11 2 12 2 13 2 14 2 15 2 16 2 17 2 18 2 19 2 20 2 21 2 22 2 23 2 24 2 25 2 26 2 27 2 28 List of Tables System Relevant Information 2 c ccccenscccccecesesevesennnnsnenseeeeeeeeceeeene 1 6 CP6000 4HP Version Main Specifications 1 11 MANTAS A PU PP LE 1 18 Related Publications nana A 1 19 Supported Intel Pentium M Processors on the CP6000 010008 2 4 Maximum Power Dissipation of Intel Pentium M CPU only 2 4 Intel Pentium M Core Voltage in the Various Frequency Modes 2 4 Supported Intel Celeron M Processor on the CP6000 icccccccccccccncccnoo 2 5 Maximum Power Dissipation of Intel Celeron M CPU oni 2 5 Memory Options Utilizing SODIMM Sockets 2 5 SM Bus Device Addresses iicnccriinninia ii dia Aa ARA 2 9 EEPROM Addr ss Map amandes 2 10 Keyboard
114. e If the onboard SATA interface will be used due to the big SATA connector and the stiffly cable the CP6000 will have a thickness of 8HP and the 2 5 HDD cannot be directly mounted on the CP6000 Vice versa if an onboard 2 5 HDD is mounted on the CP6000 the SATA connector J18 cannot be used 2 3 12 2 5 SATA HDD Extension Connectors J30 and J31 Optional The CP6000 can be equipped with two optional 12 pin female SATA extension connectors J30 and J31 These connectors are used to connect an onboard 2 5 Serial ATA HDD to the CP6000 through the CP6000 EXT SATA module For further information on the CP6000 EXT SATA module refer to Appendix B D Page 2 22 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description y Figure 2 11 SATA Extension Connectors J30 and J31 21 21 J30 J31 12 11 12 11 Table 2 19 SATA Extension Connector J30 Pinout d DND Ground signal 2 GND Ground signal 3 SATA_TX2 Differential Transmit 0 4 GND Ground signal 5 SATA_TX2 Differential Transmit 0 6 GND Ground signal 7 GND Ground signal 8 SATA_RX2 Differential Receive 9 GND Ground signal 10 SATA_RX2 Differential Receive 11 GND Ground signal 12 GND Ground signal Table 2 20 SATA Extension Connector J31 Pinout ID 27942 Rev 05 1
115. e The CP6000 supports up to seven CompactPCI loads through a passive backplane The CP6000 is fully compliant with the PCI Local Bus Specification Rev 2 2 for 32 bit 33 MHz 2 3 14 2 Peripheral Master Configuration Passive Mode In a peripheral slot the board receives power but does not communicate on the CompactPCI bus all CompactPCI signals are isolated In this configuration the communication is achieved via the two Gigabit Ethernet ports as de fined in the PICMG 2 16 specification In the passive mode the board may be hot swapped 2 3 14 3 Packet Switching Backplane PICMG 2 16 The CP6000 supports a dual Gigabit Ethernet link port Node on the J3 connector in accor dance with the CompactPCI Packet Switching Backplane Specification PICMG 2 16 Version 1 0 The two nodes are connected in the chassis via the CompactPCI Packet Switching back plane to the Fabric slots A and B The PICMG 2 16 feature can be used in the system slot and in the peripheral slot 2 3 14 4 Hot Swap Support To ensure that a board may be removed and replaced in a working bus without disturbing the system the following additional features are required e Power ramping e Precharge e Hot swap control and status register bits e Automatic interrupt generation whenever a board is about to be removed or replaced An LED to indicate that the board may be safely removed 2 3 14 5 Power Ramping On the CP6000 a special hot swap controller is used to r
116. e BIOS setup if needed requested 8C Late POST initialization of chipset registers 8D Build ACPI tables if ACPI is supported 8E Program the peripheral parameters Enable Disable NMI as selected 90 Late POST initialization of system management interrupt AO Check boot password if installed A1 Clean up work needed before booting to OS A2 Takes care of runtime image preparation for different BIOS modules Fill the free area in FOOOh segment with OFFh Initializes the Microsoft IRQ Routing Table Prepares the runtime language module Disables the system configuration display if needed A4 Initialize runtime language module A7 Displays the system configuration screen if enabled Initialize the CPU s before boot which includes the programming of the MTRRs A8 Prepare CPU for OS boot including final MTRR values A9 Wait for user input at config display if needed AA Uninstall POST INT1Ch vector and INTO9h vector Deinitializes the ADM module AB Prepare BBS for Int 19 boot AC End of POST initialization of chipset registers B1 Save system context for ACPI 00 Passes control to OS Loader typically INT19h Chapter 12 POST Codes CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH DIM Code Checkpoints The Device Initialization Manager module gets control at various times during BIOS POST to initialize different BUSes The following table describes the main checkpoints where the DIM module is accesse
117. e boards is an C interface IPMB On CompactPCI systems this interface is provided on IPMI prepared backplanes and guarantees the data path between the boards The devices which handle the measurements and the protocol stack are microcontrollers known as Baseboard Management Controller BMC and Peripheral Management Controller PM The entire IPMI protocol is controlled by the BMC On the CP6000 the IPMI controller can be configured to act as BMC or PM The interface between the system controller CPU s System Management software and the BaseBoard Management Controller is realized as a keyboard controller style interface KCS which can be found in the board s I O space Figure 2 15 IPMI Functional Block Diagram Status LEDs Push Button Inputs System Chassis Fan Modules de at TY D D CPU Boards D Page 2 40 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 2 4 2 BMC BT SEL SDR SDRR IPMI IPMB KCS FRU PM SMS Functional Description y IPMI Glossary Base Board Management Controller In a CompactPCI chassis there can be only one BMC present Block Transfer Interface System Event Log The SEL repository is present only in the BMC Sensor Data Record Sensor Data Record Repository The SDRR is only present in the BMC Normally the SDRR contains all sensor records of the chassis Int
118. e ei ae hea ee ee 58 Hardware Index iii ii te e 58 Board V rSiOn for fetes ti a eed A RRA A anaes 58 System NN 58 S nal NUMBER e de e e e e e 58 ERS NO e e ee O eege 58 Ident NUMDET EE 58 ET O EE 58 OEM Feature Continued siii remet od hea Hosea iii dus 59 ROSE ne RER eee Ee 59 Delay for PCI Config Cycle see 59 Accept Class Code EE 59 OEM Feature CONTNUC Gita tae ai tcc et A E A E n 60 Ke ul e PR EE SE gues ah ves nae suhag ve EU PO ars 60 IRQS ROUND ir erie tec rie tigen dans ie nies date dang daca atta UE EE EE ie 60 Watchdog Oe decks eue does en es de o Uke ahd ot emi teas 60 WD Active TIM A el eee e edo trae a le de 60 OEM Ecalure Continue A A Ne Bi a RAT 61 ACUVETOMDODE HN Res en cae toa eee an eden cena do de e tent es 61 SUE TE 61 vi Preface CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 9 Power S tup EE 63 Power Management APM Akkuen 63 Power Savings Under AC occitano eee e 63 Power Savings Level uo arteria 63 Suspend Time Out Minute sise 63 Power Button Mode 2 24 hed ee onthe seus de SE eessen tion Mode dde 63 Power Setup Continue A E 64 USB Controller Resume 23 s 00 0 Snel pement diner rien int 64 PME RO SUO anne ne Ad et des Le ds et a a eee as 64 FRUROSUIM Gs ee E id e A es asada 64 Chapter 10 Etienne eege eege 65 Save Changes and EXlbuicnc tadas lili hu lame iM amine dti nt 65 ExXItMen Continued td Euh eau a EE aia 66 Discard Changes and Exit issues 66 Discard
119. e isolated to the logic ground To enable the connection between the chassis GND and logic GND the capacitors must be exchanged with zero ohm resistors Table 4 3 Shorting Chassis GND Shield to Logic GND Closed 470pF 2KV capacitors Connectors are isolated to logic GND with three 470pF 2KV capacitors C51 C66 C78 Connectors are connected to logic GND and chassis Closed zero ohm resistors GND The default setting is indicated by using italic bold ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 4 3 Configuration CP6000 4 1 4 VGA CRT Rear I O Configuration The VGA CRT signals are configurable either for rear I O or front I O using the jumper J23 Table 4 4 VGA CRT Jumper Setting Closed Only rear I O The default setting is indicated by using italic bold 4 1 5 Front l and Front Il General Purpose LEDs The General Purpose LEDs are available for either general application use or indicating the POST code during boot up When POST code is selected the General Purpose LEDs indicate POST code during BIOS boot up If not required to indicate POST code they can be used as general purpose LEDs Table 4 5 General Purpose LED Setting J22 open General purpose functionality The default setting is indicated by using italic bold Page 4 4 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 CP6000 Configuration gt 4 1 6 Serial Ports
120. e setting is described on the following page An example of the CPU Configuration screen is shown below S amixxx AMIBCP simulate exe BIOS SETUP UTILITY Intel lt R gt SpeedStep lt tm tech N A Intel SpeedStep tech This item specifies the Intel Speed Step Feature The settings are Maximum Performance Battery Optimized Reversed Automatic and Disabled The Optimal and Fail Safe default setting is Maximum Performance If Maximum Performance is selected the BIOS will enable high CPU speed 1 1 GHz or 1 6 GHz Using Automatic allows the operating system to control the CPU speed The BIOS will start with high CPU speed All other settings will force the BIOS to use low speed 600 MHz 8 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup IDE CONFIGURATION SCREEN IDE Configuration Settings You can use this screen to select options for the IDE Configuration Settings Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option A description of the selected item appears on the right side of the screen The settings are described on the following pages An example of the IDE Configuration screen is shown below IDE Configuration This item specifies the IDE channels used by the onboard PCI IDE controller The settings are Disabled P ATA only S ATA only
121. ear User Password 7 teet oe des de ne tt nine de ted te 47 Boot Sector Virus Protection ooooooocccnocccnnnocccnnonccnnonnnncnnnnnnnnnncnn nan nnn narran rra n nr nn 47 CHANGE SUPERVISOR PASSWORD sisi 47 Change Supervisor Password 47 Security Setup Continued seen 48 Change User Password siennes 48 Clear USE PASS WOTd sic A it ee dE 48 Chapter 7 Chipset Setup coin ee erase 49 Chipset Setup Continue 50 Intel Montara GML NORTHBRIDGE CONFIGURATION sssssssssssnssinnesinsesrrensrrnssrrnssrrn nerens nne 50 Intel Montara GML NorthBridge Configuration 50 Chipset Setup Continued seen 51 SOUTHBRIDGE CONFEIGURATION nan nrnnnn nn nnnnnnnnnnnnss 51 SouthBridge Configuration ss 51 Chapter 8 OEM Feature vicio ne nettes onde nat iii 53 OEM Fe t re Continu d 5 35224482822 lleida tdo eds taht onda A AT label 54 CIO CK SPreading Ees cidad she see rdc dicta 54 OEM Feature Continued oist a il 55 PC Healthize ec O 55 OEM Feature Continued eee 56 Temperature Monitor rennes ads 56 Eer LE 125 C25 0 Fes ies det ege lege ie un 56 Automatic Thermal Monitor ss 56 Auto Thermal Tbrotilmg oxicorte ii 56 CP P rfofmance zss sites Sd A cave Res a A 56 OEM Feature CONTINUA ici iaa 57 EAN BEIEN SE Al and Stas Me Rene nee Mh EE 57 Elherbo0 ROM tr a em ee gereecht been ee 57 OEM Feature CONTINUE ges it 58 System INFO caido aaa o iia 58 Geographic Address iMg cd SEENEN EENS 58 Logic Index sis
122. econds Basically this allows you to fine tune the settings to allow for faster boot times Adjust this setting until a suitable timing that can detect all IDE disk drives attached is found The Optimal and Fail Safe default setting is 35 Option Description 0 This value is the best setting to use if the onboard IDE controllers are set to a specific IDE disk drive in the AMIBIOS 5 Set this value to stop the AMIBIOS from searching the IDE bus for IDE disk drives in five seconds A large majority of ultra ATA hard disk drives can be detected well within five seconds 10 Set this value to stop the AMIBIOS from searching the IDE bus for IDE disk drives in 10 seconds 15 Set this value to stop the AMIBIOS from searching the IDE bus for IDE disk drives in 15 seconds 20 Set this value to stop the AMIBIOS from searching the IDE bus for IDE disk drives in 20 seconds 25 Set this value to stop the AMIBIOS from searching the IDE bus for IDE disk drives in 25 seconds 30 Set this value to stop the AMIBIOS from searching the IDE bus for IDE disk drives in 30 seconds 35 35 is the default value It is the recommended setting when all IDE connectors are set to AUTO in the AMIBIOS setting Note Different IDE disk drives take longer for the BIOS to locate than others do 10 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued ATA PI 80 Pin Cable Detect
123. ect a CP6000 setup item or sub screen Plus Minus The Plus and Minus lt Arrow gt keys allow you to change the field value of a particular setup item For example Date and Time Tab The lt Tab gt key allows you to select CP6000 setup fields Note The lt F8 gt key on your keyboard is the Fail Safe key It is not displayed on the CP6000 key legend by default To set the Fail Safe settings of the BIOS press the lt F8 gt key on your keyboard It is located on the upper row of a standard 101 keyboard The Fail Safe settings allow the motherboard to boot up with the least amount of options set This can lessen the probability of conflicting settings Chapter 1 Starting CP6000 3 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Navigation Continued Hot Key F1 Description The lt F1 gt key allows you to display the General Help screen Press the lt F1 gt key to open the General Help screen General Help select Screen Select Item Change Screen Go to Sub Screen Next Page Previous Page Go to Top of the Screen Go to Bottom of Screen Change Colors Discard Changes Load Failsafe Defaults Load Optimal Defaults Save and Exit Exit F10 The lt F10 gt key allows you to save any changes you have made and exit CP6000 Setup Press the lt F10 gt key to save your changes The following screen will appear Save configuration changes and exit now Ok Cancel Press the lt Enter gt key to save
124. ee 1 9 1 6 Technical Specificatii ai eeh 1 11 1 7 Kontron Software Support nement ere 1 17 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page iii Preface CP6000 A A tetes 1 18 1 9 Related Publications ii done En 1 19 Chapter 2 2 Functional Description ii ii AAA A A ii 2 3 2 1 CPU Memory and Chipset nan intranet ont eee 2 3 CC CPU EA e E E 2 3 21A Memon AAA ti 2 5 2 1 3 855GME Chipset Overview ini ai 2 6 2 1 4 Graphics and Memory Controller Hub 855GME ooooccnniciccccccnn 2 7 21 3 VO Controller Hub 6300ESB siii ege eeege 2 7 E e 2 8 A TEE AA do I El arte 2 8 2 2 2 Watchdog TINGE ri AA A nen 2 8 AAPP E E E EE 2 8 E EE 2 9 2 2 5 SMBus Devices ata 2 9 2 2 6 Thermal Management System Monitoring oo 2 10 2 2 7 Serial EERR OM scoccsciaeuseaieieinigesstassdcqnoeeyeiaantasin gece 2 10 22 8 FLASH MeMO nement 2 10 2 3 E eer 2 11 2 3 1 Front Panel LEDS sise ica 2 11 2 3 2 Keyboard Mouse Interface AAA 2 12 23 3 USB Interfaco S iii AAA rie tele 2 12 2 34 Graphics Controller ai RA AA 2 13 239 GOM POMS ia 2 15 2 3 6 Floppy Drive Interface EE 2 15 2 37 ODA E 2 16 2 3 8 EIDE Interfaces nui ii 2 17 2 3 9 Extension Connector RE 2 22 2 3 10 Serial ATA Interface EE 2 22 2 3 11 Serial ATA Connector J18 Optional 2 22 Page iv 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758
125. egatrends Inc 6145F Northbelt Parkway Norcross GA 30071 This publication contains proprietary information which is protected by copyright No part of this publication may be reproduced transcribed stored in a retrieval system translated into any language or computer language or transmitted in any form whatsoever without the prior written consent of the publisher American Megatrends Inc Limitations of Liability In no event shall American Megatrends be held liable for any loss expenses or damages of any kind whatsoever whether direct indirect incidental or consequential arising from the design or use of this product or the support materials provided with the product Trademarks Intel Pentium Pentium Pro Pentium II Pentium III Pentium 4 and Xeon are registered trademarks of Intel Corporation MS DOS Microsoft Word and Microsoft are registered trademarks of Microsoft Corporation Microsoft Windows Windows NT Windows 95 Windows 98 Windows Me Windows 2000 Windows XP and NET are trademarks of Microsoft Corporation AT XT CGA VGA PS 2 OS 2 and EGA are registered trademarks of International Business Machines Corporation All other brand and product names are trademarks or registered trademarks of their respective companies ii Preface CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Table of Contents Limitations Of HabIlty 5282 dada Rat ii delen EE ii Table ot Contents dde eee ene eh eek
126. el Celeron M Processor on the CP6000 UFCBGA 512 kB 1 356 V 400 MHz Table 2 5 Maximum Power Dissipation of Intel Celeron M CPU only Maximum Power 2 1 2 Memory The CP6000 has two SODIMM sockets for installing memory and supports a maximum of 2 GB All installed memory will be automatically detected so there is no need to set any jumpers The CP6000 supports all DDR200 DDR266 and DDR333 SDRAMs on 200 pin SODIMMs with or without ECC offered by Kontron Modular Computers All memory components and SODIMMs used with this board must comply with the following PC DDR SDRAM memory spec ifications PC DDR SDRAM Memory Specification DDR200 DDR266 and DDR333 e PC Serial Presence Detect Specification Only qualified DDR SDRAMs from Kontron Modular Computers can be used with the CP6000 Table 2 6 Memory Options Utilizing SODIMM Sockets 512 MB 512 MB 512 MB 512 MB 512 MB 512 MB 1 GB 1 GB 1 GB 1 GB 1 GB 1 GB 1 GB 2 GB ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 5 Functional Description CP6000 Warning It is recommended to use only DDR333 PC2700 memory at once Do not mix DDR200 DDR266 and DDR333 modules otherwise the maximum perfor mance is given by the slowest module Do not mix ECC SODIMM modules with non ECC SODIMM modules other wise the ECC functionality is disabled Note The maximum memory size for the extended te
127. elligent Platform Management Interface Intelligent Platform Management Bus Keyboard Controller Style Field Replaceable Units A FRU is available in BMC or satellite mode Peripheral Management Controller The PM is a microcontroller located on the peripheral board in a Compact PCI system and handles the measurements and the protocol stack System Management Software ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 41 Functional Description CP6000 2 4 3 IPMI Implementation on the CP6000 This product fully supports Intelligent Platform Management Interface 1 5 and PICMG2 9 R1 0 specifications It uses a 16 bit micro controller Hitachi H8 2148 to run an IPMI firmware All the information collected by the IPMI controller is then accessible by software through a key board style Interface see IPMI Intelligent Platform Management Interface Specification V 1 5 for more information Features of the IPMI implemented on the CP6000 e Compliant with IPMI specification 1 5 revision 1 5 e Compliant with PICMG 2 9 specification e Firmware designed and specially made for CompactPCI implementation e KCS SMS interface with interrupt support e UO address map OxCA2 OxCA3 and OxCA4 OxCA5 e Dual Port IPMB configurable as two independent channels or in redundant mode Out of band management and monitoring using IPMB interface permits access to sen sors regardless of the SBC state e Sensor threshold fully configur
128. emand Boot from USB floppy disk drive BIOS boot support for USB keyboards e Plug and Play capability e BIOS parameters are saved in the EEPROM Board serial number is saved within the EEPROM PC Health Monitoring Software Operating Systems Operating systems supported Microsoft Windows 2000 Microsoft Windows XP Microsoft Windows XP Embedded Linux VxWorks 1 7 Kontron Software Support Kontron is one of the few CompactPCI and VME manufacturers providing inhouse support for most of the industry proven real time operating systems that are currently available Due to its close relationship with the software manufacturers Kontron is able to produce and support BSPs and drivers for the latest operating system revisions thereby taking advantage of the changes in technology Finally customers possessing a maintenance agreement with Kontron can be guaranteed hotline software support and are supplied with regular software updates A dedicated web site is also provided for online updates and release downloads ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 1 17 Introduction CP6000 1 8 Standards This Kontron Modular Computers product complies with the requirements of the following standards Table 1 3 Standards CE Emission E EN61000 6 3 Immission EN55024 EN61000 6 2 Electrical Safety EN60950 1 Mechanical Mechanical Dimen
129. eme overheating the processor will auto matically shut down when the die temperature has reached approximately 125 C This event is known as Thermtrip 7 1 1 CPU Internal Thermal Supervision This function can be enabled and disabled in the BIOS whereby the default value is disabled When the internal thermal control circuit has been enabled and a high temperature situation occurs the internal clocks are modulated by alternately turning the clocks off and on with a duty cycle dependent on the processor type typically 30 50 This results in the processor power dissipation being reduced accordingly Cycle times are processor speed dependent and will de crease linearly as processor core frequencies increase The thermal control circuit is automat ically deactivated when the temperature goes below the internal thermal supervision point The internal temperature sensor is located near on the hottest area of the processor die Each pro cessor is individually calibrated during manufacturing to eliminate any potential manufacturing variations Note The duty cycle and the internal thermal supervision point is factory configured by Intel and cannot be modified For all Mobile Pentium M processor the inter nal thermal supervision pointis 100 C ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 7 3 System Considerations CP6000 m 7 1 2 CPU External Thermal Supervision This function can be enabled and disabled
130. en handling the board due to the fact that the heat sink can get very hot Do not touch the heat sink when installing or removing the board a In addition the board should not be placed on any surface or in any form of storage container until such time as the board and heat sink have cooled down to room temperature Caution If your board type is not specifically qualified as being hot swap capable switch off the CompactPCI system power before installing the board in a free CompactPCI slot Failure to do so could endanger your life or health and may damage your board or system Note Certain CompactPCI boards require bus master and or rear UO capability If you are in doubt whether such features are required for the board you intend to install please check your specific board and or system documentation to make sure that your system is provided with an appropriate free slot in which to insert the board e D ESD Equipment This CompactPCI board contains electrostatically sensitive devices Please observe the necessary precautions to avoid damage to your board e Discharge your clothing before touching the assembly Tools must be dis charged before use Do not touch components connector pins or traces e If working at an anti static workbench with professional discharging equipment please do not omit to use it DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 3 3 Installation CP6000 r
131. es it content including the password when it is drained Note For more information on draining CMOS using the drain jumper see the motherboard user s manual Chapter 11 Deleting a Password 69 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intentionally left blank 70 Chapter 11 Deleting a Password CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 12 POST Codes Bootblock Initialization Code Checkpoints The Bootblock initialization code sets up the chipset memory and other components before system memory is available The following table describes the type of checkpoints that may occur during the bootblock initialization portion of the BIOS Checkpoint Description Before D1 Early chipset initialization is done Early super I O initialization is done including RTC and keyboard controller NMI is disabled D1 Perform keyboard controller BAT test Check if waking up from power management is in suspend state Save power on CPUID value in scratch CMOS DO Go to flat mode with 4GB limit and GA20 enabled Verify the bootblock checksum D2 Disable CACHE before memory detection Execute full memory sizing module Verify that flat mode is enabled D3 If memory sizing module not executed start memory refresh and do memory sizing in Bootblock code Do additional chipset initialization Re enable CACHE Verify that flat mode is enabled D4 Test base
132. esseseseseaseeeeeeeeseeeess B 4 SATA CONDE J2 En ete er ee cent B 6 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page xiii Preface m D Page xiv This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface y This document contains information proprietary to Kontron Modular Computers GmbH It may not be copied or transmitted by any means disclosed to others or stored in any retrieval system or media without the prior written consent of Kontron Modular Computers GmbH or one of its authorized agents Proprietary Note The information contained in this document is to the best of our knowledge entirely correct However Kontron Modular Computers GmbH cannot accept liability for any inaccuracies or the consequences thereof or for any liability arising from the use or application of any circuit product or example shown in this document Kontron Modular Computers GmbH reserves the right to change modify or improve this document or the product described herein as seen fit by Kontron Modular Computers GmbH without further notice Trademarks Kontron Modular Computers GmbH the PEP logo and if occurring in this manual CXM are trademarks owned by Kontron Modular Computers GmbH Kaufbeuren Germany In addition this document may include names company logos and trademarks w
133. f video memory up to 64 MB Gigabit Ethernet Up to four 10 Base T 100 Base TX 1000 Base T Gigabit Ethernet inter faces based on two Intel 82546GB Ethernet PCI X bus controllers e Two channels on rear I O e Two RJ45 connectors on the front panel Automatic mode recognition e Automatic cabling configuration recognition Cabling requirement Category 5 UTP four pair cabling USB ID 27942 Rev 05 Four USB ports supporting UHCI and EHCI e Two USB 2 0 connectors on the front panel e Two USB 2 0 on the rear I O interface O 2005 Kontron Modular Computers GmbH Page 1 13 Introduction Table 1 2 CP6000 4HP Version Main Specifications Continued CP6000 Serial Two 16C550 compatible UARTs on the rear UO interface RS 232 RS 422 and RS 485 signaling one thereof can be routed to the front panel PMC CMC PMC P1386 Draft 2 4a compliant mezzanine interface e Jnt Jn2 Jn3 and Jn4 PCI mezzanine connectors for standard PMC modules e 64 bit 33 MHz PCI interface or 64 bit 66 MHz PCI X interface Only 3 3V compatible e Rear I O supported through the CompactPCI connector J4 Keyboard and Mouse Keyboard and mouse are supported e USB Support on 4HP e PS 2 keyboard and mouse with rear I O module e g CTM80 2 e Separate onboard keyboard connector 5 pin that requires an adapter in order to be connected to a regular keyboard Mass Storage Interfaces EIDE Ultra ATA 100 66
134. ficient to allow for die resistance variations Note Non industrial ATX PSUS require a greater minimum load than a single CP6000 is capable of creating When a PSU of this type is used it will not power up correctly and the CP6000 may hangup The solution is to use an industrial PSU or to add more load to the system The start up behavior of CPCI and PCI ATX power supplies is critical for all new CPU boards These boards require a defined power of sequence and start up behavior of the power supply The required behavior is described in the ATX http www formfactors org FFDe tail asp FFID 18 CatlID 2 and the CPCI PICMG http www picmgeu org specification 6 1 3 1 Start Up Requirement Power supplies must comply with the following guidelines in order to be used with the CP6000 e Beginning at 10 of the nominal output voltage the voltage must rise within gt 0 1msto lt 20 ms to the specified regulation range of the voltage Typically gt 5 ms to lt 15 ms e There must be a smooth and continuous ramp of each DC output voltage from 10 to 90 of the regulation band e The slope of the turn on waveform shall be a positive almost linear voltage increase and have a value from 0 V to nominal Vout Warning During power up the 3 3 V input power supply must be able to provide a mini Y mum peak current of 10 A to the CP6000 This applies for each CP6000 in a given system Failure to comply with the above warning may
135. follow the steps below Step 1 Description Power on the motherboard 2 Press the lt Delete gt key on your keyboard when you see the following text prompt Press DEL to run Setup American Megatrends www ami com MIBIOS C 2002 American Megatrends Inc TOS Date 10 01 01 12 39 39 Ver 08 00 03 entium R III Processor 933MHz ress DEL to run Setup uto Detecting Pri Master IDE Hard Disk uto Detecting Pri Slave ATAPI CDROM 3 20 ST38410 Ultra DMA Mode 2 S M A R T Capable and Status OK ri Slave 1005 TOSHIBA CD ROM XM 6702B 007A After you press the lt Delete gt key the CP6000 main BIOS setup menu displays You can access the other setup screens from the main BIOS setup menu such as the Chipset and Power menus Note Note This manual describes the standard look of the CP6000 setup screen The motherboard manufacturer has the ability to change any and all of the settings described in this manual This means that some of the options described in this manual do not exist in your motherboard s AMIBIOS In most cases the lt Delete gt key is used to invoke the CP6000 setup screen There are a few cases that other keys are used such as lt F1 gt lt F2 gt and so on Chapter 1 Starting CP6000 1 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH CP6000 Setup Menu The CP6000 main BIOS setup menu is the first screen that you can navigate Each main BIOS setu
136. g time can be programmed in 12 steps ranging from 125 msec up to 256 seconds If the watchdog timer is enabled it cannot be stopped 2 2 3 Battery The CP6000 is provided with a 3 0 V coin cell lithium battery for the RTC To replace the battery proceed as follows Turn off power Remove the battery Place the new battery in the socket Make sure that you insert the battery the right way round The plus pole must be on the top The lithium battery must be replaced with an identical battery or a battery type recommended by the manufacturer Suitable batteries include the VARTA CR2025 and PANASONIC BR2020 Page 2 8 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description Note K Care must be taken to ensure that the battery is correctly replaced The battery should be replaced only with an identical or equivalent type recommended by the manufacturer Dispose of used batteries according to the manufacturer s instructions The typical life expectancy of a 170 mAh battery VARTA CR2025 is 5 6 years with an average on time of 8 hours per working day at an operating temperature of 30 C However this typical value varies considerably because the life expectancy is dependent on the operating temperature and the standby time shutdown time of the system in which it operates To ensure that the lifetime of the battery has
137. generated by a hot swap compatible board after insertion and prior Enum Signal to removal Derate signal indicates that the power supply is beginning to derate its power output Fail Signal Watchdog Mode The Optimal and Fail Safe default setting is Disabled Option Description Disabled Watchdog mode inactive NMI Watchdog routing to NMI NMI Reset or Reset Reset Cascade NMI Reset WD Active Time The Optimal and Fail Safe default setting is 25ms Option Description 125ms 250 Select the time after which the action selected occurs if Watchdog timer is not retriggered ms 500ms 1s 2s 4s 8s 16s 32s 64s 128s 256s 60 Chapter 8 OEM Feature Kontron Modular Computers GmbH CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued Active for boot The Optimal and Fail Safe default setting is Disabled Option Description Disabled Watchdog must be started form the OS Enabled Select Enabled if the watchdog timer requires to be started before the operating system is booted from the BIOS Fail Signal The Optimal and Fail Safe default setting is Disabled Option Description Disabled Fail signal inactive NMI Fail signal from the power supply If this signal is to be used inside an application it may be routed to NMI here Chapter 8 OEM Feature 61 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH This page has been intent
138. guration options To provide flexible con 4 21 figuration of additional low speed PC devices e g Super UO IPMI or CAN controller the LPC port is ER connected to the I O extension connector The I O ex 2 22 tension interface contains all the signals necessary to connect up to two LPC devices 2 3 10 Serial ATA Interface The CP6000 supports the new Serial ATA technology through the SATA interface The SATA specification allows for thinner more flexible cables with lower pin count only 7 pins instead of 40 pins as standard EIDE The current Serial ATA interface allows up to 150 MB s data transfer rate which is faster than the standard Parallel ATA with 100 MB s Ultra ATA 100 Both ports are available on the CompactPCI rear I O interface A standard SATA HDD can be connected to the CP6000 either via the optional SATA connector J18 or using the CP6000 EXT SATA module connected to the optional SATA extension connectors J30 and J31 2 3 11 Serial ATA Connector J18 Optional The CP6000 can be equipped with an optional SATA connector J18 which is used to connect standard HDDs and other SATA devices to the CP6000 Figure 2 10 SATA Connector J18 Table 2 18 SATA Connector J18 Pinout 1 GND Ground signal 2 SATA_RX2 Differential Receive 3 SATA_RX2 Differential Receive 7 1 4 GND Ground signal 5 SATA_TX2 Differential Transmit 6 SATA_TX2 Differential Transmit 7 GND Ground signal Not
139. he ensuing chapters must be taken into account by system integrators when specifying the CP6000 system environ ment 6 1 1 CP6000 Baseboard The CP6000 baseboard itself has been designed for optimal power input and distribution Still it is necessary to observe certain criteria essential for application stability and reliability The table below indicates the absolute maximum input voltage ratings that must not be exceed ed Power supplies to be used with the CP6000 should be carefully tested to ensure compli ance with these ratings Table 6 1 Maximum Input Power Voltage Limits 3 3 V 3 6 V 5 V 5 5 V 12 V 14 0 V 12 V 14 0 V Warning The maximum permitted voltage indicated in the table above must not be exceeded Failure to comply with the above may result in damage to your board SN The following table specifies the ranges for the different input power voltages within which the board is functional The CP6000 is not guaranteed to function if the board is not operated within the prescribed limits Table 6 2 DC Operational Input Voltage Ranges 3 3 V 3 2 V min to 3 47 V max 3 3 V min to 3 47 V max 5 V 4 85 V min to 5 25 V max 5 0 V min to 5 25 V max 12 V 11 4 V min to 12 6 V max 12 V min to 12 6 V max 12 V 11 4 V min to 12 6 V max Only for PMC ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 6 3 Power Consumption CP6000 m 6 1 2
140. hich are registered trade marks and therefore proprietary to their respective owners Environmental Protection Statement This product has been manufactured to satisfy environmental protection requirements where possible Many of the components used structural parts printed circuit boards connectors batteries etc are capable of being recycled Final disposition of this product after its service life must be accomplished in accordance with applicable country state or local laws or regulations ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page xv Preface e CP6000 Explanation of Symbols A E Dor F K D Page xvi CE Conformity This symbol indicates that the product described in this manual is in compliance with CE standards Caution Electric Shock This symbol and title warn of hazards due to electrical shocks gt 60V when touching products or parts of them Failure to observe the pre cautions indicated and or prescribed by the law may endanger your life health and or result in damage to your material Please refer also to the section High Voltage Safety Instructions on the following page Warning ESD Sensitive Device This symbol and title inform that electronic boards and their compo nents are sensitive to static electricity Therefore care must be taken during all handling operations and inspections of this product in order to ensure product integrity at
141. id resetting the system hardware The watchdog can be configured in several modes one of which is the dual stage configuration If the NMI and the reset configuration bit are set 0x284 0x84 the watchdog has two stages The first stage timeout generates an NMI interrupt If the NMI handler does not reconfigure the watchdog the watchdog switches to the second stage and generates a master reset after the configured timeout elapses 4 5 3 Watchdog Trigger A write access triggers the watchdog The I O location for the watchdog trigger is 0x280 Page 4 14 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration 4 5 4 Watchdog Timer Table 4 18 Watchdog Timer WATCHDOG TIMER 0x282 0 WDT 3 0 Timeout Period 1 gt Bits 3210 Setting 0000 0 000 125 sec 3 0001 1 000 250 sec 0010 2 000 500 sec 0011 3 001 sec 0100 4 002 sec 0101 5 004 sec 0110 6 008 sec 0111 7 016 sec 1000 8 032 sec 1001 9 064 sec 1010 10 128 sec 1011 11 256 sec 1100 12 res 1101 13 res 1110 14 res 1111 15 res 4 WDEN 0 Watchdog timer disabled 1 Watchdog timer enabled Note Once the watchdog timer is enabled it cannot be disabled except by resetting the system 5 WDR 0 System reset generated by power on reset 1 System reset generated by
142. ifications It allows the BIOS to configure all the devices in the system This is the default setting Yes The Yes setting allows the operating system to change the interrupt I O and DMA settings Set this option if the system is running Plug and Play aware operating systems Cont d Chapter 4 PCI PnP Setup 33 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH PCI PnP Setup Continued PCI Latency Timer Set this value to allow the PCI Latency Timer to be adjusted This option sets the latency of all PCI devices on the PCI bus The Optimal and Fail Safe default setting is 64 Option Description 32 This option sets the PCI latency to 32 PCI clock cycles 64 This option sets the PCI latency to 64 PCI clock cycles This is the default setting 96 This option sets the PCI latency to 96 PCI clock cycles 128 This option sets the PCI latency to 128 PCI clock cycles 160 This option sets the PCI latency to 160 PCI clock cycles 192 This option sets the PCI latency to 192 PCI clock cycles 224 This option sets the PCI latency to 224 PCI clock cycles 248 This option sets the PCI latency to 248 PCI clock cycles Allocate IRQ to PCI VGA Set this value to allow or restrict the system from giving the VGA adapter card an interrupt address The Optimal and Fail Safe default setting is Yes Option Description Yes Set this value to allow the allocation of an IRQ to a VGA adapter car
143. ing between 10Base T 100Base TX and 1000Base T data transmission Auto wire switching for crossed cables is also supported RJ45 Connector J6A B Pinouts The J6A B connector supplies the 10Base T 100Base TX and 1000Base T interfaces to the Ethernet controller Table 2 14 Pinouts of J6A B Based on the Implementation TX O TX I O BI_DA 1 RX RX VO BILDB O TX O TX 0 BI_DA 2 RX RX I O BI_DB RX RX I O BI_DB 3 O TX O TX VO BI_DA WO BI DC 4 IO BI_DD I O BILDC 5 IO BI_DD RX RX I O BILDB 6 O TX 0 TX VO BI_DA I O BI DD 7 IO BI_DC I O BILDD 8 IO BI_DC D Page 2 16 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description Ethernet LED Status ACT green This LED monitors network connection and activity The LED lights up when net work packets are sent or received through the RJ45 port When this LED is not lit it means that either the computer is not sending or receiving network data or that the cable connection is faulty SPEED green orange This LED lights up to indicate a successful 100Base TX or 1000BASE T connection When green it indicates a 100Base TX connection and when orange it indicates a 1000Base TX connection When not lit and the ACT LED is active the connection is operating at 1
144. ion Set this option to select the method used to detect the ATA PT 80 pin cable The Optimal and Fail Safe setting is Host amp Device Option Description Host amp Device Set this value to use both the motherboard onboard IDE controller and IDE disk drive to detect the type of IDE cable used This is the default setting Host Set this value to use motherboard onboard IDE controller to detect the type of IDE cable used Device Set this value to use IDE disk drive to detect the type of IDE cable used The use of an 80 conductor ATA cable is mandatory for running Ultra ATA 66 Ultra ATA 100 and Ultra ATA 133 IDE hard disk drives The standard 40 conductor ATA cable cannot handle the higher speeds 80 conductor ATA cable is plug compatible with the standard 40 conductor ATA cable Because of this the system must determine the presence of the correct cable This detection is achieved by having a break in one of the lines on the 80 conductor ATA cable that is normally an unbroken connection in the standard 40 conductor ATA cable It is this break that is used to make this determination The AMIBIOS can instruct the drive to run at the correct speed for the cable type detected Chapter 3 Advanced BIOS Setup 11 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued PRIMARY SECONDARY THIRD AND FOURTH IDE MASTER AND SLAVE SUB MENU Primary Secondary Third and Fourth IDE Master
145. ionally left blank 62 Chapter 8 OEM Feature CP6000 UG ID 27942 Rev 05 Chapter 9 Kontron Modular Computers GmbH Power Setup Select the Power tab from the CP6000 setup screen to enter the Power Management BIOS Setup screen You can display a Power Management BIOS Setup option by highlighting it using the lt Arrow gt keys All Power Management BIOS Setup options are described in this section Note The Power Management Setup screen is not displayed when Advanced Power Management APM is not supported The Power Setup screen can vary for different motherboards Power Management APM Set this value to allow Power Management APM support The Optimal and Fail Safe default setting is Enabled Option Description Disabled Set this value to prevent the chipset power management and APM Advanced Power Management features Enabled Set this value to allow the chipset power management and APM Advanced Power Management features This is the default setting Power Savings Under AC Power Management when AC powered Power Savings Level Configure the timer based Power Management Suspend Time Out Minute This option specifies the length of time the system waits before it enters suspend mode The Optimal and Fail Safe default setting is Disabled Option Description Disabled This setting prevents the system from entering suspend mode This is the default setting 1Min Set this value to allow the
146. is value to allow the BIOS to auto detect the PIO mode Use this value if the IDE disk drive support cannot be determined This is the default setting 0 Set this value to allow the BIOS to use PIO mode 0 It has a data transfer rate of 3 3 MBs 1 Set this value to allow the BIOS to use PIO mode 1 It has a data transfer rate of 5 2 MBs 2 Set this value to allow the BIOS to use PIO mode 2 It has a data transfer rate of 8 3 MBs 3 Set this value to allow the BIOS to use PIO mode 3 It has a data transfer rate of 11 1 MBs 4 Set this value to allow the BIOS to use PIO mode 4 It has a data transfer rate of 16 6 MBs This setting generally works with all hard disk drives manufactured after 1999 For other disk drive such as IDE CD ROM drives check the specifications of the drive 14 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued DMA Mode This setting allows you to adjust the DMA mode options The Optimal and Fail Safe default setting is Auto Option Description Auto Set this value to allow the BIOS to auto detect the DMA mode Use this value if the IDE disk drive support cannot be determined This is the default setting SWDMAO Set this value to allow the BIOS to use Single Word DMA mode 0 It has a data transfer rate of 2 1 MBs SWDMA1 Set this value to allow the BIOS to use Single Word DMA mode
147. luding UO intensive applications where only one slot is available for the CPU making it a perfect core technology for long life applications Components which have high temperature tolerance have been selected from embedded technology programs and therefore offer long term availability The board is offered with the Microsoft Windows 2000 Windows XP and Windows XP Embedded operating systems Kontron further supports as a standard Linux and VxWorks Please contact Kontron Modular Computers for further information concerning other operating systems Page 1 4 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction 1 2 2 y Board Specific Information The CP6000 is a CompactPCI Pentium M based single board computer specifically designed for use in highly integrated platforms with solid mechanical interfacing for a wide range of industrial environment applications Some of the CP6000 s outstanding features are Supports all Intel Pentium M and Intel Celeron M microprocessors with 400 MHz FSB 479 pin UFCBGA package Up to 2048 kB L2 cache on die running at CPU speed 400 MHz processor system bus 855GME and 6300ESB chipset Up to 2 GB DDR SDRAM memory running up to DDR333 PC2700 Integrated 3D high performance VGA controller Analog display support up to 2048 x 1536 pixels at 16 bit and 60 Hz PMC interface 64 bit 66 MHz PCI X 3
148. lue to select the flow control by software None No flow control is activated Redirection After BIOS POST This option is used to select redirection after BIOS POST The Optimal and Fail Safe default setting is Always Option Description Disabled Set this value to turn off the redirection after POST BootLoader Set this value to activate the redirection during POST and during BootLoader Always The redirection is always active Terminal Type This option is used to select the target terminal type The Optimal and Fail Safe default setting is ANSI Option Description ANSI Set this value to select the target terminal type VT100 Set this value to select the target terminal type VT UTF8 Set this value to select the target terminal type VT UTF8 Combo Key Support This option is used to enable or disable the VT UTF8 combo key support The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to disable the VT UTF8 combination key support for the ANSI VT100 terminals Enabled Set this value to enable the VT UTF8 combination key support for the ANSI VT100 terminals Chapter 3 Advanced BIOS Setup 29 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued USB CONFIGURATION SCREEN USB Configuration You can use this screen to select options for the USB Configuration Use the up and d
149. mase Gisabi USB 2 3 a 4 er PICMG 2 16 82546EB EEES CPCI A Dua Ethernet Gigabi RJ45 Le Ethernet Se RJ45 CPCI Su a J1 J2 CPCI 32 bit 33 MHz pas HotSwap UE PCI 32 bit 33 MHz PCI X 64 bit 66 MHz Primary EIDE USB 2 0 2x4 pin Onboard on J30 J31 or JSCPCI ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 1 7 Introduction 1 5 2 E USB 2 0 wo 0 1 2 3 D D Front Panels W O TH Page 1 8 IPMI USB2 0 1 o0 O ef e el O TH l 1 88 O 2005 Kontron Modular Computers GmbH CP6000 Figure 1 2 CP6000 4 HP Front Panels Legend Left CP6000 with Front Panel Gigabit Right CP6000 with PICMG 2 16 only IPMI LEDs IPMI green Indicate the software status of the IPMI controller General Purpose LEDs WD green Watchdog when lit during bootup it indicates a PCI reset is active TH green Overtemperature Status when lit during bootup it indicates a power failure HS blue Hot Swap Control Front l General Purpose or POST code Front ll General Purpose or POST code Integral Ethernet LEDs ACT green Ethernet Link Activity SPEED green orange Ethernet Speed SPEED ON orange 1000 Mbit SPEED ON green 100 Mbit SPEED OFF 10 Mbit ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP60
150. menu and press lt Enter gt Enter New Password appears Type the password and press lt Enter gt The screen does not display the characters entered Retype the password as prompted and press lt Enter gt Ifthe password confirmation is incorrect an error message appears The password is stored in NVRAM after CP6000 completes Clear User Password Select Clear User Password from the Security Setup menu and press lt Enter gt Clear New Password Ok Cancel appears Type the password and press lt Enter gt The screen does not display the characters entered Retype the password as prompted and press lt Enter gt Ifthe password confirmation is incorrect an error message appears The password is stored in NVRAM after CP6000 completes 48 Chapter 6 Security Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 7 Chipset Setup Select the Chipset tab from the CP6000 setup screen to enter the Chipset BIOS Setup screen You can display a Chipset BIOS Setup option by highlighting it using the lt Arrow gt keys All Chipset BIOS Setup options are described in this section The Chipset BIOS Setup screen is shown below e Si amixs AMIBCP simulate exe BIOS SETUP UTILITY Intel Montara GML NorthBridge Configuration Chapter 7 Chipset Setup 49 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chipset Setup Continued Intel Montara GML NORTHBRIDGE CONFIGURATION Intel Montar
151. motherboard does not have a PCI Slot 5 If the motherboard does not have a PCI Slot 5 do not use this setting PCI Slot6 This setting will select PCI Slot 6 as the location of the OffBoard PCI IDE adapter card Use this setting only if there is an IDE adapter card installed in PCI Slot 6 This option is available even if the motherboard does not have a PCI Slot 6 If the motherboard does not have a PCI Slot 6 do not use this setting IRQ Set this value to allow the IRQ settings to be modified The Optimal and Fail Safe default setting is Available Interrupt Option Description IRQ3 IRQ4 Available This setting allows the specified IRQ to be used by a PCI PnP device This is the IRQS default setting IRQ7 IRQ9 IRQ10 IRQI1 Reserved This setting allows the specified IRQ to be used by a legacy ISA device IRQ14 IRQ15 Chapter 4 PCI PnP Setup 35 CP6000 UG ID 27942 Rev 05 PCI PnP Setup Continued Kontron Modular Computers GmbH DMA Set this value to allow the DMA setting to be modified The optimal and Fail Safe default setting is Available DMA Channel Option Description DMA Channel 0 DMA Channel 1 Available This setting allows the specified DMA to be used by PCI PnP device This is the DMA Channel 3 default setting DMA Channel 5 DMA Channel 6 Reserved This setting allows the specified DMA to be used by a legacy ISA device DMA Channel 7 Reserved Memory Size Set this
152. mperature range is 1 GB 2 modules 512 MB with DDR266 PC2100 This enhances the reliability and long life of the CP6000 2 1 3 855GME Chipset Overview The Intel 855GME chipset consists of the following devices e 82855GME Graphics and Memory Controller Hub GMCH with Accelerated Hub Archi tecture AHA bus 6300ESB 1 0 Controller Hub Hance Rapids with AHA bus e Firmware Hub FWH The GMCH provides the processor interface for the Pentium M microprocessor the memory bus and includes a high performance graphics accelerator The 6300ESB is a centralized con troller for the boards I O peripherals such as the PCI X USB 2 0 EIDE and SATA ports The Firmware Hub FWH provides the non volatile storage for the BIOS Figure 2 1 855GME Chipset Functional Block Diagram 2xSODIMM Standard for up to 333 MHz Monitor DDR SDRAM PC2700 Intel Hub Architecture 2 USB Controllers 4 Ports PCI X Interface 2 SATA Ports ATA 100 IDE Channels 2 Page 2 6 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description 2 1 4 Graphics and Memory Controller Hub 855GME The 855GME Graphics Memory Controller Hub GMCH is a highly integrated hub that pro vides the CPU interface optimized for the Intel Pentium M the DDR SDRAM system mem ory interface optimized for DDR200 PC1600 DDR266 PC2100 and DDR333 PC2700
153. n COM2 4 8 4 12 TPIT EE 4 9 4 13 PCI Interrupt Routing E 4 10 4 14 Memory Map for the 1st Megabyte ooooooocccccccccccccccooonoooonnnnnnnnnnnncnnnnaninan 4 11 4 15 VO Address MAD a A 4 12 4 16 IPMI Configuration Register 4 13 4 17 IPMI Interrupt Configuration Register 4 14 4 18 Watchdog TUE is 4 15 4 19 Geographic Addressing Register oocoocccccccccccccconccononanonannonnnonnnnononnononos 4 16 4 20 Watchdog CompactPCI Interrupt Configuration Register 4 17 4 21 CPCI Master Reset Register 4 18 4 22 VO Status RISA RA DER 4 19 Page x 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface 4 23 Board ID E EE 4 19 4 24 Hardware Index Register iii AA AAA 4 20 4 25 Hot Swap Control Register mes dada 4 20 4 26 Logic Ee RE 4 21 4 27 LED Control ROS AAA NAAA 4 21 4 28 Hot Swap LED Control Register 4 22 6 1 Maximum Input Power Voltage Limits E 6 3 6 2 DC Operational Input Voltage Ranges 6 3 6 3 Input Voltage Characteristics 6 5 6 4 Power Consumption DOS Liane 6 7 6 5 Power Consumption Windows 2000 IDLE Mode ooooooononccncicc
154. n 1 10 855GME Chipset Functional Block Diagram 2 6 Keyboard CONNGCION J24 nier eee aie 2 12 USB Connectors J7 and J8 EE 2 12 D Sub CRT COR As 2 14 Serial Port Con JO COMT EE 2 15 Dual Gigabit Ethernet Connector J6A B 2 16 EIDE Interface Connectors J19 and J20 ooonccccncccconinononocconononononnnnns 2 17 Connecting an Onboard 2 5 HDD to CP6000 via Parallel ATA 2 18 EXPIDO e E A td 2 22 SATA Connector JTE nine i 2 22 SATA Extension Connectors J30 and J31 2 23 Connecting an Onboard 2 5 SATA HDD to CP6000 EXT SATA 2 24 PMC Connectors J25 J26 J27 and J28 ooooooooocoocccccccccccanncononnnnnnononnnnn 2 25 CompactPCI Connectors JD 2 30 IPMI Functional Block Diagram EE 2 40 COM1 Configuration Jumpers and Resistors 4 5 COM2 Configuration Jumpers and Resistors 4 7 Start Up Ramp of the CP3 SVE180 AC Power Supp 6 6 Pentium M Temp Vs Airspeed Graph with Standard Heat Sink 7 7 Pentium M Temp Vs Airspeed Graph with E2 Heat Sink 000000000000 7 7 CTM80 2 RIO Module 4HP Variant oooooooconcnccccccccocononannnnnonnnnnnnnnnnnnnonans A 4 CP6000 EXT SATA Module Functional Block Diagram 000088 B 3 CP6000 EXT SATA Module Layout cccccceeeeeeeeneeeee
155. n resistance The purpose of jumpers JP8 and JP9 is to enable this line termination resistor 120 ohm Table 4 10 Jumper Setting for RS 422 RXD Termination COM2 ON Closed 0 ohm resistor OFF Open The default setting is indicated by using italic bold Table 4 11 Jumper Setting for RS 422 TXD and RS 485 Termination COM2 ON Closed 0 ohm resistor OFF Open The default setting is indicated by using italic bold Page 4 8 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration 4 2 Interrupts The CP6000 board uses the standard AT IRQ routing 8259 controller This interrupt routing is the default but can be modified via the BIOS Table 4 12 Interrupt Setting IRQO 1 System Timer IRQ1 2 Keyboard Controller IRQ2 Input of the second IRQ controller IRQ8 IRQ15 IRQ3 11 COM2 IRQ4 12 COM1 IRQ5 13 Watchdog IRQ6 14 Floppy Disk Controller IRQ7 15 Reserved for IPMI IRQ8 3 System Real Time Clock IRQ9 4 PCI or APIC IRQ10 5 PCI IRQ11 6 PCI IRQ12 7 PCI or PS 2 mouse IRQ13 8 Coprocessor error IRQ14 9 Primary hard disk IRQ15 10 Secondary hard disk NMI Watchdog Warning E IRQ5 should normally have only one source enabled otherwise improper system operation may result If more than one source is required to be enabled contact Kontron Modu lar Comp
156. nent silicon damage may occur Measurement of the temperature is ac complished through an internal thermal sensor which is configured to trip at approximately 125 C Upon assertion of Thermtrip the processor will shut off its internal clocks thus halting program execution in an attempt to reduce the processor junction temperature Once activat ed Thermtrip remains latched until the CP6000 undergoes a cold restart is performed all pow er off and then on again Note g S Upon assertion of Thermtrip the front panel overtemperature LED flashes at e regular intervals Page 7 4 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 System Considerations If the CP6000 is operated in a properly configured CompactPCI environment with enough air flow there is no need to enable the Thermal Management function However sometimes the system environment is not optimized for a Pentium M processor board and this requires ther mal protection to guarantee a stable system The Thermal Management feature allows system designers to design lower cost thermal solutions without compromising system integrity or re liability 7 1 4 Thermal Management Recommendations In this case both the internal and the external Thermal Monitor should be enabled These two monitors protect the processor and the system against excessive temperatures In this config uration the clocks
157. ng power supply voltages fan speeds and temperatures all of which are very important for the proper operation and stability of a high end computer system The LM87 provides an C serial bus interface The voltages of the onboard power supply core 12 V 12 V 5 V 3 3 V 2 5 V and Vcore are supervised Two fan tachometer outputs can be measured using the LM87 s FAN inputs The temperature sensors on the LM87 monitor the CPU temperature and the ambient temperature around the CPU to ensure that the system is operating at a safe temperature level If the temperature is too high the sensors automatically reduce the CPU clock frequency depending on the mode chosen in the BIOS set 2 2 7 Serial EEPROM This EEPROM is connected to the TC bus provided by the 6300ESB Table 2 8 EEPROM Address Map ADDRESS FUNCTION 0 FF CMOS backup 100 1FF Production data 200 3FF OS Boot parameter 400 2000 User 2 2 8 FLASH Memory There are two flash devices available as described below one for the BIOS and one for the CompactFlash socket 2 2 8 1 BIOS FLASH Firmware Hub For simple BIOS updating a standard onboard 1 MB Firmware Hub device is used The FWH stores both the system BIOS and video BIOS It can be updated as new versions of the BIOS become available You may easily upgrade your BIOS using the AMI utility For detailed information on BIOS refer to Appendix B 2 2 8 2 CompactFlash CompactFlash is a ver
158. not been exceeded it is recom mended to exchange the battery after 4 5 years 2 2 4 Reset The CP6000 is automatically reset by a precision voltage monitoring circuit that detects a drop in voltage below the acceptable operating limit of 4 68 V for the 5 V line and below 3 09 V for the 3 3 V line or in the event of a power failure of the DC DC converter Other reset sources include the watchdog timer and the push button switch on the front panel The CP6000 responds to any of these sources by initializing local peripherals A reset will be generated under the following conditions e 5 V supply falls below 4 68 V typ e 3 3 V supply falls below 3 09 V typ e Power failure of all onboard DC DC converters e Push button RESET pressed e Watchdog overflow e CompactPCI backplane PRST input 2 2 5 SMBus Devices The CP6000 provides a System Management Bus SMBus for access to several system monitoring and configuration functions The SM Bus consists of a two wire PC bus interface The following table describes the function and address of every onboard SM Bus device Table 2 7 SM Bus Device Addresses Hardware Monitor LM87 0101110xb EEPROM 24LC64 1010111xb Clock 1101001xb ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 9 Functional Description CP6000 2 2 6 Thermal Management System Monitoring The LM87 can be used to monitor several critical hardware parameters of the system includi
159. ntel 855GME configuration will request up to 64 MB of memory from the OS By reallocating memory to the system memory is freed up for other applications when not needed by the graphics subsystem Thus efficient memory usage is ensured for op timal graphics and system memory performance 2 3 4 2 Video Resolution The 855GME has an integrated 350 MHz RAMDAC that can directly drive a progressive scan analog monitor up to a resolution of 1600x1200 100 Hz and 2048 x 1536 75 Hz Table 2 11 Partial List of Display Modes Supported 640 x 480 800 x 600 1024 x 768 1280 x 1024 1600 x 1200 XI xj Xx x Xx 1920 x 1440 XI Xx x Sei X Xx ID 27942 Rev 05 2048 x 1536 2005 Kontron Modular Computers GmbH XI XxX X XxX X X Xx XI XxX X X X X Xx Page 2 13 Functional Description CP6000 r 2 3 4 3 CRT Interface and Connector J10 The 15 pin female connector J10 is used to connect a CRT monitor to the CP6000 board Figure 2 4 D Sub CRT Con J10 Table 2 12 D Sub CRT Connector J10 Pinout 1 Red Red video signal output O 2 Green Green video signal output O 3 Blue Blue video signal output O 13 Hsync Horizontal sync TTL Out 14 Vsync Vertical sync TTL Out 12 Sdata UC data 1 0 15 Sclk C clock O 9 VCC Power 5V 200 mA no 0 fuse protection 5 6 7 8 10 GND Ground signal 4 11 Free D
160. o YEAR LIMITED HARDWARE WARRANTY as described in the following However no other warran ties that may be granted or implied by anyone on behalf of Kontron are valid unless the con sumer has the express written consent of Kontron Modular Computers GmbH Kontron Modular Computers GmbH warrants their own products excluding software to be free from manufacturing and material defects for a period of 24 consecutive months from the date of purchase This warranty is not transferable nor extendible to cover any other users or long term storage of the product It does not cover products which have been modified altered or repaired by any other party than Kontron Modular Computers GmbH or their authorized agents Furthermore any product which has been or is suspected of being damaged as a result of neg ligence improper use incorrect handling servicing or maintenance or which has been dam aged as a result of excessive current voltage or temperature or which has had its serial number s any other markings or parts thereof altered defaced or removed will also be exclud ed from this warranty If the customer s eligibility for warranty has not been voided in the event of any claim he may return the product at the earliest possible convenience to the original place of purchase togeth er with a copy of the original document of purchase a full description of the application the product is used on and a description of the defect Pack the product in
161. o BMC 3 BMC_EXT 0 BMC COM port is isolated 1 BMC COM port is connected to COM2 connector 4 0 Reserved 5 0 Reserved 6 0 Reserved 7 0 Reserved ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 4 13 Configuration CP6000 4 5 1 2 IPMI Interrupt Configuration Register The IPMI interrupt configuration register holds a series of bits defining the interrupt routing for the BMC controller Table 4 17 IPMI Interrupt Configuration Register IPMI Interrupt Configuration Register 0x19F IPMI ISA7 IPMI ISAS IPMI SMI 0 0 0 0 PMI SMI 0 Disable SMI 1 Enable SMI 1 IPMI ISA5 0 Disable IRQ5 1 Enable IRQ5 2 IPMI ISA7 0 Disable IRQ7 1 Enable IRQ7 3 0 Reserved 4 0 Reserved 5 0 Reserved 6 0 Reserved 7 0 Reserved 4 5 2 Watchdog The CP6000 has one watchdog timer This timer is provided with a programmable timeout ranging from 125 msec to 256 sec Failure to strobe the watchdog timer within a set time period results in a system reset NMI or an interrupt This can be configured via the register 0x284 To enable the watchdog bit 4 of the register 0x282 must be set If the watchdog is enabled via bit 4 this bit cannot later be cleared With a write access to the register 0x280 the watchdog is retriggered Once the watchdog is enabled it must be continuously strobed within the terminal count period to avo
162. o allow the system to use ICH COM1 Communication port1 for the remote access interface This is the default setting ICH COM2 Set this value to allow the system to use ICH COM2 Communication port2 for the remote access interface 28 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Advanced BIOS Setup Continued Kontron Modular Computers GmbH Serial Port Mode Select the baud rate you want the serial port to use for console redirection The Optimal and Fail Safe default setting is 215200 8 n 1 Option Description 115200 8 n 1 Set this value to allow you to select 115200 as the baud rate transmitted bits per second of the serial port 57600 8 n 1 Set this value to allow you to select 57600 as the baud rate transmitted bits per second of the serial port 38400 8 n 1 Set this value to allow you to select 38400 as the baud rate transmitted bits per second of the serial port 19200 8 n 1 Set this value to allow you to select 19200 as the baud rate transmitted bits per second of the serial port 09600 8 n 1 Set this value to allow you to select 09600 as the baud rate transmitted bits per second of the serial port Flow Control This option is used to select the flow control for console redirection The Optimal and Fail Safe default setting is None Option Description Hardware Set this value to select the flow control by hardware Software Set this va
163. oards such as functionality hot swap capability In addition an overview is given for all existing Kontron CompactPCI boards with links to the relating data sheets e Generic information on the Kontron CompactPCI backplanes such as the slot assignment PCB form factor distinctive features clocks power supply connectors and signalling environment as well as an overview of the Kontron CompactPCI standard backplane family e Generic information on the Kontron CompactPCI power supply units such as the input output characteristics redundant operation and distinctive features as well as an overview of the Kontron CompactPCI standard power supply unit family ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 1 3 Introduction CP6000 1 2 Board Overview 1 2 1 Board Introduction The CP6000 is a CompactPCI system controller board It has been designed to support all Intel Pentium M and Intel Celeron M processors with 400 MHz FSB A key performance factor of the Intel Pentium M processor is the newly designed CPU core with an integrated 64 kB L1 and up to 2048 kB L2 cache which provide more CPU power per MHZ than an Intel Pentium 4 processor The Pentium M has the advantage of very low power consumption whilst at the same time providing impressive processor speeds ranging from 1 1 GHz through 1 8 GHz with a Processor Side Bus PSB running at 400 MHz The CP6000 utilizes the Intel 855GME and 6300ESB U
164. odular Computers GmbH Page 2 17 Functional Description CP6000 e Note Ifthe CP6000 is ordered for extended temperature range 40 C to 85 C the mounted heat sink extends partly over the area where the HDD is intended to be installed For this reason it is not possible to directly install a 2 5 HDD on this CP6000 version Each EIDE interface provides support for two devices one master and one slave and the two EIDE interfaces together support a maximum of 4 devices All hard disks can be used in cylinder head sector CHS mode with the BIOS also supporting the logical block addressing LBA mode Figure 2 8 Connecting an Onboard 2 5 HDD to CP6000 via Parallel ATA 44 Pin Cable 2 5 Parallel ATA HDD D Page 2 18 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 2 3 8 1 J19 ATA 44 Pin Connector 2 5 hard disk or Flash disk may be mounted directly onto the CP6000 board using the op tional 44 pin connector J19 The maximum length of the cable that may be used is 35 cm Table 2 15 Pinout of ATA 44 Pin Connector J19 Functional Description ID 27942 Rev 05 2005 Kontron Modular Computers GmbH 10 FUNCTION SIGNAL PIN PIN SIGNAL FUNCTION 1 0 O Reset HD IDERESET 1 2 GND Ground signal VO HD data 7 HD7 3
165. omputers GmbH ID 27942 6000 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Preface 6 1 1 CP6000 Baseboard india mens ii 6 3 6 1 2 Backplane di td 6 4 6 1 3 Power Supply DANS une AAA 6 4 6 2 Power Consumption iii messe aie 6 6 0217 E Ee ee 6 7 6 2 2 Testing Application a a Aa 6 8 6 2 3 Power Consumption of CP6000 Accessories 6 8 Chapter 7 7 System Considerations EE 7 3 7 1 Passive Thermal Regulation sisiasissccacsndivecesssracssoariaimdinuatansundetsnimndenen 7 3 7 1 1 CPU Internal Thermal Supervision 7 3 7 1 2 CPU External Thermal Supervision 7 4 7 1 3 CPU Emergency Thermal Supervision o oooooonnnnnccnnnnonononnnnnnonoo 7 4 7 1 4 Thermal Management Recommendations 7 5 7 2 Active Thermal Regulation EE 7 5 Fil Heat SINKS E 7 5 T22 FOCE AI FION ee en cn en 7 6 A S ane E A an den ee 7 8 Annex A A CTM80 2 RIO Module 00 icccccccccceeccccccecccescncecsecesecaececeesssatseseenstensssaeeeeesaes A 3 A1 Introduction EE A 3 Annex B GPOO000 EXT ATA ce B 3 BD QV IVI EEN B 3 B 2 Technical ee EE B 3 B 3 CP6000 EXT SATA Module Functional Block Diagram B 3 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page vii Preface CP6000 e B 4 CP6000 EXT SATA Mo
166. ont I O for COM 1 Note Previous boards such as CP604 and CP605 used TTL signaling voltage for the COM1 and COM2 rear I O interfaces Due to a new common Kontron rear I O pinout the COM1 and COM2 ports can now be configured as RS 232 RS 422 and RS 485 ports Thus neither RS 232 RS 424 nor RS 485 buffers are now required on the rear I O The signals can be connected directly to the D Sub connector Keyboard Mouse Interface The keyboard interface is available onboard and via the rear I O The combination of the on board and the rear I O is not supported The mouse interface is only available via the rear I O USB Interface Two USB interfaces are available via the rear I O The USB power comes from the baseboard and it is protected by a self resettable fuse Secondary EIDE Interface Only one EIDE connector may be used at any one time through the same port connecting both EIDE devices to the CP6000 baseboard and the rear I O simultaneously will result in malfunc tion and data loss Floppy Interface The floppy interface is only available via the rear I O SATA The SATAO interface is available as onboard version or on the rear I O Combining the onboard SATA with the rear I O SATA is not permitted PMC Rear I O The PMC Rear I O pinout is optimized to connect the Kontron SCSI PMC board PMC 261 This module provides SCSI rear I O support Other PMC modules with rear I O functionality can also be used on the CP6000
167. or P ATA amp S ATA The Optimal and Fail Safe default setting is P ATA Only Option Description Disabled Set this value to prevent the computer system from using the onboard IDE controller P ATA only Set this value to allow the computer system to detect 4 P ATA amp 2 S ATA channels This is the default setting S ATA only Set this value to allow the computer system to detect 2 S ATA channels P ATA 8 S ATA Set this value to allow the computer system to detect the 2 P ATA 8 2 S ATA channels Chapter 3 Advanced BIOS Setup 9 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued Primary Secondary Third and Fourth IDE Master and Slave Select one of the hard disk drives to configure it Press lt Enter gt to access its sub menu The options on the sub menu are described in the following sections Hard Disk Drive Write Protect Set this option to protect the hard disk drive from being overwritten The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to allow the hard disk drive to be used normally Read write and erase functions can be performed to the hard disk drive This is the default setting Enabled Set this value to prevent the hard disk drive from being erased IDE Detect Time Out Seconds Set this option to stop the AMIBIOS from searching for IDE devices within the specified number of s
168. orted Intel Pentium M Processors on the CP6000 UFCBGA UFCBGA UFCBGA UFCBGA 1024 kB 2048 kB 1024 kB 2048 kB 0 956 1 180 V 0 988 1 116 V 0 956 1 484 V 1 068 1 308 V 400 MHz 400 MHz 400 MHz 400 MHz Table 2 2 Maximum Power Dissipation of Intel Pentium M CPU only Maximum Power HFM 12W 10W 25 4 W 21 W Maximum Power LFM2 4W 7 5 W DHFM High Frequency Mode maximum frequency of the CPU 2LFM Low Frequency Mode frequency is 600 MHz Note K Only the 1 1 GHz and 1 4 GHZ versions are able to run in the extended temper 4W ature range because of the lower power dissipation 7 5 W Table 2 3 Intel Pentium M Core Voltage in the Various Frequency Modes Page 2 4 2005 Kontron Modular Computers GmbH 1 8 GHz 1 276 V 1 6 GHz 1 484 V 1 228 V 1 4 GHz 1 116 V 1 420 V 1 180 V 1 2 GHz 1 100 V 1 276 V 1 132 V 1 1 GHz 1 180 V 1 068 V 1 0 GHz 1 164 V 1 052 V 1 164 V 900 MHz 1 100 V 1 036 V 800 MHz 1 020 V 1 020 V 1 036 V 1 036 V 600 MHz 0 956 V 0 988 V 0 956 V 0 988 V ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description y The following tables provide information on the Intel Celeron M processor supported on the CP6000 and its maximum power dissipation Table 2 4 Supported Int
169. ot power up check power cables and cabling May also result from a bad power supply or IDE drive Note A 2 5 HDD can be directly installed only on the standard CP6000 It is not possible to directly install a 2 5 HDD on the CP6000 for extended temperature range 40 C to 85 C 2 Initialize the software necessary to run the chosen operating system 3 6 Software Installation The installation of the Ethernet and all other onboard peripheral drivers is described in detail in the relevant Driver Kit files Installation of an operating system is a function of the OS software and is not addressed in this manual Refer to appropriate OS software documentation for installation D Note Users working with pre configured operating system installation images for Plug and Play compliant operating systems for example Windows 95 98 ME Windows 2000 Windows XP Windows XP Embedded must take into con sideration that the stepping and revision ID of the chipset and or other onboard PCI devices may change Thus a re configuration of the operating system in stallation image deployed for a previous chipset stepping or revision ID is in most cases required The corresponding operating system will detect new de vices according to the Plug and Play configuration rules DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 3 9 Installation Page 3 10 This page has been intentionally left blank
170. ow the computer system to select IRQ5 IRQ7 for the System Management Software Dual Port IPMB Redundancy This option is used to select the dual port Intelligent Platform Management Bus IPMB redundancy The Optimal and Fail Safe default setting is Disabled Option Description Disabled IPMBO and IPMB1 operate as separate channels Enabled IPMB1 is hidden behind IPMBO and used as a redundancy channel Management Controller Configuration This option is used to select the Management Controller Configuration The Optimal and Fail Safe default setting is Satellite Option Description Baseboard Set this value to allow the computer system to use the Management Controller located on the baseboard Satellite The board is a Satellite Management Controller under the control of an external Central Management Controller 26 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued SMBIOS CONFIGURATION SCREEN SMBIOS Configuration You can use this screen to select options for the SMBIOS Configuration Use the up and down lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below Smbios Smi Support Enabled SMBIOS SMI Support Enables the SMBIOS SMI Support The Optimal and Fail
171. own lt Arrow gt keys to select an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option The settings are described on the following pages The screen is shown below USB Function Set this value to allow the system to enable or disable the onboard USB ports The Optimal and Fail Safe default setting is 4 1 USB Ports Option Description Disabled This setting makes the onboard USB ports unavailable 2 USB Ports This setting allows the use of the two USB ports All USB Ports This setting allows the use of the all USB ports This is the default setting Legacy USB Support Set this value to allow the system to enable or disable the legacy USB support The Optimal and Fail Safe default setting is Enabled Option Description Disabled Set this value to disable the legacy USB support Enabled Set this value to enable the legacy USB support This is the default setting Auto Set this value to disable the legacy USB support if no USB devices are connected 30 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued USB 2 0 Controller Set this value to allow the system to enable or disable the USB 2 0 controller The Optimal and Fail Safe default setting is Enabled Option Description Disabled Set this value to disable the USB 2 0 controller Enabled Set this value to en
172. p menu option is described in this user s guide The Main BIOS setup menu screen has two main frames The left frame displays all the options that can be configured Grayed out options cannot be configured Options is blue can be The right frame displays the key legend Above the key legend is an area reserved for a text message When an option is selected in the left frame it is highlighted in white Often a text message will accompany it BIOS SETUP UTILITY System Time Navigation The CP6000 BIOS setup utility uses a key based navigation system called hot keys Most of the CP6000 BIOS setup utility hot keys can be used at any time during the setup navigation process These keys include lt F1 gt lt F10 gt lt Enter gt lt ESC gt lt Arrow gt keys and so on ki Chapter 1 Starting CP6000 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Navigation Continued BIOS Setup Utility Left and Right Keys y to Select a Setup Screen Screens Seen lt gt ajo Ea e je Tab Key to Select Fields so Items a Ee PEE FRERE Note There is a hot key legend located in the right frame on most CP6000 setup screens Hot Key Description gt lt Left Right The Left and Right lt Arrow gt keys allow you to select a CP6000 setup screen For example Main screen Advanced screen Chipset screen and so on TL Up Down The Up and Down lt Arrow gt keys allow you to sel
173. port COM3 3F0 3F7 Floppy Disk Super 1 0 1 Com 3F8 3FF Serial port COM1 CA2 CA3 IPMI communication interface CA4 CA5 IPMI communication interface 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration The following registers are special registers which the CP6000 uses to watch the onboard hardware special features and the CompactPCI control signals 4 5 Special Registers Description Normally only the system BIOS uses these registers but they are documented here for application use as required K Note Take care when modifying the contents of these registers as the system BIOS may be relying on the state of the bits under its control 4 5 1 IPMI Control The IPMI registers are only available if the board is ordered with the IPMI function 4 5 1 1 IPMI Configuration The IPMI configuration register holds a series of bits defining the COM port routing of the BMC controller and the Super I O The COM2 port can be used for firmware update or debugging Table 4 16 IPMI Configuration Register IPMI Configuration Register 0x19C BMC_RSTIBMC_ PRG 0 0 BMC_PRG 0 Set normal operating mode 1 Set BMC controller in program mode 1 BMC_RST 0 BMC controller is running 1 Reset BMC controller 2 BMC_COM 0 Super I O COM2 port is connected to COM2 connector 1 Super I O COM2 port is connected t
174. ption by highlighting it using the lt Arrow gt keys All OEM Feature BIOS Setup options are described in this section Clock Spreading Chapter 8 OEM Feature 53 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued Clock Spreading The Optimal and Fail Safe default setting is Disabled S amixxx AMIBCP simulate exe BIOS SETUP UTILITY Spread Spectrum Modulation Disabled Option Description Disabled No Clock Spectrum Modulation This is the default setting Enabled 0 5 Clock Spreading Spread spectrum typically reduces system EMI 54 Chapter 8 OEM Feature CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued PC Health S amixxx AMIBCP simulate exe BIOS SETUP UTILITY Chapter 8 OEM Feature 55 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued Temperature Monitor P4 Term Trip 125 C 257F Shows the P4 max temperature Automatic Thermal Monitor Thermal Monitor is enabled and when the die temperature is very near to the temperature limits of the processor the clocks will be modulated by alternately turning the clocks off and on at a duty cycle of 50 The Optimal and Fail Safe default setting is Disabled Auto Thermal Throttling Auto Thermo Throttling reduces CPU speed to avoid overheating Temperature Range is from 95 C up to 110 C The Optimal and Fail S
175. ransmit 0 4 GND Ground signal 5 SATA_TX2 Differential Transmit O 6 GND Ground signal 7 GND Ground signal 8 SATA_RX2 Differential Receive 9 GND Ground signal 10 SATA_RX2 Differential Receive 11 GND Ground signal 12 GND Ground signal Table B 3 Board to Board Connector J1 Pinout 1 GND T Ground signal 2 5V 5V power 3 GND Ground signal 4 5V 5V power 5 GND Ground signal 6 5V 5V power 7 GND Ground signal 8 5V 5V power 9 GND Ground signal 10 5V 5V power 11 GND Ground signal 12 5V 5V power ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page B 5 CP6000 EXT SATA CP6000 m B 5 2 SATA Connector J2 The SATA connector J2 on the CP6000 EXT SATA module is connected to the 2 5 SATA HDD mounted on the CP6000 The SATA connector is divided into two segments a signal seg ment and a power segment Figure B 3 SATA Connector J2 Table B 4 SATA Connector J2 Pinout PIN SIGNAL FUNCTION 10 s1 Signal Segment Key Signal S1 GND Ground signal segm nt _ S2 SATA TX2 Differential Transmit 1 S3 SATA_TX2 Differential Transmit P1 4 GND Ground signal 5 SATA_RX2 Differential Receive Power S6 SATA_RX2 Differential Receive Segment S7 GND Ground signal Signal Segment L P15 Central Connector Polarizer Power Segment L
176. rd and mouse port is routed to the CompactPCI rear I O interface There is no front I O connector available To connect a keyboard a separate onboard connector is available The mouse port is only available on the CompactPCl rear I O interface The CP6000 has a 5 pin male pinrow connector J24 for the keyboard interface Figure 2 2 Keyboard Connector J24 Table 2 9 Keyboard Connector J24 Pinout Keyboard data 1 0 1 KDATA 5 1 2 e 3 GND Ground 4 VCC VCC 5V 5 KCLK Keyboard clock O 2 3 3 USB Interfaces The CP6000 supports four USB 2 0 ports two on the front I O and two on the rear I O On the two rear UO ports it is strongly recommended to use a cable below 3 metres in length for USB 2 0 devices All four ports are high speed full speed and low speed capable High speed USB 2 0 allows data transfers of up to 480 Mb s 40 times faster than a full speed USB USB 1 1 Please note that the CTM80 2 Rear I O Module supports USB1 1 protocol One USB peripheral may be connected to each port To connect more than four USB devices an external hub is required USB Connectors J7 and J8 Pinout The CP6000 has two USB interfaces implemented on a 4 pin connector with the following pi nout TES 1 vcc VCC 1234 2 UVO Differential USB 1 0 J8 Sooo 3 uvo Differential USB 1 0 a 4 GND GND Note The USB power supply to each USB connector is protected
177. rd into the back plane connectors Warning During power up the 3 3 V input power supply must be able to provide a minimum peak current of 10 A to the CP6000 This applies for each CP6000 in a given system Failure to comply with the above warning may result in damage to or improper operation of the CP6000 10 Using both ejector handles engage the board with the backplane When the ejector han dles are locked the board is engaged 11 Fasten the front panel retaining screws 12 Connect all required interfacing cables to the board Hot swap of the CP6000 is now com plete 3 5 Installation of CP6000 Peripheral Devices The CP6000 is designed to accommodate a variety of peripheral devices whose installation varies considerably The following chapters provide information regarding installation aspects and not detailed procedures 3 5 1 CompactFlash Installation The CompactFlash socket supports all available CompactFlash ATA cards type and type Il with 5 V optionally 3 3V Note The CP6000 does not support removal and reinsertion of the CompactFlash storage card while the board is in a powered up state Connecting the Com pactFlash cards while the power is on which is known as hot plugging may damage your system 3 5 2 USB Device Installation The CP6000 supports all USB Plug and Play computer peripherals e g keyboard mouse printer etc Note All USB devices may be connected or removed while
178. result in damage to or improper operation of the CP6000 D Page 6 4 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Power Consumption y The 5 VDC output level must always be equal to or higher than the 3 3 VDC output during power up and normal operation 6 1 3 2 Power Up Sequence The time from 5 VDC until the output reaches its minimum in regulation level and from 3 3 VDC until the output reaches its minimum in regulation level must be lt 20 ms 6 1 3 3 Tolerance The tolerance of the voltage lines is described in the CPCI specification PICMG 2 0 R3 0 The recommended measurement point for the voltage is the CPCI connector on the CPU board The following table provides information regarding the required characteristics for each board input voltage Table 6 3 Input Voltage Characteristics 5V 5 0 VDC 5 3 50 mV Main voltage 3 3 V 3 3 VDC 5 3 50 mV 12 V 12 VDC 5 5 240 mV Required 12V 12 VDC 5 5 240 mV Not required V 1 0 PCI voltage 3 3 VDC or 5 VDC 5 3 50 mV Standard Version 5 0 V GND Ground not directly connected to potential earth PE The output voltage overshoot generated during the application load changes or during the removal of the input voltage must be less than 5 of the nominal value No voltage of reverse polarity may be present on any output during turn on or
179. rocessor junction temperature has reached a level beyond which per manent silicon damage may occur Upon assertion of Thermtrip the processor will shut off its internal clocks thus halting program execution in an attempt to reduce the processor junction temperature Once activated Thermtrip remains latched until a cold restart of the CP6000 is undertaken all power off and then on again 2 3 1 3 Front l and Front Il General Purpose LEDs These are two sets of General Purpose LEDs available on the front panel of the CP6000 which are designed to indicate the boot up POST code if required or are available to the application as general purpose LEDs To indicate POST code J22 must be set For general purpose use J22 must not be set Together Front and Front ll indicate a two place hexadecimal number Front Il is the lower nibble Front l is the higher nibble An one is indicated by a lit LED The LSB is 0 the MSB is 7 Default setting is general purpose and all LEDs not lit 2 3 1 4 Hot Swap LED On the CP6000 a blue HS LED can be switched on or off by software It may be used for ex ample to indicate that the shutdown process is finished and the board is ready for extraction It may also be used for general purposes DW ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 2 11 Functional Description CP6000 2 3 2 Keyboard Mouse Interface The onboard keyboard controller is 8042 software compatible The keyboa
180. s 30 USB G ph utratlon Coin Ze ida 20 USB FUNCION lt a E E ee e ee wen ie aon a a ee ae cae 30 Legacy USB SUPPO iain enolate A datada id 30 Advanced BIOS Setup Continued iii 31 iv Preface CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH USB 2 0 Controll f a idad dic 31 USB 2 0 Controller Model as 31 USB Mass Storage Device Configuration ececceesceeeeeeeeneeceneeeeaeeeeaeeceaeeceaeeeeateseaeeeeaneeeas 31 Chapter 4 PCUPNP Setups cin See nan en Stages tenu nissan 33 PIUg And Ray OS are ec Rate iia 33 PCI PAP Setup ContinUed 2232808 2 en snscesoddeedeved cues eouees E E E E unes ee 34 POI Latency TIMOR oia nn EE Re st ne 34 Allocate IRQ to RCI VGA a a a Ace TUE 34 Palette SNOOPING 222 3 ct eee Ra ee edie Re ig en Ree E aise eed ese oe ea eee etree is 34 PCI PnP Setup Continued iii A ee 35 PCIDE BusMaster e Gate 35 OffBoard PCVISA IDE Cord cion nica ii trials 35 lee EE 35 PCI PnP Setup Continued iii 36 DMA id A A A A Sin Pr 36 Resened Memory SIZO issues 36 Chapter 5 Boot Setup iii 37 Boot Setup Continued 321 228 bade purent E RARE nn ded MM onde Aeddi Et ed 38 BOOT SETTINGS CONEIGURATION sssnnsssssssesssernnnrrnrrrirrrrrrrnrrnnsrnnessnnsssrsssrrrtrrorrrnrrrrnnns 38 Boot Settings Configuration 38 Quick BOO a lata de it le nes 38 QUINCE BOOT eege eet he cat eege nr et ee 38 Boot Setup Continued eege roto 39 Add On ROM Display Mode end a e 39 Boot Wp NUM LOGK nt Seege
181. s about the standards defined on the current system and individual devices ACPI Machine Language AML is a binary code format that the operating system s ACPI AML interpreter parses to discover the machine s properties On boot up the BIOS startup code copies it into system memory where it can be interpreted by the operating system s ACPI AML interpreter This option is used to update the ACPI FACP table to indicate headless operations Option Disabled Description This option disables updating the ACPI FACP table to indicate headless operation Enabled This option enables updating the ACPI FACP table to indicate headless operation Chapter 3 Advanced BIOS Setup 23 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued EVENT LOG CONFIGURATION SCREEN View Event Log View Event Log A pop up window displays all unread events e g 01 01 02 13 12 56 CMOS time not set Mark all events as read Mark all unread events as read and clear the Event Log buffer Clear Event Log Discard all events in the Event Log PCI Error Logging Enable the PCI Error Logging 24 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued IPMI 1 5 CONFIGURATION SCREEN IPMI 1 5 Configuration You can use this screen to select options for the IPMI 1 5 Configuration Use the up and down lt Arrow gt keys to sele
182. s mounted vertically in a system rack this would be the temperature of the air measured at the bottom of the board before the air flows over the board 2 If the board is to be operated within the shaded area indicated above it is imperative to verify that it can be safely operated before the board is inte grated in an application system This will require an empirical thermal design analysis and verification by the system designer ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 7 7 System Considerations CP6000 r As individual processor characteristics vary as well as the system environment of the CP6000 the information contained in Figures 7 1 and 7 2 must be viewed as a guide and not as an absolute specification It is the responsibility of the system integrator to ensure that system requirements are specified accordingly An airflow of 1 0 m s is a typical value for a standard Kontron ASM rack 6U CompactPCI rack with a 1U cooling fan tray Newer ASMs from Kontron will have an airspeed of 2 0 m s or more For other racks or housings the available airflow will differ The maximum ambient operating temperature must be recalculated and or measured for such environments For the calculation of the maximum ambient operating temperature the processor junction temperature must never exceed the specified limit for the involved processor type 7 2 3 Peripherals When determining the thermal requirements for a given applica
183. sions IEEE 1101 10 Environmental Vibration 1EC60068 2 6 Ruggedized version test parameters sinusoidal 10 300 Hz frequency range 2 g accelleration 1 oct min sweep rate 10 cycles axis 3 axis Vibration broad band IEC60068 2 64 Ruggedized version test parameters random digital control 20 500Hz 0 05 g Hz PSD and guidance 500 2000Hz 0 005 g Hz PSD 3 5 g RMS acceleration e 30 min test time axis 3 axis Bump IEC60068 2 29 Ruggedized version test parameters 15 g acceleration 11 ms pulse duration 500 bumps per direction 6 directions 1 s recovery time Shock IEC60068 2 27 Ruggedized version test parameters e 30 g acceleration 9 ms pulse duration 3 shocks per direction 6 directions 5 s recovery time Climatic Humidity 1EC60068 2 78 93 RH at 40 C non condensing WEEE Directive 2002 96 EC Waste electrical and electronic equip ment RoHS Directive 2002 95 EC Restriction of the use of certain hazard ous substances in electrical and elec tronic equipment Note The values in the above table are valid for boards which are ordered with the ruggedized service For more information please contact your local Kontron office Page 1 18 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction 1 9 Related Publications The following publications contain information relating
184. such a way as to ensure safe transportation see our safety instructions Kontron provides for repair or replacement of any part assembly or sub assembly at their own discretion or to refund the original cost of purchase if appropriate In the event of repair re funding or replacement of any part the ownership of the removed or replaced parts reverts to Kontron Modular Computers GmbH and the remaining part of the original guarantee or any new guarantee to cover the repaired or replaced items will be transferred to cover the new or repaired items Any extensions to the original guarantee are considered gestures of goodwill and will be defined in the Repair Report issued by Kontron with the repaired or replaced item Kontron Modular Computers GmbH will not accept liability for any further claims resulting directly or indirectly from any warranty claim other than the above specified repair replacement or refunding In particular all claims for damage to any system or process in which the product was employed or any loss incurred as a result of the product not functioning at any given time are excluded The extent of Kontron Modular Computers GmbH liability to the customer shall not exceed the original purchase price of the item for which the claim exists Kontron Modular Computers GmbH issues no warranty or representation either explicit or implicit with respect to its products reliability fitness quality marketability or abili
185. sumption 3 3 V or 5 V depending on the hard disk Current 2 5 Serial ATA HDDs do not use 3 3 V 5 Temperature Range Operating temp 0 C to 60 C 3 Storage temp 55 C to 85 C d Climatic Humidity 93 RH at 40 C non condensing acc to IEC 60068 2 78 Dimensions 54 mm x 27 5 mm Board Weight ca 50 grams without hard disk B 3 CP6000 EXT SATA Module Functional Block Diagram Figure B 1 CP6000 EXT SATA Module Functional Block Diagram SATA Connectivity J2 CP6000 EXT SATA 2 5 HDD SATA Signals Power J3 CP6000 EXT SATA J1 CP6000 EXT SATA J30 CP6000 J31 CP6000 ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page B 3 CP6000 EXT SATA CP6000 m B 4 CP6000 EXT SATA Module Layout The CP6000 EXT SATA Module includes two board to board connectors J1 and J3 and one SATA connector J2 B 4 1 CP6000 EXT SATA Module Layout Figure B 2 CP6000 EXT SATA Module Layout PageB 4 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 CP6000 EXT SATA y B 5 Module Interfaces B 5 1 Board to Board Connectors J1 and J3 The board to board connectors J1 and J3 on the CP6000 EXT SATA module are connected to the connectors J30 and J31 on the CP6000 Table B 2 Board to Board Connector J3 Pinout 1 GND Ground signal 2 GND Ground signal 3 SATA_TX2 Differential T
186. system To access this screen select CD DVD ROM Drives on the Boot Setup screen and press lt Enter gt The following screen displays examples of CD DVD ROM Drives BIOS SETUP UTILITY 1st ATAPI CDROM ATAPI CD ROM DRTUE 44 Chapter 5 Boot Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 6 Security Setup CP6000 Password Support Two Levels of Password Protection CP6000 provides both a Supervisor and a User password If you use both passwords the Supervisor password must be set first The system can be configured so that all users must enter a password every time the system boots or when CP6000 Setup is executed using either or either the Supervisor password or User password The Supervisor and User passwords activate two different levels of password security If you select password support you are prompted for a one to six character password Type the password on the keyboard The password does not appear on the screen when typed Make sure you write it down If you forget it you must drain NVRAM and reconfigure Remember the Password Keep a record of the new password when the password is changed If you forget the password you must erase the system configuration information in NVRAM See Deleting a Password for information about erasing system configuration information Chapter 6 Security Setup 45 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Security Setup Continued
187. t an item Use the lt Plus gt and lt Minus gt keys to change the value of the selected option A description of the selected item appears on the right side of the screen The settings are described on this page The screen is shown below ACPI 2 0 Feature Set this value to allow or prevent the system to be complaint with the ACPI 2 0 specification Option Description No This setting prevents the BIOS from supporting the ACPI 2 0 specification Yes This setting allows the BIOS to support the ACPI 2 0 specification ACPI APIC Support Include ACPI APIC table pointer to RSDT pointer list APIC ACPI SCI IRQ Enable RSDP pointers to 64 Bit fixed System Description Table AMI OEMB Table Include OEMB table pointer to R X SDT pointer list 22 Chapter 3 Advanced BIOS Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Advanced BIOS Setup Continued RSDT AML Headless Mode RSDT is the main ACPI table It has no fixed place in memory During the boot up process the BIOS locates a pointer to the table during the memory scan A Root System Descriptor Pointer RSDP is located in low memory space of the system It provides the physical address of the RSDT The RSDT itself is identified in memory because it starts with the signature RSDT Following the signature is an array of pointers that tell the operating system the location of other description tables that provide it with the information it need
188. ter Auto detection of KB MS using AMI KB 5 CO Early CPU Init Start Disable Cache Init Local APIC C1 Set up boot strap processor Information C2 Set up boot strap processor for POST C5 Enumerate and set up application processors C6 Re enable cache for boot strap processor C7 Early CPU Init Exit 0A Initializes the 8042 compatible Key Board Controller 0B Detects the presence of PS 2 mouse OC Detects the presence of Keyboard in KBC port OE Testing and initialization of different Input Devices Also update the Kernel Variables Traps the INTO9h vector so that the POST INTO9h handler gets control for IRQ1 Uncompress all available language BIOS logo and Silent logo modules 13 Early POST initialization of chipset registers 24 Uncompress and initialize any platform specific BIOS modules 30 Initialize System Management Interrupt 2A Initializes different devices through DIM See DIM Code Checkpoints section of document for more information 2C Initializes different devices Detects and initializes the video adapter installed in the system that has optional ROMs 2E Initializes all the output devices 31 Allocate memory for ADM module and uncompress it Give control to ADM module for initialization Initialize language and font modules for ADM Activate ADM module Chapter 12 POST Codes 73 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH POST Code Checkpoints Continued 74
189. the configuration and exit You can also use the lt Arrow gt key to select Cancel and then press the lt Enter gt key to abort this function and return to the previous screen ESC The lt Esc gt key allows you to discard any changes you have made and exit the CP6000 Setup Press the lt Esc gt key to exit the CP6000 setup without saving your changes The following screen will appear Discard changes and exit setup now Ok Cancel Press the lt Enter gt key to discard changes and exit You can also use the lt Arrow gt key to select Cancel and then press the lt Enter gt key to abort this function and return to the previous screen Enter The lt Enter gt key allows you to display or change the setup option listed for a particular setup item The lt Enter gt key can also allow you to display the setup sub screens Chapter 1 Starting CP6000 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 2 Main Setup When you first enter the CP6000 Setup Utility you will enter the Main setup screen You can always return to the Main setup screen by selecting the Main tab There are two Main Setup options They are described in this section The Main BIOS Setup screen is shown below BIOS SETUP UTILITY System Time System Time System Date Use this option to change the system time and date Highlight System Time or System Date using the lt Arrow gt keys Enter new values through the
190. the default setting Wait for F1 If Error Set this value to allow the Wait for F1 Error setting to be modified The Optimal and Fail Safe default setting is Enabled Option Disabled Description This prevents the CP6000 to wait on an error for user intervention This setting should be used if there is a known reason for a BIOS error to appear An example would be a system administrator must remote boot the system The computer system does not have a keyboard currently attached If this setting is set the system will continue to boot up in to the operating system If Fl is enabled the system will wait until the BIOS setup is entered Enabled Set this value to allow the system BIOS to wait for any error If an error is detected pressing lt F1 gt will enter Setup and the BIOS setting can be adjusted to fix the problem This normally happens when upgrading the hardware and not setting the BIOS to recognize it This is the default setting Chapter 5 Boot Setup 39 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued Hit DEL Message Display Set this value to allow the Hit DEL to enter Setup Message Display to be modified The Optimal and Fail Safe default setting is Enabled Option Description Disabled This prevents the CP6000 to display Hit Del to enter Setup during memory initialization If Quiet Boot is enabled the
191. the host or other peripherals are powered up ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 3 7 Installation CP6000 e 3 5 3 Rear I O Device Installation To ensure proper functioning of the rear I O VGA interface the jumpers on the CP6000 must be configured for the rear I O See Chapter 4 for configuration details For physical installation of rear UO devices refer to the documentation provided with the device itself Note It is strongly recommended to use COM1 only on the front or rear I O panel 3 5 4 Battery Replacement The lithium battery must be replaced with an identical battery or a battery type recommended by the manufacturer Suitable batteries include the VARTA CR2025 and PANASONIC BR2020 Note Care must be taken to ensure that the battery is correctly replaced The battery should be replaced only with an identical or equivalent type recommended by the manufacturer Dispose of used batteries according to the manufacturer s instructions The typical life expectancy of a 170 mAh battery VARTA CR2025 is 5 6 years with an average on time of 8 hours per working day at an operating temperature of 30 C However this typical value varies considerably because the life expectancy is dependent on the operating temperature and the standby time shutdown time of the system in which it operates To ensure that the lifetime of the battery has not been exceeded it is recommended to
192. ther the data transfer takes place or not The following table indicates the Intel 82546 Gigabit Dual Ethernet controller power supply characteristics Table 7 1 Intel 82546 Dual Gigabit Ethernet Controller Power Supply 100 Mbs 1000 Mbs 3 2 W 1000 Mbs Page 7 6 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 System Considerations y Figure 7 1 Pentium M Temp Vs Airspeed Graph with Standard Heat Sink CPU Dual Ethernet Controller 1 1 T t C Tombientl C ambien 90 2 600 MHz 90 2 11 GHz 1 x Ethernet 1 x front and 1 x rear 80 80 2 x Ethernet 2 x front and 2 x rear 70 aan 13 GHz 70 1 6 GHz 60 y 607 50 4 507 407 407 30 30 20 T T T T T r Airspeed m s l l l Airspeed m s 0 05 10 15 20 25 3 0 05 10 15 20 25 3 0 Figure 7 2 Pentium M Temp Vs Airspeed Graph with E2 Heat Sink CPU Dual Ethernet Controller 1 1 1 x Ethernet 1 x front and 1 x rear Tambient C dial 90 2 pobla 90 2 2 x Ethernet 2 x front and 2 x rear 80 80 70 707 60 4 605 50 4 50 40 407 30 307 20 77 Arspeed m s Y TATTOO Airspeed m s 0 05 10 15 20 25 30 05 19 15 20 25 30 Warning E 1 Ta is the initial temperature of the ambient air used for convectional cooling of the board In a typical installation where the board i
193. this processor For higher performance applications the CP6000 must be operated with forced air flow There are two heat sink versions available for the CP6000 one for the standard version and one for the extended temperature version Due to the fact that the heat sink for the extended temperature version is larger than the one for the standard version it is not possible to directly mount a 2 5 HDD on the CP6000 if an E2 heat sink is installed The main function of the E2 heat sink is to absorb the heat emitted by the chipset processor and both Gigabit controllers ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 7 5 System Considerations CP6000 7 2 2 Forced Air Flow When developing applications using the CP6000 the system integrator must be aware of the overall system thermal requirements System chassis must be provided which satisfy these re quirements As an aid to the system integrator a characteristics graph is provided for the CP6000 The values have been measured using typical applications running under Windows 2000 In worst case situations the values vary and the temperature range must be reduced In all situ ations the maximum case temperature of the Pentium M processor and the Ethernet control ler must be kept below the maximum allowable temperature This temperature value can be measured with the onboard remote temperature sensor To ensure functionality at the maxi mum temperature the BIOS
194. tify the logic status of the board by software It starts with the value O and will be incremented with each logic update 4 5 12 Logic Version Table 4 26 Logic Version Register Logic Version 0x28B 4 5 13 LED Control The LED control register enables the user to switch on and off the Front l and Front ll LEDs on the front panel Table 4 27 LED Control Register LED Control Register 0x28D 0 LEDO 0 LED switch off 1 LED switch on 1 LED1 0 LED switch off 1 LED switch on 2 LED2 0 LED switch off 1 LED switch on 3 LED3 0 LED switch off 1 LED switch on 4 LED4 0 LED switch off 1 LED switch on 5 LEDS 0 LED switch off 1 LED switch on 6 LED6 0 LED switch off 1 LED switch on 7 LED7 0 LED switch off 1 LED switch on ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 4 21 Configuration CP6000 4 5 14 Hot Swap LED Control The hot swap LED control register enables the user to switch on and off the hot swap LED on the front panel Table 4 28 Hot Swap LED Control Register Hot Swap LED Control Register 0x28E 0 0 Reserved d 0 Reserved 2 HSLED 0 Hot swap LED switch off 1 Hot swap LED switch on 3 0 Reserved 4 0 Reserved 5 0 Reserved 6 0 Reserved 7 0 Reserved D Page 4 22 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 1727
195. tion peripherals to be used with the CP6000 must also be considered Devices such as hard disks PMC modules etc which are directly attached to the CP6000 must also be capable of being operated at the tempera tures foreseen for the application It may very well be necessary to revise system requirements to comply with operational environment conditions In most cases this will lead to a reduction in the maximum allowable ambient operating temperature or even require active cooling of the operating environment Warning As Kontron assumes no responsibility for any damage to the CP6000 or other equipment resulting from overheating of the CPU it is highly recommended that system integrators as well as end users confirm that the operational envi ronment of the CP6000 complies with the thermal considerations set forth in this document Note If the CP6000 is ordered for extended temperature range 40 C to 85 C some features are limited for example the memory runs only with DDR266 PC2100 As this version comes with a larger heat sink than the standard ver sion the mounted heat sink extends partly over the area where the HDD is intended to be installed For this reason it is not possible to directly install a 2 5 HDD on this CP6000 version Page 7 8 O 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 CTM80 2 RIO Module Appendix
196. to allow the serial port to use 3E8 as its I O port address and IRQ 4 for the interrupt address If the system will not use a serial device it is best to set this port to Disabled 2E8 IRQ3 Set this value to allow the serial port to use 2E8 as its I O port address and IRQ 3 for the interrupt address If the system will not use a serial device it is best to set this port to Disabled Serial Port2 Address This option specifies the base I O port address and Interrupt Request address of serial port 2 The Optimal setting is 2F8 IRO3 The Fail Safe setting is Disabled Option Description Disabled Set this value to prevent the serial port from accessing any system resources When this option is set to Disabled the serial port physically becomes unavailable 3F8 IRQ4 Set this value to allow the serial port to use 3F8 as its I O port address and IRQ 4 for the interrupt address If the system will not use a serial device it is best to set this port to Disabled 2F8 IRQ3 Set this value to allow the serial port to use 2F8 as its I O port address and IRQ 3 for the interrupt address This is the default setting The majority of serial port 2 or COM2 ports on computer systems use IRQ3 and I O Port 2F8 as the standard setting The most common serial device connected to this port is an external modem If the system will not use an external modem set this port to Disabled Note Most internal modems require the use of the second COM port
197. ty Setup screen The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to prevent the Boot Sector Virus Protection This is the default setting Enabled Select Enabled to enable boot sector protection CP6000 displays a warning when any program or virus issues a Disk Format command or attempts to write to the boot sector of the hard disk drive If enabled the following appears when a write is attempted to the boot sector You may have to type N several times to prevent the boot sector write Boot Sector Write Possible VIRUS Continue Y N The following appears after any attempt to format any cylinder head or sector of any hard disk drive via the BIOS INT 13 Hard disk drive Service Format Possible VIRUS Continue Y N CHANGE SUPERVISOR PASSWORD Change Supervisor Password Select Change Supervisor Password from the Security Setup menu and press lt Enter gt Enter New Password appears Type the password and press lt Enter gt The screen does not display the characters entered Retype the password as prompted and press lt Enter gt If the password confirmation is incorrect an error message appears The password is stored in NVRAM after CP6000 completes Chapter 6 Security Setup 47 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Security Setup Continued Change User Password Select Change User Password from the Security Setup
198. ty to fulfil any particular application or purpose As a result the products are sold as is and the responsibility to ensure their suitability for any given task remains that of the purchaser In no event will Kontron be liable for direct indirect or consequential damages resulting from the use of our hardware or software products or documentation even if Kontron were advised of the possibility of such claims prior to the purchase of the product or during any period since the date of its purchase Please remember that no Kontron Modular Computers GmbH employee dealer or agent is authorized to make any modification or addition to the above specified terms either verbally or in any other form written or electronically transmitted without the company s consent ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page xix Preface m D Page xx This page has been intentionally left blank O 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction y Chapter Introduction ID 27942 Rev 05 DW 2005 Kontron Modular Computers GmbH Page 1 1 Introduction m Page 1 2 This page has been intentionally left blank 2005 Kontron Modular Computers GmbH CP6000 ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Introduction y 1 Introduction
199. umber and version respectively The serial number is unique to each board produced by Kontron Modular Computers It could be used also by the customer to identify specific boards Ident Number This is a display only field which shows Kontron internal information about the board EKS Number Rear UO This is a display only field which shows which Rear 1 O board is installed 58 Chapter 8 OEM Feature CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH OEM Feature Continued PCI SH ela for PC C None C Yes Kei Delay for PCI Config Cycle Add the delay if you have initialization problems on slow PCI devices The Optimal and Fail Safe default setting is None Accept Class Code FF Add the delay if you have initialization problems on slow PCI devices The Optimal and Fail Safe default setting is Yes Option Description Yes Initializes all of the PCI devices No Does not initialize the devices with class code FF Chapter 8 OEM Feature 59 CP6000 UG ID 27942 Rev 05 OEM Feature Continued Watchdog ES amixxx AMIBCP simulate exe BIOS SETUP UTILITY I RQ5 Routing IRQS Routing The Optimal and Fail Safe default setting is Disabled Option Description Disabled No Resource is reserved Watchdog Reserve resource 280h and IRQS for Watchdog derate Enum or Fail signal Fail signal from the Derate Signal power supply Enum signal is
200. uration Register 0x284 0 HSIRQ O Disable hot swap handle IRQS 1 Enable hot swap handle IRQ5 1 WIRQ 0 Disable Watchdog IRQ5 routing 1 Enable Watchdog IRQ5 routing 2 WRST 0 Disable Watchdog hardware reset 1 Enable Watchdog hardware reset 3 CDIRQ 0 Disable CPCI derate signal to IRQ5 routing 1 Enable CPCI derate signal to IRQ5 routing 4 CEIRQ 0 Disable CPCI enum signal to IRQ5 routing d Enable CPCI enum signal to IRQ5 routing 5 CFIRQ 0 Disable CPCI fail signal to IRQ5 routing 1 Enable CPCI fail signal to IRQ5 routing 6 CFNMI 0 Disable CPCI fail signal to NMI routing 1 Enable CPCI fail signal to NMI routing 7 WNMI 0 Disable Watchdog NMI routing 1 Enable Watchdog NMI routing Note To enable the dual stage watchdog the NMI and the reset bit must be set At the first stage the watchdog generates an NMI and at the second stage the system will be reset ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 4 17 Configuration CP6000 4 5 7 CPCI Master Reset The CPCI master reset register describes the routing of the reset signal from the CompactPCI interface to the local reset controller if the board is installed in a peripheral slot If the board is installed in a system slot the reset is always an output If the reset is disabled the CP6000 ignores the reset signal from the CompactPCI interface Table 4 21 CPCI Master Reset Register
201. uring the Bootblock recovery portion of the BIOS Checkpoint Description EO Initialize the floppy controller in the super I O Some interrupt vectors are initialized DMA controller is initialized 8259 interrupt controller is initialized L1 cache is enabled E9 Set up floppy controller and data Attempt to read from floppy EA Enable ATAPI hardware Attempt to read from ARMD and ATAPI CDROM EB Disable ATAPI hardware Jump back to checkpoint E9 EF Read error occurred on media Jump back to checkpoint EB E9 or EA Determine information about root directory of recovery media FO Search for pre defined recovery file name in root directory F1 Recovery file not found F2 Start reading FAT table and analyze FAT to find the clusters occupied by the recovery file F3 Start reading the recovery file cluster by cluster F5 Disable L1 cache FA Check the validity of the recovery file configuration to the current configuration of the flash part FB Make flash write enabled through chipset and OEM specific method Detect proper flash part Verify that the found flash part size equals the recovery file size F4 The recovery file size does not equal the found flash part size FC Erase the flash part FD Program the flash part FF The flash has been updated successfully Make flash write disabled Disable ATAPI hardware Restore CPUID value back into register Give control to F000 RO
202. user must refer to appropriate application documentation for ap plicable procedures for this case In any event the safety requirements above must be ob served ID 27942 Rev 05 2005 Kontron Modular Computers GmbH Page 3 5 Installation CP6000 m 3 4 2 Peripheral Hot Swap Procedure This procedure assumes that the board to be hot swapped has undergone an initial board in stallation and is already installed in an operating system and that the system supports hot swapping of the board To hot swap the CP6000 proceed as follows 1 Ensure that the safety requirements indicated in Chapter 3 1 are observed Particular at tention must be paid to the warning regarding the heat sink Warning Care must be taken when applying the procedures below to ensure that neither the CP6000 nor other system boards are physically damaged by the application of these procedures 2 Unlock both board ejection handles ensuring that the bottom handle has activated the hot swap switch this occurs with a very small amount of movement of the handle Note What transpires at this time is a function of the application If hot swap is supported by the application then the blue HS LED should light up after a short time period This indicates that the system has recognized that the CP6000 is to be hot swapped and now indicates to the operator that hot swapping of the CP6000 may proceed If the blue HS LED does not light up after a short time
203. uters Technical Support before implementing the IRQs For events that are not time critical such as ENUM DERATE etc polling should be considered instead of using an IRQ ID 27942 Rev 05 O 2005 Kontron Modular Computers GmbH Page 4 9 Configuration r 4 3 Onboard PCI Interrupt Routing The 6300ESB provides up to 8 PCI and 4 PCI X interrupt inputs The table below describes the connection of these IRQ signals For more information refer to the INTEL 6300ESB data sheet Table 4 13 PCI Interrupt Routing VGA PIRQA USB A controller PIRQB Free SMBUS PIRQC Free SATA PIRQD Free USB B controller PIRQE CPCI Free PIRQF CPCI Free PIRQG CPCI Free PIRQH CPCI USB 2 0 controller PCIXIRQO Gigabit front PMC INTA Free PCIXIRQ1 Gigabit rear PMC INTB Free PCIXIRQ2 Gigabit rear PMC INTC Free PCIXIRQ3 Gigabit front PMC INTD Free For more information refer to the INTEL 6300ESB data sheet Page 4 10 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Configuration 4 4 Memory Map The CP6000 board uses the standard AT ISA memory map 4 4 1 Memory Map for the 1st Megabyte The following table sets out the memory map for the first megabyte Table 4 14 Memory Map for the 1st Megabyte 0xE0000 OxFFFFF 128 k BIOS implemented in FWH Reset vector OxFFFFO 0xD0000 Ox
204. value to allow the system to reserve memory that is used by ISA devices The Optimal and Fail Safe default setting is Disabled Option Description Disabled Set this value to prevent BIOS from reserving memory to ISA devices 16K Set this value to allow the system to reserve 16K of the system memory to the ISA devices 32K Set this value to allow the system to reserve 32K of the system memory to the ISA devices 64K Set this value to allow the system to reserve 64K of the system memory to the ISA devices 36 Chapter 4 PCI PnP Setup CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Chapter 5 Boot Setup Select the Boot tab from the CP6000 setup screen to enter the Boot BIOS Setup screen You can select any of the items in the left frame of the screen such as Boot Device Priority to go to the sub menu for that item You can display a Boot BIOS Setup option by highlighting it using the lt Arrow gt keys All Boot Setup options are described in this section Select an item on the Boot Setup screen to access the sub menu for Boot Settings Configuration Boot Device Priority Hard disk drives Removable Devices CD DVD Drives BIOS Boot Configuration Options The Boot Setup screen is shown below S amixxx AMIBCPsimulate exe BIOS SETUP UTILITY Boot Settings Configuration Chapter 5 Boot Setup 37 CP6000 UG ID 27942 Rev 05 Kontron Modular Computers GmbH Boot Setup Continued
205. y interfacing cables that may be connected to the board Unscrew the front panel retaining screws APUN Warning Due care should be exercised when handling the board due to the fact that the heat sink can get very hot Do not touch the heat sink when changing the board 5 Disengage the board from the backplane by first unlocking the board ejection handles and then by pressing the handles as required until the board is disengaged After disengaging the board from the backplane pull the board out of the slot Dispose of the board as required NO 3 4 Hot Swap Procedures The CP6000 is designed for hot swap operation When installed in the system slot it is capable of supporting peripheral board hot swapping When installed in a peripheral slot its hot swap capabilities depend on the type of backplane in use and the system controller s capabilities The reason for this being that communications with the system controller requires either front panel Ethernet I O or use of a packet switching backplane In any event hot swap is also a function of the application running on the CP6000 3 4 1 System Master Hot Swap Hot swapping of the CP6000 itself when used as the system controller is possible but will result in any event in a cold start of the CP6000 and consequently a reinitialization of all peripheral boards Exactly what transpires in such a situation is a function of the application and is not addressed in this manual The
206. y small removable mass storage device lt provides true IDE functionality compatible with the 16 bit ATA ATAPI 4 interface CompactFlash cards are also available for data storage using the Microdrive hard disk from IBM with up to 6 GB capacity For further information on the CompactFlash refer to section 2 3 8 3 CompactFlash Socket D Page 2 10 2005 Kontron Modular Computers GmbH ID 27942 Rev 05 27942 05 UG VC 051020 172758 27942 05 UG VC 051020 172758 CP6000 Functional Description 2 3 Board Interfaces 2 3 1 Front Panel LEDs The CP6000 is equipped with two LEDs for IPMI two LEDs for watchdog and overtemperature eight LEDs for general purpose or POST code four LEDs for Front l and four LEDs for Front ll and one LED for hot swap Their functionality is described in the following chapters 2 3 1 1 IPMI LEDs These two LEDs show the software status of the IPMI controller 2 3 1 2 Watchdog and Overtemperature LEDs The CP6000 provides two front LEDs for Overtemperature and Watchdog status Additionally if the TH LED remains on during bootup it indicates a PCI reset is active and if the WD LED remains on during bootup it indicates a power failure In this case check the power supply If the power supply appears to be functional and this LED remains on contact Kontron Modular Computers Technical Support Note If the overtemperature LED flashes on and off at regular intervals it indicates that the p

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