Intel cpci borard with a intel pentuim M manual Memory Configuration, Configuration Avg Peak, Tbd

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Configuration

5V

5V

3.3V

3.3V

 

(avg)

(peak)

(avg)

(peak)

 

 

 

 

 

1.7GHz / 512MB

6.9A

TBD*

2.4A

TBD*

 

 

 

 

 

Hard disk (add)

540mA

1.00A

N/A

N/A

(typical)

 

 

 

 

 

 

 

 

 

PMC card typical1

1.00A

1.70A

0.75A

1.30A

(add)

 

 

 

 

 

 

 

 

 

PMC card max.2

1.50A

3.00A

2.25A

4.50A

(add)

 

 

 

 

 

 

 

 

 

12V

12V

-12V

-12V

(avg)

(peak)

(avg)

(peak)

 

 

 

 

20mA

50mA

0.0A

0.0A

 

 

 

 

N/A

N/A

N/A

N/A

 

 

 

 

100mA

200mA

20mA

40mA

 

 

 

 

500mA

500mA

500mA

500mA

 

 

 

 

*Peak (short duration) power supply current may be significantly higher (up to 50%) and will vary depending upon the application.

Notes:

1.Consult manufacturer of installed PMC card for actual values.

2.In no case shall the total power dissipated by the PMC card exceed 10.0 W.

The cPB-4612 comes with a heatsink that allows the processor to operate between 0° and approximately 50°C ambient with a minimum of 200 LFM (1 meter per second) of external airflow. It is the users' responsibility to ensure that the cPB-4612 is installed in a chassis capable of supplying adequate airflow. The maximum power dissipation of the processor (FCBGA package) is 25W. External airflow must be provided at all times. See Appendix A, "Specifications," and Appendix C, "Thermal Considerations," for more details.

It is strongly recommended that the airflow be measured while the cPB-4612 is installed in its intended location. Insert a thermistor type air velocity meter (Kane-May KM4007 or similar) through the PMC access on the faceplate and make the air velocity measurement near the processor heat sink. Power should not be applied to the cPB-4612 during airflow measurements (slightly disengage the cPB-4612 from the backplane connectors if necessary).

CAUTION: The processor "core" temperature must never exceed 100°C under any condition of ambient temperature or usage. This may result in permanent damage to the processor.

The cPB-4612 may contain materials that require regulation upon disposal. Please dispose of this product in accordance with local rules and regulations. For disposal or recycling information, please contact your local authorities or the Electronic Industries Alliance at http://www.eiae.org/**.

2.3Memory Configuration

The cPB-4612 components can address up to 4 GB of memory, but the board only has two SO-DIMM sockets and can physically only hold two sticks of memory. The address space is divided between memory local to the board and memory located on the Local PCI bus. Any memory not reserved or occupied by a local memory device (DRAM/flash) is available to PCI memory devices.

The cPB-4612 can support up to two sticks of either 256 MB, 512 MB, 1 GB DDR SDRAM. 1MB of L2 cache is integrated with the Pentium® –M processor.

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Contents CPB4612 Diversified TECHNOLOGY, INC Return Shipment InformationFor Your Safety Revision History Introduction Table of ContentsConfiguration Vii CPB4612 Configuration and Maintenance Guide Datasheet ReferenceFigures TablesDocument Organization Introduction ChapterProduct Definition USB PMC Functional Blocks FeaturesCompactPCI/PSB Architecture PCI-to-PCI Bridge ProcessorChipset Video Power Ramp CircuitryMemory and I/O Addressing Rear-Panel I/OInterrupts 11 10/100 Ethernet InterfaceIDE Hard Drive Serial I/O16 DMA Counter/TimersReset Two-Stage Watchdog TimerSoftware LED IndicatorsUniversal Serial Bus USB System Environmental MonitorGetting Started Connectivity Bios VersionUnpacking System Requirements12V Avg Peak Memory ConfigurationConfiguration Avg Peak TBDLocal Dram Memory Address Map ExampleLPT I/O ConfigurationPCI COM1Jumper Options ConnectorsBios Configuration Overview System Configuration Summary Operating System InstallationPage Configuration +5V PMC I/O Jumper Cross-Reference Table FunctionPB1 J16-1 Function Switch Descriptions1 PB1 Reset 2 J16-1 BKT-GND to GND6 J17-1 Not Used 5 J16-4 Impi Disable3 J16-2 +12V to J5-pin D1 4 J16-3 +5V PMC I/O10 J18 Ejector Switch 8 J17-3 Disable Onboard Video9 J17-4 Manufacture Test Mode Reset Backend Power Down Sources Reset Types and SourcesHard Reset Sources Soft Reset SourcesNMI Sources System Monitoring and Control Ipmb Monitoring and Control FunctionsSMBus Address Map Firmware UpdatesField Replaceable Unit FRU Information SensorsIDE Controller Secondary IDE Channel Features of the IDE ControllerDisk Drive Support Primary IDE ChannelWatchdog Timer Base Address Register 10h Watchdog Timer OverviewPCI Configuration Registers WDT Lock Register 68h WDT Configuration Register 60hPreload Value 2 BAR+04h Wdtenable Watchdog EnableMemory Mapped Registers Preload Value 1 BAR+00hDescription Reserved PreloadValue2 Bit Description Reserved Watchdog Timer Interrupt ActiveGeneral Interrupt Status BAR+08h Reload Register BAR+0ChWDT Unlocking and Programming Sequence Using the Watchdog in an ApplicationWatchdog Reset Enabling the Watchdog ResetSystem Bios Flash Utility Program Bios Upgrade and RecoveryBios Recovery Entering Setup… Boot MenuF2 Enter Setup Space Skip Memory ESC Boot Menu ROM Utilities ROM Utilities VGA RAM System SummarySystem Summary Descriptions CPUSystem Setup Descriptions System SetupPage IDE Configuration Utility IDE ConfigIDE Config Descriptions Primary Master Configuration Summary Hard Disk SetupHard Drive Setup Descriptions Boot Order Boot Order Descriptions Peripherals Port Control Descriptions Console Redirection Descriptions Disabled by defaultOnboard Peripheral Control Descriptions USB Devices Detected USB ConfigurationUSB Configuration Utility USB Mass Storage ConfigUSB Control Descriptions USB Mass Storage Config DescriptionsPCI Options Descriptions Misc ConfigPNP Options Descriptions Acpi / Power SettingsEvent Logging Descriptions Event Logging Configuration UtilityEvent Logging Security/Virus Security and ANTI-VIRUS Configuration UtilityExit Menu ExitExit Description Resource Allocation PnP ISA Auto-configurationPCI Auto-configuration Plug and Play PnPConsole Redirection Legacy ISA ConfigurationSystem Management Bios Smbios Automatic Detection of Video AdaptersGfrr Post Code LED Colors MSB-LSB Description RrrgOrrg GfffPost Codes Trouble Shooting Hint Absolute Maximum Ratings SpecificationsDC Operating Characteristics Mechanical Battery Backup CharacteristicsOperating Temperature ReliabilityBoard Dimensions and Weight Page Connector Assignments Function ConnectorsJ5 Cpld Connector LocationsBackplane Connectors Pin Locations J15 CompactPCI Bus Connector Pin out J15 CompactPCI Bus ConnectorJ11 CompactPCI Bus Connector Pin out J11 CompactPCI Bus ConnectorJ8 Connector Pin out J8 CompactPCI ConnectorJ2 Rear Panel I/O Connector Pin out J2 Rear Panel I/O CompactPCI ConnectorJ1 10/100 Ethernet J4 Universal Serial Bus 0 connectorJ4 Universal Serial Bus 0 Connector Pin out Pin# Function Pin# Function J6, J7, J9, J10 64bit/66Mhz PCI Mezzanine ConnectorsJ3 COM1 Serial Port PCIAD1 GND VCC3 VIOPCIAD3 PCIAD2PAR64 Page PCIAD0 10 J12 and J13 32bit/33Mhz PCI Mezzanine ConnectorsREQ# PCIAD9 VCC Pwrviopmc GND GND PwrviopmcVCC3 GND BUSMODE4# 11 J14 IDE Connector Page Thermal Considerations Appendix CThermal Requirements Temperature MonitoringPage Page Appendix D Datasheet ReferencePentium M processor Fcbga Package CompactPCIEthernet Intel 855GME ChipsetSuper I/O PMC SpecificationPage Agency Approvals Industry Canada Canada Appendix F

cpb4612, cpci borard with a intel pentuim M specifications

The Intel CPCI board equipped with the Intel Pentium M processor, specifically the CPB4612, represents a significant advancement in the realm of compact computing solutions tailored for embedded applications. This board is primarily designed to cater to industries requiring low-power, high-performance computing capabilities, such as telecommunications, medical equipment, and industrial automation.

One of the defining features of the CPB4612 board is its incorporation of the Intel Pentium M processor, known for its efficient architecture. The Pentium M operates on a low power envelope while delivering robust performance, thanks to its advanced Power Management capabilities, which can dynamically adjust frequency and voltage based on workload demands. This feature not only assists in maintaining optimal performance but also extends the operational lifespan of embedded systems by reducing unnecessary power consumption.

The CPB4612 boasts a modular design compliant with the CompactPCI (CPCI) standard, enhancing its versatility within various configurations. This modular structure allows easy integration with other CPCI-compliant boards, facilitating scalability for different application requirements. Furthermore, the board supports up to 1 GB of DDR RAM, which provides sufficient memory capacity for most embedded applications.

In terms of connectivity, the Intel CPB4612 features a wealth of interfaces including Ethernet for network connectivity, USB ports for peripheral devices, and serial ports for legacy support. This array of options ensures that the board can connect seamlessly to a variety of external devices, catering to the needs of diverse industry applications.

The board is also equipped with advanced thermal management technologies, ensuring it operates within safe temperature ranges even under heavy workloads. The design includes heat sinks and ventilation options that help dissipate heat effectively, mitigating the risk of thermal-related performance degradation.

In summary, the Intel CPCI board with the Pentium M processor, CPB4612, is an ideal choice for applications demanding a balance between power efficiency and high performance. With its modular design, ample connectivity options, and robust thermal management features, it provides a reliable and flexible solution for embedded computing needs across multiple industries. This board exemplifies Intel's commitment to innovation, allowing developers to harness the power of advanced computing in a compact form factor.
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