Emerson manual Environmental Requirements, MVME7100 Specifications

Page 31

Requirements

Hardware Preparation and Installation

 

 

2.3Requirements

Make sure that the board, when operated in your particular system configuration, meets the requirements specified in the next sections.

2.3.1Environmental Requirements

The following table lists the currently available specifications for the environmental characteristics of the MVME7100. A complete functional description of the MVME7100 baseboard appears in Chapter 4, Functional Description.

Operating temperatures refer to the temperature of the air circulating around the board and not to the component temperature.

Table 2-2 MVME7100 Specifications

Characteristics

Operating

Nonoperating

 

 

 

Operating temperature

0°C to +55°C (32°F to 131°F) entry

–40°C to +85° C (-40°F to 185°F)

 

air with forced-air cooling

 

 

 

 

Temperature change

+/-0.5° C/min according to NEBS

 

 

Standard GR-63-CORE

 

 

 

 

Relative humidity

5% to 90% noncondensing

5% to 90% noncondesning

 

 

 

Vibration

 

1 G sine sweep, 5-100 Hz,

 

 

horizontal and vertical (NEBS1)

 

 

 

Shock

 

20 G peak (half sine) 11mSec

 

 

 

Free Fall

 

100 mm (unpackaged) per GR-63-

 

 

CORE

 

 

 

Product Damage

High humidity and condensation on the board surface causes short circuits. Do not operate the board outside the specified environmental limits.

Make sure the board is completely dry and there is no moisture on any surface before applying power.

MVME7100 Single Board Computer Installation and Use (6806800E08A)

31

Page 30 Page 32
Image 31
Page 30 Page 32
Contents MVME7100 Single Board Computer Contact Address Contents Contents Controls, LEDs, and ConnectorsBattery Exchange Index List of Tables Page Secondary Side Thermally Significant Components List of FiguresPage About this Manual Overview of ContentsAbout this Manual AbbreviationsGpcm Quart Notation Description ConventionsBold Comments and Suggestions Summary of ChangesEMC Safety NotesSafety Notes Operation InstallationBattery Cabling and ConnectorsEMV SicherheitshinweiseSicherheitshinweise BetriebKabel und Stecker Umweltschutz BatterieIntroduction FeaturesFeatures List Function FeaturesPcie IntroductionFeaturesMechanical Data Standard CompliancesMechanical Data Board Standard CompliancesBoard Variants Board AccessoriesOrdering Information Supported Board ModelsTask Hardware Preparation and InstallationOverview Startup OverviewShipment Inspection Unpacking and Inspecting the BoardRequirements MVME7100 SpecificationsRequirements Hardware Preparation and Installation Characteristics Operating NonoperatingChassis Type Available Power Power With PMCs Power RequirementsPower Requirements Board Variant PowerThermally Significant Components Thermal Requirements Hardware Preparation and InstallationThermal Requirements Thermally Significant ComponentsPrimary Side Thermally Significant Components Equipment Requirements Equipment Requirements Hardware Preparation and InstallationHardware Preparation and Installation Configuring the Board Configuring the BoardConfiguration Switch Settings S1 SMT Configuration Switch, S1Switch Description Setting Function Safe Start Switch VME System Controller Select, S2 Geographical Address Switch, S2VME System Controller and GA Switch Settings Position Function DefaultTransition Module Installing AccessoriesHardware Preparation and InstallationInstalling Accessories Position Function Default S2-82 PMC Installation and Removal ProcedureInstallation Procedure XMCspan Hardware Preparation and Installation Installing and Removing the BoardXMCspan Installation and Removal Procedure Factory Installed Linux Completing the InstallationPage Board Layout Controls, LEDs, and ConnectorsControls, LEDs, and Connectors Front Panel Reset/Abort SwitchFront Panel Label Function Location Color Description LEDs Controls, LEDs, and ConnectorsLEDs Front Panel LEDsBaseboard Connectors ConnectorsReference Designator Function Connectors Controls, LEDs, and Connectors XMC Expansion Connector J6 Pin AssignmentsPin Signal Controls, LEDs, and ConnectorsConnectors Ethernet Connectors J4A/J4B Pin AssignmentsPin # 10/100/1000 Mb/s PMC Slot 1 Connector J11 Pin Assignments PCI Mezzanine Card PMC Connectors J11 J14, J21 J23PMC Slot 1 Connector J12 Pin Assignments ConnectorsControls, LEDs, and Connectors PMC Slot 1 Connector J13 Pin AssignmentsPMC Slot 1 Connector J14 Pin Assignments PMC Slot 2 Connector J21 Pin Assignments 10 PMC Slot 2 Connector J22 Pin Assignments 11 PMC Slot 2 Connector J23 Pin Assignments 13 VMEbus P1 Connector Pin Assignments 12 COM1 Port Connector Pin AssignmentsPin P2-Z P2-A P2-B P2-C P2-D 14 VME P2 Connector Pinouts+5V GND PMC1IO4 PMC1IO3 15 MVME721 Host I/O Connector J10 Pin Assignments MVME7216E PMC I/O Module PIM Connectors J10, J14Processor COP Header P4 16 USB Connector J2 Pin AssignmentsControls, LEDs, and ConnectorsHeaders HeadersBoundary Scan Header P5 Boundary Scan Header P5 Controls, LEDs, and Connectors18 Boundary Scan Header P5 Pin Assignments Page Functional Description Functional Description Block Diagram Block DiagramProcessor System Memory I2C Serial Interface and DevicesI2C Serial Interface and Devices Functional Description Ethernet Interfaces TimersLocal Bus Interface Quad Uart Quart Control and Timers PLDFlash Memory NvramFunctional Description Duart Interface Duart InterfacePCI-E Port VME Controller 10.2 USBXMC Expansion Power SuppliesClock Distribution Real Time Clock Input Reset Control LogicReal Time Clock Battery System ClockTransition Module Layout Transition ModuleTransition Module Features Seeprom Address Switch, S1Transition Module Features Transition Module Connectors Rear Panel ConnectorsSeeprom Address Switch Assignments RTM Switch Settings and Device AddressesTransition Module LEDs Transition Module Rear Panel ConnectorsPMC Input/Output Module Transition Module PMC Input/Output ModuleTransition Module PMC Input/Output Module Installing the PIMUtilities MOTLoad CommandsMOTLoad Firmware Implementation and Memory RequirementsMOTLoad Firmware TestsCommand Description Command ListMOTLoad Commands Command List MOTLoad FirmwareMOTLoad FirmwareCommand List Command ListMOTLoad Firmware MOTLoad FirmwareUsing the Command Line Interface Using the Command Line InterfaceMVME7100 Using the Command Line Interface MOTLoad FirmwareHelp RulesMOTLoad Firmware Rules Default VME Settings Firmware SettingsFirmware Settings MOTLoad Firmware MVME7100 vmeCfg -s MOTLoad Firmware Default VME SettingsMVME7100 vmeCfg -s -o3 Default VME Settings MOTLoad FirmwareDisplaying VME Settings Control Register/Control Status Register SettingsEditing VME Settings Remote Start Deleting VME SettingsRestoring Default VME Settings Deleting VME Settings MOTLoad FirmwareName Type Size Boot ImagesChecksum Algorithm MOTLoad Firmware Name Type Size Checksum AlgorithmImage Flags MOTLoad Image FlagsUser Images Alternate Boot Data Structure MOTLoad Firmware Alternate Boot Data StructureAlternate Boot Images and Safe Start Boot Image Firmware ScanMOTLoad Firmware Startup Sequence Startup SequenceBattery Exchange Battery ExchangeBattery Exchange Exchange ProcedureTable B-2 Manufacturer’s Publications Emerson Network Power Embedded Computing DocumentsRelated Documentation Manufacturers’ DocumentsFreescale Corporation Related DocumentationManufacturers’ DocumentsOrganization and Standard Document Title Related SpecificationsTable B-3 Related Specifications Related SpecificationsRelated DocumentationInstitute for Electrical and Electronics Engineers, Inc Related DocumentationRelated SpecificationsIndex Transition module PIM installation XMCspan 29

MVME7100 specifications

The Emerson MVME7100 is a powerful and versatile embedded computing platform designed for demanding applications in various fields, including telecommunications, aerospace, and defense. It offers enhanced performance, a wide range of connectivity options, and robust security features, making it suitable for mission-critical operations.

One of the key features of the MVME7100 is its high-performance processing capabilities. The system is powered by a dual-core PowerPC processor that delivers exceptional computational power while maintaining energy efficiency. This makes the MVME7100 ideal for applications requiring intensive data processing and real-time analytics, allowing users to run complex algorithms and manage large datasets effectively.

The MVME7100 supports an extensive array of I/O options, which ensures compatibility with multiple peripheral devices and communication protocols. Users can take advantage of multiple serial ports, Ethernet interfaces, and USB connections. Additionally, the platform supports various fieldbus protocols, enabling seamless integration with existing systems and equipment.

In terms of ruggedness, the MVME7100 is designed to operate in challenging environments. It features a robust enclosure that can withstand extreme temperatures, shocks, and vibrations. This provides the reliability required for industrial applications, making it suitable for deployment in harsh conditions, such as manufacturing floors or remote locations.

Security is another critical aspect of the MVME7100. It incorporates advanced security measures, including secure boot and encryption capabilities, to protect sensitive data and ensure system integrity. These features are essential for applications in sectors like defense and aerospace, where cybersecurity is a top priority.

Moreover, the MVME7100 supports various operating systems, including VxWorks and Linux, providing flexibility for developers and engineers. This enables the use of popular software development tools and frameworks, facilitating faster application development and deployment.

In summary, the Emerson MVME7100 is a robust embedded computing solution that combines high performance, extensive connectivity, and exceptional reliability. Its versatile features make it suitable for a wide range of applications, ensuring that it meets the needs of industries where performance and security are paramount. Whether deployed in telecommunications, defense, or industrial automation, the MVME7100 stands out as a reliable choice for embedded computing challenges.
Top Page Image Contents