Motorola PrPMC800/800ET Processor PMC Module, PRPMC800A/IH5 Harrier Power-Up Configuration Header

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1 Preparation and Installation

Harrier Power-Up Configuration Header

A 2mm, 16-pin low profile header located on side 1 of the PrPMC800/800ET provides the means to change some of the Harrier power-up configuration settings. The pin assignments for this header, along with the power-up setting with the jumper on or off, are as follows (boards are shipped with all jumpers off):

Table 1-4. J2 Harrier Power-Up Configuration Header Pin Assignments

J2

Jumper On

Jumper Off

 

 

 

1-2

PUST0 = 0

PUST0 = 1

 

Harrier PUST Bit 0 in GCSR Register.

 

 

 

 

3-4

PUST1 = 0

PUST1 = 1

 

Harrier PUST Bit 1 in GCSR Register

 

 

 

 

5-6

PUST2 = 0

PUST2 = 1

 

Harrier PUST Bit 2 in GCSR Register

 

 

 

 

7-8

PUST3 = 0

PUST3 = 1

 

Harrier PUST Bit 2 in GCSR Register

 

 

 

 

9-10

Hold off Configuration Space access

Configuration Space access

 

 

enabled

 

 

 

11-12

Processor held in reset at power-up

Processor enabled at power-up

 

 

 

13-14

Class Code set for I2O Controller”

Class Code set for “Bridge

 

 

Device”

 

 

 

15-16

Xport 1uses normal data byte ordering

Xport 1 uses Hawk data byte

 

 

ordering

 

 

 

PrPMC800/800ET Processor PMC Module Installation and Use (PrPMC800A/IH5)

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Contents Installation and Use Page Ground the Instrument Use Caution When Exposing or Handling a CRTDo Not Operate in an Explosive Atmosphere Keep Away From Live Circuits Inside the EquipmentFlammability Limited and Restricted Rights Legend Page Contents Connector Pin Assignments Modifying the Environment Contents List of Figures List of Figures List of Tables J2 Harrier Power-Up Configuration Header Pin AssignmentsList of Tables About This Manual PrPMC800/800ET Models/Configurations1MB 2MBAbout This Manual PRPMC800A/IH4 PRPMC800A/IH5PRPMC800A/IH3 PRPMC800A/IH2Overview of Contents Conventions Used in This Manual About This Manual Introduction Preparation and InstallationPrPMC800/800ET Description Carrier Board Requirements Monarch and Non-Monarch PrPMCsSystem Enclosure Start-Up Overview Overview of Start-Up ProceduresWhat you need to do Refer to Unpacking the Hardware PrPMC800/800ET ConfigurationPreparing the Hardware J2 Harrier Power-Up Configuration Header Pin Assignments Harrier Power-Up Configuration HeaderJumper On Jumper Off PrPMC800/800ET Headers, Connectors and Components ESD Precautions InstallationInstallation of PrPMC800/800ET on a VME or CompactPCI Board Installing a PrPMC800/800ET on a VMEmodule Operating Instructions Applying PowerOperating Instructions Status IndicatorsEthernet Port Adapter Cable Debug Serial PortPrPMC800/800ET Debug Page PrPMC800/800ET Features FeaturesFeature Description Functional DescriptionSrom General DescriptionPrPMC800/800ET Block Diagram Block DiagramL2 Cache ProcessorHarrier System Memory Controller / PCI Host Bridge Asic Harrier Power-Up Configuration Settings Harrier Power-Up ConfigurationHarrier Select Default Function Description Option Power Register Bit Bus Signal SettingXAD XCSR.GCSR.PUSTM66EN XCSR.XPAT0.DWFlash Memory ArbitrationXCSR.XPAT1.DW XCSR.XPAT2.DWOnboard Bank a Flash ECC MemoryOptional Bank B Flash Onboard SdramBit Timers Timers10BaseT/100BaseTX Ethernet Channel Miscellaneous Control and StatusInterrupt Routing and Generation Watchdog TimersAsynchronous Serial Port Clock GeneratorModule Reset Logic PrPMC800/800ET Power SuppliesReset Source Functions Reset Source Type Module Reset PrPMC Resetoutl ActivePCI Interface PrPMC800/800ET Reset Block DiagramMONARCH# Signal PRESENT# SignalINTA#-INTD# Signals IDSELB, REQB#, and GNTB# SignalsPCI Signaling Voltage Level Eready SignalABORT# and RESET# Signals Debug HeaderMemory Maps Page PCI Mezzanine Card PMC Connectors Connector Pin AssignmentsPMC Connector P11 Pin Assignments GND VIO SDONE# SBO# PAR GND VIOPMC Connector P12 Pin Assignments PAR64 PMC Connector P13 Pin AssignmentsP14 PMC Connector P14 Pin AssignmentsSignal Description for P14 J3 Ethernet Adapter Connector Pin Assignments Ethernet Adapter ConnectorJ1 Debug Header Pin Assignments TXP TXN RXP RXN Lanterma LantermbRsvd Signal Description for J1Shunt On Shunt Off Debug Serial Port Cable Cputrstl Pullup Cputck Cputms Sresetl Cpurstl Ckstpol GNDPrPMC Cable-001 Termination Overview PPCBugPPCBug Basics PPCBug Implementation Memory RequirementsMPU, Hardware, and Firmware Initialization Using PPCBug Debugger Commands Debugger CommandsCommand Description Gevshow GevinitIdle IOCReset PbootNping NopaDiagnostic Test Groups Diagnostic TestsTest Group Description L2CACHE IsabrdgeMask MpicPage Modifying the Environment Cnfg Configure Board Information BlockENV Set Environment Configuring the PPCBug ParametersSelect the identifier. Default = Default = $00 Auto Boot Abort Delay = 7? Default Starting Address is $00000000 ROM First Access Length 0 31 = 10? Serial Startup Code Master Enable Y/N=N? Specifications SpecificationsMechanical Characteristics Electrical CharacteristicsCharacteristics Specifications Environmental CharacteristicsEMC Compliance Thermally Significant Components Thermal ValidationThermal Validation Table B-1. Thermally Significant ComponentsFigure B-1. Thermally Significant Components Primary Side Preparation Component Temperature MeasurementMeasuring Case Temperature Measuring Junction TemperatureMeasuring Local Air Temperature Figure B-4. Mounting a Thermocouple Under a Heatsink Embedded Communications Computing Documents Related DocumentationTable C-1. Embedded Communications Computing Documents Table C-2. Manufacturers’ Documents Manufacturers’ DocumentsTable C-3. Related Specifications Related SpecificationsDocument Title and Source Publication Number Page CPU IndexFail LED IndexIDSELB, REQB#, GNTB# 25 INTA#-INTD# Xix

PRPMC800A/IH5, PrPMC800/800ET Processor PMC Module specifications

The Motorola PrPMC800/800ET Processor PMC Module, specifically the PRPMC800A/IH5 variant, represents a significant advancement in embedded processing technology. Often utilized in telecommunications, aerospace, and defense applications, this PMC module is designed to provide robust performance in demanding environments, making it suitable for high-speed data processing and communication tasks.

At the core of the PrPMC800 module is the PowerPC 750 architecture, known for its efficiency and power management capabilities. This 32-bit RISC processor is clocked at speeds reaching up to 800 MHz, allowing it to handle complex computations and multitasking scenarios effectively. The processor architecture supports a variety of software environments, including real-time operating systems and VxWorks, which enhances its adaptability across diverse applications.

One of the standout features of the PRPMC800A/IH5 module is its memory capacity. The module supports up to 1 GB of SDRAM, offering ample space for processing large datasets and executing multiple applications simultaneously. Furthermore, the integrated PCI bus facilitates high-speed connectivity with other modules and components in the system, ensuring rapid data transfer rates essential for real-time processing tasks.

An important characteristic of the PrPMC800 module is its thermal and environmental resilience. Designed with military-grade standards, it operates reliably in extreme conditions, including high temperatures and vibrations. This makes it particularly suitable for rugged applications where standard commercial-grade processors may fail.

The module also incorporates advanced I/O capabilities, featuring dual Gigabit Ethernet ports which enhance networking performance. Additional serial ports and interrupt handling further improve the module's versatility, allowing it to interface seamlessly with various peripheral devices and systems.

In summary, the Motorola PrPMC800/800ET Processor PMC Module, represented by the PRPMC800A/IH5 model, is an exemplary solution for applications requiring high performance, reliability, and adaptability. With its powerful PowerPC architecture, generous memory capacity, robust I/O capabilities, and proven ruggedness, this processor module stands out as a preferred choice for engineers and developers working in critical industries.