Intel 6700PXH manual Introduction, Definition of Terms

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1 Introduction

As the complexity of computer systems increases, so do the power dissipation requirements. Care must be taken to ensure that the additional power is properly dissipated. Typical methods to improve heat dissipation include selective use of ducting, and/or passive heatsinks.

The goals of this document are to:

Outline the thermal and Mechanical operating limits and specifications for the Intel® 6700PXH 64-bit PCI Hub component.

Describe a reference thermal solution that meets the specification of Intel® 6700PXH 64-bit PCI Hub component.

Properly designed thermal solution provides adequate cooling to maintain the PXH component die temperatures at or below thermal specifications. This is accomplished by providing a low local- ambient temperature, ensuring adequate local airflow, and minimizing the die to local-ambient thermal resistance. By maintaining the PXH component die temperature at or below the specified limits, a system designer can ensure the proper functionality, performance, and reliability of the chipset. Operation outside the functional limits can degrade system performance and may cause permanent changes in the operating characteristics of the component.

The simplest and most cost effective method to improve the inherent system cooling characteristics is through careful chassis design and placement of fans, vents, and ducts. When additional cooling is required, component thermal solutions may be implemented in conjunction with system thermal solutions. The size of the fan or heatsink can be varied to balance size and space constraints with acoustic noise.

This document addresses thermal design and specifications for the Intel® 6700PXH 64-bit PCI Hub components only. For thermal design information on other chipset components, refer to the respective component datasheet.

Unless otherwise specified, the term “PXH” refers to the Intel® 6700PXH 64-bit PCI Hub.

1.1Definition of Terms

BGA

Ball grid array. A package type, defined by a resin-fiber substrate, onto which a die is

 

 

mounted, bonded and encapsulated in molding compound. The primary electrical

 

 

interface is an array of solder balls attached to the substrate opposite the die and molding

 

compound.

 

BLT

Bond line thickness. Final settled thickness of the thermal interface material after

 

 

installation of heatsink.

 

MCH

Memory controller hub. The chipset component that contains the processor interface, the

 

memory interface, and the hub interface.

 

PXH

Intel® 6700PXH 64-bit PCI Hub. The chipset component that performs PCI bridging

 

 

functions between the PCI Express* interface and the PCI Bus. It contains two PCI bus

 

 

interfaces that can be independently configured to operate in PCI (33 or 66 MHz) or

 

 

PCI-X mode 1 (66, 100, or 133 MHz), for either 32 or 64 bit PCI devices.

 

 

 

Intel® 6700PXH 64-bit PCI Hub Thermal/Mechanical Design Guidelines

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Contents Intel 6700PXH 64-bit PCI Hub Page Contents Tables FiguresRevision Description Date Revision HistoryPage Definition of Terms IntroductionIntroduction Reference DocumentsKeepout Exclusion Packaging TechnologyPackage Mechanical Requirements Intel 6700PXH 64-bit PCI Hub Package Dimensions Bottom ViewParameter Value Thermal SpecificationsThermal Design Power TDP Die Case Temperature SpecificationsPage Thermal Simulation Page Thermal Metrology Die Case Temperature MeasurementsZero Degree Angle Attach Heatsink Modifications Operating Environment Reference Thermal SolutionHeatsink Performance Torsional Clip Heatsink Thermal Solution Assembly Board-Level Components Keepout DimensionsMechanical Design Envelope Torsional Clip Heatsink Board Component Keepout Heatsink Orientation Pressure psi Thermal Resistance C × in 2/W Thermal Interface MaterialTest Requirement Pass/Fail Criteria Reliability GuidelinesTorsional Clip Heatsink Thermal Solution Thermal Solution Component SuppliersPart Intel Part Number Supplier Contact Information Page Drawing Description Mechanical DrawingsFigure B-1. Torsional Clip Heatsink Assembly Drawing Figure B-2. Torsional Clip Heatsink Drawing Figure B-3.Torsional Clip Drawing