Intel 41210 manual Differential Impedance, Cross Section of Differential Trace

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General Routing Guidelines

Note: Using stripline transmission lines may give better results than microstrip. This is due to the difficulty of precisely controlling the dielectric constant of the solder mask, and the difficulty in limiting the plated thickness of microstrip conductors, which can substantially increase cross-talk.

6.5.1Differential Impedance

The PCI Express standard defines a 100 Ω differential impedance. This section provides some basic background information on the differential impedance calculations. In the cross section of Figure 13 shows the cross section of two traces of a differential pair.

Figure 13. Cross Section of Differential Trace

Ground reference plane

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To calculate the coupled impedance requires a 2x2 matrix. The diagonal values in the matrix represent the impedance of the traces to ground and the off-diagonal values provide a measure of how tightly the traces are coupled. The “differential impedance is the value of the line-to-line resistor terminator that optimally terminates pure differential signals.” The two by two matrix is shown below as:

Figure 14. Two-by-two Differential Impedance Matrix

Zo =

Z11 Z12

Z21 Z22

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For a symmetric trace Z11 = Z22, the differential impedance can be calculated from this equation: Zdifferential = 2(Z11-Z12)

For two traces to be symmetric, they must have the same width, thickness and height above the ground plane.1 With the traces terminated with the appropriate differential, impedance ringing is minimized.

1.“Terminating Differential Signals on PCBs”, Steve Kaufer and Kelee Crisafulli, Printed Circuit Design, March 1999

28	Intel® 41210 Serial to Parallel PCI Bridge Design Guide

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Contents Intel 41210 Serial to Parallel PCI Bridge Design GuideIntel 41210 Serial to Parallel PCI Bridge Design Guide Contents Figures Revision History TablesDescription This page intentionally left blank About This Document Terminology and DefinitionsTerminology and Definitions Sheet 1 Term DefinitionAbout This Document Terminology and Definitions Sheet 2PCI-X Interface Features PCI Express Interface FeaturesIntroduction2 Power Management SMBus for configuration register initializationSMBus Interface IntroductionBridge Microcontroller Block Diagram Microcontroller Connections to the 41210 BridgeJtag Related DocumentsIntel 41210 Bridge Adapter Card Block Diagram Intel41210 Serial to Parallel PCI Bridge ApplicationsThis page intentionally left blank Package Specification Package InformationBottom View 41210 Bridge 567-Ball Fcbga Package Dimensions Package InformationSide View 41210 Bridge 567-Ball Fcbga Package Dimensions This page intentionally left blank Power Plane Layout 41210 Bridge Decoupling GuidelinesPower Plane Layout Split Voltage Planes Bridge Decoupling GuidelinesPCI ARST#,BRST# and PERST# Timing Requirements Bridge Reset and Power Timing Considerations5VCC15 and VCC33 Voltage Requirements Bridge Reset and Power Timing Considerations General Routing Guidelines General Routing GuidelinesCrosstalk EMI Considerations General Routing GuidelinesTrace Impedance Power Distribution and DecouplingDecoupling Differential Impedance Cross Section of Differential TraceAdapter Card Topology Board Layout GuidelinesAdapter Card Stack Up, Microstrip and Stripline Board Layout Guidelines Adapter Card StackupInterrupts PCI-X Layout GuidelinesINTx Routing Table PCI Arbitration Interrupt Routing for Devices Behind a BridgePCI-X Layout Guidelines Interrupt Binding for Devices Behind a BridgePCI General Layout Guidelines PCI Resistor CompensationPCI Pullup Resistors Not Required PCI-X SignalsPCI/PCI-X Frequency/Mode Straps PCI Clock Layout Guidelines BCBE#74, BDEVSEL#, BFRAME#, BINTA#, BINTB#, BINTC#, BINTD#PCI Clock Distribution and Matching Requirements PCI-X Clock Layout Requirements Summary Parameter Routing GuidelinesPCI-X Topology Layout Guidelines PCI-X Slot GuidelinesEmbedded PCI-X 133 MHz Routing Recommendations Embedded PCI-X 133 MHzParameter Routing Guideline for Lower AD Bus Embedded PCI-X 100 MHz Embedded PCI-X 100 MHz Routing RecommendationsPCI-X 66 MHz Embedded Topology PCI-X 66 MHz Embedded Routing RecommendationsPCI 66 MHz Embedded Topology PCI 66 MHz Embedded TablePCI 33 MHz Embedded Mode Topology PCI 33 MHz Embedded Routing RecommendationsThis page intentionally left blank PCI Express Layout General recommendationsPCI-Express Layout Guidelines Adapter Card Layout GuidelinesPCI Express Layout Adapter Card Routing Recommendations Sheet 1Adapter Card Routing Recommendations Sheet 2 This page intentionally left blank Circuit Implementations Config10.1 41210 Bridge Analog Voltage Filters PCI Express Analog Voltage Filter PCI Analog Voltage FiltersCircuit Implementations Vccape Bandgap Analog Voltage FilterVssape Vccbgpe Bandgap Analog Voltage Filter CircuitVSS Vssbgpe Reference and Compensation Circuit Implementations PERCOMP0 PERCOMP1 RcompSM Bus SMBUs Address ConfigurationBit Value Bridge Customer Reference Boards Board Stack-upLayer Type Thickness Copper Weight MaterialImpedance Bridge Customer Reference BoardsBoard Outline Mechanical Outline of the 41210 BridgeThis page intentionally left blank Design Guide Checklist PCI Express Interface SignalsSignals Recommendations Reason/Impact PERCOMP10Design Guide Checklist PCI/PCI-X Interface SignalsAM66EN BM66EN PERST#Apcixcap BpcixcapSMBus Interface Signals Miscellaneous SignalsSignals Power and Ground Signals Signal Recommendations Reason/ImpactVCC15 VCC33Jtag Signals

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