Intel 31154 manual PCI Clock Layout Guidelines

Page 42

PCI-X Layout Guidelines

7.1PCI Clock Layout Guidelines

The PCI-X Addendum to the PCI Local Bus Specification, Revision 1.0a, allows a maximum of 0.5 ns clock skew timing for each of the PCI-X frequencies: 66 MHz, 100 MHz, and 133 MHz.

•Total length of P_CLK for an add-in card is 2.4"–2.6"

•Total length of P_CLK in non-add-in card design is less than 8".

Atypical PCI-X application requires separate clock point-to-point connections distributed to each PCI device. The 31154 clock buffer also provides secondary clock fanout of up to nine PCI-X devices. Figure 8, “PCI Clock Distribution and Matching Requirements” on page 43 shows the use of eight secondary clocks going to individual PCI-X devices with S_BRGCLKO fed back into S_CLKIN. The recommended clock buffer layout is specified as follows (refer to Figure 8):

1.The distance between each series resistor and S_CLKO# output clock buffer must be less than 0.5".

2.The segment length from secondary output clock buffer S_CLKO# to the end of the series resistor must be matched less than 0.1".

3.You must match the end of series resistor to the device clock input to less than 0.1" to help keep the timing within the 0.5 ns maximum budget.

4.You must match the length of S_BRGCLKO to the series resistor to less than 0.1" to all the other resistor secondary clock segment lengths listed in item 2, above.

5.Match the length of the other end of the series resistor to S_CLKIN to all the other secondary clock segments lengths labelled in Figure 8 on page 43 as segment length “b”.

6.Keep the distance between the clock lines and other signals (“d”) at least 25 mils from each other.

7.When using a serpentine clock layout, keep the distance between different segments of the same clock line a minimum of 25 mils apart.

8.When there are PCI devices and PCI slots in the design, an extra 2.5" trace length from connector to PCI device must be considered in calculating clock lengths going to PCI slots.

9.When there are PCI slots in the design, S_BRGCLKO must be 3" longer to compensate for the 2.5" trace length from connector to PCI device (and 0.5" for the connector skew) on a PCI add-in card.

42	Intel® 31154 133 MHz PCI Bridge Design Guide Design Guide

Image 42

Contents Intel 31154 133 MHz PCI Bridge Design Guide Design GuideIntel 31154 133 MHz PCI Bridge Design Guide Contents Figures TablesContents Revision History Date Revision Description001 Initial release Terminology and Definition Sheet 1 About This DocumentTerminology and Definitions DefinitionISI Terminology and Definition Sheet 2Term SHBProduct Overview PCI-to-PCI Bridge ConfigurationsIntroduction2 Intel 31154 133 MHz PCI Bridge ApplicationsFeatures List Features ListRelated External Specifications ReferencesThis page Intentionally Left Blank Package Information Intel 31154 133 MHz PCI Bridge Package Intel 31154 133 MHz PCI Bridge Ball Map-Top View, Left Side Intel 31154 133 MHz PCI Bridge Ball Map-Top View, Right Side Interface Signals Total Signal CountTotal Signal Count JtagThis page Intentionally Left Blank Terminations4 Pull-Up/Pull-Down Terminations Sheet 1Secondary PCI Signals Pull-Up/Pull-Down Terminations Sheet 2Pull-Up/Pull-Down Terminations Sheet 3 PCI ClocksPull-Up/Pull-Down Terminations Sheet 4 Hot SwapHardware Straps sampled at the edge of PRST# SarbdisablePull-Up/Pull-Down Terminations Sheet 5 SarblockPull-Up/Pull-Down Terminations Sheet 6 Serial EepromPull-Up/Pull-Down Terminations Sheet 7 VoltagesMiscellaneous RSRV1/CRSTEN Pull-Up/Pull-Down Terminations Sheet 8RSTV0 SM66ENPull-Up/Pull-Down Terminations Sheet 9 NTMASK#This page Intentionally Left Blank Interrupt Routing PCI/PCI-X InterfacePCI/PCI-X Voltage Levels PCI/PCI-X Voltage LevelsIdsel Lines Primary Idsel LineSecondary Idsel Lines Secondary Idsel Masking CompactPCI* Hot Swap Mode SelectOpaque Memory Region Enable Secondary Clock ControlPrimary PCI Clocking Mode Secondary PCI Clocking ModePCI-X Initialization Clocking Modes PCI-X Clocking Modes Secondary Bus Frequency InitializationGND Clock Frequency Primary-to-Secondary Frequency LimitsPCI-X Initialization Pattern MHzRouting Guidelines Crosstalk Crosstalk Effects on Trace Distance and HeightPCB Ground Layout Around Connectors EMI ConsiderationsDecoupling Recommendations Power Distribution and DecouplingPins Voltage Capacitor Value Number Intel 31154 133 MHz PCI Bridge Decoupling RecommendationsTrace Impedance This page Intentionally Left Blank PCI-X Layout Guidelines Add-in Card Routing ParametersPCI Clock Layout Guidelines #### PCI-X Topology Layout Guidelines PCI-X Slot GuidelinesLower AD Bus Upper AD Bus Segment Wiring Lengths for 133 MHz SlotSingle Slot at 133 MHz MaximumWiring Lengths for Embedded 133 MHz Design Lower AD Bus Upper AD BusWiring Lengths for 100 MHz Dual-Slot Dual-Slot at 100 MHzWiring Lengths for Embedded 100 MHz Design W13 Wiring Lengths for 66 MHz Quad-Slot Sheet 1Quad-Slots at 66 MHz W14Wiring Lengths for 66 MHz Quad-Slot Sheet 2 Wiring Lengths for Embedded 66 MHz Design Minimum LengthEmbedded PCI-X Specification Picmg 1.2 Overview PCI-X at 33 MHzAn Example of an ePCI-X System Wiring Lengths for Picmg 1.2 Backplane Segment AD Bus UnitsPCI-X Clock Wiring Lengths for Picmg Backplane Clock Point to PointThis page Intentionally Left Blank Power Considerations Analog Power PinsPower Sequencing Customer Reference Board EepromCustomer Reference Board Stackup Debug Connectors and Logic Analyzer Connectivity10 Probing PCI-X SignalsLogic Analyzer Pod Trdy FrameDevsel BE2Irdy AD31 PCI-X Signal Name § § This page Intentionally Left Blank Thermal Solutions Operational PowerVoltage Maximum Power Thermal Solutions Design Reference Material References12Related Documents Design Reference MaterialReferences