SLLU149E June   2011  – February 2016 TUSB7320 , TUSB7340

 

  1.   TUSB73x0 Board Design and Layout Guidelines
    1.     Trademarks
    2.     Related Documentation
  2. Typical System Implementation
    1. 1.1 Overview
  3. Power
    1. 2.1 Overview
    2. 2.2 Digital Supplies
    3. 2.3 Analog Supplies
    4. 2.4 Ground Terminal
    5. 2.5 Capacitor Selection Recommendations
    6. 2.6 USB VBUS
  4. Device Reset
    1. 3.1 Overview
  5. General High Speed Layout Guidelines
    1. 4.1 Printed Circuit Board Stackup (FR-4 Example)
    2. 4.2 Return Current and Plane References
    3. 4.3 Split Planes – What to Avoid
    4. 4.4 Avoiding Crosstalk
  6. USB Connection
    1. 5.1 Overview
    2. 5.2 Internal Chip Trace Length Mismatch
    3. 5.3 High-Speed Differential Routing
    4. 5.4 SuperSpeed Differential Routing
  7. Package and Breakout
    1. 6.1 Package Drawing
    2. 6.2 Routing Between Pads
    3. 6.3 Pads
    4. 6.4 Land Pattern Recommendation
    5. 6.5 Solder Stencil
  8. PCI Express Connection
    1. 7.1 Internal Chip Trace Length Mismatch
    2. 7.2 Transmit and Receive Links
    3. 7.3 PCI-Express Reference Clock Input
    4. 7.4 PCI Express Reset
    5. 7.5 PCI Express WAKE/CLKREQ
      1. 7.5.1 Leakage Current on Pins WAKE# and CLKREQ#
      2. 7.5.2 Recommendations
  9. Wake from S3
    1. 8.1 Overview
  10. Device Input Clock
    1. 9.1 Overview
  11. 10JTAG Interface
    1. 10.1 Overview
  12. 11Differential Pair ESD Protection
    1. 11.1 Overview
  13. 12SuperSpeed Redriver
    1. 12.1 Overview
  14. 13SMI Pin Implementation
    1. 13.1 Overview
  15. 14Schematics
    1. 14.1 Overview
    2. 14.2 TUSB7320 DEMO EVM REVB Schematics
    3. 14.3 TUSB7340 DEMO EVM REVB Schematics
  16.   Revision History

7.3 PCI-Express Reference Clock Input

The TUSB73x0 requires an external reference clock for the PCI-Express interface. The PCI Express Base Specification and PCI Express Card Electromechanical Specification provide information concerning the requirements for this reference clock. The TUSB73x0 is designed to meet all stated specifications when the reference clock input is within all PCI Express operating parameters. This includes both standard clock oscillator sources or spread spectrum clock oscillator sources.

The TUSB73x0 supports a 100-MHz common differential reference clock. The PCI Express clock is typically a system-wide, 100-MHz differential reference clock. A single clock source with multiple differential clock outputs is connected to all PCI Express devices in the system. The differential connection between the clock source and each PCI Express device is point-to-point. This system implementation is referred to as a common clock design.

The TUSB73x0 is optimized for this type of system clock design. The REFCLK+ and REFCLK- terminals provide differential reference clock inputs to the TUSB73x0. The circuit board routing rules associated with the 100-MHz differential reference clock are the same as the 5-Gb/s TX and RX link routing rules itemized in Section 7.2. The only difference is that the differential reference clock does not require series capacitors. The requirement is a DC connection from the clock driver output to the TUSB73x0 receiver input. Electrical specifications for these differential inputs are included in the TUSB73x0 Data Manual.

Terminating the differential clock signal is circuit board design specific. But, the TUSB73x0 design has no internal 50-Ω to ground termination resistors. Both REFCLK inputs, at approximately 20 kΩ to ground, are high-impedance inputs.