SLVUCQ7 july   2023 TPS7H2201-SEP

 

  1.   1
  2.   Description
  3.   Features
  4.   4
  5. 1Evaluation Module Overview
    1. 1.1 Introduction
    2. 1.2 Kit Contents
    3. 1.3 Specification
    4. 1.4 Device Information
  6. 2Hardware
    1. 2.1 EVM Connectors and Test Points
      1. 2.1.1 Alternate EVM Configurations
  7. 3Implementation Results
    1. 3.1 Default Configuration Results
  8. 4Hardware Design Files
    1. 4.1 Schematic
    2. 4.2 PCB Layouts
    3. 4.3 Bill of Materials
  9. 5Additional Information
    1.     Trademarks
  10. 6Related Documentation

4.2 PCB Layouts

The EVM layout flows from left (VIN) to right (VOUT) with the input and output capacitors placed as close as possible to the TPS7H2201. Vias under the TPS7H2201 allow a thermal path from the top layer all the way to the bottom layer. The EVM does not populate all the input and output capacitors for the TPS7H2201 but has footprints that allow additional capacitors to be populated. While this provides flexibility to the customer for electrical evaluation, it does not reflect the best optimized area for the TPS7H2201 in a real application.

The following images show the TPS7H2201EVM board layers.

GUID-20230615-SS0I-ZJ2B-CM8J-KJNFVLTQ8SNH-low.svgFigure 4-3 Top Overlay
GUID-20230615-SS0I-3K0W-DJ3V-F1ZC2MMTR2XP-low.svgFigure 4-4 Top Solder Mask
GUID-20230615-SS0I-29TL-LRZV-6RSN9P2H7TC0-low.svgFigure 4-5 Layer 1 (Top)
GUID-20230615-SS0I-ZVVL-ZXQH-RFXJ4P8HCLQ5-low.svgFigure 4-6 Layer 2
GUID-20230615-SS0I-MKRJ-FPCR-VMVWPT3ZH0HL-low.svgFigure 4-7 Layer 3
GUID-20230615-SS0I-B0VS-W1HN-J1HMTRTNMDHS-low.svgFigure 4-8 Layer 4 (Bottom)
GUID-20230615-SS0I-KZNH-W26Z-0HNLCF827FSK-low.svgFigure 4-9 Bottom Solder