SNVU754A October   2021  – November 2021 LM5013-Q1

 

  1.   Trademarks
  2. 1General TI High Voltage Evaluation User Safety Guidelines
  3. 2Overview
    1. 2.1 LM5013-Q1 Asynchronous Buck Converter
  4. 3LM5013-Q1 Evaluation Module
    1. 3.1 Quick Start Procedure
    2. 3.2 Detailed Descriptions
  5. 4Schematic
  6. 5PCB Layout
  7. 6Bill of Materials
  8. 7Performance Curves
  9. 8Revision History

5 PCB Layout

Top Layer and Silkscreen Layer through Bottom Layer Routing show the board layout for the LM5013-Q1EVM. The EVM offers resistors, capacitors, and test points to configure the output voltage, precision enable, and switching frequency.

The 8-pin SO PowerPAD package offers an exposed thermal pad, which must be soldered to the copper landing on the PCB for optimal thermal performance. The PCB consists of a 4-layer design. There are 2-oz copper planes on the top and bottom and 1-oz copper mid-layer planes to dissipate heat with an array of thermal vias under the thermal pad to connect to all four layers.

Test points have been provided for ease of use to connect the power supply, required load, and to monitor critical signals.

GUID-20210726-CA0I-8SWQ-TSPR-KDWSL013L7FW-low.pngFigure 5-1 Top Layer and Silkscreen Layer
GUID-20210726-CA0I-SX8M-T7Z5-PBWL9QDNRM6T-low.pngFigure 5-3 Mid-Layer 2 Routing
GUID-20210726-CA0I-TPZ9-KQTP-NK5R86N5ZGD1-low.pngFigure 5-2 Mid-Layer 1 Ground Plane
GUID-20210726-CA0I-SHRW-9KPB-PWX8KZRR8NXX-low.pngFigure 5-4 Bottom Layer Routing