SNVAA10 January   2021 LMR36015S , TPS54350-EP , TPS54354-EP , TPS543820E , TPS54622-EP , TPS62110-EP , TPS62111-EP , TPS62112-EP , TPS629210E , TPSM5D1806E

 

  1.   Trademarks
  2. 1Applications for Switching Regulators that require ET ratings
  3. 2Challenges for Switching Regulators in ET environments
    1. 2.1 Solution Size vs. Thermals
    2. 2.2 Junction Temperature (TJ)
  4. 3Extended Temperature Solutions
    1. 3.1 Efficient PCB Thermal Design
    2. 3.2 Package Type
    3. 3.3 Power Modules
  5. 4Summary
  6. 5References

3.1 Efficient PCB Thermal Design

The PCB copper planes act as heat sinks for the regulator. The area and thickness (weight) of the copper is important. Most of the heat will be dissipated to ambient through the layer that is on the same side as the converter. Figure 3-3 demonstrates a typical thermal performance curve for LMR36015S across different copper board area and a typical start-up waveform is shown in Figure 3-4.

GUID-432857E4-C1E0-42AA-A228-C820DC43FC2D-low.png Figure 3-3 RθJA versus Copper Board Area for the VQFN (RNX) Package
GUID-20210111-CA0I-NLLT-WRXN-BZNGSNQNQ65N-low.gif Figure 3-4 Start-Up Behavior at VIN = 24 V, VOUT = 5 V, IOUT = 1.5 A at -55°C