SLVUB56A July   2017  – September 2021 TPS54424

 

  1.   Trademarks
  2. 1Introduction
    1. 1.1 Background
    2. 1.2 Performance Specification Summary
    3. 1.3 Modifications
      1. 1.3.1 Output Voltage Setpoint
      2. 1.3.2 Adjustable UVLO
  3. 2Test Setup and Results
    1. 2.1  Input/Output Connections
    2. 2.2  Efficiency
    3. 2.3  Output Voltage Regulation
    4. 2.4  Load Transient and Loop Response
    5. 2.5  Output Voltage Ripple
    6. 2.6  Input Voltage Ripple
    7. 2.7  Powering Up
    8. 2.8  Powering Down
    9. 2.9  Start-Up Into Pre-Bias
    10. 2.10 Hiccup Mode Current Limit
  4. 3Board Layout
    1. 3.1 Layout
  5. 4Schematic and Bill of Materials
    1. 4.1 Schematic
    2. 4.2 Bill of Materials
  6. 5Revision History

2.2 Efficiency

Figure 2-1 shows the efficiency for the TPS54424EVM-779 at an ambient temperature of 25°C. The efficiency of this EVM peaks at a load current of about 2 A and then decreases as the load current increases toward full load.

Figure 2-2 shows the efficiency for the TPS54424EVM-779 using a semi-log scale to more easily show efficiency at lower output currents. The TPS54424 operates in continuous conduction mode at light loads in order to keep a fixed frequency and this results in lower efficiency at lower output currents.

Figure 2-3 shows the efficiency for the TPS54424EVM-779 versus input voltage with a fixed load.

GUID-8176ACBF-4C76-40E0-92D5-6A52BDC38496-low.gifFigure 2-1 TPS54424EVM-779 Efficiency
GUID-0956B462-9A12-4528-935B-5B995C526A22-low.gifFigure 2-3 TPS54424EVM-779 Efficiency
GUID-0BA9C73C-7922-4DE1-A8CA-EE18153AB740-low.gifFigure 2-2 TPS54424EVM-779 Low Current Efficiency

The efficiency may be lower at higher ambient temperatures, due to temperature variation in the drain-to-source resistance of the internal MOSFETs.