SLUAAL2 june   2023 UCC256402 , UCC256403 , UCC256404

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1UCC25640x Frequently Asked Questions
    1. 1.1  For the Time Domain Simulation and Fundamental Harmonic Analysis of LLC Resonant Converters, What Model of the Transformer Should be Used?
      1. 1.1.1 LLC Design Using T Type Transformer Model
    2. 1.2  How to Connect External Gate Drivers to the UCC25640x for High Gate Driver Current Capability?
    3. 1.3  When Powering on the PFC-LLC AC-DC Converter, What Sequence is Recommended?
    4. 1.4  How to Eliminate the Nuisance ZCS Detection During the Light Load?
    5. 1.5  What is the Purpose of Maintaining the FB Pin Voltage of the UCC25640x Controllers at a Constant Level?
    6. 1.6  How to Improve the Slew Rate Detection at HS Pin of the UCC25640x Controller?
    7. 1.7  How to Operate the UCC25640x Controller in the Open Loop?
    8. 1.8  What Happens if the VCR Pin Peak to Peak Voltage of the Controller Exceeds 6 V?
    9. 1.9  What UCC25640x settings effect the startup duration of the LLC?
    10. 1.10 What is Causing the Current Imbalance in the LLC's Secondary Side Windings?
    11. 1.11 How to Design TL431 Compensator for LLC With UCC25640x Controller
      1. 1.11.1 LLC Plant Transfer Function Under HHC Control
      2. 1.11.2 Type 2 and Type 3 Compensator with TL431 [20]
        1. 1.11.2.1 Type 2 Compensator
        2. 1.11.2.2 Type 2 Compensator Without Fast Lane
        3. 1.11.2.3 Type 3 Compensator with Fast Lane
        4. 1.11.2.4 Type 3 Compensator Without Fast Lane
      3. 1.11.3 Type 3 Compensator Design Example
    12. 1.12 How to Design LLC for Battery Charging and LED Driver Applications?
      1. 1.12.1 LED Driver Design Example
      2. 1.12.2 Battery Charger Design Example
    13. 1.13 How to Implement CC-CV Feedback Control?
      1. 1.13.1 Voltage Feedback Loop (Type 2) Transfer Function
      2. 1.13.2 Current Feedback Loop (Type 2) Transfer Function
    14. 1.14 What is the Simplest Approach to Configure the Burst Mode Thresholds for UCC25640x Based on the Load Power?
    15. 1.15 How to Avoid the UCC25640x Controller to Enter into Burst Mode?
    16. 1.16 What are the Methods for Preventing VCC From Decreasing Below the VCC Restart Threshold During Burst Mode?
    17. 1.17 How Does BMTL Threshold Value Impacts the Output Voltage Ripple and the VCC Pin Voltage and Magnetizing Current?
    18. 1.18 How to Design Magnetics for LLC?
      1. 1.18.1 LLC Resonant Inductor Design
      2. 1.18.2 LLC Transformer Design
    19. 1.19 How is the Dead Time in UCC25640x Determined During ZCS Detection and in the Absence of Valid Slew Rate Detection?
  5. 2References

1.14 What is the Simplest Approach to Configure the Burst Mode Thresholds for UCC25640x Based on the Load Power?

Typically, the burst mode thresholds are set based on what load is the application desires to exit burst mode. For the controller to drop into burst mode, the Vcomp signal needs to drop below the BMTL threshold. In practice, the simplest way to accomplish this is to depopulate the top LL/SS resistor and adjust the output current to the required set point for burst mode entry/exit. To obtain BMTL threshold, measure the VCR waveform peak to peak when the high side and low side gates are turning off. The Excel design calculator [12] needs to be able to suggest a value for the LL/SS resistors once we have the BMTL voltage that we want to target (Let’s say if we use BW option 6 do BMTH=BMTL/0.6 to get the BMTH level to put into the calculator). LL/SS pin resistors can then be populated to establish the burst mode thresholds.