SLUAAB9A March   2021  – December 2021 UCC25800-Q1

 

  1.   Trademarks
  2. Introduction
  3. Open-Loop LLC Converter Operation Principle
  4. Primary-side and Secondary-side Resonant Configurations
  5. Rectification Methods
    1. 4.1 One Resonant Capacitor, Voltage Doubler
    2. 4.2 Two Resonant Capacitors, Voltage Doubler
    3. 4.3 One Resonant Capacitor, Full-wave Rectifier
  6. LLC Transformer Design Steps
    1. 5.1 Transformer Turns Ratio Selection
    2. 5.2 Transformer Volt-second Rating Calculation
    3. 5.3 Transformer Construction
    4. 5.4 Transformer Winding Selection
    5. 5.5 Transformer Inductance
      1. 5.5.1 Leakage inductance
      2. 5.5.2 Magnetizing inductance
    6. 5.6 Transformer Selections
  7. Negative Voltage Generation
    1. 6.1 Using a Zener Diode
    2. 6.2 Using a Shunt Regulator
    3. 6.3 Using a Shunt Regulator and Linear Regulator
  8. Multiple-output Design
    1. 7.1 One UCC25800-Q1 Drives Each Output
    2. 7.2 Transformer With Multiple Secondary-side Windings
    3. 7.3 Multiple Transformers
  9. EMI Performance
    1. 8.1 EMI Performance With Standalone Converter
    2. 8.2 EMI performance with an inverter power stage
  10. Common-Mode Transient Immunity (CMTI)
  11. 10Summary
  12. 11Revision History

5.2 Transformer Volt-second Rating Calculation

Besides the transformer turns ratio, the volt-second (VS) rating is another important parameter. Given that the transformer primary side sees the half of the input voltage and the flux goes to both the first and third quadrant, the transformer volt-second rating should be calculated based on a quarter of the switching cycle and half of the input voltage. It can be determined by Equation 7. Here fs is the switching frequency. Some design margin is recommended to consider the tolerance on the switching frequency, as well as the input voltage.

Equation 7. V S = V I N 8 f S