TIDT294 June   2022

 

  1.   Description
  2.   Features
  3.   Applications
  4. 1Test Prerequisites
    1. 1.1 Voltage and Current Requirements
    2. 1.2 Dimensions
  5. 2Test Results
    1. 2.1 Efficiency Graphs
    2. 2.2 THD
    3. 2.3 Data
    4. 2.4 Thermal Performance
  6. 3Waveforms
    1. 3.1 Switching Waveforms

3.1 Switching Waveforms

Switching behavior is shown in the following figures. Test conditions for these waveforms occur at:

  • VIN: 230 V
  • VOUT: 400 V
  • IOUT: 10 A
Note: Several operating points are illustrated to demonstrate the topology and controls ability to maintain ZVS when the input voltage is both above and below ½ VOUT.
  • CH1 - VSW Phase 1
  • CH2 - VSW Phase 2
  • CH2 - ISW Phase 1
  • CH4 - ISW Phase 2
GUID-20220607-SS0I-3JZH-SZ20-7R0LHTFMX53H-low.pngFigure 3-1 Entire Waveform
GUID-20220607-SS0I-Z0ZT-P1G1-HDNH4BDCBSWP-low.pngFigure 3-3 VIN > ½ VOUT
GUID-20220607-SS0I-0T2K-MNHS-VW43CKFZ7KNJ-low.pngFigure 3-5 VIN = ½ VOUT
GUID-20220607-SS0I-BR5L-4XL3-WT6CHT0J1NNH-low.pngFigure 3-2 VIN < ½ VOUT
GUID-20220607-SS0I-CHFT-2LBG-FC828LZZHPKS-low.pngFigure 3-4 VIN > ½ VOUT
GUID-20220607-SS0I-XSV1-XKKT-CLSFGKFKPLL6-low.pngFigure 3-6 VIN < ½ VOUT