• DocumentCode
    2980743
  • Title

    MOSFET failure modes in the zero-voltage-switched full-bridge switching mode power supply applications

  • Author

    Fie, Alexander ; Wu, Thomas

  • Author_Institution
    Dept. of Appl., Int. Rectifier, El Segundo, CA, USA
  • Volume
    2
  • fYear
    2001
  • fDate
    2001
  • Firstpage
    1247
  • Abstract
    Phase-shifted zero-voltage-switching (ZVS) full bridge topologies are gaining popularity due to their extremely low switching losses in the power devices even at higher switching frequency. However the intrinsic body diode is required to conduct in order to create the ZVS turn-on rendition for the power MOSFET. Due to the extremely low reverse voltage, the reverse recovery charges might not be swept out before turning off the MOSFET. Therefore, the body diode might be subjected to the dv/dt stress when it is not yet capable of blocking reverse voltage. Also, not able to maintain the ZVS operation at low load will force the on-state MOSFET to turn off at hard-switching condition. Like in the hard-switched full bridge topology, the cdv/dt shoot-through current might produce a voltage spike at the gate of the off-state MOSFET on the same leg and cause devices failure. Several silicon technologies are presented to resolve the above-mentioned failure modes in the ZVS topology. Fast reverse recovery time and better dv/dt ruggedness make this new MOSFET technology suitable for higher frequency ZVS full-bridge applications. Inherent with extremely high silicon density and low gate charge, these new MOSFETs can reduce the component count with the same or better performance and will enable much higher power density for the next generation telecom/server SMPS designs
  • Keywords
    bridge circuits; failure analysis; power MOSFET; switched mode power supplies; switching circuits; MOSFET failure modes; MOSFET turn off; ZVS turn-on rendition; component count reduction; full-bridge switching mode power supply; hard-switching condition; high silicon density; higher switching frequency; intrinsic body diode; low gate charge; low load; low reverse voltage; low switching losses; phase-shifted zero-voltage-switching; power MOSFET; power devices; reverse recovery charges; reverse recovery time; shoot-through current; silicon technologies; telecom/server SMPS designs; voltage spike; zero-voltage-switching; Bridge circuits; Diodes; Low voltage; MOSFET circuits; Power MOSFET; Silicon; Switching frequency; Switching loss; Topology; Zero voltage switching;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Applied Power Electronics Conference and Exposition, 2001. APEC 2001. Sixteenth Annual IEEE
  • Conference_Location
    Anaheim, CA
  • Print_ISBN
    0-7803-6618-2
  • Type

    conf

  • DOI
    10.1109/APEC.2001.912525
  • Filename
    912525