Infineon Technologies AG 500V-950V N-Channel Power MOSFET IPZA65R029CFD7

Description
650V CoolMOS™ CFD7 superjunction MOSFET with integrated fast body diode in TO-247 4-pin package Infineon’s 650V CoolMOS™ CFD7 superjunction MOSFET IPZA65R029CFD7 in TO-247 4-pin package is ideally suited for resonant topologies in industrial applications, such as server, telecom, solar, and EV-charging stations, in which it enables significant efficiency improvements compared to competition. As a successor to the CFD2 SJ MOSFET family, it comes with reduced gate charge, improved turn-off behavior, and reduced reverse recovery charge enabling highest efficiency and power density as well as additional 50V breakdown voltage. Summary of Features Ultrafast body diode and very low Qrr 650V breakdown voltage Significantly reduced switching losses compared to competition Lowest RDS(on) dependency over temperature Benefits Excellent hard-commutation ruggedness Extra safety margin for designs with increased bus voltage Enabling increased power density Outstanding light-load efficiency in industrial SMPS applications Improved full-load efficiency in industrial SMPS applications Price competitiveness compared to alternative offerings in the market Applications EV charging Photovoltaic Server power supply units (PSU) Telecommunication infrastructure Uninterruptible power supplies (UPS) Designers who used this product also designed with 2EDB8259Y | Gate driver ICs 2EDL23N06PJ | Gate driver ICs 2EDR8259X | Gate driver ICs 6EDL04N06PT | Gate driver ICs 1EDI60N12AF | Gate driver ICs 1ED44173N01B | Gate driver ICs 2ED2184S06F | Gate driver ICs 1ED3124MU12F | Gate driver ICs 2EDB8259Y | Gate driver ICs 2EDL23N06PJ | Gate driver ICs 2EDR8259X | Gate driver ICs 6EDL04N06PT | Gate driver ICs 1EDI60N12AF | Gate driver ICs 1ED44173N01B | Gate driver ICs 2ED2184S06F | Gate driver ICs 1ED3124MU12F | Gate driver ICs 1 2
Request a Quote Datasheet
Description
650V CoolMOS™ CFD7 superjunction MOSFET with integrated fast body diode in TO-247 4-pin package Infineon’s 650V CoolMOS™ CFD7 superjunction MOSFET IPZA65R029CFD7 in TO-247 4-pin package is ideally suited for resonant topologies in industrial applications, such as server, telecom, solar, and EV-charging stations, in which it enables significant efficiency improvements compared to competition. As a successor to the CFD2 SJ MOSFET family, it comes with reduced gate charge, improved turn-off behavior, and reduced reverse recovery charge enabling highest efficiency and power density as well as additional 50V breakdown voltage. Summary of Features Ultrafast body diode and very low Qrr 650V breakdown voltage Significantly reduced switching losses compared to competition Lowest RDS(on) dependency over temperature Benefits Excellent hard-commutation ruggedness Extra safety margin for designs with increased bus voltage Enabling increased power density Outstanding light-load efficiency in industrial SMPS applications Improved full-load efficiency in industrial SMPS applications Price competitiveness compared to alternative offerings in the market Applications EV charging Photovoltaic Server power supply units (PSU) Telecommunication infrastructure Uninterruptible power supplies (UPS) Designers who used this product also designed with 2EDB8259Y | Gate driver ICs 2EDL23N06PJ | Gate driver ICs 2EDR8259X | Gate driver ICs 6EDL04N06PT | Gate driver ICs 1EDI60N12AF | Gate driver ICs 1ED44173N01B | Gate driver ICs 2ED2184S06F | Gate driver ICs 1ED3124MU12F | Gate driver ICs 2EDB8259Y | Gate driver ICs 2EDL23N06PJ | Gate driver ICs 2EDR8259X | Gate driver ICs 6EDL04N06PT | Gate driver ICs 1EDI60N12AF | Gate driver ICs 1ED44173N01B | Gate driver ICs 2ED2184S06F | Gate driver ICs 1ED3124MU12F | Gate driver ICs 1 2
Request a Quote Datasheet

Suppliers

Company
Product
Description
Supplier Links
500V-950V N-Channel Power MOSFET - IPZA65R029CFD7 - Infineon Technologies AG
Neubiberg, Germany
500V-950V N-Channel Power MOSFET
IPZA65R029CFD7
500V-950V N-Channel Power MOSFET IPZA65R029CFD7
650V CoolMOS™ CFD7 superjunction MOSFET with integrated fast body diode in TO-247 4-pin package Infineon’s 650V CoolMOS™ CFD7 superjunction MOSFET IPZA65R029CFD7 in TO-247 4-pin package is ideally suited for resonant topologies in industrial applications, such as server, telecom, solar, and EV-charging stations, in which it enables significant efficiency improvements compared to competition. As a successor to the CFD2 SJ MOSFET family, it comes with reduced gate charge, improved turn-off behavior, and reduced reverse recovery charge enabling highest efficiency and power density as well as additional 50V breakdown voltage. Summary of Features Ultrafast body diode and very low Qrr 650V breakdown voltage Significantly reduced switching losses compared to competition Lowest RDS(on) dependency over temperature Benefits Excellent hard-commutation ruggedness Extra safety margin for designs with increased bus voltage Enabling increased power density Outstanding light-load efficiency in industrial SMPS applications Improved full-load efficiency in industrial SMPS applications Price competitiveness compared to alternative offerings in the market Applications EV charging Photovoltaic Server power supply units (PSU) Telecommunication infrastructure Uninterruptible power supplies (UPS) Designers who used this product also designed with 2EDB8259Y | Gate driver ICs 2EDL23N06PJ | Gate driver ICs 2EDR8259X | Gate driver ICs 6EDL04N06PT | Gate driver ICs 1EDI60N12AF | Gate driver ICs 1ED44173N01B | Gate driver ICs 2ED2184S06F | Gate driver ICs 1ED3124MU12F | Gate driver ICs 2EDB8259Y | Gate driver ICs 2EDL23N06PJ | Gate driver ICs 2EDR8259X | Gate driver ICs 6EDL04N06PT | Gate driver ICs 1EDI60N12AF | Gate driver ICs 1ED44173N01B | Gate driver ICs 2ED2184S06F | Gate driver ICs 1ED3124MU12F | Gate driver ICs 1 2

650V CoolMOS™ CFD7 superjunction MOSFET with integrated fast body diode
in TO-247 4-pin package

Infineon’s 650V CoolMOS™ CFD7 superjunction MOSFET IPZA65R029CFD7 in TO-247 4-pin package is ideally suited for resonant topologies in industrial applications, such as server, telecom, solar, and EV-charging stations, in which it enables significant efficiency improvements compared to competition. As a successor to the CFD2 SJ MOSFET family, it comes with reduced gate charge, improved turn-off behavior, and reduced reverse recovery charge enabling highest efficiency and power density as well as additional 50V breakdown voltage.


Summary of Features

  • Ultrafast body diode and very low Qrr
  • 650V breakdown voltage
  • Significantly reduced switching losses compared to competition
  • Lowest RDS(on) dependency over temperature

Benefits

  • Excellent hard-commutation ruggedness
  • Extra safety margin for designs with increased bus voltage
  • Enabling increased power density
  • Outstanding light-load efficiency in industrial SMPS applications
  • Improved full-load efficiency in industrial SMPS applications
  • Price competitiveness compared to alternative offerings in the market

Applications

  • EV charging
  • Photovoltaic
  • Server power supply units (PSU)
  • Telecommunication infrastructure
  • Uninterruptible power supplies (UPS)

Designers who used this product also designed with


  • 2EDB8259Y |
    Gate driver ICs
  • 2EDL23N06PJ |
    Gate driver ICs
  • 2EDR8259X |
    Gate driver ICs
  • 6EDL04N06PT |
    Gate driver ICs
  • 1EDI60N12AF |
    Gate driver ICs
  • 1ED44173N01B |
    Gate driver ICs
  • 2ED2184S06F |
    Gate driver ICs
  • 1ED3124MU12F |
    Gate driver ICs
  • 2EDB8259Y |
    Gate driver ICs
  • 2EDL23N06PJ |
    Gate driver ICs
  • 2EDR8259X |
    Gate driver ICs
  • 6EDL04N06PT |
    Gate driver ICs
  • 1EDI60N12AF |
    Gate driver ICs
  • 1ED44173N01B |
    Gate driver ICs
  • 2ED2184S06F |
    Gate driver ICs
  • 1ED3124MU12F |
    Gate driver ICs

1
2

Supplier's Site Datasheet

Technical Specifications

  Infineon Technologies AG
Product Category Power MOSFET
Product Number IPZA65R029CFD7
Product Name 500V-950V N-Channel Power MOSFET
Polarity N-Channel; N
Transistor Technology / Material Si/SiC
rDS(on) 0.0290 ohms
QG 145 nC
Unlock Full Specs
to access all available technical data