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FGA20N120FTDTU - onsemi

Description: Obsolete - IGBT, 1250V, 20A, Shorted-anode

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Symbol
FGA20N120FTDTU - onsemi - PCB symbol
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PCB Footprints
FGA20N120FTDTU - onsemi PCB footprint - Transistor Outline, Vertical - Transistor Outline, Vertical - TO−3P−3LD CASE340AB−01 ISSUE A
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3D Models
FGA20N120FTDTU - onsemi - 3D model - Transistor Outline, Vertical - TO−3P−3LD CASE340AB−01 ISSUE A
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FGA20N120FTDTU Details

  • Manufacturer Part Number:

    FGA20N120FTDTU

  • Brand Name:

    onsemi

  • Pbfree Code:

    Yes

  • Rohs Code:

    Yes

  • Part Life Cycle Code:

    Obsolete

  • Part Package Code:

    TO-3P-3L

  • Manufacturer Package Code:

    340BZ

  • ECCN Code:

    EAR99

  • Manufacturer:

    onsemi

  • YTEOL:

    0

  • Collector Current-Max (IC):

    40 A

  • Collector-Emitter Voltage-Max:

    1200 V

  • Fall Time-Max (tf):

    320 ns

  • Gate-Emitter Thr Voltage-Max:

    7.5 V

  • Gate-Emitter Voltage-Max:

    25 V

  • JESD-609 Code:

    e3

  • Operating Temperature-Max:

    150 °C

  • Peak Reflow Temperature (Cel):

    NOT SPECIFIED

  • Polarity/Channel Type:

    N-CHANNEL

  • Power Dissipation-Max (Abs):

    298 W

  • Surface Mount:

    NO

  • Terminal Finish:

    Matte Tin (Sn) - annealed

  • Time@Peak Reflow Temperature-Max (s):

    NOT SPECIFIED

FGA20N120FTDTU Frequently Asked Questions (FAQs)

  • The maximum junction temperature of the FGA20N120FTDTU is 150°C, but it's recommended to keep it below 125°C for reliable operation.
  • Proper cooling can be achieved by using a heat sink with a thermal resistance of 1°C/W or lower, and ensuring good airflow around the device. A thermal interface material (TIM) can also be used to improve heat transfer between the device and heat sink.
  • The recommended gate drive voltage for the FGA20N120FTDTU is between 10V and 15V, with a maximum of 20V. A higher gate drive voltage can improve switching performance, but may also increase power losses.
  • Yes, the FGA20N120FTDTU is suitable for high-frequency switching applications up to 100 kHz. However, the device's switching losses and thermal performance should be carefully evaluated to ensure reliable operation.
  • Overvoltage protection can be achieved using a voltage clamp or a zener diode. Overcurrent protection can be achieved using a current sense resistor and a comparator or a dedicated overcurrent protection IC.

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FGA20N120FTDTU Overview

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