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    SGW30N60 Search Results

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    SGW30N60 Price and Stock

    Rochester Electronics LLC SGW30N60FKSA1

    IGBT NPT 600V 41A TO247-3
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    Infineon Technologies AG SGW30N60FKSA1

    IGBT NPT 600V 41A TO247-3
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    Verical SGW30N60FKSA1 110 82
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    Rochester Electronics SGW30N60FKSA1 117 1
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    Infineon Technologies AG SGW30N60HSFKSA1

    IGBT 600V 41A 250W TO247-3
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    SGW30N60 Datasheets (6)

    Part ECAD Model Manufacturer Description Curated Datasheet Type PDF
    SGW30N60 Infineon Technologies Fast IGBT in NPT Technology Original PDF
    SGW30N60 Infineon Technologies 30A 600V TO247AC IGBT Original PDF
    SGW30N60FKSA1 Infineon Technologies Discrete Semiconductor Products - Transistors - IGBTs - Single - IGBT 600V 41A 250W TO247-3 Original PDF
    SGW30N60HS Infineon Technologies High Speed IGBT in NPT-technology Original PDF
    SGW30N60HS Infineon Technologies 30A 600V TO247 IGBT Original PDF
    SGW30N60HSFKSA1 Infineon Technologies Discrete Semiconductor Products - Transistors - IGBTs - Single - IGBT 600V 41A 250W TO247-3 Original PDF

    SGW30N60 Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    SGP30N60HS

    Abstract: SGW30N60HS 3UAT
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS P-TO-220-3-1 O-220AB) P-TO-247-3-1 O-247AC) O-220AB Q67040-S4500 SGP30N60HS SGW30N60HS 3UAT

    Untitled

    Abstract: No abstract text available
    Text: SGP30N60 SGB30N60, SGW30N60 Fast S-IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGB30N60, SGW30N60 O-220AB Q67041-A4713-A2 SGB30N60 O-263AB Q67041-A4713-A4 O-247AC

    G15N60

    Abstract: No abstract text available
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 O-220AB) PG-TO-247-3-1 O-247AC) SGW30N60 G15N60

    g30n60hs

    Abstract: g30n60 SGW30N60HS 1A20A
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS PG-TO-220-3-1 PG-TO-247-3-21 PG-TO-220-3-1 SGW30N60HS g30n60hs g30n60 1A20A

    SGW30N60HS

    Abstract: SGP30N60HS
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS P-TO-220-3-1 O-220AB) P-TO-247-3-1 O-247AC) O-220AB Q67040-S4500 SGW30N60HS SGP30N60HS

    30A20V

    Abstract: Q67040-S4237 SGB30N60 SGP30N60 SGW30N60
    Text: SGP30N60 SGB30N60, SGW30N60 Fast S-IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGB30N60, SGW30N60 O-220AB Q67041-A4713-A2 SGB30N60 O-263AB Q67041-A4713-A4 O-247AC 30A20V Q67040-S4237 SGB30N60 SGP30N60 SGW30N60

    G30N60

    Abstract: G30N60 IGBT g30n60 infineon SGW30N60 PG-TO-220-3-1 IGBT 400V 100KHZ 30A igbt 600V 30A
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology C • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3 SGW30N60 G30N60 G30N60 IGBT g30n60 infineon PG-TO-220-3-1 IGBT 400V 100KHZ 30A igbt 600V 30A

    g30n60

    Abstract: equivalent to g30n60 G30N60 IGBT g30n60 infineon 0/equivalent to g30n60 PG-TO-247-3-21
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology C • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3-21 SGW30N60 g30n60 equivalent to g30n60 G30N60 IGBT g30n60 infineon 0/equivalent to g30n60 PG-TO-247-3-21

    G15N60

    Abstract: G15N60 IGBT PG-TO-247-3-21
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology C • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3-21 SGW30N60 G15N60 G15N60 IGBT PG-TO-247-3-21

    Q67040-A4463

    Abstract: Q67040-S4237 Q67041-A4713 SGB30N60 SGP30N60 SGW30N60
    Text: SGP30N60 SGB30N60, SGW30N60 Fast IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGB30N60, SGW30N60 O-220AB Q67040-A4463 SGB30N60 O-263AB Q67041-A4713 O-247AC Q67040-A4463 Q67040-S4237 Q67041-A4713 SGB30N60 SGP30N60 SGW30N60

    g30n60

    Abstract: PG-TO-220-3-1 G30N60 IGBT PG-TO220-3-1 equivalent to g30n60 PG-TO-247-3-21 SGP30N60 SGW30N60 100W-50W g30n60 data sheet
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology C • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3-21 G30N60 PG-TO-220-3-1ain g30n60 PG-TO-220-3-1 G30N60 IGBT PG-TO220-3-1 equivalent to g30n60 PG-TO-247-3-21 SGP30N60 SGW30N60 100W-50W g30n60 data sheet

    G30N60HS

    Abstract: SGP30N60HS G30N60h SGW30N60HS G30N60 g30n60hs pspice high frequency igbt G30N60hs IGBT PG-TO-247-3 PG-TO-220-3-1 PG-TO-247-3-21
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS PG-TO-220-3-1 PG-TO-247-3 G30N60HS SGW30N60HS G30N60HS SGP30N60HS G30N60h G30N60 g30n60hs pspice high frequency igbt G30N60hs IGBT PG-TO-247-3 PG-TO-220-3-1 PG-TO-247-3-21

    g30N60

    Abstract: G30N60 IGBT g30n60 infineon equivalent to g30n60 SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3 PG-TO-247-3-21 igbt 1000v 30a
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology C • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3 G30N60 SGW30N6ntain g30N60 G30N60 IGBT g30n60 infineon equivalent to g30n60 SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3 PG-TO-247-3-21 igbt 1000v 30a

    g30n60hs

    Abstract: G30N60hs IGBT g30n60 SGP30N60HS G30N60h g30n60hs pspice high frequency igbt SGW30N60HS PG-TO-247-3-21 PG-TO-220-3-1 PG-TO247-3-21
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS PG-TO-220-3-1 PG-TO-247-3-21 G30N60HS g30n60hs G30N60hs IGBT g30n60 SGP30N60HS G30N60h g30n60hs pspice high frequency igbt SGW30N60HS PG-TO-247-3-21 PG-TO-220-3-1 PG-TO247-3-21

    g30n60hs

    Abstract: g30n60 RG111 SGW30N60HS
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS PG-TO-220-3-1 O-220AB) PG-TO-247-3-1 O-247AC) SGW30N60HS g30n60hs g30n60 RG111

    Q67040-S4501

    Abstract: SGW30N60HS
    Text: Preliminary Datasheet SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time –10 µs • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60HS SGW30N60HS SGW30N60HS O-220AB O-247AC Q67040-S4500 Q67040-S4501 Jan-02 Q67040-S4501

    SGW30N60HS

    Abstract: SGP30N60HS
    Text: Preliminary Datasheet SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation 16 µJ/A • Short circuit withstand time – 10 µs • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS O-220AB Q67040-A4463-A003 O-247AC Q67040-S4237-A002 Sep-01 SGW30N60HS SGP30N60HS

    G15N60

    Abstract: G15N60 IGBT PG-TO-247-3-21 PG-TO220-3-1 PG-TO-220-3-1 SGP30N60 SGW30N60 30A, 600v DIODE g15N6
    Text: SGP30N60 SGW30N60 Fast IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGW30N60 PG-TO-220-3-1 PG-TO-247-3-21 G15N60 PG-TO-220-3-1ain G15N60 G15N60 IGBT PG-TO-247-3-21 PG-TO220-3-1 PG-TO-220-3-1 SGP30N60 SGW30N60 30A, 600v DIODE g15N6

    SGP30N60

    Abstract: BUP603D Q67040-S4237 SGB30N60 SGW30N60 SGP30N60 3 SC35015
    Text: Preliminary data SGP30N60, SGB30N60, SGW30N60 Fast S-IGBT in NPT-Technology • 75 % lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time 10 µs • Designed for moderate and high frequency applications:


    Original
    PDF SGP30N60, SGB30N60, SGW30N60 SGP30N60 O-220AB Q67041-A4713-A2 SGB30N60 O-263AB Q67041-A4713-A3 SGP30N60 BUP603D Q67040-S4237 SGB30N60 SGW30N60 SGP30N60 3 SC35015

    Q67040-S4237

    Abstract: sgw30n60
    Text: SGP30N60 SGB30N60, SGW30N60 Fast S-IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGB30N60, SGW30N60 SGB30N60 SGW30N60 O-220AB O-263AB O-247AC Q67040-A4463 Q67040-S4237

    Q67040-A4463

    Abstract: Q67040-S4237 Q67041-A4713 SGB30N60 SGP30N60 SGW30N60
    Text: SGP30N60, SGB30N60 SGW30N60 Fast IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60, SGB30N60 SGW30N60 P-TO-220-3-1 O-220AB) P-TO-263-3-2 P-TO-247-3-1 O-263AB) O-247AC) O-220AB Q67040-A4463 Q67040-S4237 Q67041-A4713 SGB30N60 SGP30N60 SGW30N60

    Untitled

    Abstract: No abstract text available
    Text: SGP30N60 SGB30N60, SGW30N60 Fast S-IGBT in NPT-technology • 75% lower Eoff compared to previous generation combined with low conduction losses • Short circuit withstand time – 10 µs • Designed for: - Motor controls - Inverter • NPT-Technology for 600V applications offers:


    Original
    PDF SGP30N60 SGB30N60, SGW30N60 O-220AB Q67041-A4713-A2 SGB30N60 O-263AB Q67041-A4713-A4 O-247AC

    g30n60hs

    Abstract: G30N60hs IGBT G30N60 SGP30N60HS 600v 30a IGBT SGW30N60HS igbt 600V 30A infineon SGW30N60HS PG-TO-220-3-1 PG-TO-247-3 PG-TO-247-3-21
    Text: SGP30N60HS SGW30N60HS High Speed IGBT in NPT-technology C • 30% lower Eoff compared to previous generation • Short circuit withstand time – 10 µs G E • Designed for operation above 30 kHz • NPT-Technology for 600V applications offers: - parallel switching capability


    Original
    PDF SGP30N60HS SGW30N60HS PG-TO-220-3-1 PG-TO-247-3 G30N60HS SGW30N60HS g30n60hs G30N60hs IGBT G30N60 SGP30N60HS 600v 30a IGBT igbt 600V 30A infineon SGW30N60HS PG-TO-220-3-1 PG-TO-247-3 PG-TO-247-3-21

    Untitled

    Abstract: No abstract text available
    Text: Preliminary data SIEMENS SGP30N60, SGB30N60, SGW30N60 Fast S-IGBT in NPT-Technology • 75 % lower E0ff compared to previous generation combined with low conduction losses • Short circuit withstand time 10 is • Designed for moderate and high frequency applications:


    OCR Scan
    PDF SGP30N60, SGB30N60, SGW30N60 O-220AB O-263AB SGP30N60 Q67041-A4713-A2 SGB30N60