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    SEMIKRON SKIIP 20 NAB 12 I T 36 Search Results

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    Semikron skiip 10 neb 063

    Abstract: semikron skiip 20 nab 12 I T 38 skiip neb 063 t semikron skiip 21 nab 063 T 40 semikron skiip 24 nab 125 t 12 Semikron skiip 22 neb 063 Semikron skiip 11 neb 063 semikron 21 neb 063 Semikron skiip 24 nab semikron skiip 21 nab 06
    Text: SKiiP 21 NAB 06 - SKiiP 21 NAB 06 I Absolute Maximum Ratings Symbol Conditions 1 Values Units 600 ± 20 27 / 19 54 / 38 36 / 24 72 / 48 V V A A A A 800 25 370 680 – 40 . . . + 150 – 40 . . . + 125 2500 V A A A2s °C °C V Inverter & Chopper VCES VGES


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    semikron skiip 21 nab 06

    Abstract: semikron skiip 20 nab 12 I T 38 semikron skiip 10 neb 06 skiip neb 063 t skiip 24 nab 125 t 12 semikron skiip 21 nab 063 T 40 semikron 21 neb 063 21 neb 063 Semikron skiip 10 neb 063 semikron skiip 24 nab 125 t 12
    Text: SKiiP 21 NAB 06 - SKiiP 21 NAB 06 I Absolute Maximum Ratings Symbol Conditions 1 Values Units 600 ± 20 27 / 19 54 / 38 36 / 24 72 / 48 V V A A A A 800 25 370 680 – 40 . . . + 150 – 40 . . . + 125 2500 V A A A2s °C °C V Inverter & Chopper VCES VGES


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    SKIIP 32 nab 12 t 49

    Abstract: SKiiP 83 AC 12 i t 1 skiip 31 nab 12 t 49 semikron skiip 32 nab 12 Semikron skiip 31 nab 12 semikron skiip 20 nab 12 I T 38 semikron skiip 24 nab 125 t 12 Semikron skiip 22 nab SEMIKRON SKIIP 20 NAB 12 T 17 Semikron skiip 22 neb 063
    Text: MiniSKiiP Do it your way MiniSKiiP Technologie • Druckkontaktverbindungen aller Leistungs- und Steueranschlüsse statt gelöteter Kontaktierungen. ■ Integration neuester Chiptechnologie • schaltverlustarme, 600V oder 1200V, homogene NPT IGBTs mit antiparalleler


    Original     		PDF D-90253 SKIIP 32 nab 12 t 49 SKiiP 83 AC 12 i t 1 skiip 31 nab 12 t 49 semikron skiip 32 nab 12 Semikron skiip 31 nab 12 semikron skiip 20 nab 12 I T 38 semikron skiip 24 nab 125 t 12 Semikron skiip 22 nab SEMIKRON SKIIP 20 NAB 12 T 17 Semikron skiip 22 neb 063

    SKIIP 32 nab 12 t 49

    Abstract: SKiiP 33 NEC 125 To skiip 33 ups 063 semikron skiip 24 nab 125 t 12 thyristor firing circuit SEMIKRON SKIIP 20 NAB 12 T 17 semikron skiip 20 nab 12 I T 38 Semikron skiip 31 nab 12 semikron skiip 81 AN 15 T semikron skiip 32 nab 12
    Text: MiniSKiiP Do it your way MiniSKiiP Technology • Pressure contact of all power and auxiliary connections instead of soldered joints. ■ Integration of latest chip technology: • Low switching loss, 600V or 1200V, homogeneous NPT IGBTs with antiparallel


    Original     		PDF D-90253 SKIIP 32 nab 12 t 49 SKiiP 33 NEC 125 To skiip 33 ups 063 semikron skiip 24 nab 125 t 12 thyristor firing circuit SEMIKRON SKIIP 20 NAB 12 T 17 semikron skiip 20 nab 12 I T 38 Semikron skiip 31 nab 12 semikron skiip 81 AN 15 T semikron skiip 32 nab 12

    semikron skiip 24 nab 125 t 12

    Abstract: Semikron skiip 24 nab skiip 24 nab 125 t 12 MiniSKiiP semikron skiip 21 nab 12 Semikron skiip 22 nab semikron skiip 33 semikron skiip 21 nab 063 T 40 semikron skiip 21 nab 12 I T 7 SEMIKRON SKIIP 22 nab 06
    Text: SKiiP 22 NAB 06 I Absolute Maximum Ratings Symbol Inverter VCES VGES IC ICM IF = –IC IFM = –ICM Conditions 1 Values Units Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C 600 ± 20 36 / 25


    Original     		PDF Mini0607 semikron skiip 24 nab 125 t 12 Semikron skiip 24 nab skiip 24 nab 125 t 12 MiniSKiiP semikron skiip 21 nab 12 Semikron skiip 22 nab semikron skiip 33 semikron skiip 21 nab 063 T 40 semikron skiip 21 nab 12 I T 7 SEMIKRON SKIIP 22 nab 06

    semikron skiip 24 nab 125 t 12

    Abstract: semikron skiip 21 nab 063 T 40 SEMIKRON SKIIP 22 nab 06 semikron skiip 20 nab 12 I T skiip 24 nab 125 t 12 SKIIP 24 NAB 12
    Text: SKiiP 22 NAB 06 I Absolute Maximum Ratings Symbol Inverter VCES VGES IC ICM IF = –IC IFM = –ICM Conditions 1 Values Units Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C 600 ± 20 36 / 25


    Original     		PDF Mini0607 semikron skiip 24 nab 125 t 12 semikron skiip 21 nab 063 T 40 SEMIKRON SKIIP 22 nab 06 semikron skiip 20 nab 12 I T skiip 24 nab 125 t 12 SKIIP 24 NAB 12

    semikron skiip 24 nab 125 t 12

    Abstract: 22 neb 063 Semikron skiip 11 neb 063 Semikron skiip 10 neb 063 Semikron skiip 22 neb 063 skiip 24 nab 125 t 12 skiip+24+nab+125+t12 semikron skiip 21 nab 063 T 40 Semikron skiip 22 nab 12 skiip 11 NEB 063 063 t 15
    Text: SKiiP 20 NAB 06 - SKiiP 20 NAB 06 I Absolute Maximum Ratings Symbol Inverter VCES VGES IC ICM IF = –IC IFM = –ICM Conditions 1 Values Units Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C


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    22 neb 063

    Abstract: semikron skiip 24 nab 125 t 12 semikron skiip 32 nab 125 skiip 24 nab 125 t 12 Semikron skiip 22 nab Semikron skiip 22 neb 063 Semikron skiip 24 nab Semikron skiip 22 nab 12 skiip 24 nab 12 i t 36 semikron skiip 10 neb 06
    Text: SKiiP 20 NAB 06 - SKiiP 20 NAB 06 I Absolute Maximum Ratings Symbol Inverter VCES VGES IC ICM IF = –IC IFM = –ICM Conditions 1 Values Units Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C Theatsink = 25 / 80 °C tp < 1 ms; Theatsink = 25 / 80 °C


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    SKHI 64

    Abstract: SKHI 61 R Semikron skiip 32 nab SKHI71 semikron SKHI semikron skiip 32 nab 12 skhi 71 r 15VSIGNAL Semidriver SKHI 64 semikron SKHI 64
    Text: PIN array Primary side PIN array Pin Symbol Function Pin Symbol Function 01 BS Auxiliary earth connection 11 +15V Supply voltage 02 BOT3 Driver signal BOT HB3 12 +15V Supply voltage 03 TOP3 Driver signal TOP HB3 13 TDT1 Deadtime bit #1 04 BOT2 Driver signal BOT HB2


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    semikron SKHI 64

    Abstract: semikron skiip 20 nab 12 I T SKHI 61 R
    Text: SKHI 61 . Absolute Maximum Ratings Symbol Conditions Values Units  < 1 * /, 1 / ;  ;  '5 = .5 9 9. . A.   / / $<B  ' $%C 9.  '.  3   # !   1  ! # !   $    #!  &3  > :


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    SKHI 65

    Abstract: SKHI 64 SKPC600 semikron SKHI 64 semikron skiip 32 nab 12 SKHI 61 R Semidriver SKHI 64 Semikron skiip 32 nab Skhi 60 SKHI 61
    Text: SKHI 61, SKHI 71 Absolute Maximum Ratings Symbol Term Values Units VS ViH IoutPEAK IoutAVmax fmax VCE Supply voltage primary Input signal voltage Output peak current Output average current TA = 85° C Max. switching frequency (CGE < 9nF) Collector emitter voltage sense across the


    Original     		PDF 200V-IGBTs) 2500yp. \Marketin\FRAMEDAT\datbl\Treiber\SKHI61 SKHI 65 SKHI 64 SKPC600 semikron SKHI 64 semikron skiip 32 nab 12 SKHI 61 R Semidriver SKHI 64 Semikron skiip 32 nab Skhi 60 SKHI 61

    semikron SKHI 20 op

    Abstract: semikron SKHI 10 op semikron SKHI 20 op A SEMIKRON SKHI 65 SKHI 10 op SKHI 64 SKHI 65 semikron SKHI 64 Semidriver SKHI 64 semikron Semidriver SKHI 64
    Text: SKHI 61, SKHI 71 Absolute Maximum Ratings Symbol Term Values Units VS ViH IoutPEAK IoutAVmax fmax VCE Supply voltage primary Input signal voltage Output peak current Output average current TA = 85° C Max. switching frequency (CGE < 9nF) Collector emitter voltage sense across the


    Original     		PDF 200V-IGBTs) 2500yp. \Marketin\FRAMEDAT\datbl\Treiber\SKHI61 semikron SKHI 20 op semikron SKHI 10 op semikron SKHI 20 op A SEMIKRON SKHI 65 SKHI 10 op SKHI 64 SKHI 65 semikron SKHI 64 Semidriver SKHI 64 semikron Semidriver SKHI 64

    semikron skiip 32 nab 12

    Abstract: semikron SKHI 20 op SEMIKRON SKHI 65 SKHI 64 Semidriver SKHI 64 semikron SKHI 10 op SKHI 65 SEMIKRON SKIIP 20 NAB 12 T 17 datasheet SKHI 10 op Semidriver SKHI 64 semikron
    Text: SKHI 61, SKHI 71 Absolute Maximum Ratings Symbol Term Values Units VS ViH IoutPEAK IoutAVmax fmax VCE Supply voltage primary Input signal voltage Output peak current Output average current TA = 85° C Max. switching frequency (CGE < 9nF) Collector emitter voltage sense across the


    Original     		PDF 200V-IGBTs) 2500yp. \Marketin\FRAMEDAT\datbl\Treiber\SKHI61 semikron skiip 32 nab 12 semikron SKHI 20 op SEMIKRON SKHI 65 SKHI 64 Semidriver SKHI 64 semikron SKHI 10 op SKHI 65 SEMIKRON SKIIP 20 NAB 12 T 17 datasheet SKHI 10 op Semidriver SKHI 64 semikron

    SKHI 61 R

    Abstract: semikron SKHI 71 SKHI 64 SKHI 65 SEMIKRON SKIIP 20 NAB 12 T 17 SEMIKRON SKHI 65 semikron SKHI 64 SKHI 61 Semikron skiip 32 nab skhi-61
    Text: SKHI 61 R . Absolute Maximum Ratings Symbol Conditions Values Units  9 * 1 3< * 3 8  8  '/7  : ;/( 5 5; ; @;   3 3 $9A  ' $%C 5;  ';  -   # !   *  ! # !   $    #!  &-  = 6)


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    semikron skiip 31 nab 12 T 18

    Abstract: No abstract text available
    Text: SKHI 61 R . Absolute Maximum Ratings Symbol Conditions L*, '4,1> B*1.-@2 ,6/+-6> I3,4. 7/@3-1 B*1.-@2 &4.,4. ,2-C )46623. &4.,4. -B26-@2 )46623. EL- ; ¥< U$H %-WQ 7]/.)=/3@ 562^423)> E$J? S _3MH $*112).*6 2+/.26 B*1.-@2 72372 -)6*77 .=2 IJKL E5*6 FTZZ9(IJKL7H


    Original     		PDF 43A26B 6/B26 A4127 /3B26 A6/B27N semikron skiip 31 nab 12 T 18

    SKiip 83 EC 125 T1

    Abstract: SKiiP 82 AC 12 T1 SKiiP 81 AN 15 T1 semikron SKHI 22 SPICE MODEL semikron skiip 32 nab 12 T7 SKiip 83 EC 12 1 T1 SKiiP 24 NAB 063 T12 skiip 83 ac 128 BUZ78 equivalent SKIIP 81 AC 12 I T1
    Text: 0 Betriebsweise von Leistungshalbleitern Betriebsweise von Leistungshalbleitern 0.1 Elementare Schaltvorgänge Leistungshalbleiter arbeiten bis auf wenige Sonderanwendungen im Schalterbetrieb. Daraus resultieren grundlegende Prinzipien und Funktionsweisen, die in allen leistungselektronischen


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