The Datasheet Archive

STP36N06L datasheet (6)

Part Manufacturer Description Type PDF
STP36N06L STMicroelectronics N-Channel Enhancement Mode Power MOS Transistor Original PDF
STP36N06L STMicroelectronics OLD PRODUCT: NOT SUITABLE FOR NEW DESIGN-IN Original PDF
STP36N06L Toshiba Power MOSFETs Cross Reference Guide Original PDF
STP36N06LFI STMicroelectronics N-Channel Enhancement Mode Power MOS Transistor Original PDF
STP36N06LFI STMicroelectronics OLD PRODUCT: NOT SUITABLE FOR NEW DESIGN-IN Original PDF
STP36N06LFI Toshiba Power MOSFETs Cross Reference Guide Original PDF

STP36N06L Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1996 - C2514

Abstract: STP36N05L STP36N05LFI STP36N06L STP36N06LFI
Text: STP36N06L STP36N06LFI N - CHANNEL ENHANCEMENT MODE POWER MOS TRANSISTOR TYPE VDSS , Parameter Value STP36N06L V DS V DGR V GS Unit STP36N06LFI Drain-source Voltage (V GS = 0 , November 1996 1/10 STP36N06L /FI THERMAL DATA TO-220 R thj-case R thj-amb R t hc-sink Tl , 24 1350 450 130 Max. Unit S 1800 600 200 pF pF pF STP36N06L /FI ELECTRICAL , TO-220 Safe Operating Areas For ISOWATT220 3/10 STP36N06L /FI Thermal Impedance For TO


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PDF STP36N06L STP36N06LFI STP36N05L STP36N05LFI 100oC 175oC O-220 C2514 STP36N05L STP36N05LFI STP36N06L STP36N06LFI
1996 - STP32N06L

Abstract: STP32N06LFI
Text: safe operating area November 1996 1/10 STP36N06L /FI THERMAL DATA TO-220 R thj-case R , . 10 22 980 320 80 Max. Unit S 1300 450 110 pF pF pF STP36N06L /FI , -220 Safe Operating Areas For ISOWATT220 3/10 STP36N06L /FI Thermal Impedance For TO-220 Thermal , Characteristics Transfer Characteristics 4/10 STP36N06L /FI Transconductance Static Drain-source On , Voltage vs Temperature Normalized On Resistance vs Temperature 5/10 STP36N06L /FI Turn-on


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PDF STP32N06L STP32N06LFI 100oC 175oC O-220 STP32N06L STP32N06LFI
Not Available

Abstract: No abstract text available
Text: perature °c °c (·) Pulse width limited by sate operating area November 1996 1/10 STP36N06L , MHz Vg = 0 2/10 *T # RKasnuieiragrciiies / I T SGS-THOMSON STP36N06L / FI , For IS O W A TT220 STP36N06L /FI Therm al Im pedance F o rT O -2 2 0 G C 2 G 9 3 0 T herm al , ) SGS-THOMSON RKRQiuieiragrcioes STP36N06L / FI Transconductance S tatic D rain-source On R esistance , / I T SGS-THOMSON 5/10 STP36N06L /FI Turn-on C urrent Slope T urn-ott D rain-source


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PDF 32N06L STP32N06LFI STP32N06L STP32N 06LFI
Not Available

Abstract: No abstract text available
Text: (•) Pulse w idth lim ited by safe operating area N ovem ber 1996 1/10 STP36N06L /FI , Param eter F o rw a rd T ra n s c o n d u c ta n c e STP36N06L /FI ELECTRICAL CHARACTERISTICS , STP36N06L /FI Thermal Impedance ForTO-220 Thermal Impedance For ISOWATT220 C Si Derating Curve , 8 9 7 0 4/10 7 SGS-THOMSON ^ 7 # 6siieR®iiLii£irR®(iaies STP36N06L /FI , rZ7 SGS-THOMSON ^ 7 # RiiieR®iiLii£iîR®(iaies 5/10 STP36N06L /FI Turn-on Current


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PDF STP32N06L STP32N06LFI TP32N STP32N 06LFI STP36N06L/FI ISQWATT220
1994 - STP32N06L

Abstract: STP32N06LFI
Text: width limited by safe operating area May 1993 1/10 STP36N06L /FI THERMAL DATA TO-220 R , Max. Unit S 1300 450 110 pF pF pF STP36N06L /FI ELECTRICAL CHARACTERISTICS , For TO-220 Safe Operating Areas For ISOWATT220 3/10 STP36N06L /FI Thermal Impedance For TO , Characteristics Transfer Characteristics 4/10 STP36N06L /FI Transconductance Static Drain-source On , Voltage vs Temperature Normalized On Resistance vs Temperature 5/10 STP36N06L /FI Turn-on


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PDF STP32N06L STP32N06LFI 100oC O-220 STP32N06L STP32N06LFI
1996 - STP32N06L

Abstract: STP32N06LFI
Text: limited by safe operating area November 1996 1/10 STP36N06L /FI THERMAL DATA TO-220 R thj-cas , STP36N06L /FI ELECTRICAL CHARACTERISTICS (continued) SWITCHING ON Symbol t d(on) tr (di/dt) on Qg Q , STP36N06L /FI Thermal Impedance For TO-220 Thermal Impedance For ISOWATT220 Derating Curve For TO-220 Derating Curve For ISOWATT220 Output Characteristics Transfer Characteristics 4/10 STP36N06L , Temperature 5/10 STP36N06L /FI Turn-on Current Slope Turn-off Drain-source Voltage Slope


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PDF STP32N06L STP32N06LFI 100oC O-220 STP32N06L STP32N06LFI
1996 - STP36N05L

Abstract: STP36N05LFI STP36N06L STP36N06LFI UA36A airbag
Text: STP36N06L STP36N06LFI N - CHANNEL ENHANCEMENT MODE POWER MOS TRANSISTOR TYPE V DSS , Symbol Parameter Value STP36N06L VD S V DG R V GS Unit STP36N06LFI Drain-source , operating area November 1996 1/10 STP36N06L /FI THERMAL DATA TO-220 R thj-cas e Rthj- amb Rt , STP36N06L /FI ELECTRICAL CHARACTERISTICS (continued) SWITCHING ON Symbol t d(on) tr (di/dt) on Qg Q , STP36N06L /FI Thermal Impedance For TO-220 Thermal Impedance For ISOWATT220 Derating Curve For TO


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PDF STP36N06L STP36N06LFI STP36N05L STP36N05LFI 100oC O-220 STP36N05L STP36N05LFI STP36N06L STP36N06LFI UA36A airbag
Not Available

Abstract: No abstract text available
Text: dss STP36N 05L S TP36N05LFI STP36N06L STP36N06LFI RDS(on) Id 60 V 60 V < 0.04 a , operating area November 1996 1/10 STP36N06L /FI THERMAL DATA TO -220 Resistance Junction-case , STP36N06L /FI ELECTRICAL CHARACTERISTICS (continued) SWITCHING ON Sym bol td(on) tr Param eter , raeRoaLneiriwsies STP36N06L /FI Thermal Impedance ForTO-220 Thermal Impedance For ISQWATT220 Derating , 4/10 7 ^7# SGS-THOMSON 6siieR®iiLii£irR®(iaies STP36N06L /FI Transconductance Static


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PDF STP36N TP36N05LFI STP36N06L STP36N06LFI STP36N06L/FI ISQWATT220
36N06

Abstract: No abstract text available
Text: .) AB SOL U T E MAXI MUM Symbol RATI NGS Parameter STP36N06L Value STP36N06LFI Unit V ds V dgr V , *57 TYPE SGS-THOMSON iL iO M K I stp 36N06L STP36N06LFI N - CHANNEL ENHANCEMENT MODE , ) Pulse width limited by sate operating area November 1996 1/10 STP36N06L /FI THERMAL DATA T O , /10 *T # RKasnuieiragrciiies /IT SGS-THOMSON STP36N06L / FI ELECTRI CAL CH AR A C TE R I , Sate O perating Areas For IS O W A TT220 STP36N06L /FI Therm al Im pedance F o r T 0 2 2 0 T


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PDF 36N06L STP36N06LFI STP36N05L STP36N 05LFI 36N06
1997 - SSH6N80

Abstract: IRF640 equivalent buz100 equivalent ste38NA50 irf540 equivalent stp2na60 buz10 equivalent BUK444 equivalent 2SK2700 equivalent BUZ71 equivalent
Text: STH5NA90FI STP3NA50FI STP3NA50FI STP9NA50 STB10NA40 STP36N06L STP60N06L-16 or STP50N06L STP3NA100 , STW6NA80 STW4NA100 IRF640 STP9N30 STP15N06L STP21N06L STP36N06L STE38NA50 STP50N06L STW10NA50 , STP20N06 BUZ11A STP32N06L BUZ11FI STP36N06 STP50N06 STP36N06 STP36N06L IRF530 STP20N10 IRF540 , STD8N06L STD8N06L STD12N06L STD17N06L STD6N10L STD9N10L STP21N06LFI STP21N06LFI STP36N06LFI , STP32N06L STP36N06L STP30N06 STP36N06L STP50N06L STP50N06L STB50N06L STP50N06 STN2N10 INDUSTY


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PDF 2SK1119 2SK1120 2SK1151 2SK1152 2SK1153 2SK1154 2SK1155 2SK1156 2SK1157 2SK1158 SSH6N80 IRF640 equivalent buz100 equivalent ste38NA50 irf540 equivalent stp2na60 buz10 equivalent BUK444 equivalent 2SK2700 equivalent BUZ71 equivalent
1996 - STE30NA50-DK

Abstract: ISOWATT-220 to220 STE30NA50 transistors irf640 ste38na50 STE30NA50-da ISOWATT220 STB30N10 STP5NA90FI
Text: STP36N06L STP30N06 STP32N06L STP25N06 STD17N06 STP20N06 STP21N06L STD17N06L STP21N06LFI STD12N06L STP15N06L


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PDF OT-82 OT-223 O-220 220TM MAX220TM 218TM O-247 MAX247TM Max247 Max220 STE30NA50-DK ISOWATT-220 to220 STE30NA50 transistors irf640 ste38na50 STE30NA50-da ISOWATT220 STB30N10 STP5NA90FI
ste30na50-DK

Abstract: ste30na50 ste38na50 STP15N25 STE30NA50-DA STY16NA90 STW26N25 stp20n10l STW75N06 BUZ10
Text: STP36N06L STP30N06 STP32N06L STP25N06 STD17N06 STP20N06 STP21N06L STD17N06L STP21N06LFI STD12N06L


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PDF OT-82 OT-223 220TM O-220 MAX220TM 218TM O-247 MAX247TM Max247 Max220 ste30na50-DK ste30na50 ste38na50 STP15N25 STE30NA50-DA STY16NA90 STW26N25 stp20n10l STW75N06 BUZ10
1999 - IRF540 complementary

Abstract: IRFZ44N complementary std2n52 TOSHIBA IRFZ44A datasheet STP2NA60 SSH6N80 rfp60n06 ste38na50 IRF630 complementary IRF3205 IR
Text: STP36N06L STP30N06 STP32N06L STP32N06L STB25N06 STP20N06 STP20N06 STD16NE60 STD16NE06 STP20N06 , ST ST ST ST ST ST ST 18 Sales type STP45NE06L STP45NE06 STP38N06 STP36N06 STP36N06L


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PDF RFP6N50 RFD16N03LSM RFP15N05L RFP50N05 RFP15N05 RFP50N05L RFD14N05L RFD14N05LSM RFD14N05SM RFP14N05L IRF540 complementary IRFZ44N complementary std2n52 TOSHIBA IRFZ44A datasheet STP2NA60 SSH6N80 rfp60n06 ste38na50 IRF630 complementary IRF3205 IR
1999 - SSH6N80

Abstract: rfp60n06 IRF3205 IR BUK417-500AE SFP70N03 BUZ91A 2SK2717 STMicroelectronics BUZ22 IXFH13N50
Text: STP30NE06 STP30NE06L STP32N05L STP33N10 STP36N06 STP36N06FI STP36N06L STP36NE03L STP36NE06


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PDF BUZ10 BUZ11 BUZ11A BUZ71 BUZ71A BUZ72A BUZ80A IRF520 IRF530 IRF540 SSH6N80 rfp60n06 IRF3205 IR BUK417-500AE SFP70N03 BUZ91A 2SK2717 STMicroelectronics BUZ22 IXFH13N50
SSP35n03

Abstract: bc417 ksh200 equivalent 2N5457 equivalent ss8050 equivalent 1N34 equivalent FQP50N06 equivalent bd139 equivalent 2N5458 equivalent 2N3563 equivalent
Text: No file text available


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PDF 5KE100A 5KE100CA 5KE10A 5KE10CA 5KE110A 5KE110CA 5KE11A 5KE11CA 5KE120A 5KE120CA SSP35n03 bc417 ksh200 equivalent 2N5457 equivalent ss8050 equivalent 1N34 equivalent FQP50N06 equivalent bd139 equivalent 2N5458 equivalent 2N3563 equivalent
YTA630

Abstract: MTW14P20 BSS125 MTAJ30N06HD SMP60N06 replacement SMU10P05 2SK2837 equivalent STE180N10 RFH75N05E IRFD620
Text: No file text available


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PDF 2N7000 2N7002 2SJ377 2SJ378 2SJ380 2SJ401 2SJ402 2SJ407 2SJ412 2SJ419 YTA630 MTW14P20 BSS125 MTAJ30N06HD SMP60N06 replacement SMU10P05 2SK2837 equivalent STE180N10 RFH75N05E IRFD620
TDA0161 equivalent

Abstract: 1N3393 2N4895 inmos transputer reference manual Transistor morocco mje13007 sgs 2n3055 ua776mh ST90R9 BYT30 byt301000
Text: No file text available


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