FIR4N80FG Todos los transistores

 

FIR4N80FG MOSFET. Datasheet. Equivalente. Reemplazo. Hoja de especificaciones. Principales características


   Número de Parte: FIR4N80FG
   Tipo de FET: MOSFET
   Polaridad de transistor: N

ESPECIFICACIONES MÁXIMAS

   Pdⓘ - Máxima disipación de potencia: 35 W
   |Vds|ⓘ - Voltaje máximo drenador - fuente: 800 V
   |Vgs|ⓘ - Voltaje máximo fuente - puerta: 30 V
   |Id|ⓘ - Corriente continua de drenaje: 4 A
   Tjⓘ - Temperatura máxima de unión: 150 °C

CARACTERÍSTICAS ELÉCTRICAS


   trⓘ - Tiempo de subida: 34.67 nS
   Cossⓘ - Capacitancia de salida: 53.7 pF
   Rds(on)ⓘ - Resistencia estado encendido drenaje a fuente: 3.8 Ohm
   Paquete / Cubierta: TO-220F

 Búsqueda de reemplazo de MOSFET FIR4N80FG

 

FIR4N80FG Datasheet (PDF)

 ..1. Size:2314K  first semi
fir4n80fg.pdf

FIR4N80FG
FIR4N80FG

FIR4N80FGN - CHANNEL MOSFET-E PIN Connection TO-220FGENERAL DESCRIPTION FIR4N80FG is an N-channel enhancement mode power MOS field effect transistor which is produced using Silan proprietary F-CellTM high-voltage planar VDMOS technology. The improved process and cell structure have been especially tailored to minimize on-state resistance, provide superior switching G D S p

 9.1. Size:3060K  first silicon
fir4n65afg.pdf

FIR4N80FG
FIR4N80FG

FIR4N65AFG650V N-Channel MOSFET PIN Connection TO-220FFeatures: Low Intrinsic Capacitances. Excellent Switching Characteristics. Extended Safe Operating Area. Unrivalled Gate Charge :Qg=13.7nC (Typ.). BVDSS=650V,ID=4AG D S RDS(on) : 2.6 (Max) @VG=10V 100% Avalanche TestedgSchematic dia ram D G S Marking DiagramY = YearA = Assemb

 9.2. Size:4499K  first semi
fir4n60bpg.pdf

FIR4N80FG
FIR4N80FG

FIR4N60BPG N-Channel Super Junction Power MOSFET-YPIN Connection TO-251General Description The series of devices use advanced super junction technology and design to provide excellent RDS(ON) with low gate charge. This super junction MOSFET fits the industrys AC-DC SMPS requirements for PFC, AC/DC power conversion, and industrial power applications.G D SFeatures New

 9.3. Size:3900K  first semi
fir4n65lg.pdf

FIR4N80FG
FIR4N80FG

FIR4N65LGAdvanced N-Ch Power MOSFET-HPIN Connection TO-252(D-PAK)General Description FIR4N65LG , the silicon N-channel Enhanced VDMOSFETs, is obtained by the self-aligned planar Technology Dwhich reduce the conduction loss, improve switching Gperformance and enhance the avalanche energy. The transistor Scan be used in various power switching circuit for system miniaturiz

 9.4. Size:1977K  first semi
fir4n65bpg.pdf

FIR4N80FG
FIR4N80FG

FIR4N65BPGAdvanced N-Ch Power MOSFETPIN Connection TO-251(I-PAK)General DescriptionFIR4N65BPGis an N-channel enhancement mode powerMOS field effect transistor which is produced using Silan proprietary F-CellTM structure VDMOS technology. Theimproved planar stripe cell and the improved guard ring terminal have been especially tailored to minimize on-state 1 2 3resistance, pro

 9.5. Size:6724K  first semi
fir4n70fg.pdf

FIR4N80FG
FIR4N80FG

FIR4N70FG700V N-Channel MOSFET PIN Connection TO-220FGeneral Description the silicon N-channel Enhanced FGFIR4N70VDMOSFETs, is obtained by the self-aligned planar Technology which reduce the conduction loss, improve switching performance and enhance the avalanche energy. The transistor can be used in various power switching circuit for system G D S miniaturizat

 9.6. Size:2125K  first semi
fir4n60fg.pdf

FIR4N80FG
FIR4N80FG

FIR4N60FGAdvanced N-Ch Power MOSFETPIN Connection TO-220FGeneral Description FIR4N60FG is an N-channel enhancement mode powerMOS field effect transistor which is produced using Silan proprietary F-CellTM structure VDMOS technology. Theimproved planar stripe cell and the improved guard ring terminal have been especially tailored to minimize on-state resistance, provide superior

 9.7. Size:3702K  first semi
fir4n65fg.pdf

FIR4N80FG
FIR4N80FG

FIR4N65FGAdvanced N-Ch Power MOSFET-HPIN Connection TO-220FGeneral Description FIR4N65FG , the silicon N-channel Enhanced VDMOSFETs, is obtained by the self-aligned planar Technology which reduce the conduction loss, improve switching G D S performance and enhance the avalanche energy. The transistor can be used in various power switching circuit for system gSchematic di

 9.8. Size:2769K  first semi
fir4n60lg.pdf

FIR4N80FG
FIR4N80FG

FIR4N60LGAdvanced N-Ch Power MOSFETPIN Connection TO-252(D-PAK)General DescriptionFIR4N60LG is an N-channel enhancement mode powerMOS field effect transistor which is produced using Silan proprietary F-CellTM structure VDMOS technology. The1improved planar stripe cell and the improved guard ring 3terminal have been especially tailored to minimize on-state resistance, provi

 9.9. Size:2083K  first semi
fir4n90fg.pdf

FIR4N80FG
FIR4N80FG

FIR4N90FG900V N-Channel MOSFET-TPIN Connection TO-220FFeatures: Low Intrinsic Capacitances. Excellent Switching Characteristics. Extended Safe Operating Area. Unrivalled Gate Charge :Qg=17nC (Typ.). BVDSS=900V,ID=4AG RDS(on) : 3.4 (Max) @VG=10VD S 100% Avalanche Testedg Schematic dia ram D G S Marking DiagramY = YearA = Assembl

 9.10. Size:199K  inchange semiconductor
fir4n65f.pdf

FIR4N80FG
FIR4N80FG

INCHANGE Semiconductorisc N-Channel Mosfet Transistor FIR4N65FFEATURESDrain Current I = 4A@ T =25D CDrain Source Voltage-: V = 650V(Min)DSSStatic Drain-Source On-Resistance: R = 3.0(Max)DS(on)Avalanche Energy SpecifiedFast SwitchingSimple Drive RequirementsMinimum Lot-to-Lot variations for robust deviceperformance and reliable operationD

Otros transistores... FMP36-015P , FMP76-01T , GMM3x100-01X1-SMD , FDMS0306AS , GMM3x120-0075X2-SMD , FDMS0300S , GMM3x160-0055X2-SMD , FDMC7200S , IRFB3607 , FDMC7200 , GMM3x60-015X2-SMD , FDMC0310AS , GWM100-0085X1-SL , FDMS3610S , GWM100-0085X1-SMD , FDMS3606S , GWM100-01X1-SL .

 

 
Back to Top

 


FIR4N80FG
  FIR4N80FG
  FIR4N80FG
 

social 

Liste

Recientemente añadidas las descripciónes de los transistores:

MOSFET: AOUS66923 | AOUS66920 | AOUS66620 | AOUS66616 | AOUS66416 | AOUS66414 | AOTE32136C | AOTE21115C | AOTS32338C | AOTS32334C | AOTS26108 | AOTS21319C | AOTS21313C | AOTS21311C | AOTS21115C | AOTL66918

 

 

 
Back to Top