All MOSFET. FQB6N40CTM Datasheet

 

FQB6N40CTM MOSFET. Datasheet pdf. Equivalent


   Type Designator: FQB6N40CTM
   Type of Transistor: MOSFET
   Type of Control Channel: N -Channel
   Pdⓘ - Maximum Power Dissipation: 73 W
   |Vds|ⓘ - Maximum Drain-Source Voltage: 400 V
   |Vgs|ⓘ - Maximum Gate-Source Voltage: 30 V
   |Vgs(th)|ⓘ - Maximum Gate-Threshold Voltage: 4 V
   |Id|ⓘ - Maximum Drain Current: 6 A
   Tjⓘ - Maximum Junction Temperature: 150 °C
   Qgⓘ - Total Gate Charge: 16 nC
   trⓘ - Rise Time: 65 nS
   Cossⓘ - Output Capacitance: 80 pF
   Rdsⓘ - Maximum Drain-Source On-State Resistance: 1 Ohm
   Package: D2-PAK

 FQB6N40CTM Transistor Equivalent Substitute - MOSFET Cross-Reference Search

 

FQB6N40CTM Datasheet (PDF)

 ..1. Size:729K  fairchild semi
fqb6n40ctm fqi6n40ctu.pdf

FQB6N40CTM
FQB6N40CTM

TMQFETFQB6N40C/FQI6N40C400V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 6A, 400V, RDS(on) = 1.0 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 16nC)planar stripe, DMOS technology. Low Crss ( typical 15pF)This advanced technology has been especially tailored to

 6.1. Size:756K  fairchild semi
fqb6n40c.pdf

FQB6N40CTM
FQB6N40CTM

November 2013FQB6N40CN-Channel QFET MOSFET400 V, 6 A, 1.0 Description FeaturesThese N-Channel enhancement mode power field effect 6 A, 400 V, RDS(on) = 1.0 (Max.) @ VGS = 10 V,transistors are produced using Fairchilds proprietary, ID = 3 Aplanar stripe, DMOS technology. This advanced Low Gate Charge (Typ. 16nC)technology has been especially tailored to min

 6.2. Size:892K  onsemi
fqb6n40c.pdf

FQB6N40CTM
FQB6N40CTM

Is Now Part ofTo learn more about ON Semiconductor, please visit our website at www.onsemi.comPlease note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductors system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclatur

 9.1. Size:596K  fairchild semi
fqb6n90tm am002.pdf

FQB6N40CTM
FQB6N40CTM

December 2000TMQFETQFETQFETQFETFQB6N90 / FQI6N90900V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 5.8A, 900V, RDS(on) = 1.9 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 40 nC)planar stripe, DMOS technology. Low Crss ( typical 17 pF)This advanced technology

 9.2. Size:759K  fairchild semi
fqb6n15tm fqi6n15tu.pdf

FQB6N40CTM
FQB6N40CTM

May 2000TMQFETQFETQFETQFETFQB6N15 / FQI6N15150V N-ChanneI MOSFETGeneraI Description FeaturesThese N-Channel enhancement mode power field effect 6.4A, 150V, RDS(on) = 0.6 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 6.5 nC)planar stripe, DMOS technology. Low Crss ( typical 9.6 pF)This advanced technology h

 9.3. Size:681K  fairchild semi
fqb6n60ctm fqi6n60ctu.pdf

FQB6N40CTM
FQB6N40CTM

QFETFQB6N60C / FQI6N60C600V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 5.5A, 600V, RDS(on) = 2.0 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 16 nC)planar stripe, DMOS technology. Low Crss ( typical 7 pF)This advanced technology has been especially tailored to

 9.4. Size:842K  fairchild semi
fqb6n60tm.pdf

FQB6N40CTM
FQB6N40CTM

October 2008QFETFQB6N60 / FQI6N60600V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 6.2A, 600V, RDS(on) = 1.5 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 20 nC)planar stripe, DMOS technology. Low Crss ( typical 10 pF)This advanced technology has been especially

 9.5. Size:759K  fairchild semi
fqb6n25tm.pdf

FQB6N40CTM
FQB6N40CTM

May 2000TMQFETQFETQFETQFETFQB6N25 / FQI6N25250V N-ChanneI MOSFETGeneraI Description FeaturesThese N-Channel enhancement mode power field effect 5.5A, 250V, RDS(on) = 1.0 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 6.6 nC)planar stripe, DMOS technology. Low Crss ( typical 7.5 pF)This advanced technology

 9.6. Size:1075K  fairchild semi
fqb6n80 fqi6n80.pdf

FQB6N40CTM
FQB6N40CTM

October 2008QFETFQB6N80 / FQI6N80800V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 5.8A, 800V, RDS(on) = 1.95 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 31 nC)planar stripe, DMOS technology. Low Crss ( typical 14 pF)This advanced technology has been especially

 9.7. Size:682K  fairchild semi
fqb6n80tm.pdf

FQB6N40CTM
FQB6N40CTM

September 2000TMQFETFQB6N80 / FQI6N80800V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 5.8A, 800V, RDS(on) = 1.95 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 31 nC)planar stripe, DMOS technology. Low Crss ( typical 14 pF)This advanced technology has been especi

 9.8. Size:797K  fairchild semi
fqb6n70tm.pdf

FQB6N40CTM
FQB6N40CTM

April 2000TMQFETQFETQFETQFETFQB6N70 / FQI6N70700V N-ChanneI MOSFETGeneraI Description FeaturesThese N-Channel enhancement mode power field effect 6.2A, 700V, RDS(on) = 1.5 @ VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 30 nC)planar stripe, DMOS technology. Low Crss ( typical 15 pF)This advanced technolog

 9.9. Size:721K  fairchild semi
fqb6n50 fqi6n50tu.pdf

FQB6N40CTM
FQB6N40CTM

April 2000TMQFETQFETQFETQFETFQB6N50 / FQI6N50500V N-ChanneI MOSFETGeneraI Description FeaturesThese N-Channel enhancement mode power field effect 5.5A, 500V, RDS(on) = 1.3 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 17 nC)planar stripe, DMOS technology. Low Crss ( typical 11 pF)This advanced technology

Datasheet: FQT7N10L , FDP083N15A , FQU10N20C , FDP075N15A , FQU11P06 , FQU12N20 , FDPF085N10A , FQU13N06L , IRF640 , FDB86102LZ , FQU17P06 , FQU1N60C , FDP085N10A , FQU20N06L , FQU2N100 , FQU2N60C , FDMC8030 .

 

 
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