December 2000TMQFETQFETQFETQFETFQP9N0880V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 9.3A, 80V, RDS(on) = 0.21 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 5.9 nC)planar stripe, DMOS technology. Low Crss ( typical 13 pF)This advanced technology is especi

December 2000TMQFETQFETQFETQFETFQP9N08L80V LOGIC N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 9.3A, 80V, RDS(on) = 0.21 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 4.7 nC)planar stripe, DMOS technology. Low Crss ( typical 16 pF)This advanced technology is

April 2014FQP9N50CN-Channel QFET MOSFET500 V, 9 A, 800 m DescriptionFeaturesThese N-Channel enhancement mode power field effect 9 A, 500 V, RDS(on) = 800 m (Max.) @ VGS = 10 V,transistors are produced using Fairchild s proprietary, ID = 4.5 Aplanar stripe, DMOS technology. This advanced Low Gate Charge (Typ. 28 nC)technology has been especially tailored to minim

May 2000TMQFETQFETQFETQFET 150V N-ChanneI MOSFETGeneraI Description FeaturesThese N-Channel enhancement mode power field effect 9.0A, 150V, RDS(on) = 0.4 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 10 nC)planar stripe, DMOS technology. Low Crss ( typical 17 pF)This advanced technology has been espe

QFETFQP9N25C/FQPF9N25C250V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 8.8A, 250V, RDS(on) = 0.43 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 26.5 nC)planar stripe, DMOS technology. Low Crss ( typical 45.5 pF)This advanced technology has been especially tailor

April 2000TMQFETQFETQFETQFET 500V N-ChanneI MOSFETGeneraI Description FeaturesThese N-Channel enhancement mode power field effect 9.0A, 500V, RDS(on) = 0.73 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 28 nC)planar stripe, DMOS technology. Low Crss ( typical 20 pF)This advanced technology has been e

QFETFQP9N25C/FQPF9N25C250V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 8.8A, 250V, RDS(on) = 0.43 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 26.5 nC)planar stripe, DMOS technology. Low Crss ( typical 45.5 pF)This advanced technology has been especially tailor

TMQFETFQP9N50C/FQPF9N50C500V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 9 A, 500V, RDS(on) = 0.8 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 28 nC)planar stripe, DMOS technology. Low Crss ( typical 24 pF)This advanced technology has been especially tailored to

TMQFETFQP9N90C/FQPF9N90C900V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 8.0 A, 900V, RDS(on) = 1.4 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 45nC)planar stripe, DMOS technology. Low Crss ( typical 14pF)This advanced technology has been especially tailored to

May 2000TMQFETQFETQFETQFETFQP9N30300V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 9.0A, 300V, RDS(on) = 0.45 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 17 nC)planar stripe, DMOS technology. Low Crss ( typical 16 pF)This advanced technology has been espe

QFETFQP9N25C/FQPF9N25C250V N-Channel MOSFETGeneral Description FeaturesThese N-Channel enhancement mode power field effect 8.8A, 250V, RDS(on) = 0.43 @VGS = 10 Vtransistors are produced using Fairchilds proprietary, Low gate charge ( typical 26.5 nC)planar stripe, DMOS technology. Low Crss ( typical 45.5 pF)This advanced technology has been especially tailor

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