Справочник MOSFET. APM9928

 

APM9928 MOSFET - описание производителя. Даташиты. Основные параметры и характеристики. Поиск аналога. Справочник


   Наименование прибора: APM9928
   Тип транзистора: MOSFET
   Полярность: NP
   Pdⓘ - Максимальная рассеиваемая мощность: 2.5 W
   |Vds|ⓘ - Предельно допустимое напряжение сток-исток: 20 V
   |Vgs|ⓘ - Предельно допустимое напряжение затвор-исток: 16 V
   |Vgs(th)|ⓘ - Пороговое напряжение включения: 1.5 V
   |Id|ⓘ - Максимально допустимый постоянный ток стока: 5(3.2) A
   Tjⓘ - Максимальная температура канала: 150 °C
   Qgⓘ - Общий заряд затвора: 3.9 nC
   Rdsⓘ - Сопротивление сток-исток открытого транзистора: 0.045(0.06) Ohm
   Тип корпуса: SO8

 Аналог (замена) для APM9928

 

 

APM9928 Datasheet (PDF)

 ..1. Size:338K  anpec
apm9928.pdf

APM9928
APM9928

APM9928Dual Enhancement Mode MOSFET (N-and P-Channel)Features Pin Description N-Channel5 & , 20V/5A , RDS(ON)=35m(typ.) @ VGS=4.5V/ % , RDS(ON)=50m(typ.) @ VGS=3.0V 5 ! $ , / " # , P-Channel-20V/-3.2A , RDS(ON)=80m(typ.) @ VGS=-4.5VSO-8RDS(ON)=120m(typ.) @ VGS=-3.0V Super High Dense Cell Design for Extremely LowD1 D1 S2RDS

 0.1. Size:319K  anpec
apm9928k.pdf

APM9928
APM9928

APM9928Dual Enhancement Mode MOSFET (N-and P-Channel)Features Pin Description N-Channel5 & , 20V/5A , RDS(ON)=35m(typ.) @ VGS=4.5V/ % , RDS(ON)=50m(typ.) @ VGS=3.0V 5 ! $ , / " # , P-Channel-20V/-3.2A , RDS(ON)=80m(typ.) @ VGS=-4.5VSO-8RDS(ON)=120m(typ.) @ VGS=-3.0V Super High Dense Cell Design for Extremely LowD1 D1 S2RDS

 8.1. Size:165K  anpec
apm9926c.pdf

APM9928
APM9928

APM9926/CN-Channel Enhancement Mode MOSFETFeatures Applications 20V/6A , RDS(ON)=28m(typ.) @ VGS=4.5V Power Management in Notebook Computer ,RDS(ON)=38m(typ.) @ VGS=2.5V Portable Equipment and Battery PoweredSystems. Super High Dense Cell Design for ExtremelyLow RDS(ON) Reliable and Rugged SO-8 and TSSOP-8 Packages

 8.2. Size:203K  anpec
apm9926ak.pdf

APM9928
APM9928

APM9926AKDual N-Channel Enhancement Mode MOSFETFeatures Pin Description 20V/6A,RDS(ON) =28m (typ.) @ VGS =4.5VRDS(ON) =34m (typ.) @ VGS =2.5V Super High Dense Cell Design Reliable and RuggedTop View of SOP - 8 Lead Free Available (RoHS Compliant)(8) (7) (6) (5)D1 D1D2 D2Applications Power Management in Portable Equipment andBattery Powered Systems (2) (4)G1

 8.3. Size:212K  anpec
apm9926ccg.pdf

APM9928
APM9928

APM9926CCGDual N-Channel Enhancement Mode MOSFETFeatures Pin Description8 20V/5A , RDS(ON)=25m(typ.) @ VGS=4.5V765 RDS(ON)=34m(typ.) @ VGS=2.5V12 Super High Dense Cell Design34 Reliable and Rugged Lead Free Available (RoHS Compliant)(8) (7) (6) (5)D1 D1D2 D2Applications Power Management in Notebook Computer, Por-table Equipment and Battery Powe

 8.4. Size:128K  anpec
apm9922k.pdf

APM9928
APM9928

APM9922KDual N-Channel Enhancement Mode MOSFETFeatures Pin Description 20V/6A, RDS(ON) =28m(typ.) @ VGS =4.5V RDS(ON) =34m(typ.) @ VGS =2.5V Super High Dense Cell Design Reliable and RuggedTop View of SOP - 8 Lead Free Available (RoHS Compliant)(8) (7) (6) (5)D1 D1D2 D2Applications Power Management in Notebook Computer, Portable Equipment and B

 8.5. Size:204K  anpec
apm9926k.pdf

APM9928
APM9928

APM9926KDual N-Channel Enhancement Mode MOSFETFeatures Pin Description 20V/6A,RDS(ON) =28m (typ.) @ VGS = 4.5VRDS(ON) =38m (typ.) @ VGS = 2.5V Super High Dense Cell Design Reliable and RuggedTop View of SOP - 8 Lead Free Available (RoHS Compliant)(8) (7) (6) (5)D1 D1 D2 D2Applications(2) (4) Power Management in Notebook Computer,G1 G2Portable Equipment and

 8.6. Size:180K  anpec
apm9926.pdf

APM9928
APM9928

APM9926/CN-Channel Enhancement Mode MOSFETFeatures Applications 20V/6A , RDS(ON)=28m(typ.) @ VGS=4.5V Power Management in Notebook Computer ,RDS(ON)=38m(typ.) @ VGS=2.5V Portable Equipment and Battery PoweredSystems. Super High Dense Cell Design for ExtremelyLow RDS(ON) Reliable and Rugged SO-8 and TSSOP-8 Packages

Другие MOSFET... IRFP360LC , IRFP3710 , IRFP430 , IRFP431 , IRFP432 , IRFP433 , IRFP440 , IRFP440A , IRFP250 , IRFP442 , IRFP443 , IRFP448 , IRFP450 , IRFP450A , IRFP450FI , IRFP450LC , IRFP451 .

 

 
Back to Top