Part number:
2SJ277
Manufacturer:
Sanyo Semicon Device
File Size:
95.01 KB
Description:
P-channel mosfet.
* Low ON resistance.
* Ultrahigh-speed switching.
* Low-voltage drive.
* Surface mount type device making the following possible.
* Reduction in the number of manufacturing pro- cesses for 2SJ277-applied equipment.
* High density surface mount applications.
* Small size o
2SJ277
Sanyo Semicon Device
95.01 KB
P-channel mosfet.
📁 Related Datasheet
2SJ271 - P-Channel Silicon MOSFET
(Sanyo Semicon Device)
2SJ271
P- Channel Silicon MOS FET
Very High-Speed Switching Applications
Features and Applications
• Low ON-state resistance. • Very high-speed switc.
2SJ272 - P-Channel MOSFET
(Sanyo Semicon Device)
Ordering number:EN4238
P-Channel Silicon MOSFET
2SJ272
Ultrahigh-Speed Switching Applications
Features
· Low ON resistance. · Ultrahigh-speed switch.
2SJ273 - P-Channel MOSFET
(Sanyo Semicon Device)
Ordering number:EN4748
P-Channel Silicon MOSFET
2SJ273
Ultrahigh-Speed Switching Applications
Features
· Low ON resistance. · Ultrahigh-speed switch.
2SJ274 - P-Channel MOSFET
(Sanyo Semicon Device)
Ordering number:EN4239
P-Channel Silicon MOSFET
2SJ274
Ultrahigh-Speed Switching Applications
Features
· Low ON resistance. · Ultrahigh-speed switch.
2SJ274 - P-Channel MOSFET Transistor
(Inchange Semiconductor)
isc P-Channel MOSFET Transistor
DESCRIPTION ·Low Drain-Source ON Resistance ·High Forward Transfer Admittance ·Low Leakage Current ·Enhancement-Mode .
2SJ275 - P-Channel MOSFET
(Sanyo Semicon Device)
Ordering number:EN4240
P-Channel Silicon MOSFET
2SJ275
Ultrahigh-Speed Switching Applications
Features
· Low ON resistance. · Ultrahigh-speed switch.
2SJ276 - P-Channel MOSFET
(Sanyo Semicon Device)
Ordering number:EN4749
P-Channel Silicon MOSFET
2SJ276
Ultrahigh-Speed Switching Applications
Features
· Low ON resistance. · Ultrahigh-speed switch.
2SJ278 - P-Channel MOSFET
(Hitachi Semiconductor)
2SJ278
Silicon P-Channel MOS FET
Application
High speed power switching
Features
• • • • • Low on-resistance High speed switching Low drive current .
