Part number:
NTE3041
Manufacturer:
NTE
File Size:
24.02 KB
Description:
Optoisolator npn transistor.
* D High Current Transfer Ratio: 100% Min @ Spec Conditions D Guaranteed Switching Speeds Applications: D General Purpose Switching Circuits D Interfacing and Coupling Systems of Different Potentials and Impedances D Regulation Feedback Circuits D Monitor & Detection Circuits D Solid State Relays Abs
NTE3041
NTE
24.02 KB
Optoisolator npn transistor.
📁 Related Datasheet
NTE3040 - Optoisolator NPN Transistor
(NTE)
NTE3040
Optoisolator NPN Transistor Output
Description: The NTE3040 is a gallium arsenide, infrared emitting diode in a 6–Lead DIP type package couple.
NTE3042 - Optoisolator NPN Transistor
(NTE)
NTE3042 Optoisolator NPN Transistor Output
Description: The NTE3042 is an optically coupled isolator consisting of a Gallium Arsenide infrared emittin.
NTE3043 - Optoisolator NPN Transistor
(NTE)
NTE3043 Optoisolator NPN Transistor Output
Description: The NTE3043 is an optically coupled isolator consisting of a Gallium Arsenide infrared emittin.
NTE3044 - Optoisolator NPN Darlington Transistor
(NTE)
NTE3044 Optoisolator NPN Darlington Transistor Output
Description: The NTE3044 consists of a gallium arsenide infrared emitting diode optically couple.
NTE3045 - Optoisolator Silicon NPN Darlington Phototransistor
(NTE)
NTE3045 Optoisolator Silicon NPN Darlington Phototransistor Output
Description: The NTE3045 is a gallium arsenide LED optically coupled to a Silicon P.
NTE3046 - Optoisolator SCR Photothyristor
(NTE)
NTE3046 Optoisolator SCR Photothyristor Output
Description: The NTE3046 consists of a photo SCR coupled to a gallium arsenide infrared diode in a 6–Le.
NTE3047 - Optoisolator TRIAC Driver
(NTE)
NTE3047 Optoisolator TRIAC Driver Output
Description: The NTE3047 optoisolator consists of a gallium arsenide infrared emitting diode, optically coupl.
NTE3048 - Optoisolator TRIAC Driver
(NTE)
NTE3048 Optoisolator TRIAC Driver Output
Description: The NTE3048 consists of a gallium arsenide infrared emitting diode optically coupled to a silico.