Sharp Corporation Phototransistors 6
| Part | RoHS | Manufacturer | Optoelectronic Type | Mounting Feature | Terminal Finish | Configuration | Size | Maximum Dark Current | No. of Functions | Infrared (IR) Range | Peak Wavelength (nm) | Nominal Supply Voltage | Packing Method | Maximum Response Time | Sub-Category | Maximum Operating Temperature | Shape | Minimum Operating Temperature | Minimum Collector-emitter Breakdown Voltage | Maximum Power Dissipation | Additional Features | Nominal Light Current | JESD-609 Code | Maximum On State Current |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
Sharp Corporation |
PHOTO TRANSISTOR |
Gold (Au) |
SINGLE |
1.6 mm |
100 nA |
1 |
YES |
910 |
85 Cel |
ROUND |
-30 Cel |
35 V |
1.15 mA |
e4 |
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|
|
Sharp Corporation |
PHOTO DARLINGTON |
Tin/Silver/Copper (Sn/Ag/Cu) |
SINGLE |
1.6 mm |
1000 nA |
1 |
YES |
800 |
85 Cel |
ROUND |
-25 Cel |
35 V |
SIDE VIEW |
10 mA |
e1 |
||||||||
|
|
Sharp Corporation |
PHOTO DARLINGTON |
Tin/Silver/Copper (Sn/Ag/Cu) |
SINGLE |
1.6 mm |
1000 nA |
1 |
YES |
860 |
85 Cel |
ROUND |
-25 Cel |
35 V |
SIDE VIEW |
.9 mA |
e1 |
||||||||
|
|
Sharp Corporation |
PHOTO TRANSISTOR |
Gold (Au) |
SINGLE |
1.6 mm |
100 nA |
1 |
YES |
910 |
85 Cel |
ROUND |
-30 Cel |
35 V |
2 mA |
e4 |
|||||||||
|
Sharp Corporation |
PHOTO TRANSISTOR |
Tin/Lead (Sn/Pb) |
SINGLE |
1.6 mm |
100 nA |
1 |
YES |
800 |
85 Cel |
ROUND |
-25 Cel |
35 V |
DOUBLE-END |
.95 mA |
e0 |
|||||||||
|
|
Sharp Corporation |
PHOTO TRANSISTOR |
Tin/Silver/Copper (Sn/Ag/Cu) |
SINGLE |
1.6 mm |
100 nA |
1 |
YES |
860 |
85 Cel |
ROUND |
-25 Cel |
35 V |
SIDE VIEW |
.8 mA |
e1 |
A phototransistor is an electronic component that uses light to control the flow of electrical current. It is a type of bipolar transistor that is designed to respond to the presence of light by amplifying the current flowing through it. Phototransistors are widely used in a variety of applications, including in optical communication systems, photodetectors, and motion detectors.
Phototransistors work by using light to generate a flow of electrons that controls the flow of current through the transistor. When light hits the phototransistor, it causes electrons to be released, which flow through the transistor and control the current flowing through it. The current flowing through the transistor can be amplified and used to control other components in a circuit.