Vishay Intertechnology Optocoupler Circuit Outputs 61
| Part | RoHS | Manufacturer | Optoelectronic Type | Mounting Feature | No. of Terminals | Terminal Finish | Configuration | Size | Maximum Dark Current | Maximum Supply Voltage | No. of Functions | Infrared (IR) Range | Maximum Forward Current | No. of Elements | Maximum Supply Current | Nominal Hysteresis Ratio | Nominal Supply Voltage | Packing Method | Maximum Response Time | Sub-Category | Minimum Supply Voltage | Maximum Operating Temperature | Application | Shape | Nominal Response Time | Minimum Operating Temperature | Minimum Collector-emitter Breakdown Voltage | Nominal Current Transfer Ratio | Maximum Isolation Voltage | Maximum Power Dissipation | Nominal Data Rate | Additional Features | Minimum Current Transfer Ratio | JESD-609 Code | Maximum Forward Voltage | Maximum On State Current |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
THROUGH HOLE MOUNT |
Tin (Sn) |
COMPLEX |
5 mm |
1 |
YES |
1.5 mA |
3 V |
Photo ICs |
2.7 V |
85 Cel |
REMOTE CONTROL |
ROUND |
-25 Cel |
CMOS COMPATIBLE |
e3 |
.01 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
THROUGH HOLE MOUNT |
Matte Tin (Sn) |
COMPLEX |
1 |
YES |
1.5 mA |
3 V |
Photo ICs |
2.7 V |
85 Cel |
REMOTE CONTROL |
ROUND |
-25 Cel |
CMOS COMPATIBLE |
e3 |
.01 A |
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|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
Matte Tin (Sn) |
COMPLEX |
5 mm |
1 |
YES |
4.5 V |
85 Cel |
REMOTE CONTROL |
ROUND |
-25 Cel |
CMOS COMPATIBLE |
e3 |
.005 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
Matte Tin (Sn) |
SINGLE |
1 |
.02 A |
1 |
70 Cel |
0 Cel |
5300 V |
1 MBps |
TTL COMPATIBLE |
e3 |
.06 A |
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|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
MATTE TIN |
SINGLE |
1 |
.025 A |
1 |
100 Cel |
-55 Cel |
5300 V |
1 MBps |
TTL COMPATIBLE, UL APPROVED |
e3 |
.008 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
MATTE TIN |
SINGLE |
1 |
.025 A |
1 |
70 Cel |
0 Cel |
5300 V |
1 MBps |
OPEN COLLECTOR, UL APPROVED, TTL COMPATIBLE, VDE APPROVED |
e3 |
.008 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
THROUGH HOLE MOUNT |
Tin (Sn) |
COMPLEX |
5 mm |
1 |
YES |
1.5 mA |
3 V |
Photo ICs |
2.7 V |
85 Cel |
REMOTE CONTROL |
ROUND |
-25 Cel |
CMOS COMPATIBLE |
e3 |
.01 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
THROUGH HOLE MOUNT |
Tin (Sn) |
COMPLEX |
5 mm |
1 |
YES |
1.5 mA |
3 V |
Photo ICs |
2.7 V |
85 Cel |
REMOTE CONTROL |
ROUND |
-25 Cel |
CMOS COMPATIBLE |
e3 |
.01 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
SURFACE MOUNT |
SEPARATE, 2 CHANNELS |
2 |
.015 A |
2 |
Optocoupler - Transistor Outputs |
4.5 V |
100 Cel |
-40 Cel |
4000 V |
.06 W |
10 MBps |
CMOS COMPATIBLE, UL APPROVED |
1.7 V |
.05 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
Matte Tin (Sn) |
SINGLE |
1 |
.025 A |
1 |
70 Cel |
0 Cel |
3000 V |
1 MBps |
TTL COMPATIBLE |
e3 |
.008 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
SURFACE MOUNT |
Matte Tin (Sn) |
SEPARATE, 2 CHANNELS |
2 |
.015 A |
2 |
Optocoupler - Transistor Outputs |
4.5 V |
100 Cel |
-40 Cel |
4000 V |
.06 W |
10 MBps |
CMOS COMPATIBLE, UL APPROVED |
e3 |
1.7 V |
.05 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
Matte Tin (Sn) |
SINGLE |
1 |
.025 A |
1 |
70 Cel |
0 Cel |
3000 V |
1 MBps |
TTL COMPATIBLE |
e3 |
.008 A |
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|
|
Vishay Intertechnology |
LOGIC IC OUTPUT OPTOCOUPLER |
SURFACE MOUNT |
Matte Tin (Sn) |
SINGLE |
1 |
.02 A |
1 |
Optocoupler - Transistor Outputs |
70 Cel |
0 Cel |
3000 V |
.15 W |
TTL COMPATIBLE |
400 % |
e3 |
1.7 V |
.06 A |
An optocoupler is an electronic device that uses an optical sensor to transfer electrical signals between two circuits. The two circuits are physically isolated from each other and are connected only by a beam of light that is emitted by an LED and detected by a photodetector.
The optocoupler circuit output is the electrical signal that is generated by the photodetector in response to the light emitted by the LED. The output signal can be used to control or communicate with the circuit that is connected to the optocoupler.
Optocouplers are commonly used in applications where electrical isolation is required, such as in power supplies, motor control, and medical equipment. The isolation provided by the optocoupler helps to protect sensitive electronic components and circuits from electrical interference and noise.
One of the advantages of using an optocoupler circuit output is that it provides a high level of electrical isolation between two circuits. The isolation helps to prevent electrical noise and interference from affecting the circuit and can improve the overall performance and reliability of the system.