Optical Encoders
| Part | RoHS | Manufacturer | Optoelectronic Type | Mounting Feature | Terminal Finish | Maximum On State Voltage | Configuration | Maximum Supply Voltage | No. of Functions | No. of Elements | Peak Wavelength (nm) | Packing Method | Output Circuit Type | Maximum Response Time | Sub-Category | Maximum Operating Temperature | Minimum Operating Temperature | Additional Features | JESD-609 Code | Gap Size | Maximum On State Current |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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Bourns |
ROTARY POSITION ENCODER |
TIN |
SINGLE, 2 CHANNELS |
1 |
70 Cel |
-40 Cel |
e3 |
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Bourns |
ROTARY POSITION ENCODER |
TIN |
SINGLE, 2 CHANNELS |
1 |
70 Cel |
-40 Cel |
e3 |
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Bourns |
ROTARY POSITION ENCODER |
PANEL MOUNT |
TIN |
SINGLE |
3.63 V |
1 |
125 Cel |
-40 Cel |
e3 |
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Bourns |
ROTARY POSITION ENCODER |
PANEL MOUNT |
TIN |
SINGLE |
3.63 V |
1 |
125 Cel |
-40 Cel |
CMOS AND TTL COMPATIBLE |
e3 |
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Bourns |
ROTARY POSITION ENCODER |
THROUGH HOLE MOUNT |
TIN |
SINGLE, 2 CHANNELS |
5 V |
1 |
75 Cel |
-40 Cel |
e3 |
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Bourns |
ROTARY POSITION ENCODER |
THROUGH HOLE MOUNT |
TIN |
SINGLE, 2 CHANNELS |
5 V |
1 |
75 Cel |
-40 Cel |
e3 |
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|
Bourns |
ROTARY POSITION ENCODER |
THROUGH HOLE MOUNT |
TIN |
SINGLE, 2 CHANNELS |
5 V |
1 |
75 Cel |
-40 Cel |
e3 |
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|
Bourns |
ROTARY POSITION ENCODER |
SINGLE, 2 CHANNELS |
1 |
70 Cel |
-10 Cel |
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Bourns |
ROTARY POSITION ENCODER |
TIN SILVER COPPER |
e1 |
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|
Bourns |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-40 Cel |
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Bourns |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-40 Cel |
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|
Bourns |
ROTARY POSITION ENCODER |
SINGLE, 2 CHANNELS |
1 |
70 Cel |
-30 Cel |
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Bourns |
ROTARY POSITION ENCODER |
SINGLE, 2 CHANNELS |
1 |
70 Cel |
-10 Cel |
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|
Texas Instruments |
THROUGH HOLE MOUNT |
250 V |
Optical Position Encoders |
100 Cel |
-60 Cel |
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Analog Devices |
ROTARY POSITION ENCODER |
Matte Tin (Sn) - annealed |
85 Cel |
-40 Cel |
e3 |
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|
Infineon Technologies |
ROTARY POSITION ENCODER |
THROUGH HOLE MOUNT |
18 V |
SINGLE, 2 CHANNELS |
1 |
Photodiode |
.0000003 s |
85 Cel |
-20 Cel |
3.2 mm |
.016 A |
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Omron |
ROTARY POSITION ENCODER |
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|
Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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|
Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
12 V |
1 |
55 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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|
Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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|
Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
1 |
70 Cel |
-10 Cel |
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|
Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE |
12 V |
1 |
55 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
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|
Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
24 V |
1 |
70 Cel |
-10 Cel |
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|
Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
12 V |
1 |
55 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
12 V |
1 |
55 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
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|
Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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Omron |
ROTARY POSITION ENCODER |
1 |
70 Cel |
-10 Cel |
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|
Omron |
ROTARY POSITION ENCODER |
CHASSIS MOUNT |
SINGLE, 3 CHANNELS |
1 |
70 Cel |
-10 Cel |
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Omron |
ROTARY POSITION ENCODER |
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|
Omron |
ROTARY POSITION ENCODER |
Optical encoders are electronic devices that convert rotary or linear motion into digital signals. They are commonly used in a wide range of applications, including industrial automation, robotics, and computer peripherals.
Optical encoders consist of a light source, a sensing element, and a rotating or linear scale. The light source, typically an LED or laser, emits light onto the scale, and the sensing element, typically a photodiode or phototransistor, detects the light reflected back from the scale. The sensing element generates a signal based on the amount of light detected, which is then processed by an electronic circuit to produce a digital output signal.
Optical encoders can be categorized into two types based on their operating principle: incremental and absolute. Incremental encoders generate a series of digital pulses that correspond to the relative position of the encoder, while absolute encoders generate a unique digital code that corresponds to the absolute position of the encoder.