NXP Semiconductors Proximity Sensors 55
| Part | RoHS | Manufacturer | Sensors or Transducers Type | Mounting Feature | No. of Terminals | Output Type | Package Shape or Style | Output Range | Package Body Material | Maximum Supply Voltage | Maximum Output Current | Technology | Screening Level | Input Mode | Body Length/Diameter | Body Width | Power Supplies (V) | Output Circuit Type | Maximum Accuracy (%) | Resistance | Package Equivalence Code | No. of Axes | Sub-Category | Linearity (%) | Body Height | Minimum Supply Voltage | Maximum Operating Temperature | Response Time | Minimum Operating Temperature | Sensitivity (mV/G) | Terminal Finish | Termination Type | Output Interface Type | Output (V) | Maximum Operating Current | Output Polarity | Additional Features | Maximum Measurement Range (mm) | Housing | JESD-609 Code | Minimum Measurement Range (mm) |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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NXP Semiconductors |
PROXIMITY SENSOR,CAPACITIVE |
SURFACE MOUNT |
DIGITAL CURRENT |
RECTANGULAR |
0-20mA |
9 V |
1.16 mm |
.86 inch |
.44 mm |
3 V |
85 Cel |
-40 Cel |
SOLDER |
.005 mA |
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NXP Semiconductors |
PROXIMITY SENSOR,CAPACITIVE |
SURFACE MOUNT |
SQUARE |
1.8 V |
5 mm |
5 inch |
1 mm |
.041 V |
85 Cel |
-40 Cel |
MATTE TIN |
SOLDER |
2-WIRE INTERFACE |
3.6 mA |
e3 |
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|
NXP Semiconductors |
PROXIMITY SENSOR,HALL EFFECT |
ANALOG CURRENT |
ROUND |
1 mm |
6.51 mm |
CABLE |
50 mA |
TTL COMPATIBLE |
1.52 mm |
STAINLESS STEEL |
.12 mm |
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NXP Semiconductors |
PROXIMITY SENSOR,HALL EFFECT |
ANALOG CURRENT |
ROUND |
1 mm |
4.01 mm |
CABLE |
50 mA |
TTL COMPATIBLE |
1.52 mm |
STAINLESS STEEL |
.12 mm |
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|
NXP Semiconductors |
PROXIMITY SENSOR,HALL EFFECT |
ANALOG CURRENT |
ROUND |
1 mm |
5.26 mm |
CABLE |
50 mA |
TTL COMPATIBLE |
1.52 mm |
STAINLESS STEEL |
.12 mm |
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NXP Semiconductors |
PROXIMITY SENSOR,CAPACITIVE |
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NXP Semiconductors |
PROXIMITY SENSOR,CAPACITIVE |
Proximity sensors are electronic sensors that are used to detect the presence or absence of an object in close proximity to the sensor. They work by detecting changes in the electromagnetic field around the sensor caused by the presence of an object. Proximity sensors are widely used in a variety of applications, such as industrial control systems, robotics, automotive, and consumer electronics.
There are several types of proximity sensors, including inductive sensors, capacitive sensors, magnetic sensors, and ultrasonic sensors. Inductive sensors use electromagnetic induction to detect metallic objects, while capacitive sensors use changes in capacitance to detect non-metallic objects. Magnetic sensors use changes in magnetic fields to detect metallic objects, and ultrasonic sensors use sound waves to detect objects.
Proximity sensors offer several advantages over other types of sensors. They are highly reliable and can operate in harsh environments and extreme temperatures. They are also non-contact sensors, which means they can detect objects without physical contact with the object being measured. Additionally, they can be used to detect objects of different shapes and sizes, making them highly versatile.
However, proximity sensors also have some limitations, such as limited range of operation and sensitivity to external disturbances. They can also be affected by the material composition and surface texture of the object being detected.