24-34mA Rotary Position Sensors 4
| 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 | Excitation Frequency | Minimum Measurement Range (Degrees) | Body Length/Diameter | Body Width | Power Supplies (V) | Output Circuit Type | Maximum Accuracy (%) | Package Equivalence Code | Sub-Category | Linearity (%) | Body Height | Maximum Measurement Range (Degrees) | Minimum Supply Voltage | Maximum Operating Temperature | Resistance (Total) | Response Time | Resistance Tolerance | Phase Shift | Minimum Operating Temperature | Terminal Finish | Termination Type | Output Interface Type | Output (V) | Maximum Operating Current | Additional Features | Housing | JESD-609 Code | Operating Frequency |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
Allegro MicroSystems |
ROTARY POSITION SENSOR,HALL EFFECT |
SURFACE MOUNT |
DIGITAL CURRENT |
RECTANGULAR |
24-34mA |
5.5 V |
0 deg |
4.4 mm |
3 inch |
1.1 mm |
360 deg |
4.5 V |
150 Cel |
-40 Cel |
SOLDER |
AEC-Q100 |
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|
|
Allegro MicroSystems |
ROTARY POSITION SENSOR,HALL EFFECT |
SURFACE MOUNT |
ANALOG CURRENT |
RECTANGULAR |
24-34mA |
5.5 V |
0 deg |
4.4 mm |
3 inch |
1.1 mm |
360 deg |
4.5 V |
150 Cel |
-40 Cel |
SOLDER |
AEC-Q100 |
|||||||||||||||||||||||
|
|
Allegro MicroSystems |
ROTARY POSITION SENSOR,HALL EFFECT |
SURFACE MOUNT |
ANALOG CURRENT |
RECTANGULAR |
24-34mA |
5.5 V |
0 deg |
4.4 mm |
3 inch |
1.1 mm |
360 deg |
4.5 V |
150 Cel |
-40 Cel |
SOLDER |
15 mA |
AEC-Q100 |
||||||||||||||||||||||
|
|
Allegro MicroSystems |
ROTARY POSITION SENSOR,HALL EFFECT |
SURFACE MOUNT |
DIGITAL CURRENT |
RECTANGULAR |
24-34mA |
5.5 V |
0 deg |
4.4 mm |
3 inch |
1.1 mm |
360 deg |
4.5 V |
150 Cel |
-40 Cel |
SOLDER |
10 mA |
AEC-Q100 |
Rotary position sensors are electronic devices that are used to measure the rotational position of a shaft or object. They are commonly used in industrial automation, automotive, and robotics applications.
Rotary position sensors typically consist of a sensing element, such as a potentiometer or encoder, and a signal processing circuit that converts the position measurement into a usable electrical signal. The sensing element measures the rotational position of the shaft or object and generates an electrical signal proportional to the position.
There are two main types of rotary position sensors: absolute and incremental. Absolute sensors provide an output signal that represents the absolute position of the shaft, while incremental sensors provide an output signal that represents the change in position from a reference point.
Rotary position sensors offer several advantages over other types of sensors. They provide accurate and precise measurements of rotational position, which can be used for control and monitoring purposes. They are also highly reliable and can operate in harsh environments and extreme temperatures.
However, rotary position sensors also have some limitations, such as susceptibility to wear and tear over time and limited range of operation.