The E2A3-M18KS11-M1-C2 OMC belongs to the category of photoelectric sensors and is commonly used for detecting the presence or absence of an object. These sensors are known for their high precision and reliability, making them suitable for a wide range of industrial applications. The E2A3-M18KS11-M1-C2 OMC features a compact design, high sensitivity, and is available in various packaging options.
The E2A3-M18KS11-M1-C2 OMC features a standard pin configuration with detailed specifications for each pin as follows: - Pin 1: Vcc (Power supply input) - Pin 2: GND (Ground) - Pin 3: Output (NPN output)
The E2A3-M18KS11-M1-C2 OMC operates based on the through-beam sensing method, where the transmitter and receiver are placed opposite to each other. When an object passes between the transmitter and receiver, it interrupts the light beam, triggering the sensor's output.
The E2A3-M18KS11-M1-C2 OMC is widely used in industrial automation systems for tasks such as conveyor belt monitoring, material handling, and packaging applications. Additionally, it finds application in assembly lines for part detection and positioning.
In conclusion, the E2A3-M18KS11-M1-C2 OMC photoelectric sensor offers high precision and reliability, making it a valuable component in industrial automation and object detection systems.
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What is the E2A3-M18KS11-M1-C2 OMC used for?
What is the operating voltage range of the E2A3-M18KS11-M1-C2 OMC?
What is the sensing distance of the E2A3-M18KS11-M1-C2 OMC?
Can the E2A3-M18KS11-M1-C2 OMC be used in harsh environments?
What output does the E2A3-M18KS11-M1-C2 OMC provide?
Is the E2A3-M18KS11-M1-C2 OMC suitable for use in high-speed applications?
Does the E2A3-M18KS11-M1-C2 OMC require calibration?
Can the E2A3-M18KS11-M1-C2 OMC be used in conjunction with PLCs or microcontrollers?
What are the typical applications of the E2A3-M18KS11-M1-C2 OMC?
Is the E2A3-M18KS11-M1-C2 OMC resistant to electromagnetic interference (EMI)?