M30 Non-Flush Inductive proximity Sensor

 M30 Non-Flush Inductive proximity Sensor

       The M30 non-flush inductive proximity sensor is a type of sensor that detects the presence or absence of metal objects without physical contact. The "M30" designation typically refers to the sensor's size or form factor, which is larger than the M18 variety and often suitable for applications where a larger sensing area or longer sensing range is required.

      The non-flush design of this sensor means that its sensing face protrudes from the mounting surface, allowing it to detect objects that are not directly adjacent to the mounting surface. This feature provides greater flexibility in installation and positioning, enabling the sensor to be used in a variety of orientations and environments.

         Inductive proximity sensors, including the M30 non-flush version, operate by generating a magnetic field around their sensing face. When a metal object enters this field, it disrupts the magnetic flux, causing a change in the sensor's electrical properties. This change is detected and converted into a signal that can be used by a control system to trigger various actions or responses.

        The M30 non-flush inductive proximity sensor is commonly used in industrial automation, robotics, and manufacturing applications where precise and reliable detection of metal objects is crucial. It can be used to detect the presence of parts, tools, or other metal components in machines or assembly lines, triggering actions such as conveyor belt movements, machine cycle changes, or safety shutdowns.

       Specific features and performance characteristics of the M30 non-flush inductive proximity sensor will depend on the manufacturer and model. Key parameters to consider include the sensor's operating range (the distance at which it can detect metal objects), response time (how quickly it can detect changes), environmental ratings (such as temperature and humidity tolerance), and electrical specifications (like voltage and current requirements). It is important to consult the manufacturer's documentation or specifications to ensure that the sensor meets the requirements of your specific application.





product link:https://www.kjt-sensors.com/show-98.html

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