BFR 28-17P is a type of sensor working on Hall-Effect technology and is usually used in multiple industrial applications. This sensor can measure distances up to 175 mm (0.7 inches). It is a type of non-contact proximity sensor with a very high resolution and a relatively short response time. Due to its low power consumption and broad operating range, it is used in a wide variety of applications.

Applications of BFR 28-17P

The BFR 28-17P can be used for automatic recognition and adjustment of machine parts. It can also be used for door and window detection, motion detection, and static and dynamic measurement tasks. This device is ideal for automotive applications such as monitoring engine systems, door switches, airbag triggers, and ABS control. It can also be utilized for robot and computer automation.

Working Principle of BFR 28-17P

BFR 28-17P is a type of Hall-effect sensor that uses electromechanical Hall-effect principle for its operation. It uses a magnetic field created by a magnet or a material with substantial magnetic characteristics, to generate a voltage that can be used to measure the distance between the device and its target. The device consists of a Hall sensor at its core. This sensor is wired to an external circuit where it captures the generated voltage and sends it to an output terminal.

When the magnet or any other material with significant magnetic field is placed near the BFR 28-17P, the Hall sensor captures the magnetic flux. The voltage is generated across the Hall-effect device. The generated voltage across the Hall sensor is proportional to the strength of the magnetic field. This voltage is then processed and sent to the output terminal, where it triggers a signal. This signal can be used for various applications.

Advantages of BFR 28-17P

The BFR 28-17P has several advantages over conventional contacting sensors. First, it can measure up to 175 mm (0.7 inches) accurately. Secondly, it has a low power consumption. The device has a high resolution and a short response time. Additionally, it provides a stable measurement range and accuracy. Moreover, it is very easy to install and does not require any moving parts. Finally, it is cost effective and durable.

Conclusion

In conclusion, the BFR 28-17P is a specialized Hall-effect sensor that uses non-contact technology for measuring distances up to 175 mm (0.7 inches). It can be utilized for various applications such as automotive systems, robot automation, and door and window detection. The BFR 28-17P has several advantages, including high resolution, low power consumption, and a short response time. In addition, it is cost effective and reliable.