Bonner Optoelectronic Sensor Technology and Applications

NegotiableUpdate on 05/23

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Nature of the Manufacturer: Producers

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Overview

Bonner Optoelectronic Sensor Technology and Applications $r $n has models with IO Link communication, which simplifies wiring, installation, and maintenance, making it easy to backup sensors $r $n in mechanically and electronically adjustable areas. $r $n ignores objects in the background, with a cutoff distance between 18mm and 150mm $r $n and a high-power transmitter with high excess gain, which can detect dark and tricky targets $r $n

Product Details

Bonner Optoelectronic Sensor Technology and Applications

Reflective plate sensors integrate the transmitter and receiver components into the same housing. It uses a reflector to bounce the emitted light back to the receiver. Similar to the shooting mode sensor, it senses an object when it blocks or "interrupts" the effective beam of light. Due to the beam interruption mode of reflective plate sensing, it is usually independent of the reflectivity of the detected object.

Excess gain measures the amount of light energy detected by the receiving element. The sensor can only "turn on" or "turn off" the output when the excessive increment reaches 1. However, detecting pollutants in the environment such as dirt, dust, smoke, and moisture can cause signal attenuation, so higher excess gain is required to receive effective signals. Excessive gain can be seen as additional detection energy used to overcome this attenuation.

Reliable detection range, up to 25 millimeters and as far as 610 millimeters

Detect various target colors, materials, and surfaces based on distance

Dual teaching mode (intensity+distance) is an ideal choice for error prevention applications, which can achieve transparent object detection without the need for reflective plates

Durable FD stainless steel casing with a protection level of IP69K

Use the response button for easy setup

Photoelectric sensors are usually unable to detect water because water is transparent to visible spectrum light. Fortunately, water can effectively absorb a specific wavelength of 1450 nanometers, making it detectable. Some sensors in Bonner use long wave infrared (LIR) LEDs with a wavelength of 1450 nanometers to detect liquids containing water, while ignoring transparent or opaque containers.

The anti crosstalk algorithm used can avoid crosstalk when installing multiple sensors. Visible light LEDs help align and set sensors, as visible light beams will form light spots on the target. Red light is a common beam color in photoelectric sensors because the manufacturing cost of red diodes is low, and the photodetector in the receiver is very sensitive to red light.

Bonner Optoelectronic Sensor Technology and Applications