85UVF1A-1QDK3  85UVF-IRF Flame Scanners

Description

Overview

Essential details：85UVF1A-1QDK3  85UVF-IRF Flame Scanners

85UVF1A-1QDK3 85UVF-IRF Flame scanner is a microprocessor-based device that utilizes a solid-state flame detection sensor for flame scanning. The device has the ability to automatically set the on/off threshold, eliminating the need for a remote flame amplifier or flame.

85UVF1A-1QDK3 85UVF-IRF flame scanner probe is divided into two kinds, one is Phoenix 85UVF self-test probe, can detect 295-340nm wavelength of ultraviolet light; The other is the Phoenix 85IRF self-test probe, which can detect infrared at wavelengths of 830-1100nm. These probes are suitable for a variety of applications, such as flue burners, industrial gas burners, refining equipment, low-nox inspection systems, and burners in continuous and non-continuous operation.

When using 85UVF1A-1QDK3 85UVF-IRF flame scanner, it is necessary to select and configure according to the specific application scenario and circuit design. At the same time, it is also necessary to pay attention to the correct installation and use method to ensure its normal work and extend its service life.

In short, 85UVF1A-1QDK3 85UVF-IRF flame scanner is an important flame scanning equipment, widely used in various industrial fields, can ensure the stability and reliability of the flame, improve the performance and stability of the system.

85UVF1A-1QD

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85UVF1A-1QDK3  85UVF-IRF Flame Scanners

The principle of the flame scanner is to use the scattering effect of light. When the flame burns in the sampling head, the hot air and particles in the flame will disturb the propagation path of the light, and the intensity of the light detected through the photosensitive detector will change. The optical lens of the flame scanner will focus this scattered light on the photosensitive detector and offset the background light signal, thereby improving the sensitivity of flame detection.

In addition, the flame scanner can also detect flames through infrared or ultraviolet detectors. The infrared principle is based on the thermal radiation of the flame, while the ultraviolet principle is based on the ultraviolet wavelength of the flame when burning. These detectors convert the detected signal into an electrical signal, which is then processed and output by a processing circuit to realize the detection and control of the flame.

In short, the principle of the flame scanner is to use the light scattering effect and infrared or ultraviolet detection technology to achieve accurate detection and control of the flame.