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A high-precision measurement tool or gadget is the chromatic confocal sensor, often known as a confocal displacement sensor or confocal distance sensor.
In order to measure several types of object data, such as displacement, distance, thickness, height, depth, flatness, roughness, profile, radius, porosity, vibration, etc., chromatic lights of various wavelengths are utilized. The industrial sector uses this technology the most.
Seven colors make up white light, a type of natural light, including red, orange, yellow, green, blue, indigo, and violet. Prism analysis of sunlight revealed that white light is a combination of several hues with various wavelengths.
Red, orange, yellow, green, blue, indigo, and violet are the seven color bands that can be created when white light is refracted via a prism. In order to obtain information about the objects, such as displacement, thickness, and flatness, chromatic confocal sensors disperse white light into a range of colored light and measure the wavelength of the reflected light.
After passing through a hole and a lens, a white light beam will be split into various chromatic lights of various wavelengths. These lights will have various optical axes in their points of focus. Any light shined on the object’s surface will reflect back. A spectroscopic component will be reached by all reflected lights.
The lights will be directed to the outside of the spectrum analyzer’s hole if they are not irradiated at the optical axis/object surface intersection point. They won’t impede the measurement in any way.
The Global chromatic confocal sensor market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Hyper Sen, a pioneer in chromatic confocal sensor technology, introduces the HPS-LCX1000 Coaxial 3D Line Confocal Sensor to the global measurement and inspection industry.
The measurement and flaw detection issues in the industries of semiconductors, consumer electronics, new energy, metal, automobiles, and aviation can be effectively solved by this sensor, which delivers a high degree of precision (0.1 m) 3D inspection.
In terms of lateral resolution (1.1 m) and coaxial structure, HPS-LCX1000 outperforms current line confocal sensors. Coaxial design refers to the overlapping of the incident and reflected rays. As a result, it eliminates the shadowing issue when measuring targets that have holes, steep slopes, and projecting parts.
