Dark Field DFL100-7.5
Dark Field DFL100-7.5
LUDRE DARK FIELD MACHINE VISION IMAGE PROCESSING LIGHT
TECHNICAL SPECIFICATIONS
Lighting Color: 6000K, Green
Illumination Angle: 25°
Illumination Tilt: 7.5°
Number of LEDs: 140
Input Voltage: 24 V
Input Current (15 µs): 0,30 A
Input Current (1 second): 0,19 A
Input Current (1 minute):0,15 A
Input Current (continuous): 0,12 A
Housing Dimensions: Rmin= 8.9 cm, Rmax= 11.8 cm, h= 2.8 cm
Stable Voltage Operation: Yes
Diffuser Option: No
Dark Field illumination is a specialized lighting technique used in image processing projects. In this method, light is directed at a specific angle to highlight features typically against a dark background. Dark Field illumination can offer various advantages in specific applications. Below is a text describing the use cases and advantages of Dark Field illumination in image processing projects:
1. Surface Defects and Contour Extraction: Dark Field illumination is useful for highlighting surface defects and contours in image processing projects, making it ideal for detailed analysis in quality control applications.
2. Prominent Surface Details: This lighting technique brings out specific surface details at intervals, allowing for the analysis of certain features or patterns.
3. Surface Roughness and Structural Analysis: Dark Field illumination emphasizes broken surface roughness, facilitating durability analysis and material characterization applications.
4. High Contrast and Shadow Reduction: Dark Field illumination is employed to achieve high-contrast particles and to scan shadows more distinctly.
5. Controlled Light Direction: Dark Field illumination provides controlled light direction, illuminating and highlighting from specific angles.
6. Analysis of Transparent and Reflective Surfaces: This lighting technique is effective in analyzing defects on transparent or reflective surfaces and replicating details on surfaces.
Dark Field illumination may significantly reduce the need for image processing machines, especially in applications where surface details are crucial and conventional lighting techniques pose challenges.