Sensory Analytics

Color:

To assure precise color measurement, manufacturers worldwide have chosen Sensory's innovative technology and solutions to consistently achieve the right color. The company applies more than 10 years of color management expertise to helping companies in a variety of industries find the optimal color management solutions. Opticolor® branded solutions electronically control and immediately communicate color measurements to decision makers at the Company. Offerings include complete computerized systems for color measuring, matching, and quality control for customers who require a high degree of color accuracy from design through production.

Thickness:

The Company delivers patent-pending film thickness and coating measurement solutions, including software tools and turnkey instrumentation to global manufacturing customers. These instruments are used in critical product development cycles as well as in industrial environments for immediate data collection and enhanced quality control. Customers benefit from faster development cycles as well as improved product yield in manufacturing.

Sensory's non-contact measurement systems are used extensively in R&D, quality control and manufacturing environments for various surface and coating measurement tasks such as film thickness measurement, surface finish analysis, surface flatness measurement, wear analysis and crack detection.

Optical Detector Technologies:

• Light guides deliver light to the entrance slit
• Refraction occurs at the grating where light is divided for reception by the detector element
• Various detector combinations allow the module to be optimized for each application
• Delivers non-contact and non-destructive testing alternative
  
  
  

Innovative RF Technologies:

Gauge-PAK RFE-9000

• RF Thickness gauging system measures and controls coatings used in manufacturing transparency films for printing and graphic arts
• RF displacement measurement can be automated by robotic or fixed point
• Enables evaluation of both conductive and non-conductive materials
• Well suited for both opaque and transparent layers
• Applications include exterior coatings, composites, metals & foil, adhesives & laminates, and flooring & carpet
  

• Sensory systems control thickness through optical measurement
• Light is refracted through the bond primer when applied to an anodization layer. The instrumentation sees the interference as a modulation in the intensity of reflected light. It may occur in only specific regions in the spectrum of light reflected depending on surface roughness, particle pigments or other attributes of the coating. System parameters limit the bandwidth where the analysis can occur thereby filtering out extraneous information.

The Fast Fourier Transform (FFT) algorithms are used to analyze the interference modulation which appears as different frequencies. The algorithm principle transforms frequencies to layer thicknesses.