A device for spectral based photometric and colorimetric light measurements, designed for applications requiring precise light measurements from a range of light sources, such as display monitors and projectors, reflective surfaces, and industrial applications (visual display testing, LED testing, film and video post-production, auto/aerospace displays, and dental color testing). 

Capable of measuring  with ultra-low luminance levels of 0.0005 cd/m2 of various light-emitting devices and flat-screen televisions such as LCDs, plasma displays, organic EL displays, LEDs, etc. as well as performing high-accuracy measurements corresponding to scotopic relative luminosity  (VIS).

The CM-3610A can handle simultaneous measurements of specular components included (SCI) and excluded (SCE). Its numerical UV control method ensures precise measurement of samples containing optical brighteners, such as cloth and paper. Also, the vertical configuration is ideal for textile, paper and non-contact measurements such as powders and pigments. 

The device is suitable for a wide variety of analytical applications, measuring illuminance, irradiance or luminance in a broad wavelength range. Its ease of use and high performance are conducive to reliable results. Two units are currently in use in our laboratory for the measurement of transmittance, reflectance and the calculation of absorption, scattering and extinction coefficients using the IAD method (Inverse Adding-Doubling).

Its a 3D Hemispherical Scattering Measurement system, camera-based device equipped with three color collimated light sources—Red (630 nm, Δλ1/2=25 nm), Green (525 nm, Δλ1/2=35 nm), and Blue (465 nm, Δλ1/2=25 nm)—for RGB measurements. It supports angle of incidence settings from 0° to 60° with 1° steps for both reflection and transmission measurements. The system offers a dynamic range of BRDF 105 and BTDF 106, with BSDF accuracy and repeatability of <2% for Lambertian samples). It provides color accuracy with Duv < 0.1, an angular aperture of -75° to +75° for hemispherical measurements, and an effective measured area of 1 mm diamiter with 0.5° angular resolution. 

The instrument provides a wavelength range of 190–1100 nm with a bandwidth of 2 nm. It offers photometric excellence in a range of applications for both liquid and solid samples.

The spectrophotometer operates within a measurement range of 400 to 700 nm. It provides indications of all dental colors according to the chromatic systems VITA classical A1-D4, VITA SYSTEM 3D-MASTER, as well as VITABLOCS colors and it offers measurements of Lab and LCh values.

The spectral camera operates in the VNIR range of 400–1000 nm using a CMOS sensor, 512-pixel spatial sampling, and 204 spectral bands, with a spectra resolution of ~7 nm. The system provides a 31° x 31° field of view, capturing a 0.55 x 0.55 m area at 1 m distance.

The ETVision system is a high-performance, mobile, and user-friendly eye-tracking that offers binocular measurement and high update rates. It delivers 180Hz data, including gaze point, pupil diameter, eyelid position, blink detection, fixation detection, and scene object tracking using AI or feature detection.

Perfect for comparing the colors of plastics, paints, textiles, decors, and colored coatings of all kinds. Equipped with 5 standard illuminants (D65, A, TL84, D50, UV-A).  Thanks to its compact design can be set up anywhere.

This force gauge can perform almost all compression and tensile applications in a repeatable manner. Using the motorized testing machine ensures precise alignment between the test setup and the testing machine. The maximum force range of the testing machine is 500 kg. 

This light exposure tester is a weathering instrument designed to simulate realistic conditions comparable to natural outdoor environments. Its filter system accurately adjusts the spectral light distribution of sunlight from 300 to 800 nm. With an irradiation intensity of approximately 1000 W/m², it enables aging tests that combine light exposure with cyclic wetting via a flooding system.

In our laboratory we own several sets of standard ceramics which are physical exemplars that offer stable reference points for verifiable and consistent color measurement and calibration of our devices.

In our laboratory we also have several 3D printers using both resin and filament.  These can be used for the manufacture of fully customized pieces that allow us to design our own custom setups as well as any experiment.