P‐15.2: A Study for Easy and Quick White Balance Adjustment in Laser Display Production

Abstract: White balance adjustment is crucially important but time‐consuming work in display production. In this paper, we point out challenges in white balance adjustment process and discuss how they can be resolved using the Discrete Centroid Wavelength Method, which was newly developed for laser‐display measurement.

“…Flat panel displays with high color saturation are becoming increasingly attractive. Color reproduction for displays requires not only independent primary colors, but also multiple color mixing. − White balance is achieved only when the mixed intensity of three primary-color subpixels is spatially matched, which is an effective evaluation criterion for the accuracy of display color reproduction. − Human eyes can adapt to a wide range of white light, including the brightness ranging from 10 –6 nits to 10 6 nits, and the color temperature in the range between 2500 and 12000 K. Even so, the standard indoor display brightness and color temperature are set as 250 cd/m 2 and 6500 K for the white-balance display state, respectively. ,, That is why standard illuminant D65 with the chromatic coordinates (0.313, 0.329) is specified as white-balance definition in displays. − …”

Asymmetric Quantum-Dot Pixelation for Color-Converted White Balance

“…Flat panel displays with high color saturation are becoming increasingly attractive. Color reproduction for displays requires not only independent primary colors, but also multiple color mixing. − White balance is achieved only when the mixed intensity of three primary-color subpixels is spatially matched, which is an effective evaluation criterion for the accuracy of display color reproduction. − Human eyes can adapt to a wide range of white light, including the brightness ranging from 10 –6 nits to 10 6 nits, and the color temperature in the range between 2500 and 12000 K. Even so, the standard indoor display brightness and color temperature are set as 250 cd/m 2 and 6500 K for the white-balance display state, respectively. ,, That is why standard illuminant D65 with the chromatic coordinates (0.313, 0.329) is specified as white-balance definition in displays. − …”

Asymmetric Quantum-Dot Pixelation for Color-Converted White Balance