DLCH(DIN99 LCH) to xvYCC Converter - Color Space Converter

Also known as the DLCH(DIN99 LCH) color space.There are 3 channels in total, L,range from 0 to 100.C,range from 0 to 51.484.H,range from 0 to 360.

DIN99 LCH is a color space based on the DIN99 colorimetric system. It's an LCH (Lightness, Chroma, Hue) representation, which is a derivative of the CIELAB color space. The DIN99 system was developed to improve the perceptual uniformity of the LAB color space, making color differences more consistent with human vision.

DIN99 LCH color space.

In the DIN99 LCH color space, colors are represented by Lightness (L*99), Chroma (C*99), and Hue angle (h°99).

DIN99 LCH is commonly used in fields requiring precise color matching and analysis, such as the textile and plastics industries.

The DIN99 LCH color space is widely used in color science and industrial applications due to its perceptual uniformity in representing colors.

Also known as the xvYCC color space.There are 3 channels in total,Y,range from 0 to 255.Cb,range from 0 to 255.Cr,range from 0 to 255.

xvYCC was developed by Sony and standardized by the International Electrotechnical Commission (IEC) in 2005. It is an expansion over the standard YCbCr color space, designed to support a wider range of colors for high-definition video.

The main name is xvYCC, also known as IEC 61966-2-4 or extended-gamut YCC.

Similar to YCbCr, xvYCC is typically expressed as three component values (Y, Cb, Cr). However, xvYCC uses a signaling method that enables it to represent a broader range of colors. This includes values for Cb and Cr that, unlike YCbCr, can exceed the nominal range of video levels, going below 16 or above 235 in 8-bit terms.

xvYCC is used primarily in high-definition video formats and devices such as Blu-ray players, digital cameras, and HDTVs that support HDMI 1.3 or higher. It allows for more vivid and accurate color representation on capable devices.

xvYCC can display a wider range of color values than sRGB by allowing values that fall outside the typical RGB gamut. It achieves this by using the same color encoding method as YCbCr but permits values in the signaling that exceed the range of the BT.601 or BT.709 color spaces.