Eizo is not a new player in big-size LCD display market. Today the firm updated it’s portfolio with a new 24-inch full HD monitor for colorblind people. Eizo is hoping to set a new benchmark for artists, video editors and other colour-conscious computer users with the launch of the ColorEdge Quietly presented at the PMA photo exposition but made public today, the 30-inch Eizo Flexscan monitors is fashioned to be as true as possible to the color ranges that come along in most video: courtesy of 12-bit color search and 16-bit color processing, the display gets one hundred percent of the NTSC gamut and 97 percent of Adobe’s RGB color space, insuring that a few if any colors will be botched even in photo editing. Eizo is famous for its often specialized monitors. The company returns with two new FlexScan LCDs that promise to cover 95% of the Adobe RGB colour space (and 92% of the NTSC colour gamut).
Totoku’s 22.2-inch CCL901 has a upper limit resolution of 3,840 x 2,400 at 24-bit color, which works out to about 9.2 mp and 200 dpi. The company states this single- or dual-DVI LCD has a native gamma of 1.8 and 500-Kelvin backlights, which we truly hope means something to Photoshop fans out there. Their web site states that the ME551i2 totoku monitore is capable of presentation 2048 shades of gray (per sub-pixel) with an integrated viewer. The ME551i2 has a 11.9-bit search table (LUT) that allows a pallet of 3826 shades of gray and can display 2048 shades with a specialised view and 256 shades without. Totoku displays are constituted of high luminance, high contrast ratios, exceptional viewing angles, and a long life backlight. All Totoku displays include a extractible stand, and are fully height adaptable with a tilt-swivel base.
Liquid crystals are nearly exactly what they sound like: crystalline structures clad in a liquid. When electricity is run through a LCD array, the crystals either enlarge or contract, depending on the signal. Liquid crystals in 2mp monochrome medical grade act as a dynamic polarise agent. They change their orientation when you position a voltage across an LCD cell.