The display experience close to paper is more eye-friendly
Bi-Stable No power needed to hold an image
Bistablility refers to the fact that an image on an E Ink screen will be retained even when all power sources are removed. This means that the display is consuming power only when something is changing. For example, when reading on an eReader, power is only needed when turning to a new page but no power is consumed by the display while reading the page. Bistability significantly reduces the power consumption and is a key reason devices using E Ink have such long battery life.
The larger ePaper screen, the more electronic power can be saved compared with the same size LCD screen.
Reflective No backlight
e Paper displays are referred to as "reflective displays." In an LCD, or "emissive display", light from a backlight is projected through the display towards your eyes. In an e Paper display, no backlight is used; rather, ambient light from the environment is reflected from the surface of the display back to your eyes. As with any reflective surface, the more ambient light, the brighter the display looks. This attribute mimics traditional ink and paper, and users of e Paper displays have said that they do not have the same eye fatigue as with LCDs when reading for long periods of time. Therefore, eliminating the need for a backlight significantly increases the battery life versus using a traditional LCD.
Electronic paper display Printing A4 paper LCD liquid crystal display
ePaper displays are comprised of an ink layer laminated to a plastic film substrate. Depending on the application, product designers may use a traditional glass-based TFT, or utilize our Mobius plastic-based TFTs. ePaper also offers a simple segmented plastic backplane for character based displays.
A 13.3" E Ink displays with a plastic TFT and similar internal components can weigh only 12.3 ounces (349g) as compared to an LCD-based display with smaller screen size 12.9”, which weighs an average of 25.2 ounces (713g).
In addition, glass-based TFTs can be fragile; use of plastic-based TFTs can result in a more rugged end product with less breakage in the electronics due to drops or stress tension.