A third and fast emerging application is electronic signage where the low power attribute along with sunlight readability
makes Electrophoretic displays (usually called ePaper) a great choice.
This is achieved through a process called electrophoresis, and E Ink and SiPix each have a slightly different way of
making their electrophoretic displays work.
Not exact matches
The big news about the Kindle Paperwhite is suggested by its name: It has a built - in light that, when adjusted to maximum brightness,
makes the Kindle's
display look closer to white than to the tinted, newspaper gray typical of E Ink's
electrophoretic ink screens (including this one, when the light is off).
E Ink Holdings is the biggest supplier of
electrophoretic display, or EPD e-paper, that goes into the
making of the Kindle e-book reader.
Plastic Logic's
electrophoretic display technology
makes the badges robust, but flexible, whilst being incredibly low power for multiple days usage, combined with Blendology's «OneTap» technology.
The new generation of e-book reader devices uses Electronic Ink, instead of LCD, to
make ultra-flat, low - power
electrophoretic displays that are easy on the eyes and look roughly like a super high - resolution etch - a-sketch.
As with
electrophoretic technology, e-paper
displays built using Liquavista's technology could be manufactured on a flexible plastic substrate,
making them thinner and lighter.
It is
made of a thin, flexible
electrophoretic display manufactured by Plastic Logic — a British company and a world leader in plastic electronics.
This was essentially a reintroduction of the well - known
electrophoretic display technology, but microcapsules meant the
display could be
made on flexible plastic sheets instead of glass.
The ACeP enables the so - called
electrophoretic display (EDP) to generate full color «at every pixel» without
making use of a color filter array (CFA).