NEC Develops E-paper Enabling A3 and A4 Screen Displays with Multitiling
NEC LCD Technologies today announced the successful development of multiple sizes (A3 and A4 equivalent) of electronic paper (e-paper) modules using the microcapsule electrophoresis system (see note 1).
The new e-paper modules boast higher visibility and gradation when compared to general newspapers, and leverage NEC LCD Technologies' experience and with TFT active matrix to secure 16 step grayscale, white reflectivity of 43% and a contrast ratio of 10:1.
Additionally, e-paper modules can be used to form large screen displays by combining up to eight modules, which incorporate the company's original multi-tiling controller. The A3 e-paper module is composed of especially narrow frames, with two sides measuring just 1mm, which enables the creation of large screens that feature effective multi-tiling.
E-paper's display utilizes reflected light and paper to produce wide viewing angles, provide high visibility under direct sunlight and reduce strain on the eyes of viewers. Moreover, e-paper minimizes electricity needs by maintaining display information without using power, and requires only low power to perform screen rewriting. Furthermore, thanks to its slim design and light weight, e-paper is subject to few location restrictions and is ideal for portable equipment. In recent years, due to these exceptional features, expectations for e-paper as a next generation display device have been rapidly increasing in both the consumer and industrial fields.
NEC LCD Technologies recognized the potential of e-paper. A3 and A4 e-paper modules have drawn particular attention due to consumer's existing daily use of similarly sized paper.
Both new e-paper modules will be showcased at "FPD International 2008," which is being held from October 29 to 31 in Pacifico Yokohama, Japan.
1. Electrophoresis system developed by E Ink Corporation (USA). The system contains white pigment particles electrified with positive electrodes, and black pigment particles electrified with negative electrodes. Each pigment particle is contained in a clear microcapsule that is moved by applying voltage, which thereby creates a visible display. The prototype uses E Ink's "Vizplex Imaging Film."
Provided by NEC