摘要:
A liquid crystal display device 1 has subpixels 10 having a light-transmissive region 10a and a light-reflective region 10b. A color filter layer 50 corresponding to an identification pattern 70 that it is desired to be displayed when the liquid crystal display device 1's power is off is formed at the light-reflective regions 10b, so that even when the liquid crystal display device 1 is in the non-driven state, incident external light emerges as outgoing light having the colors of the color layers corresponding to the identification pattern, and hence the identification pattern can be displayed. Thus, any desired pattern can be displayed in the liquid crystal display device's non-driven state, so that a liquid crystal display device with extensive expression and superior display characteristics is provided.
摘要:
A liquid crystal display device 1 has subpixels 10 having a light-transmissive region 10a and a light-reflective region 10b. A color filter layer 50 corresponding to an identification pattern 70 that it is desired to be displayed when the liquid crystal display device 1's power is off is formed at the light-reflective regions lob, so that even when the liquid crystal display device 1 is in the non-driven state, incident external light emerges as outgoing light having the colors of the color layers corresponding to the identification pattern, and hence the identification pattern can be displayed. Thus, any desired pattern can be displayed in the liquid crystal display device's non-driven state, so that a liquid crystal display device with extensive expression and superior display characteristics is provided.
摘要:
Light reflecting layers 45a that totally reflect light are provided inside the subpixels 10 disposed in particular regions on an inner face of a TFT array substrate 4, and light reflecting layers 45b that scatter light are provided inside the subpixels 10 other than those. Thanks to this, the reflectance of the light reflecting layers 45a can be rendered different from that of the light reflecting layers 45b. As a result, differences can be created in the display light formed by the light reflecting layers 45a and by the light reflecting layers 45b, by means of the light that is reflected thereat. Thereby, fine adjustment of the display light brightness and contrast is enabled, so that a liquid crystal display device 1 with extensive power of expression and superior display characteristics is provided.
摘要:
Light reflecting layers 45a that totally reflect light are provided inside the subpixels 10 disposed in particular regions on an inner face of a TFT array substrate 4, and light reflecting layers 45b that scatter light are provided inside the subpixels 10 other than those. Thanks to this, the reflectance of the light reflecting layers 45a can be rendered different from that of the light reflecting layers 45b. As a result, differences can be created in the display light formed by the light reflecting layers 45a and by the light reflecting layers 45b, by means of the light that is reflected thereat. Thereby, fine adjustment of the display light brightness and contrast is enabled, so that a liquid crystal display device 1 with extensive power of expression and superior display characteristics is provided.
摘要:
An electro-optical device includes a substrate that supports an electro-optical material; a plurality of display dot regions; and a light-shielding film that is provided among the plurality of display dot regions on the substrate and that is formed by laminating a plurality of colored layers. In the electro-optical device, one of the plurality of colored layers is formed such that both ends thereof in a widthwise direction protrude from edges of the other colored layers.
摘要:
An electro-optical device includes a pair of substrates that hold an electro-optical material therebetween and include a plurality of pixels each having a reflective display region and a transmissive display region; a reflective film that is provided in the reflective display region and has a flat surface in a portion of the reflective display region adjacent to the transmissive display region, the portion of the reflective display region serving as a first mirror-reflection region; and colored layers each of which is formed in only the first mirror-reflection region and the transmissive display region.
摘要:
An electro-optical device includes a substrate; electrodes formed on the substrate; switching elements connected to the electrodes, respectively; an electro-optical material layer disposed on the electrodes and the switching elements; photospacers that regulate the thickness of the electro-optical material layer; and spacer light-shielding films, each being provided between a corresponding photospacer and the substrate. Each of the spacer light-shielding films is made of the same material as at least one of a plurality of elements constituting each of the switching elements.
摘要:
An electro-optical device includes a pair of substrates that hold an electro-optical material therebetween and include a plurality of pixels each having a reflective display region and a transmissive display region; a reflective film that is provided in the reflective display region and has a flat surface in a portion of the reflective display region adjacent to the transmissive display region, the portion of the reflective display region serving as a first mirror-reflection region; and colored layers each of which is formed in only the first mirror-reflection region and the transmissive display region.
摘要:
An electro-optical device includes a substrate that supports an electro-optical material; a plurality of display dot regions; and a light-shielding film that is provided among the plurality of display dot regions on the substrate and that is formed by laminating a plurality of colored layers. In the electro-optical device, one of the plurality of colored layers is formed such that both ends thereof in a widthwise direction protrude from edges of the other colored layers.
摘要:
An electro-optical device includes a substrate; electrodes formed on the substrate; switching elements connected to the electrodes, respectively; an electro-optical material layer disposed on the electrodes and the switching elements; photospacers that regulate the thickness of the electro-optical material layer; and spacer light-shielding films, each being provided between a corresponding photospacer and the substrate. Each of the spacer light-shielding films is made of the same material as at least one of a plurality of elements constituting each of the switching elements.