摘要:
An electrooptic device has a first substrate 10 and a second substrate 20 disposed to oppose each other, and liquid crystal 35 provided between the first substrate 10 and the second substrate 20. This electrooptic device has a sealing material 30 surrounding the liquid crystal 35 and wires 16 continuously extending along one side of the first substrate 10 to another side intersecting said one side. The wires 16 each have a first wire layer which is continuously formed in the inside region of the sealing material 30 and the outside region of the sealing material 30 or which is continuously formed in the region overlapping the sealing material 30 and the outside region of the sealing material 30; and a second wire layer 182 which is formed in the inside region of the sealing material 30 or the region overlapping the sealing material 30. Since being not exposed to outside air, the second wire layer 182 is not corroded.
摘要:
A liquid crystal panel includes a pair of substrates 2a and 2b individually provided with electrodes 14a and 14b, a sealing material 3 with which the substrates 2a and 2b are attached to each other, a first terminal installed on one substrate 2a, a second terminal which is installed on the other substrate 2b and which is connected to the electrode 14b on the substrate 2b, a conducting material 21 for connecting the first terminal and the second terminal, a wiring 19b which is installed on the substrate 2a and which is connected to the first terminal, and a light-shielding film 23 installed in at least a part of a region, which corresponds to the wiring 19b, on the other substrate 2b.
摘要:
An electrooptic device includes a first substrate 10, wiring 16 provided along one side of the first substrate 10 to extend to another side crossing the one side, and a coating layer 30 coating the wiring 16. Conceivable examples of the electrooptic device include a liquid crystal device, and an EL device. In the liquid crystal device, the coating layer 30 can be formed by a sealing material for bonding together the first substrate 10 and a second substrate 20 opposed to each other. The wiring 16 is coated with the coating layer 30 to be cut off from contact with the outside air.
摘要:
Pixel electrodes corresponding to RGB colors are shifted by half a pitch in the row direction and are arranged in an RGB delta arrangement. One line of data lines is shared by the pixel electrodes corresponding to the same color in the row direction. The data line is formed so as to encircle four sides of each of the pixel electrodes. Accordingly, the parasitic capacitances of the pixel electrodes are made uniform in each pixel.
摘要:
Reflective display and transmissive display are performed by driving liquid crystal in a predetermined area (region b) in a non-crossing region by using an oblique electric field. Light passed through the region b when a voltage is applied is shaded since the liquid crystal in the region b is driven. Accordingly, at a position of a second substrate 2b corresponding to the region b, it is not necessary to provide a shading film 22. Consequently, a line width S1 of the shading film 22 can be designed to be smaller compared to that of a conventional one, and hence, a high aperture ratio can be obtained.
摘要:
Reflective display and transmissive display are performed by driving liquid crystal in a predetermined area (region b) in a non-crossing region by using an oblique electric field. Light passed through the region b when a voltage is applied is shaded since the liquid crystal in the region b is driven. Accordingly, at a position of a second substrate 2b corresponding to the region b, it is not necessary to provide a shading film 22. Consequently, a line width S1 of the shading film 22 can be designed to be smaller compared to that of a conventional one, and hence, a high aperture ratio can be obtained.
摘要:
Reflective display and transmissive display are performed by driving liquid crystal in a predetermined area (region b) in a non-crossing region by using an oblique electric field. Light passed through the region b when a voltage is applied is shaded since the liquid crystal in the region b is driven. Accordingly, at a position of a second substrate 2b corresponding to the region b, it is not necessary to provide a shading film 22. Consequently, a line width S1 of the shading film 22 can be designed to be smaller compared to that of a conventional one, and hence, a high aperture ratio can be obtained.
摘要:
Reflective display and transmissive display are performed by driving liquid crystal in a predetermined area (region b) in a non-crossing region by using an oblique electric field. Light passed through the region b when a voltage is applied is shaded since the liquid crystal in the region b is driven. Accordingly, at a position of a second substrate 2b corresponding to the region b, it is not necessary to provide a shading film 22. Consequently, a line width S1 of the shading film 22 can be designed to be smaller compared to that of a conventional one, and hence, a high aperture ratio can be obtained.
摘要:
An electro-optical device includes a substrate, first and second conductive layers, switching elements formed on the substrate and having an insulating layer interposed between the first conductive layer and the second conductive layer, signal lines formed on the substrate that supply signals to the switching elements, an interlayer insulating layer formed on the substrate so as to cover the signal lines and the switching elements, and pixel electrodes formed on the interlayer insulating layer and electrically connected to the switching elements. The switching elements are nonlinear elements, and the signal lines and the pixel electrodes overlap in plan view.
摘要:
Color layers R, G, and B of a color filter are arranged in a delta pattern. A data line (212) for applying a voltage to the sub-pixels is connected, through TFD (220), to pixel electrodes (234) of the sub-pixels respectively corresponding to the three colors in a fixed order in a periodic pattern, and pixel electrodes (234) commonly connected to a single data line (212) are arranged to the same side of the data line (212). The potential of the sub-pixels for a particular color are equally influenced by the potential of the sub-pixels of other colors.