摘要:
A segment electrode group 10 is passed through a lower side portion of a sealing resin 7 to be connected to a connection terminal group for segment electrode 8. A connection terminal group for common electrode 6 is juxtaposed to the connection terminal group for segment electrode 8 along the lower side portion of the sealing resin 7. The connection terminal group for common electrode 6 is connected to a wiring pattern 5 through the lower side portion of the sealing resin 7. The wiring pattern 5 passes through an area between a right side portion of the sealing resin 7 and a display area 3 to be connected to a conduction portion between substrates Q1. The conduction portion between substrates Q1 contains numerous conductive particles so as to electrically connect the wiring pattern 5 and a common electrode group 4 to each other. By this arrangement, downsizing of a liquid crystal display device can be accomplished.
摘要:
A segment electrode group 10 is passed through a lower side portion of a sealing resin 7 to be connected to a connection terminal group for segment electrode 8. A connection terminal group for common electrode 6 is juxtaposed to the connection terminal group for segment electrode 8 along the lower side portion of the sealing resin 7. The connection terminal group for common electrode 6 is connected to a wiring pattern 5 through the lower side portion of the sealing resin 7. The wiring pattern 5 passes through an area between a right side portion of the sealing resin 7 and a display area 3 to be connected to a conduction portion between substrates Q1. The conduction portion between substrates Q1 contains numerous conductive particles so as to electrically connect the wiring pattern 5 and a common electrode group 4 to each other. By this arrangement, downsizing of a liquid crystal display device can be accomplished.
摘要:
A segment electrode group 10 is passed through a lower side portion of a sealing resin 7 to be connected to a connection terminal group for segment electrode 8. A connection terminal group for common electrode 6 is juxtaposed to the connection terminal group for segment electrode 8 along the lower side portion of the sealing resin 7. The connection terminal group for common electrode 6 is connected to a wiring pattern 5 through the lower side portion of the sealing resin 7. The wiring pattern 5 passes through an area between a right side portion of the sealing resin 7 and a display area 3 to be connected to a conduction portion between substrates Q1. The conduction portion between substrates Q1 contains numerous conductive particles so as to electrically connect the wiring pattern 5 and a common electrode group 4 to each other. By this arrangement, downsizing of a liquid crystal display device can be accomplished.
摘要:
A segment electrode group 10 is passed through a lower side portion of a sealing resin 7 to be connected to a connection terminal group for segment electrode 8. A connection terminal group for common electrode 6 is juxtaposed to the connection terminal group for segment electrode 8 along the lower side portion of the sealing resin 7. The connection terminal group for common electrode 6 is connected to a wiring pattern 5 through the lower side portion of the sealing resin 7. The wiring pattern 5 passes through an area between a right side portion of the sealing resin 7 and a display area 3 to be connected to a conduction portion between substrates Q1. The conduction portion between substrates Q1 contains numerous conductive particles so as to electrically connect the wiring pattern 5 and a common electrode group 4 to each other. By this arrangement, downsizing of a liquid crystal display device can be accomplished.
摘要:
In a liquid crystal display device (10) according to the present invention, a retardation plate (12) and a polarizer plate (13) are stacked on one side of a liquid crystal panel (11). A second retardation plate (14) and a second polarizer plate (15) are stacked on the other side of the liquid crystal panel (11). The liquid crystal panel (11) has a pair of transparent substrates, i.e., a first transparent substrate (21) and a second transparent substrate (22), and a nematic liquid crystal layer (32) is interposed between the pair of transparent substrates. A semi-transmissive film (26) is provided on an inner surface of the second transparent substrate (22). The semi-transmissive film has both a light reflective property and a light transmissive property. When the liquid crystal display device (10) is operative in the reflective mode, light passing through the liquid crystal layer (32) is reflected on the semi-transmissive film (26). On the other hand, when the liquid crystal display device (10) is operative in the transmissive mode, internal illumination light passes through the transparent substrate (22) and the semi-transmissive film (26) into the liquid crystal layer (32).
摘要:
The invention relates to a liquid crystal display panel 2 including a first base having a light shielding film 45, color filters 46R, 46G, 46B, 46, and a first display electrode 48 on a first transparent substrate 4; a second base 5 having a second display electrode 51 on a second transparent substrate 50, spacers 20 and 21 for keeping a distance between the first and the second bases 4 and 5; and a sealing member 6 for sealing a liquid crystal between the first and the second bases 4 and 5. At least one of the first and the second bases 4 and 5 includes a convex portion 43 between a display region 40 including display pixels and a sealing region 41 sealed by the sealing member 6, to enclose the display region 40 with the convex portion 43. The spacers 20 and 21 include a first spacer 20 in the display region 40 and a second spacer 21 on the convex portion.
摘要:
An object of the present invention is to provide a light semitransmitting type liquid crystal display device which avoids a decrease of contrast due to backscattering in a reflective type display mode. In a light semitransmitting type liquid crystal display device: a group of bumps is formed on a glass substrate and the group of bumps is coated with a light semitransmitting film and an orientation layer; a color filter, an overcoat layer, transparent electrodes and an orientation layer are formed on a glass substrate; the glass substrates are opposed to each other via liquid crystal; and a first retardation film, a second retardation film and a polarizer plate are sequentially formed outside the glass substrate.