Liquid crystal cells – elements and systems – Particular structure – Having significant detail of cell structure only
Reexamination Certificate
2003-09-05
2004-06-29
Ton, Toan (Department: 2871)
Liquid crystal cells, elements and systems
Particular structure
Having significant detail of cell structure only
C349S106000, C349S122000, C349S114000, C349S107000
Reexamination Certificate
active
06757038
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates to a transflective color liquid crystal display device.
2. Description of Related Art
A transflective liquid crystal device having a structure that the thickness of a liquid crystal layer is thinner in a reflective display region than in a transmissive display region is disclosed in Japanese Unexamined Patent Application Publication No. 11-242226. Such a structure is called a multi-gap-type of structure and can be realized, for example, by providing a liquid crystal layer-thickness adjusting layer below a transparent electrode and above a reflection film of a lower substrate. In the liquid crystal layer-thickness adjusting layer, a portion corresponding to the transmissive display region becomes an opening portion. Namely, in the transmissive display region, the thickness of the liquid crystal layer is thicker than that of the reflective display region by the thickness of the liquid crystal layer-thickness adjusting layer. Accordingly, it is possible to optimize the retardation &Dgr;n·d with respect to both the transmissive display light and the reflective display light. In order to adjust the thickness of the liquid crystal layer by using the liquid crystal layer-thickness adjusting layer, the liquid crystal layer-thickness adjusting layer must be very thick, and is formed, for example, of a photosensitive resin.
SUMMARY OF THE INVENTION
In the above multi-gap-type transflective liquid crystal device, a photolithographic method is used to form the liquid crystal layer-thickness adjusting layer having an opening portion by using a photosensitive resin. However, due to the exposure accuracy when using the photolithographic method or side-etching when developing, an edge of the opening portion of the liquid crystal layer-thickness adjusting layer, that is, a boundary region of the transmissive display region and the reflective display region has a tapered, inclined plane. Therefore, the thickness of the liquid crystal layer varies consecutively in the boundary portion of the transmissive display region and the reflective display region so that the retardation &Dgr;n·d also varies consecutively and turns out to be unsuitable for both transmissive display light and reflective display light in this portion. Further, an initial alignment state of liquid crystal molecules forming the liquid crystal layer is defined by the alignment films of the lower substrate and the upper substrate, however, since the force for regulating the alignment of the alignment films acts at an angle on the inclined plane, the alignment of the liquid molecules in this portion becomes disordered.
In this regard, in the conventional multi-gap-type transflective liquid crystal display device, if the liquid crystal layer is designed as normally white, for example, it should provide a black display when a voltage is applied to it. But the fact is that light leakage occurs in the boundary portion of the transmissive display region and the reflective display region, and there is a problem that the contrast is lowered.
The present invention has been made to solve the above problems. An object of the present invention is to provide a transflective liquid crystal display device which is capable of displaying with a high contrast in both transmissive display and reflective display.
Further, another object of the present invention is to provide an electronic apparatus, which is capable of high quality display, comprising the above liquid crystal display device.
A transflective liquid crystal display device according to the present invention can include an upper substrate and a lower substrate which are opposed to each other, and a liquid crystal layer being interposed between the upper substrate and the lower substrate, in which a reflective display region and a transmissive display region are formed in one pixel region, and a reflection layer is provided on the lower substrate in the reflective display region. Further, an inclined region, in which the thickness of the liquid crystal layer varies consecutively between the transmissive display region and the reflective display region, can be provided between the transmissive display region and the reflective display region, an edge of the inclined region at the transmissive display region side being disposed in the reflection layer, a first color material layer is formed in the reflective display region, and a second color material layer is formed in the inclined region and the transmissive display region, the degree of coloration of the second color material layer being higher than that of the first color material layer.
In the liquid crystal display device according to the present invention, the inclined region, which is an inferior display portion, is disposed in a plane region of the reflection layer, and the second color material whose degree of coloration is comparatively high extends to the inclined region. That is, light incident on the inclined region is transmitted through the second color material layer having a high degree of coloration, is reflected on the reflection layer, and thereafter, is again transmitted through the second color material layer having a high degree of coloration to reach observers. Therefore, the luminance reduces remarkably. In the inclined region between the reflective display region and the transmissive display region whose thickness of the liquid crystal layer is different from each other, because the thickness of the liquid crystal layer varies consecutively, alignment of the liquid crystal becomes irregular. Therefore, it is impossible to prevent the leakage light from occurring. However, by the above structure, observers hardly recognize the leakage light of the inclined region. Further, it is possible to prevent a contrast of the reflective display from being lowered. Since the leakage light of the inclined region does not affect the contrast in the transmissive display, a high contrast display can be obtained. In addition, in the liquid crystal display device according to this invention, it does not need to provide a light shielding film in the inclined region. Thus, there is an advantage that a high luminance display can be obtained in comparison to structures having such light shielding film.
Next, the liquid crystal display device according to this invention may have a structure that the first color material layer and the second color material layer are formed directly on the reflection layer. According to the above structure, it is possible to effectively prevent a color drift in the reflective display.
Next, the liquid crystal display device according to this invention may have a structure that the first color material layer and the second color material layer partially overlap each other in the inclined region. According to the above structure, in the portion where the first color material layer and the second color material layer partially overlap each other, the chromaticity of the color material layer becomes much higher and transmittance thereof lowers. Therefore, by disposing the overlapping portion in the inclined region, it is possible to reduce the leakage light from the inclined region and to increase the display contrast than the structures mentioned above.
Next, in the liquid crystal display device according to this invention, it is preferable that the boundary of the first color material layer and the second color material layer is arranged substantially in the same position as the edge of the inclined region at the reflective display region side in a plan view.
If the second color material layer is disposed on the reflection layer, a display luminance reduces a great deal in the region as same as the aforementioned structure. Therefore, it is possible to maximize the luminance in the reflective display by not disposing the color material layer in the reflective display region according to the above structure.
An electronic apparatus according to the present invention can include any one of the aforementioned liquid crystal displ
Itoh Tomoyuki
Murai Ichiro
Duong Tai
Oliff & Berridg,e PLC
Seiko Epson Corporation
Ton Toan
LandOfFree
Liquid crystal display device and electronic apparatus does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Liquid crystal display device and electronic apparatus, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Liquid crystal display device and electronic apparatus will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3341124