Liquid crystal cells – elements and systems – Particular structure – Having significant detail of cell structure only
Reexamination Certificate
1997-12-29
2001-08-28
Dudek, James A. (Department: 2871)
Liquid crystal cells, elements and systems
Particular structure
Having significant detail of cell structure only
C349S120000, C349S130000, C349S141000, C349S177000
Reexamination Certificate
active
06281956
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention generally relates to liquid crystal display devices and more particularly to a liquid crystal display device operating in a so-called VA (Vertically Aligned) mode in which liquid crystal molecules having a negative dielectric anisotropy or positive dielectric anisotropy are aligned generally perpendicularly to a panel surface of the liquid crystal display device.
Liquid crystal display devices are used as a display device of various information processing apparatuses such as a computer. Liquid crystal display devices, having a compact size and consuming little electric power, are particularly suitable for application in portable information processing apparatuses. On the other hand, use of such liquid crystal display devices also in a fixed-type information processing apparatus such as a desktop-type computer, is also studied.
Conventional liquid crystal display devices generally use a so-called TN (Twisted Nematic)-mode construction in which p-type liquid crystal molecules having a positive dielectric anisotropy are aligned horizontally between a pair of mutually opposing panel substrates, wherein the liquid crystal molecules adjacent to one panel substrate and the liquid crystal molecules adjacent to the other panel substrate are aligned in respective directions crossing with each other perpendicularly.
In such a TN-mode liquid crystal display device, various liquid crystals are already developed, and the liquid crystal display device can be fabricated by a well-established process with low cost.
On the other hand, a TN-mode liquid crystal display device has a drawback in realizing a high contrast representation of images. It should be noted that a TN-mode liquid crystal display device provides a black representation by causing the liquid crystal molecules to align vertically to the principal surface of the panel substrate by applying a driving electric field, while the liquid crystal molecules immediately adjacent to the panel substrate tend to maintain the horizontal alignment even when the driving electric field is applied. Thereby, the birefringence associated with such horizontal liquid crystal molecules allows a passage of light even in the activated state in which the passage of light through the liquid crystal layer should be interrupted completely. Thus, there occurs a leakage of light or coloring of the panel when an attempt is made in a TN-mode liquid crystal display device to display a white image on a black background (so-called “normally black mode”) as is commonly adopted in a CRT display device. Thus, the black representation becomes worse than that of a “normally white mode,” in which black images are displayed on a white background, because of dispersion. This is the reason why conventional TN-mode liquid crystal display devices are operated in the normally white mode.
A VA-mode liquid crystal display device is a liquid crystal display device in which liquid crystal molecules having a negative or positive dielectric anisotropy are confined between a pair of panel substrates in a state that the liquid crystal molecules are aligned in a direction generally perpendicular to the principal surface of the panel substrates in a non-activated state of the liquid crystal display device. Thus, a light passes through a liquid crystal layer in such a liquid crystal display device without changing the polarization plane thereof in the non-activated state of the liquid crystal device, and the light is effectively interrupted by a pair of polarizers disposed at both sides of the liquid crystal layer in a crossed Nicol state. In such a VA-mode liquid crystal display device, therefore, it is possible to achieve a near-ideal black representation in the non-activated state of the liquid crystal display device. In other words, such a VA-mode liquid crystal display device can easily achieve a very high contrast representation not possible by a TN-mode liquid crystal display device.
In an activated state of a VA-mode liquid crystal display device, it should be noted that the liquid crystal molecules are aligned generally parallel to the panel substrates due to the electric field applied to the liquid crystal molecules, and a rotation is induced in the polarization state of an incident optical beam. Thereby, the liquid crystal molecules thus activated show a 90°-twist between the first panel substrate and the second panel substrate.
The VA-mode itself has been known for a long time. Further, there exists a report about the property of a liquid crystal having a negative dielectric anisotropy (D. de Rossi, J. Appl. Phys. 49(3), March, 1978).
On the other hand, it has been thought conventionally that a VA-mode liquid crystal display device cannot provide the quality of representation comparative to that of a TN-mode liquid crystal display device, in terms of response time, viewing-angle characteristics, voltage retention (or voltage holding ratio), and the like. Thus, little effort has been made so far for realizing a practical liquid crystal display device using a VA-mode liquid crystal. Particularly, it has been believed that construction of an active-matrix liquid crystal display device that uses thin-film transistors (TFT) is very difficult.
As a VA-mode liquid crystal can provide a contrast ratio superior to that of a conventional CRT (cathode-ray tube) display device, it is predicted that the major target of such a VA-mode liquid crystal display device would be to replace conventional CRT display devices. In order to achieve this target, however, it is particularly necessary to improve the viewing-angle characteristics of the display device, in addition to usual requirements of increasing the display area and improving the response.
Japanese Laid-open Patent Publication 62-180326 describes a VA-mode liquid crystal display device in which a liquid crystal layer formed of liquid crystal molecules having a negative dielectric anisotropy, is confined between a pair of glass substrates such that the liquid crystal molecules align generally perpendicularly to the substrate surface in a non-activated state thereof in which no drive voltage is applied across the glass substrates. The reference further describes a construction to cause a 90°-twist for the liquid crystal molecules in the direction generally parallel to the substrate surface in the activated state thereof in which the drive voltage is applied across the substrates. Further, the reference teaches to dispose a polarizer and an analyzer at respective outer sides of the glass substrates such that respective optical absorption axes intersect perpendicularly with each other.
Japanese Laid-open Patent Publication 3-5721, on the other hand, describes a VA-mode liquid crystal display device in which a liquid crystal layer formed of liquid crystal molecules having a negative dielectric anisotropy, is confined between a pair of substrates, In the above noted reference, the liquid crystal layer has a retardation set in a range between 0.6 &mgr;m and 0.9 &mgr;m, and first and second birefringence media are disposed at both sides of a liquid crystal panel thus formed. Further, the reference teaches to provide a polarizer and an analyzer at respective outer sides of the foregoing birefringence media so as to cross the respective optical absorption axes perpendicularly. Further, the reference teaches to set the optical absorption axes so as to form a 45° angle with respect to the optical axes of the birefringence media.
Further, Japanese Laid-open Patent Publication 5-113561 describes a photo-conduction type liquid crystal light valve, wherein the reference teaches the use of a liquid crystal of negative dielectric anisotropy for a liquid crystal layer provided adjacent to a photo-conduction layer, such that the liquid crystal molecules align generally perpendicularly to the electrode surface in the non-activated state of the liquid crystal layer. Further, the reference teaches a feature to set the retardation of the liquid crystal layer to be 0.3 &mgr;m or more.
Further, Japanese Laid-
Chida Hideo
Koike Yoshio
Ohmuro Katsufumi
Sasaki Takahiro
Tsuda Hideaki
Dudek James A.
Duong Tai V.
Fujitsu Limited
Greer Burns & Crain Ltd.
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