Projection type optical display system

Optics: image projectors – Composite projected image – Multicolor picture

Reexamination Certificate

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C353S084000, C353S122000, C349S005000, C348S744000

Reexamination Certificate

active

06817718

ABSTRACT:

This nonprovisional application claims priority under 35 U.S.C. § 119(a) on Patent Application No. 2002-312717 filed in JAPAN on Oct. 28, 2002, which is herein incorporated by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to an optical display system, and more particularly relates to a single-panel projection type optical display system, which can conduct a display operation in full colors with a single display panel and without using color filters. The present invention is effectively applicable for use in a compact projection type color liquid crystal TV system or information display system.
2. Description of the Related Art
A projection type optical display system that uses a liquid crystal display (LCD) panel is known as an optical display system. Such a projection type optical display system needs to be separately provided with a light source because the LCD panel itself emits no light. However, the projection type optical display system using an LCD panel is advantageous over a projection type optical display system using a CRT, because the display system of the former type realizes a broader color reproducible range, has a smaller size and a lighter weight, and needs no convergence correction.
A projection type optical display system may conduct a full-color display operation either by a three-panel method (i.e., with three LCD panels used for the three primary colors) or by a single-panel method (i.e., with just one LCD panel used).
A three-panel projection type optical display system uses an optical system for splitting white light into three light rays representing the three primary colors of red (R), green (G) and blue (B) and three LCD panels for modulating the R, G and B light rays and thereby forming three image components. By optically superimposing the R, G and B image components one upon the other, the three-panel projection type optical display system can create an image in full colors.
The three-panel projection type optical display system can efficiently utilize the light that is radiated from a white light source but needs a complicated optical system and a greater number of components. Thus, the three-panel projection type optical display system is normally less advantageous than the single-panel projection type optical display system in respects of cost and size.
The single-panel projection type optical display system uses a single LCD panel including multiple R, G and B color filters that are arranged in a mosaic or striped pattern, and gets a full-color image, displayed on the LCD panel, projected onto a projection plane (e.g., a screen) by a projection optical system. Such a single-panel projection type optical display system is described in Japanese Laid-Open Publication No. 59-230383, for example. The single-panel type uses only one LCD panel, and needs an optical system that is much simpler than that of the three-panel type. Thus, the single-panel method can be used effectively to provide a small-sized projection type optical display system at a reduced cost.
In the single-panel type that uses color filters, however, light is absorbed into the color filters. Accordingly, compared to a three-panel type that uses a similar light source, the brightness of the image decreases to about one-third in the single-panel type. In addition, one pixel should be displayed by a set of three pixel regions of the LCD panel that correspond to R, G and B, respectively. Thus, the resolution of the image also decreases to one-third as compared to the three-panel type.
One of possible measures against that decrease in brightness is using a brighter light source. However, the use of a light source with great power dissipation for a consumer electronic appliance is not preferred. Also, when color filters of absorption type are used, the light that has been absorbed into the color filters changes into heat. Accordingly, if the brightness of the light source is increased excessively, then not only the temperature of the LCD panel increases but also the discoloration of the color filters is accelerated. For that reason, to increase the utility value of the projection type optical display system, it is very important how to make full use of the given light.
To increase the brightness of an image displayed by a single-panel projection type optical display system, a liquid crystal display device for conducting a display operation in full colors without using any color filter was developed and disclosed in Japanese Laid-Open Publication No. 4-60538, for example. In this liquid crystal display device, the white light that has been radiated from a light source is split into R, G and B light rays by dielectric mirrors such as dichroic mirrors. The light rays are then incident onto a microlens array at mutually different angles. The microlens array is provided on one side of an LCD panel so as to face the light source. These light rays that have been incident onto a microlens are transmitted through the microlens so as to be focused onto their associated pixel regions in accordance with the respective angles of incidence. Thus, the R, G and B split light rays are modulated by mutually different pixel regions and then used for a full-color display.
A display system, which uses transmissive hologram elements for the R, G and B light rays instead of the dielectric mirrors to utilize the light as efficiently as possible, is disclosed in Japanese Laid-Open Publication No. 5-249318. On the other hand, a display system, which includes a transmissive hologram element having a periodic structure defined by a pixel pitch and functioning as the dielectric mirrors or microlenses, is disclosed in Japanese Laid-Open Publication No. 6-222361.
The low resolution is another problem of the single-panel type. As for this problem, however, by adopting a field sequential technique, even just one LCD panel can achieve a resolution comparable to that of the three-panel type. The field sequential technique utilizes the phenomenon that when the colors of a light source are switched at too high a rate to be sensed by the human eyes, respective image components to be displayed time-sequentially have their colors mixed together by an additive color mixture process. This phenomenon is called a “continuous additive color mixture process”.
A projection type optical display system for conducting a full-color display operation by the field sequential technique may have a configuration such as that shown in
FIG. 15
, for example. In this optical display system, a disk, made up of R, G and B color filters, is rotated at a high velocity that corresponds to one vertical scan period of an LCD panel, and image signals, representing the colors of the three color filters, are sequentially input to the driver circuit of the LCD panel. In this manner, a synthesized image of three image components corresponding to the respective colors is recognized by human eyes.
In the display system of such a field sequential type, the R, G and B image components are displayed time-sequentially by each pixel of the LCD panel unlike the single-panel type. Thus, the resolution thereof is comparable to that of the three-panel type.
A projection type optical display system that irradiates mutually different regions of an LCD panel with the R, G and B light rays is disclosed as another display system of the field sequential type in Proc. International Display Workshop 1999 (IDW '99), December 1999, pp. 989-992. In this display system, the white light that has been radiated from a light source is split by dielectric mirrors into R, G and B light rays, which will be then focused onto mutually different regions of the LCD panel. The portions of the LCD panel to be irradiated with the R, G and B light rays are sequentially switched by rotating a cubic prism.
However, the display systems disclosed in Japanese Laid-Open Publications Nos. 4-60538, 5-249318 and 6-222361 identified above can increase the brightness but the resolution thereof remains one-third of that of the three-panel ty

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