JPH02500139A - lcd display device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] lcd display device The present invention relates to a liquid crystal display device (LCD), especially a liquid crystal cell with multiple operating modes. The present invention relates to a display device comprising:

Demand for display devices that can display large amounts of complex information is increasing. ing. This requires display devices to be multiplexed to extremely high levels. There is a point. Typically, 100 or more multiplexes are required. Additionally, the display device requires low power consumption, can operate at low voltage, and is portable. Ru. An example is a portable personal convenience store.

Liquid crystal display devices have a low driving voltage (1 to 2 V) and consume very little power. Although it satisfies the second requirement of being small, the visual effects are is low. For typical twisted nematic devices, the degree of multiplexing is low (e.g. 6 4 or less), the higher the multiplexing level, the lower the contrast and the viewing angle. The degree is limited. Furthermore, even if the degree of multiplexing is reduced, a polarizer is still required for operation. Images tend to be dull.

This dullness can be overcome by dimming the surrounding lighting, but this requires some kind of light source. is necessary.

A recently developed display device using a super twist type liquid crystal device There is. These display devices have a very high degree of multiplexing and Both the strike and viewing angle are good. Increase the level of multiplexing in these devices. In order to achieve this, a sharp voltage threshold is required, and to achieve this, the By setting the twist degree to about 270° and increasing the surface slope, the twist can be improved. It is sufficient to stabilize the strike-shaped structure. Various super twist type display devices be. An example is given in "Japan Display" 83, pages 396-399. , M, Wa t e rs, V, Br j mme I and E, P.

A paper published by Raynes (1983L) and a later paper by the same author (1985) Mo1. Paper published in "Liq, Cryst," 123, pp. 303-319. It is described in. In this display device, dyeable multicolor dyes are arranged in the liquid crystal host. It matches. The operation of such display devices is similar to that of hosts with high birefringence. (so-called Hei1mejer type) or without using a polarizer. By using a host with a low birefringence index (so-called o r form).

The most common supertwist display device uses birefringence in undyed liquid crystals. This is based on the ``J, Apl) 1, Phys,'' 58, No. 3022. -T on page 3031.

Beginning with J. Scheffer and J. Nehring (1985) Proven. Similar to twisted nematic display devices, these super Twisted birefringence effect (SBE) display devices require two polarizers. , so the image is inherently dull, rather than a twisted nematic LCD. It also tends to get darker. One way of operating a typical SBE display device is to The selected or switched segment appears dark against a bright background. background color , for example green or yellow, depending on the configuration of the display device.

In addition, recently, fluorescent LCDs have been developed by Van Ewyk et al. An article published on pages 115-160 of the October 1986 issue of fluorophors f.

r1iquid crystal displays”. For display devices, the visual effects of luminescent images and the desirable electrical properties of liquid crystal technology is combined. This device contains anisotropic fluorescent dyes, especially perylene diesters. Quest host nematic (Hei1meier type) display device be. Either the dye emits fluorescence directly due to the light absorbed by the dye, or the light is absorbed by the liquid crystal host. , the energy is transferred to the dye, which indirectly causes it to emit fluorescence. Fluorescence anisotropy Due to the Turn off. Van Ewyk et al. have developed a display with a bright background using ultraviolet light. In the case of a device, indirect light emission is preferable. The reason is that the green background is dark This is because the segments appear and the color contrast of the direct emissive display device This is because the color (blue on a green background) is unacceptable. Indirect light display device The viewing angle is hemispherical, the brightness is uniform, the contrast is good, and the viewing angle is hemispherical. Operating voltage is low (1-2V). Furthermore, even if the surroundings are bright, the displayed information will not disappear. No (disappears with other emissive display devices).

SUMMARY OF THE INVENTION It is an object of the present invention to provide an improved super twist type liquid crystal display device. be.

According to the present invention, a super-twisted nematic liquid containing a pleochroic dye a crystalline host material, and a display device displays the emission spectrum of the fluorescent dye. Select display device parameters to have a covering transmission wavelength spectrum A liquid crystal display device is provided.

Regarding the accompanying drawings showing a schematic cross-sectional view, including a partially exploded view, of a liquid crystal cell according to the present invention. Embodiments of the invention are described for purposes of illustration only.

The liquid crystal cell 1 consists of a liquid sealed between glass plates 2 and 3 with an interval of 6.5 μm, for example. It consists of a crystalline substance 1. The inner surface of each glass plate is made of e.g. indium tin oxide. A thin transparent conductive layer 4.5 is provided. Each conductive layer is patterned to create the desired electrode configuration. turn into a A thin surface matching layer 6.7 is installed on each plate to tilt the liquid crystal. Let's go. These layers consist of polished polyimide. High efficiency and high brightness on the outer surface of each plate 2.3 A polarizing film of 8.9 degrees is laminated.

Preferably, the transmission wavelength spectrum of the display device matches the emission spectrum of the fluorescent dye. The film is oriented so as to include the Ru. A transflective layer 10 is provided on the outer surface of the membrane 9. and an electroluminescent panel for illuminating the cell with backlight through a layer 10 thereon. 11 will be provided. This electroluminescent panel 11 emits green light and its peak at 500 nm. There is a track output.

The liquid crystal material body 1 consists of liquid crystal mixture 14954 manufactured by BDH, and a sufficient amount of Addition of anisotropic pleochroic fluorescent dye to produce sufficient fluorescence without reaching the solubility limit obtain. For example, 1% by weight of di(4- pentylbicyclo[2,2,2]oct-1-yl). 6 The helical pitch is μm.

In the backlight illumination mode, the display device operates in transmissive mode, and the display device operates in a transmissive manner. The light excites the fluorescent dye in the liquid crystal. The absorption and fluorescence of dyes are anisotropic. , the selected segment becomes darker. No display device selected In areas, however, fluorescent light is emitted and constitutes a bright background for the display device. do. The parameters of the display device are that its transmission spectrum is the emission spectrum of the fluorescent dye. Select to match the spectrum. Traditionally designed display devices have The light that would otherwise be emitted is used in the present invention to emit fluorescence. Therefore, fluorescence The effect of dyes enhances the brightness and visual effects of display devices.

In another embodiment (not shown), the Configure display devices. In this case, doping with the required amount of compound CB15 Almost treated nematic liquid crystal with high birefringence such as BDH E7 and E63. Add 1% of the above dye. This display device has one polarizer in front of it. is required and operates by indirect excitation of the fluorescent dye by ultraviolet backlight.

In yet another embodiment operating in White-Taylor mode, a small amount of 4 -n-pentyl-4″-cyanoterphenylene lvwo blend 1. to increase energy transfer. Mixed compound of cyclohexane which can be promoted use things In this case, there is no need for a polarizer, and the front and back surfaces are illuminated by ultraviolet light. do it.

The latter embodiment requires the use of ultraviolet light for excitation, making it difficult to use a portable personal computer. This display device cannot be used with battery-operated devices such as convenience stores. However, it goes without saying that it can be used for any suitable externally powered equipment.

Note that all of the above embodiments emit fluorescence directly and/or indirectly depending on the application. It is something that lights up and can operate.

In any case, display device parameters such as cell thickness, surface slope, and liquid crystal properties are important. The meter detects that the transmission wavelength spectrum of the device matches the absorption and emission spectra of the fluorescent dye. Select to include. As will be clear to those skilled in the art, the parameters can be optimized .

Although a green fluorescent dye was used in the embodiment described above, other suitable materials may be used in the present display device. Any suitable dye can also be used.

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Claims (12)

[Claims] 1. Super twisted nematic liquid crystal host material containing pleochroic dye , and the display device has a transmittance that encompasses the emission spectrum of the fluorescent dye. A liquid crystal display with display device parameters selected to have a wavelength spectrum. spray equipment 2. 2. The liquid crystal display according to claim 1, wherein the fluorescent dye emits fluorescence upon direct impact with light. play equipment. 3. Claim 1: The fluorescent dye emits fluorescence due to the impact of light on the liquid crystal host material. The liquid crystal display device described. 4. The liquid crystal display according to claim 2 or 3, which receives light from the viewing side of the display device. spray equipment. 5. Claim 2 or 3, wherein the light is received from the side opposite to the viewing side of the display device. LCD display device. 6. The liquid crystal display according to any one of claims 3 to 5, wherein the light is ultraviolet light. Device. 7. Claim 1, further comprising an electroluminescent panel (11) on the opposite side of the display device. The liquid crystal display device according to item 5. 8. The fluorescent dye is di(4-pentylbicyclo[2.2.2.]oct-1-yl) Any of claims 1 to 7, which is perylene-3, 9 or 10-dicarboxylate. 2. The liquid crystal display device according to item 1. 9. Claims 1 to 8, wherein the twist of the liquid crystal host material is in the range of 120 to 360°. The liquid crystal display device according to any one of the above items. 10. A pair of spaced apart glass plates (2, 3), a liquid crystal host sealed between them a conductive material layer (4, 5) with a pattern formed on the inner surface of each glass plate; ) and a non-patterned surface matching layer (6, 7) provided on the conductive layer. The liquid crystal display device according to any one of items 1 to 9. 11. Super twisted birefringence containing anisotropic pleochroic fluorescent dye A high-density nematic liquid crystal host material body and a display device provided on the viewer side It consists of polarizing means and operates in response to ultraviolet light impinging from the opposite side of the polarizing means. LCD display device. 12. Super twisted birefringence containing anisotropic pleochroic fluorescent dye Consisting of a high rate nematic liquid crystal host material body, which collides with fluorescent dye, emits fluorescence a liquid crystal display operating in response to ultraviolet light and/or ambient light, suitable for Device.