DE2619368A1 - Alphanumeric liq. crystal display - includes fluorescent plate having light apertures each with dielectric reflector - Google Patents

Abstract

The liq. crystal display for representing alpha-numeric information in colours has a liq. crystal layer between front and rear electrodes, with a fluorescent plate (8) behind the crystal layer. This fluorescent plate (8) is made from a material having a refractive index greater than 1, containing dispersed fluorescent particles and with light apertures corresponding to the individual display zones. Each of the light apertures contains a frequency selective dielectric reflector (12, 13), with the reflected colours lying in the emission spectrum of the fluorescent particles. Pref. the light apertures are provided in the rear of the fluorescent plate (8).

Description

Liquid crystal display with a fluorescent panel.

The invention relates to a liquid crystal (LC) display for colored Presentation of information with a range between different optical Switchable states, preferably between a front and a rear electrode FK-layer located and with a viewing direction behind the BE-layer arranged plate (fluorescent plate) made of a material with a refractive index greater than 1 and a fluorescent addition as well as the individual switchable Contains mirrored light exit windows assigned to FK areas.

Such a display has already been proposed (patent application P 25 54 226). It provides high contrast, as much of it is on the fluorescent plate hitting ambient light through fluorescence scattering and subsequent total reflection held inside the plate, distributed there and finally attached Light emission windows is decoupled into the FE cell with a relatively high intensity. The depicted Symbols are there and so brighter, the greater the ratio of light-animating to the light-emitting plate surface.

The invention has set itself the task of the display described while preserving their advantages, to modify them with the simplest possible means in such a way that Symbols can be displayed with a freely selectable color. In particular different characters should light up in different colors, for example in the case of a two-digit alphanumeric display, the first digit in the color A and the second digit in color B. This is the input on a display mentioned type according to the invention provided that the light exit window each carry a frequency-selective reflective dielectric mirror, the Colors reflected by the dielectric mirrors in the emission spectrum of the fluorescent Supplements are included. If you want to display symbols of different colors, you have if necessary, to take a mixture of fluorescent substances and those associated with the individual symbols Match the mirror to the frequency of the symbol color.

Frequency-selective reflecting dielectric mirrors stand out as a result of the fact that - in contrast to color filters, for example - they did not reflect Light component not: absorb. With a suitable design, the exit window remains this proportion (ambient light, possibly fluorescent light of a non-reflected Color and possibly light of additional lighting) inside the plate and is still available as excitation light for the dissolved fluorescent substances.

You can also use dielectric mirrors manage without color-selective polarizers. You can even use a polarizer save entirely because dielectric Mirror with the right choice of The angle of incidence to the plate normal is essentially only linearly polarized light decouple. This is the case when light falls on the mirror in such a way that the refracted is perpendicular to the reflected beam (Brewster's law). One can In addition, do without any polarizer if you use the Observes Brewater's condition and additionally selects a nematic liquid crystal, which is uniformly homogeneous in the state of rest and parallel to the plane of oscillation of the linearly polarized Fluorescent light is oriented, in 'switched (controlled) state adopts a homeotropic texture and also a pleochroic dye (dye mixture) contains, which in the idle state the bluorescence light strongly, in the switched state against it poorly absorbed. The display according to the invention can finally also oble Decoupling of a linearly polarized light from the fluorescent plate completely operated polarizer-free, namely when you have a cholesteric liquid crystal substance with a homeotropic orientation in the switched state takes and in this substance stores one of the usual pleochroic dyes (dye mixtures).

The light density that can be achieved with the fluorescent plate can still be further increase or maintain even with reduced transverse dimensions of the plate, if the LC cell located in front of the plate is used for the excitation light of the fluorescent substances makes transparent. For this purpose, such polarizers must be used for designs with a polarizer that only polarize the fluorescent light (color-selective polarizers). In the case of versions with pleochroic color additives, these dyes must have the property the excitation light weak and the fluorescent light strong to absorb, in the activated state, however, the fluorescent light unhindered to let it happen.

The high light output associated with the dielectric mirrors comes into play especially when the display is equipped with additional lighting is> the lowest possible power consumption, especially with battery operation should have. This applies in particular to light sources integrated in the fluorescent plate, for example light-emitting diodes, fluorescent lamps or incandescent lamps.

The invention is now based on preferred embodiments in Connection with the figures of the drawing are explained in more detail. Corresponding to each other Parts are given the same reference numerals. They show: FIG. 1 a first Embodiment of a display according to the invention in a cross section and from seen above; 2 shows a second embodiment according to the present invention, in the same manner of representation as FIG. 1.

Fig. 1 shows a two-digit alphanumeric liquid crystal display. In detail, the display contains a linear polarizer 1, one with a segmented one Electrode (3-segment electrodes of the first position 2, segment electrodes of the second Point 3) provided front carrier plate 4, a liquid crystal layer 5, a rear carrier plate 7 coated with a continuous electrode 6, another Linear polarizer 18, a fluorescent plate 8 and a back plate 9. All parts are listed one after the other in the direction in which they are viewed arranged; a spacing frame is also located between the two carrier plates 4, 7 10 inserted; likewise, the linear polarizer 18 and the fluorescent plate 8 are separate from one another spaced. The back plate 9 is also not in optical relationship with the fluorescent plate 8 Contact; it is only there to absorb the transmitted light and thus the to make the fluorescent plate in front of it appear as dark as possible.

All parts can be made from the usual materials, suitable fluorescent plates are already on the market.

The fluorescent plate has notches 11 on its rear surface, which each assigned to one of the segment electrodes and a dielectric mirror wear. The mirrors for the notches assigned to the first position are marked with 12, denoting the mirrors for the notches assigned to the second point with 13. The cavities remaining in the notches are in the present case with fillings 14 closed, which consist of the same material as the fluorescent plate.

The mirrors 12, 13 reflect yellow or red and are off as usual several layers of optically different density dielectric layers with certain Composite thickness. Further details of the mirror structure can be found in the DT-OS 23 12 659.

In the illustrated embodiment, the fluorescent plate contains a Mixture of a yellow and a red fluorescent substance; both fluorescent substances are stimulated by green light.

Dc.r liquid crystal is a nematic substance with positive dielectric Anisotropy. It has a uniformly homogeneous wall orientation and is in the direction of of the plate normal twisted by 90 °. With polarizers parallel to each other 1 and 18 bright yellow digits appear on the on a dark background first position and bright red digits in the second position.

The embodiment of FIG. 2 differs from that described Version in the formation of the light exit window, in the texturing of the FK layer as well as in the l'olarisatox arrangement.

The light exit window: ind on the front surface of the fluorescent plate arranged and have an "H" -shaped profile (rectangular channels with drawn-in, pointed bottom). The floor surface forms with the plate normal (dash-dotted Line 16) the so-called polarization angle αT. This shape means that in linearly polarized light coupled out a limited solid angle range. the In the resting state, LC molecules lie in the plane of the plate parallel to the plane of oscillation of the incident fluorescent light and stand vertically when activated to the plate level. There are two pleochroic dyes in the liquid crystal layer solved, which absorb the fluorescent light in the resting state and when voltage is applied let this light through unhindered. In front of the front support plate is a diffusion plate 15. This plate serves to spread the liquid crystal layer in to diffuse light penetrating a relatively limited angular range and thus also allow larger viewing angles. So that the execution of Fig. 1 can display even in poor lighting conditions in the area, is in the fluorescent plate has an additional light source 17, a light-emitting diode, poured.

The invention is not limited to the exemplary embodiments shown. In this way, the individual FK areas can also pass through instead of electrical voltages Temperature changes are switched. The proposed display can therefore also as a thermometer and generally as a measuring device for voltages or Use physical variables converted to temperatures. Apart from the various The display versions described can be used within the scope of the invention can also be modified structurally, for example by the fact that the notches wear simple reflective layers and for this on the front surface of the fluorescent plate, roughly aligned with these notches, frequency-selective translucent dielectric Layers are placed.

7 claims 2 figures L e r s e i t e

Claims (7)

P a t e n t t a n s n r u c h e 1. Liquid crystal display for colored Representation of information, with a range between different states switchable, preferably between a front and a rear electrode befinf3-li chen liquid crystal layer and with a gift in the viewing direction behind the liquid crystal layer arranged plate (fluorescent plate), which consists of a Material with a refractive index greater than 1 and a fluorescent additive as well as the individual switchable liquid crystal areas assigned, mirrored Light exit window contains that in particular to display different colored symbols, numbers or the like, the light exit window each have a frequency-selectively reflecting dielectric Carry mirrors (12,13), which reflected from the dielectric mirrors (12,13) Colors are included in the emission spectrum of the fluorescent additive. 2. Liquid crystal display according to claim 1, d a d u r c h g e k e n It should be noted that the light exit window is on the back of the fluorescent plate (8) located and with dielectric mirrors (12,13) coated notches (11) included and that the depressions produced by the mirrored notches (11) in the fluorescent plate (8) are provided with filling (14) made of the same Material such as the fluorescent plate (8) are made. 3. Liquid crystal display according to claim 1 or 2, d a d u r c h g It is noted that the dielectric mirror is aligned with the normal to the plate (16) form a W11 = el (polarization angle αT) at which the exiting Light is essentially linearly polarized. 4. Liquid crystal display according to one of claims 1 to 3, whose Light exit window located on the back of the fluorescent plate and with Notches coated with mirrors contain notches that indicate n e t that the fluorescent plate (8) on its front in front of the notches (11) each has a dielectric layer that is frequency-selective transparent is. 5. Liquid crystal display according to one of claims 1 to 4, d a d It is noted that the liquid crystal layer is nematic Substance that is uniformly homogeneous in the state of rest, possibly in parallel to the plane of oscillation that emerges linearly polarized from the fluorescent plate Fluorescence radiation, is oriented and, in the switched state, a homeotropic one Texture and contains at least one pleochroic dye that the fluorescent light Strongly absorbed in the resting state, but only weakly absorbed in the switched state. 6. Liquid crystal display according to claim 1, 2 or 4, d a d u r c h G e k e n n n z n i c it helps that the liquid crystal layer is cholesteric Substance is focal conical in the resting state and homeotropic in the activated state is oriented and contains at least one pleochroism dye that contains the Fluorescent light is strongly absorbed in the idle state, only weakly absorbed in the activated state. 7. Liquid crystal display according to one of claims 1 to 6 d a d u r e k e k e n n n z e i c h n e t that a light source in the fluorescent plate (8) (17) is integrated.