DE3900871A1 - ACTIVE DISPLAY ELEMENT ON A LIQUID-CRYSTAL BASE - Google Patents

Abstract

In an LC display device comprising transparent electrodes 2a, 2b, orientation layers 3, the LC material is of the ferro-electric-smectic type and a linearly polarised light from source 5 is introduced laterally into a rear glass plate 1a and emerges via a light scattering layer 6 on a front glass plate 1b whereby the device is operable independent of ambient light or visual angle, has high resolution capability, short switching times and low temperature dependency. Incident light 8 is either totally internally reflected or refracted in dependence upon the absence or presence of an applied electric field which alters the refractive index at the interface between orientation layer 3 and LC material 4. Instead of a separate layer 6, the surface of plate 1b may be roughened to provide the scattering. The display may be of the segment or matrix type. <IMAGE>

Description

 The invention relates to an active display element, which for Information display applicable in a wide variety of areas is.

Display systems based on crystalline liquid effects are in the State of the art is well known. To recognize the represented Information becomes external lighting devices used to improve contrast especially at low To achieve ambient light. Such lighting devices usually serve to evenly illuminate the background and therefore do not change the structure or the mode of operation the liquid crystal cell. In DE-OS 29 33 312 this on the side of the LC display element facing away from the viewer a UV lamp with a fluorescent layer is arranged.

A similar solution is described in DE-OS 30 37 224, at which the liquid crystal cell over a arranged on its back electroluminescent layer. Due to the UV However, radiation can shorten the lifespan, as they become photochemical in the liquid crystal layer Leads reactions. Another solution to increase the contrast the information displayed through a uniform background radiation is described in DD 2 13 257. The illumination is done by light-emitting semiconductor chips that between the liquid crystal cell and one arranged behind it Disc located, the front light-scattering and is reflective on the back. As a disadvantage in the exploitation of electro-optical effects based on interference phenomena affect that a not exact Cell optimization as well as temperature fluctuations and inhomogeneities the layer thickness of the liquid crystal to color or Contrast errors in the presentation of information.  

In DD 2 50 191 an arrangement is set out in the side radiated light depending on the state of orientation of the liquid crystal molecules at the interface with the liquid crystal layer reflected or broken into the layer becomes. The disadvantages of this solution result from the exploitation of the DSM effect. The associated high operating voltages, the relatively long switching times, the short lifespan as well as the limited resolving power prevent a wider one Application, such as for large-area display elements. Acts as disadvantageous in common electro-optical effects still out that due to the necessary polarizers for a considerable part of the light is lost and other limited viewing angles of the information presented occur.

The aim of the invention is a liquid-crystalline display element for the presentation of clearly visible information, which by a technologically easy to implement construction is an economical one Guaranteed manufacture and high reliability and image quality.

The invention has for its object an active liquid develop crystalline display element with which information regardless of the ambient light, high contrast and viewing angle independent can be represented and which is characterized by high Resolving power, low temperature dependence and lower Excellent switching times.

According to the invention, the task is performed by an active display element on a liquid-crystalline basis, consisting of a liquid crystal cell with the structure: glass plate-transparent electrodes- Orientation layer-liquid crystal-orientation layer-transparent Electrode glass plate, the transparent electrodes can be designed as a segment, full or matrix display, and from a lighting device for lateral irradiation of linearly polarized light in the rear, the viewer  facing away, glass plate, solved in that the liquid crystal is a ferroelectric smectic liquid crystal and that on the side of the liquid crystal cell facing the viewer a light-scattering layer is arranged.

To ensure a defined state of total reflection the liquid crystal must be oriented so that the molecular axes in the optically closed state perpendicular to the direction of polarization of the incident light.

With the invention, a display element on liquid-crystalline Basis for the presentation of clearly visible information on the Provided by a technologically easy feasible structure ensures cost-effective production and at the same time through high reliability and picture quality distinguished.

The invention will be described in more detail using an exemplary embodiment are explained. In the accompanying drawing shows

Fig . 1 shows the schematic structure of the display element according to the invention.

The active display element consists of a liquid-crystalline base from the well-known layer structure:

Glass plate 1 a - transparent electrodes 2 a - orientation layer 3 - liquid crystal 4 - orientation layer 3 - transparent electrodes 2 b - glass plate 1 b . To form the matrix, the transparent electrodes 2 a and 2 b are formed in strips and lying perpendicular to one another. The display element further consists of an illumination device 5 for the lateral irradiation of linearly polarized light 8 in the glass plate 1 a and is further characterized in that the liquid crystal is a ferroelectric-smectic liquid crystal 4 and that on the side of the liquid crystal cell facing the viewer is a light-scattering Layer 6 is arranged. The ferroelectric-smectic liquid crystal 4 is oriented such that the longitudinal axes of the molecules in the optically closed state are perpendicular to the direction of polarization of the incident light 8 . The function of the display element is based on a controllable total reflection using an electrically induced change in refractive index. The lighting device 5 is adjusted so that the polarized light falls into the glass plate 1 a on one side and emits the entire interface between the orientation layer 3 and the liquid crystal 4 . The orientation layers 3 made of SiO lead to a defined starting orientation, in which the molecular longitudinal axes of the liquid crystal 4 lie perpendicular to the direction of polarization of the incident light 8 (corresponds to refractive index n ₀). The liquid crystal molecules are reoriented by excitation with an electric field, which results in the refractive index changing to the value n _e . The angle of incidence a is selected so that in the initial state, ie at n n , it is slightly above the critical angle of total reflection β at the interface between the orientation layer 3 and the liquid crystal 4 and the light beam is totally reflected in accordance with the beam path I. By reorientation, n _{e of} the liquid crystal 4 is generated. Since n _e < n ₀, the critical angle of total reflection β also increases at said interface, so that the angle of incidence α is now below this critical angle b and the light beam is broken into the liquid crystal 4 in accordance with the beam path II and then through the light-scattering Layer 6 is scattered in all directions of the half space in front of the glass plate 1 b . The glass plate 1 b may be light scattering even also by an increased surface roughness or other methods may be omitted so that the light-scattering layer. 6

The layer thickness of the liquid crystal layer 4 is 2 μm and is set by spacers 7 . For large-area display elements, it is advantageous to position the spacers 7 not only on the periphery of the component but also in the middle. In order to prevent these spacers 7 from leading to disruptive light spots on the display if the dimensions are too large, low-refractive material is used for this, so that total reflection occurs at these points.

Ideally for the mode of operation would be the use of a ferroelectric-smectic liquid crystal 4 with a theoretical tilt angle of 45 °. The ferroelectric-smectic liquid crystal 4 used , which has a tilt angle of less than 45 °, leads to the fact that in the excited state only part of the incident polarized light 8 is broken into the liquid crystal 4 and is shown on the display. The other part of the incident polarized light 8 is reflected, as in the optically closed state, at the interface between the orientation layer 3 and the liquid crystal 4 . This only results in a reduction in the intensity of the information displayed; the functionality is not affected. In the exemplary embodiment described, the materials listed in Table 1 were used for the individual elements.

Table 1

The display element described is for information display by realizing segment, full or matrix displays applicable in various areas. The specific advantages the invention are primarily in the active character, which the Display is independent of the ambient light, in the improved Image quality characterized by a high resolution is in the very short switching times and in the high multiplex rate. This makes it possible to build given large-area display elements. The active ferroelectric-smectic display element also stands out through a technologically simple structure and an inexpensive one Made from. Another very important advantage of the display element according to the invention is that none Contrast fluctuations in the information displayed as a result existing layer thickness inhomogeneities occur.

1 a, b glass plates
2 a, b transparent electrodes
3 orientation layers
4 liquid crystal
5 lighting device
6 light scattering layer
7 spacers
8 linearly polarized light
α angle of incidence of polarized light 8
β critical angle of total reflection
I Beam path in the optically closed state
II Beam path in the optically open state.

Claims (2)

1. Active display element on a liquid-crystalline basis, consisting of a liquid crystal cell with the structure: glass plate - transparent electrodes - orientation layer - liquid crystal - orientation layer - transparent electrodes - glass plate, wherein the transparent electrodes can be designed as a segment, full or matrix display, and from an illumination device for laterally irradiating linearly polarized light into the rear glass plate facing away from the viewer, characterized in that the liquid crystal is a ferroelectric-smectic liquid crystal ( 4 ) and that on the side of the liquid crystal cell facing the viewer there is a light-scattering layer ( 6 ) is arranged. 2. Display element according to claim 1, characterized in that the ferroelectric-smectic liquid crystal ( 4 ) is oriented so that the longitudinal axes of the molecules are in the optically closed state perpendicular to the direction of polarization of the incident light ( 8 ).