CH635690A5 - Liquid-crystal display device - Google Patents

Description

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2nd

CLAIMS adjacent molecules of the nematic liquid crystal are

1. Liquid crystal display device, characterized in that it is aligned at right angles to the direction of those molecules by a liquid crystal cell made of a thin layer which adjoins the other substrate. Material with a tric anisotropy, a first and a second transparent positive dielectric anisotropy is used as the nematic liquid crystal material with a negative dielectric liquid crystal material. If a polar electrode, which adheres firmly to a first or rised light beam through such a liquid crystal cell, is attached to the second substrate, the thin nematic, the polarization direction of the light is rotated by 90 °. Include liquid crystal layer between the electrodes; If such a liquid crystal cell is arranged between a polarisa - a first and a second polarizer, which are firmly adhered to the gate and analyzer and whose planes of polarization are perpendicular to those surfaces of the first and second substrates, then passes through the cell and contact, which do not wear the electrodes; Distance and the analyzer polarized light as long as the Polarisati sealing means, which are sealing between the ends of the plane of the polarizer parallel or at an acute angle to the electrodes, the liquid crystal mole- with respect to the alignment of the closest to the polarisole, which are oriented in a direction parallel to the substrate of liquid crystal molecules that are adjacent in a direction parallel to the plane of the first subor, is closer to the first electrode. This known liquid crystal cell appears shiny and the liquid crystal molecules, which are parallel to or whitish when no voltage is arranged on the electrically conductive plane of the second substrate, are closer to the layers.

second electrode are arranged and form an angle 0 with respect to the application of a voltage to the electrically conductive on the direction of the molecules which are closer to the first layers on the surfaces of the substrates, the mole electrode, the angle 0 between 10 and 20 kuel of the liquid crystal material in the display cell in parallel is 180 ° and the polarization planes of the two polarizers are aligned with the electric field, ie the longitudinal axis ren form an angle 0 + 90 ° with one another, and that of the molecules is perpendicular to the substrate plane. The polarized light passing through the display device as a result of a dynamic scattering cell is indicated by the liquid crystal which occurs when a voltage on the two materials is not rotated. The light emerging from the cell is connected to electrodes. 25 locked by the analyzer. This will make a dark or

2. Display device according to claim 1, thereby receiving black display.

characterized that the liquid crystal is a mixture- Since the twisted nematic method

Starting from p-metoxybenzylidene-p'-n-butylaniline and p-ethoxy effect of an electric field on the molecules for the operation of the benzylidene-p'-n-butylaniline with a weight mixing cell, only a rather small electrical line ratio is used is 1: 1. 30 needed. There are birefringence effects and

3. Display device according to claim 1, thereby a sharp image is only visible if the display cell is marked in that the substrate is a glass plate. is viewed in a direction in which the eyes of the observer

4. Display device according to claim 1, characterized aft substantially opposite the front of the device, that the nematic liquid crystal is a chemical. The angular range within which there is a sharp shear agent that causes the parallel alignment. 35 image can be observed is limited. This disadvantage

5. Display device according to claim 4, characterized limits the use of the display cells characterized in that the chemical agent is silane. known twisted nematic type.

6. Display device according to claim 1, characterized in the case of the dynamic scattering type, nematic flow is characterized in that the nematic liquid crystal contains tetrabutylsig crystal material with a negative, dielectric anisotro-ammonium chloride. 40 pie between two parallel glass substrates arranged so that the longitudinal axis of the liquid crystal molecules perpendicular or par-

is aligned to the level of the substrates. The electrical

The conductivity of the nematic liquid crystal material was increased in advance by suitable additives. Such a display

Display devices with liquid crystals can be a 45 cell is inherently transparent and in the event that a black glossy or whitish image is placed below the cell due to dynamic scattering, the one or the other creates liquid crystal molecules. The scattering is caused by pressure as if the cell has a dark or black surface which disturbs the orientation of the liquid crystal molecules.

when an electric field between the electrodes of the cell when a voltage is generated between the electrically conductive. If 50 surfaces are connected, an ion current flows

A wide variety of display devices have been proposed by the cell that suggest the orientation of the liquid crystal moles with liquid crystals, which generally disturbs a cool. As a result, light rays in many rich cell structures are scattered with a thin layer of liquid crystal matting in the cell. In this way, the display will have an e-rial between two parallel glass substrates, a glossy luminescent or whitish image, each substrate causing an electrically conductive film on a 55.

Side which is in contact with the liquid crystal mate- rial, the display device with dynamic scattering. At least one of the electrically conductive films, which has a high energy consumption as a result of the ion current flowing through the cell in contact with the thin layer of the liquid-crystal material, is the angle at which a rial stands on both sides is transparent. With respect to the sharp image can be observed, compared to the display control of the orientation of the molecules of the liquid crystal cell cell of the twisted type, much larger. When the indicators and the behavior thereof when a dynamic type voltage cell is applied in such a direction between the electrodes, two types of control are contemplated in which the one from the light source is struck, the so-called twisted nematic and the dyna - Light falls directly into the eyes of the observer, this is the Erken-mische scattering method. difficult to display. This difficulty will

In the first method, the molecules of the nematic are formed in the cell by attaching a hood to the type of light-reflecting liquid crystal material such that the cell or by a grid in the translucent cell facilitates the longitudinal axis of the molecules parallel with respect to the plane of the cell. The structure of the liquid crystal display device substrate is. The one on the two parallel substrates is complicated by these additional devices. Also

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for this reason the use of the display cell is parallel to the plane of the substrate 4, however. The angle 9 can be limited in the dynamic scattering type. Range can be varied from 10 ° to 180 °. Polarizers 8 and 9

It is a main object of the present invention, in contact with the outer surfaces of the substrates 3, to provide a display device with liquid crystals or 4. Between the ends of the electrodes 1 fen, in which the advantages of the known cells of the twisted 5 and 2, a circuit with a switch 10 for connecting a nematic type and the dynamic scattering type combined voltage source 11 is provided.

without the disadvantages and difficulties mentioned above. In FIG. 2, a schematic exploded view of the displays of the known devices has to be accepted. 1 shown to the relationship between

This is achieved according to the invention by a liquid crystal polarization planes of the polarizers 8 and 9 and the installation cell made of a thin layer of a nematic liquid rotation angle 0 of the liquid crystal molecules in the display cell to illustrate crystal material with a negative dielectric anisotropy. The plane of polarization of the polarizer 8,

a first and a second transparent electrode which through which polarized light enters the cell is attached in parallel adhering to a first and second substrate for alignment, i.e. the direction of the longitudinal axis are those which enclose the thin nematic liquid crystal layer between molecules of the liquid crystal material which are closest to the electrodes; a first and second 15 of the electrode 1, which are on the rear surface of the substrate 3 polarizer, which is firmly attached to those surfaces of the, as in contact with a large vertical first and second substrate, which are the Elek- arrow in do not wear a tread representing the polarizer 8 according to FIG. 2; Spacer and sealant, which square is shown. The polarization plane of the Polarisa-sealing between the one ends of the two electrodes vorors 9, which can be referred to as an analyzer, is seen so that the liquid crystal molecules arranged in a 20 that it has a further angle of 90 ° with respect aligned in the direction parallel to the plane of the first substrate, the alignment of the liquid crystal molecules which are closest, are closer to the first electrode and are located on the right of the right electrode 2, ie relative to the liquid crystal molecules, which are parallel to the plane of the second twist angle 0 of these molecules. The plane of polarization of the substrate is arranged closer to the second electrode analyzer 9 assumes an angle of 90 ° + 0 with respect to the polar order and an angle of 0 with respect to the direction of the plane of risk of polarizer 8.

Molecules that are closer to the first electrode form, in the event that the twist angle is 0 90 °, the angle 0 is between 10 ° and 180 ° and the polar-1, the liquid crystal molecules in the display cell are not below the station level both polarizers an angle 0 + 90 ° with- | conditions other than those in the known twisted include one another, and the display device displays a clear nematic liquid crystal display cell, except for the image due to dynamic scattering which occurs when a sign of the dielectric anisotropy of the liquid crystals is connected to a voltage to the two electrodes. In this case, the display device corresponds to that

An embodiment in which the polarization planes of the Polarisa exemplary embodiment of the invention are described in more detail below is described with reference to the accompanying drawing. gates 8 and 9, which enclose the liquid crystal cell 7,

They show lying parallel to each other as described below

Fig. 1 is a schematic vertical cross section of a 35.

Liquid crystal display device, The liquid used in the display cell described

Fig. 2 is a schematic exploded perspective view of crystal material has a negative dielectric anisotropy of an electro-optical system to explain the relationship. The electrical conductivity can be increased by a suitable one between the orientation of the liquid crystal molecules and the additive. When the switch 10 is closed to apply polarization planes of a pair of polarizers according to FIGS. 1 and 2 provided in the liquid crystal display 40 to a voltage of the voltage source 11 to the electrodes 1 device, an ion current flows through the cell, which is one

3 shows a graphical representation of the course of the light-dynamic scattering of the molecules, a gloss transmission being displayed as a function of the image which is or is off-white to the liquid crystal cell. The display device placed voltage. device at which the angle of rotation is 0 90 ° can be related

As can be seen from Fig. 1, nematic liquid crystal 45 is viewed on the behavior of the liquid crystal molecules in the display material with negative dielectric anisotropy between the dynamic scattering type, the device-transparent electrodes 1 and 2, which are adherent to a device in relation are attached to the orientation of the molecules in the cell as the side of substrates 3 and 4, where twisted nematic type can be considered.

the substrates 3 and 4 are made of glass and are parallel to one another. FIG. 3 shows an example of the transmission properties which are arranged. The liquid crystal material can be represented with additives 50 liquid crystal cell. From Fig. 3 it can be seen that each be provided. Spacers 6 are placed between the electrical and the angle of rotation 0 90 ° approaches the steeper the rises along the upper or lower end of the same transmission when the threshold voltage is reached, and also serve to seal a thin one. The display device described has, for example

Layer of the nematic liquid crystal material 5 within the following advantages:

by the opposite electrodes 1 and 2 and the 55 1. The contrast between a displayed image and the opposite spacer 6 of a liquid crystal background is substantially as high as that

Display cell 7 defined space. The liquid crystal with the twisted nematic display cells is obtained; molecules closest to electrode 1 according to 2. The angle at which a clear image is viewed

Fig. 1, i.e. the molecules which can be on the left is essentially 180 °;

Part of the liquid crystal material 5 are located in parallel in 60 3. The arrangement of additional devices such as a reference to the drawing sheet and the substrate 3 according to FIG. 1 hood, a grid or the like, around which directly aligned from the. The orientation of the liquid crystal molecules is light rays striking the light source or ambient rays such that they increasingly catch up against the horizontal direction is not necessary;

is rotated when the position of the molecules moves to the right-hand side 4. The value of the threshold voltage is clearly shifted from that of the liquid crystal material 5 in FIG. 1. At position 65 tet. This enables a simple construction of the circuitry of the molecules on the far right of the electrode 2 according to FIG. 1, it is for the operation of the display cell and also enables it to be oriented in a direction rotated in a construction of a matrix-operated display that is simple by an angle 0 from the vertical orientation ; the alignment remains when a cholesteric liquid crystal in the ratio of

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0.1 to 10% to the nematic liquid crystal material of the stall display device, it can be used as a reflective

described embodiment is added so low display device can be used.

the threshold voltage rises to a value which is approx. or less than the same as the liquid crystal material in the above-described Vi, if only a nematic device can be a mixture consisting of p-metoxybene

Liquid crystal material is used in the cell. Accordingly, 5 cylidene-p'-n-butylaniline (MBBA) and p-ethoxybenzylidene

can the display cell at a much lower voltage p'-n-butylaniline (EBBA) with a weight mixture ratio

operated and nevertheless a uniform display of high nis of 1: 1 can be used. To the liquid crystal molecules

Quality. on the glass substrate in parallel with it

The liquid crystal display device according to the film provided on the substrate with a suitable exemplary embodiment can be rubbed with similarly good results in a cloth. A chemical agent such as e.g.

2 by adding polarized light according to FIG. 2 into the silane, which produces the parallel orientation

Cell enters from the right side and the same through the left one. To ensure the electrical conductivity of the liquid crystal

Side leaves. rials up to about 10 ~ 9 s / cm, it is only necessary

When attaching a reflector to the back of the liquid crystal tetrabutylammonium chloride.

G

1 sheet of drawings