DE3907671A1 - Method of making passive displays addressable for touching, with the capability of controlling displayed or otherwise established operating functions or parameters on their surface - Google Patents

Abstract

Particularly in displays with a matrix structure, control can be achieved using the electrodes which are already present and used for electro-optical effects, so that application of additional layers to the unit during manufacture is unnecessary, and optical reflection losses can be reduced. This is achieved in that these electrodes are connected in a different way as capacitance sensors, which respond to a finger touching the overlaid surface.

Description

The invention relates to a method, passive displays for touch close addressable, with the possibility to control displayed Larger surface, especially for matrix-like displays Area expansion, as used for screens in the EDP area will.

Passive displays are used in many areas of technology. Because of their low weight, their small depth dimensions, their low power consumption and other advantages, they are becoming more and more widespread, also with computer screens ( see also : Knoll, PM: "Displays"; Heidelberg 1986).

Depending on the area of application, there are a number of options displayed or otherwise defined operating functions and parameters select and control where the operator from outside of the display, usually using a keyboard to change the image screen information and other related procedures triggers.

Recently found in connection with cathode ray displays tube capacitance sensor systems that are transparent and front use are arranged on the screen and which is a direct change and Selection of the parameters, functions, procedures displayed etc. by touching the capaci fields in front of them enable sensor system: "touch screen", "touch panel" (e.g. U.S. Patent 4,233,522).

In design terms, this requires a separate layer of capacity sensors applied to the front of the screen, must be glued etc. Consequence of applying additional trans Parent layers, however, is a reflection loss of the penetrating Light at their interfaces.

Due to the different construction and functioning of a passive Displays result from the application of the construction just mentioned for this particular problem. Here are the achievable contrasts usually not as high as a cathode ray tube. The most anyway less than optimal readability would be an additional  applied transparent layer by the occurring reflection losses worsen. In addition, the manufacture and the Connect the sensor layer to the screen surface additional manufacturing steps.

These disadvantages are to be overcome by the invention. task The invention is therefore addressable passive displays for touch to display a way to control and select ter or otherwise defined operating functions and parameters and the related procedures are such that whose operation is simple and not tiring, the occurring re loss of flexion can be kept as low as possible and the manufacturing technical effort can also be reduced.

The task is based on the device described above solved according to the invention in that the electrodes of the electro-optical variable medium of the display other than their use for it Serve as part of a system of capacitance sensors, which actually represent RC elements with each other or in Ver form a pure C-link with an additional electrode layer.

By such a method it is achieved that the manufacture its own layer of capacity sensors and the manufacturing step the application of the same can be dispensed with and that the Loss of reflection compared to an ordinary one, not with a "touch panel "provided passive display can not be increased here the control panel right in the field of vision, what when working on image shielding is less strenuous and is very easy to operate. Compared to processes that are operated in devices in which a "touch panel" arranged as a separate layer in front of a screen is, only one change is required in the described method most of the switching of the electronic associated with the electrodes Circuit that can be designed differently:

Usually takes place to feed a capacitive single element Use an AC voltage for a shorter or longer period of time the electrodes are placed, which is the single element in an arrangement Form two or three at a time. On the other hand  possess the substances from which the electro-optically variable medium of Displays exists, storage properties for the currently set State of transparency over different periods of time. this is also valid for certain types of liquid crystal material (see Knoll, P. M .: "Displays"; Heidelberg 1986, pp. 189-194). To change the transparency only a relatively short-term current flow is necessary in each case.

In a preferred procedure, the electrodes are therefore in two different, sequential operating modes used:

• a) with it applied to operate the electro-optically variable Layer transient voltage to change their transparency and
• b) with attached to them to operate the electro-optically variable Layer subliminal AC voltage to form, possibly Switched in a different arrangement, individual capacitance sensors that with be connected to a detector circuit.

According to a further idea of the invention, especially if a longer one for the control of the electro-optically variable medium continuous AC flow is required, any, just not driven electrodes using a, for operating the electro-optically variable layer subliminal, AC voltage serve as parts of individual capacitance sensors.

According to still further ideas of the invention, a method would be presented bar, in which the controlled electrodes as parts of individual capacitance sensors are used by the to feed their capacitor fields and those for operating the electro-optically variable layer required AC voltages of different frequencies are and can be applied to them simultaneously or by making these two identical are. Direct voltages would also be considered for the latter.

It can improve the switching properties of the capacitance sensors may be useful, the display on one of its surfaces, preferably on the surface facing away from the viewer, another elec assign electrode layer or single electrode.

A further embodiment of the invention, also in other than that specified uses should not be anticipated here.

Claims (11)

1. method of making passive displays addressable for touch, with the ability to control displayed or otherwise specified Operating functions and parameters on their surface, in particular for displays with a matrix structure, at least consisting of one, in its transparency electro-optical variable medium and electrodes resting on it, characterized in that the electrodes of the electro-optically variable medium for driving it and serve as parts of a system of individual capacitance sensors. 2. The method according to claim 1, characterized in that in the control mode electrodes are connected to a driver circuit and in Sensor mode with an AC voltage source and a detector scarf connected. 3. The method according to any one of claims 1 and 2, characterized in that the electrodes are operated alternately in the control mode and in the sensor mode will. 4. The method according to any one of claims 1-3, characterized in that a number of electrodes in the control mode and at the same time one Number of other electrodes is operated in sensor mode. 5. The method according to any one of claims 1 and 2, characterized in that Electrodes operated simultaneously in control mode and in sensor mode will. 6. Application of the method according to any one of claims 1-5 in EDP view devices. 7. Device operated by the method according to any one of claims 1-6, characterized in that the display on one side another Area or electrode is assigned. 8. Device operated by the method according to any one of claims 1-6, characterized in that the electro-optically variable medium liquid Crystal material is. 9. Device operated by the method according to one of claims 1-6, characterized in that the electro-optically variable medium ferro electrical ceramic material (e.g. PLZT). 10. Device operated by the method according to any one of claims 1-6, characterized in that the electroaptically variable medium a is colloidal suspension.   11. Device operated by the method according to any one of claims 1-6, characterized in that the electro-optically variable medium due to a reversible electrochemical reaction in its translucent light speed is changeable and possibly from several individual layers consists.