Electro-optic displays
First Claim
1. A display comprising,first and second substrate means provided to either side of a layer of electro-optic material, the first substrate means having thereon at least one electrically resistive surface, electrode means for applying selected voltages to respective points across said resistive surface, said electrode means comprising an array of point electrodes, drive means for applying selected voltages to said electrode means to provide across a pixel an electrical field whose magnitude varies in at least one direction transverse to the thickness of the layer of electro-optic material, thereby to provide a non-uniform optical output across said pixel, wherein said voltage at each point electrode is independently controllable.
2 Assignments
0 Petitions
Accused Products
Abstract
An electro optic display (10) provides an electrode configuration adjacent each pixel which allows a non-uniform electrical field to be applied across the pixel (22) so that the optical output varies in the direction transverse to the pixel thickness. This allows only part of the pixel to be turned ON, or for shading within the pixel, depending on the characteristics of the electro-optic material. In a preferred embodiment the row and column electrodes (14, 17) are each made up of a group of conductive tracks (12, 18) connected into groups by impedance elements (13, 19). Voltage ramps are applied across the electrodes via input electrodes 15 and 20. A multiphase drive scheme is described for ferro-electric and similar materials in which a number of different voltage ramps are applied to a row in succession, and at each phase the appropriate ramps are applied simultaneously to the column electrodes to build up the required pixel shape over a number of phases.
11 Citations
11 Claims
-
1. A display comprising,
first and second substrate means provided to either side of a layer of electro-optic material, the first substrate means having thereon at least one electrically resistive surface, electrode means for applying selected voltages to respective points across said resistive surface, said electrode means comprising an array of point electrodes, drive means for applying selected voltages to said electrode means to provide across a pixel an electrical field whose magnitude varies in at least one direction transverse to the thickness of the layer of electro-optic material, thereby to provide a non-uniform optical output across said pixel, wherein said voltage at each point electrode is independently controllable.
-
4. A display comprising,
first and second substrate means provided to either side of a layer of electro-optic material, the first substrate means having thereon at least one electrically resistive surface, electrode means for applying selected voltages to respective points or regions across said resistive surface, drive means for applying selected voltages to said electrode means to provide across a pixel an electrical field whose magnitude varies in at least one direction transverse to the thickness of the layer of electro-optic material, thereby to provide a non-uniform optical output across said pixel, wherein said electrically resistive surface is a continuous electrically resistive surface, and said electrode means comprises a plurality of electrodes for applying selected voltages to respective points or regions on said resistive surface, and wherein said plurality of electrodes comprises an array of point electrodes for applying selected voltages to the respective points at spaced locations across the electrically resistive surface, wherein said voltage at each point electrode is independently controllable.
-
5. A display comprising,
first and second substrates provided to either side of a layer of electro-optic material, the first substrate having thereon at least one electrically resistive surface, a plurality of electrodes for applying selected voltages to respective points or regions across said resistive surface, a voltage source for applying selected voltages to selected electrodes of said plurality of electrodes to provide across a pixel an electrical field whose magnitude varies in at least one direction transverse to the thickness of the layer of electro-optic material, thereby to provide a non-uniform optical output across said pixel, and wherein said electrically resistive surface is a continuous electrically resistive surface, and said plurality of electrodes comprises an array of point electrodes for applying selected voltages to the respective points at spaced locations across the electric resistive surface, wherein said voltage at each point electrode is independently controllable.
-
6. A method of operating a display comprising first and second substrates provided to either side of a layer of electro-optic material, the first substrate having thereon at least one electrically resistive surface, and the display further comprising a plurality of electrodes for applying selected voltages to respective points or regions across said resistive surface, wherein an array of pixels is defined for the display, the method comprising:
-
applying selected voltages to selected electrodes of said plurality of electrodes to provide across one or more pixels an electrical field whose magnitude varies in at least one direction transverse to the thickness of the layer of electro-optic material, thereby providing a non-uniform optical output across said pixel, wherein said electrically resistive surface is substantially continuous and said plurality of electrodes comprises an array of point electrodes for applying selected voltages to the respective points at spaced locations across the electrically resistive surface, wherein said voltage at each point electrode is independently controllable, wherein applying selected voltages to selected electrodes comprises providing peak voltages selected for each selected electrode; and
providing an area of optical output around each selected electrode determined by the selected voltage applied thereto.
-
-
7. A display comprising:
-
first and second substrates provided to either side of a layer of electro-optic material, the first substrate having thereon at least one resistive surface;
an array of point electrodes for selectively applying voltages to points on the resistive surface; and
voltage drivers for applying selected voltages to the point electrodes of the array to provide voltages varying between point electrodes on the resistive surface and hence electrical fields between corresponding points on the first and second substrates and the optical output of the electro-optic material vary in accordance with the voltages varying between point electrodes, wherein said voltage at each point electrode is independently controllable. - View Dependent Claims (8, 9, 10)
-
-
11. A method of driving a display having first and second substrates provided to either side of a layer of electro-optic material, the first substrate having thereon at least one resistive surface, an array of point electrodes for selectively applying voltages to points on the resistive surface;
- and voltage drivers for applying selected voltages to the point electrodes of the array, the method comprising;
selectively applying different voltages to at least two different point electrodes of the array to establish voltage gradients between said two different point electrodes across the resistive surface, wherein said voltage at each point electrode is independently controllable;
thereby driving the display such that a threshold voltage for the layer of electro-optic material is exceeded at a point between the two different point electrodes.
- and voltage drivers for applying selected voltages to the point electrodes of the array, the method comprising;
Specification