Liquid-crystal display device and driving method thereof
First Claim
1. A liquid-crystal display device comprising:
- a first substrate having a first main surface;
a plurality of pixel electrodes arranged in rows and columns on said first main surface of said first substrate;
a second substrate that has a second main surface and is provided so that said second main surface faces said first main surface of said first substrate;
a common electrode that is formed on said second main surface of said second substrate and has a portion facing said plurality of pixel electrodes;
a liquid-crystal layer which is sandwiched between said plurality of pixel electrodes and said common electrode, which has a reflectivity or transmittance that varies according to a first state where a direction of a normal to each twist of liquid crystal in said liquid crystal layer is the same, a second state where said direction of said normal to each twist of said liquid crystal is at random, and a third state where a spiral structure of said liquid crystal has been untied, which has a reflectivity or transmittance with respect to an applied voltage which presents a hysteresis characteristic, and which has an insensitive voltage region where said applied voltage is zero or in the vicinity of zero and a factor other than said applied voltage determines whether to take either said first state or said second state;
a plurality of scanning lines formed on said first main surface of said first substrate so as to correspond to said rows;
a plurality of signal lines formed on said first main surface of said first substrate so as to correspond to said columns;
a plurality of switch elements provided at intersections of said plurality of scanning lines and said plurality of signal lines in a one-to-one ratio, each of said plurality of switch elements having a conducting path and a control terminal that controls conduction in said conducting path, a first end of said conducting path being connected to a corresponding one of said plurality of signal lines, a second end of said conducting path being connected to a corresponding one of said plurality of pixel electrodes, and said control terminal being connected to a corresponding one of said plurality of scanning lines;
a plurality of capacitive elements each having a first end which is directly connected to said plurality of pixel electrodes in a one-to-one ratio;
a plurality of storage capacitor lines formed so as to correspond to said rows, each of said plurality of storage capacitor lines being connected to a second end of each of said plurality of capacitive elements included in a corresponding one of said rows;
a scanning-line driver for supplying a scanning signal to each of said plurality of scanning lines;
a signal-line driver for supplying a display signal to each of said plurality of signal lines; and
control means for controlling a potential of a corresponding one of said plurality of pixel electrodes so that said potential falls in an insensitive voltage region which is zero or in the vicinity of zero, after said display signal has been applied and written into said corresponding one of said plurality of pixel electrodes.
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Abstract
A liquid crystal device comprises plural pixel electrodes arranged in a matrix form, a common electrodes facing the pixel electrodes, a liquid crystal layer sandwiched therebetween, and plural switches to drive the respective pixel electrodes. A reflectivity or transmittance of the liquid crystal varies according to a first state where a direction of a normal to each of the liquid crystal is the same, a second state where the above direction of the normal is at random, and a third state where a spiral structure of the liquid crystal is untied, and has a hysteresis characteristics with respect to an applied voltage including an insensitive voltage region where a reflectivity or transmission state is not determined by the applied voltage. The device has an operation such that the applied voltage is brought into the insensitive voltage region, after a display signal is written into the pixel electrode, to hold the display state.
47 Citations
22 Claims
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1. A liquid-crystal display device comprising:
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a first substrate having a first main surface; a plurality of pixel electrodes arranged in rows and columns on said first main surface of said first substrate; a second substrate that has a second main surface and is provided so that said second main surface faces said first main surface of said first substrate; a common electrode that is formed on said second main surface of said second substrate and has a portion facing said plurality of pixel electrodes; a liquid-crystal layer which is sandwiched between said plurality of pixel electrodes and said common electrode, which has a reflectivity or transmittance that varies according to a first state where a direction of a normal to each twist of liquid crystal in said liquid crystal layer is the same, a second state where said direction of said normal to each twist of said liquid crystal is at random, and a third state where a spiral structure of said liquid crystal has been untied, which has a reflectivity or transmittance with respect to an applied voltage which presents a hysteresis characteristic, and which has an insensitive voltage region where said applied voltage is zero or in the vicinity of zero and a factor other than said applied voltage determines whether to take either said first state or said second state; a plurality of scanning lines formed on said first main surface of said first substrate so as to correspond to said rows; a plurality of signal lines formed on said first main surface of said first substrate so as to correspond to said columns; a plurality of switch elements provided at intersections of said plurality of scanning lines and said plurality of signal lines in a one-to-one ratio, each of said plurality of switch elements having a conducting path and a control terminal that controls conduction in said conducting path, a first end of said conducting path being connected to a corresponding one of said plurality of signal lines, a second end of said conducting path being connected to a corresponding one of said plurality of pixel electrodes, and said control terminal being connected to a corresponding one of said plurality of scanning lines; a plurality of capacitive elements each having a first end which is directly connected to said plurality of pixel electrodes in a one-to-one ratio; a plurality of storage capacitor lines formed so as to correspond to said rows, each of said plurality of storage capacitor lines being connected to a second end of each of said plurality of capacitive elements included in a corresponding one of said rows; a scanning-line driver for supplying a scanning signal to each of said plurality of scanning lines; a signal-line driver for supplying a display signal to each of said plurality of signal lines; and control means for controlling a potential of a corresponding one of said plurality of pixel electrodes so that said potential falls in an insensitive voltage region which is zero or in the vicinity of zero, after said display signal has been applied and written into said corresponding one of said plurality of pixel electrodes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 21)
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12. A liquid-crystal display device comprising:
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a first substrate having a first main surface; a plurality of pixel electrodes arranged in rows and columns on said first main surface of said first substrate; a second substrate that has a second main surface and is provided so that said second main surface faces said first main surface of said first substrate; a common electrode that is formed on said second main surface of said second substrate and has a portion facing said plurality of pixel electrodes; a liquid-crystal layer which is sandwiched between said plurality of pixel electrodes and said common electrode, which has a reflectivity or transmittance that varies according to a first state where a direction of a normal to each twist of liquid crystal in said liquid crystal layer is the same, a second state where said direction of said normal to each twist of said liquid crystal is at random, and a third state where a spiral structure of said liquid crystal has been untied, which has a reflectivity or transmittance with respect to an applied voltage which presents a hysteresis characteristic, and which has an insensitive voltage region where said applied voltage is zero or in the vicinity of zero and a factor other than said applied voltage determines whether to take either said first state or said second state; a plurality of scanning lines formed on said first main surface of said first substrate so as to correspond to said rows; a plurality of signal lines formed on said first main surface of said first substrate so as to correspond to said columns; a plurality of switch elements provided at intersections of said plurality of scanning lines and said plurality of signal lines in a one-to-one ratio, each of said plurality of switch elements having a conducting path and a control terminal that controls conduction in said conducting path, a first end of said conducting path being connected to a corresponding one of said plurality of signal lines, a second end of said conducting path being connected to a corresponding one of said plurality of pixel electrodes, and said control terminal being connected to a corresponding one of said plurality of scanning lines; a plurality of capacitive elements each having a first end which is directly connected to said plurality of pixel electrodes in a one-to-one ratio; a plurality of storage capacitor lines formed so as to correspond to said rows, each of said plurality of storage capacitor lines being connected to a second end of each of said plurality of capacitive elements included in a corresponding one of said rows; a scanning-line driver for supplying a scanning signal to each of said plurality of scanning lines; a signal-line driver for supplying a display signal to each of said plurality of signal lines; control means for controlling a potential of a corresponding one of said plurality of pixel electrodes so that said potential falls in an insensitive voltage region which is zero or in the vicinity of zero, after said display signal has been applied and written into said corresponding one of said plurality of pixel electrodes; and a storage-capacitor line driver for supplying a reset voltage for bringing said liquid-crystal layer into said third state to each of said plurality of storage capacitor lines provided for each of said rows, wherein said reset voltage is supplied to said corresponding one of said plurality of storage capacitor lines immediately before said scanning signal is supplied to said corresponding one of said plurality of scanning lines. - View Dependent Claims (13, 14, 15, 22)
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16. A method of driving a liquid-crystal display device having a plurality of pixel electrodes arranged in rows and columns;
- a common electrode facing said plurality of pixel electrodes;
a liquid-crystal layer which is sandwiched between said plurality of pixel electrodes and said common electrode, which has a reflectivity or transmittance that varies according to a first state where a direction of a normal to each twist of liquid crystal in said liquid crystal layer is the same, a second state where said direction of said normal to each twist of said liquid crystal is at random, and a third state where a spiral structure of said liquid crystal has been untied, which has a reflectivity or transmittance with respect to an applied voltage which presents a hysteresis characteristic, and which has an insensitive voltage region where said applied voltage is zero or in the vicinity of zero and a factor other than said applied voltage determines whether to take either said first state or said second state;
a signal line driver for selecting said plurality of pixel electrodes column by column and supplying a display signal via a corresponding one of a plurality of signal lines, and a scanning-line driver for selecting said plurality of pixel electrodes row by row and driving corresponding switch elements with a scanning signal from said corresponding one of said plurality of scanning lines to apply said display signal to a corresponding one of said plurality of pixel electrodes, said method comprising;causing said signal-line driver and said scanning-line driver to write said display signal into a corresponding one of said plurality of pixel electrodes; and bringing a potential difference between said corresponding one of said plurality of pixel electrodes and said common electrode into said insensitive voltage region after the step of writing said display signal has been completed. - View Dependent Claims (17, 18, 19, 20)
- a common electrode facing said plurality of pixel electrodes;
Specification