Method and apparatus for driving ferroelectric liquid crystal optical modulation device for providing a gradiational display
First Claim
1. A driving method for an optical modulation device comprising a group of scanning electrodes, a group of signal electrodes disposed to intersect with the group of scanning electrodes, and a ferroelectric liquid crystal, having first and second threshold voltages, disposed between the group of scanning electrodes and the group of signal electrodes so as to form a pixel at each intersection, the driving method comprising the steps of:
- applying a selection signal to a selected scanning electrode of the group of scanning electrodes and a non-selection signal to at least one non-selected scanning electrode of the group of scanning electrodes, wherein the non-selection signal comprises a non-scanning voltage signal applied at a predetermined level, and wherein the selection scanning signal comprises a first scanning voltage signal applied at one polarity with respect to the non-scanning voltage signal, a second scanning voltage signal applied at a polarity opposite to the one polarity and a third scanning voltage signal applied at the predetermined level, andapplying an information signal to a signal electrode of the group of signal electrodes,wherein the information signal comprises first, second and third information voltage signals, wherein the first information voltage signal is applied in synchronism with the first scanning voltage signal and, in combination therewith, provides a voltage sufficient to erase a corresponding one of the pixels on the selected scanning electrode, wherein the second information voltage signal is selectively applied at a first selected level of either zero or a polarity opposite to that of the second scanning voltage signal in correspondence to a predetermined gradation in synchronism with the second scanning voltage signal, and wherein the third information voltage signal is applied,at a second selected level in synchronism with the third scanning voltage signal such that an average of the levels of the first, second and third information voltage signals is substantially equal to the predetermined level of the non-scanning voltage signal.
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Abstract
An optical modulation device, such as a ferroelectric liquid crystal device, comprises a matrix of pixels arranged in a plurality of rows and a plurality of columns, pixels on each row being electrically connected to a scanning electrode and pixels on each column being electrically connected to a signal electrode. The optical modulation device is driven by a method comprising, in a scanning selection period applying a scanning selection signal to a selected scanning electrode, the scanning selection signal comprising plural voltage levels including a maximum value |Vs.max| in terms of an absolute value with respect to the voltage level of a non-selected scanning electrode, and applying in phase with the scanning selection signal a voltage signal comprising plural voltage levels to a signal electrode so as to apply to a pixel on the selected scanning electrode plural pulse voltages including a maximum value voltage |Vmax| and a minimum pulse voltage |Vmin| respectively in terms of an absolute value, satisfying the relationship of:
|Vmax|-|Vmin|≦|Vs.max.v
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Citations
8 Claims
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1. A driving method for an optical modulation device comprising a group of scanning electrodes, a group of signal electrodes disposed to intersect with the group of scanning electrodes, and a ferroelectric liquid crystal, having first and second threshold voltages, disposed between the group of scanning electrodes and the group of signal electrodes so as to form a pixel at each intersection, the driving method comprising the steps of:
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applying a selection signal to a selected scanning electrode of the group of scanning electrodes and a non-selection signal to at least one non-selected scanning electrode of the group of scanning electrodes, wherein the non-selection signal comprises a non-scanning voltage signal applied at a predetermined level, and wherein the selection scanning signal comprises a first scanning voltage signal applied at one polarity with respect to the non-scanning voltage signal, a second scanning voltage signal applied at a polarity opposite to the one polarity and a third scanning voltage signal applied at the predetermined level, and applying an information signal to a signal electrode of the group of signal electrodes, wherein the information signal comprises first, second and third information voltage signals, wherein the first information voltage signal is applied in synchronism with the first scanning voltage signal and, in combination therewith, provides a voltage sufficient to erase a corresponding one of the pixels on the selected scanning electrode, wherein the second information voltage signal is selectively applied at a first selected level of either zero or a polarity opposite to that of the second scanning voltage signal in correspondence to a predetermined gradation in synchronism with the second scanning voltage signal, and wherein the third information voltage signal is applied, at a second selected level in synchronism with the third scanning voltage signal such that an average of the levels of the first, second and third information voltage signals is substantially equal to the predetermined level of the non-scanning voltage signal. - View Dependent Claims (2, 3, 4)
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5. An optical modulation apparatus comprising:
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an optical modulation device comprising a group of scanning electrodes, a group of signal electrodes disposed to intersect with the group of scanning electrodes, and a ferroelectric liquid crystal having first and second threshold voltages disposed between the group of scanning electrodes and the group of signal electrodes so as to form a pixel at each intersection; and a driving means for applying a selection signal to a selected scanning electrode of the group of scanning electrodes, a non-selection signal to at least one non-selected scanning electrode of the group of scanning electrodes, and an information signal to a signal electrode of the group of signal electrodes, wherein the non-selection signal comprises a non-scanning voltage signal applied at a predetermined level, wherein the selection scanning signal comprises a first scanning voltage signal applied at one polarity with respect to the non-scanning voltage signal, a second scanning voltage signal applied at a polarity opposite to the one polarity and a third scanning voltage signal applied at the predetermined level, wherein the information signal comprises first, second and third information voltage signals, wherein the first information voltage signal is applied in synchronism with the first scanning voltage signal and, in combination therewith, provides a voltage sufficient to erase a corresponding one of the pixels on the selected scanning electrode, wherein the second information voltage signal is selectively applied at a first selected level of either zero or a polarity opposite to that of the second scanning voltage signal in correspondence to a predetermined gradation in synchronism with the second scanning voltage signal, and wherein the third information voltage signal is applied, and at a second selected level in synchronism with the third scanning voltage signal such that an average of the levels of the first, second and third information voltage signals is substantially equal to the predetermined level of the non-scanning voltage signal. - View Dependent Claims (6, 7, 8)
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Specification