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    • 1. 发明授权
    • Driving method for ferroelectric optical modulation device
    • 铁电光调制装置的驱动方法
    • US5703614A
    • 1997-12-30
    • US422576
    • 1995-04-14
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • G09G3/36H01L31/18G02F1/133
    • G09G3/3629H01L31/1884G09G2310/06G09G2310/061G09G2310/063G09G2320/0209Y02E10/50
    • An optical modulation device comprises scanning electrodes and signal electrodes disposed opposite to and intersecting with the signal electrodes, and an optical modulation material disposed between the electrodes, a pixel being formed at each intersection of the electrodes and showing a contrast depending on the polarity of a voltage applied thereto. The device is driven by a method comprising, in a writing period for writing in all or prescribed pixels among the pixels on a selected scanning electrode, a first phase for applying a voltage of one polarity having an amplitude exceeding a first threshold voltage of the optical modulation material to the all or prescribed pixels, and a second phase for applying a voltage of the other polarity having an amplitude exceeding a second threshold voltage of the optical modulation material to a selected pixel and applying a voltage not exceeding the threshold voltages of the optical modulation material to the other pixels, respectively among the all or prescribed pixels. The duration of a continually applied voltage of the same polarity applied to a pixel on a scanning electrode is 2.5 times the duration of the first phase in the writing period at the maximum.
    • 光调制装置包括扫描电极和与信号电极相对并相交的信号电极,以及设置在电极之间的光调制材料,形成在电极的每个交叉处并且显示与 施加电压。 该装置由一种方法驱动,该方法包括在用于在所选择的扫描电极上的像素中的全部或规定像素中写入的写入周期中,施加具有超过光学器件的第一阈值电压的一个极性的电压的第一相位 调制材料到全部或规定像素,以及第二相,用于将具有超过光调制材料的第二阈值电压的振幅的另一极性的电压施加到所选择的像素,并施加不超过光学阈值电压的电压 分别在全部或规定的像素之间调制材料到其他像素。 施加到扫描电极上的像素的相同极性的持续施加电压的持续时间是写入周期中最大值的第一阶段的持续时间的2.​​5倍。
    • 2. 发明授权
    • Driving method for a ferroelectric optical modulation device
    • 铁电光调制装置的驱动方法
    • US5440412A
    • 1995-08-08
    • US034401
    • 1993-03-19
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • G09G3/36H01L31/18G02F1/13
    • G09G3/3629H01L31/1884G09G2310/06G09G2310/061G09G2310/063G09G2320/0209Y02E10/50
    • An optical modulation device includes scanning electrodes and signal electrodes disposed opposite to and intersecting with the signal electrodes, and an optical modulation material disposed between the electrodes, a pixel being formed at each intersection of the electrodes and showing a contrast depending on the polarity of a voltage applied thereto. The device is driven by a method including in a writing period for writing in all or prescribed pixels among the pixels on a selected scanning electrode, a first phase for applying a voltage of one polarity having an amplitude exceeding a first threshold voltage of the optical modulation material to the all or prescribed pixels, and a second phase for applying a voltage of the other polarity having an amplitude exceeding a second threshold voltage of the optical modulation material to a selected pixel and applying a voltage not exceeding the threshold voltages of the optical modulation material to the other pixels, respectively among the all or prescribed pixels. The maximum duration of a continually applied voltage of the same polarity applied to a pixel on a scanning electrode is 2.5 times the duration of the first phase in the writing period.
    • 光调制装置包括扫描电极和与信号电极相对并相交的信号电极,以及设置在电极之间的光调制材料,像素形成在电极的每个交叉点处,并且显示出与 施加电压。 该装置由包括写入周期的方法驱动,该写入周期用于在所选择的扫描电极上的像素中的全部或规定的像素中进行写入,用于施加具有超过光调制的第一阈值电压的一个极性的电压的第一相 以及第二相,其将具有超过光调制材料的第二阈值电压的振幅超过另一极性的电压施加到所选择的像素,并施加不超过光调制阈值电压的电压 分别在全部或规定像素之间的其他像素的材料。 施加到扫描电极上的像素的相同极性的连续施加电压的最大持续时间是写入周期中第一阶段的持续时间的2.​​5倍。
    • 3. 发明授权
    • Driving method for optical modulation device
    • 光调制装置的驱动方法
    • US4836656A
    • 1989-06-06
    • US942716
    • 1986-12-17
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • G09G3/36
    • G09G3/3629G09G2310/06G09G2310/061G09G2310/063G09G2320/0209
    • An optical modulation device includes scanning electrodes and signal electrodes disposed opposite to an intersecting with the signal electrodes, and an optical modulation material disposed between the electrodes, a pixel being formed at each intersection of the electrodes and showing a contrast depending on the polarity of a voltage applied thereto. The device is driven by a method including in a writing period for writing in all or prescribed pixels among the pixels on a selected scanning electrode, a first phase for applying a voltage of one polarity having an amplitude exceeding a first threshold voltage of the optical modulation material to the all or prescribed pixels, and a second phase for applying a voltage of the other polarity having an amplitude exceeding a second threshold voltage of the optical modulation material to a selected pixel and applying a voltage not exceeding the threshold voltages of the optical modulation material to the other pixels, respectively among the all or prescribed pixels. The maximum duration of a continually applied voltage of the same polarity applied to a pixel on a scanning electrode is 2.5 times the duration fo the first phase in the writing period.
    • 光调制装置包括与信号电极相交设置的扫描电极和信号电极,以及设置在电极之间的光调制材料,形成在电极的每个交点处的像素,并且根据 施加电压。 该装置由包括写入周期的方法驱动,该写入周期用于在所选择的扫描电极上的像素中的全部或规定的像素中进行写入,用于施加具有超过光调制的第一阈值电压的一个极性的电压的第一相 以及第二相,其将具有超过光调制材料的第二阈值电压的振幅超过另一极性的电压施加到所选择的像素,并施加不超过光调制阈值电压的电压 分别在全部或规定像素之间的其他像素的材料。 施加到扫描电极上的像素的相同极性的连续施加电压的最大持续时间是写入周期中第一阶段的持续时间的2.​​5倍。
    • 4. 发明授权
    • Driving method for optical modulation device
    • 光调制装置的驱动方法
    • US5638196A
    • 1997-06-10
    • US422235
    • 1995-04-14
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • G09G3/36H01L31/18G02F1/133
    • G09G3/3629H01L31/1884G09G2310/06G09G2310/061G09G2310/063G09G2320/0209Y02E10/50
    • An optical modulation device comprises scanning electrodes and signal electrodes disposed opposite to and intersecting with the signal electrodes, and an optical modulation material disposed between the electrodes, a pixel being formed at each intersection of the electrodes and showing a contrast depending on the polarity of a voltage applied thereto. The device is driven by a method comprising, in a writing period for writing in all or prescribed pixels among the pixels on a selected scanning electrode, a first phase for applying a voltage of one polarity having an amplitude exceeding a first threshold voltage of the optical modulation material to the all or prescribed pixels, and a second phase for applying a voltage of the other polarity having an amplitude exceeding a second threshold voltage of the optical modulation material to a selected pixel and applying a voltage not exceeding the threshold voltages of the optical modulation material to the other pixels, respectively among the all or prescribed pixels. The duration of a continually applied voltage of the same polarity applied to a pixel on a scanning electrode is 2.5 times the duration of the first phase in the writing period at the maximum.
    • 光调制装置包括扫描电极和与信号电极相对并相交的信号电极,以及设置在电极之间的光调制材料,形成在电极的每个交叉点处的像素,并且根据 施加电压。 该装置由一种方法驱动,该方法包括在用于在所选择的扫描电极上的像素中的全部或规定像素中写入的写入周期中,施加具有超过光学器件的第一阈值电压的一个极性的电压的第一相位 调制材料到全部或规定像素,以及第二相,用于将具有超过光调制材料的第二阈值电压的振幅的另一极性的电压施加到所选择的像素,并施加不超过光学阈值电压的电压 分别在全部或规定的像素之间调制材料到其他像素。 施加到扫描电极上的像素的相同极性的持续施加电压的持续时间是写入周期中最大值的第一阶段的持续时间的2.​​5倍。
    • 6. 发明授权
    • Driving method for optical modulation device
    • 光调制装置的驱动方法
    • US5847686A
    • 1998-12-08
    • US421863
    • 1995-04-14
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • G09G3/36H01L31/18
    • G09G3/3629H01L31/1884G09G2310/06G09G2310/061G09G2310/063G09G2320/0209Y02E10/50
    • An optical modulation device comprises scanning electrodes and signal electrodes disposed opposite to and intersecting with the signal electrodes, and an optical modulation material disposed between the electrodes, a pixel being formed at each intersection of the electrodes and showing a contrast depending on the polarity of a voltage applied thereto. The device is driven by a method comprising, in a writing period for writing in all or prescribed pixels among the pixels on a selected scanning electrode, a first phase for applying a voltage of one polarity having an amplitude exceeding a first threshold voltage of the optical modulation material to the all or prescribed pixels, and a second phase for applying a voltage of the other polarity having an amplitude exceeding a second threshold voltage of the optical modulation material to a selected pixel and applying a voltage not exceeding the threshold voltages of the optical modulation material to the other pixels, respectively among the all or prescribed pixels. The duration of a continually applied voltage of the same polarity applied to a pixel on a scanning electrode is 2.5 times the duration of the first phase in the writing period at the maximum.
    • 光调制装置包括扫描电极和与信号电极相对并相交的信号电极,以及设置在电极之间的光调制材料,形成在电极的每个交叉点处的像素,并且根据 施加电压。 该装置由一种方法驱动,该方法包括在用于在所选择的扫描电极上的像素中的全部或规定像素中写入的写入周期中,施加具有超过光学器件的第一阈值电压的一个极性的电压的第一相位 调制材料到全部或规定像素,以及第二相,用于将具有超过光调制材料的第二阈值电压的振幅的另一极性的电压施加到所选择的像素,并施加不超过光学阈值电压的电压 分别在全部或规定的像素之间调制材料到其他像素。 施加到扫描电极上的像素的相同极性的持续施加电压的持续时间是写入周期中最大值的第一阶段的持续时间的2.​​5倍。
    • 7. 发明授权
    • Driving method for optical modulation device using ferroelectric liquid
crystal
    • 使用铁电液晶的光调制器的驱动方法
    • US5255110A
    • 1993-10-19
    • US666893
    • 1991-03-08
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • Akihiro MouriTsutomu ToyonoShuzo KanekoYutaka InabaJunichiro Kanbe
    • G09G3/36H01L31/18G02F1/133
    • G09G3/3629H01L31/1884G09G2310/06G09G2310/061G09G2310/063G09G2320/0209Y02E10/50
    • An optical modulation device includes scanning electrodes and signal electrodes disposed opposite to and intersecting with the signal electrodes, and an optical modulation material disposed between the electrodes, a pixel being formed at each intersection of the electrodes and showing a contrast depending on the polarity of a voltage applied thereto. The device is driven by a method including, in a writing period for writing in all or prescribed pixels among the pixels on a selected scanning electrode, a first phase for applying a voltage of one polarity having an amplitude exceeding a first threshold voltage of the optical modulation material to the all or prescribed pixels, and a second phase for applying a voltage of the other polarity having an amplitude exceeding a second threshold voltage of the optical modulation material to a selected pixel and applying a voltage not exceeding the threshold voltages of the optical modulation material to the other pixels, respectively among the all or prescribed pixels. The maximum duration of a continually applied voltage of the same polarity applied to a pixel on a scanning electrode is 2.5 times the duration of the first phase in the writing period.
    • 光调制装置包括扫描电极和与信号电极相对并相交的信号电极,以及设置在电极之间的光调制材料,像素形成在电极的每个交叉点处,并且显示出与 施加电压。 该装置由一种方法驱动,该方法包括在用于在所选择的扫描电极上的像素中的全部或指定像素中写入的写入周期中,施加具有超过光学器件的第一阈值电压的一个极性的电压的第一相位 调制材料到全部或规定像素,以及第二相,用于将具有超过光调制材料的第二阈值电压的振幅的另一极性的电压施加到所选择的像素,并施加不超过光学阈值电压的电压 分别在全部或规定的像素之间调制材料到其他像素。 施加到扫描电极上的像素的相同极性的连续施加电压的最大持续时间是写入周期中第一阶段的持续时间的2.​​5倍。