Ferroelectric liquid crystal apparatus with temperature dependent DC offset voltage

US 5,041,821 A
Filed: 04/17/1990
Issued: 08/20/1991
Est. Priority Date: 04/03/1987
Status: Expired due to Fees

First Claim

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1. A liquid crystal apparatus, comprising:

a liquid crystal device comprising scanning electrodes, data electrodes and a ferroelectric liquid crystal disposed between the scanning electrodes and the data electrodes, the ferroelectric liquid crystal having a first threshold voltage of one polarity for switching into a first optical state and a second threshold voltage of the other polarity for switching into a second optical state;

means for applying a scanning selection signal and a scanning nonselection signal to the scanning electrodes, said scanning selection signal having a voltage of one polarity and a voltage of the other polarity;

means for (1) applying to all or a prescribed number of the data electrodes a first voltage signal providing a first voltage difference applied to the ferroelectric liquid crystal between the voltage signal and the voltage of one polarity, the first voltage difference exceeding the first threshold voltage of the ferroelectric liquid crystal, (2) applying to a selected data electrode a second voltage signal providing a second voltage difference applied to the ferroelectric liquid crystal between the second voltage signal and the voltage of the other polarity, the second voltage difference exceeding the second threshold voltage of the ferroelectric liquid crystal, and (3) applying to the other data electrodes a third voltage signal providing a third voltage difference applied to the ferroelectric liquid crystal between the third voltage signal and the voltage of the other polarity, the third voltage difference being between the first and second threshold voltages of the ferroelectric liquid crystal;

means for superposing a DC offset voltage having the same polarity as the one polarity of the scanning selection signal on the first, second and third voltage signals applied to the data electrodes; and

means for increasing the magnitude of the superposed DC offset voltage in accordance with an increase in operational temperature of the ferroelectric liquid crystal device,wherein the voltage polarities being defined with respect to the voltage level of the scanning non-selection signal.

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Abstract

A liquid crystal apparatus, comprises: a liquid crystal device comprising scanning electrodes, data electrodes and a ferroelectric liquid crystal disposed between the scanning electrodes and the data electrodes; means for applying a scanning selection signal and a scanning nonselection signal to the scanning electrodes; means for applying data signals to the data electodes in phase with the scanning selection signal; and means for varying the average voltage values of the data signals during the period of applying a scanning selection signal.

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21 Claims

1. A liquid crystal apparatus, comprising:
- a liquid crystal device comprising scanning electrodes, data electrodes and a ferroelectric liquid crystal disposed between the scanning electrodes and the data electrodes, the ferroelectric liquid crystal having a first threshold voltage of one polarity for switching into a first optical state and a second threshold voltage of the other polarity for switching into a second optical state;
  
  means for applying a scanning selection signal and a scanning nonselection signal to the scanning electrodes, said scanning selection signal having a voltage of one polarity and a voltage of the other polarity;
  
  means for (1) applying to all or a prescribed number of the data electrodes a first voltage signal providing a first voltage difference applied to the ferroelectric liquid crystal between the voltage signal and the voltage of one polarity, the first voltage difference exceeding the first threshold voltage of the ferroelectric liquid crystal, (2) applying to a selected data electrode a second voltage signal providing a second voltage difference applied to the ferroelectric liquid crystal between the second voltage signal and the voltage of the other polarity, the second voltage difference exceeding the second threshold voltage of the ferroelectric liquid crystal, and (3) applying to the other data electrodes a third voltage signal providing a third voltage difference applied to the ferroelectric liquid crystal between the third voltage signal and the voltage of the other polarity, the third voltage difference being between the first and second threshold voltages of the ferroelectric liquid crystal;
  
  means for superposing a DC offset voltage having the same polarity as the one polarity of the scanning selection signal on the first, second and third voltage signals applied to the data electrodes; and
  
  means for increasing the magnitude of the superposed DC offset voltage in accordance with an increase in operational temperature of the ferroelectric liquid crystal device,wherein the voltage polarities being defined with respect to the voltage level of the scanning non-selection signal.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. An apparatus according to claim 1, wherein the magnitude of the superposed DC offset voltage is increased continuously in accordance with the increase in operational temperature of the ferroelectric liquid crystal device.
  - 3. An apparatus according to claim 1, wherein the magnitude of the superposed DC offset voltage is increased stepwise in accordance with the increase in operational temperature of the ferroelectric liquid crystal device.
  - 4. An apparatus according to claim 1, wherein the first, second, and third voltage signals applied to the data line, each comprise a voltage of one polarity and a voltage of the other polarity with respect to the voltage level of a non-selected scanning line, and the voltages of one and the other polarities are mutually unsymmetrical.
  - 5. An apparatus according to claim 1, wherein said ferroelectric liquid crystal comprises a chiral smectic liquid crystal.
  - 6. An apparatus according to claim 5, wherein said chiral smectic liquid crystal is disposed in a layer thin enough to release its own helical structure in the absence of an electric field applied thereto.

7. A liquid crystal apparatus, comprising:
- a liquid crystal device comprising scanning electrodes, data electrodes and a ferroelectric liquid crystal disposed between the scanning electrodes and the data electrodes, the ferroelectric liquid crystal having a first threshold voltage of one polarity for switching into a first optical state and a second threshold voltage of the other polarity for switching into a second optical statemeans for applying a clearing voltage of one polarity exceeding the first threshold voltage of the ferroelectric liquid crystal to all or a prescribed number of the scanning electrodes;
  
  means for applying a scanning selection signal having a voltage of the other polarity and a scanning non-selection signal to the scanning electrodes;
  
  means for (1) applying to a selected data electrode a first voltage signal providing a first voltage difference applied to the ferroelectric liquid crystal between the first voltage signal and the voltage of the other polarity, the first voltage difference exceeding the second threshold voltage of the ferroelectric liquid crystal, and (2) applying to the other data electrodes a second voltage signal providing a second voltage difference applied to the ferroelectric liquid crystal between the second voltage signal and the voltage of the other polarity, the second voltage difference being between the first and second threshold voltages of the ferroelectric liquid crystal;
  
  means for superposing a DC offset voltage having the same polarity as the one polarity of the clearing voltage on the first and second voltage signals applied to the data electrodes; and
  
  means for increasing the magnitude of the superposed DC offset voltage in accordance with an increase in operational temperature of the ferroelectric liquid crystal device.wherein the voltage polarities being defined with respect to the voltage level of the scanning non-section signal.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
- - 8. An apparatus according to claim 7, wherein the magnitude of the superposed DC offset voltage is increased continuously in accordance with the increase in operational temperature of the ferroelectric liquid crystal device.
  - 9. An apparatus according to claim 7, wherein the magnitude of the superposed DC offset voltage is increased stepwise in accordance with the increase in operational temperature of the ferroelectric liquid crystal device.
  - 10. An apparatus according to claim 7, wherein the first and second voltage signals applied to a data line, each comprise a voltage of one polarity and a voltage of the other polarity with respect to the voltage level of a non-selected scanning line, and the voltages of one and the other polarities are mutually unsymmetrical.
  - 11. An apparatus according to claim 7, wherein said scanning selection signal comprises a voltage of one polarity at a former half thereof and a voltage of the other polarity at a latter half thereof with respect to the voltage level of the scanning non-selection signal.
  - 12. An apparatus according to claim 11, wherein the first voltage signal applied to the selected data electrode comprises a voltage having a polarity opposite to that of the voltage of the scanning selection signal in the same phase.
  - 13. An apparatus according to claim 7, wherein said ferroelectric liquid crystal comprises a chiral smectic liquid crystal.
  - 14. An apparatus according to claim 13, wherein said chiral smectic liquid crystal is disposed in a layer thin enough to release its own helical structure in the absence of an electric field applied thereto.

15. In a liquid crystal apparatus, comprising:
- a liquid crystal device comprising scanning electrodes, data electrode intersecting with the scanning electrodes, and a ferroelectric liquid crystal disposed between the scanning electrodes and the data electrodes;
  
  the ferroelectric liquid crystal having a first threshold voltage of one polarity for switching into a first optical state and a second threshold voltage of the other polarity for switching into a second optical state; and
  
  voltage application means, the improvement wherein said voltage application means includes means for applying a scanning selection signal and a scanning non-selection signal to the scanning electrodes, the scanning selection signal having a voltage of one polarity and a voltage of the other polarity,means for applying data signals to the data electrodes in phase with the scanning selection signal so as to apply an AC voltage to the intersections of the scanning electrodes and the data electrodes,means for superposing a DC offset voltage of a polarity on the AC voltage applied to the intersections, of the scanning electrodes and the data electrodes,means for increasing the magnitude of the DC offset voltage in accordance with an increase in operational temperature of the ferroelectric liquid crystal device, andmeans for inverting the polarities of the DC offset voltage and the scanning selection signal for each one scanning selection period for applying a scanning selection signal to one scanning electrode, or one cycle period for applying a scanning selection signal to all or a prescribed number of the scanning electrodes.
- View Dependent Claims (16, 17, 18, 19)
- - 16. An apparatus according to claim 15, wherein each of the data signals comprises a voltage of one polarity and a voltage of the other polarity with respect to the voltage level of a non-selected scanning electrode, and the voltages of one and the other polarities have mutually different peak values.
  - 17. An apparatus according to claim 15, wherein the one cycle period for inversion of the DC voltage polarity corresponds to the period of one frame or one field.
  - 18. An apparatus according to claim 15, wherein said ferroelectric liquid crystal comprises a chiral smectic liquid crystal.
  - 19. An apparatus according to claim 18, wherein said chiral smectic liquid crystal is disposed in a layer thin enough to release its own helical structure in the absence of an electric field applied thereto.

20. A liquid crystal apparatus, comprising:
- a liquid crystal device comprising scanning electrodes and data electrodes intersecting with the scanning electrode, and a chiral smectic liquid crystal disposed between the scanning electrodes and the data electrodes, the chiral smectic liquid crystal having a first threshold voltage of one polarity for switching into a first optical state and a second threshold voltage of the other polarity for switching into a second optical state; and
  
  voltage application means for;
  
  applying a scanning selection signal and a scanning non-selection signal to the scanning electrodes, the scanning selection signal having a voltage of one polarity and a voltage of the other polarity,applying data signals to the data electrodes in phase with the scanning selection signal so as to apply an AC voltage to the intersections of the scanning electrodes and the data electrodes,superposing a DC offset voltage on the AC voltage applied to the intersections of the scanning electrodes and the data electrodes, andchanging the DC offset voltage in accordance with a change in operational temperature of the chiral smectic liquid crystal device.
- View Dependent Claims (21)
- - 21. An apparatus according to claim 20, wherein each of the data signals comprises a voltage of one polarity and a voltage of the other polarity with respect to the voltage level of a non-selected scanning electrode, and the voltages of one and the other polarities have mutually different peak values.

Specification

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Current Assignee
Canon Kabushiki Kaisha (Canon Inc.)
Original Assignee
Canon Kabushiki Kaisha (Canon Inc.)
Inventors
Tsuboyama, Akira, Inoue, Hiroshi, Mizutome, Atsushi, Taniguchi, Osamu, Onitsuka, Yoshihiro, Mihara, Tadashi
Primary Examiner(s)
Oberley, Alvin E.
Assistant Examiner(s)
HJERPE, RICHARD A

Application Number

US07/511,956
Time in Patent Office

490 Days
Field of Search

340/765, 340/784, 350/331 R, 350/331 T, 350/332, 350/333, 350/350 S
US Class Current

345/101
CPC Class Codes

G09G 2310/0224   Details of interlacing

G09G 2310/06   Details of flat display dri...

G09G 2310/061   for resetting or blanking

G09G 2310/065   Waveforms comprising zero v...

G09G 2320/0209   Crosstalk reduction, i.e. t...

G09G 2320/041   Temperature compensation

G09G 3/2011   by amplitude modulation

G09G 3/207   by domain size control G09G...

G09G 3/3629   using liquid crystals havin...

Ferroelectric liquid crystal apparatus with temperature dependent DC offset voltage

First Claim

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Ferroelectric liquid crystal apparatus with temperature dependent DC offset voltage

First Claim

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Abstract

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21 Claims

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