Bistable liquid crystal display device in which nematic liquid crystal has monostable anchorings
First Claim
Patent Images
1. Display device comprising two parallel transparent plates provided with electrodes on their internal surfaces and containing a nematic liquid-crystal material comprising:
- means defining a monostable anchoring on each plate;
means breaking, on command, at least one of these anchorings, enabling the molecules to reorient transiently perpendicularly to the initial monostable anchoring direction; and
means selecting after this breaking, either one of two different textures, both textures having the same monostable anchoring directions, so as to induce after this breaking, a bistable volume effect.
5 Assignments
0 Petitions
Accused Products
Abstract
A display device including two parallel transparent plates (10, 12) having transparent electrodes on the inner surfaces thereof and containing a liquid crystal material (20). The device includes means defining a monostable anchoring for each plate (10, 12), means (40) controllable to break at least one of the anchorings, and means for thereafter inducing volume bistability.
81 Citations
65 Claims
-
1. Display device comprising two parallel transparent plates provided with electrodes on their internal surfaces and containing a nematic liquid-crystal material comprising:
-
means defining a monostable anchoring on each plate;
means breaking, on command, at least one of these anchorings, enabling the molecules to reorient transiently perpendicularly to the initial monostable anchoring direction; and
means selecting after this breaking, either one of two different textures, both textures having the same monostable anchoring directions, so as to induce after this breaking, a bistable volume effect. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65)
the plates define different anchoring thresholds;
the thickness of the device between the two plates is sufficiently small to allow hydrodynamic coupling between the internal surfaces of the plates; and
means are provided which apply, between the electrodes of the two plates alternately, a write electric-field pulse above a threshold capable of breaking the anchorings on the two plates in order to define, after interruption of this electric field, a twisted first stable state resulting from hydrodynamic coupling between the two plates and a second electric field, below the said threshold capable of breaking a single anchoring or having a falling edge which varies very slowly in order to decouple the tilts on the two plates, so as to define a homogeneous second stable state.
-
-
25. Device according to claim 24, wherein the liquid-crystal material is a nematic liquid crystal.
-
26. Device according to claim 24, wherein the liquid-crystal material is a cholesteric liquid crystal.
-
27. Device according to claim 24, wherein the liquid-crystal material possesses a positive dielectric anisotropy.
-
28. Device according to claim 24, characterized in that the thickness (d) of the liquid-crystal material is less than 1/θ
-
s, in which expression;
1 denotes the extrapolation length defining the zenithal anchoring energy; and
θ
s denotes the angle of the surface molecules.
-
s, in which expression;
-
29. Device according to claim 24, characterized in that the thickness (d) of the liquid-crystal material satisfies the relationship:
- d/1<
(η
2/Kρ
)⅓
in which;1 denotes the extrapolation length defining the zenithal anchoring energy;
η
denotes a viscosity;
K is the elastic curvature constant; and
ρ
is the density.
- d/1<
-
30. Device according to claim 24, characterized in that the thickness of the liquid-crystal material is less than L/θ
-
s, in which expression L denotes the extrapolation length defining the azimuthal anchoring energy and θ
s denotes the angle of the surface molecules.
-
s, in which expression L denotes the extrapolation length defining the azimuthal anchoring energy and θ
-
31. Device according to claim 24, wherein the thickness (d) of the liquid-crystal material is less than 5 μ
- m.
-
32. Device according to claim 24, wherein the directions of easy anchoring on the two plates are not parallel to each other.
-
33. Device according to claim 24, wherein the directions of easy anchoring on the two plates are parallel to each other.
-
34. Device according to claim 24, wherein the directions of easy anchoring on the two plates are orthogonal to each other.
-
35. Device according to claim 24, wherein the directions of easy anchoring on the two plates are not orthogonal to each other.
-
36. Device according to claim 24, wherein the directions of easy anchoring on the two plates are rotated through approximately 45°
- or 135°
.
- or 135°
-
37. Device according to claim 24, wherein it is formed into a matrix-configured screen consisting of rows and columns and in that the supply means are suitable for opening a row by applying to it a voltage slightly less than V=E0d, the upper voltage threshold of the surface hardest to break and for applying to the columns a voltage ±
- v<
±
|E1−
E2| d, i.e., a voltage less than the difference in voltage between the thresholds of the two surfaces.
- v<
-
38. Device according to claim 37, characterized in that the voltage applied to the columns, averaged over time, is less than the Freedericksz instability threshold.
-
39. Device according to claim 24, wherein the surface treatments on the two plates are suitable for defining anchoring thresholds which differ by from 5 to 10%.
-
40. Device according to claim 24, characterized in that the anchoring thresholds depend on the polarity of the applied electric field.
-
41. Device according to claim 24, wherein the liquid-crystal material is doped by ions which make it possible to modify the tilt thresholds of the molecules on at least one of the plates.
-
42. Device according to claim 41, characterized in that the ions are chosen from the group comprising sodium tetraphenylborate, tetrabutylammonium chloride and cetyltributylammonium bromide.
-
43. Device according to claim 24, characterized in that the fall time of the write drive voltage is less than 30 μ
- s.
-
44. Device according to claim 24, characterized in that the fall time of the erasure drive voltage is greater than 30 μ
- s.
-
45. Device according to claim 24, wherein the electrical drive means are suitable for applying an alternating electrical voltage.
-
46. Device according to claim 23, characterized in that the means inducing a bistable volume effect comprise means capable of producing a mechanical displacement of at least one part of the plate, for example by using a piezoelectric system or by using sound waves.
-
47. Device according to claim 23, characterized in that the means inducing a bistable volume effect comprise means capable of ensuring a mechanical transverse stress to the plates.
-
48. Device according to claim 23, characterized in that the means inducing a bistable volume effect comprise means which include an auxiliary electrode (c) placed alongside an electrode (p) defining a pixel.
-
49. Device according to claim 48, characterized in that the anchoring is oblique on the auxiliary electrode (c) and is provided with means selectively applying a drive field to the auxiliary electrode at the moment when the electric field on the pixel electrode (p) is cut off or a drive field to the auxiliary electrode at the same time as the electric field on the pixel electrode (p).
-
50. Device according to claim 22, wherein the means inducing a bistable volume effect comprise means defining a hydrodynamic coupling between the two plates.
-
51. Device according to claim 1, characterized in that the means for anchoring breaking and for bistable volume switching are suitable for homogeneously driving the entire surface of a pixel.
-
52. Device according to claim 1, characterized in that at least one of the means for anchoring breaking and for bistable volume switching is suitable for driving a variable part of a pixel.
-
53. Device according to claim 1, wherein the anchorings are oblique on the two plates.
-
54. Device according to claim 53, wherein the angle of inclination of the anchoring is large on a master plate and lower for a slave plate.
-
55. Device according to claim 54, characterized in that the texture of the LCD molecules includes a volume planar zone, and in that the device includes means capable of applying electric-field pulses with an amplitude greater than the irreversible breaking threshold in order to convert the stable texture having a volume planar zone into another stable texture.
-
56. Device according to claim 53, wherein it comprises means applying write electric-field pulses with an amplitude greater than the threshold for breaking the anchoring on both the plates.
-
57. Device according to claim 53, wherein it comprises means applying an erasure electric field with an amplitude greater than the threshold for breaking the anchoring on an oblique anchoring slave plate.
-
58. Device according to claim 1, characterized in that parameters such as thickness of the cell, dimensions of the pixel, chiral dopant and pretwist are suitable for defining a desired spontaneous erasure time.
-
59. Device according to claim 58, wherein the anchorings on the two plates are twisted through 90°
- .
-
60. Device according to claim 58, characterized in that the liquid crystal comprises a nematic/cholesteric mixture.
-
61. Device according to claim 1, wherein, for a metastable operation, the anchorings on the plates define two textures in the absence of a field, one having an elastic energy much greater than the other.
-
62. Device according to claim 61, wherein the two textures correspond to an oblique anchoring on one plate and a planar anchoring on the other.
-
63. Device according to claim 61, characterized in that the two textures correspond to oblique anchorings on each of the plates.
-
64. Device according to claim 61, characterized in that the two textures correspond one to a slightly splayed non-twisted texture and the other to a half-turn twist texture.
-
65. Device according to claim 61, wherein it comprises ball spacers between the plates favouring the nucleation of defects.
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeFrance Brevets SAS
-
Original AssigneeNemoptic SA
-
InventorsBarberi, Ricardo, Dozov, Ivan, Durand, Georges, Martinot-Lagarde, Philippe, Nobili, Maurizio, Polossat, Eric, Lelidis, Ioannis, Giocondo, Michele
-
Primary Examiner(s)Malinowski, Walter J.
-
Application NumberUS09/043,078Publication NumberTime in Patent Office1,177 DaysField of Search349/33, 349/177, 349/179, 349/173US Class Current349/177CPC Class CodesG02F 1/1391 Bistable or multi-stable li...G09G 2300/0486 Cholesteric liquid crystals...
