Claims
- 1. An electrophoretic medium comprising a plurality of one or more types of particles suspended in a suspending fluid, said particles including at least one electrically charged, electrophoretically mobile particle capable of translating through the suspending fluid upon application of an electric field to the medium, and at least one magnetic particle
- 2. An electrophoretic medium according to claim 1 which comprises at least one particle which is both magnetic and electrophoretically mobile.
- 3. An electrophoretic medium according to claim 2 comprising a single type of magnetic, electrophoretically mobile particle in a colored suspending fluid.
- 4. An electrophoretic medium according to claim 2 wherein the magnetic, electrophoretically mobile particle has a first charge polarity and a first optical characteristic, and the medium further comprises a second type of particle which is non-magnetic, has a charge polarity opposite of the first charge polarity and has a second optical characteristic different from the first optical characteristic.
- 5. An electrophoretic medium according to claim 4 wherein the suspending fluid is uncolored.
- 6. An electrophoretic medium according to claim 4 wherein the suspending fluid is colored.
- 7. An electrophoretic medium according to claim 4 wherein the magnetic, electrophoretically mobile particle and the second type of particle, bear charge of opposite polarity.
- 8. An electrophoretic medium according to claim 2 further comprising a third type of particle which is non-magnetic, has a third electrophoretic mobility different from the first and second electrophoretic mobilities and a third optical characteristic different from the first and second optical characteristics.
- 9. An electrophoretic medium according to claim 8 wherein the second and third types of particles bear charges of opposite polarity.
- 10. An electrophoretic medium according to claim 8 wherein the second and third types of particles bear charges of the same polarity but differ in electrophoretic mobility, and the magnetic particles bear charges of opposite polarity to those on the second and third types of particles.
- 11. An electrophoretic medium according to claim 1 wherein said magnetic particle comprises one or more of iron tetroxide (Fe3O4), iron tetroxide/polymer composites, rare earth magnets and Alnico alloys.
- 12. An electrophoretic medium according to claim 11 wherein said magnetic particles are in the size range of about 0.25 μm to about 5 μm.
- 13. An electrophoretic medium according to claim 12 wherein said magnetic particles have a polymer coating.
- 14. An electrophoretic medium according to claim 1 wherein said magnetic particles comprise a core of magnetic material and a shell of non-magnetic material substantially completely surrounding the core.
- 15. An electrophoretic medium according to claim 14 wherein said core of magnetic material comprises one or more of iron tetroxide (Fe3O4), iron tetroxide/polymer composites, rare earth magnets and Alnico alloys.
- 16. An electrophoretic medium according to claim 14 wherein said magnetic particles have a polymer coating surrounding the shell of non-magnetic material.
- 17. An electrophoretic medium according to claim 1 wherein said suspending fluid is selected from organic solvents, halogenated solvents, halogenated polymers, silicone oils, linear hydrocarbons, branched hydrocarbons, and mixtures thereof.
- 18. An electrophoretic medium according to claim 17 wherein said suspending fluid comprises poly(chlorotrifluoroethylene).
- 19. An electrophoretic medium according to claim 1 comprising a plurality of capsules each having a capsule wall, said particles and said suspending fluid being contained within said capsules.
- 20. An electrophoretic medium according to claim 19 wherein said capsules are non-spherical.
- 21. An electrophoretic medium according to claim 1 wherein said particles comprises one or more of neat pigments, dyed pigments, laked pigments, and pigment/polymer composites.
- 22. An electrophoretic medium according to claim 21 wherein said pigments comprise at least one of iron trioxide (Fe2O3), lead sulphate (PbSO4), chrome trioxide (Cr2O3) and cobalt aluminate (CoAl2O4).
- 23. An electrophoretic display comprising an electrophoretic medium according to claim 1 further comprising at least one electrode disposed adjacent said electrophoretic medium.
- 24. An electrophoretic display according to claim 23 further comprising at least one magnet disposed adjacent the electrophoretic medium.
- 25. An electrophoretic display according to claim 24 wherein said magnet comprises one or more of bonded ferrites, ceramic hard ferrites, aluminum-nickel-cobalt alloys, and rare earth magnets.
- 26. An electrophoretic display according to claim 25 wherein said magnets are poled.
- 27. An electrophoretic display according to claim 26 wherein said magnets are poled with poling widths less than about 500 μm.
- 28. An electrophoretic display according to claim 27 wherein said poling widths are half the width of the said capsules contained within said electrophoretic medium.
- 29. An electrophoretic display according to claim 24 wherein said magnet is an electromagnet.
- 30. An electrophoretic display comprising an electrophoretic medium according to claim 23 further comprising a second electrode disposed adjacent the electrophoretic medium and opposite the first electrode, at least one of the electrodes being substantially transparent.
- 31. A method of addressing an electrophoretic medium, the method comprising:
(a) providing an electrophoretic medium having opposed first and second surfaces, the medium comprising a suspending fluid having a first optical characteristic, and a plurality of electrically charged magnetic particles suspended in the suspending fluid, the particles having a second optical characteristic different from the first optical characteristic, the medium having a magnet disposed adjacent its first surface; (b) allowing the particles to remain adjacent the first surface of the display under the magnetic forces applied to the particles by the magnet, thereby causing the first optical characteristic of the fluid to be visible at the second surface of the medium; and (c) applying to the medium an electric field having a polarity and magnitude sufficient to cause the particles to move through the suspending fluid against the magnetic forces applied to the particles by the magnet, thereby causing the particles to move adjacent the second surface of the medium and the second optical characteristic of the particles to be visible at the second surface.
- 32. A method of addressing an electrophoretic medium, the method comprising:
(a) providing an electrophoretic medium having opposed first and second surfaces, the medium comprising a suspending fluid, a plurality of a first type of electrically charged magnetic particles having a first optical characteristic suspended in the suspending fluid, and a plurality of a second type of electrically charged non-magnetic particle having a second optical characteristic different from the first optical characteristic, the second type of particles bearing charges of opposite polarity to the charges on the first type of particles, the medium having a magnet disposed adjacent its first surface; (b) applying to the medium an electric field having a polarity which causes the second type of particles to move adjacent the second surface of the medium, while causing the first type of particles to remain adjacent the first surface of the medium, thereby causing the second optical characteristic to be visible at the second surface; and (c) applying to the medium an electric field having a polarity and magnitude sufficient to cause the first particles to move through the suspending fluid against the magnetic forces applied to the first particles by the magnet, thereby causing the first particles to move adjacent the second surface of the medium and the first optical characteristic to be visible at the second surface, while the second particles move adjacent the first surface of the medium.
- 33. A method according to claim 32 wherein the suspending fluid is substantially transparent.
- 34. A method according to claim 32 wherein the suspending fluid has a third optical characteristic different from the first and second optical characteristics, and the method further comprises applying to the medium an electric field having a polarity and magnitude sufficient to cause the second particles to move adjacent the first surface of the medium, but leave the first particles held adjacent the first surface of the medium by the magnetic forces acting on the first particles, thereby causing the third optical characteristic to be visible at the second surface of the display.
- 35. A method of addressing an electrophoretic medium, the method comprising:
(a) providing an electrophoretic medium having opposed first and second surfaces, the medium comprising a suspending fluid, a plurality of a first type of electrically charged magnetic particles having a first optical characteristic suspended in the suspending fluid, a plurality of a second type of electrically charged non-magnetic particles having a second optical characteristic different from the first optical characteristic, the first and second types of particles bearing charges of the same polarity, and a third type of electrically charged non-magnetic particles having a third optical characteristic different from the first and second optical characteristics, the third type of particles bearing charges of opposite polarity to those on the first and second types of particles; the medium having a magnet disposed adjacent its first surface; (b) applying to the medium an electric field having a polarity which causes the third type of particles to move adjacent the second surface of the medium, while causing the first and second types of particles to remain adjacent the first surface of the medium, thereby causing the third optical characteristic to be visible at the second surface; (c) applying to the medium an electric field having a polarity and magnitude sufficient to cause the second type of particles to move adjacent the second surface of the medium and the third type of particles to move adjacent the first surface of the medium, but insufficient to cause the first type of particles to move away from the first surface of the medium against the magnetic forces acting on the first type of particles, thereby causing the second optical characteristic to be visible at the second surface; and (d) applying to the medium an electric field having a polarity and magnitude sufficient to cause the second type of particles to move adjacent the second surface of the medium and the third type of particles to move adjacent the first surface of the medium, the magnitude of the electric field being sufficient to cause the first type of particles to move away from the first surface of the medium against the magnetic forces acting on the first type of particles and lie adjacent the second surface of the medium, thereby causing the first and second optical characteristics to be visible at the second surface
- 36. A method of addressing an electrophoretic medium, the method comprising:
(a) providing an electrophoretic medium having opposed first and second surfaces, the medium comprising a suspending fluid, a plurality of a first type of electrically charged magnetic particles having a first optical characteristic suspended in the suspending fluid, a plurality of a second type of electrically charged non-magnetic particles having a second optical characteristic different from the first optical characteristic, the first and second types of particles bearing charges of opposite polarity, and a plurality of a third type of electrically charged non-magnetic particles having a third optical characteristic different from the first and second optical characteristics, the second and third types of particles bearing charges of the same polarity, but the second type of particles having higher electrophoretic mobility than the third type of particle; the medium having a magnet disposed adjacent its first surface; (b) applying to the medium an electric field having a polarity which causes the second and third types of particles to move adjacent the second surface of the medium with the second type of particles lying closer to the second surface, so that the second optical characteristic is visible at the second surface, the first type of particles lying adjacent the first surface of the medium; (c) applying to the medium an electric field having a polarity and magnitude sufficient to cause the second and third types of particles to move adjacent the first surface of the display, with the third type of particles lying closer to the second surface, the magnitude of the electric field being insufficient to cause the first type of particles to move away from the first surface of the medium against the magnetic forces acting on the first type of particles, thereby causing the third optical characteristic to be visible at the second surface; and (d)applying to the medium an electric field having a polarity and magnitude sufficient to cause the second and third types of particles to move adjacent the first surface of the medium, the magnitude of the electric field being sufficient to cause the first type of particles to move away from the first surface of the medium against the magnetic forces acting on the first type of particles and lie adjacent the second surface of the medium, thereby causing the first optical characteristic to be visible at the second surface.
- 37. A method of driving an electrophoretic medium to provide a threshold and/or increase the number of optical states which can be displayed by the medium, the method comprising:
providing an electrophoretic medium having opposed first and second surfaces, the medium comprising a suspending fluid having a first optical characteristic, and a plurality of electrically charged magnetic particles suspended in the suspending fluid, the medium having a magnet disposed adjacent its first surface; applying to the medium an electric field having a polarity and magnitude which tends to cause the particles to move towards the second surface of the medium but which is insufficient to overcome the magnetic forces applied to the particles by the magnet, thereby the particles to remain adjacent the first surface of the medium; and applying to the medium an electric field having,a polarity and magnitude sufficient to cause the particles to move through the suspending fluid against the magnetic forces applied to the particles by the magnet, thereby causing the particles to move adjacent the second surface of the medium, the optical state of the medium varying depending upon whether the particles are adjacent the first or second surface of the medium.
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application claims priority from Provisional Application Ser. No. 60/291,086 filed May 15, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
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60291086 |
May 2001 |
US |