Claims
- 1. A variable focal length lens, comprising:a polarized liquid crystal lens body; a plurality of parallel substrates containing liquid crystal therebetween mounted to the lens body; an electrode mounted to each of the substrates, wherein adjacent ones of the electrodes apply a variable voltage to the liquid crystal located therebetween for altering a refractive index of the liquid crystal and, thus, adjusting a focal length of the lens; and wherein the electrodes only cover a portion of their respective substrates such that the liquid crystal between said adjacent ones of the electrodes is birefringent.
- 2. The variable focal length lens of claim 1 wherein each of the substrates is coated with an alignment material.
- 3. The variable focal length lens of claim 2 wherein the alignment material sets a desired alignment direction for the liquid crystal.
- 4. The variable focal length lens of claim 1 wherein adjacent ones of the substrates are spaced apart by a distance in the range of 30 to 70 microns, and wherein each of the substrates has a thickness of approximately 2 microns and a width of approximately 70 microns.
- 5. The variable focal length lens of claim 1 wherein the focal length of the lens has a range of approximately 10 mm to infinity.
- 6. The variable focal length lens of claim 1 wherein the only moving part of the lens is the liquid crystal.
- 7. The variable focal length lens of claim 1 wherein the electrodes on the substrates are generally arcuate in shape.
- 8. A variable focal length lens assembly, comprising:a pair of polarized liquid crystal lenses; a plurality of parallel substrates containing liquid crystal therebetween mounted to each of the lenses; a single electrode associated with each of the substrates, wherein adjacent ones of the electrodes apply a variable voltage to the liquid crystal located therebetween for altering a refractive index of the liquid crystal and, thus, adjusting a focal length of the lens assembly; and wherein said adjacent ones of the electrodes only refract a portion of the liquid crystal located therebetween such that another portion of said liquid crystal located therebetween is not subjected to the variable voltage in order to vary the focal length of the lenses.
- 9. The variable focal length lens assembly of claim 8 wherein each of the substrates is coated with an alignment material for setting a desired alignment direction for the liquid crystal.
- 10. The variable focal length lens assembly of claim 8 wherein adjacent ones of the substrates are equally spaced apart by a distance in the range of 30 to 70 microns, and wherein each of the substrates has a thickness of approximately 2 microns and a width of approximately 70 microns.
- 11. The variable focal length lens assembly of claim 8 wherein the focal length of the lens assembly has a range of approximately 10 mm to infinity.
- 12. The variable focal length lens assembly of claim 8 wherein the only moving part of the lens assembly is the liquid crystal.
- 13. The variable focal length lens assembly of claim 8 wherein the electrodes on the substrates are generally arcuate in shape.
- 14. The variable focal length lens assembly of claim 8 wherein the lenses are separated by a transparent spacer having a width that is adapted to equal one-half wavelength of a light source used in conjunction with the lens assembly.
- 15. A variable focal length lens assembly, comprising:a pair of polarized liquid crystal lenses; a transparent spacer located between the lenses; a plurality of parallel substrates containing liquid crystal therebetween mounted to each of the lenses; an alignment coating on each of the substrates for setting a desired alignment direction for the liquid crystal; and a single electrode located between each of the substrates and their respective alignment coatings, wherein adjacent ones of the electrodes apply a variable voltage to a portion of the liquid crystal located therebetween for altering a refractive index of said portion of the liquid crystal such that another portion of said liquid crystal located therebetween is not subjected to the variable voltage, thereby adjusting a focal length of the lens assembly.
- 16. The variable focal length lens assembly of claim 15 wherein adjacent ones of the substrates are equally spaced apart by a distance in the range of 30 to 70 microns, and wherein each of the substrates has a thickness of approximately 2 microns and a width of approximately 70 microns.
- 17. The variable focal length lens assembly of claim 15 wherein the focal length of the lens assembly has a range of approximately 10 mm to infinity.
- 18. The variable focal length lens assembly of claim 15 wherein the only moving part of the lens assembly is the liquid crystal.
- 19. The variable focal length lens assembly of claim 15 wherein the electrodes on the substrates are generally arcuate in shape.
- 20. The variable focal length lens assembly of claim 15 wherein the spacer has a width that is adapted to equal one-half wavelength of a light source used in conjunction with the lens assembly.
Parent Case Info
This is a Division of application Ser. No. 09/333,079, filed Jun. 14, 1999, now U.S. Pat. No. 6,250,550.
US Referenced Citations (7)
Foreign Referenced Citations (4)
Number |
Date |
Country |
59-224821 |
Dec 1984 |
JP |
60-244924 |
Dec 1985 |
JP |
60-250337 |
Dec 1985 |
JP |
01-120017 |
May 1989 |
JP |