Electro-active multi-focal spectacle lens
First Claim
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1. A multi-focal ophthalmic lens comprising:
- a first region having a first optical power, wherein the first region is an electro-active region and the first optical power is variable;
a second region having a second optical power, wherein the second region is a fixed optical power region and the second optical power is fixed; and
an electro-active blending zone having a first boundary and a second boundary, the first boundary adjacent the first region and the second boundary adjacent the second region, wherein the electro-active blending zone is adapted to provide a substantially smooth transition between the first optical power of the first region and the second optical power of the second region.
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Abstract
Electro-active multi-focal spectacles are disclosed. The spectacles have a stack of at least two electro-active regions. The electro-active regions produce a plurality of viewing correction zones. The spectacles also have a controller for independently activating the electro-active regions to produce viewing correction zones. An electro-active multi-focal spectacle having a blending zone is also disclosed. The blending zone provides a transition of optical power between viewing correction zones.
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Citations
12 Claims
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1. A multi-focal ophthalmic lens comprising:
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a first region having a first optical power, wherein the first region is an electro-active region and the first optical power is variable; a second region having a second optical power, wherein the second region is a fixed optical power region and the second optical power is fixed; and an electro-active blending zone having a first boundary and a second boundary, the first boundary adjacent the first region and the second boundary adjacent the second region, wherein the electro-active blending zone is adapted to provide a substantially smooth transition between the first optical power of the first region and the second optical power of the second region. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
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2. A multi-focal ophthalmic lens comprising:
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a first region having a first optical power, wherein the first region is an electro-active region and the first optical power is variable; a second region having a second optical power, wherein the second region is an electro-active region and the second optical power is variable; a first electro-active blending zone having a first boundary and a second boundary, the first boundary adjacent the first region and the second boundary adjacent the second region, wherein, the first electro-active blending zone is adapted to provide a substantially smooth transition of optical power from the first optical power of the first region to the second optical power of the second region; a third region having a third optical power, wherein the third region is a fixed optical power region and the third optical power is fixed; and a second electro-active blending zone having a third boundary and a fourth boundary, the third boundary adjacent the second region and the fourth boundary adjacent the third region, wherein, the second electro-active blending zone is adapted to provide a substantially smooth transition of optical power from the second optical power of the second region to the third optical power of the third region.
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12. A multi-focal electro-active ophthalmic lens comprising:
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an electro-active lens comprising at least one electro-active region to produce a plurality of optical power zones having different optical powers and at least one blending zone adapted to provide a substantially smooth transition of optical power between at least two of the plurality of optical power zones; and a controller for activating each electro-active region to produce the plurality of zones and the at least one substantially smooth transition, wherein optical power in the blending zone decreases exponentially from higher optical power to lower optical power, as the plurality of optical power zones transition from higher optical power to lower optical power.
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Specification