Spectacle lens having continuously variable controlled density and fast response time
First Claim
1. A spectacle lens having continously variable density, comprising a liquid crystal means within said lens for controlling light transmission through said lens as a function of an applied voltage, means for applying voltage pulses across said liquid crystal means, said pulses having a magnitude greater than a threshold value of said liquid crystal means and a frequency at least as large as the critical flicker fusion frequency of an eye, and means for controlling the duty cycle of said pulses to maintain the light passing through the lens at a predetermined luminous level.
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Accused Products
Abstract
A spectacle lens comprises a liquid crystal layer and electrode assembly sandwiched between a pair of identically curved glass plates and layers of polarization material on the outer surfaces of the plates. The optical density of the lens is controlled by applying across the electrodes variable duty cycle voltage pulses having a magnitude greater than a threshold voltage of the liquid crystal layer and a frequency at least as great as the critical flicker fusion frequency of the eye. The duty cycle of the pulses is controlled in response to ambient light intensity measured by a photocell. In order to reduce response time and increase operating lifetime of the liquid crystal layer, tir-level (+V, 0, -V) rather than bilevel (+V, 0) pulses may be applied to the liquid crystal electrodes.
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Citations
8 Claims
- 1. A spectacle lens having continously variable density, comprising a liquid crystal means within said lens for controlling light transmission through said lens as a function of an applied voltage, means for applying voltage pulses across said liquid crystal means, said pulses having a magnitude greater than a threshold value of said liquid crystal means and a frequency at least as large as the critical flicker fusion frequency of an eye, and means for controlling the duty cycle of said pulses to maintain the light passing through the lens at a predetermined luminous level.
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2. A spectacle lens having a continously variable density as a function of ambient light, comprising a liquid crystal means within said lens for controlling light transmission through said lens as a function of an applied voltage;
- means for measuring ambient light intensity;
generator means for applying voltage pulses across said liquid crystal means, said pulses having a magnitude greater than a threshold value of said liquid crystal means and a frequency at least as large as the critical flicker fusion frequency of an eye; and
means responsive to said light measuring means for controlling the duty cycle of said pulses to maintain the light passing through the lens at a predetermined luminous level. - View Dependent Claims (5)
- means for measuring ambient light intensity;
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6. A variable density spectacle lens, comprising first and second substantially identical curved lenses;
- liquid crystal means sandwiched between said lenses;
transparent, electrically conductive electrode layers on opposite sides of said liquid crystal means;
polarizer means on opposite outer surfaces of said first and second lenses, means for applying voltage pulses across said liquid crystal means, said pulses having a magnitude greater than a threshold value of said liquid crystal means and a frequency at least as large as the critical flicker fusion frequency of an eye, and means for controlling the duty cycle of said pulses to maintain the light passing through the lens at a predetermined luminous level.
- liquid crystal means sandwiched between said lenses;
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7. In a spectacle lens having a liquid crystal means located within the optical path of the lens, wherein the density of said liquid crystal means is variable as a function of a voltage greater than a threshold voltage applied across said liquid crystal means, a method of controlling optical density comprising the steps of generating voltage pulses having a magnitude greater than the threshold voltage of said liquid crystal means and a frequency greater than the critical flicker fusion frequency of an eye;
- controlling the duty cycle of said pulses corresponding to desired optical density of said liquid crystal means to maintain the light passing through the lens at a predetermined luminous level and applying said pulses across said liquid crystal means.
- View Dependent Claims (8)
Specification