Liquid crystal lens circuit
First Claim
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1. A combination comprising:
- at least one liquid crystal lens with a variable optical density to adjust the amount of light transmitted through said at least one liquid crystal lens; and
an electrical circuit for controlling the variable optical density of said at least one liquid crystal lens, wherein said electrical circuit includes;
a first section of circuitry (1) for detecting an ambient light level and for generating a light level signal indicative of the ambient light level; and
additional circuitry (2, 3) for processing the light level signal and for generating a drive signal for controlling the optical density of said at least one liquid crystal lens, wherein said additional circuitry includes a user-variable response time adjustment which is adjustable by a user to change a rate at which the optical density of said at least one liquid crystal lens changes in response to changes in the ambient light level.
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Abstract
A liquid crystal lens drive circuit for a pair of spectacles has user-controllable components which can be used to adjust a response time of the circuit to changes in ambient light and to adjust the particular response of the circuit to excess light above a threshold in accordance with a desired response characteristic. Momentary changes in the light level from the general ambient can be prevented from changing the optical density of the lenses unnecessarily, and individual preferences as to the darkening characteristics can be accommodated in a standard pair of spectacles.
15 Citations
11 Claims
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1. A combination comprising:
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at least one liquid crystal lens with a variable optical density to adjust the amount of light transmitted through said at least one liquid crystal lens; and
an electrical circuit for controlling the variable optical density of said at least one liquid crystal lens, wherein said electrical circuit includes;
a first section of circuitry (1) for detecting an ambient light level and for generating a light level signal indicative of the ambient light level; and
additional circuitry (2, 3) for processing the light level signal and for generating a drive signal for controlling the optical density of said at least one liquid crystal lens, wherein said additional circuitry includes a user-variable response time adjustment which is adjustable by a user to change a rate at which the optical density of said at least one liquid crystal lens changes in response to changes in the ambient light level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
a filter and buffer section (2) for receiving the light level signal from said first section of circuitry; and
an oscillator (3) responding to an output of said filter and buffer section and generating the drive signal for controlling the optical density of said at least one liquid crystal lens.
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3. The combination according to claim 2, wherein said filter and buffer section includes:
a variable resistor for changing a time constant of said filter and buffer section, which results in a change in the drive signal output by said oscillator, and wherein said variable resistor is said user-variable response time adjustment which is adjustable by a user to change a rate at which the optical density of said at least one liquid crystal lens changes in response to changes in the ambient light level.
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4. The combination according to claim 2, wherein said first section of circuitry includes:
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a light sensitive element;
an operational amplifier connected to said light sensitive element; and
a feedback network connected to said operational amplifier.
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5. The combination according to claim 4, wherein said feedback network includes:
a user-variable threshold adjustment, which changes a feedback characteristic of said feedback network and hence a gain characteristic of said operational amplifier, wherein said user-variable threshold adjustment is adjustable by a user to change a threshold value for changes in ambient light, above which the optical density of said at least one liquid crystal lens will be varied by said oscillator, and below which the optical density of said at least one liquid crystal lens will not be varied by said oscillator.
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6. The combination according to claim 1, wherein said first section of circuitry includes:
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a light detector for detecting the ambient light level and for generating an analogue signal; and
an analogue-to-digital converter for receiving the analogue signal and for converting it into a digital signal which is the light level signal indicative of the ambient light level, and wherein said additional circuitry includes;
a signal conditioner connected to said analogue-to-digital converter;
a digital filter connected to said signal conditioner; and
a digitally controlled waveform generator connected to said digital filter for generating the drive signal for controlling the optical density of said at least one liquid crystal lens.
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7. The combination according to claim 6, wherein said user-variable response time adjustment provides an input to said digital filter which adjusts a response time of said digital filter.
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8. The combination according to claim 6, further comprising:
a user-variable threshold adjustment, which is adjustable by a user to change a threshold value for changes in ambient light, above which the optical density of said at least one liquid crystal lens will be varied by said digitally controlled waveform generator, and below which the optical density of said at least one liquid crystal lens will not be varied by said digitally controlled waveform generator.
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9. The combination according to claim 8, wherein said user-variable threshold adjustment provides an input to said signal conditioner, and wherein said signal conditioner includes a plurality of look-up tables, each of which converts values of said light level signal into a selected waveform.
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10. The combination according to claim 1, wherein said additional circuitry includes a microprocessor.
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11. The combination according to claim 1, wherein said at least one liquid crystal lens is part of a pair of spectacles.
Specification