Automatic darkening and glare reducing liquid crystal mirror
First Claim
1. A liquid crystal mirror that darkens in response to headlights impinging on the mirror, the liquid crystal mirror comprising:
- a substantially transparent front substrate having interior and exterior surfaces and a substantially transparent and conductive layer on the interior surface of the front substrate;
a back substrate having interior and exterior surfaces and being spaced from the front substrate to define a liquid crystal cell between the interior surfaces of the substrates, and an at least partially reflective and conductive layer on the interior surface of the back substrate;
an alignment compound on opposite sides of and bounding the liquid crystal cell;
a liquid crystal fluid contained within the liquid crystal cell, the liquid crystal fluid including a dichroic dye;
an electronic control circuit coupled to the transparent conductive layer on the front substrate and the reflective conductive layer on the back substrate, the electronic control circuit adapted selectively to apply a voltage signal to the layers to affect the transmittance of the liquid crystal fluid; and
a headlight sensor coupled to the electronic circuit for sensing an intensity of light impinging on the mirror, the electronic circuit applying a voltage signal or discontinuing a voltage signal to reduce the transmittance of the liquid crystal fluid in response to a light intensity sensed by the headlight sensor above a predetermined headlight threshold.
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Accused Products
Abstract
An automatic darkening liquid crystal mirror for vehicles, the mirror having a transparent front substrate and a back substrate with a reflective or transflective mirrored coating. The front and back substrates are spaced apart to define a liquid crystal cell between the substrates that is filled with a liquid crystal fluid incorporating a dichroic dye. A conductive thin film is applied onto the interior surface of the front substrate, and the mirrored coating of the back substrate also is conductive. An alignment compound is deposited on opposite sides of and bounding the liquid crystal cell. An electronic control circuit is adapted to apply selectively a voltage signal to the conductive think film and the conductive mirrored coating to affect the transmittance of the liquid crystal fluid, and thereby the darkness of the mirror, in response to light intensity sensed by a headlight sensor coupled to the electronic control circuit.
8 Citations
6 Claims
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1. A liquid crystal mirror that darkens in response to headlights impinging on the mirror, the liquid crystal mirror comprising:
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a substantially transparent front substrate having interior and exterior surfaces and a substantially transparent and conductive layer on the interior surface of the front substrate; a back substrate having interior and exterior surfaces and being spaced from the front substrate to define a liquid crystal cell between the interior surfaces of the substrates, and an at least partially reflective and conductive layer on the interior surface of the back substrate; an alignment compound on opposite sides of and bounding the liquid crystal cell; a liquid crystal fluid contained within the liquid crystal cell, the liquid crystal fluid including a dichroic dye; an electronic control circuit coupled to the transparent conductive layer on the front substrate and the reflective conductive layer on the back substrate, the electronic control circuit adapted selectively to apply a voltage signal to the layers to affect the transmittance of the liquid crystal fluid; and a headlight sensor coupled to the electronic circuit for sensing an intensity of light impinging on the mirror, the electronic circuit applying a voltage signal or discontinuing a voltage signal to reduce the transmittance of the liquid crystal fluid in response to a light intensity sensed by the headlight sensor above a predetermined headlight threshold. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification