Solid state shutter devices and methods
First Claim
1. An electronically switched optical component, comprising:
- a substrate;
a transparent conductive layer proximal the substrate, the transparent conductive layer configured to receive a signal from a signal source or multiple signal sources;
a layer having a transmittance period proximal to the transparent conductive layer and configured to receive a signal via the conductive layer wherein the transmittance period comprises a capability of the layer to change transmittance from approximately 100% to approximately 0% over a predetermined period of time; and
electronic circuitry in communication with a timing control module configured to provide a signal output to the transparent conductive layer to initiate a change in transmissivity of the layer having a transmittance period.
4 Assignments
0 Petitions
Accused Products
Abstract
Disclosed are methods and devices for solid state electronically switched optical shutters of cameras and other devices. The disclosed non-mechanical camera shutter includes an electronically controlled material that provides optical density variation, to transition the shutter from being open to being closed. The layer of electronically controlled material is configured to change from substantially to transparent to substantially opaque, without scattering, by changing the state of the material. The transmittance period is the period of time that the layer changes transmittance from approximately 100% to approximately 0%. Electronic circuitry is in communication with a timing control module that is configured to provide a signal output to a transparent conductive layer proximal to the layer of electronically controlled material to initiate a change in its transmissivity. The described electronically switched optical component would add little or no additional bulk to a small camera.
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Citations
15 Claims
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1. An electronically switched optical component, comprising:
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a substrate; a transparent conductive layer proximal the substrate, the transparent conductive layer configured to receive a signal from a signal source or multiple signal sources; a layer having a transmittance period proximal to the transparent conductive layer and configured to receive a signal via the conductive layer wherein the transmittance period comprises a capability of the layer to change transmittance from approximately 100% to approximately 0% over a predetermined period of time; and electronic circuitry in communication with a timing control module configured to provide a signal output to the transparent conductive layer to initiate a change in transmissivity of the layer having a transmittance period. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A camera, comprising:
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an image sensor with pixels configured for activation and deactivation and to receive an image when activated; electronic circuitry to provide an activation signal to the pixels based upon the pixel activation timing control input; and a shutter, wherein the shutter comprises; a substrate; a transparent conductive layer proximal the substrate, the transparent conductive layer configured to receive a signal from a signal source; and a layer having a transmittance period proximal to the transparent conductive layer and configured to receive a signal via the conductive layer wherein the transmittance period comprises a capability of the layer to change transmittance from approximately 100% to approximately 0% over a predetermined period of time; and electronic circuitry in communication with a timing control module configured to provide signal output to the transparent conductive layers to initiate a change in transmissivity of the layer having a transmittance period based upon pixel activation timing control input. - View Dependent Claims (11, 12, 13, 14, 15)
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Specification