Directional filter device for controlling direction of maximal blocking of incident light

US 8,416,355 B2
Filed: 06/18/2008
Issued: 04/09/2013
Est. Priority Date: 06/20/2007
Status: Expired due to Fees

First Claim

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1. A directional filter device for controlling direction of maximal blocking of incident light, comprising:

(a) a front polarizer;

(b) a plurality of front electrodes;

(c) a liquid crystal layer having a front surface for receiving light and a back surface for emitting light;

(d) a plurality of back electrodes;

(e) a back polarizer; and

(f) circuitry for applying a voltage between said front electrodes and said back electrodes, wherein said circuitry is configured to apply voltage between front and back electrodes that do not face each other using voltage sequences that create electric fields at angles selected from a range of angles, which are not perpendicular to the front surface of the liquid crystal layer.

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Abstract

A directional filter device for controlling direction of maximal blocking of incident light, including: (a) a front polarizer; (b) a plurality of front electrodes; (c) a liquid crystal layer having a front surface for receiving light and a back surface for emitting light; (d) a plurality of back electrodes; (e) a back polarizer; and (f) circuitry for applying a voltage between said front electrodes and said back electrodes, wherein said circuitry is configured to apply voltage between front and back electrodes that do not face each other using voltage sequences that create electric fields at angles selected from a range of angles, which are not perpendicular to the front surface of the liquid crystal layer.

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20 Claims

1. A directional filter device for controlling direction of maximal blocking of incident light, comprising:
- (a) a front polarizer;
  
  (b) a plurality of front electrodes;
  
  (c) a liquid crystal layer having a front surface for receiving light and a back surface for emitting light;
  
  (d) a plurality of back electrodes;
  
  (e) a back polarizer; and
  
  (f) circuitry for applying a voltage between said front electrodes and said back electrodes, wherein said circuitry is configured to apply voltage between front and back electrodes that do not face each other using voltage sequences that create electric fields at angles selected from a range of angles, which are not perpendicular to the front surface of the liquid crystal layer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The directional filter of claim 1, adapted to selectively block the light incident upon an optical instrument selected from a group consisting of:
    - camera lens, still camera, video camera, sunglasses, vehicle windshield visor, vehicle visor, motorcyclist helmet visor, welding helmet, window, and smart window.
  - 3. The directional filter of claim 1, wherein said voltage sequences are applied in time periods less than a mechanical rotational time constant of molecules of said liquid crystal.
  - 4. The directional filter of claim 1, wherein said voltage sequences applied to the front and back electrodes alternate between several phases so as to induce at molecules of the liquid crystal alternating rotational torques in a rate fast enough relative to a rotational response time of the liquid crystal molecules so that the spatial orientations of the long axes of said molecules will be stable in time.
  - 5. The directional filter of claim 1, wherein said voltage sequences applied to said front and back electrodes alternate in several temporal phases so as to induce on molecules of said liquid crystal alternating rotational torques that orient the long axes of said molecules in a uniform desired spatial direction throughout the volume of the said liquid crystal layer.
  - 6. The directional filter of claim 1, wherein said front and back electrodes each assume two-dimensional configurations of rows and columns, and wherein said control circuit addresses electrodes belonging to a given row together and applies a single common voltage to all said electrodes of said given row in a given phase, and in other temporal phases, electrodes belonging to a same column are addressed together and supplied with a common voltage, allowing for two-dimensional control over said direction of maximal blocking of incident light.
  - 7. The directional filter of claim 1, wherein said directional filter is additionally provided with a direction-sensitive light detector in communication with said circuitry, said circuitry being adapted to utilize the direction and intensity information obtained from said direction-sensitive light detector to change said direction of maximal blocking of incident light.
  - 8. The directional filter of claim 1, wherein a first spatial axis of the electric field and subsequent liquid crystal alignment is controlled by applying directional fields using a spatial pattern of voltages in a plane of said first axis, while a second spatial axis of the electric field pattern and subsequent liquid crystal alignment is controlled by applying directional fields using a spatial pattern of voltages in the plane of said second axis.
  - 9. The directional filter of claim 1, wherein said electrodes are spaced from said liquid crystal.
  - 10. The directional filter of claim 1, comprising separation layers which separate said electrodes from said liquid crystal.
  - 11. The directional filter of claim 1, wherein an electric field magnitude and an electric field direction of the created electric field are independently controlled by said control circuitry.
  - 12. The directional filter of claim 1, wherein said front electrodes are mounted on a glass plate.
  - 13. The directional filter of claim 1, wherein said direction is a single arbitrary spatial angle relative to said filter.
  - 14. The directional filter of claim 1, wherein said front electrodes are aligned at a non-zero offset relative to the back electrodes.
  - 15. The directional filter of claim 1, comprising a light sensor and control circuitry which receives a signal from said sensor and which drives said circuitry to adjust (a) the direction of maximal blocking of incident light and/or (b) an attenuation level of incident light.
  - 16. The directional filter of claim 1, wherein the electrodes take the form of parallel conductive strips.

17. A method of selectively controlling the directions of light blocking and transmission in a liquid crystal-based directional filter device, comprising:
- providing a liquid crystal-based directional filter device, comprising;
  
  (a) a front polarizer;
  
  (b) a plurality of front electrodes;
  
  (c) a liquid crystal layer having a front surface for receiving light and a back surface for emitting light;
  
  (d) a plurality of back electrodes ;
  
  (e) a back polarizer; and
  
  (f) circuitry for applying a voltage between said front electrodes and said back electrodes, characterized in that said circuitry is configured to apply voltage between front and back electrodes that do not face each other using voltage sequences that create electric fields at angles selected from a range of angles, which are not perpendicular to the front surface of the liquid crystal layer; and
  
  controlling the electric field direction and magnitude within the liquid crystal layer to provide said electric field at an angle which is not perpendicular to the front surface of the liquid crystal layer.
- View Dependent Claims (18, 19, 20)
- - 18. A method according to claim 17, wherein said controlling the electric field direction and magnitude is performed by a user.
  - 19. A method according to claim 17, wherein said controlling the electric field direction and magnitude is performed using an input from a light sensor.
  - 20. A method according to claim 17, wherein said controlling the electric field direction and magnitude comprises controlling said electric field in two dimensions.

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Current Assignee
TC View Ltd.
Original Assignee
TC View Ltd.
Inventors
Tamir, Zeev, Cohen, Yacov
Primary Examiner(s)
NGO, HUYEN LE

Application Number

US12/601,982
Publication Number

US 20100177255A1
Time in Patent Office

1,756 Days
Field of Search

349/18, 359/63, 359/66, 359/502, 359/491.01
US Class Current

349/18
CPC Class Codes

E06B 2009/2417   Light path control; means t...

E06B 9/24   Screens or other constructi...

G02F 1/1323   Arrangements for providing ...

G02F 1/133   Constructional arrangements...

G02F 1/13318   Circuits comprising a photo...

Directional filter device for controlling direction of maximal blocking of incident light

First Claim

1 Assignment

0 Petitions

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Abstract

15 Citations

20 Claims

Specification

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Directional filter device for controlling direction of maximal blocking of incident light

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

15 Citations

20 Claims

Specification

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Solutions

Use Cases

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