Electronically switchable optical device with a multi-functional optical control apparatus and methods for operating the same

US 10,095,052 B2
Filed: 08/08/2016
Issued: 10/09/2018
Est. Priority Date: 04/05/2010
Status: Active Grant

First Claim

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1. An electronically controllable eyewear device, comprising:

a cell comprising at least one liquid crystal material able to change between a first state of maximum light transmittance (T_max) when no voltage (V₀) is applied and a second state of minimum light transmittance (T_min) when a maximum voltage (V_max) is applied, wherein the cell can be operated in an auto or a manual mode;

a photosensor electronically connected to the cell for generating a light input signal based on an ambient light level to trigger an automatic application of voltage when the device is in the auto mode, wherein detection of an ambient light level above a threshold value triggers the automatic application of voltage to the cell and wherein detection of an ambient light level below the threshold value results in no voltage being applied;

a first and a second switch, each capable of being actuated in a series of actuation sequences each to select a distinct function; and

a control circuit responsive to each said actuation sequence and said light input signal to operate the cell in a corresponding one of a plurality of functions;

wherein the actuation sequences comprise;

(i) a first actuation sequence for affecting an ON/OFF function such that when OFF, no voltage is applied to the cell and when ON, a voltage is applied to the cell;

(ii) a second actuation sequence for affecting a system change from the manual mode to the auto mode; and

(iii) a third actuation sequence for changing the threshold value for triggering the automatic application of voltage.

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Abstract

An electronically controllable eyewear device having a cell filled with a liquid crystal material that can be electronically operated in an auto or a manual mode. The device contains a photosensor for generating a light input signal to trigger an automatic application of voltage to the cell when the device is in an auto mode, one or more switches capable of being actuated in a series of actuation sequences each to select a distinct function, and a control circuit responsive to each actuation sequence and light input signal to operate the cell in a corresponding one of a plurality of functions, including: (i) a first sequence for affecting an ON/OFF function, (ii) a second sequence for affecting a system change from the manual mode to the auto mode, and (iii) a third sequence for changing the threshold value for triggering the automatic application of voltage.

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31 Claims

1. An electronically controllable eyewear device, comprising:
- a cell comprising at least one liquid crystal material able to change between a first state of maximum light transmittance (T_max) when no voltage (V₀) is applied and a second state of minimum light transmittance (T_min) when a maximum voltage (V_max) is applied, wherein the cell can be operated in an auto or a manual mode;
  
  a photosensor electronically connected to the cell for generating a light input signal based on an ambient light level to trigger an automatic application of voltage when the device is in the auto mode, wherein detection of an ambient light level above a threshold value triggers the automatic application of voltage to the cell and wherein detection of an ambient light level below the threshold value results in no voltage being applied;
  
  a first and a second switch, each capable of being actuated in a series of actuation sequences each to select a distinct function; and
  
  a control circuit responsive to each said actuation sequence and said light input signal to operate the cell in a corresponding one of a plurality of functions;
  
  wherein the actuation sequences comprise;
  
  (i) a first actuation sequence for affecting an ON/OFF function such that when OFF, no voltage is applied to the cell and when ON, a voltage is applied to the cell;
  
  (ii) a second actuation sequence for affecting a system change from the manual mode to the auto mode; and
  
  (iii) a third actuation sequence for changing the threshold value for triggering the automatic application of voltage.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The device according to claim 1, wherein actuating the first or second switch using the third actuation sequence when the device is in the auto mode and in a selected ambient light condition changes the threshold value for triggering the automatic application of voltage to said selected ambient light condition.
  - 3. The device according to claim 1, wherein if the threshold value for triggering the automatic application of voltage has been changed, actuating the first or second switch in a fourth actuation sequence affects a factory re-set to original factory settings.
  - 4. The device according to claim 1, wherein a further actuation sequence affects a manual increase or decrease in the threshold value for triggering the automatic application of voltage.
  - 5. The device according to claim 1, wherein when the device is in the auto mode, actuating the first or second switch using the first actuation sequence returns the device from the auto mode to the manual mode.
  - 6. The device according to claim 1, wherein the actuations sequence affecting functions (i), (ii) and (iii) are the same for the first and the second switch.
  - 7. The device according to claim 1, wherein the liquid crystal material is further able to change to one or more intermediate states having one or more intermediate light transmittance (T_n) between T_maxand T_minwhen one or more intermediate voltages (V_n) are applied,wherein actuation of the first or second switch, or both, in a new sequence toggles the applied voltage between one or more intermediate voltages (V_n) and said maximum voltage (V_max) to alter the level of light transmission of the device.
  - 8. The device according to claim 1, wherein the cell comprises at least two stacked sub-cells,each sub-cell comprising at least one liquid crystal material able to change between the first T_maxstate and the second T_minstate;
    - wherein actuation of the first or the second switch, or both, using said series of actuation sequences selects a function for each said sub-cell.
  - 9. The device according to claim 8, wherein the cell comprises two sub-cells and wherein the first switch operates one or more functions in one sub-cell and the second switch operates one or more functions in the other sub-cell.
  - 10. The device according to claim 8, wherein the cell comprises two sub-cells, and wherein actuating the first or second switch in the first actuation sequence operates to turn each said sub-cell OFF or ON, thereby toggling the device between four states where:
    - (i) both said sub-cells are Off, (ii) one said sub-cell is On, (iii) the other said sub-cell is On, and (iv) both said sub-cells are On.
  - 11. The device according to claim 1, wherein the device comprises a first and a second temple, wherein the first switch is located on the first temple and the second switch is located on the second temple.
  - 12. The device according to claim 1, wherein one of said first or second switches is a remote switch.

13. An electronically controllable eyewear device, comprising:
- a cell comprising at least one liquid crystal material able to change between a first state having maximum light transmittance (T_max) when no voltage (V₀) is applied, a second state having minimum light transmittance (T_min) when a maximum voltage (V_max) is applied, and one or more intermediate states having intermediate light transmittance (T_min) between T_maxand T_minwhen one or more intermediate voltages (V_n) are applied, wherein the cell can be operated in an auto or a manual mode;
  
  a photosensor electronically connected to the cell for generating a light input signal based on an ambient light level to trigger an automatic application of voltage when the device is in the auto mode, wherein detection of an ambient light level above a threshold value triggers the automatic application of voltage to the cell and wherein detection of an ambient light level below the threshold value results in no voltage being applied;
  
  a switch capable of being actuated in a series of actuation sequences each to select a distinct function; and
  
  a control circuit responsive to each said actuation sequence and said light input signal to operate the cell in a corresponding one of a plurality of functions;
  
  wherein the actuation sequences comprise;
  
  (i) a first actuation sequence for affecting an ON/OFF function such that when OFF, no voltage is applied to the cell and when ON, a voltage is applied to the cell; and
  
  (ii) a second actuation sequence for affecting a system change from the manual mode to the auto mode.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 14. The device according to claim 13, wherein actuating the switch in a third actuation sequence when the device is in the auto mode changes the threshold value for triggering the automatic application of voltage.
  - 15. The device according to claim 13, wherein a further actuation sequence affects a manual increase or decrease in the threshold value for triggering the automatic application of voltage.
  - 16. The device according to claim 13, wherein the device comprises a second switch.
  - 17. The device according to claim 16, wherein the second switch is a remote switch.
  - 18. The device according to claim 16, wherein actuating the first switch in a tint sequence increases the voltage being applied to the cell and actuating the second switch in a tint sequence decreases the voltage being applied to the cell, or vice versa.
  - 19. The device according to claim 13, wherein the cell comprises at least two stacked sub-cells,each sub-cell comprising at least one liquid crystal material able to change between a first state of maximum light transmittance (T_max) when no voltage (V₀) is applied, a second state of minimum light transmittance (T_min) when a maximum voltage (V_max) is applied, and one or more intermediate states having intermediate light transmittance (T_n) between said T_maxand said T_minwhen one or more intermediate voltages (V_n) are applied;
    - wherein actuation of the switch in each said series of actuation sequences selects a distinct function for each said sub-cell.
  - 20. The device according to claim 19, wherein actuating the switch in the first actuation sequence operates such that when OFF, no voltage is applied to either said sub-cell and when ON, a voltage is applied to one or more sub-cells.
  - 21. The device according to claim 19, wherein the actuation sequences further comprise:
    - (iii) an actuation sequence for changing the threshold value for each said sub-cell when the sub-cell is in the auto mode.
  - 22. The device according to claim 19, wherein the control circuit is capable of toggling the applied voltage to each said sub-cell between said one or more intermediate voltages (V_n) and said maximum voltage to alter the level of light transmission of the sub-cell.
  - 23. The device according to claim 19, wherein the device comprises a second switch.
  - 24. The device according to claim 23, wherein the second switch is remote.

25. An electronically controllable eyewear device, comprising:
- a cell comprising at least one liquid crystal material able to change between a first state of maximum light transmittance (T_max) when no voltage (V₀) is applied and a second state of minimum light transmittance (T_min) when a maximum voltage (V_max) is applied, wherein the cell can be operated in an auto or a manual mode;
  
  a photosensor electronically connected to the cell for generating a light input signal based on an ambient light level to trigger an automatic application of voltage when the device is in the auto mode, wherein detection of an ambient light level above a threshold value triggers the automatic application of voltage to the cell and wherein detection of an ambient light level below the threshold value results in no voltage being applied;
  
  a switch attached to said device capable of being actuated in a series of actuation sequences each to select a distinct function;
  
  a remote switch coupled to said device and capable of producing one or more remote signals to enable one or more user commands;
  
  a control circuit responsive to each said actuation sequence and light input signal to operate the cell in a corresponding one of a plurality of functions comprising;
  
  (i) an ON/OFF function such that when OFF, no voltage is applied to the cell and when ON, a voltage is applied to the cell; and
  
  (ii) a system change from the manual mode to the auto mode;
  
  and wherein the control circuit is further programmed to receive each said remote signal and produce appropriate instructions to carry out the one or more user commands.
- View Dependent Claims (26, 27, 28, 29, 30, 31)
- - 26. The device according to claim 25, wherein the remote switch communicates with the eyewear device through a wireless connection.
  - 27. The device according to claim 25, wherein the remote switch is integrated into a smart device.
  - 28. The device according, to claim 27, wherein the smart device comprises a software application having a graphical interface with a predetermined set of labeled buttons corresponding to the one or more user commands, wherein selection of each said labeled button generates the appropriate remote signal.
  - 29. The device according to claim 25, wherein the user commands comprise one or more of the following:
    - (a) an ON/OFF function such that when OFF, no voltage is applied to the cell and when ON, a voltage is applied to the cell;
      
      (b) a system change from the manual mode to the auto mode;
      
      (c) a threshold adjustment function for adjusting the threshold value for triggering the automatic application of voltage.
  - 30. The device according to claim 25, wherein the liquid crystal material is further able to change to one or more intermediate states having one or more intermediate light transmittance (T_n) between T_maxand T_minwhen one or more intermediate voltages (V_n) are applied;
    - wherein the remote switch is capable of enabling a user command to select one or more intermediate voltages V_nto be applied to the cell to alter the level of light transmission of the device.
  - 31. The device according to claim 25, wherein the cell comprises at least two stacked sub-cells, each sub-cell comprising at least one liquid crystal material able to change between a first state of maximum light transmittance (T_max) when no voltage (V₀) is applied, a second state of minimum light transmittance (T_min) when a maximum voltage (V_max) is applied;
    - wherein the remote switch is capable of producing one or more remote signals to enable one or more user commands for each said sub-cell; and
      
      wherein the control circuit is programmed to receive and process the remote signals for each said sub-cell and produce appropriate instructions to carry out the user command for each said sub-cell.

Specification

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Current Assignee
Alphamicron Incorporated
Original Assignee
Alphamicron Incorporated
Inventors
Bhatta, Sandip, Soto, Pedro Coutino, Kosa, Tamas, Taheri, Bahman
Primary Examiner(s)
LE, QUE TAN

Application Number

US15/230,641
Publication Number

US 20170068112A1
Time in Patent Office

792 Days
Field of Search

250214 AI, 250214 R, 250216
US Class Current
CPC Class Codes

G02C 2202/16   Laminated or compound lenses

G02C 7/101   having an electro-optical l...

G02F 1/13318   Circuits comprising a photo...

G02F 1/13338   Input devices, e.g. touch p...

Electronically switchable optical device with a multi-functional optical control apparatus and methods for operating the same

First Claim

1 Assignment

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Abstract

27 Citations

31 Claims

Specification

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Electronically switchable optical device with a multi-functional optical control apparatus and methods for operating the same

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

27 Citations

31 Claims

Specification

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Solutions

Use Cases

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