LIQUID CRYSTAL DISPLAY DEVICE, AND DRIVING CIRCUIT AND DRIVING METHOD USED IN SAME

US 20070176884A1
Filed: 01/25/2007
Published: 08/02/2007
Est. Priority Date: 02/01/2006
Status: Abandoned Application

First Claim

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1. A liquid crystal display device comprising:

a light source,a light source controlling unit, anda liquid crystal panel,wherein said liquid crystal panel comprises;

an active matrix substrate having a plurality of data electrodes arranged in parallel with one another at predetermined intervals along a first direction, a plurality of scanning electrodes arranged in parallel with one another at predetermined intervals along a second direction orthogonal to said first direction, and a plurality of pixel regions each being arranged in a manner to correspond, in a one-to-one relationship, to an intersection of the two electrodes, one being each of said plurality of data electrodes and another being each of said plurality of scanning electrodes;

a facing substrate mounted in a manner to face said active matrix substrate which has facing electrodes; and

a liquid crystal layer interposed between said active matrix substrate and said facing substrate; and

wherein, by application of a scanning signal to each of said plurality of scanning electrodes and of a display signal to each of said plurality of data electrodes, a specified voltage is applied to each of said plurality of pixel regions corresponding to said display signal and an orientation state of each liquid crystal molecule making up said liquid crystal layer is controlled by said voltage to be applied to obtain a display image; and

wherein said light source controlling unit controls timing of turning said light source ON/OFF according to a response characteristic of each said liquid crystal molecule to an applied voltage.

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Abstract

A liquid crystal display device is provided which is capable of improving display quality of moving images. In the liquid crystal display device, every time a driving pulse voltage is generated by a backlight driving circuit in synchronization with a timing signal fed from a lighting timing control section and is applied to a backlight and a scanning signal is applied to each scanning electrode of a liquid crystal panel, the backlight is turned OFF during a period before completion of a response of each liquid crystal molecule to application of a display signal and is turned ON at time of the completion of the response. When displacement of each of the liquid crystal molecules is large and therefore the change in light transmittance is large, the backlight is turned OFF and, therefore, no change in luminance on a display screen occurs, as a result, contrast of images can be improved.

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20 Claims

1. A liquid crystal display device comprising:
- a light source,a light source controlling unit, anda liquid crystal panel,wherein said liquid crystal panel comprises;
  
  an active matrix substrate having a plurality of data electrodes arranged in parallel with one another at predetermined intervals along a first direction, a plurality of scanning electrodes arranged in parallel with one another at predetermined intervals along a second direction orthogonal to said first direction, and a plurality of pixel regions each being arranged in a manner to correspond, in a one-to-one relationship, to an intersection of the two electrodes, one being each of said plurality of data electrodes and another being each of said plurality of scanning electrodes;
  
  a facing substrate mounted in a manner to face said active matrix substrate which has facing electrodes; and
  
  a liquid crystal layer interposed between said active matrix substrate and said facing substrate; and
  
  wherein, by application of a scanning signal to each of said plurality of scanning electrodes and of a display signal to each of said plurality of data electrodes, a specified voltage is applied to each of said plurality of pixel regions corresponding to said display signal and an orientation state of each liquid crystal molecule making up said liquid crystal layer is controlled by said voltage to be applied to obtain a display image; and
  
  wherein said light source controlling unit controls timing of turning said light source ON/OFF according to a response characteristic of each said liquid crystal molecule to an applied voltage.
- View Dependent Claims (2, 3, 4)
- - 2. The liquid crystal display device according to claim 1, wherein said light source controlling unit turns said light source OFF during a period before completion of the response of each said liquid crystal molecule to the application of said display signal and turns said light source ON at time of the completion of said response.
  - 3. The liquid crystal display device according to claim 1, further comprising:
    - a data electrode driving circuit to apply a corresponding display signal, by one operation, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source controlling unit turns OFF and ON said light source.
  - 4. The liquid crystal display device according to claim 1, further comprising;
    - a data electrode driving circuit to apply a corresponding display signal point-sequentially to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said display signal is applied to each of said plurality of data electrodes, said light source controlling unit turns OFF and ON said light source.

5. A driving circuit for being used in a liquid crystal display device comprising:
- a light source,a light source controlling unit, anda liquid crystal panel,wherein said liquid crystal panel comprises;
  
  an active matrix substrate having a plurality of data electrodes arranged in parallel with one another at predetermined intervals along a first direction, a plurality of scanning electrodes arranged in parallel with one another at predetermined intervals along a second direction orthogonal to said first direction, and a plurality of pixel regions each being arranged in a manner to correspond, in a one-to-one relationship, to an intersection of the two electrodes, one being each of said plurality of data electrodes and another being each of said plurality of scanning electrodes;
  
  a facing substrate mounted in a manner to face said active matrix substrate which has facing electrodes; and
  
  a liquid crystal layer interposed between said active matrix substrate and said facing substrate; and
  
  wherein, by application of a scanning signal to each of said plurality of scanning electrodes and of a display signal to each of said plurality of data electrodes, a specified voltage is applied to each of said plurality of pixel regions corresponding to said display signal and an orientation state of each liquid crystal molecule making up said liquid crystal layer is controlled by said voltage to be applied to obtain a display image; and
  
  wherein said light source controlling unit controls timing of turning said light source ON/OFF according to a response characteristic of each said liquid crystal molecule to an applied voltage.
- View Dependent Claims (6, 7, 8)
- - 6. The driving circuit according to claim 5, wherein said light source controlling unit turns said light source OFF during a period before completion of the response of each said liquid crystal molecule to the application of said display signal and turns said light source ON at time of the completion of said response.
  - 7. The driving circuit according to claim 5, further comprising:
    - a data electrode driving circuit to apply a corresponding display signal, by one operation, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source driving unit turns said light source OFF and ON.
  - 8. The driving circuit according to claim 5, further comprising:
    - a data electrode driving circuit to apply a corresponding display signal, point-sequentially, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source driving unit turns said light source OFF and ON.

9. A driving method for driving a liquid crystal display device comprising a light source, a light source controlling unit, and a liquid crystal panel, wherein said liquid crystal panel comprises an active matrix substrate having a plurality of data electrodes arranged in parallel with one another at predetermined intervals along a first direction, a plurality of scanning electrodes arranged in parallel with one another at predetermined intervals along a second direction orthogonal to said first direction, and a plurality of pixel regions each being arranged in a manner to correspond, in a one-to-one relationship, to an intersection of the two electrodes, one being each of said plurality of data electrodes and another being each of said plurality of scanning electrodes, a facing substrate mounted in a manner to face said active matrix substrate which has facing electrodes, a liquid crystal layer interposed between said active matrix substrate and said facing substrate, and wherein, by application of a scanning signal to each of said plurality of scanning electrodes and of a display signal to each of said plurality of data electrodes, a specified voltage is applied to each of said plurality of pixel regions corresponding to said display signal and an orientation state of each liquid crystal molecule making up said liquid crystal layer is controlled by said voltage to be applied to obtain a display image, said driving method comprising:
- light source driving processing in which timing of turning said light source ON/OFF is controlled according to a response characteristic of each said liquid crystal molecule to an applied voltage.
- View Dependent Claims (10, 11, 12)
- - 10. The driving method according to claim 9, wherein, in said light source driving processing, said light source is turned off during a period before completion of the response of each said liquid crystal molecule to the application of said display signal and is turned ON at time of the completion of said response.
  - 11. The driving method according to claim 9, further comprising:
    - a step of mounting a data electrode driving circuit to apply a corresponding display signal, by one operation, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a step of mounting a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, in said light source driving processing, every time said display signal is applied to each of said plurality of data electrodes, said light source is turned OFF and ON.
  - 12. The driving method according to claim 9, further comprising:
    - a step of mounting a data electrode driving circuit to apply a corresponding display signal point-sequentially to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a step of mounting a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, in said light source driving processing, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source is turned OFF and ON.

13. A liquid crystal display device comprising:
- a light source,a light source controlling means, anda liquid crystal panel,wherein said liquid crystal panel comprises;
  
  an active matrix substrate having a plurality of data electrodes arranged in parallel with one another at predetermined intervals along a first direction, a plurality of scanning electrodes arranged in parallel with one another at predetermined intervals along a second direction orthogonal to said first direction, and a plurality of pixel regions each being arranged in a manner to correspond, in a one-to-one relationship, to an intersection of the two electrodes, one being each of said plurality of data electrodes and another being each of said plurality of scanning electrodes;
  
  a facing substrate mounted in a manner to face said active matrix substrate which has facing electrodes; and
  
  a liquid crystal layer interposed between said active matrix substrate and said facing substrate; and
  
  wherein, by application of a scanning signal to each of said plurality of scanning electrodes and of a display signal to each of said plurality of data electrodes, a specified voltage is applied to each of said plurality of pixel regions corresponding to said display signal and an orientation state of each liquid crystal molecule making up said liquid crystal layer is controlled by said voltage to be applied to obtain a display image; and
  
  wherein said light source controlling means controls timing of turning said light source ON/OFF according to a response characteristic of each said liquid crystal molecule to an applied voltage.
- View Dependent Claims (14, 15, 16)
- - 14. The liquid crystal display device according to claim 13, wherein said light source controlling means turns said light source OFF during a period before completion of the response of each said liquid crystal molecule to the application of said display signal and turns said light source ON at time of the completion of said response.
  - 15. The liquid crystal display device according to claim 13, further comprising:
    - a data electrode driving circuit to apply a corresponding display signal, by one operation, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source controlling means turns OFF and ON said light source.
  - 16. The liquid crystal display device according to claim 13, further comprising;
    - a data electrode driving circuit to apply a corresponding display signal point-sequentially to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said display signal is applied to each of said plurality of data electrodes, said light source controlling means turns OFF and ON said light source.

17. A driving circuit for being used in a liquid crystal display device comprising:
- a light source,a light source controlling means, anda liquid crystal panel,wherein said liquid crystal panel comprises;
  
  an active matrix substrate having a plurality of data electrodes arranged in parallel with one another at predetermined intervals along a first direction, a plurality of scanning electrodes arranged in parallel with one another at predetermined intervals along a second direction orthogonal to said first direction, and a plurality of pixel regions each being arranged in a manner to correspond, in a one-to-one relationship, to an intersection of the two electrodes, one being each of said plurality of data electrodes and another being each of said plurality of scanning electrodes;
  
  a facing substrate mounted in a manner to face said active matrix substrate which has facing electrodes; and
  
  a liquid crystal layer interposed between said active matrix substrate and said facing substrate; and
  
  wherein, by application of a scanning signal to each of said plurality of scanning electrodes and of a display signal to each of said plurality of data electrodes, a specified voltage is applied to each of said plurality of pixel regions corresponding to said display signal and an orientation state of each liquid crystal molecule making up said liquid crystal layer is controlled by said voltage to be applied to obtain a display image; and
  
  wherein said light source controlling means controls timing of turning said light source ON/OFF according to a response characteristic of each said liquid crystal molecule to an applied voltage.
- View Dependent Claims (18, 19, 20)
- - 18. The driving circuit according to claim 17, wherein said light source controlling means turns said light source OFF during a period before completion of the response of each said liquid crystal molecule to the application of said display signal and turns said light source ON at time of the completion of said response.
  - 19. The driving circuit according to claim 17, further comprising:
    - a data electrode driving circuit to apply a corresponding display signal, by one operation, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source driving means turns said light source OFF and ON.
  - 20. The driving circuit according to claim 17, further comprising:
    - a data electrode driving circuit to apply a corresponding display signal, point-sequentially, to each of said plurality of data electrodes of said liquid crystal panel; and
      
      a scanning electrode driving circuit to apply said scanning signal line-sequentially to each of said plurality of scanning electrodes of said liquid crystal panel;
      
      wherein, every time said scanning signal is applied to each of said plurality of scanning electrodes, said light source driving means turns said light source OFF and ON.

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Current Assignee
NEC LCD Technologies Limited (NEC Corporation)
Original Assignee
NEC LCD Technologies Limited (NEC Corporation)
Inventors
TAKAHASHI, Mitsuasa

Application Number

US11/626,949
Publication Number

US 20070176884A1
Time in Patent Office

Days
Field of Search
US Class Current

345/102
CPC Class Codes

G09G 2320/0252   Improving the response speed

G09G 2320/0257   Reduction of after-image ef...

G09G 2320/0261   in the context of movement ...

G09G 2320/0633   by amplitude modulation of ...

G09G 2360/145   the light originating from ...

G09G 3/3406   Control of illumination sou...

G09G 3/3648   using an active matrix G09G...

LIQUID CRYSTAL DISPLAY DEVICE, AND DRIVING CIRCUIT AND DRIVING METHOD USED IN SAME

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Abstract

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LIQUID CRYSTAL DISPLAY DEVICE, AND DRIVING CIRCUIT AND DRIVING METHOD USED IN SAME

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

14 Citations

20 Claims

Specification

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Solutions

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