Liquid crystal display and method of driving the same

US 7,633,572 B2
Filed: 09/13/2006
Issued: 12/15/2009
Est. Priority Date: 11/23/2005
Status: Expired due to Fees

First Claim

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1. A liquid crystal display comprising:

a first substrate having an array of wiring lines and pixel regions, the pixel regions having pixel electrodes, thin film transistors having drain electrodes, and storage capacitors positioned therein;

a second substrate having color filters in regions corresponding to the pixel regions, black matrices between the color filters, a first polarizer, open regions to receive an external light in a reflective mode and pass a backlight in a transmissive mode and positioned in regions in which the black matrices are not positioned, and transparent common electrodes on the color filters and the black matrices; and

a liquid crystal layer between the first substrate and the second substrate,wherein the open regions correspond to first regions in which respective ones of the drain electrodes and the pixel electrodes are connected to each other and second regions in which the storage capacitors are positioned in the pixel regions of the first substrate, andwherein the backlight is passed thru both first and second regions when a minimum signal voltage is applied to the liquid crystal display and is blocked by the liquid crystal layer when a maximum signal voltage is applied, in the transmissive mode, andwherein the external light is passed thru both first and second regions and is reflected by the drain electrodes in the first regions and first electrodes of the storage capacitors in the second regions and blocked by the first polarizer when the minimum signal voltage is applied and the external light is passed thru both first and second regions and is reflected by the drain electrodes in the first regions and first electrodes of the storage capacitors in the second regions and is passed thru the first polarizer when a voltage approximately equal to one-half of the maximum voltage is applied, in the reflective mode.

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Abstract

A liquid crystal display (LCD) includes a first substrate having an array of wiring lines and pixel regions. The pixel regions have pixel electrodes, thin film transistors with drain electrodes, and storage capacitors. The LCD also includes a second substrate having color filters, black matrices, opened regions to receive external light positioned in regions in which the black matrices are not positioned, and transparent common electrodes. Liquid crystal is between the first and second substrates. The opened regions correspond to first regions in which the drain electrodes and the pixel electrodes are connected and second regions in which the storage capacitors are positioned. In one embodiment, the liquid is driven in a normally white mode when the LCD is driven in a transmissive mode, and is driven in a normally black mode when the LCD is driven in a reflective mode.

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16 Claims

1. A liquid crystal display comprising:
- a first substrate having an array of wiring lines and pixel regions, the pixel regions having pixel electrodes, thin film transistors having drain electrodes, and storage capacitors positioned therein;
  
  a second substrate having color filters in regions corresponding to the pixel regions, black matrices between the color filters, a first polarizer, open regions to receive an external light in a reflective mode and pass a backlight in a transmissive mode and positioned in regions in which the black matrices are not positioned, and transparent common electrodes on the color filters and the black matrices; and
  
  a liquid crystal layer between the first substrate and the second substrate,wherein the open regions correspond to first regions in which respective ones of the drain electrodes and the pixel electrodes are connected to each other and second regions in which the storage capacitors are positioned in the pixel regions of the first substrate, andwherein the backlight is passed thru both first and second regions when a minimum signal voltage is applied to the liquid crystal display and is blocked by the liquid crystal layer when a maximum signal voltage is applied, in the transmissive mode, andwherein the external light is passed thru both first and second regions and is reflected by the drain electrodes in the first regions and first electrodes of the storage capacitors in the second regions and blocked by the first polarizer when the minimum signal voltage is applied and the external light is passed thru both first and second regions and is reflected by the drain electrodes in the first regions and first electrodes of the storage capacitors in the second regions and is passed thru the first polarizer when a voltage approximately equal to one-half of the maximum voltage is applied, in the reflective mode.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The liquid crystal display as claimed in claim 1, wherein a first orientation layer and a second orientation layer are on internal surfaces of the first substrate and the second substrate, respectively.
  - 3. The liquid crystal display as claimed in claim 2, wherein the first orientation layer and the second orientation layer are oriented not to be parallel so that the liquid crystal layer between the orientation layers is in an electrically controlled birefringence (ECB) mode.
  - 4. The liquid crystal display as claimed in claim 1, wherein a phase difference value of the liquid crystal layer is set as λ
    - /2.
  - 5. The liquid crystal display as claimed in claim 1, further comprising a second polarizer arranged on external surface of the second substrate, so that transmission axes of the first polarizer and the second polarizer intersect each other.
  - 6. The liquid crystal display as claimed in claim 5, wherein a polarization film for generating a λ
    - /2 polarization is used as each of the first polarizer and the second polarizer.
  - 7. The liquid crystal display as claimed in claim 1, further comprising a backlight source device adapted to supply the backlight during operation of the liquid crystal display in the transmissive mode under the first substrate.
  - 8. The liquid crystal display as claimed in claim 1,wherein the gate wiring lines cross the data wiring lines at the pixel regions,wherein the thin film transistors further comprise gate electrodes, source electrodes, and active layers,wherein the source electrodes are connected to respective ones of the data wiring lines, andthe gate electrodes are connected to respective ones of the gate wiring lines.
  - 9. The liquid crystal display as claimed in claim 8, wherein the storage capacitors further comprise:
    - first electrodes aligned in parallel to the gate wiring lines; and
      
      an insulating layer and second electrodes integrated with the drain electrodes and sequentially positioned on respective ones of the first electrodes.

10. A method of driving a liquid crystal display having liquid crystal comprising:
- selectively driving the liquid crystal display in a transmissive mode by applying a minimum signal voltage to pass thru a backlight and a maximum signal voltage to block the backlight by the liquid crystal layer; and
  
  selectively driving the liquid crystal display in a reflective mode by applying the minimum signal voltage to block a reflected external light and applying a voltage approximately equal to one-half of the maximum voltage pass thru the reflected external light,wherein the liquid crystal is driven in a normally white mode when the liquid crystal display is driven in the transmissive mode, andwherein the liquid crystal is driven in a normally black mode when the liquid crystal display is driven in the reflective mode.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. The method as claimed in claim 10, further comprising providing the liquid crystal display comprising:
    - a first substrate having an array of wiring lines and pixel regions, the pixel regions having pixel electrodes, thin film transistors having drain electrodes, and storage capacitors positioned therein; and
      
      a second substrate having color filters in regions corresponding to the pixel regions, black matrices between the color filters, open regions to receive external light positioned in regions in which the black matrices are not positioned during the operation of the liquid crystal display in a reflective mode, and transparent common electrodes on the color filters and the black matrices;
      
      wherein the open regions correspond to first regions in which respective ones of the drain electrodes and the pixel electrodes are connected to each other and second regions in which the storage capacitors are positioned in the pixel regions of the first substrate.
  - 12. The method as claimed in claim 11, further comprising providing a first polarizer and a second polarizer arranged on external surfaces of the first substrate and the second substrate, respectively, so that transmission axes of the first polarizer and the second polarizer intersect each other.
  - 13. The method as claimed in claim 12, wherein a polarization film for generating λ
    - /2 polarization is used as each of the first polarizer and the second polarizer.
  - 14. The method as claimed in claim 11, further comprising setting a phase difference value of the liquid crystal as λ
    - /2.
  - 15. The method as claimed in claim 14, further comprising applying a signal voltage that makes the phase difference value of the liquid crystal λ
    - /4 during operation of the liquid crystal display in the reflective mode as a maximum signal voltage.

16. A liquid crystal display comprising:
- a first substrate having an array of wiring lines and pixel regions, the pixel regions having pixel electrodes, thin film transistors having drain electrodes, and storage capacitors positioned therein;
  
  a second substrate having black matrices, a first polarizer, open regions to receive an external light in a reflective mode and pass a backlight in a transmissive mode; and
  
  a liquid crystal layer between the first substrate and the second substrate,wherein the backlight is passed thru the open regions or blocked by the liquid crystal layer, in the transmissive mode, andwherein the external light is passed thru the open regions and is reflected by the drain electrodes and first electrodes of the storage capacitors and blocked by the first polarizer, or passed thru the open regions and reflected by the drain electrodes and first electrodes of the storage capacitors and is passed thru the first polarizer, in the reflective mode.

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Current Assignee
Samsung Display Company Limited (Samsung Electronics Co. Ltd.)
Original Assignee
Samsung Mobile Display Company Limited (Samsung Electronics Co. Ltd.)
Inventors
Kim, Ghang, Hwang, Won Mi, Park, Ji Ryun, Kim, Do Young, Heo, Hae Jin
Primary Examiner(s)
Font; Frank G
Assistant Examiner(s)
BLEVINS, JERRY M

Application Number

US11/521,321
Publication Number

US 20070115400A1
Time in Patent Office

1,189 Days
Field of Search

349/33, 349/43, 349/61, 349/114
US Class Current

349/43
CPC Class Codes

G02F 1/133512   Light shielding layers, e.g...

G02F 1/133555   Transflectors

G02F 1/136213   Storage capacitors associat...

G02F 1/1368   in which the switching elem...

Liquid crystal display and method of driving the same

First Claim

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Liquid crystal display and method of driving the same

First Claim

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Abstract

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16 Claims

Specification

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