Self-emission display device and method for driving the same

US 20020135547A1
Filed: 03/19/2002
Published: 09/26/2002
Est. Priority Date: 03/21/2001
Status: Active Grant

First Claim

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1. A self emission display device for controlling a lit-up/non-lit-up state of a light emitting element by controlling a current flowing therethrough comprising:

a plurality of light emitting elements arrayed in a matrix; and

a plurality of SCRs for controlling a current flowing through the light emitting elements, corresponding to each of the light emitting elements;

wherein each of the light emitting elements is connected to an anode in each of the SCRs.

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Abstract

A self emission display device for controlling a lit-up/non-lit-up state of a light emitting element by controlling a current flowing therethrough comprises: a plurality of light emitting elements arrayed in a matrix; and a plurality of SCRs for controlling a current flowing through the light emitting elements, corresponding to each of the light emitting elements; wherein each of the light emitting elements is connected to an anode in each of the SCRs.

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19 Claims

1. A self emission display device for controlling a lit-up/non-lit-up state of a light emitting element by controlling a current flowing therethrough comprising:
- a plurality of light emitting elements arrayed in a matrix; and
  
  a plurality of SCRs for controlling a current flowing through the light emitting elements, corresponding to each of the light emitting elements;
  
  wherein each of the light emitting elements is connected to an anode in each of the SCRs.
- View Dependent Claims (3, 4, 5, 6, 8, 9)
- - 3. The self emission display device according to claim 1 or 2, wherein the light emitting elements are organic EL elements.
  - 4. The self emission display device according to claim 1 or 2, wherein the light emitting elements are light emitting diodes.
  - 5. The self emission display device according to claim 1 or 2, wherein a ratio in static capacity between the SCR and the light emitting element is adjusted to thereby optimize a ratio of a voltage applied to the SCR and a voltage applied to the light emitting element in a non-conducting state.
  - 6. The self emission display device according to claim 1 or 2, wherein the self emission display device has a control function to set a current value that corresponds to a target brightness based on a current vs. brightness characteristic of the light emitting element to thereby set an optimal source voltage that corresponds to the set current value based on voltage vs. current characteristics of both the SCR and the light emitting element.
  - 8. The self emission display device according to claim 1 or 2, wherein the lit-up/non-lit-up states of each of the light emitting elements are determined by a voltage value applied to a gate in each of the SCRs.
  - 9. The self emission display device according to claim 1 or 2, where in a break-over voltage in each of the SCRs is determined by a voltage value applied to a gate in each of the SCRs, the light emitting element is lighted up by decreasing the break-over voltage.

2. A self emission display device for controlling a lit-up/non-lit-up state of a light emitting element by controlling a current flowing therethrough comprising:
- a plurality of light emitting elements arrayed in a matrix; and
  
  a plurality of SCRs for controlling a current flowing through the light emitting elements, corresponding to each of the light emitting elements;
  
  wherein each of the light emitting elements is connected to a cathode in each of the SCRs.

7. A self emission display device for controlling a lit-up/non-lit-up state of a light emitting element by controlling a current flowing therethrough comprising:
- a plurality of light emitting elements arrayed in a matrix;
  
  wherein the light emitting elements are light emitting SCRs.

10. A method for driving a self emission display device having a plurality of light emitting elements arrayed in a matrix and a plurality of SCRs for controlling a current flowing through the light emitting elements, wherein each of the light emitting elements is connected to an anode in each of the SCRs, comprising:
- a process of scanning sequentially each of the SCRs; and
  
  a process of driving each of the SCRs so that each of the light emitting elements be sustained in a conducting or non-conducting state.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. The method for driving a self emission display device according to claim 10 to 11, wherein the light emitting elements are organic EL elements.
  - 14. The method for driving a self emission display device according to claim 10 or 11, wherein the light emitting elements are light emitting diodes.
  - 15. The method for driving a self emission display device according to claim 10 or 11, wherein a ratio in static capacity between the SCR and the light emitting element is adjusted to thereby optimize a ratio of a voltage applied to the SCR and a voltage applied to the light emitting element in a non-conducting state.
  - 16. The method for driving a self emission display device according to claim 10 or 11, wherein the method comprises:
    - a process of setting a current value that corresponds to a target brightness based on a current vs. brightness characteristic of the light emitting element; and
      
      a process of setting an optimal source voltage that corresponds to the set current value based on voltage vs. current characteristics of both the SCR and the light emitting element.
  - 17. The method for driving a self emission display device according to claim 10 or 11, wherein:
    - each of the SCRs are of a P-gate type, each of the gates of which are connected to a common gate switch that can switch over a high potential and a low potential for each column in a matrix, each of the anodes of which are connected via their respective ones of the light emitting elements to a common power source, and each of the cathodes of which are connected for each row thereof in the matrix to a common scan switch that can switch over a high potential, a low potential, and an intermediate potential;
      
      when each of the light emitting elements is in a non-selected period, the gate switches is set to the high potential and the scan switches is set to the intermediate potential; and
      
      when each of the light emitting elements is in a selected period, the scan switches is set to the high potential and then to the low potential and, to light up any one of the light emitting element, the gate switches is set to the high potential in a period when the scan switch is at the low potential and also, not to light up the light emitting element, the gate switches is set to the lower potential in a period when the scan switch is at the low potential, to thereby sustain a conducting/non-conducting state of each of the light emitting elements in driving.
  - 18. The method for driving a self emission display device according to claim 10 or 11, wherein:
    - each of the SCRs are of an N-gate type, each of the gates of which are connected to a common gate switch that can switch over a high potential and a low potential for each column in a matrix, each of the cathodes of which are connected via their respective ones of the light emitting elements to a common power source, and each of the anodes of which are connected for each row thereof in the matrix to a common scan switch that can switch over a high potential, a low potential, and an intermediate potential;
      
      when each of the light emitting elements is in a non-selected period, the gate switches is set to the high potential and the scan switches is set to the intermediate potential; and
      
      when each of the light emitting elements is in a selected period, the scan switches is set to the high potential and then to the low potential and, to light up anyone of the light emitting element, the gate switches is set to the low potential in a period when the scan switch is at the high potential and also, not to light up the light emitting element, the gate switches is set to the high potential in a period when the scan switch is at the high potential, to thereby sustain a conducting/non-conducting state of each of the light emitting elements in driving.

11. A method for driving a self emission display device having a plurality of light emitting elements arrayed in a matrix and a plurality of SCRs for controlling a current flowing through the light emitting elements, wherein each of the light emitting elements is connected to a cathode in each of the SCRs, comprising:
- a process of scanning sequentially each of the SCRS; and
  
  a process of driving each of the SCRs so that each of the light emitting elements be sustained in a conducting or non-conducting state.

12. A method for driving a self emission display device having a plurality of light emitting elements arrayed in a matrix and a plurality of SCRs for controlling a current flowing through the light emitting elements, comprising:
- a process of scanning sequentially each of the SCRs to provide each of the light emitting elements with a selected period in which a lit-up/non-lit-up state of the light emitting elements is determined; and
  
  a process of applying a predetermined voltage to a gate of the corresponding one of the SCRs in the selected period to light up any of the light emitting elements.

19. A method for driving a self emission display device having a plurality of light emitting elements arrayed in a matrix, wherein the light emitting elements are light emitting SCRs, comprising:
- a process of scanning sequentially each of the light emitting SCRs; and
  
  a process of driving each of the light emitting SCRs so that each of the light emitting SCRs be sustained in a conducting or non-conducting state.

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Current Assignee
Pioneer Corporation
Original Assignee
Pioneer Corporation
Inventors
Tanabe, Takahisa

Granted Patent

US 7,038,640 B2
Time in Patent Office

Days
Field of Search
US Class Current

345/75.2
CPC Class Codes

G09G 2300/08   Active matrix structure, i....

G09G 2300/088   using a non-linear two-term...

G09G 2310/06   Details of flat display dri...

G09G 2320/0606   Manual adjustment

G09G 2320/0626   for control of overall brig...

G09G 3/32   semiconductive, e.g. using ...

G09G 3/3216   using a passive matrix

G09G 3/3233   with pixel circuitry contro...

G09G 3/3266   Details of drivers for scan...

G09G 3/3275   Details of drivers for data...

H10K 50/828   Transparent cathodes, e.g. ...

H10K 59/12   Active-matrix OLED [AMOLED]...

Self-emission display device and method for driving the same

First Claim

1 Assignment

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Abstract

16 Citations

19 Claims

Specification

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Self-emission display device and method for driving the same

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

16 Citations

19 Claims

Specification

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Solutions

Use Cases

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