Self-emission display device and method for driving the same
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.
16 Citations
19 Claims
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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:
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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)
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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:
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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.
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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:
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a plurality of light emitting elements arrayed in a matrix;
wherein the light emitting elements are light emitting SCRs.
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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:
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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)
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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:
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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.
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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:
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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.
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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:
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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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Specification