Current-dependent light-emitting element drive circuit for use in active matrix display device
First Claim
1. An active matrix display device comprising:
- a plurality of first lines extending in parallel with one another;
a plurality of second lines extending perpendicular to said first lines to form a plurality of cross points arranged in a matrix form; and
a plurality of current-dependent light-emitting element drive circuits, each disposed to one of said cross points and being connected to one of said first lines and one of said second lines at each of said cross points to form a pixel in the display device, each of said current-dependent light-emitting element drive circuits comprisinga current-dependent light emitting element having a first terminal connected to an external current supply means and a second terminal;
current control means coupled to said first and second lines and connected to said second terminal of said current-dependent light emitting element for controlling current flowing through said current-dependent light emitting element from said current supply means in response to selection signals selectively applied to said first and second lines, anda capacitor connected in parallel with said current-dependent light emitting element, wherein said first terminal of said light emitting element is connected to a different one of said first lines to be supplied with a current.
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Accused Products
Abstract
In a light-emitting element drive circuit in an active matrix display device, at least one current-control transistor controls a current flowing through a light-emitting element. The current-control transistor and the light-emitting element are connected in parallel to each other. A constant current source is connected to a junction between one electrode of the light-emitting element and one electrode of the transistor through which the current 8s controlled to flow. The other electrodes of the light-emitting element and the transistor are connected to a common electrode which may be grounded via a resistor. In other configuration, it may be arranged that the light-emitting element and a capacitance are connected in parallel to each other. In this case, the current-control transistor is connected to a junction between the light-emitting element and the capacitance so as to use charging and discharging operations of the capacitance for driving the light-emitting element.
199 Citations
6 Claims
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1. An active matrix display device comprising:
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a plurality of first lines extending in parallel with one another; a plurality of second lines extending perpendicular to said first lines to form a plurality of cross points arranged in a matrix form; and a plurality of current-dependent light-emitting element drive circuits, each disposed to one of said cross points and being connected to one of said first lines and one of said second lines at each of said cross points to form a pixel in the display device, each of said current-dependent light-emitting element drive circuits comprising a current-dependent light emitting element having a first terminal connected to an external current supply means and a second terminal; current control means coupled to said first and second lines and connected to said second terminal of said current-dependent light emitting element for controlling current flowing through said current-dependent light emitting element from said current supply means in response to selection signals selectively applied to said first and second lines, and a capacitor connected in parallel with said current-dependent light emitting element, wherein said first terminal of said light emitting element is connected to a different one of said first lines to be supplied with a current.
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2. An active matrix display device comprising:
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scanning lines and data lines arranged in a matrix form on a substrate to form cross points at which pixels are disposed, each of said scanning lines being for supplying a pixel selection signal, each of said data lines being for supplying a drive voltage signal for one of pixels as selected; and a plurality of drive circuits as said pixels arranged at said cross points, each of said drive circuits comprising; current-dependent light-emitting element arranged at said cross point; a capacitor connected in parallel to said light-emitting element to form opposite first and second common connection points; current-control transistor having a gate electrode connected to said scanning line, a source electrode connected to said data line, and a drain electrode connected to said common connection point between said light-emitting element and said capacitor, said light-emitting element and said capacitor having electrodes at said first common connection point which are commonly connected to a power source.
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3. An active matrix drive circuit comprising:
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scanning lines and data lines arranged in a matrix a substrate; current-dependent light-emitting element arranged at said cross point; a capacitor connected in parallel to said light-emitting element to form opposite first and second common connection points; current-control transistor having a gate electrode connected to said scanning line, a source electrode connected to said data line, and a drain electrode connected to said common connection point between said light-emitting element and said capacitor, said light-emitting element and said capacitor having electrodes at said first common connection point which are connected to a different one of said scanning lines. - View Dependent Claims (4)
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5. An active matrix display device comprising:
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scanning lines and data lines arranged in a matrix form on a substrate to form cross points at which pixels are disposed, each of said scanning lines being for supplying a pixel selection signal, each of said data lines being for supplying a drive voltage signal for one of pixels as selected; and a plurality of drive circuits as said pixels arranged at said cross points, each of said drive circuits comprising; a current-dependent light-emitting element having a first terminal to be connected to an external current supply means and a second terminal; a capacitor having a first capacitor terminal connected to said first terminal of said light-emitting element, said capacitor having a second capacitor terminal; first transistor connected to said scanning line, said data line and said second capacitor terminal to turn on when said scanning line is selected and turn off when said scanning line is non-selected; and second transistor connected to said second capacitor terminal, said second terminal and said scanning line to turn off when said scanning line is selected and turn on when said scanning line is non-selected; wherein a voltage is applied to said capacitor from said data line through said first transistor while said scanning line is selected, and wherein a voltage is applied to said light-emitting element from said capacitor through said second transistor while said scanning line is non-selected. - View Dependent Claims (6)
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Specification