Light emitting device, driving method of light emitting device and electronic device
First Claim
1. A method of driving a light emitting device comprising:
- keeping a first drain current that flows from a first source to a first drain of a first transistor provided in a pixel to be a magnitude corresponding to a voltage of a video signal via a fourth transistor connected with the first drain of the first transistor in series during a write period;
keeping a second drain current that flows from a second source to a second drain of a second transistor provided in the pixel to be proportional to the first drain current with a second gate voltage of the second transistor equal to a first gate voltage of the first transistor during the write period;
keeping the second gate voltage of the second transistor during the write period and a display period subsequent to the write period to emit a light by supplying a light emitting element with the second drain current via a third transistor connected with the second drain of the second transistor in series; and
impressing an inversed bias voltage of a power supply line to the light emitting element via the second transistor and the third transistor.
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Accused Products
Abstract
By controlling the luminance of light emitting element not by means of a voltage to be impressed to the TFT but by means of controlling a current that flows to the TFT in a signal line drive circuit, the current that flows to the light emitting element is held to a desired value without depending on the characteristics of the TFT. Further, a voltage of inverted bias is impressed to the light emitting element every predetermined period. Since a multiplier effect is given by the two configurations described above, it is possible to prevent the luminance from deteriorating due to a deterioration of the organic luminescent layer, and further, it is possible to maintain the current that flows to the light emitting element to a desired value without depending on the characteristics of the TFT.
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Citations
16 Claims
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1. A method of driving a light emitting device comprising:
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keeping a first drain current that flows from a first source to a first drain of a first transistor provided in a pixel to be a magnitude corresponding to a voltage of a video signal via a fourth transistor connected with the first drain of the first transistor in series during a write period; keeping a second drain current that flows from a second source to a second drain of a second transistor provided in the pixel to be proportional to the first drain current with a second gate voltage of the second transistor equal to a first gate voltage of the first transistor during the write period; keeping the second gate voltage of the second transistor during the write period and a display period subsequent to the write period to emit a light by supplying a light emitting element with the second drain current via a third transistor connected with the second drain of the second transistor in series; and impressing an inversed bias voltage of a power supply line to the light emitting element via the second transistor and the third transistor. - View Dependent Claims (2, 3, 4)
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5. A method of driving a light emitting device comprising:
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keeping a first drain current that flows from a first source to a first drain of a first transistor provided in a pixel to be a magnitude corresponding to a voltage of a video signal via a fourth transistor connected with the first drain of the first transistor in series during a write period; keeping a second drain current that flows from a second source to a second drain of a second transistor provided in the pixel to be proportional to the first drain current with a second gate voltage of the second transistor equal to a first gate voltage of the first transistor during the write period; keeping the second gate voltage of the second transistor during the write period and a display period subsequent to the write period to emit a light by supplying a light emitting element with the second drain current via a third transistor connected with the second drain of the second transistor in series; and impressing an inversed bias voltage of a power supply line to the light emitting element just after the display period via the second transistor and the third transistor. - View Dependent Claims (6, 7, 8)
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9. A method of driving a light emitting device comprising:
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keeping a first drain current that flows from a first source to a first drain of a first transistor provided in a pixel to be a magnitude corresponding to a voltage of a video signal via a fourth transistor connected with the first drain of the first transistor in series during a write period; keeping a second drain current that flows from a second source to a second drain of a second transistor provided in the pixel to be proportional to the first drain current with a second gate voltage of the second transistor equal to a first gate voltage of the first transistor during the write period; keeping the second gate voltage of the second transistor during the write period and a display period subsequent to the write period to emit a light by supplying a light emitting element with the second drain current via a third transistor connected with the second drain of the second transistor in series; and impressing an inversed bias voltage of a power supply line to the light emitting element just after the display period via the second transistor and the third transistor, wherein a period to impress the inversed bias voltage depends on a duration of the display period. - View Dependent Claims (10, 11, 12)
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13. A method of driving a light emitting device comprising:
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keeping a first drain current that flows from a first source to a first drain of a first transistor provided in a pixel to be a magnitude corresponding to a voltage of a video signal via a fourth transistor connected with the first drain of the first transistor in series during a write period; keeping a second drain current that flows from a second source to a second drain of a second transistor provided in the pixel to be proportional to the first drain current with a second gate voltage of the second transistor equal to a first gate voltage of the first transistor during the write period; keeping the second gate voltage of the second transistor during the write period and a display period subsequent to the write period to emit a light by supplying a light emitting element with the second drain current via a third transistor connected with the second drain of the second transistor in series; and impressing an inversed bias voltage of a power supply line to the light emitting element just after the display period via the second transistor and the third transistor, wherein an absolute value of the inversed bias voltage depends on a duration of the display period. - View Dependent Claims (14, 15, 16)
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Specification