Organic EL display device and control method thereof

摘要

An organic electroluminescent display device includes a display that includes pixels arranged in a matrix. Each pixel includes a driver, a capacitor between a gate and a source of the driver, a switch, and a luminescent element connected to the drain of the driver. Scan lines provide a scan signal for scanning the pixels. Data lines provide a signal voltage to the pixels. Power lines are electrically connected to the source and the drain of the driver. The driver includes a back gate electrode which is provided a predetermined bias voltage. A drive circuit provides the predetermined bias voltage to the back gate electrode so that the absolute value of a threshold voltage of the driver is greater than a gate-source voltage of the driver to place the driver in a non-conducting state.

主权项

1. An organic electroluminescent display device, comprising:
a display including a plurality of pixels arranged in a matrix, each of the plurality of pixels including:
a luminescent element;a driver for controlling a current flow to the luminescent element, the driver including a source electrode, a drain electrode, a gate electrode, and a back gate electrode, the driver being in a non-conducting state when a predetermined bias voltage is provided to the back gate electrode;a capacitor including a first electrode connected to the gate electrode of the driver and a second electrode connected to the source electrode of the driver; anda switch including a first terminal and a second terminal that is connected to the first electrode of the capacitor; a plurality of scan lines for providing a scan signal for scanning the plurality of pixels included in the display; a plurality of data lines for providing a signal voltage to the plurality of pixels included in the display, the first terminal of the switch being connected to a corresponding one of the plurality of data lines for switching between a conduction state and a non-conduction state between the corresponding one of the plurality of data lines and the first electrode of the capacitor; a trunk power line disposed about a periphery of the display for providing a predetermined fixed voltage to the display; a power supply for providing the predetermined fixed voltage to the trunk power line via an external input; a plurality of first power lines that each correspond to one of the plurality of scan lines, the plurality of first power lines each branching from the trunk power line and being separate from others of the plurality of first power lines in the display, the plurality of first power lines each extending along the one of the plurality of scan lines and being electrically connected to the source electrode of the driver of corresponding ones of the plurality of pixels; a second power line electrically connected to the drain electrode of the driver; a bias line for providing the predetermined bias voltage to the back gate electrode; and a drive circuit that controls the switch and the predetermined bias voltage that is provided to the back gate electrode, wherein the predetermined bias voltage is provided so that an absolute value of a threshold voltage of the driver is greater than a gate-source voltage between the gate electrode and the source electrode, the drive circuit provides the predetermined bias voltage to the back gate electrode so that the absolute value of the threshold voltage of the driver is greater than the gate-source voltage between the gate electrode and the source electrode to place the driver in the non-conducting state, and provides the signal voltage to the first electrode of the capacitor when the driver is in the non-conducting state by placing the switch in the conduction state during a period in which the predetermined bias voltage is provided to the back gate electrode, and the predetermined bias voltage that is provided to the back gate electrode so that the absolute value of the threshold voltage of the driver is greater than the gate-source voltage between the gate electrode and the source electrode is set so that the absolute value of the threshold voltage is greater than the gate-source voltage between the gate electrode and the source electrode when the gate electrode of the driver is provided with a predetermined signal voltage required to cause the luminescent element included in each of the plurality of pixels to produce luminescence with a maximum gradation level.