Patent ID: 8446343
Filing Date: 2013-05-21
Classification: G09G

Abstract:
1. An image display apparatus comprising: a gradation signal voltage generation circuit; and a display region in which a plurality of pixels are arranged in a matrix fashion, and wherein each pixel includes a light emitting device with luminance being controlled in analogue by the gradation signal voltage generation circuit, and a luminance control circuit for the light emitting device, the light emitting device of each pixel having first and second terminals, wherein the luminance control circuit of each pixel comprises an nMOS transistor as a drive TFT having a source that is applied a constant voltage and operating in a saturation region, wherein each pixel further comprises an nMOS transistor switch as a power supply switch and a reset switch, wherein, for each pixel, the power supply switch is provided between the first terminal of the light emitting device and a drain of the drive TFT included in the luminance control circuit, the power supply switch has a drain side thereof connected to the first terminal of the light emitting device and a source side thereof connected to the drain of the drive TFT included in the luminance control circuit, and a gate voltage of the power supply switch is controlled by a power supply control line on a binary basis of ON/OFF, wherein, for each pixel, the reset switch has a source thereof connected to the drain of the drive TFT, a drain thereof connected to a signal line via a signal storage capacitor and connected to a gate of the drive TFT, and a gate thereof connected to a reset control line, wherein, for a pixel that is selected for writing: in a signal voltage write time period that is a first half of one frame period, the power supply switch is first turned ON by a drive voltage applied by the power supply control line, the reset switch is subsequently turned ON by an RST signal applied via the reset control line so that current flows from a common electrode to the light emitting device via the drive TFT and the power supply switch, the power supply switch is turned OFF by the drive voltage applied by the power supply control line so that the drive TFT is turned OFF at a time when a voltage at the drain of the drive TFT becomes a threshold voltage Vth, a predetermined data signal voltage has already been applied to the signal line, and a difference between the data signal voltage and the threshold voltage Vth is input to the signal storage capacitor, and the reset switch is subsequently turned OFF by the RST signal of the reset control line so that the signal voltage is stored in the signal storage capacitor, thereby completing writing of the signal voltage to the pixel, in a luminescence display time period that is subsequent second half of the one frame period, a predetermined triangular wave signal of an analog signal is input to each of the plurality of pixels via the signal line, the power supply switch is turned ON by the drive voltage applied by the power supply control line, and the threshold voltage Vth is input to the gate of the drive TFT if the triangular wave signal applied to the signal line is equivalent to the signal voltage written to the pixel in the signal voltage write time period so that a luminescence period of the light emitting device is determined according the signal voltage written to the pixel, and wherein an on-voltage of the power supply switch that results from the drive voltage applied by the power supply control line represents a half-ON condition of the power supply switch rather than a complete-ON condition.