Abstract: Provided is a plasma display apparatus. The apparatus includes a plasma display panel having a plurality of discharge cells, and time-division driven by dividing a unit frame into a plurality of subfields, and a driver for supplying a reset signal for initializing the plurality of discharge cells to a scan electrode of the panel in a reset period. The driver supplies gradually rising setup signals to the scan electrode in reset periods of the plurality of subfields. An average slope of the setup signal supplied in a first subfield among the plurality of subfields is different from an average slope of the setup signal supplied in a second subfield.
Abstract: Appropriate image quality is maintained when a display device is powered on or when a signal is applied. After a power supply is stabilized, a pixel select gate driver section scans all pixel circuits. A final illumination on/off driver outputs illumination on/off gate signals. In this case, a start pulse for an illumination on/off shift register is started when or after an output enable signal for an illumination on/off gate signal output control circuit is output. This prevents the illumination on/off gate signals, serving as scan signals, from being improperly supplied to the pixel circuits.
Abstract: A liquid crystal display and a shift register unit thereof are provided. The shift register unit includes a first switch, a second switch, and a level shift circuit. The first switch has a first input terminal, a first control terminal, and a first output terminal. The second switch has a second input terminal, a second control terminal, and a second output terminal. The second control terminal is coupled to the first output terminal and the level shift circuit. When the first switch is enabled, the first input terminal receives an input signal converting the voltage of the second control terminal into a first voltage for turning on the second switch. The second output terminal outputs a first clock signal to a scan signal line. When the level shift circuit is enabled, the voltage of the second control terminal is converted into a second voltage for turning off the second switch.
Abstract: In order to prevent a gradation shift due to variations in the thickness of a film used to form an auxiliary capacitor, a detection capacitor having a layer structure similar to that of the auxiliary capacitor placed for each pixel is provided on an array substrate. Furthermore, the capacitor value of the detection capacitor as a representative of the plurality of auxiliary capacitors is detected, and the potential amplitude ?Vcs of a power supply line connected to the auxiliary capacitor is adjusted based on this detected value.
Abstract: An image display apparatus includes an image display device having pixels to display right- and left-eye images for a three-dimensional image, a first and second optical shutter devices located on rear and front sides of the image display device. The pixels include pixel pairs that have pixels arranged across first light-shielding portions and that are arrayed across second light-shielding portions. The first shutter device includes first light-transmitting portions that cause image light beams passing through the pixels to strike the right and left eyes of a viewer located in a first direction, and first shutter portions to control transmission/shielding of light. The second shutter device includes second light-transmitting portions that cause image light beams passing through the pixels to strike right eyes and left eyes of viewers located in second and third directions, and second shutter portions to control transmission/shielding of light.
Abstract: A liquid crystal display apparatus includes a liquid crystal panel having a matrix of pixels, a control circuit, and a temperature sensor. The temperature sensor directly or indirectly detects a temperature of the liquid crystal panel. The control circuit reverses a polarity of a voltage applied to each pixel at a time interval variable with the detected temperature, while keeping a field frequency constant. The time interval is a positive integer multiple of the reciprocal of a field frequency, i.e., a positive integer multiple of a field period. When the temperature of the liquid crystal layer is low, the control circuit reverses the polarity of the voltage at a longer time interval. In contrast, when the temperature of the liquid crystal layer is high, the control circuit reverses the polarity of the voltage at a shorter time interval.
Abstract: The present invention relates to a display device, and more particularly to a display device which includes a drive circuit having a CMOS shift register which is constituted of a CMOS circuit.