Patent application number | Description | Published |
20120071056 | DEFECT CORRECTING APPARATUS AND DEFECT CORRECTING METHOD - The present disclosure provides a defect correcting apparatus including a defect detecting device configured to detect a defect within a repetitive pattern in a multilayer substrate a defect correcting device configured to correct the defect in the multilayer substrate by a specified defect correcting method, and a control device configured to, when the defect detected by the defect detecting device is detected overlapping a region in which occurrence of an interlayer short-circuit defect is assumed, generate an object corresponding to the defect correcting method for the interlayer short-circuit defect, and controlling the defect correcting device for correcting the defect using the generated object. | 03-22-2012 |
20140034921 | DISPLAY UNIT AND ELECTRONIC APPARATUS - A display unit comprising an organic layer between a light-emitting section portion of a first electrode layer and a light-emitting section portion of a second electrode layer. Light is emissible from within the organic layer. An aperture-defining insulating film is between a contact section of the first electrode layer and a gap section portion of the second electrode layer. The thickness of the gap section portion of the second electrode layer is greater than the thickness of the light-emitting section portion of the second electrode layer. | 02-06-2014 |
20140035962 | SIGNAL PROCESSING CIRCUIT, DISPLAY UNIT, ELECTRONIC APPARATUS, AND SIGNAL PROCESSING METHOD - A signal processing circuit performs a correction on a first image signal to generate a noise-like pattern with regularity in an image, and thereby to generate a second image signal. Therefore, even if stripes or luminance unevenness is caused in a display image in the case where the first image signal is input into a display panel, a pattern making the stripes and the luminance unevenness less visible is allowed to be superimposed on the display image. Moreover, a pattern superimposed on the display image is the noise-like pattern with regularity which is obtainable without measuring light emission characteristics of the display panel. Therefore, it is not necessary to measure the light emission characteristics of the display panel to superimpose the above-described pattern on the display image. | 02-06-2014 |
20140253421 | DISPLAY, DISPLAY DRIVE CIRCUIT, DISPLAY DRIVE METHOD, AND ELECTRONIC APPARATUS - Correction processing is provided for a display having pixel circuits respectively including a display element and a drive transistor that is configured to provide a drive current to the display element according to a luminance information value. A control transistor is disposed on a current path that provides the drive current to a unit pixel group that includes two or more of the pixel circuits, and a correction processing section is configured to obtain a correction factor that is a function of the luminance information values respectively corresponding to each of the pixel circuits in the unit pixel group, and to perform a correction of the luminance information value for at least one of the pixel circuits in the unit pixel group based on the correction factor. | 09-11-2014 |
20140284570 | DISPLAY AND ELECTRONIC APPARATUS - A display device includes pixels, each including a set of sub-pixels. A first subset of the pixels may each include white, green, and blue sub-pixels, but not a red sub-pixel. A second subset of the pixels may each include white, green, and red sub-pixels, but not a blue sub-pixel. The pixels may alternate between the first subset and the second subset in at least one direction. | 09-25-2014 |
20140285542 | DISPLAY AND ELECTRONIC APPARATUS - A display device includes pixels, each including a set of sub-pixels. A first subset of the pixels may each include white, green, and blue sub-pixels, but not a red sub-pixel. A second subset of the pixels may each include white, green, and red sub-pixels, but not a blue sub-pixel. The pixels may alternate between the first subset and the second subset in at least one direction. First luminance data may be extracted from an input image signal based on a map that specifies locations of pixels of the first subset, and second luminance data may be extracted from the input image signal based on a map that specifies locations of pixels of the second subset. The display device may drive the blue sub-pixels based on the first luminance data and drive the red sub-pixels based on the second luminance data. | 09-25-2014 |
20150048345 | DISPLAY DEVICE AND ELECTRONIC DEVICE - There is provided a display device including a light-emitting element corresponding to a pixel for a color, and a white color filter corresponding to a white pixel. Transmittance of the white color filter is based on neutral density (ND) transmittance that is uniform throughout an entire wavelength band of visible light, and transmittance in a particular wavelength band in the entire wavelength band of the visible light is decreased to be lower than the ND transmittance. | 02-19-2015 |
20150053963 | DISPLAY UNIT AND ELECTRONIC APPARATUS - A display unit comprising an organic layer between a light-emitting section portion of a first electrode layer and a light-emitting section portion of a second electrode layer. Light is emissible from within the organic layer. An aperture-defining insulating film is between a contact section of the first electrode layer and a gap section portion of the second electrode layer. The thickness of the gap section portion of the second electrode layer is greater than the thickness of the light-emitting section portion of the second electrode layer. | 02-26-2015 |