Patent application number | Description | Published |
20100053652 | CHART FOR COLOR CALIBRATION, CALIBRATION METHOD AND IMAGE COLOR CALIBRATION SYSTEM USING THE CHART - In a chart for color calibration which is output and calorimetrically measured for color calibration of a printer device, respective charts of a color chart are arranged obliquely with respect to the alignment direction of grid points in a printer device color space or in a state that a plane in which charts are arranged on grid points and a plane in which charts are not arranged on grid points are alternately combined, on a color space of the color chart. With this configuration, a novel chart for color calibration which assures higher accuracy despite having a smaller number of steps (number of charts), and an image processing method and image processing apparatus using the chart are provided. | 03-04-2010 |
20100086201 | IMAGE PROCESSING APPARATUS AND COLOR PROCESSING METHOD - The colorimetric values of a plurality of reference color patches formed on a specific medium are measured at a plurality of temperatures, and a temperature characteristic LUT in a colorimetric value temperature correction unit is created based on the colorimetric values. Upon creating a calibration LUT, a patch based on arbitrary device values is formed on the medium, and a patch temperature and colorimetric values are acquired immediately after fixing of that patch. A correction target temperature as a temperature upon observation of the medium is, for example, fixed, the colorimetric values are corrected by interpolation processing based on the temperature characteristic LUT to obtain colorimetric values, and a calibration LUT is created based on the colorimetric values. | 04-08-2010 |
20100166443 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING APPARATUS CONTROL METHOD - An image processing apparatus is provided in which the accuracy of measurement of an amount of toner adhesion is improved by forming a toner image pattern according to a detection scheme for the amount of toner adhesion. In the image processing apparatus, a toner image pattern control unit | 07-01-2010 |
20110149319 | IMAGE PROCESSING APPARATUS AND COLOR PROCESSING METHOD - It is difficult to appropriate estimate the colorimetric values of an arbitrary patch at a desired temperature with respect to an arbitrary medium in consideration of the influence of a fluorescent whitening agent contained in the medium. Target patch colorimetric values obtained when patches of a plurality of colors formed on a medium using color samples are measured at a target temperature designated in step S | 06-23-2011 |
20110164287 | IMAGE PROCESSING APPARATUS AND COLOR PROCESSING METHOD - It is difficult to appropriately estimate the colorimetric values of an arbitrary patch at a desired temperature with respect to a medium containing a fluorescent whitening agent in consideration of the influence of the fluorescent whitening agent. A target temperature and media type are designated (S | 07-07-2011 |
20110188056 | MEASURING APPARATUS AND MEASURING METHOD - A plurality of positions of a toner image formed on the image carrier of an image forming apparatus are irradiated with light. A plurality of light-receiving elements of a light-receiving unit receive a plurality of reflected lights reflected at the plurality of positions of the toner image. The light-receiving position of the light-receiving unit corresponding to each of the plurality of received reflected lights is detected. The toner height at each of the plurality of positions of the toner image is determined based on the detected light-receiving position. | 08-04-2011 |
20120150471 | COLOR PROCESSING APPARATUS, COLOR PROCESSING METHOD AND STORAGE MEDIUM - There is provided a color processing apparatus comprising: a first input unit configured to input a reference spectral reflectance obtained by measuring a patch image with a spectrophotometer serving as a reference unit; a second input unit configured to input a correction target spectral reflectance obtained by measuring the patch image with a spectrophotometer serving as a correction target unit; a correction coefficient generation unit configured to generate a correction coefficient between the correction target spectral reflectance and the reference spectral reflectance, for each wavelength; and a correction unit configured to correct, for each wavelength, the spectral reflectance measured by the correction target unit, using the correction coefficient. | 06-14-2012 |
20130155401 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - The present invention enables high-speed and high-precision correction of a ghost detected in a spectrum measuring apparatus. A ghost is detected from spectrum data of reference light measured by the apparatus, and for each wavelength of input light, a light amount ratio α of the input light to the corresponding ghost, as well as a shift amount di indicative of a wavelength difference between the input light and the corresponding ghost are acquired. For each spectrum wavelength of the measured light, wavelength shifting for the corresponding shift amount di and multiplication of the light amount ratio (or intensity ratio) α are performed for estimating the ghost. By removing the estimated ghost from the measured light, it is possible to realize high-precision ghost correction with a reduced amount of calculation and a reduced amount of memory. | 06-20-2013 |
Patent application number | Description | Published |
20130127820 | DRIVING CIRCUIT FOR LIGHT EMITTING ELEMENT, AND LIGHT EMITTING DEVICE - A driving circuit that switches a light emitting element between an ON state and an OFF state in synchronization with an input signal is provided. The circuit includes a driving current supply unit that has a control terminal and supplies the light emitting element with a driving current whose value changes with dependency on the potential of the control terminal; a control unit that changes the potential of the control terminal in synchronization with the input signal; and a supplementary current supply unit that supplies the control terminal with a supplementary current that promotes change in the potential of the control terminal. The supplementary current supply unit has a capacitor, a voltage that is applied to the capacitor changes in synchronization with the input signal, and the supplementary current is generated by change in the voltage of the capacitor. | 05-23-2013 |
20130206961 | SOLID-STATE IMAGE SENSING DEVICE - An image sensor comprises plural sets of a unit pixel outputting a pixel signal based on an electric charge generated through photoelectric conversion and a conversion unit converting the pixel signal into a digital signal. A reference signal source generates reference signals and supplies the generated reference signals to the conversion unit through signal lines. The conversion unit of each set comprises a comparator which compares the level of the reference signal with that of the pixel signal, a count circuit which counts a clock based on the comparison processing, a selection circuit which selects, among the signal lines, a signal line to be selectively connected to the input of the comparator, and a switch which selectively connects the selected signal line to the input of the comparator, and selectively connects a load to an unselected one of the signal lines. | 08-15-2013 |
20130229555 | IMAGING APPARATUS, IMAGING SYSTEM, IMAGING APPARATUS DRIVING METHOD, AND IMAGING SYSTEM DRIVING METHOD - Pixels output a first signal based on signal charge of a part of photoelectric conversion units of multiple photoelectric conversion units, and a second signal based on signal charge of multiple photoelectric conversion units. An imaging apparatus outputs signals based on the first signals and signals based on the second signals by reducing the number of signals based on the first signals as compared to the number of signals based on the second signals. | 09-05-2013 |
20130258131 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGE PICKUP SYSTEM - When a level of a signal output from a pixel is higher than a comparison level, the signal output from the pixel is converted into a digital signal during a first period by using a first reference signal. If the level of the signal output from the pixel is lower than the comparison level, the signal output from the pixel is converted into a digital signal during a second period that is longer than the first period by using a second reference signal. | 10-03-2013 |
20130258132 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGE PICKUP SYSTEM - A photoelectric conversion apparatus includes a plurality of pixels provided in a plurality of columns, a plurality of analog-to-digital conversion units each provided for a corresponding one of the plurality of columns, and a correction unit. Each of the plurality of analog-to-digital conversion units is configured to convert a signal of a corresponding one of the plurality of pixels into a digital signal at a resolution corresponding to a magnitude of the signal. The correction unit is configured to correct a difference in the resolution. | 10-03-2013 |
20140098272 | PHOTOELECTRIC CONVERSION DEVICE AND IMAGING SYSTEM - A photoelectric conversion device includes a plurality of pixels arranged in a plurality of columns, a plurality of comparators provided correspondingly to the respective columns, a reference signal generation unit configured to supply a reference signal to the plurality of comparators, a counter configured to generate a count signal that includes a plurality of bits in synchronization with a first clock signal, a synchronization unit configured to synchronize the plurality of bits with a second clock signal to generate a synchronized count signal and to output the generated synchronized count signal, and a plurality of memories provided correspondingly to the respective comparators, the memories each being configured to store the synchronized count signal in response to a change in an output of a corresponding one of the comparators. | 04-10-2014 |
20140175263 | METHOD FOR DRIVING IMAGE PICKUP DEVICE, METHOD FOR CORRECTING DIGITAL SIGNAL, IMAGE PICKUP DEVICE, METHOD FOR DRIVING IMAGE CAPTURING SYSTEM, AND IMAGE CAPTURING SYSTEM - There are provided a method for driving an image pickup device, a method for correcting a digital signal, an image pickup device, a method for driving an image capturing system, and an image capturing system. Digital signals are generated on the basis of a potential at an input node of a comparison unit by using a first reference signal whose potential changes by a first amount per unit time and a second reference signal whose potential changes by a second amount per unit time, the second amount being greater than the first amount. A correction value based on a difference in signal value between the digital signals is derived. A digital signal based on a pixel signal is corrected on the basis of the derived correction value. | 06-26-2014 |
20140184844 | PHOTOELECTRIC CONVERSION DEVICE, IMAGE PICKUP SYSTEM, AND DRIVING METHOD OF PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device includes analog signal output units including pixels and configured to output analog signals based on pixels, and signal processing units. Each of the signal processing units is provided correspondingly to one of the analog signal output units and includes a gain application unit configured to apply a gain to an analog signal and an AD conversion unit. The gain application unit selectively outputs a first amplified signal obtained by applying a first gain of 1 or less to the analog signal or a second amplified signal obtained by applying a second gain, smaller than the first gain, to the analog signal. The AD conversion unit converts, from analog to digital, the first or second amplified signal output from the gain application unit. | 07-03-2014 |
20140184865 | Photoelectric Conversion Device, Image Pickup System, and Driving Method Of Photoelectric Conversion Device - A photoelectric conversion device includes analog signal output units including pixels and configured to output analog signals based on pixels, and signal processing units. Each of the signal processing units is provided correspondingly to one of the analog signal output units and including a gain application unit configured to apply a gain to an analog signal by using only passive elements and an AD conversion unit. In the gain application unit, a portion that contributes to application of a gain to the analog signal is constituted only of passive elements. The gain application unit selectively outputs a first amplified signal obtained by applying a first gain to the analog signal or a second amplified signal obtained by applying a second gain to the analog signal smaller than the first gain. The AD conversion unit converts, from analog to digital, the first or second amplified signal. | 07-03-2014 |
20140293085 | IMAGING DEVICE, DRIVING METHOD OF IMAGING DEVICE, AND IMAGING SYSTEM - An imaging device includes a comparator that compares a noise signal with each of a first reference signal and a second reference signal having potentials with different changing quantities per unit time, and that compares a photoelectric conversion signal with each of the first reference signal and the second reference signal. Also, the imaging device AD-converts signals obtained by amplifying the noise signal by a first gain and a second gain having different gains, and AD-converts a signal obtained by amplifying the photoelectric conversion signal by one of a first gain and a second gain. | 10-02-2014 |
20150021464 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGE PICKUP SYSTEM - When a level of a signal output from a pixel is higher than a comparison level, the signal output from the pixel is converted into a digital signal during a first period by using a first reference signal. If the level of the signal output from the pixel is lower than the comparison level, the signal output from the pixel is converted into a digital signal during a second period that is longer than the first period by using a second reference signal. | 01-22-2015 |
Patent application number | Description | Published |
20080279589 | TRANSFER UNIT AND IMAGE FORMING APPARATUS USING THE UNIT - An image forming apparatus includes a plurality of image forming units and a plurality of transfer units. The image forming units have corresponding image carriers and charging units. The image forming units form toner images of different colors on the corresponding image carriers. The transfer units face the corresponding image carriers to form transfer areas between the transfer units and the image carriers, and press a transfer member to the corresponding image carriers to transfer the toner images onto the transfer member at the transfer areas. The charging units include at least one corona-type charger and at least one contact-type charger. The image forming apparatus sets a first transfer condition for the transfer unit(s) corresponding to the image carrier(s) charged by the at least one corona-type charger and a second, separate transfer condition for the transfer unit(s) corresponding to the image carrier(s) charged by the at least one contact-type charger. | 11-13-2008 |
20090190960 | PROCESS CARTRIDGE INCLUDING DEVELOPING UNIT AND INCORPORATED IN IMAGE FORMING APPARATUS - A process cartridge for use in an image forming apparatus includes an image bearing member and a developing unit. The developing unit includes a developer bearing member to bear developer including toner and carrier, a casing forming a developer container containing the developer, a screw having a shaft with a spiral screw blade, a toner density sensor to detect a density of the toner on a detection surface, and a detection surface agitating member fixedly mounted on the shaft of the screw at a position facing a detection surface to scrape away the developer accumulated on the detection surface as the screw rotates. The detection surface agitating member includes an elastic sheet elastically deformable to scrape away the developer accumulated on the detection surface and disposed at a substantially same angle to an axial direction of the shaft of the screw as the spiral screw blade. | 07-30-2009 |
20090202263 | IMAGE FORMING APPARATUS AND IMAGE DENSITY CONTROL METHOD - An image forming apparatus includes a control device that calculates a developing ability of the developing device based on a detection value detected by an optical detection device from the plural toner patches. The control device adjusts an image formation condition based on the calculated developing ability. A factor detection device is provided to detect a contributing factor that causes the developing ability to largely change after the last adjustment of the image formation condition. The control device controls image formation such that when the factor detection device does not detect the contribution factor and a developing ability calculated this time is different from that calculated last time (as to a part of the plural toner patches), the plural toner patches are formed based on a prescribed fixed image formation condition so that an attraction amount of toner attracting to the plural toner patches enter a prescribed range detectable for the optical detection device. The remaining toner patches are formed (based on an image formation condition determined) in accordance with the image formation condition previously adjusted. When the detection device detects the contribution factor, the entire toner patches are formed based on the prescribed fixed condition. | 08-13-2009 |
20110110689 | TONER SUPPLYING DEVICE AND IMAGE FORMING APPARATUS USING SAME - A toner supplying device including a secondary toner container, a first feeding member performing a first feeding operation of feeding toner from a toner container to the secondary container on demand, a second feeding member performing a second feeding operation of feeding the toner from the secondary container to a developing device on demand, and a toner supply controller controlling the amount of the toner in the secondary container to be greater than a predetermined amount. The controller performs first control in which when the first feeding operation is performed, the amount of the toner fed in the second feeding operation per unit of time is decreased, or second control in which when the amount of the toner fed in the second feeding operation is greater than a predetermined amount, the amount of the toner fed in the first feeding operation per unit of time is decreased. | 05-12-2011 |