Patent application number | Description | Published |
20110176045 | COMPLEMENTARY METAL-OXIDE SEMICONDUCTOR IMAGE SENSOR, DATA READOUT METHOD THEREOF, AND ELECTRONIC SYSTEM INCLUDING THE SAME - A complementary metal-oxide semiconductor (CMOS) image sensor and a pixel data readout method of the same are provided. The CMOS image sensor includes: a first readout line which outputs pixel data from a shared pixel group in an odd row of a column of a pixel array in a Bayer pattern during a horizontal period; and a second readout line which outputs pixel data from a shared pixel group in an even row of the column of the pixel array during the horizontal period, wherein pixel data output to the first and second readout lines during the horizontal period correspond to a basic Bayer pattern and pixels from which pixel data are read out in each column sequentially shifts in a column direction at each horizontal period. | 07-21-2011 |
20150208006 | IMAGE SENSOR AND METHOD OF CORRECTING OUTPUT SIGNAL OF THE IMAGE SENSOR - A method of processing signals from an image sensor outputting signals from rows of pixels in the image sensor having optical signals, outputting signals from rows of pixels in the image sensor not having optical signals, and correcting the signals from the rows of pixels having optical signals based on the signals corresponding to the rows of pixels not having optical signals. | 07-23-2015 |
20150208009 | IMAGE SENSOR AND METHOD OF CORRECTION OUTPUT SIGNAL OF THE IMAGE SENSOR - A pixel array includes an array of pixels to receive light, a first pixel to be blocked from receiving the light, and a circuit to adjust signals output from pixels in the array based on a signal from the first pixel. The signals output from the pixels in the array include a first error value. The circuit reduces the first error value in the signals from the pixels in the array based on the signal from the first pixel. The circuit may also reduce a second error value in the signals output from the pixels in the array based on a signal from a second pixel. The first and second pixels may be outside of the pixel array. The first and second error values may be storage diode leakage value and a dark current value. | 07-23-2015 |
20150256769 | IMAGE SENSOR AND METHOD OF MANUFACTURING THE SAME - Provided are an image sensor and a method of manufacturing the same. The method may include forming a photo-electric conversion region and a charge storage region in a semiconductor layer; forming a transistor on a front surface of the semiconductor layer; forming a recess by etching a portion of the semiconductor layer between the charge storage region and a rear surface of the semiconductor layer; and forming on a bottom surface of the recess a shield film that blocks light incident on the charge storage region. | 09-10-2015 |
20150372038 | IMAGE SENSOR AND IMAGE PROCESSING SYSTEM INCLUDING THE SAME - An image sensor capable of boosting a voltage of a floating diffusion node is provided. The image sensor includes a floating diffusion node and a storage element which are in a semiconductor substrate. The image sensor includes a first light-shielding material formed over the floating diffusion node, and a second light-shielding material formed over the storage diode. The second light-shielding material is separated from the first light-shielding material. The image sensor also includes a first voltage supply line configured to apply a first voltage to the first light-shielding material and a second voltage supply line configured to apply a second voltage lower than the first voltage to the second light-shielding material. | 12-24-2015 |
20150373291 | METHOD OF DRIVING AN IMAGE SENSOR, IMAGE SENSOR EMPLOYING THE SAME, AND PORTABLE ELECTRONIC DEVICE INCLUDING THE SAME - An image sensor includes a pixel array including at least one unit pixel configured to generate accumulated charges, a correlated double sampler configured to perform a correlated double sampling operation to extract an effective signal component based on a signal component and a reset component from the unit pixel for at least first and second read-out periods, the correlated double sampler configured to read out an image signal during the first read-out period and to read out a light noise signal during the second read-out period, an analog-digital converter configured to convert the image signal into a first digital signal and to convert the light noise signal into a second digital signal and an image compensator configured to generate a compensated image signal based on the second digital signal and the first digital signal. | 12-24-2015 |
20160037101 | Apparatus and Method for Capturing Images - An apparatus and a method for capturing images are disclosed. The apparatus for capturing images includes an active pixel sensor (APS) array including a plurality of active pixels each including a photo diode and a storage diode, the plurality of active pixels being arranged in an array of N rows and M columns (where N and M are natural numbers of 2 or more), and an image signal processor that corrects an image signal output by the APS array. The APS array includes N pixel sensor rows, and the image signal processor removes noise from the image signal by using image signals that are sequentially output from non-adjacent ones of the pixel sensor rows. | 02-04-2016 |
20160049429 | GLOBAL SHUTTER IMAGE SENSOR, AND IMAGE PROCESSING SYSTEM HAVING THE SAME - A global shutter image sensor according to an exemplary embodiment of the present inventive concepts includes a semiconductor substrate including a first surface and a second surface, a photo-electric conversion region formed in the semiconductor substrate, a storage diode formed in a vicinity of the photo-electric conversion region in the semiconductor substrate, a drain region formed above the photo-electric conversion region in the semiconductor substrate, a floating diffusion region formed above the storage diode in the semiconductor substrate, an overflow gate transferring first charges from the photo-electric conversion region to the drain region, a storage gate transferring second charges from the photo-electric conversion region to the storage diode, and a transfer gate transferring the second charges from the storage diode to the floating diffusion region. The overflow gate, the photo-electric conversion region, the storage gate, the storage diode, the transfer gate, and the floating diffusion region are formed in a row. | 02-18-2016 |
20160056199 | UNIT PIXELS, IMAGE SENSORS INCLUDING THE SAME, AND IMAGE PROCESSING SYSTEMS INCLUDING THE SAME - A unit pixel of an image sensor which operates in global shutter mode is provided. The unit pixel includes a photo diode area including a photo diode configured to accumulate photocharges generated from incident light during a first period and a storage diode area including a storage diode configured to receive and store the photocharges from the photo diode. The photo diode corresponds to a micro lens that focuses the incident light. | 02-25-2016 |
20160100113 | Image Sensors and Related Methods and Electronic Devices - An image sensor is provided including a pixel array, a correlated double sampling (CDS) unit, an analog-digital converting (ADC) unit, a control unit, and an overflow power voltage control unit. The pixel array includes at least one unit pixel that generates accumulated charges corresponding to incident light in a photoelectric conversion period and outputs an analog signal based on the accumulated charges in a readout period. The CDS unit generates an image signal by performing a CDS operation on the analog signal. An ADC unit converts the image signal into a digital signal. A control unit controls the pixel array, the CDS unit, and the ADC unit. An overflow power voltage control unit controls an overflow power voltage to have a low voltage level in the photoelectric conversion period and controls the overflow power voltage to have a high voltage level in the readout period. | 04-07-2016 |