Patent application number | Description | Published |
20090042331 | Pinned photodiode (PPD) pixel with high shutter rejection ratio for snapshot operating CMOS sensor - A method for forming a pixel image sensor that has a high shutter rejection ratio for preventing substrate charge leakage and prevents generation of photoelectrons within a floating diffusion storage node and storage node control transistor switches of the pixel image sensor. The pixel image sensor that prevents substrate charge leakage of photoelectrons from pixel image sensor adjacent to the pixel image sensor. The pixel image sensor is fabricated on a substrate with an isolation barrier and a carrier conduction well. The isolation barrier formed underneath the floating diffusion storage node allows effective isolation by draining away the stray carriers and preventing them from reaching the floating diffusion storage node. The carrier conduction well in combination with the deep N-well isolation barrier separates the pinned photodiode region from the deep N-well isolation barrier that is underneath the floating diffusion storage node. | 02-12-2009 |
20110285885 | IMAGING SYSTEM FOR CREATING AN IMAGE OF AN OBJECT - An imaging system provides a serial video signal that is indicative of the intensity of the light. The imaging system has an array of pixel image sensors arranged in rows and columns. A control circuit is in communication with the rows of the array and the plurality of column switches. The control circuit generates reset control signals, transfer gating signals, pixel image sensor initiation signals for each selected row for controlling resetting, integration of photoelectrons generated from the light impinging upon the array of pixel image sensors, charge transfer of the photoelectrons from the photosensing devices to the charge storage device, and to activate the photoelectron sensing devices on each row to generate output signals from each of the pixel image sensors on a selected row. The control circuit generates the column selection signals for transfer of the output signals from selected rows to form a serial video output signal. | 11-24-2011 |
20120154648 | SIMULTANEOUS GLOBAL SHUTTER AND CORRELATED DOUBLE SAMPLING READ OUT IN MULTIPLE PHOTOSENSOR PIXELS - An apparatus controls operation of an array of color multiple sensor pixel image sensors to provide a global shuttering for one half of the color multiple sensor pixel image sensors and a rolling shuttering for all color multiple sensor pixel image sensors of the array. The apparatus includes a row control circuit and a column clamp, sample, and hold circuit. The row control circuit generates the necessary reset control signals, transfer gating signals, and row selecting signals for providing the global shuttering and the rolling shuttering color multiple sensor pixel image sensors. The column clamp, sample and hold circuit generates an output signal representative of a number of photons impinging upon each color multiple sensor pixel image sensor of the row of selected color multiple sensor pixel image sensors. The control apparatus further includes an analog to digital converter which converts the read out signal to a digital image signal. | 06-21-2012 |
20140184862 | EXTENDED DYNAMIC RANGE IN COLOR IMAGERS - A digital color imager providing an extended luminance range, an improved color implementation and enabling a method for an easy transformation into another color space having luminance as a component has been achieved. Key of the invention is the addition of white pixels to red, green and blue pixels. These white pixels have either an extended dynamic rang as described by (U.S. Pat. No. 6,441,852 to Levine et al.) or have a larger size than the red, green, or blue pixels used. The output of said white pixels can be directly used for the luminance values Y of the destination color space. Therefore only the color values and have to be calculated from the RGB values, leading to an easier and faster calculation. As an example chosen by the inventor the conversion to YCbCr color space has been shown in detail. | 07-03-2014 |
Patent application number | Description | Published |
20080240218 | Automatic calibration circuit for a continuous-time equalizer - Embodiments of the invention are generally directed to systems, methods, and apparatuses for an automatic calibration circuit for a continuous-time equalizer (CTE). In some embodiments, the calibration circuit separately locks the direct (DC) voltage swing and the alternating (AC) voltage swing of a CTE to reference voltage. | 10-02-2008 |
20090079484 | Pre-distorting a transmitted signal for offset cancellation - In one embodiment, the present invention includes a pre-driver to receive data of a first clock phase and to pre-drive the data, a driver coupled to the pre-driver to drive the data onto a link operable to be coupled to a receiver, and an offset driver to drive an offset value associated with the first clock phase onto the link with the data. Other embodiments are described and claimed. | 03-26-2009 |
20090111412 | Rail-to-rail data receiver for high-speed communication - In one embodiment, the present invention includes a receiver having two complementary input sense amplifiers to receive, amplify and latch a differential signal and to output complementary stage differential output signals to a latch coupled to receive and combine the n− them into a latched differential output signal. Other embodiments are described and claimed. | 04-30-2009 |
20110255581 | Pre-Distorting A Transmitted Signal For Offset Cancellation - In one embodiment, the present invention includes a pre-driver to receive data of a first clock phase and to pre-drive the data, a driver coupled to the pre-driver to drive the data onto a link operable to be coupled to a receiver, and an offset driver to drive an offset value associated with the first clock phase onto the link with the data. Other embodiments are described and claimed. | 10-20-2011 |
20130271227 | SELF-BIASED OSCILLATOR - Described herein is a self-biased oscillator. The self-biased oscillator comprises a first differentiator with adjustable resistance or capacitance, the first differentiator having an output node and an input node; and a second differentiator with adjustable resistance or capacitance, the second differentiator having an input node coupled to the output node of the first differentiator, and having an output node coupled to the input node of the first differentiator. | 10-17-2013 |
Patent application number | Description | Published |
20100198544 | SENSOR RESPONSE TIME ACCELERATOR - A sensor response time acceleration method including the steps of reading a signal step and an operating on the signal step. The reading a signal step includes reading a signal from a sensor, the signal representative of an environmental attribute as detected by the sensor. The operation on the signal step includes operating on the signal with a function of an inverse model of the sensor and a function representative of a desired sensor model to yield an accelerated output representative of the environmental attribute. | 08-05-2010 |
20120083965 | PARTICULATE FILTER ASH LOADING PREDICTION METHOD AND VEHICLE WITH SAME - A particulate filter (PF) ash loading prediction method includes the steps of: regenerating the PF using a first soot loading prediction model or a second soot loading prediction model; determining whether the regeneration of the PF was initiated by the first soot loading prediction model or the second soot loading prediction model; incrementing a first counter associated with the first soot loading prediction model or a second counter associated with the second soot loading prediction model, dependent on the determining step; comparing a ratio of the first counter and the second counter; and establishing whether the PF requires servicing, dependent on the ratio. | 04-05-2012 |
20120083966 | PARTICULATE FILTER ASH LOADING PREDICTION METHOD AND VEHICLE WITH SAME - A particulate filter ash loading prediction method including the steps of determining a maximum average lifetime for the particulate filter; performing a calculation of a running average of time between regenerations of the particulate filter; calculating an end-of-service-life ratio of the particulate filter dependent upon the maximum average lifetime and the running average; and comparing the end-of-service-life ratio to a predetermined minimum end-of-service-life ratio. If the end-of-service-life ratio is equal to or less than the minimum end-of-service-life ratio then indicating that at least one of service and replacement of the particulate filter is needed due to ash loading. | 04-05-2012 |
20120083967 | PARTICULATE FILTER ASH LOADING PREDICTION METHOD AND VEHICLE USING SAME - A particulate filter ash loading prediction method including the steps of determining a service age for the particulate filter; calculating an ash accumulation rate in the particulate filter; determining a maximum service age for the particulate filter dependent upon the ash accumulation rate; and comparing the service age to the maximum service age. If the service age exceeds the maximum service age then indicating that a service and/or replacement of the particulate filter is needed due to ash loading. | 04-05-2012 |
20120083990 | PARTICULATE FILTER ASH LOADING PREDICTION METHOD AND VEHICLE USING SAME - A particulate filter ash loading prediction method including the steps of determining a maximum average time for the filter; performing a calculation of a running average of time between regenerations of the filter; calculating an end-of-service life ratio of the filter dependent upon the maximum average time and the running average. The method further includes the steps of determining a delta pressure adjustment factor to compensate for ash loading of the filter depending upon the end-of-service life ratio; and comparing the delta pressure adjustment factor to a predetermined maximum delta pressure value, and, if the delta pressure adjustment factor exceeds the predetermined maximum normalized delta pressure adjustment factor, then indicating that a service or replacement of the filter is needed due to the ash loading. | 04-05-2012 |
20120084018 | PARTICULATE FILTER SERVICE LIFE PREDICTION - A method for determining the service interval of a particulate filter including the steps of determining a normalized current pressure differential across the particulate filter and determining a normalized pressure differential across the particulate filter for clean conditions. The clean pressure normalized pressure differential is subtracted from the current differential and divided by the time between regeneration to determine a current factor. A maximum factor is predetermined and compared to the current factor to determine service life for the particulate filter. | 04-05-2012 |
20140325965 | DIESEL EXHAUST FLUID CONTROL SYSTEM - An engine has an exhaust gas system and a reductant delivery system. The reductant delivery system includes a pump which pumps reductant from a tank an injector which injects reductant into the exhaust gas, and a heater for heating the reductant in the tank. A control system includes an ECU which controls the pump, the injector and the heater as a function of sensed temperatures. The control system includes an idle state, a defrost state, a recirculation state and a heating state. | 11-06-2014 |