Patent application number | Description | Published |
20090200449 | PHOTOELECTRIC CONVERSION DEVICE AND IMAGING SYSTEM - A photoelectric conversion device comprises: a clipping unit including a MOS transistor which has a source connected to a signal line and a drain being connected to a power supply, and the clipping unit clipping an electric potential of the signal line to an electric potential corresponding to an electric potential of the source; a holding capacitance which has a first electrode and a second electrode, the first electrode being connected to a gate of the MOS transistor, and the holding capacitance holding at least a voltage transferred to the signal line while the charge-voltage converter has been reset; and a shift unit which shifts an electric potential of the second electrode in a direction such that the electric potential of the second electrode comes close to a level to be transferred to the signal line while the charge-voltage converter has been reset. | 08-13-2009 |
20110007193 | SOLID-STATE IMAGING APPARATUS AND DRIVING METHOD FOR THE SAME - A solid-state imaging apparatus includes: a plurality of pixels generating pixel signals; color filters above the photoelectric conversion elements; a row selecting unit for selecting a plurality of rows of the pixels; a signal line receiving the pixel signal from the pixels of the row selected by the row selecting unit; a plurality of capacitors for accumulating the pixel signal outputted to the signal line; and a plurality of selecting switches connected between the signal line and the plurality of capacitors. During a first adding operation, the row selecting unit adds pixel signals accumulated in a part of the capacitors on the signal line. And, during a second adding operation, the row selecting unit adds pixel signals accumulated in other part of the capacitors with the pixel signals from the pixels of a row different from the row of which pixel signals are added in the first adding operation. | 01-13-2011 |
20110102654 | IMAGE CAPTURE DEVICE HAVING AMPLIFICATION CIRCUIT FOR AMPLIFYING SIGNAL FROM PHOTOELECTRIC CONVERSION PORTION - An image capture device includes a plurality of image capture elements for capturing an object image, a plurality of vertical output lines for reading signals out of the plurality of image capture elements, and a plurality of processing circuits. Each processing circuit includes a first capacitor element having a first electrode connected to one of the plurality of vertical output lines, a differential amplifier having a first input terminal connected to a second electrode of the first capacitor element, a second capacitor element connected between the first input terminal and an output terminal of the differential amplifier, and a first switch configured to control conduction between the first input terminal and the output terminal of the differential amplifier. The image capture device further includes a plurality of third capacitor elements configured to hold signals from the differential amplifiers of the plurality of processing circuits and to limit an output frequency band of each differential amplifier, and a horizontal output line for sequentially outputting signals from the plurality of third capacitor elements. | 05-05-2011 |
20120086843 | SOLID-STATE IMAGE PICKUP DEVICE AND CONTROL METHOD THEREOF, AND CAMERA - An object of the invention is to cause a part of charge spilling from a photoelectric conversion unit to flow into a charge holding unit and thereby extend dynamic range and at the same time improve image quality. There is provided a solid-state image pickup device having a pixel including: a photoelectric conversion unit generating and accumulating charge by means of photoelectric conversion; a first charge holding unit being shielded from light, and being adaptable to accumulate a part of charge spilling from the photoelectric conversion unit in a period during which the photoelectric conversion unit generates and accumulates charge; an amplifying unit (SF-MOS) amplifying charge; a first transfer unit (Tx-MOS) transferring the charge accumulated in the photoelectric conversion unit to the amplifying unit; and a second transfer unit (Ty-MOS) transferring the charge accumulated in the first charge holding unit to the amplifying unit. | 04-12-2012 |
20130153749 | PHOTOELECTRIC CONVERSION DEVICE AND OPERATION METHOD FOR PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion unit generates an amount of charges. A differential amplifier has first and second input transistors and is configured to output a current signal based on the amount of charges. A reset voltage providing unit is configured to provide a reset voltage for input nodes of the first and second input transistors. A transfer transistor is electrically connected to, and configured to transfer a charge to, the input node of the first input transistor. A reset transistor is electrically connected to one of the input nodes, and configured to control an electrical connection between the reset voltage providing unit and the input node connected to the reset transistor. A connection transistor has first and second nodes and is configured to control an electrical connection between the input nodes. The first and second nodes are connected to the input nodes of the first and second input transistors, respectively. | 06-20-2013 |
20130153752 | ELECTRONIC DEVICE - An electronic device according to one or more embodiments of the invention comprises a plurality of first output lines and a plurality of current to voltage convertors. Current signals from a plurality of signal sources are output to the first output lines. Each of the current to voltage convertors are electrically connected to a corresponding one of the first output lines. The current to voltage convertor includes a first amplification unit. An offset reduction unit in a subsequent stage of the current to voltage convertor is provided for each of the first output lines. | 06-20-2013 |
20130153977 | PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device according to one or more embodiments includes a plurality of photoelectric conversion units. A readout portion is configured to output current signals to an output line. Each of the current signals is based on an amount of charges generated by a corresponding one of the photoelectric conversion units. The readout portion includes a plurality of transistors including at least a plurality of first input transistors and a plurality of second input transistors. Each of the first input transistors and a corresponding one of the second input transistor form a differential pair. Of the plurality of the transistors, any transistors repeatedly arranged correspondingly to every one or more of the photoelectric conversion units have the same conductivity type. | 06-20-2013 |
20130154705 | ELECTRONIC DEVICE - An electronic device according to one or more embodiments of the present invention comprises an output line, a current mirror circuit and a comparator. Current signals from a plurality of signal sources are output to the output line. The current mirror circuit is electrically connected to the output line. The comparator is configured to compare a mirrored current signal from the current mirror circuit with a reference current signal. The comparator is configured to output a signal representing a comparison result of amplitudes of the mirrored current signal and the reference current signal. | 06-20-2013 |
20130181118 | SOLID-STATE IMAGE PICKUP DEVICE AND CONTROL METHOD THEREOF, AND CAMERA - An object of the invention is to cause a part of charge spilling from a photoelectric conversion unit to flow into a charge holding unit and thereby extend dynamic range and at the same time improve image quality. There is provided a solid-state image pickup device having a pixel including: a photoelectric conversion unit generating and accumulating charge by means of photoelectric conversion; a first charge holding unit being shielded from light, and being adaptable to accumulate a part of charge spilling from the photoelectric conversion unit in a period during which the photoelectric conversion unit generates and accumulates charge; an amplifying unit (SF-MOS) amplifying charge; a first transfer unit (Tx-MOS) transferring the charge accumulated in the photoelectric conversion unit to the amplifying unit; and a second transfer unit (Ty-MOS) transferring the charge accumulated in the first charge holding unit to the amplifying unit. | 07-18-2013 |
20130222662 | IMAGING DEVICE, IMAGING SYSTEM, AND METHOD FOR DRIVING IMAGING DEVICE - Conventionally, in order to obtain a difference signal between an A+N signal and an N signal and a difference signal between an A+B+N signal and the A+N signal, the A+N signal needs to be held in two different capacitors. Hence, there is a problem in that, due to variations in capacitance of the two capacitors, the difference signal between the A+N signal and the N signal and the difference signal between the A+B+N signal and the A+N signal may not accurately be obtained. An imaging device generates a signal obtained by subtracting the same digital N signal from each of the digital A+N signal and the digital A+B+N signal. | 08-29-2013 |
Patent application number | Description | Published |
20080252761 | IMAGE PICKUP APPARATUS - An image pickup apparatus comprising: a plurality of pixels each including a photoelectric converting element; a plurality of capacitor which receive signals from the plurality of pixels at first terminals; a plurality of clamping switches for setting a second terminal of each of the plurality of capacitor into a predetermined electric potential; a plurality of first storing units for storing signals from the second terminals of the plurality of capacitor; a plurality of second storing units for storing the signals from the second terminals of the plurality of capacitor; a first common output line to which the signals from the plurality of first storing units are sequentially output; a second common output line to which the signals from the plurality of second storing units are sequentially output; and a difference circuit for operating a difference between the signal from the first common output line and the signal from the second common output line. | 10-16-2008 |
20090213260 | SOLID-STATE IMAGE PICKUP DEVICE AND CONTROL METHOD THEREOF, AND CAMERA - An object of the invention is to cause a part of charge spilling from a photoelectric conversion unit to flow into a charge holding unit and thereby extend dynamic range and at the same time improve image quality. There is provided a solid-state image pickup device having a pixel including: a photoelectric conversion unit generating and accumulating charge by means of photoelectric conversion; a first charge holding unit being shielded from light, and being adaptable to accumulate a part of charge spilling from the photoelectric conversion unit in a period during which the photoelectric conversion unit generates and accumulates charge; an amplifying unit (SF-MOS) amplifying charge; a first transfer unit (Tx-MOS) transferring the charge accumulated in the photoelectric conversion unit to the amplifying unit; and a second transfer unit (Ty-MOS) transferring the charge accumulated in the first charge holding unit to the amplifying unit. | 08-27-2009 |
20090237544 | IMAGE PICKUP APPARATUS - There is provided an image pickup apparatus comprising a plurality of pixels each including a photoelectric conversion unit which converts incident light into an electrical signal and accumulates the electrical signal, an amplifier transistor which amplifies and outputs the signal from the photoelectric conversion unit, a transfer transistor which transfers the electrical signal accumulated in the photoelectric conversion unit to the amplifier transistor, and a processing transistor which performs predetermined processing, and a control circuit which sets the signal level supplied to the control electrode of the transfer transistor in order to turn off the transfer transistor to be lower than the signal level supplied to the control electrode of the processing transistor in order to turn off the processing transistor. | 09-24-2009 |
20100045839 | IMAGE PICKUP APPARATUS - An image pickup apparatus comprising: a plurality of pixels each including a photoelectric converting element; a plurality of capacitor which receive signals from the plurality of pixels at first terminals; a plurality of clamping switches for setting a second terminal of each of the plurality of capacitor into a predetermined electric potential; a plurality of first storing units for storing signals from the second terminals of the plurality of capacitor; a plurality of second storing units for storing the signals from the second terminals of the plurality of capacitor; a first common output line to which the signals from the plurality of first storing units are sequentially output; a second common output line to which the signals from the plurality of second storing units are sequentially output; and a difference circuit for operating a difference between the signal from the first common output line and the signal from the second common output line. | 02-25-2010 |
20100155787 | SOLID STATE IMAGE PICKUP DEVICE AND MANUFACTURING METHOD THEREFOR - A MOS-type solid-state image pickup device, on a semiconductor substrate, includes a photoelectric conversion unit having a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type, a third semiconductor region of the first conductivity type, and a transfer MOS transistor having a gate electrode disposed on an insulation film and transferring a charge carrier from a fourth semiconductor region. In addition, an amplifying MOS transistor having a gate electrode is connected to the fourth semiconductor region, and a fifth semiconductor region of the second conductivity type is continuously disposed to the second semiconductor region and under the gate electrode, and is disposed apart from the insulation film under the gate electrode of the transfer MOS transistor. | 06-24-2010 |
20100259663 | IMAGE PICKUP APPARATUS - An image pickup apparatus comprising: a plurality of pixels each including a photoelectric converting element; a plurality of capacitor which receive signals from the plurality of pixels at first terminals; a plurality of clamping switches for setting a second terminal of each of the plurality of capacitor into a predetermined electric potential; a plurality of first storing units for storing signals from the second terminals of the plurality of capacitor; a plurality of second storing units for storing the signals from the second terminals of the plurality of capacitor; a first common output line to which the signals from the plurality of first storing units are sequentially output; a second common output line to which the signals from the plurality of second storing units are sequentially output; and a difference circuit for operating a difference between the signal from the first common output line and the signal from the second common output line. | 10-14-2010 |
20110074993 | IMAGE PICKUP DEVICE, ITS CONTROL METHOD, AND CAMERA - An image pickup device, wherein a part of the carriers overflowing from the photoelectric conversion unit for a period of photoelectrically generating and accumulating the carriers may be flowed into the floating diffusion region, and a pixel signal generating unit generating a pixel signal according to the carriers stored in the photoelectric conversion unit and the carriers having overflowed into the floating diffusion region, is provided. The expansion of a dynamic range and the improvement of an image quality can be provided by controlling a ratio of the carriers flowing into the floating diffusion region to the carriers overflowing from such a photoelectric conversion unit at high accuracy. | 03-31-2011 |
20110242382 | IMAGE PICKUP APPARATUS - There is provided an image pickup apparatus including a pixel including a photoelectric conversion element and an amplification element for amplifying and outputting a signal generated at the photoelectric conversion element, a load transistor for controlling an electric current flowing at the amplification element, and a potential control element for suppressing potential fluctuation in a first main electrode region of the load transistor which is an output side of the amplification element. | 10-06-2011 |
20120075512 | IMAGE PICKUP APPARATUS - There is provided an image pickup apparatus comprising a plurality of pixels each including a photoelectric conversion unit which converts incident light into an electrical signal and accumulates the electrical signal, an amplifier transistor which amplifies and outputs the signal from the photoelectric conversion unit, a transfer transistor which transfers the electrical signal accumulated in the photoelectric conversion unit to the amplifier transistor, and a processing transistor which performs predetermined processing, and a control circuit which sets the signal level supplied to the control electrode of the transfer transistor in order to turn off the transfer transistor to be lower than the signal level supplied to the control electrode of the processing transistor in order to turn off the processing transistor. | 03-29-2012 |
20120086837 | IMAGE PICKUP APPARATUS - An image pickup apparatus comprises plural pixels each including a photoelectric converting element; plural capacitors which receive signals from the plural pixels at first terminals; plural clamping switches for setting a second terminal of each of the plural capacitors into a predetermined electric potential; plural first storing units for storing signals from the second terminals of the plural capacitors; plural second storing units for storing the signals from the second terminals of the plural capacitors; a first common output line to which the signals from the plural first storing units are sequentially output; a second common output line to which the signals from the plural second storing units are sequentially output; and a difference circuit for operating a difference between the signal from the first common output line and the signal from the second common output line. | 04-12-2012 |
20120146100 | SOLID STATE IMAGE PICKUP DEVICE AND MANUFACTURING METHOD THEREFOR - A MOS-type solid-state image pickup device is provided on a semiconductor substrate and includes a photoelectric conversion unit having a first semiconductor region, a second semiconductor region, and a third semiconductor region. A transfer gate electrode is disposed on an insulation film and transfers a carrier from the second semiconductor region to a fourth semiconductor region, and an amplifying MOS transistor has a gate electrode connected to the fourth semiconductor region. In addition, a fifth semiconductor region is continuously disposed to the second semiconductor region, under the gate electrode. An entire surface of the third semiconductor region is covered with the insulation film, and a side portion of the third semiconductor region that is laterally opposite to the transfer gate is in contact with the first semiconductor region. | 06-14-2012 |
20130187199 | SOLID STATE IMAGE PICKUP DEVICE AND MANUFACTURING METHOD THEREFOR - A MOS-type solid-state image pickup device includes a photoelectric conversion unit having a first semiconductor region of a first conductive type, a second semiconductor region of a second conductive type forming a pn-junction with the first semiconductor region, and a third semiconductor region of the first conductive type disposed on the second semiconductor region. In addition, a transfer gate electrode is disposed on an insulation film and transfers a carrier from the second semiconductor region to a fourth semiconductor region of the second conductivity type, an amplifying MOS transistor having a gate electrode is connected to the fourth semiconductor region, and a fifth semiconductor region of the second conductivity type is continuously disposed to the second semiconductor region, disposed under the gate electrode. An entire surface of the third semiconductor region is covered with the insulation film, and a side portion of the third semiconductor region that is laterally opposite to the transfer gate is in contact with the first semiconductor region. | 07-25-2013 |
20140002689 | IMAGE PICKUP APPARATUS | 01-02-2014 |
20140106496 | SOLID STATE IMAGE PICKUP DEVICE AND MANUFACTURING METHOD THEREFOR - A method of manufacturing an active pixel sensor having a plurality of pixels, each of the pixels having a photodiode formed by a part of a first semiconductor region of a first conductive type and a second semiconductor region of a second conductive type, and a transfer transistor for transferring a charge carrier from the photodiode, includes the steps of preparing a substrate on which the first semiconductor region of the first conductive type is formed, forming a mask to form the second semiconductor region on the substrate, forming the second semiconductor region using the mask, and forming a gate of the transferring transistor after forming the second semiconductor region. The gate of the transferring transistor overlaps the second semiconductor region in a planar view. | 04-17-2014 |