Patent application number | Description | Published |
20110096186 | FULLY-DIFFERENTIAL AMPLIFIER, PHOTOELECTRIC CONVERSION APPARATUS INCLUDING FULLY-DIFFERENTIAL AMPLIFIER, AND IMAGE-PICKUP SYSTEM - In a known fully-differential amplifier, it has been difficult to set a power voltage VDD to a low level while maintaining the signal amplitude and increase the amplitude of an output signal without increasing the power voltage VDD. The present invention provides a fully-differential amplifier including a voltage-current conversion unit, a first current-voltage conversion unit, and a second current-voltage conversion unit, where a resistance element included in the voltage-current conversion unit, a resistance element included in the first current-voltage conversion unit, and a resistance element included in the second current-voltage conversion unit are connected in parallel with one another. | 04-28-2011 |
20110141332 | SOLID-STATE IMAGE PICKUP DEVICE AND METHOD FOR DRIVING THE SAME - A solid-state image pickup device includes a plurality of common output lines receiving signals from a plurality of pixels, a plurality of column amplifier units amplifying the signals, a plurality of storage capacitors storing the amplified signals, a first transistor controlling electrical conduction between the output node of the column amplifier unit and the input node of a storage capacitor, a switch switching current for operating the column amplifier unit between a first current and a second current smaller than the first current, and a controller inhibiting, while the second current is flowing through the column amplifier unit, a potential at the output node of the column amplifier unit from approaching an off-state voltage supplied to a gate of the first transistor in an OFF state of the first transistor. | 06-16-2011 |
20110155893 | SOLID-STATE IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - An apparatus according to the present invention in which a first substrate including a photoelectric conversion element and a gate electrode of a transistor, and a second substrate including a peripheral circuit portion are placed upon each other. The first substrate does not include a high-melting-metal compound layer, and the second substrate includes a high-melting-metal compound layer. | 06-30-2011 |
20120026371 | IMAGE CAPTURING DEVICE, IMAGE CAPTURING SYSTEM, AND METHOD OF DRIVING IMAGE CAPTURING DEVICE - An image capturing device comprises a pixel array having a plurality of pixels each including a photoelectric conversion portion, a plurality of signal lines connected to the pixel array, a plurality of column amplifiers configured to respectively amplify signals transferred from the pixel array via the signal lines, the column amplifier comprising a first input terminal, a first output terminal, an amplifier having a second input terminal and a second output terminal, a feedback capacitance arranged between the second input terminal and the first output terminal, an input capacitance having an electrode connected to the first input terminal, and an electrode connected to the second input terminal, a first switch arranged between the second input terminal and the second output terminal, a second switch arranged between the first output terminal and the second output terminal, and a third switch arranged between a reference voltage terminal and the first output terminal. | 02-02-2012 |
20120248293 | SOLID-STATE IMAGE PICKUP DEVICE - A solid-state image pickup device includes a pixel region including photoelectric conversion units, FDs, and transfer transistors, reset transistors, amplifier transistors, and a reference voltage supply line used to supply reference voltages to the photoelectric conversion units. In the device, the pixel region and the reference voltage supply line are disposed on a first semiconductor substrate, and at least the reset transistors or the amplifier transistors are disposed on a second semiconductor substrate. Furthermore, power supply lines used to supply voltages to the reference voltage supply line are disposed on the second semiconductor substrate. The device further includes second electric connection units which electrically connect the reference voltage supply line to the power supply line. The first electric connection units are disposed in the pixel region whereas the second electric connection units are disposed outside the pixel region. | 10-04-2012 |
20120267690 | SOLID-STATE IMAGE PICKUP DEVICE AND IMAGE PICKUP SYSTEM - The present invention relates to a solid-state image pickup device. The device includes a first substrate including a photoelectric conversion element and a transfer gate electrode configured to transfer charge from the photoelectric conversion element, a second substrate having a peripheral circuit portion including a circuit configured to read a signal based charge generated in the photoelectric conversion element, the first and second substrates being laminated. The device further includes a multilayer interconnect structure, disposed on the first substrate, including an aluminum interconnect and a multilayer interconnect structure, disposed on the second substrate, including a copper interconnect. | 10-25-2012 |
20120286140 | SOLID-STATE IMAGE PICKUP DEVICE - Dark current from a transfer transistor is suppressed and power-supply voltage in a second semiconductor substrate is lowered. A solid-state image pickup device includes a pixel array, a plurality of common output lines receiving signals read out from a plurality of pixels, a transfer scanning unit sequentially driving the plurality of transfer transistors, a signal processing unit processing the signals output to the common signal lines, and a level shift unit making amplitude of a pulse supplied to a gate of the transfer transistor larger than amplitude of a pulse supplied to a gate of a transistor constituting the signal processing unit. The pixel array and the level shift unit are arranged on a first semiconductor substrate, whereas the plurality of common output lines and the signal processing unit are arranged on a second semiconductor substrate. | 11-15-2012 |
20130026343 | SOLID-STATE IMAGING APPARATUS - A solid-state imaging apparatus comprises a plurality of matrix pixels, a reference signal generator for generating a ramp signal, a counter for performing counting according to the ramp signal output, and an AD converter, arranged for each pixel column, for performing AD conversion by comparing a pixel signal from the pixel with the ramp signal. Further, the AD converter includes a comparator to which the pixel signal and the reference signal are input, a storage for storing the AD conversion result, and an slope converter, between the output terminal of the reference signal generator and the input terminal of the comparator, for changing a gradient of the ramp signal, so that the noise overlaid on the ramp signal changes depending on the gradient of the ramp signal. Thus, it is possible to prevent generation of a horizontal-line noise in the ramp signal. | 01-31-2013 |
20130057741 | SOLID-STATE IMAGE PICKUP DEVICE AND METHOD FOR DRIVING THE SAME - A solid-state image pickup device includes a plurality of common output lines receiving signals from a plurality of pixels, a plurality of column amplifier units amplifying the signals, a plurality of storage capacitors storing the amplified signals, a first transistor controlling electrical conduction between the output node of the column amplifier unit and the input node of a storage capacitor, a switch switching current for operating the column amplifier unit between a first current and a second current smaller than the first current, and a controller inhibiting, while the second current is flowing through the column amplifier unit, a potential at the output node of the column amplifier unit from approaching an off-state voltage supplied to a gate of the first transistor in an OFF state of the first transistor. | 03-07-2013 |
20130057742 | SOLID-STATE IMAGING APPARATUS AND METHOD OF DRIVING THE SAME - A solid-state imaging apparatus includes a plurality of pixels arranged two-dimensionally in a matrix, a reference signal generating circuit adapted to generate a ramp signal, a counter circuit adapted to perform a counting operation according to output of the ramp signal, comparators arranged on a column by column basis and adapted to compare signals read out of the pixels with the ramp signal, and memories arranged on a column by column basis and adapted to store digital data, wherein if output of the comparator is not changed during an AD conversion period, digital data of a predetermined value is stored in the memory. The solid-state imaging apparatus implements overflow handling using a simplified circuit configuration. | 03-07-2013 |
20130062503 | SOLID-STATE IMAGING APPARATUS AND METHOD FOR DRIVING SOLID-STATE IMAGING APPARATUS - A solid-state imaging apparatus includes: a ramp signal generator for generating first and second time-changing ramp signals during first and second analog-to-digital conversion periods, respectively; comparators for comparing a reset signal of a pixel with the first ramp signal during the first analog-to-digital conversion period, and comparing a pixel signal with the second ramp signal during the second analog-to-digital conversion period; and memories for storing, as first and second digital data, count values of counting from a start of changing the first and second ramp signals until an inversion of outputs of the comparators, during the first and second analog-to-digital conversion periods, wherein the ramp signal generator supplies a current from a current generator to a first capacitor element by a sampling and holding operation of a switch, and generates the first and second ramp signals based on the same bias voltage held by the first capacitor element. | 03-14-2013 |
20130068930 | A/D CONVERTER AND SOLID-STATE IMAGING APPARATUS - Provided is an A/D converter including an input terminal, a reference signal line for supplying a reference signal which changes temporally, a comparator, a correction capacitor connected to an inverting input terminal of the comparator; and an output circuit which outputs digital data corresponding to an analog signal input to the input terminal. In a first state in which a total voltage of a first analog signal and an offset voltage of the comparator is held in the correction capacitor, a second analog signal input to the input terminal is supplied to a non-inverting input terminal of the comparator, and the second analog signal or the total voltage is changed using the reference signal, thereby outputting, from the output circuit, digital data. | 03-21-2013 |
20130070136 | SOLID-STATE IMAGING APPARATUS, A/D CONVERTER, AND CONTROL METHOD THEREOF - In an A/D converter, a first analog signal which is input to an input terminal in a state in which the input terminal and a reference voltage line are connected via a first capacitor is converted into digital data when a reference signal is supplied to the reference signal line in a state in which the reference signal line and a first input terminal of a comparator are connected via the first capacitor. A second analog signal which is input to the input terminal in a state in which the input terminal and the reference voltage line are connected via a second capacitor is converted into digital data when the reference signal is supplied to the reference signal line in a state in which the reference signal line and the first input terminal of the comparator are connected via the second capacitor. | 03-21-2013 |
20130087685 | SOLID-STATE IMAGING APPARATUS - An imaging apparatus includes a plurality of unit pixels arranged in a matrix and configured to generate a signal by photoelectric conversion, a plurality of pixel output lines connected to each column of the unit pixels, a plurality of column amplifiers configured to amplify a signal of the pixel output lines, and a driving circuit configured to generate a control signal of the column amplifiers. Each of the column amplifiers includes first and second input terminals, an output terminal, an input capacitance between the first and second input terminals, and a first switch between the second input and output terminals. The driving circuit is configured to generate the control signal so as to make a period for switching the first switch from a conductive state to a non-conductive state longer than a period for switching the first switch from the non-conductive state to the conductive state. | 04-11-2013 |
20130087686 | SOLID-STATE IMAGING APPARATUS - A solid-state imaging apparatus includes a plurality of pixels arrayed in a matrix, and configured to generate signals by photoelectric conversion; a plurality of read-out circuits disposed on each column of the plurality of pixels arrayed in a matrix pattern, and configured to read out the signals from the plurality of pixels; a plurality of comparison units configured to compare the signals output from the plurality of read-out circuits with a reference signal whose level changes with time; a counter configured to count a clock signal after the level of the reference signal starts a change; a storage unit configured, when a magnitude relationship between the signals output from the plurality of the read-out circuits and the reference signal is reversed; and a reset unit configured to reset the count value stored in the storage unit. | 04-11-2013 |
20130087687 | PHOTOELECTRIC CONVERSION APPARATUS - A photoelectric conversion apparatus includes, on one substrate, a pixel driving unit and a signal processing unit that includes a digital circuit configured to execute signal processing. A first voltage and a second voltage different in value from the first voltage are supplied to the digital circuit of the pixel driving unit. A third voltage and a fourth voltage different in value from the third voltage are supplied to the digital circuit of the signal processing unit. A main portion of a first conductor that supplies the first voltage to the digital circuit of the pixel driving unit and a main portion of a second conductor that supplies the third voltage to the digital circuit of the signal processing unit are isolated from each other. | 04-11-2013 |
20130087688 | RAMP SIGNAL OUTPUT CIRCUIT, ANALOG-TO-DIGITAL CONVERSION CIRCUIT, IMAGING DEVICE, METHOD FOR DRIVING RAMP SIGNAL OUTPUT CIRCUIT, METHOD FOR DRIVING ANALOG-TO-DIGITAL CONVERSION CIRCUIT, AND METHOD FOR DRIVING IMAGING DEVICE - A circuit configured to output a ramp signal having a potential varying depending on time includes a voltage supply unit configured to supply a plurality of voltages having different amplitudes, a current supply unit, an integration circuit configured to output the ramp signal, and a capacitive element. The voltage supply unit is connected to one terminal of the capacitive element. The integration circuit and the current supply unit are connected to another terminal of the capacitive element. | 04-11-2013 |
20130088292 | SOLID-STATE IMAGING APPARATUS - A solid-state imaging apparatus includes: an amplifier circuit configured to amplify a signal from pixel; and a reference signal generating circuit configured to generate a ramp signal, wherein feedback capacitor elements having the same structure are electrically connected to a capacitive feedback type amplifier of the amplifier circuit and to a capacitive feedback type amplifier of the reference signal generating circuit respectively, and a connecting configuration between an amplifier of the amplifier circuit and the feedback capacitor element and a connecting configuration between an amplifier of the reference signal generating circuit and the feedback capacitor element are the same. | 04-11-2013 |
20130088625 | SOLID-STATE IMAGING APPARATUS AND METHOD OF DRIVING THE SAME - A solid-state imaging apparatus includes: a plurality of pixels arranged in a matrix; a plurality of amplifier circuits each arranged correspondingly to each of columns of the pixels, for amplifying a signal from the pixel; and a current source transistor whose source is supplied with a power source voltage and which supplies the amplifier circuit with a bias current. When the current source transistor is operating in the saturation region, the gate voltage of the current source transistor that is supplied from the bias line is sampled and held. The gate voltage of the current source transistor with respect to the power source voltage is controlled to the sampled voltage, thereby suppressing variation. This suppression can, in turn, suppress occurrence of line noise and a lateral smear due to difference of drop in voltage of a power source line concerning a column circuit on each row. | 04-11-2013 |
20130088627 | ANALOG-TO-DIGITAL CONVERTER, PHOTOELECTRIC CONVERSION DEVICE, AND IMAGING SYSTEM - A photoelectric conversion device includes a counter circuit configured to count a first clock signal to output a count signal thereof, a second clock signal generation unit configured to generate a second clock signal based on the first clock signal, and a clock synchronization unit configured to output a count start signal in synchronization with the second clock signal, wherein the counter circuit performs a counting operation in response to the count start signal synchronized with the second clock signal. | 04-11-2013 |
20130088628 | SOLID-STATE IMAGING DEVICE AND IMAGING SYSTEM - A solid-state imaging device includes a plurality of pixels arranged in a matrix, a plurality of readout circuits provided in each column of the plurality of pixels arranged in a matrix, configured to read out for each column a signal of the plurality of pixels, a plurality of comparison units configured to compare a signal output from the plurality of readout circuits with a reference signal whose level changes with time, a counter configured to perform a count operation from when the level of the reference signal starts to change, first and second buffers each configured to buffer a count value of the counter, and a plurality of storing units connected to the plurality of comparison units, configured to store a count value of the counter when a magnitude relation between a signal output from the plurality of the readout circuits and the reference signal is inverted. | 04-11-2013 |
20130089320 | PHOTOELECTRIC CONVERSION SYSTEM - A system includes: a plurality of pixels arranged in a matrix; a reference signal generating unit for generating a ramp signal; A/D converters each arranged correspondingly to each of columns to A/D-convert a signal from the pixel; a counter that performs a count operation according to an output of the ramp signal, and supplies the count signal through the count signal line to the A/D converter; and a counter test circuit that is provided independently from the A/D converter, and tests the counter, based on a matching of the expected value of the count signal with the count signal supplied through the count signal line from the counter. This configuration allows the count signal to be checked concurrently with imaging of an object. | 04-11-2013 |
20130105663 | MEMBER FOR SOLID-STATE IMAGE PICKUP DEVICE AND METHOD FOR MANUFACTURING SOLID-STATE IMAGE PICKUP DEVICE | 05-02-2013 |
20130175652 | SOLID-STATE IMAGING DEVICE - In a solid-state imaging device, a photoelectric conversion unit, a transfer transistor, and at least a part of electric charge holding unit, among pixel constituent elements, are disposed on a first semiconductor substrate. An amplifying transistor, a signal processing circuit other than a reset transistor, and a plurality of common output lines, to which signals are read out from a plurality of pixels, are disposed on a second semiconductor substrate. | 07-11-2013 |
20130248953 | SOLID-STATE IMAGE PICKUP APPARATUS AND IMAGE PICKUP SYSTEM - An apparatus according to the present invention in which a first substrate including a photoelectric conversion element and a gate electrode of a transistor, and a second substrate including a peripheral circuit portion are placed upon each other. The first substrate does not include a high-melting-metal compound layer, and the second substrate includes a high-melting-metal compound layer. | 09-26-2013 |
20140014817 | IMAGE SENSOR - An image sensor comprises a pixel portion formed by arraying pixels including photoelectric conversion portions in a matrix, a plurality of A/D converters which are provided in a one-to-one correspondence to pixel columns of the pixel portion, an adding unit which adds pixel signals from a plurality of pixel columns to each other, and a connecting portion capable of inputting, to an arbitrary A/D converter, a sum signal obtained by adding the pixel signals by the adding unit. | 01-16-2014 |
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 |
20150036032 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGE PICKUP SYSTEM - Column signal processing units are provided in correspondence with respective columns of a pixel array. The column signal processing unit includes a sample-and-hold unit configured to hold an analog signal output from a pixel, a buffer unit configured to buffer the signal held in the sample-and-hold unit, and an AD conversion unit. The AD conversion unit converts the signal held by the sample-and-hold unit and buffered by the buffer unit into a digital signal. | 02-05-2015 |
20150077607 | SOLID-STATE IMAGING APPARATUS AND IMAGING SYSTEM - A solid-state imaging apparatus includes a pixel section in which a plurality of pixels are arranged in a matrix, a column signal line configured to output a pixel signal from the pixel section, a column amplifier circuit configured to invert and amplify the pixel signal, a bypass circuit configured to bypass the column amplifier circuit, an AD converter, and a control unit configured to change an operation mode of the AD converter in accordance with the operation of the bypass circuit. | 03-19-2015 |
20150115136 | SOLID-STATE IMAGING DEVICE - In a solid-state imaging device, a photoelectric conversion unit, a transfer transistor, and at least a part of electric charge holding unit, among pixel constituent elements, are disposed on a first semiconductor substrate. An amplifying transistor, a signal processing circuit other than a reset transistor, and a plurality of common output lines, to which signals are read out from a plurality of pixels, are disposed on a second semiconductor substrate. | 04-30-2015 |
20150122975 | SOLID-STATE IMAGING APPARATUS - A solid-state imaging apparatus comprises a plurality of matrix pixels, a reference signal generator for generating a ramp signal, a counter for performing counting according to the ramp signal output, and an AD converter, arranged for each pixel column, for performing AD conversion by comparing a pixel signal from the pixel with the ramp signal. Further, the AD converter includes a comparator to which the pixel signal and the reference signal are input, a storage for storing the AD conversion result, and an slope converter, between the output terminal of the reference signal generator and the input terminal of the comparator, for changing a gradient of the ramp signal, so that the noise overlaid on the ramp signal changes depending on the gradient of the ramp signal. Thus, it is possible to prevent generation of a horizontal-line noise in the ramp signal. | 05-07-2015 |
20150138388 | SOLID-STATE IMAGE PICKUP DEVICE AND IMAGE PICKUP SYSTEM - The present invention relates to a solid-state image pickup device. The device includes a first substrate including a photoelectric conversion element and a transfer gate electrode configured to transfer charge from the photoelectric conversion element, a second substrate having a peripheral circuit portion including a circuit configured to read a signal based charge generated in the photoelectric conversion element, the first and second substrates being laminated. The device further includes a multilayer interconnect structure, disposed on the first substrate, including an aluminum interconnect and a multilayer interconnect structure, disposed on the second substrate, including a copper interconnect. | 05-21-2015 |
20150201144 | SOLID-STATE IMAGING APPARATUS AND IMAGING SYSTEM - A solid-state imaging apparatus includes: a pixels in a matrix for generating a pixel signal; and A/D converting units, corresponding to columns of the matrix, to convert the pixel signal into a n-bit digital value. The A/D converting units includes first storage units for storing the n-bit digital value one bit by one bit, and second storage units corresponding to the first storage units, to hold the digital value transferred from the first storage unit. In each of the columns of the plurality of pixels, arranged corresponding thereto are the first storage units and the second storage units form n-pairs. Each pair including the first storage unit and the second storage unit hold the digital value of the same bit. The n-pairs are arrayed in a matrix. | 07-16-2015 |
20150229832 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGING SYSTEM USING THE SAME - Provided is a photoelectric conversion apparatus including: a pixel array having pixels arranged in matrix; a pixel output line provided according to each column of the pixel array and transmitting a pixel signal output from a pixel of each column of the pixel array; a column signal processing unit provided according to each column of the pixel array and into which the pixel signal is input from the pixel output line, in which the column signal processing unit has a plurality of horizontal adding up or averaging units configured to add up or average the plurality of pixel signals based on the pixels of different columns of the pixel array; and a plurality of adding up or averaging modes with different numbers of columns subjected to adding up or averaging can be selected by selectively using one or a plurality of the plurality of horizontal adding up or averaging units. | 08-13-2015 |
20150287755 | MEMBER FOR SOLID-STATE IMAGE PICKUP DEVICE AND METHOD FOR MANUFACTURING SOLID-STATE IMAGE PICKUP DEVICE - A member for a solid-state image pickup device having a bonding plane with no gaps and a method for manufacturing the same are provided. The manufacturing method includes the steps of providing a first substrate provided with a photoelectric converter on its primary face and a first wiring structure, providing a second substrate provided with a part of a peripheral circuit on its primary face and a second wiring structure, and performing bonding so that the first substrate, the first wiring structure, the second wiring structure, and the second substrate are disposed in this order. In addition, at least one of an upper face of the first wiring structure and an upper face of the second wiring structure has a concave portion, and a conductive material forms a bottom face of the concave portion. | 10-08-2015 |
20150296163 | IMAGE CAPTURING APPARATUS AND IMAGE CAPTURING SYSTEM - An image capturing apparatus includes: plural pixels arranged in matrix, each outputting a signal from a photoelectric conversion element; and plural readout circuits each provided for a corresponding column of the pixels, signals from the pixels being input to the readout circuits. The readout circuit includes an amplifier unit configured to amplify the signal from the pixel, and have a variable gain, and a hold capacitance connected to an output terminal of the amplifier unit via a sampling switch, and having a variable capacitance value. When the variable gain of the amplifier unit is set to be a first gain, the variable capacitance value of the hold capacitance is set to be a first capacitance value. When the variable gain is set to be a second gain larger than the first gain, the variable capacitance value is set to be a second capacitance value smaller than the first capacitance value. | 10-15-2015 |