Patent application number | Description | Published |
20080204584 | IMAGING APPARATUS, DRIVING METHOD THEREOF, AND IMAGING SYSTEM - In an imaging apparatus according to the present invention, the driving unit drives each of the pixels in the non-readout region in the first mode such that the setting unit sets the input unit to a third electric potential with the transfer unit being ready to transfer the electric charge to reset the photoelectric conversion unit in a first period and that the setting unit sets the input unit to a fourth electric potential for the pixel to be deselected in a second period later than the first period. | 08-28-2008 |
20080211950 | IMAGING APPARATUS AND IMAGING SYSTEM - An imaging apparatus includes a pixel unit array and a driving unit. Each pixel unit includes a plurality of photoelectric conversion units, a charge-voltage converter common to the plurality of photoelectric conversion units, a plurality of transfer units which transfer electric charges generated by the plurality of photoelectric conversion units to the charge-voltage converter, an output unit which outputs a signal based on the electric charges to a signal line, and a setting unit which sets the electric potential of the charge-voltage converter. Each pixel unit is selected or deselected in accordance with the electric potential set in the charge-voltage converter. The driving unit drives the pixel unit array so that the output unit continuously outputs, to the signal line, the signal based on the electric charges generated by the plurality of photoelectric conversion units in the selected pixel unit without performing an operation of deselecting the selected pixel unit. | 09-04-2008 |
20090230290 | IMAGE SENSOR, IMAGE-SENSING APPARATUS USING THE IMAGE SENSOR, AND IMAGE-SENSING SYSTEM - An image sensor has a plurality of pixels, each pixel including a photoelectric converter and a pixel circuit for processing signals from the photoelectric converter and outputting processed signals and a scanning circuit, disposed between the photoelectric converters, included in each of at least two adjacent pixels among a plurality of pixels aligned in a single direction. An edge pixel accommodates, in order from an edge of the image sensor toward an interior, a predetermined empty region, a photoelectric converter and a pixel circuit. There is at least one position at which two adjacent pixels, the first of the two pixels accommodating, in order, a pixel circuit, a photoelectric converter and predetermined empty region, the second accommodating, in order, a predetermined empty region, a photoelectric converter and a pixel circuit. The scanning circuit is disposed in the predetermined empty region between the two adjacent pixels. | 09-17-2009 |
20090230312 | IMAGE SENSOR, IMAGE-SENSING APPARATUS USING THE IMAGE SENSOR, AND IMAGE-SENSING SYSTEM - An image sensor has a plurality of pixels, each pixel including a photoelectric converter and a pixel circuit for processing signals from the photoelectric converter and outputting processed signals and a scanning circuit, disposed between the photoelectric converters, included in each of at least two adjacent pixels among a plurality of pixels aligned in a single direction. An edge pixel accommodates, in order from an edge of the image sensor toward an interior, a predetermined empty region, a photoelectric converter and a pixel circuit. There is at least one position at which two adjacent pixels, the first of the two pixels accommodating, in order, a pixel circuit, a photoelectric converter and predetermined empty region, the second accommodating, in order, a predetermined empty region, a photoelectric converter and a pixel circuit. The scanning circuit is disposed in the predetermined empty region between the two adjacent pixels. | 09-17-2009 |
20090256937 | SOLID-STATE IMAGE PICKUP DEVICE - There is provided a solid-state image pickup device comprising a plurality of pixel units, each of which includes a photoelectric conversion element, a signal line which reads out signals from said plurality of pixel units, a first capacitor element which has a first electrode connected to the signal line, an amplifier which has an input terminal connected to a second electrode of the first capacitor element, and a second capacitor element connected between the input terminal and an output terminal of the amplifier, wherein the first capacitor element has a capacitance value which is smaller at the time of execution of an adding mode than at the time of execution of a non-adding mode, and thereby making an amplification factor of the amplifier smaller at the time of execution of the adding mode than at the time of execution of the non-adding mode. | 10-15-2009 |
20090303369 | SOLID-STATE IMAGE PICKUP DEVICE AND CAMERA - The number of necessary sampling and holding capacitors is reduced. A solid-state image pickup device has signal lines to which photoreceiving elements are connected, a clamp circuit that has clamp capacitors in which one terminal is connected to the signal lines and the other terminals are short-circuited, has a switch for applying a reference voltage to the other terminals by the clamping operation, and adds signals from the plurality of photoreceiving elements provided in the row direction along with the clamping operation, adding means (switches and capacitors) which is connected to the other terminals of the clamp capacitors, adds addition signals of the respective photoreceiving element rows outputted from the other terminals and adds the signals of the plurality of photoreceiving elements provided in the column direction; an amplifier connected to the adding means; a switch for resetting the input side of the amplifier; and circuit means (switches and capacitors) for outputting an offset of the amplifier and the signal from the amplifier. | 12-10-2009 |
20100066884 | Imaging method that continuously outputs a signal based on electric charges generated by a selected pixel unit without performing an operation of deselecting the selected pixel unit - An imaging apparatus includes a pixel unit array and a driving unit. Each pixel unit includes a plurality of photoelectric conversion units, a charge-voltage converter common to the plurality of photoelectric conversion units, a plurality of transfer units which transfer electric charges generated by the plurality of photoelectric conversion units to the charge-voltage converter, an output unit which outputs a signal based on the electric charges to a signal line, and a setting unit which sets the electric potential of the charge-voltage converter. Each pixel unit is selected or deselected in accordance with the electric potential set in the charge-voltage converter. The driving unit drives the pixel unit array so that the output unit continuously outputs, to the signal line, the signal based on the electric charges generated by the plurality of photoelectric conversion units in the selected pixel unit without performing an operation of deselecting the selected pixel unit. | 03-18-2010 |
20110013042 | SOLID-STATE IMAGE SENSOR AND IMAGING SYSTEM - Each pixel includes a photo-electric converter, transfer switch, charge-voltage conversion node, amplifier, and control switch. A solid-state image sensor includes a voltage controller which controls the voltage of the charge-voltage conversion node of each pixel via the control switch of the pixel. A voltage set at the charge-voltage conversion node by the voltage controller via the control switch includes a first voltage (VD | 01-20-2011 |
20110036986 | IMAGE SENSOR, IMAGE-SENSING APPARATUS USING THE IMAGE SENSOR, AND IMAGE-SENSING SYSTEM - An image sensor has a plurality of pixels, each pixel including a photoelectric converter and a pixel circuit for processing signals from the photoelectric converter and outputting processed signals and a scanning circuit, disposed between the photoelectric converters, included in each of at least two adjacent pixels among a plurality of pixels aligned in a single direction. An edge pixel accommodates, in order from an edge of the image sensor toward an interior, a predetermined empty region, a photoelectric converter and a pixel circuit. There is at least one position at which two adjacent pixels, the first of the two pixels accommodating, in order, a pixel circuit, a photoelectric converter and predetermined empty region, the second accommodating, in order, a predetermined empty region, a photoelectric converter and a pixel circuit. The scanning circuit is disposed in the predetermined empty region between the two adjacent pixels. | 02-17-2011 |