A photoelectric conversion apparatus included pixel circuits, signal lines, current sources, a switching circuit configured to switch a connection state among the plurality of signal lines and the plurality of current sources, and a control circuit configured to control the connection state of the switching circuit. The switching circuit can implement a first connection state in which a first signal line and a second signal line are insulated from each other, a first current source is electrically connected to the first signal line, and a second current source is electrically connected to the second signal line, and a second connection state in which at least the first current source is electrically connected to at least the second signal line. The control circuit selects the first and second connection states in first and second operation modes, respectively.

A photoelectric conversion apparatus included pixel circuits, signal lines, current sources, a switching circuit configured to switch a connection state among the plurality of signal lines and the plurality of current sources, and a control circuit configured to control the connection state of the switching circuit. The switching circuit can implement a first connection state in which a first signal line and a second signal line are insulated from each other, a first current source is electrically connected to the first signal line, and a second current source is electrically connected to the second signal line, and a second connection state in which at least the first current source is electrically connected to at least the second signal line. The control circuit selects the first and second connection states in first and second operation modes, respectively.

The present disclosure relates to a signal processing apparatus and method, an imaging element, and an electronic apparatus capable of suppressing deterioration of subjective image quality. Driving of a shift register controlling transfer of pixel data of digital data obtained by A/D conversion is stopped in a part or the entirety of a period in which the A/D conversion is performed on a pixel output of an analog signal. The present disclosure can be applied to, for example, a signal processing apparatus, an imaging element, an imaging device, an image processing apparatus, an electronic apparatus, a signal processing method, a program, or the like.

An image sensor includes: unit pixels arranged in a two-dimensional matrix form, each unit pixel having photoelectric converters for converting received light into imaging signals; and filters having different transmission spectra and disposed on light receiving surfaces of the photoelectric converters. The image sensor is configured to: switch between signal processing units with respect to transfer destination of the imaging signals transferred from second transfer lines to a switching unit, based on types of the filters; and output the imaging signals from a single row of the unit pixels to the sample-and-hold units, in a predetermined number of times during one horizontal scanning period by dividing the unit pixels into pixel units each time the imaging signals are output so as to output the imaging signals from the photoelectric converters having the light receiving surfaces on which the filters of different types are disposed in each pixel unit.

Provided is an imaging apparatus that includes a pixel array portion, a plurality of unit pixels being arranged in the pixel array portion and a driving unit controls an operation of the unit pixel, in which the unit pixel includes a photoelectric converter, a charge retention unit configured to retain a charge, a charge-voltage converter converts the charge into a voltage, a first transmitting unit transmits the charge from the photoelectric converter to the charge retention unit, a second transmitting unit transmits the charge from the photoelectric converter to the charge-voltage converter, and a third transmitting unit transmits the charge from the charge retention unit to the charge-voltage converter.

Provided is a signal readout circuit including: a first capacitor that holds a first electric charge; a second capacitor that holds a second electric charge; an amplifier section including an amplifier having first and second input terminals and first and second output terminals, outputting a first potential input to the first input terminal to the first output terminal with a gain of 1 and outputting a second potential input to the second input terminal to the second output terminal with a gain of 1; and a switch circuit that switches on/off state of a connection of a terminal of the first or second capacitor with at least one of the first and second input terminals and the first and second output terminals of the amplifier, wherein a difference between the first electric charge and the second electric charge is an amount indicating a voltage value of a predetermined voltage signal.

A photoelectric conversion apparatus comprising: pixels; processors; and a controller. Each of the processors comprise a first column circuit and a second column circuit, each of which perform A/D conversion of converting, into a digital signal, one pixel signal output from the pixel arranged in a corresponding column of the plurality of columns. The controller comprises a generator configured to generate a first signal used in the A/D conversion, and a second signal different from the first signal and used in the A/D conversion. The apparatus further comprises a selector configured to receive the first signal and the second signal, and select and supply one of the first signal and the second signal to the second column circuit in a period in which the first signal is supplied to the first column circuit.

A photoelectric conversion apparatus comprising: pixels; processors; and a controller. Each of the processors comprise a first column circuit and a second column circuit, each of which perform A/D conversion of converting, into a digital signal, one pixel signal output from the pixel arranged in a corresponding column of the plurality of columns. The controller comprises a generator configured to generate a first signal used in the A/D conversion, and a second signal different from the first signal and used in the A/D conversion. The apparatus further comprises a selector configured to receive the first signal and the second signal, and select and supply one of the first signal and the second signal to the second column circuit in a period in which the first signal is supplied to the first column circuit.

An imaging element having a layered structure including a first chip having a pixel portion in which pixels for photoelectrically converting an optical image of an object and generating a pixel signal are arranged two-dimensionally and a second chip in which a drive means of the pixel portion is arranged, and having a first output path to output the pixel signals of at least a first pixel group in the pixel portion and a second output path to output the pixel signals of a second pixel group, comprises the a conversion means for converting the pixel signals of the first and second output paths into digital signals and a control information generation means for generating control information of a photographing operation of the object by using the digital signal converted by the conversion means, wherein at least a part of the conversion means is arranged in the first chip.

An image sensing device includes a first test block, a second test block, and a readout block. The first test block includes a plurality of first image sensing pixels structured to convert incident light carrying an image into a first pixel signal indicative of the image, and a first heating element structured to transmit heat to the first image sensing pixels. The second test block includes a plurality of second image sensing pixels that each include a light blocking structure to be shielded from receiving incident light to generate a second pixel signal without being directly exposed to the incident light, and a second heating element structured to transmit heat to the second image sensing pixels. The readout block processes the first pixel signal output from the first test block and the second pixel signal output from the second test block.