Patent application number | Description | Published |
20100007779 | SOLID-STATE IMAGING DEVICE, METHOD FOR MANUFACTURING THE SAME AND IMAGING APPARATUS - A solid-state imaging device includes a semiconductor substrate having a pixel region including a photoelectric conversion portion, a wiring portion including a conductor line and disposed on the semiconductor substrate with an insulating film therebetween, a metal pad connected to the conductor line, a pad-coating insulating film coating the metal pad, and a waveguide material layer. The wiring portion and the pad-coating insulating film each have an opening therein over the photoelectric conversion portion, and the openings continue from each other to define a waveguide opening having an open side and a closed side. The waveguide material layer is disposed in the waveguide opening and on the pad-coating insulating film with a passivation layer therebetween. The pad-coating insulating film has a thickness of 50 to 250 nm and a face defining the opening. The face is slanted so as to diverge toward the open side of the opening. | 01-14-2010 |
20100118170 | SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING THE SAME, AND IMAGING APPARATUS - A solid-state imaging device includes a photoelectric conversion section which is disposed on a semiconductor substrate and which photoelectrically converts incident light into signal charges, a pixel transistor section which is disposed on the semiconductor substrate and which converts signal charges read out from the photoelectric conversion section into a voltage, and an element isolation region which is disposed on the semiconductor substrate and which isolates the photoelectric conversion section from an active region in which the pixel transistor section is disposed. The pixel transistor section includes a plurality of transistors. Among the plurality of transistors, in at least one transistor in which the gate width direction of its gate electrode is oriented toward the photoelectric conversion section, at least a photoelectric conversion section side portion of the gate electrode is disposed within and on the active region with a gate insulating film therebetween. | 05-13-2010 |
20100148274 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - A semiconductor device including an N-channel insulated gate field effect transistor and a P-channel insulated gate field effect transistor, the device having: a first insulating layer and a second insulating layer; and gate electrode contact plugs. Each of the gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor is buried in a gate electrode formation opening provided in the first insulating layer. | 06-17-2010 |
20100230583 | SOLID STATE IMAGE PICKUP DEVICE, METHOD OF MANUFACTURING THE SAME, IMAGE PICKUP DEVICE, AND ELECTRONIC DEVICE - A solid state image pickup device includes a pixel section defined by unit pixels arrayed in line and row directions of a semiconductor substrate. Each of the unit pixels includes a photoelectric transducer that is formed on the semiconductor substrate and converts incident light into a signal charge, a waveguide that is formed above the photoelectric transducer and guides the incident light to the photoelectric transducer, and a microlens that is formed above the waveguide and guides the incident light to an end of light incident side of the waveguide. The waveguide has a columnar body with a constant cross section from the end of light incident side to an end of light exit side, and is arranged such that a center of rays of the incident light incident from the microlens on the end of light incident side of the waveguide is aligned with a central axis of the waveguide. | 09-16-2010 |
20100289521 | TERMINATION RESISTANCE ADJUSTING CIRCUIT - A termination resistance adjusting circuit includes a first termination resistor circuit, a second termination resistor circuit connected in parallel with the first termination resistor circuit, a resistor circuit for adjustment that adjusts resistances of the first and second termination resistor circuits, a first amplifier circuit that receives a first voltage determined by the resistor circuit for adjustment and a second voltage determined by a reference resistor connected externally, equalizes the first and second voltages, and outputs a resistance adjusting signal to the first and second termination resistor circuits, first and second terminals connected to the first and second termination resistor circuits respectively, and a second amplifier circuit that receives a voltage based on a common voltage of a differential signal supplied to the first and second terminals, and the first or second voltage, and equalizes the voltage based on the common voltage and the first or second voltage. | 11-18-2010 |
20120113290 | Solid-state image sensing device and camera system - A solid-state image sensing device includes: a pixel part in which pixels are arranged in a matrix; and a pixel signal readout part including an AD conversion part that analog-digital (AD)-converts a pixel signal read out from the pixel part. Each of the adjacent pixels or one of the pixels of the pixel part is formed as divided pixels divided into regions with different photosensitivity or amounts of accumulated charge, photosensitivity or exposure time conditions are set for the divided pixels and the photosensitivity or exposure time conditions of the divided pixels provided to be opposed in diagonal directions are set to the same conditions, the pixel signal readout part reads out divided pixel signals of the respective divided pixels of the pixel, and the AD conversion part obtains a pixel signal of one pixel by AD-converting the respective read out divided pixel signals and adding the signals. | 05-10-2012 |
20130032694 | IMAGE SENSOR, IMAGING APPARATUS, AND IMAGING METHOD - There is provided an image sensor including a normal pixel group composed of a plurality of normal pixels, each of the normal pixels having a photoelectric conversion device for photoelectrically converting an incident light, and a detection pixel configured to detect a light incident from a neighboring pixel by the photoelectric conversion device within an effective pixel area of the normal pixel group. | 02-07-2013 |
20130083213 | IMAGE PROCESSING APPARATUS, CORRECTING METHOD, AND IMAGING APPARATUS - An image processing apparatus includes a calculation unit configured to calculate a parameter indicating a degree of change of a difference value between signal values of pixel signals of different pixels in an OPB region of an imaging element, and an estimation unit configured to estimate a reference value of a black level which is used for correcting a black level of a signal value of a pixel signal in an effective pixel region of the imaging element, by using a model of the parameter that is calculated by the calculation unit. | 04-04-2013 |
20130083214 | IMAGING DEVICE, ELECTRONIC APPARATUS, AND MANUFACTURING METHOD - An imaging device includes a silicon substrate having a photoelectric conversion element therein, and a wiring layer on a front-surface side of the silicon substrate. The photoelectric conversion element performs photoelectric conversion on light which enters the photoelectric conversion element from the front-surface side through the wiring layer, and performs photoelectric conversion on light which enters the photoelectric conversion element from a back-surface side of the silicon substrate without going through the wiring layer. | 04-04-2013 |
20130135504 | SIGNAL PROCESSING CIRCUIT OF SOLID-STATE IMAGING ELEMENT, SIGNAL PROCESSING METHOD OF SOLID-STATE IMAGING ELEMENT, AND ELECTRONIC APPARATUS - A signal processing circuit of a solid-state imaging element which processes a signal of the solid-state imaging element having a first pixel group and a second pixel group in which a charge accumulation time or photosensitivity is different by α times from that of the first pixel group, includes a calculation unit that multiplies a signal value of a pixel of interest in the first pixel group by α times, a weighting unit that performs weighting with respect to the signal value of the pixel of interest based on a signal value of a pixel associated with the pixel of interest, and a synthesis unit that synthesizes the signal value which has been multiplied by α times in the calculation unit and on which the weighting has been performed in the weighting unit and a signal value of a pixel of the second pixel group. | 05-30-2013 |
20130176283 | ELECTRONIC APPARATUS, AND METHOD OF OPERATING ELECTRONIC APPARATUS - An electronic apparatus includes: a display unit; an identification unit that optically identifies a kind of an operator positioned on a display face of the display unit; and a control unit that controls content of an operation for the display unit according to the kind of the operator identified by the identification unit. | 07-11-2013 |
20130342518 | INFORMATION PROCESSING APPARATUS AND METHOD, AND PHOTOELECTRIC CONVERSION APPARATUS - An information processing apparatus includes: multiple optical propagation paths configured to propagate light; a photoelectric conversion element configured to perform photoelectric conversion on light propagated through each of the multiple optical propagation paths at mutually different partial areas in a photoelectric conversion area; and an estimating unit configured to estimate illuminance or color temperature to be obtained at the photoelectric conversion element, using an electric signal corresponding to light propagated through each of the optical propagation paths. | 12-26-2013 |
20140051204 | SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING THE SAME, AND IMAGING APPARATUS - A solid-state imaging device includes a photoelectric conversion section which is disposed on a semiconductor substrate and which photoelectrically converts incident light into signal charges, a pixel transistor section which is disposed on the semiconductor substrate and which converts signal charges read out from the photoelectric conversion section into a voltage, and an element isolation region which is disposed on the semiconductor substrate and which isolates the photoelectric conversion section from an active region in which the pixel transistor section is disposed. The pixel transistor section includes a plurality of transistors. Among the plurality of transistors, in at least one transistor in which the gate width direction of its gate electrode is oriented toward the photoelectric conversion section, at least a photoelectric conversion section side portion of the gate electrode is disposed within and on the active region with a gate insulating film therebetween. | 02-20-2014 |
20140146206 | IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - The present technique relates to an imaging device that can reduce color mixing that occurs between an on-chip lens and a photodiode, and a method of manufacturing the imaging device. | 05-29-2014 |
20140327801 | IMAGE SENSOR, IMAGING APPARATUS AND LIVE BODY IMAGING APPARATUS - There is provided an image sensor including a pixel unit, the pixel unit including a photodiode, a first color filter and a second color filter each disposed in a different position on a plane above the photodiode, and a first on-chip lens disposed over the first color filter and a second on-chip lens disposed over the second color filter. | 11-06-2014 |
20150049226 | SOLID-STATE IMAGE SENSING DEVICE AND CAMERA SYSTEM WITH DIVIDED PIXELS - A solid-state image sensing device includes: a pixel part in which pixels are arranged in a matrix; and a pixel signal readout part including an AD conversion part that analog-digital (AD)-converts a pixel signal read out from the pixel part. Each of the adjacent pixels or one of the pixels of the pixel part is formed as divided pixels divided into regions with different photosensitivity or amounts of accumulated charge, photosensitivity or exposure time conditions are set for the divided pixels and the photosensitivity or exposure time conditions of the divided pixels provided to be opposed in diagonal directions are set to the same conditions, the pixel signal readout part reads out divided pixel signals of the respective divided pixels of the pixel, and the AD conversion part obtains a pixel signal of one pixel by AD-converting the respective read out divided pixel signals and adding the signals. | 02-19-2015 |