Patent application number | Description | Published |
20080203450 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGE PICKUP SYSTEM USING PHOTOELECTRIC CONVERSION APPARATUS - A photoelectric conversion apparatus includes: a first interlayer insulation film disposed on a semiconductor substrate; a first plug disposed in a first hole in the first interlayer insulation film, and serving to electrically connect between a plurality of active regions disposed in the semiconductor substrate, between gate electrodes of a plurality of MOS transistors, or between the active region and the gate electrode of the MOS transistor, not through the wiring of the wiring layer; and a second plug disposed in a second hole in the first interlayer insulation film, the second plug being electrically connected to the active region, wherein a wiring arranged over the second plug and closest to the second plug is electrically connected to the second plug, and the wiring electrically connected to the second plug forms a portion of dual damascene structure. By such a structure, incidence efficiency of light onto a photoelectric conversion element can be improved. | 08-28-2008 |
20080203509 | PHOTOELECTRIC CONVERSION DEVISE AND METHOD OF MANUFACTURING THE SAME - A photoelectric conversion device comprises a photoelectric conversion element disposed at a semiconductor substrate, and a multilayered wiring structure including a plurality of wiring layers disposed over the semiconductor substrate in such a manner to sandwich an interlayer insulation film therebetween. A diffusion suppressing film is disposed at least on the uppermost one of the wiring layers, the diffusion suppressing film serving to suppress diffusion of material forming the uppermost wiring layer; the diffusion suppressing film covers regions of the uppermost wiring layer and the interlayer insulation film corresponding to the photoelectric conversion element; and a lens is disposed with respect to a region of the diffusion suppressing film corresponding to the photoelectric conversion element. | 08-28-2008 |
20100173444 | MANUFACTURING METHOD OF A PHOTOELECTRIC CONVERSION DEVICE - A manufacturing method of a photoelectric conversion device comprises a first step of forming a gate electrode, a second step of forming a semiconductor region of a first conductivity type, a third step of forming an insulation film, and a fourth step of forming a protection region of a second conductivity type, which is the opposite conductivity type to the first conductivity type, by implanting ions in the semiconductor region using the gate electrode of the transfer transistor and a portion covering a side face of the gate electrode of the transfer transistor of the insulation film as a mask in a state in which the semiconductor substrate and the gate electrode of the transfer transistor are covered by the insulation film, and causing a portion of the semiconductor region of the first conductivity type from which the protection region is removed to be the charge accumulation region. | 07-08-2010 |
20100230728 | MANUFACTURING METHOD OF PHOTOELECTRIC CONVERSION DEVICE - A noise generated by a constitution of widening an incident aperture of light of a photoelectric conversion element is reduced. In a manufacturing method of a photoelectric conversion device, first electroconductor arranged in a first hole arranged in the first interlayer insulation layer electrically connects a first semiconductor region to a gate electrode of an amplifying MOS transistor not through wirings included in a wiring layer. Moreover, a second electroconductor electrically connects a second semiconductor region different from the first semiconductor region to a wiring. In a constitution of that second electroconductor, a third electroconductor arranged in a second hole arranged in the first interlayer insulation layer and a fourth electroconductor arranged in a third hole arranged in the second interlayer insulation layer are stacked and electrically connected to each other. And the step of forming the first electroconductor, and the step of forming the third electroconductor are performed simultaneously. | 09-16-2010 |
20100330723 | METHOD OF MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - In a method of manufacturing a photoelectric conversion device having a pixel region and a peripheral circuit region, a semiconductor compound layer is formed by causing a surface of a diffusion layer or gate electrode of a MOS transistor in the peripheral circuit region to react with a high melting point metal, then an insulating layer is formed in the pixel region and the peripheral circuit region after the step of forming a semiconductor compound layer. A contact hole is formed in the insulating layer to expose a diffusion layer in the pixel region, and a contact hole is formed in the insulating layer to expose the semiconductor compound layer formed in the peripheral circuit region. These holes are formed at different timings. Prior to forming the hole which is formed later, a contact plug is formed in the contact hole which is formed earlier. | 12-30-2010 |
20110003426 | PHOTOELECTRIC CONVERSION DEVICE METHOD FOR PRODUCING PHOTOELECTRIC CONVERSION DEVICE AND IMAGE PICKUP SYSTEM - A photoelectric conversion device includes a photoelectric conversion region having a plurality of photoelectric conversion elements and a first MOS transistor configured to read a signal in response to an electric charge of each photoelectric conversion element; and a peripheral circuit region having a second MOS transistor configured to drive the first MOS transistor and/or amplify the signal read from the photoelectric conversion region, the photoelectric conversion region and the peripheral circuit region being located on the same semiconductor substrate, wherein an impurity concentration in a drain of the first MOS transistor is lower than an impurity concentration in a drain of the second MOS transistor. | 01-06-2011 |
20110027934 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGE PICKUP SYSTEM USING PHOTOELECTRIC CONVERSION APPARATUS - A photoelectric conversion apparatus includes: a first interlayer insulation film disposed on a semiconductor substrate; a first plug disposed in a first hole in the first interlayer insulation film, and serving to electrically connect between a plurality of active regions disposed in the semiconductor substrate, between gate electrodes of a plurality of MOS transistors, or between the active region and the gate electrode of the MOS transistor, not through the wiring of the wiring layer; and a second plug disposed in a second hole in the first interlayer insulation film, the second plug being electrically connected to the active region, wherein a wiring arranged over the second plug and closest to the second plug is electrically connected to the second plug, and the wiring electrically connected to the second plug forms a portion of dual damascene structure. By such a structure, incidence efficiency of light onto a photoelectric conversion element can be improved. | 02-03-2011 |
20110049332 | PHOTOELECTRIC CONVERSION DEVICE, IMAGE SENSING SYSTEM, AND METHOD OF MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device having a pixel array region in which a plurality of pixels each including a photoelectric converter are arrayed, and a peripheral region arranged around the pixel array region, the device comprising a multilayer wiring structure which is arranged on a semiconductor substrate, and includes wiring layers in the peripheral region more than wiring layers in the pixel array region, and a plurality of interlayer lenses which is arranged on the multilayer wiring structure in the pixel array region, wherein the plurality of interlayer lenses each includes a first insulator, and a second insulator arranged to cover the first insulator, and having a refractive index higher than the first insulator, and wherein the first insulator in each of the plurality of interlayer lenses, and an uppermost interlayer insulating film in the peripheral region in the multilayer wiring structure are made of an identical material. | 03-03-2011 |
20110157447 | PHOTOELECTRIC CONVERSION DEVICE METHOD FOR PRODUCING PHOTOELECTRIC CONVERSION DEVICE AND IMAGE PICKUP SYSTEM - A photoelectric conversion device includes a photoelectric conversion region having a plurality of photoelectric conversion elements and a first MOS transistor configured to read a signal in response to an electric charge of each photoelectric conversion element; and a peripheral circuit region having a second MOS transistor configured to drive the first MOS transistor and/or amplify the signal read from the photoelectric conversion region, the photoelectric conversion region and the peripheral circuit region being located on the same semiconductor substrate, wherein an impurity concentration in a drain of the first MOS transistor is lower than an impurity concentration in a drain of the second MOS transistor. | 06-30-2011 |
20110171770 | MANUFACTURING METHOD OF A PHOTOELECTRIC CONVERSION DEVICE - A manufacturing method of a photoelectric conversion device included a first step of forming a gate electrode, a second step of forming a semiconductor region of a first conductivity type, a third step of forming an insulation film, and a fourth step of forming a protection region of a second conductivity type, which is the opposite conductivity type to the first conductivity type, by implanting ions in the semiconductor region using the gate electrode of the transfer transistor and a portion covering a side face of the gate electrode of the transfer transistor of the insulation film as a mask in a state in which the semiconductor substrate and the gate electrode of the transfer transistor are covered by the insulation film, and causing a portion of the semiconductor region of the first conductivity type from which the protection region is removed to be the charge accumulation region. | 07-14-2011 |
20110233620 | PHOTOELECTRIC CONVERSION APPARATUS, IMAGE PICKUP SYSTEM, AND MANUFACTURING METHOD THEREFOR - A photoelectric conversion apparatus includes a semiconductor substrate on which a photoelectric conversion element and a transistor are arranged and a plurality of wiring layers including a first wiring layer and a second wiring layer above the first wiring layer, in which a connection between the semiconductor substrate and any of the plurality of wiring layers, between a gate electrode of the transistor and any of the plurality of wiring layers, or between the first wiring layer and the second wiring layer, has a stacked contact structure. | 09-29-2011 |
20110244627 | METHOD OF MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - In a method of manufacturing a photoelectric conversion device having a pixel region and a peripheral circuit region, a semiconductor compound layer is formed by causing a surface of a diffusion layer or gate electrode of a MOS transistor in the peripheral circuit region to react with a high melting point metal, then an insulating layer is formed in the pixel region and the peripheral circuit region after the step of forming a semiconductor compound layer. A contact hole is formed in the insulating layer to expose a diffusion layer in the pixel region, and a contact hole is formed in the insulating layer to expose the semiconductor compound layer formed in the peripheral circuit region. These holes are formed at different timings. Prior to forming the hole which is formed later, a contact plug is formed in the contact hole which is formed earlier. | 10-06-2011 |
20120002070 | SOLID-STATE IMAGE SENSOR AND CAMERA - A solid-state image sensor having a pixel array area where a plurality of pixels are arranged, and a peripheral circuit area, each pixel including a photoelectric converter, and a transfer gate electrode which forms a channel for transferring charges generated by the photoelectric converter to a floating diffusion portion, comprises a first insulating film arranged to cover an upper surface of the photoelectric converter, at least part of an upper surface of the transfer gate electrode, and a side surface of the transfer gate electrode, a second insulating film arranged on a gate electrode of a MOS transistor arranged in the peripheral circuit area, and an interlayer insulating film arranged in contact with the first insulating film and the second insulating film. | 01-05-2012 |
20120181582 | MANUFACTURING METHOD OF A PHOTOELECTRIC CONVERSION DEVICE - A manufacturing method of a photoelectric conversion device comprises a first step of forming a gate electrode, a second step of forming a semiconductor region of a first conductivity type, a third step of forming an insulation film, and a fourth step of forming a protection region of a second conductivity type, which is the opposite conductivity type to the first conductivity type, by implanting ions in the semiconductor region using the gate electrode of the transfer transistor and a portion covering a side face of the gate electrode of the transfer transistor of the insulation film as a mask in a state in which the semiconductor substrate and the gate electrode of the transfer transistor are covered by the insulation film, and causing a portion of the semiconductor region of the first conductivity type from which the protection region is removed to be the charge accumulation region. | 07-19-2012 |
20130200485 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a semiconductor device, the method comprising, forming an opening in an insulating layer, which is formed on a semiconductor substrate, using a photoresist pattern formed on the insulating layer as a mask, forming a first element isolation portion in the semiconductor substrate by implanting an ion into the semiconductor substrate using the photoresist pattern as a mask, forming a second element isolation portion, in the semiconductor substrate, whose outer edge is outside an outer edge of the opening, by implanting an ion into the semiconductor substrate through the opening, and forming a third element isolation portion, which is inside the outer edge of the second element isolation portion, by embedding an insulating member in the opening and removing the insulating layer. | 08-08-2013 |
20130203207 | PHOTOELECTRIC CONVERSION DEVICE AND METHOD OF MANUFACTURING THE SAME - A photoelectric conversion device comprises a photoelectric conversion element disposed at a semiconductor substrate, and a multilayered wiring structure including a plurality of wiring layers disposed over the semiconductor substrate in such a manner to sandwich an interlayer insulation film therebetween. A diffusion suppressing film is disposed at least on the uppermost one of the wiring layers, the diffusion suppressing film serving to suppress diffusion of material forming the uppermost wiring layer; the diffusion suppressing film covers regions of the uppermost wiring layer and the interlayer insulation film corresponding to the photoelectric conversion element; and a lens is disposed with respect to a region of the diffusion suppressing film corresponding to the photoelectric conversion element. | 08-08-2013 |
20140044390 | IMAGING DEVICE, IMAGING SYSTEM, AND METHOD FOR MANUFACTURING IMAGING DEVICE - An exemplary embodiment according to the present invention is an imaging device including a substrate in which a plurality of light receiving portions is arranged, an insulator configured to be arranged on the substrate, a plurality of first members configured to be arranged on the substrate so that each of projections of the plurality of first members on the substrate overlaps at least in part with any of the plurality of light receiving portions, and each of the plurality of first members sides is surrounded by the insulator, a second member configured to be arranged on the insulator and the plurality of first members, and a light shielding portion configured to be arranged in the second member. | 02-13-2014 |
20140045294 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A substrate includes a first region having photoelectric conversion portions and a second region having an element included in a signal processing circuit. An insulator including first and second parts respectively arranged on the first and second regions is formed on the substrate. Openings are formed in the insulator and respectively superposed on the photoelectric conversion portions. A first member is formed in the openings and on the second part of the insulator after forming the openings. At least a portion of the first member arranged on the second region is removed. The first member is planarized after removing at least the portion of the first member. A second insulator is formed on the first and second regions after planarizing the first member. A through-hole is formed in a part of the second insulator. No planarization with grinding is performed after forming the second insulator and before forming the through-hole. | 02-13-2014 |