Class / Patent application number | Description | Number of patent applications / Date published |
257460000 | With backside illumination (e.g., with a thinned central area or non-absorbing substrate) | 26 |
20080217723 | BACKSIDE ILLUMINATED CMOS IMAGE SENSOR WITH PINNED PHOTODIODE - A backside illuminated CMOS image sensor having an silicon layer with a front side and a backside, the silicon layer liberates charge when illuminated from the backside with light, an active pixel circuitry located on the front side of the semiconductor layer, a pinned photodiode adjacent to the active pixel circuitry on the front side of the semiconductor layer and configured to collect charge liberated in the semiconductor layer, and an implant located in the semiconductor layer, underneath the active pixel circuitry, for allowing charge liberated in the semiconductor layer to drift from the backside of the semiconductor layer to the pinned photodiode on the front side of the semiconductor layer. | 09-11-2008 |
20080217724 | BACKSIDE ILLUMINATED SOLID-STATE IMAGING DEVICE - A backside illuminated solid-state imaging device is provided and includes: a p-type semiconductor substrate; an imaging region that receives a subject light through a back side of the p-type semiconductor substrate to accumulate a signal corresponding to an amount of the received light; a signal reading element disposed in a front side of the p-type semiconductor substrate, the signal reading element reading out the signal from the imaging region; and an n-well region disposed in the front side of the p-type semiconductor substrate and in a periphery of the imaging region, the n-well region being biased to a positive voltage. | 09-11-2008 |
20080290441 | PHOTODETECTOR FOR BACKSIDE-ILLUMINATED SENSOR - A backside-illuminated sensor including a semiconductor substrate. The semiconductor substrate has a front surface and a back surface. A plurality of pixels are formed on the front surface of the semiconductor substrate. At least one pixel includes a photogate structure. The photogate structure has a gate that includes a reflective layer. | 11-27-2008 |
20080296720 | BACKSIDE-ILLUMINATED IMAGING DEVICE AND MANUFACTURING METHOD OF THE SAME - A backside-illuminated imaging device, which performs imaging by illuminating light from a back side of a semiconductor substrate to generate electric charges in the semiconductor substrate based on the light and reading out the electric charges from a front side of the semiconductor substrate, is provided and includes: a back-side layer including an back-side element on the back side of the semiconductor substrate; a front-side layer including an front-side element on the front side of the semiconductor substrate; a support substrate above the front-side layer; a spacer, one end of which comes in contact with the front-side layer and the other end of which comes in contact with the support substrate, to form a space having a uniform distance between the semiconductor substrate and the support substrate; and an adhesive filled in at least a part of the space between the surface-side element formation layer and the support substrate. | 12-04-2008 |
20090140365 | Image sensor with back-side illuminated photoelectric converters - An image sensor includes a circuit substrate, a plurality of isolation regions, a plurality of photoelectric converters, and an insulation layer. The isolation regions are formed in a pixel region having the photoelectric converters formed therein with each photoelectric converter being electrically isolated by the isolation regions. The insulation layer is formed in a pad region with a substantially same depth as the isolation regions. The isolation region and the insulation layer are simultaneously formed for efficient fabrication of the image sensor. | 06-04-2009 |
20100096718 | BACKSIDE ILLUMINATED IMAGE SENSOR - A backside illuminated image sensor includes a substrate, a backside passivation layer disposed on backside of the substrate, and a transparent conductive layer disposed on the backside passivation layer. | 04-22-2010 |
20100102411 | PHOTODETECTOR FOR BACKSIDE-ILLUMINATED SENSOR - A backside-illuminated sensor including a semiconductor substrate. The semiconductor substrate has a front surface and a back surface. A plurality of pixels are formed on the front surface of the semiconductor substrate. At least one pixel includes a photogate structure. The photogate structure has a metal gate that includes a reflective layer. | 04-29-2010 |
20100155873 | Image Sensor and Method for Manufacturing the Same - A backside illumination (BSI) image sensor having a light receiving part at the wafer or die backside, and a manufacturing method thereof, are disclosed. The method includes polishing the light receiving part so that a super via protrudes, forming a first insulating layer to cover the protruding super via and the light receiving part, forming a photoresist pattern on the first insulating layer to expose a pad region, etching the first insulating layer to form spacers at sides of the protruding super via, repeatedly forming a second insulating layer covering the spacers, the super via and the light receiving part and etching the second insulating layer so that the spacers increase in width and cover an upper surface of the light receiving part, and forming a metal pad in the pad region to contact the super via. | 06-24-2010 |
20100244176 | Integrated circuit having wiring structure, solid image pickup element having the wiring structure, and imaging device having the solid image pickup element - (Problems) To provide an integrated circuit having the wiring structure including pads with a small wiring area and capable of highly integrating elements, a solid image pickup element having the wiring structure, and an imaging device having the solid image pickup element. | 09-30-2010 |
20110073982 | Inspection system using back side illuminated linear sensor - An improved inspection system using back-side illuminated linear sensing for propagating charge through a sensor is provided. Focusing optics may be used with a back side illuminated linear sensor to inspect specimens, the back side illuminated linear sensor operating to advance an accumulated charge from one side of each pixel to the other side. The design comprises controlling voltage profiles across pixel gates from one side to the other side in order to advance charge between to a charge accumulation region. Controlling voltage profiles comprises attaching a continuous polysilicon gate across each pixel within a back side illuminated linear sensor array. Polysilicon gates and voltages applied thereto enable efficient electron advancement using a controlled voltage profile. | 03-31-2011 |
20110140226 | SEMICONDUCTOR DEVICES AND METHODS FOR MANUFACTURING THE SAME - A semiconductor device includes a substrate and a first insulating layer. The first insulating layer includes a first lower layer and a first upper layer on the first lower layer. The first insulating layer has a first opening through the first lower layer and the first upper layer. A maximum width of the first opening at the first lower layer is different from a maximum width of the first opening at the first upper layer. | 06-16-2011 |
20110260280 | Back Side Defect Reduction For Back Side Illuminated Image Sensor - Provided is an image sensor device. The image sensor device includes a substrate having a front side and a back side. The image sensor also includes a radiation-detection device that is formed in the substrate. The radiation-detection device is operable to detect a radiation wave that enters the substrate through the back side. The image sensor further includes a recrystallized silicon layer. The recrystalized silicon layer is formed on the back side of the substrate. The recrystalized silicon layer has different photoluminescence intensity than the substrate. | 10-27-2011 |
20110284984 | IMAGE SENSOR AND FABRICATING METHOD THEREOF - The present invention provides an image sensor and a fabricating method thereof capable of approaching higher quantum efficiency and reducing cost. The method comprises: providing a substrate; forming a pixel region on a top surface of the substrate; forming an interlayer insulating layer and at least a metal line on the pixel region; forming an isolation carrier layer having a hole array therein on the interlayer insulating layer; grinding a lower surface of the substrate to reduce the thickness of the substrate; placing a plurality of conductors into the hole array to form a plurality of bumps on the isolation carrier layer. | 11-24-2011 |
20120205769 | BACK SIDE ILLUMINATED IMAGE SENSOR WITH REDUCED SIDEWALL-INDUCED LEAKAGE - Provided is an image sensor device. The image sensor device includes having a front side, a back side, and a sidewall connecting the front and back sides. The image sensor device includes a plurality of radiation-sensing regions disposed in the substrate. Each of the radiation-sensing regions is operable to sense radiation projected toward the radiation-sensing region through the back side. The image sensor device includes an interconnect structure that is coupled to the front side of the substrate. The interconnect structure includes a plurality of interconnect layers and extends beyond the sidewall of the substrate. The image sensor device includes a bonding pad that is spaced apart from the sidewall of the substrate. The bonding pad is electrically coupled to one of the interconnect layers of the interconnect structure. | 08-16-2012 |
20120256287 | BACK-ILLUMINATED SOLID-STATE IMAGE PICKUP DEVICE - In a back-illuminated solid-state image pickup device including a semiconductor substrate | 10-11-2012 |
20120280351 | ALIGNMENT FOR BACKSIDE ILLUMINATION SENSOR - Provided is an apparatus that includes an integrated circuit located in a first region of a substrate having first and second opposing major surfaces and an alignment mark located in a second region of the substrate and extending through the substrate between the first and second surfaces. | 11-08-2012 |
20130161778 | ELECTRONICS DEVICE PACKAGE AND FABRICATION METHOD THEREOF - Embodiments provide a chip device package and a method for fabricating thereof. A semiconductor chip has a substrate. A supporting brick is separated from the substrate by a certain distance. A bonding pad having a surface is disposed across the substrate and the supporting brick. A bonding wire is electrically connected to the bonding pad. | 06-27-2013 |
20130277789 | Methods and Apparatus for Via Last Through-Vias - Methods for forming via last through-vias. A method includes providing an active device wafer having a front side including conductive interconnect material disposed in dielectric layers and having an opposing back side; providing a carrier wafer having through vias filled with an oxide extending from a first surface of the carrier wafer to a second surface of the carrier wafer; bonding the front side of the active device wafer to the second surface of the carrier wafer; etching the oxide in the through vias in the carrier wafer to form through oxide vias; and depositing conductor material into the through oxide vias to form conductors that extend to the active carrier wafer and make electrical contact to the conductive interconnect material. An apparatus includes a carrier wafer with through oxide vias extending through the carrier wafer to an active device wafer bonded to the carrier wafer. | 10-24-2013 |
20130307110 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device includes a substrate including a front side and a back side opposite the front side, first P-type regions located adjacent to the back side and spaced apart from each other in the substrate, N-type regions located under the first P-type regions and spaced apart from each other in the substrate, and second P-type regions located adjacent to the back side and located between the first P-type regions. | 11-21-2013 |
20130320478 | System and Method for Processing a Backside Illuminated Photodiode - System and method for processing a semiconductor device surface to reduce dark current and white pixel anomalies. An embodiment comprises a method applied to a semiconductor or photodiode device surface adjacent to a photosensitive region, and opposite a side having circuit structures for the device. A doped layer may optionally be created at a depth of less than about 10 nanometers below the surface of the substrate and may be doped with a boron concentration between about 1 | 12-05-2013 |
20130320479 | IMAGE SENSOR, IMAGE PROCESSING SYSTEM INCLUDING THE IMAGE SENSOR, AND METHOD OF MANUFACTURING THE IMAGE SENSOR - An image sensor includes a photodetector formed in an epitaxial layer, and trench isolations each formed in a direction from a back side of the epitaxial layer to a front side of the epitaxial layer. Each of the trench isolations is filled with at least one insulator, and the insulator is a negative charge material. | 12-05-2013 |
20140151840 | Method and Apparatus for CMOS Sensor Packaging - Methods and apparatus for forming a bond pad of a semiconductor device such as a backside illuminated (BSI) image sensor device are disclosed. The substrate of a device may have an opening at the backside, through the substrate reaching the first metal layer at the front side of the device. A buffer layer may be formed above the backside of the substrate and covering sidewalls of the substrate opening. A pad metal layer may be formed above the buffer layer and in contact with the first metal layer at the bottom of the substrate opening. A bond pad may be formed in contact with the pad metal layer. The bond pad is connected to the pad metal layer vertically above the substrate, and further connected to the first metal layer of the device at the opening of the substrate. | 06-05-2014 |
20140367824 | Graphene on Semiconductor Detector - Ultraviolet or Extreme Ultraviolet and/or visible detector apparatus and fabrication processes are presented, in which the detector includes a thin graphene electrode structure disposed over a semiconductor surface to provide establish a potential in the semiconductor material surface and to collect photogenerated carriers, with a first contact providing a top side or bottom side connection for the semiconductor structure and a second contact for connection to the graphene layer. | 12-18-2014 |
20150115389 | Semiconductor Devices, Methods of Manufacturing Thereof, and Image Sensor Devices - Semiconductor devices, methods of manufacturing thereof, and image sensor devices are disclosed. In some embodiments, a semiconductor device includes a semiconductor chip comprising an array region, a periphery region, and a through-via disposed therein. A guard structure is disposed in the semiconductor chip between the array region and the through-via or between the through-via and a portion of the periphery region. A portion of the guard structure is disposed within a substrate of the semiconductor chip. | 04-30-2015 |
20150145096 | MECHANISMS FOR FORMING IMAGE-SENSOR DEVICE WITH EPITAXIAL ISOLATION FEATURE - Embodiments of mechanisms for forming an image-sensor device are provided. The image-sensor device includes a substrate having a front surface and a back surface. The image-sensor device also includes a radiation-sensing region formed in the substrate. The radiation-sensing region is operable to detect incident radiation that enters the substrate through the back surface. The radiation-sensing region further includes an epitaxial isolation feature formed in the substrate and adjacent to the radiation-sensing region. The radiation-sensing region and the epitaxial isolation feature have different doping polarities. | 05-28-2015 |
20150380580 | BACKSIDE-ILLUMINATED ENERGY RAY DETECTION ELEMENT - A back-illuminated energy ray detecting element 1 includes a semiconductor substrate and a protective film. The semiconductor substrate has a first principal surface as an energy ray incident surface and a second principal surface opposite to the first principal surface, and a charge generating region configured to generate an electric charge according to incidence of an energy ray is disposed on the second principal surface side. The protective film is disposed on the second principal surface side of the semiconductor substrate to cover at least the charge generating region, and includes silicon nitride or silicon nitride oxide. The protective film has a stress alleviating section configured to alleviate stress generated in the protective film. | 12-31-2015 |