Patent application number | Description | Published |
20090283807 | Anti-Reflection Structures For CMOS Image Sensors - Optical structures having an array of protuberances between two layers having different refractive indices are provided. The array of protuberances has vertical and lateral dimensions less than the wavelength range of lights detectable by a photodiode of a CMOS image sensor. The array of protuberances provides high transmission of light with little reflection. The array of protuberances may be provided over a photodiode, in a back-end-of-line interconnect structure, over a lens for a photodiode, on a backside of a photodiode, or on a window of a chip package. | 11-19-2009 |
20090286346 | Methods For Forming Anti-Reflection Structures For CMOS Image Sensors - Protuberances, having vertical and lateral dimensions less than the wavelength range of lights detectable by a photodiode, are formed at an optical interface between two layers having different refractive indices. The protuberances may be formed by employing self-assembling block copolymers that form an array of sublithographic features of a first polymeric block component within a matrix of a second polymeric block component. The pattern of the polymeric block component is transferred into a first optical layer to form an array of nanoscale protuberances. Alternately, conventional lithography may be employed to form protuberances having dimensions less than the wavelength of light. A second optical layer is formed directly on the protuberances of the first optical layer. The interface between the first and second optical layers has a graded refractive index, and provides high transmission of light with little reflection. | 11-19-2009 |
20090302406 | DELAMINATION AND CRACK RESISTANT IMAGE SENSOR STRUCTURES AND METHODS - A plurality of image sensor structures and a plurality of methods for fabricating the plurality of image sensor structures provide for inhibited cracking and delamination of a lens capping layer with respect to a planarizing layer within the plurality of image sensor structures. Particular image sensor structures and related methods include at least one dummy lens layer of different dimensions than active lens layer located over a circuitry portion of a substrate within the particular image sensor structures. Additional particular image sensor structures include at least one of an aperture within the planarizing layer and a sloped endwall of the planarizing layer located over a circuitry portion within the particular image sensor structures. | 12-10-2009 |
20100013972 | PIXEL SENSOR CELL WITH FRAME STORAGE CAPABILITY - A set of frame transfer transistors are provided between a hold gate transistor and a transfer gate transistor of a CMOS image sensor to enable storage of charge generate in the photosensitive diode after exposure. The readout of the charges from the set of frame transfer transistors may be performed after a plurality of exposures of the CMOS image sensor, between each of which charges are shifted toward the transfer gate transistor within the set of frame transfer transistors. Useful operation modes are enabled including a burst mode operation for rapid capture of successive images and high dynamic range operations in which multiple images are taken with different exposure times or a large capacitance is provided by ganging the diffusions of the set of frame transfer transistors. | 01-21-2010 |
20100013973 | PIXEL SENSOR CELL WITH FRAME STORAGE CAPABILITY - A set of frame transfer transistors are provided between a hold gate transistor and a transfer gate transistor of a CMOS image sensor to enable storage of charge generate in the photosensitive diode after exposure. The readout of the charges from the set of frame transfer transistors may be performed after a plurality of exposures of the CMOS image sensor, between each of which charges are shifted toward the transfer gate transistor within the set of frame transfer transistors. Useful operation modes are enabled including a burst mode operation for rapid capture of successive images and high dynamic range operations in which multiple images are taken with different exposure times or a large capacitance is provided by ganging the diffusions of the set of frame transfer transistors. | 01-21-2010 |
20100097511 | HIGH EFFICIENCY CMOS IMAGE SENSOR PIXEL EMPLOYING DYNAMIC VOLTAGE SUPPLY - A global shutter compatible pixel circuit comprising a reset gate (RG) transistor is provided in which a dynamic voltage is applied to the drain of the reset gate transistor in order to reduce a floating diffusion (FD) leakage therethrough during signal hold time. The drain voltage of the reset gate transistor is held at a lower voltage than a circuit supply voltage to minimize the off-state leakage through the RG transistor, thus reducing the change in the voltage at the floating diffusion during the signal hold time. In addition, a design structure for such a circuit providing a dynamic voltage to the drain of a reset gate of a pixel circuit is also provided. | 04-22-2010 |
20100264473 | ANTI-REFLECTION STRUCTURES FOR CMOS IMAGE SENSORS - Optical structures having an array of protuberances between two layers having different refractive indices are provided. The array of protuberances has vertical and lateral dimensions less than the wavelength range of lights detectable by a photodiode of a CMOS image sensor. The array of protuberances provides high transmission of light with little reflection. The array of protuberances may be provided over a photodiode, in a back-end-of-line interconnect structure, over a lens for a photodiode, on a backside of a photodiode, or on a window of a chip package. | 10-21-2010 |
20110129955 | DELAMINATION AND CRACK RESISTANT IMAGE SENSOR STRUCTURES AND METHODS - A plurality of image sensor structures and a plurality of methods for fabricating the plurality of image sensor structures provide for inhibited cracking and delamination of a lens capping layer with respect to a planarizing layer within the plurality of image sensor structures. Particular image sensor structures and related methods include at least one dummy lens layer of different dimensions than active lens layer located over a circuitry portion of a substrate within the particular image sensor structures. Additional particular image sensor structures include at least one of an aperture within the planarizing layer and a sloped endwall of the planarizing layer located over a circuitry portion within the particular image sensor structures. | 06-02-2011 |
20110250715 | METHODS FOR FORMING ANTI-REFLECTION STRUCTURES FOR CMOS IMAGE SENSORS - Protuberances, having vertical and lateral dimensions less than the wavelength range of lights detectable by a photodiode, are formed at an optical interface between two layers having different refractive indices. The protuberances may be formed by employing self-assembling block copolymers that form an array of sublithographic features of a first polymeric block component within a matrix of a second polymeric block component. The pattern of the polymeric block component is transferred into a first optical layer to form an array of nanoscale protuberances. Alternately, conventional lithography may be employed to form protuberances having dimensions less than the wavelength of light. A second optical layer is formed directly on the protuberances of the first optical layer. The interface between the first and second optical layers has a graded refractive index, and provides high transmission of light with little reflection. | 10-13-2011 |
20120018832 | METHODS, STRUCTURES, AND DESIGN STRUCTURES FOR IMPROVED ADHESION OF PROTECTIVE LAYERS OF IMAGER MICROLENS STRUCTURES - Methods, structures, and design structures for improved adhesion of protective layers of imager microlens structures are disclosed. A method of fabricating a semiconductor structure includes forming an interfacial region between a microlens and a protective oxide layer. The interfacial region has a lower concentration of oxygen than the protective oxide layer. | 01-26-2012 |
20120037967 | CMOS PIXEL SENSOR CELLS WITH POLY SPACER TRANSFER GATES AND METHODS OF MANUFACTURE - CMOS pixel sensor cells with spacer transfer gates and methods of manufacture are provided herein. The method includes forming a middle gate structure on a gate dielectric. The method further includes forming insulation sidewalls on the middle gate structure. The method further includes forming spacer transfer gates on the gate dielectric on opposing sides of the middle gate, adjacent to the insulation sidewalls which isolate the middle gate structure from the spacer transfer gates. The method further includes forming a photo-diode region in electrical contact with one of the spacer transfer gates and a floating diffusion in electrical contact with another of the spacer transfer gates. | 02-16-2012 |
20120168835 | ANTI-REFLECTION STRUCTURES FOR CMOS IMAGE SENSORS - Optical structures having an array of protuberances between two layers having different refractive indices are provided. The array of protuberances has vertical and lateral dimensions less than the wavelength range of lights detectable by a photodiode of a CMOS image sensor. The array of protuberances provides high transmission of light with little reflection. The array of protuberances may be provided over a photodiode, in a back-end-of-line interconnect structure, over a lens for a photodiode, on a backside of a photodiode, or on a window of a chip package. | 07-05-2012 |
20130105981 | FLATTENED SUBSTRATE SURFACE FOR SUBSTRATE BONDING | 05-02-2013 |
20130161777 | ANTI-REFLECTION STRUCTURES FOR CMOS IMAGE SENSORS - Optical structures having an array of protuberances between two layers having different refractive indices are provided. The array of protuberances has vertical and lateral dimensions less than the wavelength range of lights detectable by a photodiode of a CMOS image sensor. The array of protuberances provides high transmission of light with little reflection. The array of protuberances may be provided over a photodiode, in a back-end-of-line interconnect structure, over a lens for a photodiode, on a backside of a photodiode, or on a window of a chip package. | 06-27-2013 |
20130187249 | STRUCTURES AND DESIGN STRUCTURES FOR IMPROVED ADHESION OF PROTECTIVE LAYERS OF IMAGER MICROLENS STRUCTURES - Structures and design structures for improved adhesion of protective layers of imager microlens structures are disclosed. A method of fabricating a semiconductor structure includes forming an interfacial region between a microlens and a protective oxide layer. The interfacial region has a lower concentration of oxygen than the protective oxide layer. | 07-25-2013 |
20140138844 | PATTERNED BACKSIDE METAL GROUND PLANE FOR IMPROVED METAL ADHESION - A patterned backside metal ground plane for improved metal adhesion and methods of manufacture are disclosed herein. The method includes forming at least one die on a substrate. The at least one die is formed adjacent to a dicing channel and includes through silicon vias (TSVs). The method further includes forming a metalized ground plane on a backside of the substrate in contact with the TSVs and which is located in such areas on the backside of the substrate that it does not interfere with dicing operations performed within the dicing channel. | 05-22-2014 |
20140191408 | BACKSIDE METAL GROUND PLANE WITH IMPROVED METAL ADHESION AND DESIGN STRUCTURES - A backside metal ground plane with improved metal adhesion and methods of manufacture are disclosed herein. The method includes forming at least one through silicon via (TSV) in a substrate. The method further includes forming an oxide layer on a backside of the substrate. The method further includes forming a metalized ground plane on the oxide layer and in electrical contact with an exposed portion of the at least one TSV. | 07-10-2014 |