Patent application number | Description | Published |
20080259185 | Method and apparatus for reducing effects of dark current and defective pixels in an imaging device - A method and apparatus for identifying and compensating for the effects of defective pixels in high resolution digital cameras having image processing apparatus. The apparatus includes a storage system for storing data corresponding to either a dark current reference image and a white reference image and at least one actual image captured by a pixel array, and at least one processor coupled to the storage system for compensating the data corresponding to the actual image based upon the stored data. The method includes capturing and storing both dark and white reference images as well as capturing and storing actual images, identifying pixels that are affected by dark current or are defective pixels, reading data corresponding to pixels of an actual image affected by dark current or that are defective from the storage system and compensating the affected pixels. | 10-23-2008 |
20080272363 | Selectively Conducting Devices, Diode Constructions, Constructions, and Diode Forming Methods - Some embodiments include selectively conducting devices having a first electrode, a second electrode, and dielectric material between the first and second electrodes. The dielectric material may be configured to conduct current from the first electrode to the second electrode when a first voltage is applied across the first electrode and the second electrode. Furthermore, the dielectric material may be configured to inhibit current from flowing from the second electrode to the first electrode when a second voltage having a polarity opposite that of a polarity of the first voltage is applied across the first electrode and the second electrode. The diode material may comprise a plurality of layers of different dielectric materials arranged in order of increasing barrier height. Quantum wells may form at junctions of layers of the plurality responsive to the first voltage. Some embodiments include diode forming methods. | 11-06-2008 |
20080273363 | Semiconductor Constructions, Electronic Systems, And Methods of Forming Cross-Point Memory Arrays - Some embodiments include vertical stacks of memory units, with individual memory units each having a memory element, a wordline, a bitline and at least one diode. The memory units may correspond to cross-point memory, and the diodes may correspond to band-gap engineered diodes containing two or more dielectric layers sandwiched between metal layers. Tunneling properties of the dielectric materials and carrier injection properties of the metals may be tailored to engineer desired properties into the diodes. The diodes may be placed between the bitlines and the memory elements, or may be placed between the wordlines and memory elements. Some embodiments include methods of forming cross-point memory arrays. The memory arrays may contain vertical stacks of memory unit cells, with individual unit cells containing cross-point memory and at least one diode. | 11-06-2008 |
20080293180 | PHOTONIC CRYSTAL-BASED LENS ELEMENTS FOR USE IN AN IMAGE SENSOR - The invention, in various exemplary embodiments, incorporates a photonic crystal lens element into an image sensor. The photonic crystal lens element comprises a substrate and a plurality of pillars forming a photonic crystal structure over the substrate. The pillars are spaced apart from each other. Each pillar has a height and a horizontal cross sectional shape. A material with a different dielectric constant than the pillars is provided within the spacing between the pillars. The photonic crystal element can be a lens configured to focus electromagnetic radiation onto an underlying pixel cell. | 11-27-2008 |
20080308858 | SEMICONDUCTOR DEVICES AND ELECTRONIC SYSTEMS COMPRISING FLOATING GATE TRANSISTORS AND METHODS OF FORMING THE SAME - Semiconductor devices include one or more transistors having a floating gate and a control gate. In at least one embodiment, the floating gate comprises an intermediate portion extending between two end portions. The intermediate portion has an average cross-sectional area less than one or both of the end portions. In some embodiments, the intermediate portion may comprise a single nanowire. In additional embodiments, semiconductor devices have one or more transistors having a control gate and a floating gate in which a surface of the control gate opposes a lateral side surface of a floating gate that defines a recess in the floating gate. Electronic systems include such semiconductor devices. Methods of forming semiconductor devices include, for example, forming a floating gate having an intermediate portion extending between two end portions, and configuring the intermediate portion to have an average cross-sectional area less than one or both of the end portions. | 12-18-2008 |
20090011533 | ISOLATION TECHNIQUES FOR REDUCING DARK CURRENT IN CMOS IMAGE SENSORS - Isolation methods and devices for isolating regions of a semiconductor device. The isolation method and structure include forming an isolating trench in an active area and filling the trench with a doped conductive material containing silicon. Suitable conductive materials containing silicon include polysilicon and silicon-germanium. There is also provided a method and structure for isolating the regions by providing a trench in an active area of a substrate, growing an epitaxial layer in the trench to fill the trench or to partially fill the trench and depositing an insulating material over the epitaxial layer and within the trench to completely fill the trench. | 01-08-2009 |
20090017573 | Image sensor with improved dynamic range and method of formation - Embodiments of the invention provide an image sensor having an improved dynamic range. A pixel cell comprises at least one transistor structure. The transistor structure comprises at least one semiconductor channel region, at least one gate for controlling the channel region, and first and second leads respectively coupled to a source region on one side of the at least one channel region and a drain region on an opposite side of the at least one channel region. The transistor structure has at least two threshold voltages associated with the at least one channel region, and an I-V characteristic of the transistor structure is determined at least in part by the threshold voltages. | 01-15-2009 |
20090039357 | STACKED NON-VOLATILE MEMORY WITH SILICON CARBIDE-BASED AMORPHOUS SILICON THIN FILM TRANSISTORS - A stacked non-volatile memory device uses amorphous silicon based thin film transistors stacked vertically. Each layer of transistors or cells is formed from a deposited a-Si channel region layer having a predetermined concentration of carbon to form a carbon rich silicon film or silicon carbide film, depending on the carbon content. The dielectric stack is formed over the channel region layer. In one embodiment, the dielectric stack is an ONO structure. The control gate is formed over the dielectric stack. This structure is repeated vertically to form the stacked structure. In one embodiment, the carbon content of the channel region layer is reduced for each subsequently formed layer. | 02-12-2009 |
20090050867 | FEATURE FORMED BENEATH AN EXISTING MATERIAL DURING FABRICATION OF A SEMICONDUCTOR DEVICE AND ELECTRONIC SYSTEMS COMPRISING THE SEMICONDUCTOR DEVICE - A method for forming a first feature within a dielectric, metal, or semiconductor material and, optionally, under an existing second feature, comprises the use of an anisotropic etch, the formation of a spacer used to prevent lateral etching, a subsequent isotropic etch to form a hollow opening, and the formation of one or more conductive and/or dielectric materials within the opening. The anisotropic etch may expose a conductive feature to which contact is to be made, depending on the particular use of the inventive method. An inventive structure is also described. | 02-26-2009 |
20090108292 | Floating Body Field-Effect Transistors, and Methods of Forming Floating Body Field-Effect Transistors - In one embodiment, a floating body field-effect transistor includes a pair of source/drain regions having a floating body channel region received therebetween. The source/drain regions and the floating body channel region are received over an insulator. A gate electrode is proximate the floating body channel region. A gate dielectric is received between the gate electrode and the floating body channel region. The floating body channel region has a semiconductor Si | 04-30-2009 |
20090114959 | Low dark current image sensors with epitaxial SiC and/or carbonated channels for array transistors - A pixel cell having a substrate with a isolation channel formed of higher carbon concentrate such as SiC or carbonated silicon. The channel comprising SiC or carbonated silicon is provided over the substrate of the pixel cell to reduce the dark current leakage. | 05-07-2009 |
20090122486 | Semiconductor Packages - The invention includes semiconductor packages having grooves within a semiconductor die backside; and includes semiconductor packages utilizing carbon nanostructures (such as, for example, carbon nanotubes) as thermally conductive interface materials. The invention also includes methods of cooling a semiconductor die in which coolant is forced through grooves in a backside of the die, and includes methods of making semiconductor packages. | 05-14-2009 |
20090134443 | FLOATING-GATE STRUCTURE WITH DIELECTRIC COMPONENT - Floating-gate memory cells having a floating gate with a conductive portion and a dielectric portion facilitate increased levels of charge trapping sites within the floating gate. The conductive portion includes a continuous component providing bulk conductivity to the floating gate. The dielectric portion is discontinuous within the conductive portion and may include islands of dielectric material and/or one or more contiguous layers of dielectric material having discontinuities. | 05-28-2009 |
20090146153 | PIXEL WITH STRAINED SILICON LAYER FOR IMPROVING CARRIER MOBILITY AND BLUE RESPONSE IN IMAGERS - An imager having a pixel cell having an associated strained silicon layer. The strained silicon layer increases charge transfer efficiency, decreases image lag, and improves blue response in imaging devices. | 06-11-2009 |
20090161438 | METHODS OF FORMING AND PROGRAMMING FLOATING-GATE MEMORY CELLS HAVING CARBON NANOTUBES - Floating-gate memory cells having carbon nanotubes interposed between the substrate and the tunnel dielectric layer facilitate ballistic injection of charge into the floating gate. The carbon nanotubes may extend across the entire channel region or a portion of the channel region. For some embodiments, the carbon nanotubes may be concentrated near the source/drain regions. For some embodiments, the tunnel dielectric layer may adjoin the substrate in at least a portion of the channel region. | 06-25-2009 |
20090169153 | METHOD AND APPARATUS PROVIDING AN OPTICAL GUIDE IN IMAGE SENSOR DEVICES - A device and method for providing an optical guide of a pixel to guide incoming light to/from a photo-conversion device of the pixel to improve the optical crosstalk immunity. The optical guide includes an optically reflecting barrier formed as a trench filled with a material which produces reflection. The trench fill material may have an index of refraction that is less than the index of refraction of the material used for the trench surrounding layers to provide a light reflective structure or the trench fill material may provide a reflection surface. | 07-02-2009 |
20090186441 | ULTRASHALLOW PHOTODIODE USING INDIUM - The invention provides an imager having a p-n-p photodiode with an ultrashallow junction depth. A p+ junction layer of the photodiode is doped with indium to decrease transient enhanced diffusion effects, minimize fixed pattern noise and fill factor loss. | 07-23-2009 |
20090206429 | ANGLED IMPLANT FOR TRENCH ISOLATION - A trench isolation having a sidewall and bottom implanted region located within a substrate of a first conductivity type is disclosed. The sidewall and bottom implanted region is formed by an angled implant, a 90 degree implant, or a combination of an angled implant and a 90 degree implant, of dopants of the first conductivity type. The sidewall and bottom implanted region located adjacent the trench isolation reduces surface leakage and dark current. | 08-20-2009 |
20090219426 | Embedded cache memory in image sensors - An embodiment of an embedded cache memory in an image sensor comprises a memory cell array wherein the memory cells are substantially isolated from laterally adjacent memory. The memory cell array includes a plurality of memory cells. Each of the memory cells is formed in a standard CMOS image sensor process without the need for SOI processes. Each cell includes first and second n-type and p-type regions arranged around a vertically integrated gate. Data is written to a cell by causing carriers to accumulate in the body of the device through carrier generation mechanisms that may include impact ionization, band-to-band tunneling and/or channel-initiated secondary hot electrons. | 09-03-2009 |
20090286348 | SUPPRESSION OF DARK CURRENT IN A PHOTOSENSOR FOR IMAGING - A pixel cell having a halogen-rich region localized between an oxide isolation region and a photosensor. The halogen-rich region prevents leakage from the isolation-region into the photosensor, thereby suppressing dark current in imagers. | 11-19-2009 |
20090290407 | Memory Cells, Memory Cell Constructions, and Memory Cell Programming Methods - Some embodiments include memory cells including a memory component having a first conductive material, a second conductive material, and an oxide material between the first conductive material and the second conductive material. A resistance of the memory component is configurable via a current conducted from the first conductive material through the oxide material to the second conductive material. Other embodiments include a diode comprising metal and a dielectric material and a memory component connected in series with the diode. The memory component includes a magnetoresistive material and has a resistance that is changeable via a current conducted through the diode and the magnetoresistive material. | 11-26-2009 |
20090290412 | Memory Devices, Memory Device Constructions, Constructions, Memory Device Forming Methods, Current Conducting Devices, and Memory Cell Programming Methods - Some embodiments include memory devices having a wordline, a bitline, a memory element selectively configurable in one of three or more different resistive states, and a diode configured to allow a current to flow from the wordline through the memory element to the bitline responsive to a voltage being applied across the wordline and the bitline and to decrease the current if the voltage is increased or decreased. Some embodiments include memory devices having a wordline, a bitline, memory element selectively configurable in one of two or more different resistive states, a first diode configured to inhibit a first current from flowing from the bitline to the wordline responsive to a first voltage, and a second diode comprising a dielectric material and configured to allow a second current to flow from the wordline to the bitline responsive to a second voltage. | 11-26-2009 |
20090315020 | Diodes, and Methods of Forming Diodes - Some embodiments include methods of forming diodes in which a first electrode is formed to have a pedestal extending upwardly from a base. At least one layer is deposited along an undulating topography that extends across the pedestal and base, and a second electrode is formed over the least one layer. The first electrode, at least one layer, and second electrode together form a structure that conducts current between the first and second electrodes when voltage of one polarity is applied to the structure, and that inhibits current flow between the first and second electrodes when voltage having a polarity opposite to said one polarity is applied to the structure. Some embodiments include diodes having a first electrode that contains two or more projections extending upwardly from a base, having at least one layer over the first electrode, and having a second electrode over the at least one layer. | 12-24-2009 |
20100013013 | 1T/0C RAM CELL WITH A WRAPPED-AROUND GATE DEVICE STRUCTURE - A memory device and a method of forming the memory device. The memory device comprises a storage transistor at a surface of a substrate comprising a body portion between first and second source/drain regions, wherein the source/drain regions are regions of a first conductivity type. The storage transistor also comprises a gate structure that wraps at least partially around the body portion in at least two spatial planes. A bit line is connected to the first source/drain region and a word line connected to the gate structure. The memory device does not require an additional capacitive storage element. | 01-21-2010 |
20100019249 | JFET Devices with Increased Barrier Height and Methods of Making Same - Devices and methods for providing JFET transistors with improved operating characteristics are provided. Specifically, one or more embodiments of the present invention relate to JFET transistors with a higher diode turn-on voltage. For example, one or more embodiments include a JFET with a doped silicon-carbide gate, while other embodiments include a JFET with a metal gate. One or more embodiments also relate to systems and devices in which the improved JFET may be employed, as well as methods of manufacturing the improved JFET. | 01-28-2010 |
20100019291 | JFET Devices with PIN Gate Stacks and Methods of Making the Same - Devices and methods for providing JFET transistors with improved operating characteristics are provided. Specifically, one or more embodiments of the present invention relate to JFET transistors with a higher diode turn-on voltage. For example, one or more embodiments include a JFET with a PIN gate stack. One or more embodiments also relate to systems and devices in which the improved JFET may be employed, as well as methods of manufacturing the improved JFET. | 01-28-2010 |
20100133607 | Recessed Channel Negative Differential Resistance-Based Memory Cell - Disclosed herein is an improved recessed thyristor-based memory cell. The disclosed cell comprises in one embodiment a conductive plug recessed into the bulk of the substrate, which is coupled to or comprises the enable gate of the cell. Vertically disposed around this recessed gate is a thyristor, whose anode (source; p-type region) is connected to the bit line and cathode (drain; n-type region) is connected to the word line. Aside from the recessed enable gate, the disclosed cell comprises no other gate, such as an access transistor, and hence is essentially a one-transistor device. As a result, and as facilitated by the vertical disposition of the thyristor, the disclosed cell takes up a small amount of area on an integrated circuit when compared to a traditional DRAM cell. Moreover, the disclosed cell is simple to manufacture in its various embodiments, and is easy to configure into an array of cells. Isolation underneath the cell, while not required in all useful embodiments, assists in improving the data retention of the cell and extends the time needed between cell refresh. | 06-03-2010 |
20100148225 | LOW POWER MEMORY DEVICE WITH JFET DEVICE STRUCTURES - There is provided a low power memory device with JFET device structures. Specifically, a low power memory device is provided that includes a plurality memory cells having a memory element and a JFET access device electrically coupled to the memory element. The memory cells may be isolated using diffusion based isolation. | 06-17-2010 |
20100148226 | JFET DEVICE STRUCTURES AND METHODS FOR FABRICATING THE SAME - In accordance with the present techniques, there is provided a JFET device structures and methods for fabricating the same. Specifically, there is provided a transistor including a semiconductor substrate having a source and a drain. The transistor also includes a doped channel formed in the semiconductor substrate between the source and the drain, the channel configured to pass current between the source and the drain. Additionally, the transistor has a gate comprising a semiconductor material formed over the channel and dielectric spacers on each side of the gate. The source and the drain are spatially separated from the gate so that the gate is not over the drain and source. | 06-17-2010 |
20100164045 | IMAGER METHOD AND APPARATUS EMPLOYING PHOTONIC CRYSTALS - An image sensor and a method of forming an image sensor. The image sensor includes an array of pixel cells at a surface of a substrate. Each pixel cell has a photo-conversion device. At least one a micro-electro-mechanical system (MEMS) element including a photonic crystal structure is provided over at least one of the pixel cells. The MEMS-based photonic crystal element is supported by a support structure and configured to selectively permit electromagnetic wavelengths to reach the photo-conversion device upon application of a voltage. As such, the MEMS-based photonic crystal element of the invention can replace or compliment conventional filters, e.g., color filter arrays. | 07-01-2010 |
20100201859 | Transparent Conductor Based Pinned Photodiode - A pinned photodiode with improved short wavelength light response. In exemplary embodiments of the invention, a gate oxide is formed over a doped, buried region in a semiconductor substrate. A gate conductor is formed on top of the gate oxide. The gate conductor is transparent, and in one embodiment is a layer of indium-tin oxide. The transparent conductor can be biased to reduce the need for a surface dopant in creating a pinned photodiode region. The biasing of the transparent conductor produces a hole-rich accumulation region near the surface of the substrate. The gate conductor material permits a greater amount of charges from short wavelength light to be captured in the photo-sensing region in the substrate, and thereby increases the quantum efficiency of the photosensor. | 08-12-2010 |
20100295119 | VERTICALLY-ORIENTED SEMICONDUCTOR SELECTION DEVICE FOR CROSS-POINT ARRAY MEMORY - A vertical semiconductor material mesa upstanding from a semiconductor base that forms a conductive channel between first and second doped regions. The first doped region is electrically coupled to one or more first silicide layers on the surface of the base. The second doped region is electrically coupled to a second silicide layer on the upper surface of the mesa. A gate conductor is provided on one or more sidewalls of the mesa. | 11-25-2010 |
20100296158 | Semiconductor constructions, methods of forming semiconductor constructions, Light-Conducting Conduits, and Optical Signal Propagation Assemblies - The invention includes optical signal conduits having rare earth elements incorporated therein. The optical signal conduits can, for example, contain rare earth elements incorporated within a dielectric material matrix. For instance, erbium or cerium can be within silicon nanocrystals dispersed throughout dielectric material of optical signal conduits. The dielectric material can define a path for the optical signal, and can be wrapped in a sheath which aids in keeping the optical signal along the path. The sheath can include any suitable barrier material, and can, for example, contain one or more metallic materials. The invention also includes methods of forming optical signal conduits, with some of such methods being methods in which the optical signal conduits are formed to be part of semiconductor constructions. | 11-25-2010 |
20100302740 | Methods of cooling semiconductor dies - The invention includes semiconductor packages having grooves within a semiconductor die backside; and includes semiconductor packages utilizing carbon nanostructures (such as, for example, carbon nanotubes) as thermally conductive interface materials. The invention also includes methods of cooling a semiconductor die in which coolant is forced through grooves in a backside of the die, and includes methods of making semiconductor packages. | 12-02-2010 |
20110001174 | Memory Cells, And Methods Of Forming Memory Cells - Some embodiments include memory cells that contain floating bodies and diodes. The diodes may be gated diodes having sections doped to a same conductivity type as the floating bodies, and such sections of the gated diodes may be electrically connected to the floating bodies. The floating bodies may be adjacent channel regions, and spaced from the channel regions by a dielectric structure. The dielectric structure of a memory cell may have a first portion between the floating body and the diode, and may have a second portion between the floating body and the channel region. The first portion may be more leaky to charge carriers than the second portion. The diodes may be formed in semiconductor material that is different from a semiconductor material that the channel regions are in. The floating bodies may have bulbous lower regions. Some embodiments include methods of making memory cells. | 01-06-2011 |
20110059573 | PIXEL WITH STRAINED SILICON LAYER FOR IMPROVING CARRIER MOBILITY AND BLUE RESPONSE IN IMAGERS - An imager having a pixel cell having an associated strained silicon layer. The strained silicon layer increases charge transfer efficiency, decreases image lag, and improves blue response in imaging devices. | 03-10-2011 |
20110068325 | Diodes, and Methods of Forming Diodes - Some embodiments include methods of forming diodes in which a first electrode is formed to have a pedestal extending upwardly from a base. At least one layer is deposited along an undulating topography that extends across the pedestal and base, and a second electrode is formed over the least one layer. The first electrode, at least one layer, and second electrode together form a structure that conducts current between the first and second electrodes when voltage of one polarity is applied to the structure, and that inhibits current flow between the first and second electrodes when voltage having a polarity opposite to said one polarity is applied to the structure. Some embodiments include diodes having a first electrode that contains two or more projections extending upwardly from a base, having at least one layer over the first electrode, and having a second electrode over the at least one layer. | 03-24-2011 |
20110069926 | Communication Methods, Methods of Forming an Interconnect, Signal Interconnects, Integrated Circuit Structures, Circuits, and Data Apparatuses - Some embodiments include communication methods, methods of forming an interconnect, signal interconnects, integrated circuit structures, circuits, and data apparatuses. In one embodiment, a communication method includes accessing an optical signal comprising photons to communicate information, accessing an electrical signal comprising electrical data carriers to communicate information, and using a single interconnect, communicating the optical and electrical signals between a first spatial location and a second spatial location spaced from the first spatial location. | 03-24-2011 |
20110151629 | Recessed Channel Negative Differential Resistance-Based Memory Cell - Disclosed herein is an improved recessed thyristor-based memory cell. The disclosed cell comprises in one embodiment a conductive plug recessed into the bulk of the substrate, which is coupled to or comprises the enable gate of the cell. Vertically disposed around this recessed gate is a thyristor, whose anode (source; p-type region) is connected to the bit line and cathode (drain; n-type region) is connected to the word line. Aside from the recessed enable gate, the disclosed cell comprises no other gate, such as an access transistor, and hence is essentially a one-transistor device. As a result, and as facilitated by the vertical disposition of the thyristor, the disclosed cell takes up a small amount of area on an integrated circuit when compared to a traditional DRAM cell. Moreover, the disclosed cell is simple to manufacture in its various embodiments, and is easy to configure into an array of cells. Isolation underneath the cell, while not required in all useful embodiments, assists in improving the data retention of the cell and extends the time needed between cell refresh. | 06-23-2011 |
20110155994 | STRUCTURES FOR RESISTANCE RANDOM ACCESS MEMORY AND METHODS OF FORMING THE SAME - Memory cells and methods of forming the same and devices including the same. The memory cells have first and second electrodes. An amorphous semiconductor material capable of electronic switching and having a first band gap is between the first and second electrodes. A material is in contact with the semiconductor material and having a second band gap, the second band gap greater than the first band gap. | 06-30-2011 |
20110193165 | Floating Body Field-Effect Transistors, And Methods Of Forming Floating Body Field-Effect Transistors - In one embodiment, a floating body field-effect transistor includes a pair of source/drain regions having a floating body channel region received therebetween. The source/drain regions and the floating body channel region are received over an insulator. A gate electrode is proximate the floating body channel region. A gate dielectric is received between the gate electrode and the floating body channel region. The floating body channel region has a semiconductor Si | 08-11-2011 |
20110194336 | Memory Cells, Memory Cell Constructions, and Memory Cell Programming Methods - Some embodiments include memory cells including a memory component having a first conductive material, a second conductive material, and an oxide material between the first conductive material and the second conductive material. A resistance of the memory component is configurable via a current conducted from the first conductive material through the oxide material to the second conductive material. Other embodiments include a diode comprising metal and a dielectric material and a memory component connected in series with the diode. The memory component includes a magnetoresistive material and has a resistance that is changeable via a current conducted through the diode and the magnetoresistive material. | 08-11-2011 |
20110275182 | STACKED NON-VOLATILE MEMORY WITH SILICON CARBIDE-BASED AMORPHOUS SILICON THIN FILM TRANSISTORS - A stacked non-volatile memory device uses amorphous silicon based thin film transistors stacked vertically. Each layer of transistors or cells is formed from a deposited a-Si channel region layer having a predetermined concentration of carbon to form a carbon rich silicon film or silicon carbide film, depending on the carbon content. The dielectric stack is formed over the channel region layer. In one embodiment, the dielectric stack is an ONO structure. The control gate is formed over the dielectric stack. This structure is repeated vertically to form the stacked structure. In one embodiment, the carbon content of the channel region layer is reduced for each subsequently formed layer. | 11-10-2011 |
20110293233 | Semiconductor Constructions, Methods of Forming Semiconductor Constructions, Light-Conducting Conduits, and Optical Signal Propagation Assemblies - The invention includes optical signal conduits having rare earth elements incorporated therein. The optical signal conduits can, for example, contain rare earth elements incorporated within a dielectric material matrix. For instance, erbium or cerium can be within silicon nanocrystals dispersed throughout dielectric material of optical signal conduits. The dielectric material can define a path for the optical signal, and can be wrapped in a sheath which aids in keeping the optical signal along the path. The sheath can include any suitable barrier material, and can, for example, contain one or more metallic materials. The invention also includes methods of forming optical signal conduits, with some of such methods being methods in which the optical signal conduits are formed to be part of semiconductor constructions. | 12-01-2011 |
20120009714 | DEUTERATED STRUCTURES FOR IMAGE SENSORS AND METHODS FOR FORMING THE SAME - A pixel cell with a photo-conversion device and at least one structure includes a deuterated material adjacent the photo-conversion device. | 01-12-2012 |
20120012892 | HIGH DENSITY THYRISTOR RANDOM ACCESS MEMORY DEVICE AND METHOD - Memory devices and methods of making memory devices are shown. Methods and configurations as shown provide folded and vertical memory devices for increased memory density. Methods provided allow trace wiring in a memory array to be formed on or near a surface of a memory device. | 01-19-2012 |
20120056151 | Memory Devices, Memory Device Constructions, Constructions, Memory Device Forming Methods, Current Conducting Devices, and Memory Cell Programming Methods - Some embodiments include memory devices having a wordline, a bitline, a memory element selectively configurable in one of three or more different resistive states, and a diode configured to allow a current to flow from the wordline through the memory element to the bitline responsive to a voltage being applied across the wordline and the bitline and to decrease the current if the voltage is increased or decreased. Some embodiments include memory devices having a wordline, a bitline, memory element selectively configurable in one of two or more different resistive states, a first diode configured to inhibit a first current from flowing from the bitline to the wordline responsive to a first voltage, and a second diode comprising a dielectric material and configured to allow a second current to flow from the wordline to the bitline responsive to a second voltage. | 03-08-2012 |
20120061685 | Memory Devices And Memory Cells - A memory device includes an array of memory cells and peripheral devices. At least some of the individual memory cells include carbonated portions that contain SiC. At least some of the peripheral devices do not include any carbonated portions. A transistor includes a first source/drain, a second source/drain, a channel including a carbonated portion of a semiconductive substrate that contains SiC between the first and second sources/drains and a gate operationally associated with opposing sides of the channel. | 03-15-2012 |
20120064685 | Methods of making random access memory devices, transistors, and memory cells - A memory device includes an array of memory cells and peripheral devices. At least some of the individual memory cells include carbonated portions that contain SiC. At least some of the peripheral devices do not include any carbonated portions. A transistor includes a first source/drain, a second source/drain, a channel including a carbonated portion of a semiconductive substrate that contains SiC between the first and second sources/drains and a gate operationally associated with opposing sides of the channel. | 03-15-2012 |
20120082412 | Communication Methods, Methods of Forming an Interconnect, Signal Interconnects, Integrated Circuit Structures, Circuits, and Data Apparatuses - Some embodiments include communication methods, methods of forming an interconnect, signal interconnects, integrated circuit structures, circuits, and data apparatuses. In one embodiment, a communication method includes accessing an optical signal comprising photons to communicate information, accessing an electrical signal comprising electrical data carriers to communicate information, and using a single interconnect, communicating the optical and electrical signals between a first spatial location and a second spatial location spaced from the first spatial location. | 04-05-2012 |
20120083093 | ISOLATION STRUCTURE FOR A MEMORY CELL USING AL2O3 DIELECTRIC - The invention provides, in one exemplary embodiment, an isolation gate formed over a substrate for biasing the substrate and providing isolation between adjacent active areas of an integrated circuit structure, for example a DRAM memory cell. An aluminum oxide (Al2O3) is used as a gate dielectric, rather than a conventional gate oxide layer, to create a hole-rich accumulation region under and near the trench isolation region. Another exemplary embodiment of the invention provides an aluminum oxide layer utilized as a liner in a shallow trench isolation (STI) region to increase the effectiveness of the isolation region. The embodiments may also be used together at an isolation region. | 04-05-2012 |
20120108033 | METHOD OF MANUFACTURING DEVICES HAVING VERTICAL JUNCTION EDGE - Techniques for forming devices, such as transistors, having vertical junction edges. More specifically, shallow trenches are formed in a substrate and filled with an oxide. Cavities may be formed in the oxide and filled with a conductive material, such a doped polysilicon. Vertical junctions are formed between the polysilicon and the exposed substrate at the trench edges such that during a thermal cycle, the doped polysilicon will out-diffuse doping elements into the adjacent single crystal silicon advantageously forming a diode extension having desirable properties. | 05-03-2012 |
20120142152 | Methods Of Forming Memory Cells - Some embodiments include memory cells that contain floating bodies and diodes. The diodes may be gated diodes having sections doped to a same conductivity type as the floating bodies, and such sections of the gated diodes may be electrically connected to the floating bodies. The floating bodies may be adjacent channel regions, and spaced from the channel regions by a dielectric structure. The dielectric structure of a memory cell may have a first portion between the floating body and the diode, and may have a second portion between the floating body and the channel region. The first portion may be more leaky to charge carriers than the second portion. The diodes may be formed in semiconductor material that is different from a semiconductor material that the channel regions are in. The floating bodies may have bulbous lower regions. Some embodiments include methods of making memory cells. | 06-07-2012 |
20120146049 | JFET DEVICES WITH INCREASED BARRIER HEIGHT AND METHODS OF MAKING THE SAME - Devices and methods for providing JFET transistors with improved operating characteristics are provided. Specifically, one or more embodiments of the present invention relate to JFET transistors with a higher diode turn-on voltage. For example, one or more embodiments include a JFET with a doped silicon-carbide gate, while other embodiments include a JFET with a metal gate. One or more embodiments also relate to systems and devices in which the improved JFET may be employed, as well as methods of manufacturing the improved JFET. | 06-14-2012 |
20120199877 | MEMORY DEVICES WITH A CONNECTING REGION HAVING A BAND GAP LOWER THAN A BAND GAP OF A BODY REGION - Memory devices are shown that include a body region and a connecting region that is formed from a semiconductor with a lower band gap than the body region. Connecting region configurations can provide increased gate induced drain leakage during an erase operation. Configurations shown can provide a reliable bias to a body region for memory operations such as erasing, and containment of charge in the body region during a boost operation. | 08-09-2012 |
20120235310 | SEMICONDUCTOR PACKAGES - The invention includes semiconductor packages having grooves within a semiconductor die backside; and includes semiconductor packages utilizing carbon nanostructures (such as, for example, carbon nanotubes) as thermally conductive interface materials. The invention also includes methods of cooling a semiconductor die in which coolant is forced through grooves in a backside of the die, and includes methods of making semiconductor packages. | 09-20-2012 |
20120302015 | METHODS OF MAKING JFET DEVICES WITH PIN GATE STACKS - Devices and methods for providing JFET transistors with improved operating characteristics are provided. Specifically, one or more embodiments of the present invention relate to JFET transistors with a higher diode turn-on voltage. For example, one or more embodiments include a JFET with a PIN gate stack. One or more embodiments also relate to systems and devices in which the improved JFET may be employed, as well as methods of manufacturing the improved JFET. | 11-29-2012 |
20120329210 | Methods of Forming Diodes - Some embodiments include methods of forming diodes in which a first electrode is formed to have a pedestal extending upwardly from a base. At least one layer is deposited along an undulating topography that extends across the pedestal and base, and a second electrode is formed over the least one layer. The first electrode, at least one layer, and second electrode together form a structure that conducts current between the first and second electrodes when voltage of one polarity is applied to the structure, and that inhibits current flow between the first and second electrodes when voltage having a polarity opposite to said one polarity is applied to the structure. Some embodiments include diodes having a first electrode that contains two or more projections extending upwardly from a base, having at least one layer over the first electrode, and having a second electrode over the at least one layer. | 12-27-2012 |
20120329226 | LOW POWER MEMORY DEVICE WITH JFET DEVICE STRUCTURES - There is provided a low power memory device with JFET device structures. Specifically, a low power memory device is provided that includes a plurality memory cells having a memory element and a JFET access device electrically coupled to the memory element. The memory cells may be isolated using diffusion based isolation. | 12-27-2012 |
20130009208 | HIGH DENSITY THYRISTOR RANDOM ACCESS MEMORY DEVICE AND METHOD - Memory devices and methods of making memory devices are shown. Methods and configurations as shown provide folded and vertical memory devices for increased memory density. Methods provided allow trace wiring in a memory array to be formed on or near a surface of a memory device. | 01-10-2013 |
20130126908 | Memory Cells, And Methods Of Forming Memory Cells - Some embodiments include memory cells that contain floating bodies and diodes. The diodes may be gated diodes having sections doped to a same conductivity type as the floating bodies, and such sections of the gated diodes may be electrically connected to the floating bodies. The floating bodies may be adjacent channel regions, and spaced from the channel regions by a dielectric structure. The dielectric structure of a memory cell may have a first portion between the floating body and the diode, and may have a second portion between the floating body and the channel region. The first portion may be more leaky to charge carriers than the second portion. The diodes may be formed in semiconductor material that is different from a semiconductor material that the channel regions are in. The floating bodies may have bulbous lower regions. Some embodiments include methods of making memory cells. | 05-23-2013 |
20130140601 | Recessed Channel Negative Differential Resistance-Based Memory Cell - The disclosed recessed thyristor-based memory cell comprises in one embodiment a conductive plug recessed into the bulk of the substrate, which is coupled to or comprises the enable gate of the cell. Vertically disposed around this recessed gate is a thyristor, whose anode is connected to the bit line and cathode is connected to the word line. The disclosed cell comprises no other gate, such as an access transistor, and hence is essentially a one-transistor device. As facilitated by the vertical disposition of the thyristor, the disclosed cell takes up a small amount of area on an integrated circuit when compared to a traditional DRAM cell. The disclosed cell is simple to manufacture in its various embodiments, and is easy to configure into an array of cells. Isolation underneath the cell assists in improving the data retention of the cell and extends the time needed between cell refresh. | 06-06-2013 |
20130140631 | SEMICONDUTOR ISOLATION STRUCTURE AND METHOD OF MANUFACTURE - A method of formation of an isolation structure for vertical semiconductor devices, the resulting isolation structure, and a memory device to prevent leakage among adjacent vertical semiconductor devices are described. | 06-06-2013 |
20130224923 | STACKED NON-VOLATILE MEMORY WITH SILICON CARBIDE-BASED AMORPHOUS SILICON THIN FILM TRANSISTORS - A stacked non-volatile memory device uses amorphous silicon based thin film transistors stacked vertically. Each layer of transistors or cells is formed from a deposited a-Si channel region layer having a predetermined concentration of carbon to form a carbon rich silicon film or silicon carbide film, depending on the carbon content. The dielectric stack is formed over the channel region layer. In one embodiment, the dielectric stack is an ONO structure. The control gate is formed over the dielectric stack. This structure is repeated vertically to form the stacked structure. In one embodiment, the carbon content of the channel region layer is reduced for each subsequently formed layer. | 08-29-2013 |
20130234206 | MEMORY DEVICES WITH A CONNECTING REGION HAVING A BAND GAP LOWER THAN A BAND GAP OF A BODY REGION - Memory devices are shown that include a body region and a connecting region that is formed from a semiconductor with a lower band gap than the body region. Connecting region configurations can provide increased gate induced drain leakage during an erase operation. Configurations shown can provide a reliable bias to a body region for memory operations such as erasing, and containment of charge in the body region during a boost operation. | 09-12-2013 |
20130248885 | Transistors Comprising a SiC-Containing Channel - A memory device includes an array of memory cells and peripheral devices. At least some of the individual memory cells include carbonated portions that contain SiC. At least some of the peripheral devices do not include any carbonated portions. A transistor includes a first source/drain, a second source/drain, a channel including a carbonated portion of a semiconductive substrate that contains SiC between the first and second sources/drains and a gate operationally associated with opposing sides of the channel. | 09-26-2013 |
20130252359 | Communication Methods, Methods of Forming an Interconnect, Signal Interconnects, Integrated Circuit Structures, Circuits, and Data Apparatuses - Some embodiments include communication methods, methods of forming an interconnect, signal interconnects, integrated circuit structures, circuits, and data apparatuses. In one embodiment, a communication method includes accessing an optical signal comprising photons to communicate information, accessing an electrical signal comprising electrical data carriers to communicate information, and using a single interconnect, communicating the optical and electrical signals between a first spatial location and a second spatial location spaced from the first spatial location. | 09-26-2013 |
20130285124 | JFET DEVICE STRUCTURES AND METHODS FOR FABRICATING THE SAME - In accordance with the present techniques, there is provided a JFET device structures and methods for fabricating the same. Specifically, there is provided a transistor including a semiconductor substrate having a source and a drain. The transistor also includes a doped channel formed in the semiconductor substrate between the source and the drain, the channel configured to pass current between the source and the drain. Additionally, the transistor has a gate comprising a semiconductor material formed over the channel and dielectric spacers on each side of the gate. The source and the drain are spatially separated from the gate so that the gate is not over the drain and source. | 10-31-2013 |
20130322158 | Memory Cells, Memory Cell Constructions, and Memory Cell Programming Methods - Some embodiments include memory cells including a memory component having a first conductive material, a second conductive material, and an oxide material between the first conductive material and the second conductive material. A resistance of the memory component is configurable via a current conducted from the first conductive material through the oxide material to the second conductive material. Other embodiments include a diode comprising metal and a dielectric material and a memory component connected in series with the diode. The memory component includes a magnetoresistive material and has a resistance that is changeable via a current conducted through the diode and the magnetoresistive material. | 12-05-2013 |
20140051214 | Floating Body Field-Effect Transistors, and Methods of Forming Floating Body Field-Effect Transistors - In one embodiment, a floating body field-effect transistor includes a pair of source/drain regions having a floating body channel region received therebetween. The source/drain regions and the floating body channel region are received over an insulator. A gate electrode is proximate the floating body channel region. A gate dielectric is received between the gate electrode and the floating body channel region. The floating body channel region has a semiconductor Si | 02-20-2014 |
20140054666 | VERTICAL MEMORY CELL STRING WITH DIELECTRIC IN A PORTION OF THE BODY - Some embodiments include a memory cell string having a body having a channel extending therein and in contact with a source/drain, a select gate adjacent to the body, a plurality of access lines adjacent to the body, and a dielectric in a portion of the body between the source/drain and a level corresponding to an end of the plurality of access lines most adjacent to the select gate. The dielectric in the portion of the body does not extend along an entire length of the body. Other embodiments are described and claimed. | 02-27-2014 |
20140106539 | SEMICONDUCTOR ISOLATION STRUCTURE AND METHOD OF MANUFACTURE - A method of formation of an isolation structure for vertical semiconductor devices, the resulting isolation structure, and a memory device to prevent leakage among adjacent vertical semiconductor devices are described. | 04-17-2014 |
20140110753 | Methods of Making JFET Devices with Pin Gate Stacks - Devices and methods for providing JFET transistors with improved operating characteristics are provided. Specifically, one or more embodiments of the present invention relate to JFET transistors with a higher diode turn-on voltage. For example, one or more embodiments include a JFET with a PIN gate stack. One or more embodiments also relate to systems and devices in which the improved JFET may be employed, as well as methods of manufacturing the improved JFET. | 04-24-2014 |
20140146598 | REDUCED LEAKAGE MEMORY CELLS - Methods and structures are described for reducing leakage currents in semiconductor memory storage cells. Vertically oriented nanorods may be used in the channel region of an access transistor. The nanorod diameter can be made small enough to cause an increase in the electronic band gap energy in the channel region of the access transistor, which may serve to limit channel leakage currents in its off-state. In various embodiments, the access transistor may be electrically coupled to a double-sided capacitor. Memory devices according to embodiments of the invention, and systems including such devices are also disclosed. | 05-29-2014 |
20140246680 | JFET Devices with Increased Barrier Height and Methods of Making Same - Devices for providing transistors with improved operating characteristics are provided. In one example, a system includes a processor and a memory device. A transistor of the processor or the memory device includes a channel in a semiconductor substrate that is undoped or intrinsic. A metal gate is disposed directly on top of the channel, and the bandgap of the semiconductor substrate and the work function of the metal form a Schottky barrier. | 09-04-2014 |
20140313833 | MEMORY DEVICES WITH A CONNECTING REGION HAVING A BAND GAP LOWER THAN A BAND GAP OF A BODY REGION - Memory devices are shown that include a body region and a connecting region that is formed from a semiconductor with a lower band gap than the body region. Connecting region configurations can provide increased gate induced drain leakage during an erase operation. Configurations shown can provide a reliable bias to a body region for memory operations such as erasing, and containment of charge in the body region during a boost operation. | 10-23-2014 |
20140339572 | MEMORY WITH CARBON-CONTAINING SILICON CHANNEL - A memory includes a first memory cell and a second memory cell formed over the first memory cell. Each of the first memory cell and the second memory cell includes a channel region comprising silicon and carbon, a control gate, and a dielectric stack between the channel region and the control gate. A carbon content of the channel region of the second memory cell is less than a carbon content of the channel region of the first memory cell. | 11-20-2014 |
20140369107 | STRUCTURES FOR RESISTANCE RANDOM ACCESS MEMORY AND METHODS OF FORMING THE SAME - Memory cells and methods of forming the same and devices including the same. The memory cells have first and second electrodes. An amorphous semiconductor material capable of electronic switching and having a first band gap is between the first and second electrodes. A material is in contact with the semiconductor material and having a second band gap, the second band gap greater than the first band gap. | 12-18-2014 |
20150036405 | Memory Devices - Some embodiments include memory devices having a wordline, a bitline, a memory element selectively configurable in one of three or more different resistive states, and a diode configured to allow a current to flow from the wordline through the memory element to the bitline responsive to a voltage being applied across the wordline and the bitline and to decrease the current if the voltage is increased or decreased. Some embodiments include memory devices having a wordline, a bitline, memory element selectively configurable in one of two or more different resistive states, a first diode configured to inhibit a first current from flowing from the bitline to the wordline responsive to a first voltage, and a second diode comprising a dielectric material and configured to allow a second current to flow from the wordline to the bitline responsive to a second voltage. | 02-05-2015 |
20150041873 | Vertical Ferroelectric Field Effect Transistor Constructions, Constructions Comprising A Pair Of Vertical Ferroelectric Field Effect Transistors, Vertical Strings Of Ferroelectric Field Effect Transistors, And Vertical Strings Of Laterally Opposing Pairs Of Vertical Ferroelectric Field Effect Transistors - A vertical ferroelectric field effect transistor construction comprises an isolating core. A transition metal dichalcogenide material encircles the isolating core and has a lateral wall thickness of 1 monolayer to 7 monolayers. A ferroelectric gate dielectric material encircles the transition metal dichalcogenide material. Conductive gate material encircles the ferroelectric gate dielectric material. The transition metal dichalcogenide material extends elevationally inward and elevationally outward of the conductive gate material. A conductive contact is directly against a lateral outer sidewall of the transition metal dichalcogenide material that is a) elevationally inward of the conductive gate material, or b) elevationally outward of the conductive gate material. Additional embodiments are disclosed. | 02-12-2015 |
20150072523 | Methods of Forming Diodes - Some embodiments include methods of forming diodes in which a first electrode is formed to have a pedestal extending upwardly from a base. At least one layer is deposited along an undulating topography that extends across the pedestal and base, and a second electrode is formed over the least one layer. The first electrode, at least one layer, and second electrode together form a structure that conducts current between the first and second electrodes when voltage of one polarity is applied to the structure, and that inhibits current flow between the first and second electrodes when voltage having a polarity opposite to said one polarity is applied to the structure. Some embodiments include diodes having a first electrode that contains two or more projections extending upwardly from a base, having at least one layer over the first electrode, and having a second electrode over the at least one layer. | 03-12-2015 |