Abstract: NVM cell for storing three levels of charge: one erased and two programmed states. The cell comprises a transistor structure providing a gate current versus gate voltage curve having a shape with a flat region or a second peak. To provide such a structure, one embodiment combines two parallel transistors having different threshold voltages, and another embodiment uses one transistor with variable doping. The gate current curve provides two programming zones. Programming the first state includes applying a voltage across a channel, ramping up a gate voltage in the first programming zone, followed by ramping it back down. Programming the second state comprises applying a voltage across a channel, ramping up a gate voltage past the first programming zone and into the second programming zone, followed by ramping it back down. Ramping the voltage back down may optionally be preceded by turning off the voltage across the channel.

Abstract: A single junction interdigitated photodiode utilizes a stack of alternating highly doped first regions of a first conductivity type and highly doped second regions of a second conductivity type, which are formed below and contact the first regions, to collect photons. In addition, a highly doped sinker of a first conductivity type contacts each first region, and a highly doped sinker of a second conductivity type contacts each second region.

Abstract: An active pixel sensor cell including at least one photodiode and reset circuitry and an integrating varactor coupled to the photodiode, a method for reading out such a cell, and an image sensor including an array of such cells. The photodiode can be exposed to photons during an exposure interval to accumulate a sequence of subexposure charges at a first node of the photodiode. Each of the subexposure charges accumulates at the first node during a different subexposure interval of the exposure interval. The photodiode is reset during each of a sequence of reset intervals, each reset interval occurring before a different one of the subexposure intervals. An output signal indicative of an exposure charge accumulated at the storage node during the exposure interval can be asserted from the cell, where the exposure charge is indicative of a sum of all the subexposure charges.

Abstract: A photon detector capable of detecting gigahertz frequency optical signals utilizes a layer of photonic material that is formed adjacent to the coil of an inductor. When a pulsed light source is applied to the layer of photonic material, the photonic material generates eddy currents that alter the magnetic flux of the inductor. The signals can then be detected by detecting the change in the magnetic flux.

Abstract: A charge pump circuit in which at least one of the switching elements takes the form of a LVTSCR. The switching on and off of the LVTSCRs may be achieved by making use of a pulsed input and relying on the triggering and holding voltages of the LVTSCRs to switch on and off.

Abstract: In an integrated circuit, dopant concentration levels are adjusted by making use of a perforated mask. Doping levels for different regions across an integrated circuit can be differently defined by making use of varying size and spacings to the perforations in the mask. The diffusion of dopant is completed by making use of an annealing stage.

Abstract: In a MOS transistor, the drain capacitance is reduced by forming a lateral trench underneath the drain. This is typically done by using an anisotropic wet etch process in a <110> direction of a <100> orientation wafer.

Abstract: An optical sensor provides information about the burn of the fuel mixture in the combustion chamber of an internal combustion engine as well as the timing and waveform of the spark that ignites the fuel mixture in the combustion chamber. The optical sensor can be implemented as a stand-alone device, or incorporated into a spark plug.

Abstract: The integration period of an imaging cell, or the time that an imaging cell is exposed to light energy, is substantially increased by utilizing a single-poly, electrically-programmable, read-only-memory (EPROM) structure to capture the light energy. Photogenerated electrons are formed in the channel region of the EPROM structure from the light energy. The photogenerated electrons are then accelerated into having ionizing collisions which, in turn, leads to electrons being injected onto the floating gate of the EPROM structure at a rate that is proportionate to the number of photons captured by the channel region.

Abstract: An active pixel sensor cell including at least one photodiode and reset circuitry and an integrating varactor coupled to the photodiode, a method for reading out such a cell, and an image sensor including an array of such cells. The photodiode can be exposed to photons during an exposure interval to accumulate a sequence of subexposure charges at a first node of the photodiode. Each of the subexposure charges accumulates at the first node during a different subexposure interval of the exposure interval. The photodiode is reset during each of a sequence of reset intervals, each reset interval occurring before a different one of the subexposure intervals. An output signal indicative of an exposure charge accumulated at the storage node during the exposure interval can be asserted from the cell, where the exposure charge is indicative of a sum of all the subexposure charges.

Abstract: The integration period of an imaging cell, or the time that an imaging cell is exposed to light energy, is substantially increased by utilizing a single-poly, electrically-programmable, read-only-memory (EPROM) structure to capture the light energy. Photogenerated electrons are formed in the channel region of the EPROM structure from the light energy. The photogenerated electrons are then accelerated into having ionizing collisions which, in turn, leads to electrons being injected onto the floating gate of the EPROM structure at a rate that is proportionate to the number of photons captured by the channel region.

Abstract: The image capture period of an imaging cell, or the total time that an imaging cell is exposed to light energy, is substantially increased by utilizing a non-volatile memory (NVM), such as an electrically-erasable, programmable, read-only-memory (EEPROM) structure. The NVM structure stores and integrates charges that are proportional to the absorbed photons over a large number of sequential integration periods.

Abstract: An imaging cell reduces recombination losses and increases sensitivity by forming a low resistance lateral path with a silicon germanium layer of a conductivity type that is sandwiched between silicon layers of the same conductivity type. The silicon germanium layer also provides a quantum well from which photo-generated electrons find it difficult to escape, thereby providing a barrier that reduces cross-talk.

Abstract: An integrated circuit trim structure includes a dopant source, a target trim element formed in proximity to the dopant source, and a conductive heating element. The heater element is formed in proximity to the dopant source and includes first and second terminals and a trapezoid shaped region formed between the first and second terminals. As predefined current pulse is applied to the first terminal to promote current flow between the first and second terminals, a local heat source is created at a predefined location within the trapezoid shaped region and in proximity to the dopant source such that dopant flows from the dopant source into the target trim element to change the conductive characteristics of the target trim element.

Abstract: A power transistor structure uses metal drain and source strips with non-uniform widths to reduce variations in current density across the power transistor structure. The reductions in current density, in turn, reduce the source-to-drain turn on resistance and maximize the overall current carrying capacity of power transistor structure.

Abstract: A combination of materials is used to form the photodiodes of a vertical color imager cell. The materials used to form the photodiodes have different band gaps that allow the photon absorption rates of the photodiodes to be adjusted. By adjusting the photon absorption rates, the sensitivities of the photodiodes and thereby the characteristics of the imager can be adjusted.

Abstract: When a high-voltage, such as from an ESD pulse, is placed across a silicon controlled rectifier, which includes an NPN transistor and a PNP transistor that is connected to the NPN transistor, the likelihood of punch through occurring between two regions of the rectifier is substantially reduced by forming the emitter of one transistor adjacent to the tails of the sinker down region of the other transistor.

Abstract: In a semiconductor structure, interconnects between regions of a single device or different devices are achieved by forming contacts or plugs in thick oxide holes that span across the regions to be interconnected.

Abstract: A photon detector capable of detecting gigahertz frequency optical signals utilizes a layer of photonic material that is formed below of the coil of an inductor. When a pulsed light source is applied to the layer of photonic material, the photonic material generates eddy currents that alter the magnetic flux of the inductor. The signals can then be detected by detecting the change in magnetic flux of the inductor.

Abstract: A color imager, which has a plurality of photodiodes, utilizes a layer of metal that is formed over the photodiodes. The metal layer has a plurality of different sized openings that lie vertically over the photodiodes to physically diffract, and thereby filter, the incident light that strikes the color imager.