Abstract: In an ESD protection structure, dual direction ESD protection is provided by forming an n-well isolation ring around an NMOS device so that the p-well in which the NMOS drain is formed is isolated from the underlying p-substrate by the n-well isolation ring. By forming the n-well isolation ring the p-n-p-n structure of an embedded SCR for reverse ESD protection is provided. The width of the n-well isolation ring and its spacing from the NMOS drain are adjusted to provide the desired SCR parameters.

Abstract: In a fuse-based programmable circuit block, the poly-fuse is burned out by making use of a snapback device connected in series with the poly-fuse.

Abstract: An apparatus and method for using anti-fuse bond pads used to provide trimmed resistor values to the input terminals of circuits on an integrated circuit die. The apparatus and method comprises fabricating on a semiconductor integrated circuit a resistive network. The resistive network includes a first terminal, a second terminal and a resistor coupled between the two terminals. An anti-fuse bond pad and a trimming resistor are coupled between the first terminal and the second terminal. The trimming resistor is configured to be electrically coupled between the first terminal and the second terminal when a ball bond is formed on the anti-fuse bond pad. In various embodiments, a plurality of the anti-fuse bond pads and trimming resistors may be coupled between the two terminals. By selectively forming ball bonds on the plurality of anti-fuse bond pads, the resistance of the network can be selectively trimmed as needed.

Abstract: In an EEPROM array the cells are pre-charged or pre-erased so that they will respond uniformly to the same read voltage level. By clearly defining the threshold voltage for the cells in their erased states and in their programmed states, it is possible to define more than one read voltage and thus provide cells that an store multiple values and even analog values.

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 micro-electromechanical system (MEMS) inductor is formed in a saucer shape that completely surrounds a magnetic core structure which is formed from a ferromagnetic material. In addition, an array of MEMS inductors can be formed by dividing up the saucer-shaped MEMS inductor into a number of electrically-isolated MEMS inductor wedges.

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: A storage device that is capable of receiving an analog signal and storing it as a digital signal. The storage device includes an input node configured to receive an analog input voltage and two non-volatile storage cells. A second non-volatile memory cell is coupled to receive the analog input signal from the input node. The second non-volatile memory cell is capable of being programmed to a one of a plurality of programming states. The first non-volatile memory cell, which is coupled to the second non-volatile memory cell, is also capable of being programmed to one of a plurality of programming states. During operation, the second non-volatile memory cell and the first non-volatile memory cell are both programmed to a selected second programming state indicative of the magnitude of the analog input voltage. The first programming state and the second programming state are together are indicative of a digital value commensurate with the magnitude of the analog input voltage.

Abstract: The snapback characteristics of the parasitic NPN structure inside an NMOS device are used to write and store information in the device by periodically triggering the device from the high impedance state to the low impedance state using the self turn-on characteristics of the device under elevated voltage. To minimize power consumption, and thus overheating, in the “on” state, a pulsed mode operation is combined with dV/dt triggering powering the device at a constant Vdd pulse amplitude.

Abstract: A transistor array is self-protected from an electrostatic discharge (ESD) event which can cause localized ESD damage by integrating an ESD protection device into the transistor array. The ESD protection device operates as a transistor during normal operating conditions, and provides a low-resistance current path during an ESD event.

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 integrated circuit is powered by exposing conductive regions, such as the p+ source regions of the PMOS transistors that are formed to receive a supply voltage, to light energy from a light source. The conductive regions function as photodiodes that produce voltages on the conductive regions via the photovoltaic effect.

Abstract: A MOSFET transistor structure is formed in a substrate of semiconductor material having a first conductivity type. The MOSFET transistor structure includes an active region that is surrounded by a perimeter isolation dielectric material formed in the substrate to define a continuous sidewall interface between the sidewall dielectric material and the active region. Spaced-apart source and drain regions are formed in the active region and are also spaced-apart from the sidewall interface. A conductive gate electrode that is separated from the substrate channel region by intervening gate dielectric material includes a first portion that extends over the substrate channel region and a second portion that extends continuously over the entire sidewall interface between the isolation dielectric material and the active region.

Abstract: An implant is added at the interface between the source region of an MOS transistor and the well material to improve dynamic IR drop performance. The additional implant raises the underlying capacitance of the source region. This, in turn, provides for an increase in charge storage which, in turn, provides for an improved level of protection against dynamic IR drop.

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 synchronous clock signal is generated in a large number of local clock circuits at the same time by exposing photoconductive regions in each local clock circuit to a pulsed light source that operates at a fixed frequency. The photoconductive regions generate photoconductive currents which are sufficient to cause a logic inverter to switch states.

Abstract: In a method and structure for a high voltage LDMOS with reduced hot carrier degradation, the thick field oxide is eliminated and a reduced surface field achieved instead by including adjacent p+ and n+ regions in the drain well and shorting these regions to each other, or by including a p+ region in the drain well and biasing it to a positive voltage relative to the source voltage.

Abstract: A semiconductor technology combines a normally off n-channel channel-junction insulated-gate field-effect transistor (“IGFET”) (104) and an n-channel surface-channel IGFET (100 or 160) to reduce low-frequency 1/f noise. The channel-junction IGFET is normally of materially greater gate dielectric thickness than the surface-channel IGFET so as to operate across a greater voltage range than the surface-channel IGFET. Alternatively or additionally, the channel-junction IGFET may conduct current through a field-induced surface channel. A p-channel surface-channel IGFET (102 or 162), which is typically of approximately the same gate-dielectric thickness as the n-channel surface-channel IGFET, is preferably combined with the two n-channel IGFETs to produce a complementary-IGFET structure. A further p-channel IGFET (106, 180, 184, or 192), which is typically of approximately the same gate dielectric thickness as the n-channel channel-junction IGFET, is also preferably included.

Abstract: In a multiple input ESD protection structure, the inputs are isolated from the substrate by highly doped regions of opposite polarity to the input regions. Dual polarity is achieved by providing a symmetrical structure with n+ and p+ regions forming each dual polarity input. The inputs are formed in a p-well which, in turn, is formed in a n-well. Each dual polarity input is isolated by a PBL under the p-well, and a NISO underneath the n-well. An isolation ring separates and surrounds the inputs. The isolation ring comprises a p+ ring or a p+ region, n+ region, and p+ region formed into adjacent rings.

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.