Abstract: A photodetector detects the absence or presence of light by detecting a change in the inductance of a coil. The magnetic field generated when a current flows through the coil passes through an electron-hole generation region. Charged particles in the electron-hole generation region come under the influence of the magnetic field, and generate eddy currents whose magnitudes depend on whether light is absent or present. The eddy currents generate a magnetic field that opposes the magnetic field generated by current flowing through the coil.

Abstract: A photodetector detects the absence or presence of light by detecting a change in the inductance of a coil. The magnetic field generated when a current flows through the coil passes through an electron-hole generation region. Charged particles in the electron-hole generation region come under the influence of the magnetic field, and generate eddy currents whose magnitudes depend on whether light is absent or present. The eddy currents generate a magnetic field that opposes the magnetic field generated by current flowing through the coil.

Abstract: In a ESD protection device, hot carrier degradation and soft leakage are reduced by introducing a dynamic driver that includes a RC circuit for keeping the triggering circuit of the ESD device in an on-state for a certain period of time. This allows the current through the ESD protection device to be reduced during the RC delay time.

Abstract: In some embodiments, a chip with a metal heat flow path extending between a terminal of a transistor thereof and bulk semiconductor material of the chip (e.g., from the terminal to a substrate over which the transistor is formed or to the body of a semiconductor device adjacent to the transistor) and methods for manufacturing such a chip. The chip can be implemented by a semiconductor on insulator (SOI) process and can include at least one bipolar or MOS transistor, an insulator underlying the transistor, a semiconductor substrate underlying the insulator, and a metal heat flow path extending between a terminal of the transistor through the insulator to the substrate. Preferably, the metal heat flow path is a metal interconnect formed by a process step (or steps) of the same type performed to produce other metal interconnects of the chip.

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 pressure sensing system formed in a monolithic semiconductor substrate. The pressure sensing system comprises a pressure sensing device formed on the monolithic semiconductor substrate. The pressure sensing device is adapted to be disposed in an environment for developing an electrical pressure signal corresponding to the pressure in the environment. The system includes driver circuitry formed in the monolithic semiconductor substrate. The driver circuitry is responsive to input electrical signal for generating an output pressure signal. A conductive interconnect structure formed in the monolithic semiconductor substrate to electrically connects the pressure sensing device to the driver circuitry such that electrical pressure signals developed by the pressure sensing device are provided as input electrical signals to the driver circuitry.

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: 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 capacitor structure is formed in a wedge-shaped trench by forming alternating layers of insulating material and conductive material in the trench such that each layer of conductive material formed in the trench is electrically isolated from adjacent layers of conductive material formed in the trench. A first electrical contact is formed to electrically link in parallel a first set of alternating layers of conductive material. A second electrical contact is formed to electrically link in parallel a second set of alternating layers of conductive material. The two electrically isolated sets of inter-linked layers of conductive material define the interdigitated capacitor structure.

Abstract: A zener diode is formed in a bipolar or BiCMOS fabrication process by modifying the existing masks that are used in the bipolar or BiCMOS fabrication process, thereby eliminating the need for a separate doping step. In addition, the reverse breakdown voltage of the zener diode is set to a desired value within a range of values by modifying the area of a new opening in one of existing masks.

Abstract: In an ESD protection device and method, greater stability is achieved in a MOS device by replacing the thin gate oxide with a shallow trench isolation region, and breakdown voltages are reduced by providing for dynamic substrate control. In the case of NMOS, the dynamic substrate control also has the effect of reducing triggering voltage.