Abstract: A radiation sensor includes first and second pixels with a radiation absorption filter positioned over the first pixel and an interference filter positioned over both the first and second pixels. The combined spectral response of the absorption filter and the first pixel has a first pixel pass-band and a first pixel stop-band. The spectral response of the interference filter has an interference filter pass-band which is substantially within the first pixel pass-band for radiation incident on the interference filter at a first angle of incidence, and substantially within the first pixel stop-band for radiation incident on the interference filter at a second angle of incidence greater than the first angle of incidence.

Abstract: A sensor array microchip apparatus includes a substrate and a lens positioned over the substrate. A plurality of radiation sensor elements are formed on the substrate in an array format and spatially separated from each other. The substrate further includes power supply circuitry (generating power for the radiation sensor elements) and processing circuitry (operable to control and process information from the radiation sensor elements). The power supply circuitry and said processing circuitry are positioned on the substrate within the array between two or more of the radiation sensor elements. The lens, in combination with the spatial separation of the radiation sensor elements in the array format, defines a relatively wide (30-80 degrees) field of regard for the sensor.

Abstract: A process for producing an upper metallization level and a via level connecting this upper metallization level to a lower metallization level includes: producing an insulating region on the lower metallization level; producing a hard mask on the insulating region (4, 5) defining the position of the via and metallic line of the upper metallization level; etching the insulating region through the hard mask so as to form a cavity; cleaning the cavity (which forms an undercut at the interface between the hard mask and the insulating region); and completely filling the cavity. The step of completely filling includes at least partially filling the cavity with copper and plugging the undercut. The undercut is plugged by sputtering a plugging material and forming an overlying doped copper layer.

Abstract: A voltage booster device may include a plurality of multiplication stages arranged in a sequence so that an input terminal of each multiplication stage, with the exception of a first multiplication stage, is connected to an output terminal of a previous multiplication stage. Each multiplication stage may include pumping circuitry for accumulating an electric charge proportional to a pump voltage value of the multiplication stage. Each multiplication stage may also include a phase signal generating circuit for switching the multiplication stages between a transfer phase and a maintaining phase. In at least one of the stages, the pumping circuitry may include at least two series connected charge accumulators. A terminal may be shared between the charge accumulators and may be connected through biasing circuitry to an output terminal of a previous multiplication stage for forcing the charge accumulators within a threshold potential drop value.

Abstract: An image sensor may include a shared memory resource, which can be selectively used by a digital filter for image scaling or by a defect correction circuit.

Abstract: Continuous time analogue/digital converter, comprising a sigma delta modulator (MSD1) configured to receive an analogue input signal (x(t)) and comprising high-pass filtering means (MF) the chopping frequency of which is equal to half of the sampling frequency (Fs) of the quantization means (QTZ) of the modulator (MSD1).

Abstract: An image sensor may selectively produce an effect, such as simulating a night vision scope, by controlling existing hardware to vary anti-vignetting and gamma.

Abstract: Disclosed is a sensor apparatus comprising a plurality of pixels, a digital to analog converter for providing a ramp signal, A comparator for comparing the output level of each pixel to said ramp signal, and memory for storing the digital value that corresponds to said output level for each pixel, the sensor apparatus thereby converting the analog output level of each pixel to a digital value. The apparatus operates by providing an analog output that is sourced from the digital to analog converter used to provide said ramp signal.

Abstract: A system for providing an assembler for a microprocessor has a file which contains data describing the instruction set of the microprocessor. A translation device for translating into machine language accesses the instruction set descriptors to constrain the machine code output of the assembler to conform to the architecture of the instruction set.

Abstract: A method and system is for limiting the x-droop effect in the digital image captured with solid state image sensors with a correction mechanism which instead of using only correction values from the same column to which the correction is applied, also takes the neighboring pixels into account to provide an averaged value to aid in the reduction of temporal and fixed noise contributions associated with the readout of a single pixel.

Abstract: An optical mouse includes an image sensor for providing image data via an analog-to-digital converter to a correlation circuit and a motion estimation circuit to provide output signals representative of motion of the mouse. The output signals may be disabled when the mouse is lifted away from the working surface. This may be achieved by high-pass filtering the signals, summing each frame in a summer to provide a single value, and comparing this to a threshold. If the filtered and summed value exceeds the threshold, this may indicate that the image contains in-focus objects, and that the mouse is on the working surface.

Abstract: A method of producing a transistor having parallel semiconductor nanofingers. The method includes: forming a monocrystalline layer of a semiconductor material on a layer of a subjacent material which can be selectively etched in relation to the monocrystalline layer; etching parallel partitions in the monocrystalline layer and in the subjacent layer and continuing said etching operation in order to hollow out part of the subjacent layer of material; filling the gap between the partitions and the hollowed-out part with a first insulating material; defining a central part of the partitions and removing the first insulating material from around the central part of the monocrystalline layer, thereby forming a finger of semiconductor material; and filling and coating the central part with a conductor material.

Abstract: Methods and systems are disclosed for interoperations between single-radio (channel switching) devices, dual radio devices, and single-radio (always-on) devices in radio communication systems, both with and without a safety channel. The methods and systems may be applied in communication systems for wireless access in vehicular environments (WAVE), such as those according to IEEE 802.11p. When there is a safety channel, some embodiments add a Safety Channel Interval within an operation period. Other embodiments disclose how various device types can operate to coordinate safety message transmissions, both with and without a safety channel.

Abstract: A self-coexistence window reservation protocol for a plurality of Wireless Regional Area Network (WRAN) cells operating in a WRAN over a plurality of channels includes a sequence of self-coexistence windows that uniquely identifies a transmission period for each WRAN cell. A self-coexistence window reservation protocol is included within the first packet of a Coexistence Beaconing Protocol period identifying when each WRAN cell associated with a particular channel will transmit. When not actively transmitting, a WRAN cells remains in a passive, receiving mode to accept data. As the transmissions of each WRAN cell operating on a particular channel are scheduled, contention for a transmission period is eliminated.

Abstract: A monitoring device may include a core cell including a detection circuit, and a radio frequency (RF) tag antenna configured to exchange data with a data acquisition reader device, and a single-tier corolla having sensor cells around the core cell and covering a monitoring area. The sensor cells may be configured to convert a change of a parameter at the cell location. The detection circuit may be configured to detect a change in the parameter and location based upon excitation by the reader device.

Abstract: A method for detecting the state of at least one element of a circuit comprising one or several loads, powered by an A.C. voltage and in series with at least one first switch. The state of the element is obtained by analyzing, at several times in a period of the A.C. voltage, the amplitude of a current sampled from the junction point of the load and of the first switch.

Abstract: A multi-axis gyroscope includes a microelectromechanical structure configured to rotate with respective angular velocities about respective reference axes, and including detection elements, which are sensitive in respective detection directions and generate respective detection quantities as a function of projections of the angular velocities in the detection directions. The gyroscope including a reading circuit that generates electrical output signals, each correlated to a respective one of the angular velocities, as a function of the detection quantities. The reading circuit includes a combination stage that combines electrically with respect to one another electrical quantities correlated to detection quantities generated by detection elements sensitive to detection directions different from one another, so as to take into account a non-zero angle of inclination of the detection directions with respect to the reference axes.

Abstract: An integrated MEMS gyroscope, is provided with: at least a first driving mass driven with a first driving movement along a first axis upon biasing of an assembly of driving electrodes, the first driving movement generating at least one sensing movement, in the presence of rotations of the integrated MEMS gyroscope; and at least a second driving mass driven with a second driving movement along a second axis, transverse to the first axis, the second driving movement generating at least a respective sensing movement, in the presence of rotations of the integrated MEMS gyroscope. The integrated MEMS gyroscope is moreover provided with a first elastic coupling element, which elastically couples the first driving mass and the second driving mass in such a way as to couple the first driving movement to the second driving movement with a given ratio of movement.

Abstract: A negative voltage level shifter circuit includes a pair of input transistors, a gate of each input transistor being driven by one of an input signal and an inverted version of the input signal, a cascode sub-circuit coupled to the pair of input transistors, and a pair of cross-coupled transistors for locking a state of the voltage level shifter depending on the input signal, wherein respective gates of the cross-coupled transistors are driven by outputs of respective comparator sub-circuits.

Abstract: A power supply circuit capable of providing two regulated voltages based on a D.C. input voltage, including a boost converter and a buck-boost converter, the circuit including a single inductive element common to the boost and buck-boost converters.