Abstract: A word recognition device uses an associative memory to store a plurality of coded words in such a way that a weight is associated with each character of the alphabet of the stored words, wherein equal weights correspond to equal characters. To perform the recognition, a dictionary of words is first chosen; this is stored in the associative memory according to a pre-determined code; a string of characters which correspond to a word to be recognized is received; a sequence of weights corresponding to the string of characters received is supplied to the associative memory; the distance between the word to be recognized and at least some of the stored words is calculated in parallel as the sum of the difference between the weights of each character of the word to be recognized and the weights of each character of the stored words; the minimum distance is identified; and the word stored in the associative memory having the minimum distance is stored.

Abstract: An enhanced fingerprint sensing circuit in which a voltage change is applied to the body during sensing. When the person's fingerprint is being sensed, the person's body is in contact with an electrical terminal. When the sensing occurs, the voltage on the electrical terminal changes, which changes the voltage on the person's body. The pattern of the fingerprint performs two functions in the sensing circuit. In addition to being a plate of a capacitor whose distance is being sensed, it is now a source of input charge as well. The electrical effect on the cell of a voltage change on a person's finger is different at a ridge than at a valley in the fingerprint sensing circuit. Thus, the input capacitance to the sensing circuit is variable, depending upon whether a ridge or a valley is present. The sensing circuit also detects a change in its own capacitance based on the presence of a ridge or a valley.

Abstract: A column decoder circuit for page reading of a semiconductor memory includes a first level decoder stage, a second level decoder stage, and a plurality of bit selection stages, each comprising a plurality of selection branches; wherein each selection branch is connected to a respective input of a multiplexer and has a plurality of first level selector stages and a second level selector stage. Each second level selector stage comprises a first addressing selector for addressing a first group of bit lines. Each bit selection stage further comprises a second addressing selector for addressing a second group of bit lines, current and next page selectors for selecting one of the first and second groups of bit lines.

Abstract: The thin film transistor formed of polycrystalline silicon is positioned adjacent a heat reaction chamber. The gate electrode for the transistor is formed within a silicon substrate and a gate dielectric is positioned over the gate electrode. A pass transistor is coupled to the gate electrode, the pass transistor having a source/drain region in the same semiconductor substrate and positioned adjacent to the gate electrode of the thin film heating transistor. When the pass transistor is enabled, a voltage is applied to the gate electrode which causes the current to flow from the drain to the source of the thin film transistor. The current flow passes through a highly resistive region which generates heat that is transmitted to the heat reaction chamber.

Abstract: The present invention relates a circuit arrangement for the lowering of the threshold voltage of a diode configured transistor comprising a mirror transistor, a first transistor and a second transistor, said mirror transistor and said first transistor having in common the gate electrodes in a circuit node, said second transistor being connected in a transdiode configuration and placed between the gate electrode and the drain electrode of said first transistor, and a current source being connected to the gate electrode of said first transistor and to the drain electrode of said second transistor, characterized by comprising a third transistor which is configured to receive a switching signal at its gate electrode and is connected between the drain and the gate electrode of said first transistor.

Abstract: A differential amplifier circuit comprises: an amplifying section including first and second current branches and an output stage which comprises a current sinking element and a control element. The circuit also includes a current limiting section which comprises a current detecting element connected to detect the current through the current sinking element and arranged to drive the current limiting element when the detected current exceeds a predetermined threshold to inject current at the collector of the transistor in the first current branch.

Abstract: An x-ray protection circuit for a video processor, to disable a horizontal output pulse when a voltage level on the x-ray input exceeds a reference voltage. The x-ray protection circuit comprises a comparator and a bistable device, and incorporates a reset circuit. The reset circuit enables the initialisation of the protection circuit whilst the power is switched on.

Abstract: This invention is directed to a method of making a capacitive distance sensor that includes one or more sensor cells each with first and second capacitor plates. The method includes determining an expected range of sizes of objects the sensor will be used to detect and determining a total perimeter value for each of a plurality of capacitor patterns. Each capacitor pattern includes a different arrangement of the first and second capacitor plates and the total perimeter value is the sum of the perimeter values for the first and second capacitor plates. The method selects one of the capacitor patterns based on the expected size of the object and on the total perimeter values determined for the capacitor patterns. The selecting step includes selecting whichever one of the capacitor patterns has the largest total perimeter value if the object is smaller than each of the one or more sensor cells.

Abstract: A write head is described having a switchable damping resistance coupled in parallel with an inductor. The damping resistance is decoupled from the inductor by rendering a transistor nonconductive when a direction of current in the inductor changes. The damping resistance is then coupled to the inductor before oscillations begin in the current in the inductor. The decoupling of the damping resistor eliminates power dissipation in the damping resistor during a change in the direction of current in the inductor.

Abstract: The microstructure, of semiconductor material, includes a micromotor and an encapsulation structure. The micromotor is externally delimited by a first and a second faces, opposed to one another, and by a side delimitation trench. The encapsulation structure surrounds the micromotor and has a bottom portion facing the second face of the micromotor, and an outer lateral portion facing the side delimitation trench. An outer separation trench extends through the bottom portion of the encapsulation structure, separates a mobile region from the external side portion, and defines, together with the side delimitation trench, a labyrinthic path for contaminating particles. A sealing ring extends on the bottom portion of the encapsulation structure around an inner separation trench separating the mobile region from a fixed central region and closes a gap between the bottom portion and a mobile component connected to the mobile region of the encapsulation structure.

Abstract: A planar fingerprint pattern detecting array includes a large number of individual skin-distance sensing cells that are arranged in a row/column configuration. Each sensing cell includes an amplifier having an ungrounded input node and an ungrounded output node. Output-to-input negative feedback that is sensitive to the fingerprint pattern is provided for each amplifier by way of (1) a first capacitor plate that is placed vertically under the upper surface of a dielectric layer and is connected to the ungrounded amplifier input node, (2) a second capacitor plate that is placed vertically under the upper surface of the dielectric layer in close horizontal spatial relation to the first capacitor plate and is connected to the ungrounded output node, and (3) an ungrounded fingertip whose fingerprint pattern is to be detected, which ungrounded fingertip is placed on the upper surface of the dielectric layer in close vertical spatial relation with the first and second capacitor plates.

Abstract: A structure and method for creating an integrated circuit passivation (24) comprising, a circuit (16), a dielectric (18), and metal plates (20) over which an insulating layer (26) is disposed that electrically and hermetically isolates the circuit (16), and a discharge layer (32) that is deposited to form a passivation (24) that protects the circuit (16) from electrostatic discharges caused by, e.g., a finger, is disclosed.

Abstract: The programming method comprises supplying a turnoff voltage to the source terminal of the selected cells when writing the cells. The turnoff voltage is a positive voltage of greater amplitude than the absolute value of the threshold voltage of the most written cell, i.e., the most depleted cell, taking into account the body effect. For example, the turnoff voltage may be 1 V greater than the absolute value of the threshold voltage of the most written cell. Advantageously, the turnoff voltage may be 5-6 V; to take into account the process, supply, and temperature variations, the turnoff voltage may be 7-8 V. The programming method is advantageously applicable to EEPROM memory devices with divided source lines, so as to apply the turnoff voltage only to the addressed byte or bytes, or to the page containing the addressed byte.

Abstract: The optimized soft programming method is used in a memory consisting of a plurality of cells that are grouped into sectors. The cells that belong to a single sector have gate terminals connected to a plurality of word lines, and drain terminals connected to a plurality of local bit lines. The soft programming method consists of selecting at least one local bit line in the sector, and simultaneously selecting all the word lines in the same sector. A corresponding gate voltage is applied to all the word lines, whereas a constant drain voltage, with a pre-determined value is applied to the local bit line.

Abstract: The protection circuit includes a reference voltage source and at least one circuit which are connected together via a switch. A memory element is connected to the input of the circuit, downstream of the switch. The switch is temporarily opened by a control signal generated by a monostable circuit when detecting switching of power elements belonging to an electronic device embedding the protection circuit. When the switch is open, the memory element supplies the circuit with the reference voltage previously stored. In this way, switching of the power element that might cause noise on the reference voltage cannot disturb the circuit and thereby cannot cause a faulty operation of the latter.

Abstract: A radiation hardened memory device includes active gate isolation structures placed in series with conventional oxide isolation regions between the active regions of a memory cell array. The active gate isolation structure includes a gate oxide and polycrystalline silicon gate layer electrically coupled to a voltage potential resulting in an active gate isolation structure that prevents a conductive channel extending from adjacent active regions from forming. The gate oxide of the active gate isolation structures is relatively thin compared to the conventional oxide isolation regions and thus, will be less susceptible to any adverse influence from trapped charges caused by radiation exposure.

Abstract: An integrated circuit includes a sensor that reads a fingerprint and provides data corresponding to the fingerprint to a computation engine coupled to the sensor. The computation engine compares the data to stored data and enables a smart card coupled to the computation engine when the data and the stored data match. The computation engine may include an array of flash memory cells arranged in pairs of rows, where flash memory cells in any one row have sources coupled to a common row line and a plurality of conductance mode neurons each having first and second inputs coupled to first and second row lines forming a respective pair of rows. The neurons are coupled to the flash memory cells through a buffer circuit sets a drain-source voltage of the flash memory cells in the row pair coupled to the neuron.

Abstract: A distance sensor has a capacitive element in turn having a first capacitor plate which is positioned facing a second capacitor plate whose distance is to be measured. In the case of fingerprinting, the second capacitor plate is defined directly by the skin surface of the finger being printed. The sensor comprises an inverting amplifier, between the input and output of which the capacitive element is connected to form a negative feedback branch. By supplying an electric charge step to the input of the inverting amplifier, a voltage step directly proportional to the distance being measured is obtained at the output.

Abstract: An electrical cabinet configured to accept a number of individual circuit boards and provide a mechanism for remotely interconnecting movable connectors on each circuit board with stationary connectors mounted within the electrical cabinet. The circuit boards are grouped into a number of circuit board assemblies. Each circuit board assembly includes a frame configured to cooperate with a slot in the cabinet to align the movable connector elements on the circuit boards with the stationary connector elements in the cabinet. The circuit boards each include a first mechanism acting from a remote location to gently urge the counterpart connector elements together, and a second mechanism also acting from a remote location to gently disengage the mated connector elements.

Abstract: An electronic system, an integrated circuit and a method for display are disclosed. The electronic system contains a first device, a memory and a video/audio compression/decompression device such as a decoder/encoder. The electronic system is configured to allow the first device and the video/audio compression/decompression device to share the memory. The electronic system may be included in a computer in which case the memory is a main memory. Memory access is accomplished by one or more memory interfaces, direct coupling of the memory to a bus, or direct coupling of the first device and decoder/encoder to a bus. An arbiter selectively provides access for the first device and/or the decoder/encoder to the memory. The arbiter may be monolithically integrated into a memory interface. The decoder may be a video decoder configured to comply with the MPEG-2 standard. The memory may store predicted images obtained from a preceding image.