34th week of 2009 patent applcation highlights part 18 |
Patent application number | Title | Published |
20090206797 | Methods and Apparatus for Dynamically Charging Batteries for an Information Handling System - The disclosure provides a method for charging a battery in an information handling system. The method includes prompting a user to select from a plurality of charging modes for the battery, wherein the charging modes comprise a first mode, a second mode, or a third mode. The method further includes charging the battery in the first mode when the first mode is selected, wherein a charge voltage and a charge current are constant In the first mode, and charging the battery dynamically when the second mode or the third mode is selected, wherein the charge current changes dynamically based on a battery temperature. | 2009-08-20 |
20090206798 | POWER SOURCE WITH TEMPERATURE SENSING - A modular and scalable power source can be used to supplement and/or replace existing sources of power. In some embodiments, a DC source can be used to charge a battery in a host system, provide power as a back-up system, or be a primary source of power. The power source includes a set of battery units and one or more circuits that provide an alternative signal path around the battery units if the battery units are at a particular charge level. Temperature sensors are used to turn off or otherwise adjust the alternative signal paths if the temperatures of the alternative signal paths become too high. | 2009-08-20 |
20090206799 | Power Supply System for a Portable Electronic Device and Related Device and Method - A power supply system for a portable electronic device includes a rechargeable battery capable of being coupled to the portable electronic device by insertion for providing operating power for the portable electronic device, a storage device installed in the rechargeable battery, and a recharging device installed in the portable electronic device for charging the rechargeable battery and storing corresponding usage status data into the storage device when the rechargeable battery is coupled to the portable electronic device. | 2009-08-20 |
20090206800 | Electronic Device and Connector Fitting Method - An electronic device ( | 2009-08-20 |
20090206801 | CONTROL APPARATUS FOR IN-VEHICLE AC GENERATOR - Power-generation control operation for an in-vehicle electric generator is further stabilized in such a way that, in the case where a signal at an external-control-signal input terminal changes, a function of on/off-controlling a magnetic-field current in a constant cycle is interrupted. In a control apparatus, for an in-vehicle electric generator, that has a function of adjusting a generation voltage to a predetermined voltage, by on/off-controlling a magnetic-field current in a constant cycle, and variably controlling an adjustment voltage, based on an input signal from an external control unit, in the case where a signal at an external-control-signal input terminal is fixed for a long time, the function of on/off-controlling the magnetic-field current in the constant cycle is activated, and in the case where the signal at the external-control-signal input terminal changes, the function of on/off-controlling the magnetic-field current in the constant cycle is interrupted. | 2009-08-20 |
20090206802 | Abnormality detection apparatus - The abnormality detection apparatus includes a first function of measuring a first temperature of a first portion of the abnormality detection apparatus, the first temperature having a correlation with a second temperature of a second portion of a vehicle alternator, a second function of integrating a stress depending on a temperature variation of the first portion on the basis of the first temperature measured by the first function, a third function of predicting occurrence of abnormality in the second portion depending on the stress integrated by the second function, and a fourth function of issuing an alarm when the third function predicts occurrence of abnormality. | 2009-08-20 |
20090206803 | APPARATUS AND METHOD FOR HARVESTING ENERGY FOR WIRELESS FLUID STREAM SENSORS - A method for harvesting energy for wireless fluid stream sensors is provided that includes locating a wireless fluid stream sensor in a fluid stream. The wireless fluid stream sensor includes a flexible membrane and a rod. Energy is harvested based on strain induced in the flexible membrane due to movement of the rod. The wireless fluid stream sensor may be powered with the harvested energy. The energy may be harvested with piezoelectric elements that are coupled to the flexible membrane or with piezoelectric elements or other type of energy-harvesting components that are located remotely from the wireless fluid stream sensor. | 2009-08-20 |
20090206804 | Quasi-Parallel Voltage Regulator - Improved regulation and transient response are provided by a power supply architecture providing both unregulated and regulated voltage converters in parallel but deriving input power from separate power supplies connected in series wherein regulated and unregulated branches each provide a substantially fixed and constant proportion of the output current. The series connection of input power sources may provide a further feedback mechanism in addition to feedback for regulation which enhances overall performance. As a perfecting feature of the invention, inductor-less resonant converters which are switched in an interleaved fashion may be used in the unregulated branch while substantially cancelling the characteristic large output voltage ripple thereof. | 2009-08-20 |
20090206805 | Converter and Driving Method Thereof - The present invention relates to a converter and a driving method thereof. The converter includes a switch controller that controls switching operation of a master switch and a slave switch. The switch controller detects a center point of one switching operation period of the master switch by using an internal triangular wave having a period that is the same as that of the one switching operation period, and starts the switching operation of the slave switch at the detected point. The internal triangular wave signal has a waveform that varies within one period, and detects a crossing point of an average value of the internal triangular wave and the internal triangular wave as a center point of one switching operation period of the master switch. | 2009-08-20 |
20090206806 | VOLTAGE COMPARISON CIRCUIT, AND SEMICONDUCTOR INTEGRATED CIRCUIT AND ELECTRONIC DEVICE HAVING THE SAME - A disclosed voltage comparison circuit for detecting a voltage difference of two input signals includes one or more differential amplifier circuits, each of which has a differential pair of first and second input transistors each having an electrode to which a corresponding one of the input signals is input, a constant current circuit configured to generate constant current according to a control signal and supply the constant current to the first and second input transistors, and a first resistor connected between the constant current circuit and the first input transistor; and a current control circuit configured to control a value of the first constant current. The current control circuit controls the value so that a voltage difference between both ends of the first resistor becomes equal to a predetermined value. | 2009-08-20 |
20090206807 | Voltage regulator - Provided is a voltage regulator including an overcurrent protection circuit, which is capable of enhancing accuracy of a limit current value and a short-circuit current value, and suppressing electric power loss when an overcurrent flows through an output transistor. The overcurrent protection circuit includes: an output current detection transistor controlled by an output voltage of an error amplifier circuit, for feeding a detection current; a detection resistor for generating a detection voltage based on the detection current; a second error amplifier circuit for amplifying a difference between a voltage set by a second reference voltage and a divided voltage, and the voltage of the detection resistor, and outputting the amplified difference; and an output current limiting circuit in which a gate thereof is controlled by an output of the second error amplifier circuit, for controlling a gate voltage of the output transistor. Further, the second reference voltage is supplied from a temperature detection circuit. | 2009-08-20 |
20090206808 | Method for Generating an Internal Compensation Network of a Pole and Two Zeros to Compensate High Frequency Voltage Mode Switching Regulators - A method for controlling a switching voltage regulator that includes generating a feedback voltage that is proportional to the output voltage of the voltage regulator; generating a voltage proportional to the duty-cycle of the inductor charging and discharging phases as a function of the difference between the feedback voltage and a reference voltage; and adding a dominate pole and two zeros to the function used to generate the voltage proportional to the duty-cycle of the inductor charging and discharging phases. | 2009-08-20 |
20090206809 | Interleaved Switching Converter, and Switching Controller and Controlling Method Thereof - In an interleaved switching converter, a first converter including a first switch is coupled to a second converter including a second switch. A switching controller for controlling the first switch and the second switch outputs a second control signal for operating the second switch based a first control signal for operating the first switch. A phase shift between the first control signal and the second control signal is 180 degrees. | 2009-08-20 |
20090206810 | SWITCHED MODE POWER SUPPLY HAVING IMPROVED TRANSIENT RESPONSE - A switched mode power supply has a high side switching transistor coupled between a voltage source and a load for generating the output voltage at the load. A driver circuit drives the high side switching transistor. A first resistor divider is coupled to the output voltage and has a first tap. An error amplifier has a first input coupled to the first tap and a compensated feedback loop. A second resistor divider is coupled to the output voltage and has a second tap, resistance of the second resistor divider being less than resistance of the first resistor divider. A switch is coupled to the second tap and to the first input of the error amplifier for connecting the second tap to the first input of the error amplifier when the output voltage of the switched mode power supply reaches a first predetermined voltage. | 2009-08-20 |
20090206811 | CURRENT LIMITED VOLTAGE SOURCE WITH WIDE INPUT CURRENT RANGE - An integrated electronic device includes circuitry for providing a regulated output supply voltage level at an output node from an adjustable current. The circuitry includes an adjustable current source for providing the adjustable current and for adjusting the adjustable current to a magnitude of a target value in response to a configuration signal, an auxiliary adjustable current source providing an auxiliary adjustable current having a magnitude corresponding to the target value, and an output supply voltage level regulating loop coupled to the output node and adapted to keep the output supply voltage level at a preset value. A current selecting stage is adapted to receive the adjustable current and the auxiliary current. The current selecting stage is further adapted to supply a selected current corresponding to a lesser value of the adjustable current and the auxiliary adjustable current. Further, a current limiting stage is coupled to the output node for limiting the selected current to a predefined magnitude. | 2009-08-20 |
20090206812 | POWER SWITCHING CIRCUIT IMPROVED TO REDUCE LOSS DUE TO REVERSE RECOVERY CURRENT - In a power switching circuit, a second commutation member has a second commutation path electrically connected in parallel to a first commutation path and a second diode provided in the second commutation path and electrically connected antiparallel to a semiconductor switching element. While the semiconductor switching element is off, the second commutation path allows a second current based on the inductive load to flow therethrough in a forward direction of the second diode within a commutation period. The second diode has a second reverse recovery time shorter than a first reverse recovery time of the first diode. A second inductance of the second commutation path is higher than a first inductance of the first commutation path. | 2009-08-20 |
20090206813 | POWER SUPPLY CIRCUIT - A power supply circuit includes a first voltage regulator, a second voltage regulator, and a voltage comparator. The first voltage regulator is connected to a direct current power supply, and regulates a direct current supply voltage down to a first voltage level to output a first voltage at a first output terminal. The second voltage regulator is connected to the first voltage regulator, and regulates the first output voltage down to a constant, second voltage level to output a second voltage at a second output terminal. The voltage comparator is connected to the first and second voltage regulators, compares the first output voltage against a given threshold level greater than the second voltage level, and deactivates the second voltage regulator until the first output voltage exceeds the given threshold level upon startup of the power supply circuit. | 2009-08-20 |
20090206814 | METHOD AND SYSTEM FOR EFFICIENT POWER CONTROL WITH MULTIPLE MODES - Method and system for efficient power control with multiple modes. According to an embodiment, the present invention provides a power system with selectable power modes. The power system includes a first terminal for outputting energy, and the first terminal is electrically coupled to a load. The system also includes a pulse-frequency modulation (PFM) component that is configured to adjust a pulse frequency based on the load. The system additionally includes a pulse-width modulation (PWM) component that is configured to adjust a pulse width based on the load. The system further includes a switch that is electrically coupled to the first terminal. Also, the system includes a control component, the control component being configured to provide a control signal that is capable of causing the switch to be turned on or off. The control signal is associated with an output of the PWM component and the pulse width if an output is greater than a predetermined value. The control signal is associated with an output of the PFM component and the pulse frequency if an output is lower than a predetermined value. | 2009-08-20 |
20090206815 | SLOPE RATE COMPENSATION CIRCUIT, METHOD THEREOF AND PULSE WIDTH MODULATION BOOST CONVERTER CIRCUIT - A slope rate compensation circuit includes a source follower level-shift amplifier, a capacitor, a first resistor and a second resistor. The source follower level-shift amplifier includes a first transistor and a second transistor. The first transistor allows a first current to flow therein, the second transistor allows a second current to flow therein, and the first current increases with the second current. The capacitor is connected to the source terminal of the first transistor. The first resistor is connected to the source terminal of the second transistor. The second resistor allows a third current to flow therein, and the third current increases with the second current. The second resistor is related to the output voltage of the slope rate compensation circuit. | 2009-08-20 |
20090206816 | CONTROLLER FOR A DOMESTIC APPLIANCE, DOMESTIC APPLIANCE AND ASSOCIATED METHOD - A controller for functionally controlling a domestic appliance, such as a dryer, comprises a monitoring device that monitors the correct functioning of the domestic appliance. The domestic appliance has at least one monitoring connection connected to at least one associated evaluation node within a power circuit of the domestic appliance, and an evaluation device evaluates a signal produced at the at least one monitoring connection, for monitoring the correct functioning of the domestic appliance. | 2009-08-20 |
20090206817 | High Voltage Drive Circuit Employing Capacitive Signal Coupling and Associated Devices and Methods - According to one embodiment, there is provided a high voltage drive circuit comprising drive and sense electrodes formed substantially in a single plane. The device effects signal transfer between drive and receive circuits through the drive and sense electrodes by capacitive means, and permits high voltage devices, such as IGBTs, to be driven thereby without the use of high voltage transistors, thereby eliminating the need to use expensive fabrication processes such as SOI when manufacturing high voltage gate drive circuits and ICs. The device may be formed in a small package using, by way of example, using CMOS or other conventional low-cost semiconductor fabrication and packaging processes. | 2009-08-20 |
20090206818 | AC VOLTAGE REGULATION SYSTEM AND METHOD - Control of the RMS AC voltage applied to the load (Motor) utilizes a switching device (SCR) such as a SCR in series between the load and a power source. A controller (lPController) including a processor and an analog to digital converter is connected to the line voltage and floats at line voltage and detects line voltage cross-over ad the voltage drop across the SCR. Abrupt voltage increases in the voltage across the SCR are used to replace the prior art zero current cross-over to permit the calculation of corrective timing to switch the SCR on at the succeeding voltage wave. | 2009-08-20 |
20090206819 | DC-DC CONVERTER FOR A LOW POWER ELECTRONIC CIRCUIT - The DC-DC converter ( | 2009-08-20 |
20090206820 | REAL-TIME MONITORING OF PARTICLES IN SEMICONDUCTOR VACUUM ENVIRONMENT - An apparatus includes semiconductor processing equipment. A particle detecting integrated circuit is positioned in a vacuum environment, the particle detecting integrated circuit containing a device having a pair of conductive lines exposed to the vacuum environment. The pair of conductive lines is spaced at a critical pitch corresponding to diameters of particles of interest. A computer system is linked to the particle detecting integrated circuit to detect a change in an electrical property of the conductive lines when a particle becomes lodged between or on the lines. | 2009-08-20 |
20090206821 | Process variation on-chip sensor - Improved process variation sensors and techniques are disclosed, wherein both global and local variations associated with transistors on an integrated circuit can be monitored. For example, respective circuits for sensing a global process variation, a local process variation between neighboring negative-channel type transistors, and a local process variation between neighboring positive-channel type transistors are disclosed. Further, in one example, a method for sensing a process variation associated with transistors on an integrated circuit includes providing at least one process variation sensor on the integrated circuit, the process variation sensor comprising a sensing portion including one or more transistors and a loading and amplification portion including one or more transistors, and operating the one or more transistors of the sensing portion and the one or more transistors of the loading and amplification portion in a subthreshold region of transistor operation such that when a threshold voltage of at least one of the transistors changes, a process variation is sensed. | 2009-08-20 |
20090206822 | Application Of Wideband Sampling For Arc Detection With A Probabilistic Model For Quantitatively Measuring Arc Events - An arc detection system for a plasma generation system includes a radio frequency (RF) sensor that generates first and second signals based on a respective electrical properties of (RF) power that is in communication with a plasma chamber. A correlation module generates an arc detect signal based on the first and second signals. The arc detect signal indicates whether an arc is occurring in the plasma chamber and is employed to vary an aspect of the RF power to extinguish the arc. | 2009-08-20 |
20090206823 | Multi-meter test lead probe for hands-free voltage measurement of control panel industrial terminal blocks - An electrical test lead probe for use with a multi-meter provides for releasable retention in and electrical contact with a terminal of an industrial terminal block. The test lead probe includes a shortened body having an electrically conducting tip that is configured for releasable receipt into a terminal block socket of an industrial terminal block, the terminal block socket housing a terminal of the terminal block. The present terminal block probe, in one form, is permanently attached to a multi-meter test lead. In another form, the present terminal block probe is coupled to a modular multi-meter test lead. In yet another form, the present terminal block probe has a removable head incorporating an electrically conducting tip wherein the body is permanently attached to a multi-meter test lead. In a modular form, a plurality of terminal block probes may be provided each one of which has an electrically conducting tip of a different configuration corresponding to different configurations and/or sizes of industrial terminal block sockets. | 2009-08-20 |
20090206824 | MEASUREMENT AMPLIFICATION DEVICE AND METHOD - Measurement amplification methods and devices for detecting a monopolar input signal (U | 2009-08-20 |
20090206825 | EXCITATION AND MEASUREMENT METHOD FOR A MAGNETIC BIOSENSOR - The present invention relates to an excitation and measurement method for a magnetic biosensor. Using at least a digital magnetic sensor element ( | 2009-08-20 |
20090206826 | Strut position sensor - A power actuator system for a movable vehicle panel such as a lift gate assembly includes a position sensor that detects the pivotal movement of a strut mechanism of the power lift gate assembly relative to the host vehicle. A rotary sensor is coupled directly to an end component of the strut mechanism and provides signals that indicate the total amount of pivotal or rotary movement of the strut mechanism and the lift gate during the opening and closing of the lift gate. The signals provide information to determine the absolute position of the strut and the lift gate for processing in the vehicle's electronic control unit. | 2009-08-20 |
20090206827 | ROTATION-ANGLE-DETECTING APPARATUS, ROTATING MACHINE, AND ROTATION-ANGLE-DETECTING METHOD - A rotation-angle-detecting apparatus comprising a magnet rotor having 4 or more magnetic poles on the surface, and sensor device for detecting magnetic flux from the magnet rotor, and an electronic circuit for outputting a signal representing the rotation angle of the magnet rotor using pluralities of signals obtained from the sensor device, the sensor device having pluralities of spin-valve, giant-magnetoresistive devices for outputting two or more different phase signals from a rotating magnetic field near the rotating magnet, each spin-valve, giant-magnetoresistive device having a pinned layer and a free layer, the magnetization direction of the pinned layer being fixed, and the magnetization direction of the free layer rotating depending on a magnetic field direction, pluralities of the spin-valve, giant-magnetoresistive devices comprising a first spin-valve, giant-magnetoresistive device having a reference magnetic-field-sensing direction, and a second spin-valve, giant-magnetoresistive device having a magnetic-field-sensing direction different from that of the first spin-valve, giant-magnetoresistive device. | 2009-08-20 |
20090206828 | FAILURE DETECTION APPARATUS FOR RESOLVER - A failure detection apparatus for a resolver outputting a sine signal indicative of sin θ and a cosine signal indicative of cos θ according to a rotational angle θ of a rotator, includes an inspection value calculating section configured to calculate an inspection value based on at least one of the sine signal and the cosine signal; a failure detecting section configured to judge whether the resolver is in a failure state or not on the basis of the inspection value; a counting section configured to gradually increase a count value with a lapse of time when the failure detecting section is determining that the resolver is in the failure state, and configured to gradually decrease the count value with a lapse of time when the failure detecting section is determining that the resolver is not in the failure state; and a failure deciding section configured to finally decide that the resolver has caused the failure on the basis of the count value. | 2009-08-20 |
20090206829 | SIGNAL PROCESSING DEVICE FOR SENSING DEVICE - A signal processing device includes an upper amplitude value estimating portion estimating an upper amplitude value based on a peak value of the detection signal and a predetermined median value of a preset range, a lower amplitude value estimating portion estimating a lower amplitude value based on the median value and a bottom value of the detection signal, an offset adjustment signal generating portion generating an offset adjustment signal for offset-adjusting the detection signal in a case where either one of the upper amplitude value or the lower amplitude value is set as a reference value and the other one of the upper and lower amplitude values becomes greater than a set value, an offset adjustment portion offset-adjusting the detection signal based on the offset adjustment signal, and a binarization portion binarizing an output signal from the offset adjustment portion based on a threshold value estimated from the detection signal. | 2009-08-20 |
20090206830 | SENSOR FOR DETECTING SURFACE DEFECTS OF METAL TUBE USING EDDY CURRENT METHOD - Disclosed herein is a sensor for detecting surface defects of a metal tube, which can solve a problem of a conventional eddy current probe in that it is difficult to detect a crack in the circumferential direction of a metal tube. | 2009-08-20 |
20090206831 | Method and device for non destructive evaluation of defects in a metallic object - A device for non destructive evaluation of defects in a metallic object ( | 2009-08-20 |
20090206832 | MAGNETIC SENSOR DEVICE - The present invention provides a magnetic sensor device comprising means ( | 2009-08-20 |
20090206833 | MAGNETIC SENSOR AND MAGNETIC FIELD STRENGTH MEASUREMENT METHOD - The magnetic sensor according to the present invention includes: a magneto-resistive effect element which has a stacked body in which a magnetization-free layer, a nonmagnetic layer, and a magnetization fixed layer are stacked in this order, and the longitudinal direction of which is a direction perpendicular to the stacking direction; and a current path layer which is provided on the magneto-resistive effect element via an insulation layer so as to be spaced apart from the magneto-resistive effect element in the stacking direction, and which generates a magnetic field by being supplied with a current. The current path layer extends in a direction which forms an angle between 0 and 45 degrees to the longitudinal direction of the magneto-resistive effect element when viewed from the stacking direction. | 2009-08-20 |
20090206834 | METHOD FOR ESTIMATING FORMATION HYDROCARBON SATURATION USING NUCLEAR MAGNETIC RESONANCE MEASUREMENTS - A method for estimating fluid saturation in a formation penetrated by a wellbore from nuclear magnetic resonance measurements made at a plurality of lateral depths into the formation from the wellbore includes estimating a bound water volume, a total porosity and a free water volume at each of the lateral depths from the nuclear magnetic resonance measurements. A minimum water saturation is estimated at each lateral depth from the total porosity, the free water volume and the bound water volume at each lateral depth. A value of water saturation is estimated at each lateral depth from the minimum water saturation at each lateral depth. A relationship between lateral depth and water saturation is determined. Water saturation is estimated at a selected lateral depth greater than the greatest lateral depth of the nuclear magnetic resonance measurements. | 2009-08-20 |
20090206835 | Magnetic Resonance Imaging Apparatus and Method - A magnetic resonance imaging apparatus comprises a plurality of high-frequency reception coils, sensitivity distribution information obtaining means for calculating sensitivity distribution information of each of the high-frequency reception coil, sensitivity distribution storage means for storing the sensitivity distribution information, measuring means for acquiring magnetic resonance signals by thinning out encode steps of a k-space, image reconstructing means for reconstructing images using the magnetic resonance signals, and means for performing unfolding calculation using the sensitivity distribution information and the image, thereby to acquire the unfolded image. | 2009-08-20 |
20090206836 | Detection unit including an RF transceiver system and a pet detector - A detection unit is disclosed for arrangement in the main magnet of an MR device, which has both an RF transceiver system and a PET detector. In at least one embodiment the RF transceiver system is divided into two parts and the two parts are arranged upstream and downstream of the PET detector in the longitudinal direction of the patient tunnel. The RF transceiver system and PET detector are applied to the same image volume. In at least one other embodiment, an MR device is equipped with the detection unit, and in at least one other embodiment, a method operates the detection unit. | 2009-08-20 |
20090206837 | INTERVENTIONAL MRI MAGNETIC FIELD GENERATOR BASED ON PERMANENT MAGNETS - A magnet assembly primarily for use in MRI Interventional applications having an array of four mam permanent magnets that are spaced-apart and arranged into a ring-like geometry with six easy-access openings The magnetization direction in each permanent magnet is anti-parallel to any other adjacent permanent magnet in the πng assembly while it is parallel to any other permanent magnet in the array that is oppositely located just as in a quadrupolar system Such an arrangement has the advantage of concentrating the magnetic field inside the nng enclosure while minimizing magnetic field generated outside Together, these four spatially spaced-apart permanent magnets create a very homogeneous and strong magnetic field in the central enclosure with two orthogonal access paths and one parallel access path to the enclosure Through one access pathway a patient can be inserted while through the other pathways a doctor can fully access the patient. | 2009-08-20 |
20090206838 | Systems and Methods for Correction of Inhomogeneities in Magnetic Resonance Images - Intensity inhomogeneities can obscure areas of interest and are problematic for MR image segmentation algorithms. An efficient approach to estimating these inhomogeneities by computing a calibration factor that is a function of an estimated bias field from a series of calibration scans is disclosed. This enables correction of T | 2009-08-20 |
20090206839 | SYSTEM, METHOD AND APPARATUS FOR COMPENSATING FOR DRIFT IN A MAIN MAGNETIC FIELD IN AN MRI SYSTEM - A method for compensating for drift in a main magnetic field of a superconducting magnet in a magnetic resonance imaging (MRI) system includes measuring a pressure in a cryostat of the superconducting magnet. Based on the pressure, a parameter of an element of the MRI system is adjusted to correct or compensate for a change in the main magnetic field. | 2009-08-20 |
20090206840 | MAGNETIC RESONANCE RECEIVE COIL ARRAY INTEGRATED INTO WALL OF SCANNER BORE - In a magnetic resonance scanner, a radio frequency transmit coil ( | 2009-08-20 |
20090206841 | INTELLIGENT FAULT-TOLERANT BATTERY MANAGEMENT SYSTEM - A battery pack monitoring system for monitoring a plurality of battery modules within a battery pack. Primary monitoring circuits are coupled to monitor respective battery modules and have circuitry to output measurement values that correspond to the respective battery modules. At least one standby monitoring circuit is coupled to monitor at least one of the battery modules and includes circuitry to output a first measurement value that corresponds to the battery module. A pack controller selectively applies, in a determination of battery pack status, either the first measurement value from the standby monitoring circuit or a second measurement value from one of the primary monitoring circuits. | 2009-08-20 |
20090206842 | METHOD AND APPARATUS FOR DETERMINING WHETHER A COOLING DEVICE IN A COMPUTER SYSTEM IS RESPONSIVE TO CONTROL SIGNALS - Some embodiments of the present invention provide a system that determines whether a cooling device in a computer system is responsive to control signals. During operation of the computer system, a control signal is sent to the cooling device. Next, a response of the computer system to the control signal is measured, wherein the response includes a temperature profile. The frequency content of the control signal is then compared to the frequency content of the temperature profile to determine whether the cooling device is responsive to the control signal. | 2009-08-20 |
20090206843 | TEST APPARATUS HAVING BIDIRECTIONAL DIFFERENTIAL INTERFACE - First and second resistors are provided between a first input/output terminal and a power supply terminal, and between a second input/output terminal and the power supply terminal, respectively. Third and fourth resistors are connected to the second and first input/output terminals, respectively. First and second current-switching switches couple either the first input/output terminal side or the second input/output terminal side with a first current source and a second current source, respectively, according to the value of pattern data. A level shift circuit shifts the electric potentials at the second terminals of the third and forth resistors by a predetermined level. A comparator circuit compares the electric potentials at the second terminals of the third and fourth resistors level-shifted by the level shift circuit with those at the second terminals of the fourth and third resistors, respectively, and generates first and second comparison signals according to the comparison results. | 2009-08-20 |
20090206844 | ACOUSTIC WAVE DEVICE PHYSICAL PARAMETER SENSOR - An acoustic wave sensor employs an electromagnetic device (EMD) to transduce and amplify the response of an impedance element to a physical measurand. One embodiment uses a magnetic field sensor employing a microelectromechanical system (MEMS) capacitor to affect a change in the response of a SAW filter. | 2009-08-20 |
20090206845 | CAPACITIVE SENSING APPARATUS DESIGNS - A capacitive sensing apparatus includes a plurality of electrically conductive sensing elements that have widths that vary and lengths that traverse a sensing region. The sensing elements include a first sensing element including a first variable-width portion and a second variable-width portion that in combination produce a combined first sensor signal, a second sensing element including a third variable-width portion and a fourth variable-width portion that in combination produce a combined second sensor signal, and a third sensing element including a fifth variable-width portion and a sixth variable-width portion that in combination produce a combined third sensor signal. The first, third and fifth variable-width portions are arranged in a first pattern and the second, fourth and sixth variable-width portions are arranged in a second pattern, wherein the first pattern and the second pattern are bilaterally symmetrical about a median that is substantially equidistant from opposite edges of the sensing region. | 2009-08-20 |
20090206846 | Capacitor-based position sensor for vehicle - A position sensor has an external moving element couplable to a moving part whose angular or linear position is sought to be sensed. A sealed enclosure is engaged with the moving element such that the moving element moves relative to the enclosure, and capacitive elements are in the enclosure. An internal moving element inside the enclosure is magnetically coupled to the external moving element for movement with the external element, with the internal moving element moving between the capacitive elements thereby change the capacitance between the capacitive elements as the external moving element moves. | 2009-08-20 |
20090206847 | Electronic Biosensor Arrangement - An electronic biosensor arrangement ( | 2009-08-20 |
20090206848 | CAPACITIVE FINGERPRINT SENSOR AND THE PANEL THEREOF - A capacitive fingerprint sensor comprises a fingerprint capacitor, a reference capacitor, a first transistor and a second transistor. The fingerprint capacitor C | 2009-08-20 |
20090206849 | CAPACITIVE FINGERPRINT SENSOR AND THE PANEL THEREOF - A capacitive fingerprint sensor comprises a first transistor, a second transistor, a fingerprint capacitor and a third transistor. The fingerprint capacitor has a capacitance that is either a valley capacitance C | 2009-08-20 |
20090206850 | Capacitive Fingerprint Sensor and the Panel Thereof - A capacitive fingerprint sensor comprises a fingerprint capacitor, a reference capacitor, a first transistor, a second transistor, a comparator and a multiplexer. The fingerprint capacitor has a capacitance that is either a valley capacitance C | 2009-08-20 |
20090206851 | Capacitive Fingerprint Sensor and the Panel Thereof - A capacitive fingerprint sensor comprises a fingerprint capacitor, an integrator, a first transistor, a second transistor and a third transistor. The fingerprint capacitor has a capacitance that is either a valley capacitance C | 2009-08-20 |
20090206852 | METHODS AND SYSTEMS FOR GUARDING A CHARGE TRANSFER CAPACITANCE SENSOR FOR PROXIMITY DETECTION - Methods, systems and devices are described for determining a measurable capacitance for proximity detection in a sensor having a plurality of sensing electrodes and at least one guarding electrode. A charge transfer process is executed for at least two executions. The charge transfer process includes applying a pre-determined voltage to at least one of the plurality of sensing electrodes using a first switch, applying a first guard voltage to the at least one guarding electrode using a second switch, sharing charge between the at least one of the plurality of sensing electrodes and a filter capacitance, and applying a second guard voltage different from the first guard voltage to the at least one guarding electrode. A voltage is measured on the filter capacitance for a number of measurements equal to at least one to produce at least one result to determine the measurable capacitance for proximity detection. | 2009-08-20 |
20090206853 | Sensor for sensing moisture in soils - A sensor for sensing the moisture level in soil and changes in the moisture content. An improved liner improves the response of the sensor. | 2009-08-20 |
20090206854 | CIRCUIT AND METHOD FOR CAPACITOR EFFECTIVE SERIES RESISTANCE MEASUREMENT - A circuit and method for capacitor effective series resistance measurement. One embodiment provides a method for measuring the effective series resistance of a capacitor having a capacitor voltage. The method includes amplifying the capacitor voltage with an AC coupled amplifier yielding a first amplified signal. The capacitor is discharged with a constant current for a measurement time thus causing a voltage swing of the capacitor voltage due to a voltage drop across the effective series resistance. The capacitor voltage is amplified with the AC coupled amplifier yielding a second amplified signal being dependent on the voltage swing; calculating the effective series resistance from the first and the second amplified signal. | 2009-08-20 |
20090206855 | Conductivity measuring apparatus and conductivity measuring method - The present invention is a conductivity measuring device comprising that two terminals tweezer having two probes of a observing probe and a grasping probe arranged contiguously along the face which is parallel to a sample support face. Two terminals of a tweezer are pressed while adjusts pressing force to a sample surface, it is galvanized between two terminal tweezer, and conductivity is determined making a current between the two terminals tweezers. | 2009-08-20 |
20090206856 | WAFER BURN-IN SYSTEM WITH PROBE COOLING - The present disclosure relates to a wafer burn-in system having a device cooling a probe card and thereby restraining heat accumulation in the probe card. The disclosed wafer burn-in system includes a probe station and a tester. The probe station includes a burn-in chamber, a probe head, and a wafer stage. The probe head has a probe card installed on the lower surface of the probe head. A cooling device restrains heat accumulation in the probe card, e.g., by generating airflow around the probe card. The wafer stage of the burn-in chamber fixes a wafer loaded on the upper surface of the wafer stage and elevates the wafer for contact with the probe card. The tester connects to the probe station through a general purpose interface bus (GPIB) to convey test signals to and from the probe head, and to control operation of the cooling device. The tester activates the cooling device, e.g., activates air blowers to generate airflow forcibly around the probe card and thereby restrain heat accumulation in the probe card during a burn-in process performed in the burn-in chamber. | 2009-08-20 |
20090206857 | SINGULATED BARE DIE TESTING FIXTURE - A flexible redistribution membrane and a piece of silicon rubber is used in a testing fixture for testing a singulated bare die. The silicon rubber is used as a cushion under the flexible redistribution membrane against the downward pressure from the bare die during testing so that the top pads of the flexible redistribution membrane can be electrically tight coupling to bottom pads of the bared die to be tested. | 2009-08-20 |
20090206858 | DIAGNOSIS BOARD ELECTRICALLY CONNECTED WITH A TEST APPARATUS FOR TESTING A DEVICE UNDER TEST - There is provided a test apparatus having a test head containing test modules for sending/receiving signals to/from a device-under-test, a device mounting section having a socket for mounting the device-under-test and a performance board placed on the test head to connect each terminal of the test module with each terminal of the device-under-test via the device mounting section, and the performance board has a plurality of sub-boards each containing a part of a plurality of wires for connecting the test module with the device-under-test and a fixing section for attaching and fixing the plurality of sub-boards in a body to the test head. | 2009-08-20 |
20090206859 | PROBE DEVICE HAVING A LIGHT SOURCE THEREON - A probe device is provided that has light source thereon that can be activated and deactivated. In accordance with an embodiment, the light source operates as a visual indicator to provide a visual indication of whether a good connection exists between the tips of the probe device and the intended contact points on the DUT. In accordance with another embodiment, the light source operates as a source of illumination to illuminate the probe tips and the contact pads on the DUT as the user is attempting to place the probe tips in contact with the contact pads on the DUT. In accordance with yet another embodiment, the light source performs the dual functions of providing a visual indication of connection status and of illuminating the probe device tips and the intended contact points on the DUT. | 2009-08-20 |
20090206860 | APPARATUS AND METHOD FOR ADJUSTING THERMALLY INDUCED MOVEMENT OF ELECTRO-MECHANICAL ASSEMBLIES - A thermal adjustment apparatus for adjusting one or more thermally induced movements of an electro-mechanical assembly includes: a compensating element expanding at a first rate different from a second rate at which the electro-mechanical assembly expands for generating a counteracting force in response to changes in temperature; and a coupling mechanism coupling the compensating element to the electro-mechanical assembly, and being adjustable to control an amount of the counteracting force applied to the electro-mechanical assembly as temperature changes. | 2009-08-20 |
20090206861 | SEMICONDUCTOR INSPECTING DEVICE - In a semiconductor inspecting device having a contact to be electrically connected to an electrode pad formed in a semiconductor device which is an object to be measured, and a substrate provided with the contact, the contact is provided obliquely to a main surface of the substrate. | 2009-08-20 |
20090206862 | Adjustable Electrical Probes for Circuit Breaker Tester - An electrical probe assembly includes a first probe housing pivotally connected to a base structure and receiving a first probe therein. The first probe is configured to interface with a first contact of an electrical component. A second probe housing is pivotally connected to the base structure and receives a second probe therein. The second probe is configured to interface with a second contact of the electrical component wherein the first and second contacts have a spatial relationship therebetween. An adjustment mechanism is connected to the first and second housing and configured to independently adjust an amount of rotation of the each of the housings to accommodate the spatial relationship. | 2009-08-20 |
20090206863 | System and Method for Testing a Plurality of Circuits - A system for, and method of, testing a plurality of circuits, which may be unsingulated die on a wafer. In one embodiment, the system includes: (1) a test data interconnect that connects a test data output of a first circuit directly to a test data input of a second circuit located adjacent to the first circuit, (2) a test clock interconnect that connects a test clock output of the first circuit directly to a test clock input of the second circuit, (3) a test mode select interconnect that connects a test mode select output of the first circuit directly to a test mode select input of the second circuit and (4) a contact region coupled to provide test data, a test clock signal and a test mode select signal respectively to the test data interconnect, the test clock interconnect and the test mode select interconnect. | 2009-08-20 |
20090206864 | On-chip servo loop integrated circuit system test circuitry and method - Internal servo loop circuitry is included on the same chip ( | 2009-08-20 |
20090206865 | ELECTRICAL TEST STRUCTURE AND METHOD FOR CHARACTERIZATION OF DEEP TRENCH SIDEWALL RELIABILITY - A test structure and testing method are provided for characterizing the time-dependent drift in the parasitic PFET leakage current that flows along the sidewall of a deep trench isolation structure from the P-type active area to the P-type substrate in a semiconductor integrated circuit structure. The capacitive coupling characteristics of the deep trench isolation structure are used to control the electrical “bias” of the deep trench structure through the use of a large auxiliary trench mesh network that is formed as part of the deep trench structure. The trench mesh network can be placed adjacent to a Vdd ring or a ground ring and then, by using a ratioed capacitive voltage dividing network, the electrical potential at the trench can be controlled. | 2009-08-20 |
20090206866 | DEVICE AND METHOD FOR TESTING A DEVICE - A device that includes a core and a wrapper. The wrapper includes at least one shared wrapper cell that is shared by a group of core pins that belong to a single clock domain. A method for designing a wrapper. The method includes receiving design information representative of a design of a core, locating a group of mutually independent core pins that belong to a single clock domain; and designing a shared wrapped cell that is shared by the group of core pins. | 2009-08-20 |
20090206867 | Self-Test Method for Interface Circuit - An integrated circuit is described. The integrated circuit includes an interface circuit that includes a transmitter and a receiver. A generator in the integrated circuit is selectively coupled to the transmitter. The generator is to provide a test sequence that is output by the transmitter during a test mode of operation. A memory in the integrated circuit is selectively coupled to the generator and the receiver. The memory is to receive and synchronize the test sequence and a signal corresponding to the test sequence that is received by the receiver. A logic circuit in the integrated circuit is to compare the test sequence and the signal. | 2009-08-20 |
20090206868 | METHODOLOGIES AND TOOL SET FOR IDDQ VERIFICATION, DEBUGGING AND FAILURE DIAGNOSIS - Quiescent supply current (I | 2009-08-20 |
20090206869 | ELECTROMIGRATION TESTER FOR HIGH CAPACITY AND HIGH CURRENT - An electronic device under test (DUT) may be incorporated into a circuit having a voltage limiter connected in parallel with the DUT. The circuit includes a controlled current source having an output current connected in series with the DUT. The voltage limiter is characterized in that, when the output current is such that the voltage across the DUT (Vdut) would exceed a particular maximum voltage Vmax, without the voltage limiter in place, at least a portion of the output current flows through the voltage limiter, so as to limit Vdut to be less than or equal to Vmax. When the output current is such that Vdut would be less than or equal to Vmax, current does not flow through the voltage limiter. The circuit may include a plurality of DUTs, each DUT connected in series with the output current of a controlled current source, with a voltage limiter connected in parallel with each DUT. | 2009-08-20 |
20090206870 | METHOD FOR ANALYZING IC DEVICES AND WAFERS - A method for analyzing Integrated circuit (IC) devices is provided. The method comprises the following steps: dividing an IC device into n working units, wherein each working unit causes a corresponding current dissipation; selecting n operation parameters, wherein each of the operation parameters variably corresponds to the current dissipation of each working unit; selecting m sets of the operation parameters and separately operating the IC device under the m sets of the operation parameters, wherein m is not smaller than n, and obtaining the total current dissipations of the IC device; computering m sets of current dissipation data of the working units corresponding to the m sets of operation parameters by using the total current dissipations; computering a basic current dissipation of the IC device by using the total current dissipations of the IC device and the obtained corresponding current dissipation data set of the working units; and determining the defective working units by comparing the obtained data with the standard data, respectively. | 2009-08-20 |
20090206871 | ARBITRARY QUANTUM OPERATIONS WITH A COMMON COUPLED RESONATOR - A quantum logic gate is formed from multiple qubits coupled to a common resonator, wherein quantum states in the qubits are transferred to the resonator by transitioning a classical control parameter between control points at a selected one of slow and fast transition speeds, relative to the characteristic energy of the coupling, whereby a slow transition speed exchanges energy states of a qubit and the resonator, and a fast transition speed preserves the energy states of a qubit and the resonator. | 2009-08-20 |
20090206872 | SYSTEM, METHOD AND APPARATUS FOR ENHANCING RELIABILITY ON SCAN-INITIALIZED LATCHES AFFECTING FUNCTIONALITY - A system, method, and apparatus for enhancing reliability on scan-initialized latches that affect functionality in a digital design are provided. The system includes a group of latches that affect functionality in the digital design based on state values of the latches, where the latches are scan initialized. The system also includes a disable allowance latch (DAL) allocated to the group of latches, where the DAL is a scan-initialized latch. The system further includes a gating function outputting the state value of at least one of the latches in the group to a functional block in the digital design in response to the DAL being in an enabled state and blocking the gating function output in response to the DAL being in a disabled state. | 2009-08-20 |
20090206873 | DATA OUTPUT DRIVER - A data output driver device includes a noise detecting unit configured to output a noise detection signal to detect variations of power supply voltage due to noise, and a driver circuit unit configured to drive and output data with the variable driving capability in response to the noise detection signal. | 2009-08-20 |
20090206874 | SEMICONDUCTOR DEVICE - A first operation unit stores first code information having a bit length shorter than a first set bit, receives dictionary information expressing each set bit corresponding to each code information, reads the set bit corresponding to the first code information from the dictionary information to obtain the first set bit, and further, changes setting according to the first set bit to execute any of a plurality of operations so as to obtain an operation result. A second operation unit stores second code information having a bit length shorter than a second set bit, receives the dictionary information from the first operation unit, reads the set bit corresponding to the second code information from the dictionary information to obtain the second set bit, and further, changes setting according to the second set bit so as to execute any of the operations with respect to the operation result. | 2009-08-20 |
20090206875 | PROGRAMMABLE IO ARCHITECTURE - A buffer device coupled to at least one input/output port of an integrated circuit has a plurality of control inputs configured to receive configuration programming information. The at least one input/output circuit is capable of: (a) being configured in a directional sense of communication by the configuration programming information, (b) being configured as an input circuit which can be further configured to provide input logic switching level thresholds according to the configuration programming information, and (c) being configured as at least one output circuit which can be further configured to provide an output drive strength according to the configuration programming information. | 2009-08-20 |
20090206876 | PROGRAMMABLE CORE FOR IMPLEMENTING LOGIC CHANGE - An apparatus comprising a plurality of fixed logic circuits, wherein each of the fixed logic circuits is configured to receive a plurality of input signals, perform combinational logic operations using the input signals, and produce at least one output signal, and wherein the combinational logic operations are substantially fixed; and a programmable logic core configured to functionally replace a selected subset of the plurality of fixed logic circuits, receive the input signals of the selected subset of the plurality of fixed logic circuits, perform logic operations on the input signals, and produce at least one output signal as the output signal of the selected subset of the plurality of fixed logic circuits, and wherein the logic operations are dynamically changeable. | 2009-08-20 |
20090206877 | QUAD STATE LOGIC DESIGN METHODS, CIRCUITS AND SYSTEMS - Quad-state logic elements and quad-state memory elements are used to reduce the wiring density of integrated circuits. The resulting reduction in wiring interconnects between memories and logic elements results in higher speed, higher density, and lower power integrated circuit designs. | 2009-08-20 |
20090206878 | LEVEL SHIFT CIRCUIT FOR A DRIVING CIRCUIT - Provided is a level shift circuit for a driving circuit. The level shift circuit includes: a cross-coupled transistor pair, for receiving a first input signal and a second input signal and for providing a first output signal and a second output signal; a first transistor, coupled to a first power supply and to the cross-coupled transistor pair, further receiving a first control signal; a second transistor, coupled to the cross-coupled transistor pair and for receiving a second control signal; and a third transistor, coupled to the cross-coupled transistor pair and for receiving the second control signal. The first control signal, the second control signal, the first output signal and the second output signal are all referenced to the first power supply, and the first input signal and the second input signal are referenced to a second power supply lower than the first power supply. | 2009-08-20 |
20090206879 | Signal transmission circuit and signal transmission system using the same - A signal transmission circuit includes first and second power source wirings, and a plurality of differential circuits connected in series between the first and second power source wirings. A signal transmission system includes a plurality of pairs of signal wirings, an output circuit supplying a differential signal to each of the pairs of signal wirings, and an input circuit receiving the differential signals via the pairs of signal wirings, wherein the output circuit includes first and second power source wirings, and a plurality of differential output circuits connected in series between the first and second power source wirings, and the input circuit includes a plurality of differential input circuits respectively corresponding to the differential output circuits. | 2009-08-20 |
20090206880 | SEMICONDUCTOR INTEGRATED CIRCUIT - In a dynamic flip-flop circuit with a data selection function, for example, when data having an H value has been selected using a selection signal S | 2009-08-20 |
20090206881 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit has a first substrate of a first polarity to which a first substrate potential is given, a second substrate of the first polarity to which a second substrate potential different from the first substrate potential is given, and a third substrate of a second polarity different from the first polarity. The first substrate is insulated from a power source or ground to which a source of a MOSFET formed on the substrate is connected. The third substrate is disposed between the first and second substrates in adjacent relation to the first and second substrates. A circuit element is formed on the third substrate. | 2009-08-20 |
20090206882 | Thermal Electric NOR Gate - A thermal electric (TE) binary NOR gate logic circuit is provided with a method for NOR logic gating. The method accepts a first input voltage representing an input binary logic state and generates a first thermal electric (TE) temperature in response to the first input voltage. A second input voltage is accepted representing an input binary logic state, and a second TE temperature is generated in response to the second input voltage. In response to the first and second TE temperatures, a NOR logic state output voltage is generated. More explicitly, a first control voltage is generated in response to the first TE temperature, and a second control voltage is generated in response to the second TE temperature. Then, a third TE temperature is generated in response to the first and second control voltages, which in turn generates the output voltage. | 2009-08-20 |
20090206883 | Thermal Electric NAND Gate - A thermal electric (TE) binary NAND gate logic circuit is provided with a method for NAND logic gating. The method accepts a first input voltage representing an input binary logic state and generates a first thermal electric (TE) temperature in response to the first input voltage. A second input voltage is accepted representing an input binary logic state, and a second TE temperature is generated in response to the second input voltage. In response to the first and second TE temperatures, a NAND logic state output voltage is generated. More explicitly, a first control voltage is generated in response to the first TE temperature, and a second control voltage is generated in response to the second TE temperature. Then, a third TE temperature is generated in response to the first and second control voltages, which in turn generates the output voltage. | 2009-08-20 |
20090206884 | LOCKING STATE DETECTOR AND DLL CIRCUIT HAVING THE SAME - A locking state detector includes a phase comparing unit configured to compare a reference clock signal and a feedback clock signal to generate a first phase difference distinction signal to distinguish a first phase difference range, and a second phase difference distinction signal to distinguish a second phase difference range wider than the first phase difference range, and a locking state setting unit configured to generate a locking state signal in response to the first phase difference distinction signal and the second phase difference distinction signal. | 2009-08-20 |
20090206885 | TRACK AND HOLD CIRCUIT - A track and hold circuit ( | 2009-08-20 |
20090206886 | Line Driver With Tuned On-Chip Termination - A line driver includes current sources and resistors that form a bridge circuit in which a bridge resistor is connected between an internal node and ground, and a series resistor connected between the internal node and the driver's output node. The internal node is connected to receive a unit current from a first stage transistor, and the output node is connected to receive an amplified current from a second stage transistor that is N times the unit current. The bridge resistor is formed with a resistance value set such that the voltages at the internal node and the output node are equal, i.e., such that no current flows through the series resistor. The resistance value of the series resistor is thus adjustable to optimize output impedance in a manner independent of the driver's gain. An echo cancellation circuit is utilized to eliminate noise from two associated line drivers. | 2009-08-20 |
20090206887 | Differential current output driver with overvoltage protection - A differential current output driver and a method for overvoltage protection of a differential current output driver circuit are provided. The output driver includes a differential current output driver circuit operable by a power supply voltage and including first and second driver transistors in a differential current configuration and first and second output pads, and an overvoltage protection circuit configured to generate a protected voltage in response to a voltage on at least one of the first and second output pads and an absence of the power supply voltage, and to apply the protected voltage to at least one transistor of the differential current output driver circuit. | 2009-08-20 |
20090206888 | DRIVING CIRCUIT FOR CAPACITIVE LOAD AND LIQUID INJECTING APPARATUS - A driving circuit for a capacitive load includes a driving signal generating unit that generates a driving signal for driving the capacitive load by using a pair of driving transistors. A power source voltage generating unit generates high-voltage and low-voltage power source voltages that are higher and lower, respectively, than the voltage of the driving signal and applies the voltages to collectors of the driving transistors. The power source voltage generating unit includes a pair of power source transistors and a capacitor. The low-voltage power source voltage is generated in an output side of the power-source transistor pair as a voltage that is in a voltage region lower than that of the driving signal and follows the driving signal. The high-voltage power source voltage is output from a high-voltage terminal of the capacitor, is in a voltage region higher than that of the driving signal, and follows the driving signal. | 2009-08-20 |
20090206889 | Method and Apparatus for Controlling Power Surge in an Integrated Circuit - A method for ramping a high-speed clock to control power surge in an integrated circuit when transitioning from a low power holdstate to an operational state where the integrated circuit includes selected logic circuits adapted to be maintained in the holdstate. A core clock signal including a plurality of core clock pulses is gated with a ramping signal. The ramping signal includes a series of staged signals having gating pulses. Each staged signal is separated by a ramp interval, where the series of staged signals successively enables increasing numbers of clocking pulses from the core clock signal to be transmitted to a holdstate output until a predetermined operational core clock frequency is transmitted to the holdstate output bringing the integrated circuit to the operational state. | 2009-08-20 |
20090206890 | RESET SIGNAL GENERATOR AND A METHOD FOR GENERATING RESET SIGNAL OF A SEMICONDUCTOR INTEGRATED CIRCUIT - A reset signal generator of a semiconductor integrated circuit includes a counter that counts a clock signal in response to activation of a power-up signal and activates a count-result signal when the counted value reaches a target value, and a reset signal generating unit that activates a reset signal in response to the activation of the count result signal. | 2009-08-20 |
20090206891 | Power Cycling Power On Reset Circuit for Fuse Initialization Circuitry - A system for initializing circuitry is presented. The system employs a power-on reset circuit having a threshold voltage and a programmable switch circuit. The power-on reset circuit has a detector circuit for detecting a reference voltage, and a one-sided latch for generating an output voltage reflective of the reference voltage. The detector circuit has a threshold after which the one-sided latch is activated. The programmable switch circuit receives the output voltage of the power-on reset circuit and generates an enable signal and its complement based on the status of an internal fuse. The switch point of the power-on reset circuit provides for a rapid increase in output voltage that offsets parasitic leakage current in the programmable switch circuit that can result in improper enable signal output. A high resistance direct path to ground on an output node of the power-on reset circuit prevents residual charge from causing an undesired misfire. | 2009-08-20 |
20090206892 | Phase-Locked Loop System and Method - A phase-locked loop including a phase detector configured to receive inputs from a reference signal path and a feedback signal path and generate a phase detector output based upon such inputs. The phase-locked loop also includes an oscillator operatively coupled with the phase detector and configured to produce an oscillatory output in response to and based upon the phase detector output, and where the oscillatory output is applied to the feedback signal path. The reference signal path includes a mixer configured to mix a reference signal with output from a direct digital synthesizer; and a switching mechanism configured to selectively place one of a plurality of different filters in series between the mixer and the phase detector. | 2009-08-20 |
20090206893 | CHARGE PUMP CIRCUIT AND PLL CIRCUIT - PLL circuit | 2009-08-20 |
20090206894 | Phase-Locked Loop with Adaptive Performance - A phase-locked loop capable of being dynamically configured to optimize phase-noise performance during different modes of operation. The phase-locked loop may include a switchable charge pump, loop filter and voltage-controlled oscillator having auxiliary circuit components that may be switched in and out to achieve calibration settings for optimizing phase-noise performance for different modes of operation, while minimizing unnecessary power consumption, and without disturbing the stability of the phase-locked loop. | 2009-08-20 |
20090206895 | PHASE SYNCHRONIZATION APPARATUS - A phase synchronization apparatus includes an oscillator gain setting member configured to discriminate a frequency by sequentially delaying input clock signal after dividing the input clock signal at a predetermined division ratio and to generate an oscillator gain setting signal by using discriminated frequency information, and a phase locked loop (PLL) circuit configured to oscillates output clock signal having a frequency corresponding to the oscillator gain setting signal in response to the input clock signal. | 2009-08-20 |
20090206896 | DELAY LOCKED LOOP - An integrated circuit includes a chain of delay elements, a first phase detector, and a controller. The chain of delay elements is configured to delay an input clock signal for providing an output clock signal phase shifted with respect to the input clock signal by a selected value. The first phase detector is configured to provide a common control signal to each delay element based on a phase difference between the input clock signal and a signal output from one of the delay elements to adjust a delay of each delay element. The controller is configured to provide an independent control signal to each delay element to individually adjust the delay of each delay element such that the delay of each delay element is equal. | 2009-08-20 |