17th week of 2013 patent applcation highlights part 21 |
Patent application number | Title | Published |
20130099759 | ELECTRIC POWER STEERING APPARATUS - An electric power steering apparatus includes a power supply and a power supply management unit that controls an operation of the power supply. The power supply includes a main power supply, an auxiliary power supply connected in series to the main power supply, a boost circuit that charges the auxiliary power supply by boosting an output voltage of the main power supply and applying the boosted output voltage to the auxiliary power supply, and a voltage sensor that detects an output voltage of the auxiliary power supply. When a reduction amount per unit time of the output voltage detected by the voltage sensor exceeds a voltage reduction amount over a predetermined time, the power supply management unit determines that an abnormality has occurred in an output destination of the power supply. | 2013-04-25 |
20130099760 | DIRECT-CURRENT STABILIZED POWER SUPPLY DEVICE - A direct-current stabilized power supply device that drops a voltage from a power supply of a solar cell in which output power is unstable, and supplies a stable voltage necessary for measurement equipment and the like. | 2013-04-25 |
20130099761 | Switching-Mode Power Supply with Ripple Mode Control and Associated Methods - The present invention discloses a SMPS. The SMPS comprises an output port, configured to supply a load; a control signal generator, having an input and an output configured to provide a first control signal; a first switch configured to receive the first control signal and regulate the voltage at the output port; and a ramp signal generator, comprising an input and an output, wherein the input is configured to receive the control signal and the output is configured to provide a current signal simulating an output signal at the output port, and wherein the output of the ramp signal generator is further coupled to the input of the means for generating control signal. | 2013-04-25 |
20130099762 | SYSTEMS AND METHODS FOR COUNTERACTING OVERVOLTAGE EVENTS - This disclosure involves methods and systems for reducing the voltage by a circuit such as a switching regulator during an overvoltage event by draining current from a voltage source when voltage exceeding a desired level is generated. | 2013-04-25 |
20130099763 | SYSTEMS AND METHODS FOR SUPPRESSING UNDESIRABLE LIMIT CYCLES IN SWITCHING REGULATORS - This disclosure involves methods and systems for suppressing undesired limit cycles in switching regulators by determining when a limit cycle causes the inductor to charge for a time greater than the clock period and destabilizing such cycles. | 2013-04-25 |
20130099764 | SYSTEM AND METHOD TO REGULATE VOLTAGE - A system and method to regulate voltage is disclosed. In a particular embodiment, a voltage regulator includes an error amplifier, a voltage buffer responsive to the error amplifier, and a first transistor responsive to the voltage buffer and coupled to a voltage supply source. A second transistor is coupled to the voltage supply source and further coupled to an output node. A third transistor is coupled to the first transistor and has a gate coupled to a capacitor. The capacitor is coupled to a node between the error amplifier and the voltage buffer. | 2013-04-25 |
20130099765 | MODULAR BATTERY DISCONNECT UNIT - A system according to the principles of the present disclosure includes a battery disconnect unit (BDU) and a cartridge. The BDU includes a first positive terminal, a first negative terminal, a second positive terminal, a second negative terminal, a first current path, a second current path, a first switch, and a second switch. The first current path is between the first positive terminal and the second positive terminal. The second current path is between the first negative terminal and the second negative terminal. The first switch is disposed in the first current path. The second switch is disposed in the second current path. The cartridge includes a first terminal, a second terminal, and a current path between the first terminal and the second terminal. The first terminal is configured to connect to one of the terminals on the BDU. | 2013-04-25 |
20130099766 | Voltage Regulator with Optimal Efficiency Selection and a Master-Slave Zero Cross Detection Configuration - A voltage regulator includes a first phase power stage, a second phase power stage, and a controller. The first phase power stage includes a zero cross detection circuit configured to measure a current level for the first phase power stage, and to cause a diode emulation state in the first phase power stage when the current level is substantially equal to zero. The second phase power stage is in communication with the zero cross detection circuit, and configured to enter the diode emulation state in response to receiving a signal from the zero cross detection circuit. The controller is coupled to the first phase power stage and to the second phase power stage. The controller is configured to measure an output current of the voltage regulator and to activate the second phase power stage when the output current is above a first threshold current level. | 2013-04-25 |
20130099767 | DRIVERS HAVING T-COIL STRUCTURES - A driver includes a first driver stage having at least one input node and at least one first output node. The first driver stage includes a T-coil structure that is disposed adjacent to the at least one first output node. The T-coil structure includes a first set of inductors each being operable to provide a first inductance. A second set of inductors are electrically coupled with the first set of inductors in a parallel fashion. The second set of inductors each are operable to provide a second inductance. A second driver stage is electrically coupled with the first driver stage. | 2013-04-25 |
20130099768 | CONTROL CIRCUIT AND ELECTRONIC APPARATUS USING THE SAME - A control circuit includes: a first switching device that includes a source, a gate, and a drain; a negative voltage generating circuit that generates, from a pulse width modulation signal that controls the gate of the first switching device, a negative potential voltage which is equal to or smaller than a threshold of the first switching device; a gate control circuit that outputs a signal obtained by shifting a level of the pulse width modulation signal by an amount equal to the negative potential voltage to the gate of the first switching device; a second switching device that is disposed on a side of the drain of the first switching device; and a negative voltage detecting circuit that outputs a signal for turning ON the second switching device upon detecting that the negative potential voltage generated by the negative voltage generating circuit has reached a predetermined negative potential. | 2013-04-25 |
20130099769 | Current source circuit with high order temperature compensation and current source system thereof - A current source circuit with high order temperature compensation, includes a reference voltage terminal, a first power module, a second power module, a control module, a current source output module and a bias current source module. The control module includes a first field-effect tube (FET), a second FET, and a third FET. The bias current source module includes a first bias current source and a second bias current source. The current source output module includes a fourth FET, a fifth FET, and an output terminal. The first power module includes a first comparator, a sixth FET, a first resistor and a second resistor. The second power module includes a second comparator, a seventh FET, a third resistor, and a fourth resistor. A current source system with high order temperature compensation is further provided. | 2013-04-25 |
20130099770 | REFERENCE POWER SUPPLY CIRCUIT - A reference power supply circuit includes an adjustable resistance network and a bandgap reference power supply circuit, in which the adjustable resistance network includes a first resistor end and a second resistor end, the resistance between the first resistor end and the second resistor end varies with a process deviation; the bandgap reference power supply circuit connects the first resistor end with the second resistor end, for generating a positive proportional to absolute temperature current flowing through the first resistor end and the second resistor end and for outputting a reference voltage related to the positive proportional to absolute temperature current. The reference power supply circuit has the advantageous of high precision and good temperature drift characteristic. | 2013-04-25 |
20130099771 | LOW VOLTAGE DETECTION CIRCUIT - Disclosed is a low voltage detection circuit. The low voltage detection circuit includes, a voltage comparison circuit, an output stage, an electric current circuit, and a judgment circuit. When the voltage comparison circuit detects that the voltage of the detection target is a predetermined voltage value or less, an output state of the output stage is promptly changed. When the voltage comparison circuit detects that the voltage of the detection target is a predetermined voltage value or more, the output state of the output stage is changed after a delay time obtained by the electric current circuit. | 2013-04-25 |
20130099772 | METHOD AND APPARATUS FOR DETECTING A LIGHTNING STRIKE - Described herein is a self-powered system for detecting a current spike. The current spike is delivered through a current return network that energizes a resonant circuit to produce an alternating electrical output. The output is rectified by a rectifier into direct output that is then transferred to an integrator circuit. The integrator circuit slowly builds to and dissipates from a voltage threshold corresponding to an output transistor. When the output transistor is triggered by the voltage threshold this trigger is communicated to a fault monitoring software that recognizes the current spike. | 2013-04-25 |
20130099773 | HIGH-VOLTAGE SENSOR WITH AXIALLY OVERLAPPING ELECTRODES - A voltage sensor includes an insulator with mutually insulated electrodes embedded therein. The electrodes are coaxial and cylindrical and overlap axially along part of their lengths. They are mutually staggered and control the surfaces of electric equipotential such that there is a substantially homogeneous electric field outside the insulator and a substantially homogeneous but higher field within a sensing cavity within the insulator. A field sensor is arranged within the sensing cavity to measure the field. This design allows for the production of compact voltage sensors for high voltage applications. | 2013-04-25 |
20130099774 | METHOD FOR CHARACTERIZING THE SENSITIVITY OF ELECTRONIC COMPONENTS TO DESTRUCTIVE MECHANISMS - A method for characterizing the sensitivity of an electronic component with respect to a natural radiating environment. The safe operating area (SOA) voltage range beyond which destructive events occur is determined for the electronic component for given characteristics of a particle or incident beam. The electronic component is turned on and energized with the particle or incident beam having the given characteristics under the operating conditions that are close to the highest voltage value of the determined SOA voltage range. An efficient section of amplified transient events, which corresponds to an estimation of the destructive occurrences for the electronic component is determined. The characteristics of the particle or beam is modified and the method is repeated with the modified characteristics. | 2013-04-25 |
20130099775 | CURRENT SENSOR - A current sensor includes a first support configured to include a cutout portion, a first magnetic detector element group configured to be provided in the first support, a second support configured to include a cutout portion, and a second magnetic detector element group configured to be provided in the second support. The cutout portion includes a supporting surface supporting a current line. In the current sensor, when the current line conducting therethrough a current to be measured is attached, the first support and the second support are displaced in the circumferential direction of the current line and fixed, and the current line is supported by supporting surfaces, in different positions in the axis line direction of the corresponding current line. | 2013-04-25 |
20130099776 | WIRELESS CHARGING INTENSITY INDICATION METHOD AND CHARGED DEVICE - The present invention discloses a wireless charging intensity indication method, including: obtaining, by a charged device, wireless charging intensity of the charged device at a present charging position, and displaying, on a display screen, the wireless charging intensity at the present charging position, where the displaying the wireless charging intensity on the display screen is intended to provide a basis for a user to select an optimum charging position. By using the wireless charging intensity indication method provided by the embodiment of the present invention, the user may select, from different charging positions, the optimum charging position according to the magnitude of the wireless charging intensity displayed on the display screen of the charged device, thereby improving the efficiency of wireless charging. The embodiments of the present invention also provide a corresponding charged device and a mobile terminal. | 2013-04-25 |
20130099777 | METHOD FOR DETERMINING A DISTANCE AND AN INTEGRATED MAGNETIC FIELD MEASURING DEVICE - An integrated magnetic field measuring device is provided that includes a semiconductor body arranged on a metal substrate and having a first surface, and a plurality of metal surfaces formed on the surface, a first magnetic field sensor, formed in the semiconductor body and having a first sensor signal, and second magnetic field sensor having a second sensor signal, and a current-carrying first conductor. A third magnetic field sensor with a third sensor signal is formed in the semiconductor body. The first magnetic field sensor, the second magnetic field sensor, and the third magnetic field sensor have a substantially identical orientation to Earth's magnetic field and a different distance to the first conductor and the magnetic field of the first conductor simultaneously penetrates the first magnetic field sensor, the second magnetic field sensor, and the third magnetic field sensor. | 2013-04-25 |
20130099778 | DIFFERENTIAL TRANSFORMER TYPE MAGNETIC SENSOR - A differential transformer type magnetic sensor is disclosed. The drive coil includes a planar coil arranged on a substrate. The first differential coil includes a planar coil arranged on the substrate. The second differential coil includes a planar coil arranged on the substrate and connected to the first differential coil. The first selector unit is used for a zero adjustment of a differential transformer. The first differential coil includes a plurality of first branch lines formed by branching a wire material forming the outermost turn of the first differential coil. The plurality of first branch lines are so arranged that the amount of magnetic fluxes passing along the plurality of respective first branch lines differ when the drive coil is driven. The first selector unit is capable of selecting any one of the plurality of first branch lines and arranged on the substrate. | 2013-04-25 |
20130099779 | HIGH CURRENT RANGE MAGNETORESISTIVE-BASED CURRENT SENSOR - A system includes a magnetoresistive (MR) bridge circuit, a magnetic field sensor, and an adjustable load. The MR bridge circuit receives a supply voltage and generates an output voltage that indicates a strength/direction of a magnetic field. The MR bridge circuit includes first and second MR elements connected in series between a supply node and a ground node, and third and fourth MR elements connected in series between the supply node and the ground node. The output voltage is generated between a first node that is common to the first and second MR elements and a second node that is common to the third and fourth MR elements. The sensor generates signals based on the strength/direction of the magnetic field. The adjustable load is connected in parallel with one of the MR elements, and has a resistance that is controlled based on the signals generated by the sensor. | 2013-04-25 |
20130099780 | MAGNETIC NANO-MULTILAYERS FOR MAGNETIC SENSORS AND MANUFACTURING METHOD THEREOF - The invention discloses a magnetic nano-multilayers structure and the method for making it. The multilayer film includes—sequentially from one end to the other end—a substrate, a bottom layer, a magnetic reference layer, a space layer, a magnetic detecting layer and a cap layer. The, up-stated structure is for convert the information of the rotation of the magnetic moment of the magnetic detecting layer into electrical signals. The magnetic detecting layer is of a pinning structure to react to the magnetic field under detection. On the other hand, the invention sandwiches an intervening layer between the AFM and the FM to mitigate the pinning effect from the exchange bias. Moreover, the thickness of the intervening layer is adjustable to control the pinning effect from the exchange bias. The controllability ensures that the magnetic moments of the magnetic reference layer and the magnetic detecting layer remain at right angles to each other when the external field is zero. The invention achieves a GMR or TMR magnetic sensor exhibiting a linear response and by tuning the thickness of the non-magnetic metallic layer, the sensitivity as well as the detecting range of the devices can be tuned easily. | 2013-04-25 |
20130099781 | CURRENT SENSOR AND METHOD FOR DETECTING A CURRENTLESS STATE - A current sensor having a magnetic field sensor, and a variable current source connected to the magnetic field sensor, and a first differential amplifier, connected to the magnetic field sensor, for amplifying a first sensor voltage. A second differential amplifier is provided and the second differential amplifier is connected to the first differential amplifier and to the current source. In the case of the first sensor voltage, a first operating current is present at the magnetic field sensor and in the case of a second sensor voltage, a second operating current is present, whereby the second Hall voltage is smaller than the first sensor voltage and the second operating current is greater than the first operating current. | 2013-04-25 |
20130099782 | HALL SENSOR SYSTEM - Integrated circuit Hall sensor system comprising a plurality of elementary blocks (EB), each elementary block including a Hall cell ( | 2013-04-25 |
20130099783 | DUAL-AXIS ANISOTROPIC MAGNETORESISTIVE SENSORS - An integrated dual-axis anisotropic magnetoresistive sensor can include first and second sensor units. A resistor bridge of the first sensor unit can include a plurality of magnetoresistors, each having at least one strip of anisotropic magnetoresistive material with a longitudinal axis substantially parallel to the technological anisotropy axis of the material. A resistor bridge of the second sensor unit can include a plurality of magnetoresistors having a plurality of strips of the anisotropic magnetoresistive material, the plurality of strips including a first subset having longitudinal axes aligned at a first angle to the technological anisotropy axis and a second subset having longitudinal axes aligned at a second angle to the technological anisotropy axis. The second angle can have the same magnitude as the first, but be rotated in an opposite direction from the technological anisotropy axis. | 2013-04-25 |
20130099784 | Method for Magnetic Resonance Imaging with Controlled Aliasing - A method for imaging a subject with a magnetic resonance imaging (MRI) system using controlled aliasing is provided. A radio frequency (RF) excitation field is applied to excite the spins in a volume-of-interest that may include multiple slice locations. Using the MRI system, a readout magnetic field gradient is established following the application of the RF excitation field to form echo signals. These echo signal receive a differential encoding by way of establishing, while the readout gradient is established, alternating magnetic field gradients along two directions, such as the partition-encoding and phase-encoding directions. Image data is acquired from the formed echo signals and images of the subject are reconstructed from the acquired image data. | 2013-04-25 |
20130099785 | METHOD AND MAGNETIC RESONANCE APPARATUS TO ACQUIRE MR DATA IN A PREDETERMINED THREE-DIMENSIONAL VOLUME SEGMENT OF A SUBJECT - Acquisition of magnetic resonance (MR) data in a predetermined three-dimensional volume segment of an examination subject with an MR apparatus proceeds by the volume segment being excited with an RF excitation pulse, and repeated, temporally sequential implementation of the following in order to respectively read out an echo train:
| 2013-04-25 |
20130099786 | PARALLEL MAGNETIC RESONANCE IMAGING USING UNDERSAMPLED COIL DATA FOR COIL SENSITIVITY ESTIMATION - A computer program product ( | 2013-04-25 |
20130099787 | SYSTEM AND METHOD FOR SERIES RESONANT CONVERTER PROTECTION - A resonant power supply is disclosed. The resonant power supply includes a series resonant configured to convert an input DC voltage to an output DC voltage. The resonant power supply further comprises a converter controller coupled to the series resonant converter and configured to receive a DC voltage feedback signal measured at the output of the series resonant converter, or a resonant current feedback signal representing a resonant current flowing through the series resonant converter. The converter controller is further configured to generate control signals to be applied to the series resonant converter to limit the output DC voltage of the series resonant converter according to the DC voltage feedback signal and a predetermined voltage threshold signal, or to limit the resonant current of the series resonant converter according to the resonant current feedback signal and a predetermined current threshold signal. | 2013-04-25 |
20130099788 | SYSTEM AND METHOD FOR GRADIENT AMPLIFIER CONTROL - A gradient amplifier for driving a gradient coil is disclosed. The gradient amplifier includes a direct current (DC) bus for receiving DC voltage generated from a series resonant converter, an inverter coupled to the DC bus configured to receive the DC voltage at the DC bus and convert the DC voltage to generate an output voltage to be applied to the gradient coil, and an inverter controller coupled to the inverter. The inverter controller is configured to generate control signals to control operation of the inverter based at least on a DC voltage feedback signal measured at the DC bus, an output voltage feedback signal measured at the output of the inverter, and a reference output voltage signal indicative of a desired voltage to be achieved at the output of the inverter. | 2013-04-25 |
20130099789 | RESONANCE CIRCUIT HAVING A VARIABLE RESONANCE FREQUENCY - A resonance circuit with a variable resonance frequency provided by a variable capacitor having compliant electrodes arranged on a deformable sheet. When the sheet is deformed the capacitance is varied. Further a sensing element comprising the resonance circuit and a sensing system comprising at least one sensing element, a sending unit and a receiving unit. Suitable for mass production. Provides wireless sensing system being cost effective to manufacture. May be used for low cost products, such as toys. May also be used for monitoring displacements in structures, e.g. cracks in wall structures. Further a positions sensitive pressure sensor with pressure sensors arranged on a two-dimensional structure. | 2013-04-25 |
20130099790 | MULTI-AXIS MARKER LOCATOR - A portable locator for locating an obscured marker. The locator includes a portable locator housing, a first antenna disposed within the housing, a second antenna disposed orthogonally to the antenna within the housing; and a processor. The processor is configured to interact with each of the first and second antennas, such that each of the first and second antennas is configured to transmit and receive signals. The locator may include more than two antennas, and may include multiple sets of antennas. | 2013-04-25 |
20130099791 | Methodologies to Improve Reliability of Transducer Electrical Interconnections - The present disclosure relates to methods and apparatuses measuring a property of a material. The apparatus may include a transducer comprising a first electrical conductor, a second electrical conductor, and a piezoelectric component configured to receive the two conductors. The piezoelectric component may include a cavity dimensioned to improve the strength of or reduce stress on an interconnection between piezoelectric component and at least one of the conductors. The method may include using one or more transducers measuring a property of a material. In some embodiments, the material may be an earth formation. | 2013-04-25 |
20130099792 | ENHANCED METHOD OF SENSING IONIZATION CURRENT IN SPARK IGNITION INTERNAL COMBUSTION ENGINES AND RELATED SPARK PLUG STRUCTURES - A spark plug, including an insulator embedding a first metallic electrode axially extending therethrough from a high voltage outer end terminal to the center of the inner end of the insulator from which it protrudes; a metallic ground electrode isolated from the first electrode and having an extended inner termination facing toward the first electrode extending from the insulator tip for defining therebetween a spark gap, a resistive element connected to the ground electrode such that upon mounting the spark plug in an internal combustion engine, the ground electrode electrically connects to the engine body through the resistive element; and to a second outer termination of the ground electrode, adapted to constitute an accessible sensing terminal. | 2013-04-25 |
20130099793 | BATTERY MONITORING APPARATUS - A battery monitoring apparatus for monitoring a battery condition of an assembled battery. In the apparatus, a control unit transmits, to a monitoring unit that is powered by the assembled battery and monitors its battery condition, a first mode-switching instruction signal for instructing the monitoring unit to transition from a normal mode to a dark-current mode. Subsequently, the control unit transmits to the monitoring unit a second mode-switching signal for instructing the monitoring unit to transition from the dark-current mode to the normal mode, and acquires an increased count value of a timer circuit in the monitoring unit for a time period from transmission of the first mode-switching instruction signal to transmission of the second mode-switching instruction signal. When it is determined that the increased count value is greater than an abnormality diagnosis criterion value, then the control unit determines that the dark-current mode of the monitoring unit is malfunctioning. | 2013-04-25 |
20130099794 | DEGRADATION DETERMINATION DEVICE AND DEGRADATION DETERMINATION METHOD FOR LITHIUM ION SECONDARY BATTERY - A degradation determination device includes: a measuring unit measuring an open-circuit voltage characteristic indicating an open-circuit voltage variation with respect to a lithium ion secondary battery capacity variation; and a determining unit determining a degradation state due to wear and precipitation of lithium using a parameter for identifying the open-circuit voltage characteristic that substantially coincides with the measured open-circuit voltage characteristic. The parameter includes single electrode capacity retention rates expressed by the expressions (I) positive electrode capacity retention rate=degraded positive electrode capacity/initial positive electrode capacity and (II) negative electrode capacity retention rate=degraded negative electrode capacity/initial negative electrode capacity, and a battery capacity variation expressed by the expression (III) battery capacity variation=degraded negative electrode capacity×shift of a negative electrode composition axis with respect to a positive electrode composition axis. | 2013-04-25 |
20130099795 | ELECTRIC LEAKAGE DETECTING APPARATUS - An electric leakage detecting apparatus includes: a first voltage-dividing circuit; a second voltage-dividing circuit; a first switch which is inserted in a line connecting the first voltage-dividing circuit and the ground connection resistance; a second switch which is inserted in a line connecting the second voltage-dividing circuit and the ground connection resistance; a first voltage detecting circuit which detects an output voltage of the first voltage-dividing circuit; a second voltage detecting circuit which detects an output voltage of the second voltage-dividing circuit; and a judging circuit which judges whether the electric leakage of the high voltage battery occurs or not on the basis of the output voltage of the first voltage-dividing circuit in a case that the first switch is in ON state and the output voltage of the second voltage-dividing circuit in a case that the second switch is in ON state. | 2013-04-25 |
20130099796 | Radiation-Tolerant Overcurrent Detection - Systems and methods for radiation-tolerant overcurrent detection are disclosed. In some embodiments, an integrated circuit may include a plurality of overcurrent detectors, each of the plurality of overcurrent detectors configured to detect a candidate overcurrent event. The integrated circuit may also include a voting circuit coupled to the overcurrent detectors, the voting circuit configured to indicate an overcurrent in response to receiving a selected number of candidate overcurrent events from the overcurrent detectors. At least one of the overcurrent detectors may be subject to detecting the candidate overcurrent in error, at least in part, due to exposure to ionizing radiation. | 2013-04-25 |
20130099797 | Variable Impedance Device - A variable impedance device includes a passive tuner that includes at least one variable component, which is controllable to apply a variable impedance value to an input signal of the passive tuner. A low noise amplifier is configured to supply the input signal to the passive tuner by amplifying an input RF (radio frequency) signal. | 2013-04-25 |
20130099798 | MEASUREMENT DEVICE AND METHOD THEREOF - Measurement devices, systems, and methods to measure a high field conductivity of a fluid are provided herein. The measurement device includes a fluid cell, a pair of electrodes, a voltage switch, and a measurement unit. The fluid cell is on an inclined plane to receive the fluid. The pair of electrodes are connected to the fluid cell. The pair of electrodes are spaced apart from one another to receive the fluid therebetween and positioned parallel to one another to pass an electrical current therethrough. The power unit provides a high voltage power supply to one electrode of the pair of electrodes. The measurement unit measures the electrical current that passes between the pair of electrodes through the fluid. | 2013-04-25 |
20130099799 | METHOD FOR MEASURING INTERFACE STATE DENSITY - The present invention provides a method for measuring the interface state density by a conductance technique. In particular, the method comprises: biasing a MOS capacitor structure to be measured in an accumulation region, measuring the MOS capacitor structure under a fixed bias voltage and at predetermined scanning frequencies in the accumulation region by using a Gp-G model, and calculating the values of the series resistor at respective predetermined scanning frequencies to obtain a series resistor model; obtaining an accurate model in an inversion region from the series resistor model varying with the predetermined scanning frequencies obtained in the accumulation region and obtaining the measurement results of interface state according to the accurate model. | 2013-04-25 |
20130099800 | ALGORITHM AND IMPLEMENTATION SYSTEM FOR MEASURING IMPEDANCE IN THE D-Q DOMAIN - A controller and infrastructure for an impedance analyzer measures responses to perturbations to respective phases of a multi-phase system at an interface between stages thereof (which may be considered as a source and load in regard to each other), such as a multi-phase electrical power system, to determine a transfer function for each phase of the multi-phase system from which the impedance of each of the source and load can be calculated, particularly for assessing the stability of the multi-phase system. | 2013-04-25 |
20130099801 | DIAGNOSTIC METHODS AND APPARATUS FOR AN ACCELERATOR USING INDUCTION TO GENERATE AN ELECTRIC FIELD WITH A LOCALIZED CURL - Methods and apparatus are described wherein a charged beam in an enclosed conducting cavity in an accelerator is monitored for position, current, and energy. One method uses induced electric signals on non-intercepting conducting electrodes. Another method uses an intercepting and moving electrode than can be moved into the beam to different degrees to monitor the beam current and vertical profile at different radial positions. Non-intercepting electrodes are also used as part of a moving diagnostic probe to monitor properties of the beam at different radial positions. Another method uses the current in the leads to a power supply, a portion of this current being equal to the beam current. Another method uses the magnetic and electric fields from the beam that penetrates a non-conducting portion of the conducting cavity. Yet another method uses the radiation emitted during acceleration of the beam by the deflecting magnets that guide the beam. | 2013-04-25 |
20130099802 | INPUT DEVICE WITH FORCE SENSING - Devices and methods are provided that facilitate improved input device performance. The devices and methods utilize a first substrate with proximity sensor electrodes and at least a first force sensor electrode disposed on the first substrate. A second substrate is physically coupled to the first substrate, where the second substrate comprises a spring feature and an electrode component. The electrode component at least partially overlaps the first force sensor electrode to define a variable capacitance between the first force sensor electrode and the electrode component. The spring feature is configured to facilitate deflection of the electrode component relative to the first force sensor electrode to change the variable capacitance. A measure of the variable capacitance may be calculated and used to determine force information regarding the force biasing the input device. | 2013-04-25 |
20130099803 | FILM THICKNESS SENSOR WITH POROUS BLOWER - A sensor system for measuring the thickness of flat material that is moved relative to the sensor system has a first sensor device for measuring the thickness of the flat material and a device for generating an air cushion. The device is disposed in such a way that there is an air cushion between at least one side of the sensor device that faces the flat material, and the flat material, during operation. In the region of the air cushion, the first sensor device includes surface sections having porous material and/or material that is provided with micro-holes. | 2013-04-25 |
20130099804 | APPARATUS AND METHOD FOR MEASURING CAPACITANCE IN TOUCH SENSOR - An apparatus and method are provided to rapidly and accurately measure the variation of capacitance in a panel load of a touch sensor and thus increase touch sensitivity and noise resistance. The apparatus includes a panel driver configured to drive a panel load in the touch sensor according to a reference voltage, and a capacitive load detector configured to measure capacitance of the panel load by sensing a panel load driving current that is applied to the panel load by the panel driver. | 2013-04-25 |
20130099805 | DETERMINING ACTUATION OF MULTI-SENSOR-ELECTRODE CAPACITIVE BUTTONS - In a method for determining actuation of a first capacitive button having a first set of at least three sensor electrode elements associated with at least three distinct sensor electrodes, and wherein a sensor electrode element of the first set of sensor electrode elements and a sensor electrode element of a second set of at least three sensor electrode elements of a second capacitive button share at least one sensor electrode in common, indicia is received from the at least three distinct sensor electrodes comprising the first capacitive button. At least three electrode values are generated from the indicia. The at least three electrode values are utilized to determine actuation of the capacitive button. | 2013-04-25 |
20130099806 | Long Range, Battery Powered, Wireless Environmental Sensor Interface Devices - Long range, battery powered, wireless environmental sensor interface devices that can be connected to a plurality of sensors and wirelessly communicate the sensor readings back to a central collection device or Internet terminal. Instead or additionally, sensors can be integrated with the device for added efficiency. The devices incorporate a rugged enclosure and an internal power supply that allows them to be placed in harsh environmental conditions and operate for multiple years without maintenance due to unique power-saving design features. The RF circuitry is specially optimized for long-range outdoor communications of small quantities of data. Line-of-sight communication range of several miles is possible with this device. Various embodiments are disclosed. | 2013-04-25 |
20130099807 | LOAD IMPEDANCE DETECTION FOR STATIC OR DYNAMIC ADJUSTMENT OF PASSIVE LOADS - This disclosure provides systems, methods and apparatus for detecting an impedance of a wireless power transmitter load. In one aspect, a method of determining a reactive condition of a wireless power transmitter apparatus is provided. The method comprises determining a value correlated to a voltage of a drain of a switching element of a driver circuit of the wireless power transmitter. The method further comprises determining a reactance load change based on the determined voltage. | 2013-04-25 |
20130099808 | FLUID RESISTIVITY SENSOR - Various embodiments include apparatus and methods of determining resistivity of fluids downhole in a well. The apparatus and methods may include using a sensor that employs a focused electric dipole as a transmitter and a uses a receiver to detect the electric current strength in the fluid under measurement responsive to the transmitter. Additional apparatus, systems, and methods are disclosed. | 2013-04-25 |
20130099809 | METHODS AND SYSTEMS FOR PROBING SEMICONDUCTOR WAFERS - A wafer probing method includes calibrating a wafer probing system, checking continuity between probe pins of the wafer probing system and respective conductors of a wafer under test, and identifying at least an interconnect structure in the wafer under test to determine whether a fault exists. | 2013-04-25 |
20130099810 | Electrically Conductive Kelvin Contacts For Microcircuit Tester - Terminals ( | 2013-04-25 |
20130099811 | PROBE - Disclosed is a probe which stably transmits a test signal. The probe electrically connects a semiconductor device and a tester for testing the semiconductor device. The probe may include an upper plunger which is configured to be electrically connected to the semiconductor device; a lower plunger which is configured to be electrically connected to the tester; an elastic member which is disposed between the upper plunger and the lower plunger, and elastically biases the upper and lower plungers to have them spaced from each other; a conductive member which is disposed in an inside or outside of the elastic member and electrically connects the upper plunger and the lower plunger; and a barrel which accommodates therein the upper plunger, the lower plunger, the elastic member and the conductive member. | 2013-04-25 |
20130099812 | Probe Cards for Probing Integrated Circuits - A device includes a probe card, which further includes a chip. The chip includes a semiconductor substrate, a test engine disposed in the chip, wherein the test engine comprises a device formed on the semiconductor substrate, wherein the device is selected from the group consisting essentially of a passive device, an active device, and combinations thereof. A plurality of probe contacts is formed on a surface of the chip and electrically connected to the test engine. | 2013-04-25 |
20130099813 | CONTACT TERMINAL FOR A PROBE CARD, AND THE PROBE CARD - A contact terminal for a probe card includes a cylindrical main body. The main body includes a pillar-shaped central portion formed of a first material and an outer housing which is formed of a second material and covers a lateral surface of the central portion, and hardness and resistivity of the second material are different from hardness and resistivity of the first material. The hardness of the second material is higher than that of the first material and the resistivity of the first material is lower than that of the second material, or the hardness of the first material is higher than that of the second material and the resistivity of the second material is lower than that of the first material. | 2013-04-25 |
20130099814 | CONTACT PROBE AND PROBE UNIT - A contact probe includes a conductive first plunger including, on a same axis, a distal end portion, a flange portion, a boss portion, and a base end portion, a conductive second plunger including, on the same axis, a second distal end portion and a boss portion, and a coil spring including a coarsely wound portion formed by winding at a predetermined pitch with an inner diameter equal to or larger than a diameter of the boss portion of the first plunger and a tightly wound portion formed by tightly winding with an inner diameter substantially equal to a diameter of the boss portion of the second plunger, so that the first plunger and the second plunger are connected to each other on the same axis. | 2013-04-25 |
20130099815 | PROBE CARD HANDLING CARRIAGE - A probe card handling carriage is applicable to various working environments. The probe card handling carriage includes a main body provided to be travelable on the ground, a drawer unit provided to be movable in a forward and backward direction with respect to the main body, and a transfer robot installed on the drawer unit to transfer a probe card. | 2013-04-25 |
20130099816 | ACTIVE MATRIX SUBSTRATE, DISPLAY DEVICE, AND METHOD FOR TESTING THE ACTIVE MATRIX SUBSTRATE OR THE DISPLAY DEVICE - An active matrix substrate includes a plurality of bus lines ( | 2013-04-25 |
20130099817 | Sytems and Methods for Propagating Digital Data across an Isolation Barrier - Systems and methods pertaining to propagation of digital data from a transmit side domain to a receive side domain through an intermediate isolation barrier are described. Specifically, a carrier waveform is superimposed upon a first logic level of a digital signal that is referenced to a first local ground. The digital signal with the superimposed first carrier waveform is propagated through the intermediate isolation barrier. On the receive side domain, the propagated digital signal is processed using a second local ground that is different than the first local ground, the processing including the use of the carrier waveform to enforce the first logic level upon an output digital signal generated from the propagated digital signal. | 2013-04-25 |
20130099818 | METHODS AND APPARATUSES INCLUDING AN ADJUSTABLE TERMINATION IMPEDANCE RATIO - Methods of adjusting a centerline voltage of a data signal are described, along with apparatuses to adjust the centerline voltage. In one such method, portions of a termination circuit coupled to a node are selectively programmed to adjust an impedance of the termination circuit to adjust the centerline voltage of the data signal driven to the node. One such apparatus includes pull-up impedances and pull-down impedances that can be programmed to adjust the centerline voltage of the data signal. Additional embodiments are also described. | 2013-04-25 |
20130099819 | NON-SEQUENTIALLY CONFIGURABLE IC - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes at least fifty configurable circuits arranged in an array having a plurality of rows and a plurality of columns. Each configurable circuit for configurably performing a set of operations. At least a first configurable circuit reconfigures at a first reconfiguration rate. The first configurable circuit performs a different operation each time the first configurable circuit is reconfigured. The reconfiguration of the first configurable circuit does not follow any sequential progression through the set of operations of the first configurable circuit. | 2013-04-25 |
20130099820 | SAFETY COMPONENT IN A PROGRAMMABLE COMPONENTS CHAIN - An electronic circuit includes a plurality of programmable components connected in an electronic chain. An interface is adapted to connect the programmable components to an external controller wherein the controller is adapted to program the programmable components. A component isolation element is connected to the interface at an input end and to the electronic chain of the programmable components at an output end wherein the isolation element is adapted to isolate one component of the programmable components from the electronic chain and wherein the one component is a safety component. | 2013-04-25 |
20130099821 | SYSTEM AND METHOD FOR REDUCING RECONFIGURATION POWER USAGE - A system and method for reducing power consumption in a reconfigurable integrated circuit. Some embodiments provide placement and routing programs that reduce the number of bits to be reconfigured. Some embodiments provide placement and routing programs that increase the number of groups of circuits that do not need reconfiguration at some times. Some embodiments include circuits that selectively block reconfiguration. | 2013-04-25 |
20130099822 | CML TO CMOS CONVERSION CIRCUIT - The present invention provides a CML to CMOS conversion circuit comprising a first differential unit, a second differential unit, and an output unit. The output unit comprises a series connection of a first inverter and a second inverter, wherein, a resistor is connected with the first inverter in parallel. The CML to CMOS conversion circuit of the present invention omits the amplifier in the conventional circuit and reduces the delay time to 34 ps, which is almost half of the delay time of 64 ps in the conventional circuit, and thus provides more clock delay redundancy for the high speed parallel-serial conversion circuit. | 2013-04-25 |
20130099823 | OUTPUT DRIVER, DEVICES HAVING THE SAME, AND GROUND TERMINATION - An integrated circuit comprising an output driver including an output terminal, and a receiving circuit including a termination resistor connected between the output terminal and a ground. The output driver comprising a first NMOS transistor configured to pull up a voltage of the output terminal to a pull-up voltage in response to a pull-up signal, and a second NMOS transistor configured to pull down the output terminal to a ground voltage in response to a pull-down signal. | 2013-04-25 |
20130099824 | REDUCED OFFSET COMPARATOR - An apparatus is provided. The apparatus comprises backend circuitry and pairs of redundant input circuits. Each pair of redundant input circuits is configured to form a differential pair of transistors, and each redundant input circuit includes a multiplexer and a set of transistors. The multiplexer is coupled to the backend circuitry, and each transistor from the set of transistors has a first passive electrode, a second passive electrode, and a control electrode. The first passive electrode of each transistor from the set of transistors is coupled to the multiplexer, and the control electrodes from the set of transistors are coupled together. | 2013-04-25 |
20130099825 | VOLTAGE COMPARATOR - The present disclosure provides a voltage comparator including a current source, a differential gain module and a switch module, wherein the magnitude of the current flowing through the current source is nano ampere level; the differential gain module includes a first transistor, a second transistor, a third transistor and a fourth transistor, wherein the first transistor and the second transistor are respectively connected to the current source, the third transistor and the fourth transistor form a mirror current structure, the third transistor is connected to the first transistor, and the fourth transistor is connected to the second transistor via a ninth transistor used for forming asymmetric differential gain. | 2013-04-25 |
20130099826 | POWER DETECTOR - In a power detector, a comparator for detection receives an input signal and a reference voltage, and compares the input signal to the reference voltage around the switching time of active and inactive states of the output of the comparator in accordance with an output of an input switching signal generator. Except for the switching time, an input voltage for non-use of the comparator is inputs to the comparator for detection, and the differential inputs are fixed to the same potential. Therefore, aging reduction in the accuracy of power detection caused by BT degradation is effectively mitigated. | 2013-04-25 |
20130099827 | MEASURING DEVICE HAVING A TRIGGER UNIT - A measuring device for triggering a test signal with a superposed noise signal includes a trigger unit, which is connected to a recording unit, where the test signal with respectively superposed noise signal is supplied to both. The trigger unit outputs a trigger signal to the recording unit as soon as the test signal with superposed noise signal has completely run through a hysteresis range. The trigger unit is connected to a hysteresis adjustment unit, where the hysteresis adjustment unit specifies a hysteresis range to the trigger unit, and where the hysteresis range specified by the hysteresis adjustment unit is adjustable. | 2013-04-25 |
20130099828 | DIRECT SAMPLING CIRCUIT - Provided is a direct sampling circuit in which signal mixing between systems is avoided, even when signal systems in which time sharing is integrated are used together by time sharing. History capacitors ( | 2013-04-25 |
20130099829 | Operating a Frequency Synthesizer - An apparatus and method for operating a frequency synthesizer wherein a value of an first control signal associated with a fine frequency feedback loop connected to a signal generator is monitored, and a second control signal associated with a medium or coarse frequency feedback loop connected to the signal generator is adjusted based on the monitoring. The first and second control signals are then output to control the frequency synthesizer. | 2013-04-25 |
20130099830 | INTEGRATED CIRCUIT CHIP - An integrated circuit chip includes a first single ended type buffer configured to receive a first signal through a first pad, a second single ended type buffer configured to receive a second signal through a second pad, a differential type buffer configured to receive a third signal through the first pad and the second pad, a strobe input unit configured to receive a strobe signal synchronized with the third signal inputted to the first pad and the second pad, and a buffer control unit configured to control activation of the first and second single ended type buffers and the differential type buffer in response to the strobe signal. | 2013-04-25 |
20130099831 | GATE DRIVE CIRCUIT AND ASSOCIATED METHOD - A method of driving a number of series connected active power semiconductor groups, wherein each of the active power semiconductor groups includes one or more gate oxide-isolated active power semiconductor devices. The method includes generating a current pulse, providing the current pulse to a primary portion of a transformer unit and in response thereto causing a number of reflected current pulses to be reflected at a secondary portion of the transformer unit, and transferring and latching each of the reflected current pulses to create a respective latched gate drive signal, and providing each respective latched gate drive signal to an associated one of the active power semiconductor groups for driving the one or more gate oxide-isolated active power semiconductor devices of the associated one of the active power semiconductor groups. Also, a gate drive circuit that implements the method. | 2013-04-25 |
20130099832 | Current Driving Circuit and Display Device Using The Current Driving Circuit - A current drive circuit which can improve a rate for signal writing and a driving rate of an element even when a signal current is small, and a display device using the current drive circuit are provided. The current drive circuit for supplying a signal current to a node of a driven circuit through a signal line includes a precharge function for supplying a precharge voltage to the node through the signal line and the precharge function includes a supply function for supplying the precharge voltage to the node and the signal line prior to supplying the signal current. | 2013-04-25 |
20130099833 | INTEGRATED CIRCUIT CHIP AND SYSTEM HAVING THE SAME - An integrated circuit chip includes: an internal circuit; a data output circuit configured to output a data packet of the internal circuit in response to a strobe signal; an oscillator configured to generate a first clock signal; a divider configured to divide the first clock signal and generate a second clock signal; and a strobe signal supply unit configured to supply the second clock signal as the strobe signal during an initial period of transmission of the data packet and supply the first clock signal as the strobe signal after the initial period. | 2013-04-25 |
20130099834 | RAMP SIGNAL GENERATION CIRCUIT AND RAMP SIGNAL ADJUSTMENT CIRCUIT - A ramp signal generation circuit comprises a first input terminal that receives a clock signal, a plurality of second input terminals that receive high-level or low-level signals, and a discharge and charge circuit that discharges and charges the capacitor and that outputs a ramp signal corresponding to a voltage generated by the capacitor. The discharge and charge circuit comprises a discharge circuit that discharges the capacitor, and a charge circuit that is configured with a plurality of paired resistors and rectifying elements connected between the capacitor and the plurality of second input terminals. The discharge and charge circuit selects at least one of the plurality of second input terminals so as to change a current value for charging the capacitor by inputting the high-level signal to the selected one of the plurality of second input terminals. | 2013-04-25 |
20130099835 | CALIBRATION APPARATUS FOR PERFORMING PHASE DETECTION/EDGE DISTANCE DETECTION UPON SIGNALS AND RELATED CALIBRATION METHOD THEREOF - An exemplary calibration apparatus includes a detecting circuit and a calibrating circuit. The detecting circuit is arranged for generating a detection result by detecting relationship between edges of a plurality of signals generated from a plurality of signal sources, wherein at least one of the edges is a falling edge. The calibrating circuit is coupled to the detecting circuit, and arranged for calibrating at least one of the signal sources according to the detection result. An exemplary calibration method includes the following steps: generating a detection result by detecting relationship between edges of a plurality of signals generated from a plurality of signal sources, wherein at least one of the edges is a falling edge; and calibrating at least one of the signal sources according to the detection result. | 2013-04-25 |
20130099836 | GYROSCOPE WITH PHASE AND DUTY-CYCLE LOCKED LOOP - A system and method in accordance with the present invention provides a gyroscope incorporating an improved PLL technique. The improved PLL auto-corrects its own reference low-frequency noise, thereby eliminating this source of noise, improving the noise performance of the gyroscope and allowing a compact implementation. The net result is a gyroscope with improved bias stability that can meet noise requirements with a smaller footprint. | 2013-04-25 |
20130099837 | PHASE MIXER AND DELAY LOCKED LOOP INCLUDING THE SAME - A phase mixer includes a first driver configured to drive a first input signal to a mixing node with a driving force determined by a first setting value, a second driver configured to drive a second input signal to the mixing node with a driving force determined by a second setting value, and a slew rate control unit configured to control a slew rate at the mixing node. | 2013-04-25 |
20130099838 | SEMICONDUCTOR INTEGRATED CIRCUIT AND METHOD FOR DRIVING THE SAME - A semiconductor integrated circuit includes: a delay locked loop (DLL) configured to generate a DLL clock signal by delaying a source clock signal by a first delay time for obtaining a lock, wherein an update period of the DLL is controlled in response to an update period control signal after locking is completed; and an update period controller configured to generate the update period control signal based on a second delay time occurring in a loop path of the DLL in response to the source clock signal and a plurality of control signals provided from the DLL. | 2013-04-25 |
20130099839 | SEGMENTED FRACTIONAL-N PLL - A Fractional-N PLL includes a phase frequency detector module receiving a first clock and a second clock that is associated with a feedback path arrangement. A coarse phase adjustment module receives a coarse phase component and an output signal associated with a divider module used in the feedback path arrangement and performs a coarse phase adjustment. A fine phase adjustment module performs fine phase adjustment using a fine phase component and the coarse phase adjustment as input to produce the second clock. The fine phase adjustment module nominally cancels most or all of the quantization noise present during the coarse phase adjustment, thereby greatly reducing the net phase noise of the divider module. A segmentation module receives a control signal and generates the coarse phase component and the fine phase component that are provided to the fine phase adjustment module and the coarse phase adjustment module for processing. | 2013-04-25 |
20130099840 | DUTY ADJUSTMENT CIRCUITS AND SIGNAL GENERATION DEVICES USING THE SAME - A duty adjustment circuit is provided. The duty adjustment circuit is used to adjust a duty cycle of a first driving signal. The duty adjustment circuit includes a filter, a first comparator, and a first duty adjustor. The filter receives a comparison result signal and filters the comparison result signal to generate a duty information signal. The duty information signal indicates a duty cycle of the comparison result signal. The first comparator receives the duty information signal and determines whether a direct-current (DC) level of the duty information signal falls into a predefined voltage range to generate a first adjustment signal. The first duty adjustor receives the first adjustment signal and the first driving signal and adjusts the duty cycle of the first driving signal according to the first adjustment signal. | 2013-04-25 |
20130099841 | NOISE REDUCTION DEVICE AND SEMICONDUCTOR DEVICE HAVING THE SAME - A semiconductor device includes a first terminal for receiving a first signal; a second terminal for receiving a second signal having more restriction than the first signal with respect to a delay upon transmitting to an internal circuit; a first noise reduction circuit; and a second noise reduction circuit. The first noise reduction circuit includes a first Schmitt circuit for receiving the first signal from the first terminal; and an output signal adjusting unit for adjusting an output signal of the first Schmitt circuit when the output signal is maintained for a specific period of time after the output signal is varied. The second noise reduction circuit includes a second Schmitt circuit for receiving the second signal from the second terminal; and an input signal adjusting unit for adjusting the second signal input to the second Schmitt circuit according to a fluctuation of a power source voltage. | 2013-04-25 |
20130099842 | TEMPERATURE SENSITIVE DEVICE - A temperature sensitive device includes a first delay unit generating a first delayed signal, a second delay unit generating a second delayed signal, a difference generating unit generating an indication signal according to the first delayed signal and the second delayed signal, and a processing unit generating an output signal that is dependent on the temperature sensed by the temperature sensitive device and substantially independent of the manufacturing process of the temperature sensitive device. | 2013-04-25 |
20130099843 | CLOCK SIGNAL GENERATING APPARATUS CAPABLE OF REDUCING OR AVOIDING CROSSTALK AND GLITCH SIGNALS, AND METHOD USED IN CLOCK SIGNAL GENERATING APPARATUS - A clock signal generating apparatus includes a first frequency generating circuit, a second frequency generating circuit, and an output circuit. The first frequency generating circuit is arranged to generate a first clock signal having a first oscillation frequency. The second frequency generating circuit is arranged to generate a second clock signal having a second oscillation frequency. The output circuit is arranged to receive the first and second clock signals. The output circuit is able to output one of the first and second clock signals as an output clock signal according to an oscillation frequency control setting provided by an external bounding pad included within the clock signal generating apparatus. | 2013-04-25 |
20130099844 | CLOCK DISTRIBUTION CIRCUIT AND METHOD OF FORMING CLOCK DISTRIBUTION CIRCUIT - This invention includes a clock tree to which clock signals are distributed, and a phase comparison circuit configured to detect the phase difference between a plurality of feedback clock signals upon receiving the plurality of feedback clock signals output from different branching points of the clock tree. The invention includes a feedback clock signal generation circuit configured to generate a variation-corrected feedback clock signal for correcting a manufacture variation in the semiconductor integrated circuit based on the phase difference detected by the phase comparison circuit. The invention includes a phase regulation circuit configured to delay the clock signal so as to reduce the phase difference between a reference clock signal and the variation-corrected feedback clock signal generated by the feedback clock signal generation circuit. | 2013-04-25 |
20130099845 | SYSTEM AND METHOD OF TRANSISTOR SWITCH BIASING IN A HIGH POWER SEMICONDUCTOR SWITCH - A circuit and method are provided for switching in a semiconductor based high power switch. Complementary p-type based transistors are utilized along insertion loss insensitive paths allowing biasing voltages to alternate between supply and ground, allowing for negative voltage supplies and blocking capacitors to be dispensed with, while improving performance. | 2013-04-25 |
20130099846 | DRIVING CIRCUIT, SEMICONDUCTOR DEVICE HAVING DRIVING CIRCUIT, AND SWITCHING REGULATOR AND ELECTRONIC EQUIPMENT USING DRIVING CIRCUIT AND SEMICONDUCTOR DEVICE - Disclosed is a driving circuit that includes a switching element configured to be connected between an input terminal and an output node; a first power supply circuit configured to generate a first voltage; and a first driving circuit configured to drive the switching element with an output thereof using a voltage of the output node as a reference negative-side power supply voltage and the first voltage as a positive-side power supply voltage. The voltage of the output node is used as a reference negative-side power supply voltage of the first power supply. | 2013-04-25 |
20130099847 | INPUT CIRCUIT - An input circuit includes an inverter, a first path control circuit and a second path control circuit. An input of the inverter is connected with a first node. A target inversion potential is higher than an inversion potential of the inverter. The first path control circuit electrically connects an input terminal and the first node when the input potential is higher than the target inversion potential, and blocks off an electrical connection between the input terminal and the first node when the input potential is lower than the target inversion potential. The second path control circuit electrically connects a ground terminal and the first node when the input potential is lower than a second inversion potential which is lower than the target inversion potential and blocks off the electrical connection between the ground terminal and the first node when the input potential is higher than the second inversion potential. | 2013-04-25 |
20130099848 | CONTROL APPARATUS WITH DIFFERENTIAL CONTROL IN A MAGNETICALLY COUPLED COIL SYSTEM FOR A CURRENT-REGULATED AMPLIFIER POWERING FIELD COILS OF A MAGNETIC RESONANCE TOMOGRAPH - A control apparatus for a gradient amplifier includes a differentiation unit. The differentiation unit forms a differentiation signal by differential processing from a current desired value signal of the gradient amplifier. At least one electrical low pass filter unit is connected in series with the differentiation unit, and/or at least one electrical high pass filter unit is connected in parallel with the differentiation unit. | 2013-04-25 |
20130099849 | RINGING SUPPRESSION CIRCUIT - A ringing suppression circuit for a communication circuit that performs communication through a transmission line includes a high side switch connected between a high potential reference point and a high side line of the transmission line, a low side switch connected between a low potential reference point and a low side line of the transmission line, and a ringing suppression section. The ringing suppression section turns on the high side switch based on a difference between a potential of the high side line and a potential applied to a control terminal of the high side switch. The ringing suppression section turns on the low side switch based on a difference between a potential of the low side line and a potential applied to a control terminal of the low side switch. | 2013-04-25 |
20130099850 | VOLTAGE SWITCH CIRCUIT - A voltage switch circuit uses PMOS transistors to withstand high voltage stress. Consequently, the NMOS transistors are not subject to high voltage stress. The lightly-doped PMOS transistors are compatible with a logic circuit manufacturing process. Consequently, the voltage switch circuit may be produced by a logic circuit manufacturing process. | 2013-04-25 |
20130099851 | SEMICONDUCTOR DEVICE HAVING STRAIN MATERIAL - A semiconductor device having strain material is disclosed in a particular embodiment, the semiconductor device includes a first cell including a first gate between a first drain and a first source. The semiconductor device also includes a second cell adjacent to the first cell. The second cell includes a second gate between a second drain and a second source. The semiconductor device further includes a shallow trench isolation area between the first source and the second source. A first amount of strain material over the first source and over the second source is greater than a second amount of strain material over the first drain and over the second drain. | 2013-04-25 |
20130099852 | CHARGE PUMP CIRCUIT WITH LOW CLOCK FEED-THROUGH - A charge pump circuit includes a first comparator, a PMOS tuner, a first current mirror, a first NMOS transistor, a first PMOS switch, an NMOS tuner, a second current mirror, a first PMOS transistor and a first NMOS switch. The first PMOS switch is coupled between the PMOS tuner and a first output PMOS transistor of the first current mirror, thus the parasitic capacitor formed between the gate and the drain of the first PMOS switch, the parasitic capacitor formed between the gate and the source of the first output PMOS transistor, and the parasitic capacitor formed between the gate and the drain of the first output PMOS transistor are equivalently coupled in series, lowering the capacitance between the PMOS tuner and the charge pump output, and reducing the clock feed through and the charge injection effect in the charge pump circuit. | 2013-04-25 |
20130099853 | METHODOLOGY AND APPARATUS FOR TUNING DRIVING CURRENT OF SEMICONDUCTOR TRANSISTORS - A method and apparatus for repairing transistors comprises applying a first voltage to a source, a second voltage to the gate and a third voltage to the drain for a predetermined time In this manner the semiconductor structure may be repaired or returned to the at or near the original operating characteristics. | 2013-04-25 |
20130099854 | NOISE SUPPRESSION CIRCUIT FOR POWER ADAPTER - A noise suppression circuit for a power adapter is disclosed. The noise suppression circuit can reduce or eliminate adapter-induced noise that could interfere with an electronic device powered by the adapter. In one example, the noise suppression circuit can include an active circuit to detect and attenuate or cancel the induced noise. In another example, the noise suppression circuit can include an RLC circuit in parallel with the adapter choke to suppress the induced noise at the operating frequencies of the powered electronic device. In still another example, the noise suppression circuit can include a modified adapter Y capacitor connection so as to bypass the adapter choke, thereby reducing or eliminating the choke's induced noise. | 2013-04-25 |
20130099855 | Filter Shaping Using a Signal Cancellation Function - A signal filter and accompanying methods. In one embodiment, the filter includes a first mechanism for receiving a first signal. A second mechanism employs one or more modified representations of the first signal to cancel one or more frequency components of the first signal, yielding an output signal in response thereto. In a more specific embodiment, the first mechanism includes a splitter for receiving the first signal and splitting the first signal onto a first path and a second path. The second mechanism further includes one or more delay modules and one or more phase shifters in the first path and/or the second path. One or more controllable amplifiers are optionally included in the first path and/or the second path. The one or more delay modules, phase shifters, or amplifiers are responsive to one or more control signals from a controller. The controller is adapted to modify behavior of the second mechanism so that the filter is characterized by a desired frequency response. | 2013-04-25 |
20130099856 | Methods and Circuits for Achieving Rational Fractional Drive Currents in Circuits Employing FinFET Devices - Disclosed herein are various methods and circuits for achieving rational fractional drive strengths in circuits employing FinFET devices. In one example, the device disclosed herein includes a semiconducting substrate, a first plurality of FinFET transistors formed in and above the substrate, wherein each of the first plurality of FinFET transistors is adapted to produce an individual drive current, and wherein the first plurality of FinFET transistors are configured in a series circuit. The drive current resulting from the series circuit is a rational fraction of the individual drive current. | 2013-04-25 |
20130099857 | AUDIO PROGRAMMABLE GAIN AMPLIFIER WITH AUTOMATIC RECONFIGURATION - A reconfigurable amplifier comprising a first operational amplifier having two inputs and an output. A second operational amplifier having two inputs and an output. A plurality of switches coupled to the two inputs and the output of the first operational amplifier and the two inputs and the output of the second operational amplifier, wherein a first configuration of the plurality of switches causes the first operational amplifier and the second operational amplifier to operate as an inverting differential input amplifier, and wherein a second configuration of the plurality of switches causes the first operational amplifier and the second operational amplifier to operate as a non-inverting differential input instrumentation amplifier. | 2013-04-25 |
20130099858 | DUAL PRIMARY SWITCHED TRANSFORMER FOR IMPEDANCE AND POWER SCALING - This application reduces the power of series combined transformers and of parallel combined transformers while maintaining efficiency. In one embodiment, a series combined transformer is provided with a switch between a first primary inductor and a second primary inductor, in order to provide at least two modes. In a high power mode, the switch is open and the series combined transformer operates normally. In a low power mode, the switch is closed, one amplifier from a first differential amplifier pair is shut down, one amplifier from a second differential pair is shut down, and the series combined transformer operates efficiently in a low power mode. | 2013-04-25 |