04th week of 2015 patent applcation highlights part 20 |
Patent application number | Title | Published |
20150022184 | CURRENT SENSE CIRCUIT WITH OFFSET CALIBRATION - A switching device is controlled by a microprocessor to selectively configure the circuit between a current measurement mode and a calibration mode. When the switch is set to the “on” state, the circuit acts as a normal prior art circuit, with the output V | 2015-01-22 |
20150022185 | POWER RECEIVING DEVICE AND PROGRAM - There is provided a power receiving device including a connecting unit that is connected to a power line through which power is transmitted, a determining unit that determines whether transmitted power is chargeable, based on power identification information indicating whether the transmitted power is chargeable power, and a notification control unit that performs notification based on a determination result. | 2015-01-22 |
20150022186 | ANGLE SENSORS, SYSTEMS AND METHODS - Embodiments relate to magnetic field angle sensors, including off-axis and on-axis sensors. In an embodiment, a magnetic field angle sensor comprises two sensor units, and each sensor unit comprises two sensor elements. The sensor units are spaced apart from one another and arranged proximate a magnet, wherein the two sensor elements of each sensor unit are responsive to the same magnetic field component induced by a magnet coupled to a shaft as the shaft rotates. In each sensor unit, a sum and a difference of the output signals of the two sensor elements can be calculated to determine a coarse estimation of a rotation angle, and a more refined estimation can be obtained by combining the coarse estimations of each sensor unit. In embodiment, the magnetic field angle sensor comprises a control unit or other circuitry to carry out this combining. | 2015-01-22 |
20150022187 | Arrangements for Magnetic Field Sensors That Act as Tooth Detectors - A variety of magnetic field sensor arrangements provide so-called “tooth detectors” using a simple low-cost magnet. | 2015-01-22 |
20150022188 | MAGNETIC FIELD SENSOR AND RELATED TECHNIQUES THAT PROVIDE AN ANGLE CORRECTION MODULE - A magnetic field sensor provides an angle error value to correct errors of the magnetic field sensor. The angle error value is a function of temperature and magnetic field strength and is used to correct a measured magnetic field angle. Associated methods are also described. | 2015-01-22 |
20150022189 | POSITION DETECTION DEVICE - A detection unit is disposed at a position facing a first magnet with a spacer member interposed therebetween, the first magnet is disposed between the spacer member and a second magnet so that a polarity of the first magnet corresponds to a polarity of the second magnet opposite to the polarity of the first magnet, a magnetic force generated from the second magnet reaches a position distant from the detection unit in a space to be detected as compared to a magnetic force generated from the first magnet, a magnetic field is generated by composition of the magnetic force generated from the first magnet and the magnetic force generated from the second magnet, and the detection unit detects the approach of an object to be detected by detecting a change of a magnetic field that occurs when an influence of the magnetic force generated from the second magnet is changed. | 2015-01-22 |
20150022190 | Inductive Position Sensor - Circuits for inductive position sensor are described. | 2015-01-22 |
20150022191 | DIFFERENTIAL PERPENDICULAR ON-AXIS ANGLE SENSOR - Embodiments relate to magnetic field angle sensors, such as on-axis magnetic field angle sensors. In an embodiment, a magnetic field angle sensor comprises a magnet having an axis of rotation, and a substrate arranged in-line with the axis of rotation. A plurality, such as at least four, of magnetic field sensor elements are arranged on a surface of the substrate, spaced apart from one another in regular increments on a closed curve in an embodiment, and are sensitive to a component of a magnetic field induced by the magnet that is parallel to the surface of the substrate on which the sensor elements are arranged. Circuitry of or coupled to the sensor elements then can estimate an angular position of the magnet, such as based on the magnetic field components sensed by the sensor elements as well as positions along the closed curve where the magnetic field component vanishes in an embodiment. | 2015-01-22 |
20150022192 | DISCRETE MAGNETIC ANGLE SENSOR DEVICE, A MAGNETIC ANGLE SENSOR ARRANGEMENT, A METHOD FOR GENERATING AN ANGLE SIGNAL AND A METHOD FOR PROVIDING A SENSOR SIGNAL - A discrete magnetic angle sensor device according to an embodiment includes a first magnetic field gradiometer and a second magnetic field gradiometer. The first magnetic field gradiometer and the second magnetic field gradiometer are of different types of a group of gradiometer types. An embodiment may improve an accuracy of a determination of a rotation angle. | 2015-01-22 |
20150022193 | Methods and Apparatus for Magnetic Sensor Having an Integrated Coil or Magnet to Detect a Non-Ferromagnetic Target - Methods and apparatus for detecting a magnetic field include a magnetic source configured to provide a magnetic field to induce an eddy current in a non-ferromagnetic target, and a magnetic field sensing element configured to detect the magnetic field as a result of the eddy current. The magnetic field provided by the magnetic source can be a static (i.e. DC) field or a changing (i.e. non-DC) field. | 2015-01-22 |
20150022194 | MAGNETOMETER FOR ALIGNING A PORTABLE DEVICE ON A PLANAR CHARGING SURFACE OF AN INDUCTIVE CHARGING UNIT - A portable electronic uses a magnetometer to determine an alignment with an inductive charging unit magnetic charging field. The alignment increases a portion of the magnetic charging field generated by the inductive charging unit and received by the portable device to better power the device and reduce battery recharge times. The portable device displays motion icons to facilitate a manual alignment. The magnetometer may also be used for magnetic earthly field applications such as a compass, navigation and augmented reality. | 2015-01-22 |
20150022195 | MAGNETIC FIELD PROBE - A detector of a magnetic field probe includes a first wiring pattern formed on a first surface of a multilayer substrate and having a predetermined inclination with respect to an axial line direction of the magnetic field probe, a second wiring pattern formed on a second surface and having the predetermined inclination with respect to the axial line direction, and a first penetrating via penetrating through the multilayer substrate in the thickness direction and connecting a front end portion of the first wiring pattern and a front end portion of the second wiring pattern. A rear end portion of the first wiring pattern is connected to a conductor pattern configuring a strip line and a rear end portion of the second wiring pattern is connected to ground patterns configuring the strip line. | 2015-01-22 |
20150022196 | CURRENT SENSOR - A current sensor includes a folded-shaped current path including a pair of arm portions extending in parallel with each other, and a pair of magnetoelectric conversion elements provided so as to sandwich therebetween a symmetric axis passing between the pair of arm portions, the pair of magnetoelectric conversion elements being used for detecting magnetism caused by a current passing through the pair of arm portions, wherein a half-bridge circuit in which the pair of magnetoelectric conversion elements is series-connected and a signal is able to be extracted from a connection point between the pair of magnetoelectric conversion elements is formed, and sensitivity axes of the pair of magnetoelectric conversion elements are oriented in a same direction and sensitivity-influencing axes of the pair of magnetoelectric conversion elements are oriented in a same direction. | 2015-01-22 |
20150022197 | MAGNET WITH OPPOSING DIRECTIONS OF MAGNETIZATION FOR A MAGNETIC SENSOR - In one aspect, a magnetic field sensor is configured to detect a ferromagnetic object. The magnetic field sensor includes a magnet that includes two North regions and two South regions configured to generate opposing directions of magnetization to form a magnetic flux. The magnetic field sensor also includes a magnetic field sensing element configured to generate an is output signal responsive to changes in the magnetic flux caused by movement of the ferromagnetic object. | 2015-01-22 |
20150022198 | Method and Apparatus for Magnetic Sensor Producing a Changing Magnetic Field - Methods and apparatus for detecting a magnetic field include a semiconductor substrate, a coil configured to provide a changing magnetic field in response to a changing current in the coil; and a magnetic field sensing element supported by the substrate. The coil receives the changing current and, in response, generates a changing magnetic field. The magnetic field sensing element detects the presence of a magnetic target by detecting changes to the magnetic field caused by the target and comparing them to an expected value. | 2015-01-22 |
20150022199 | CURRENT SENSOR - A current sensor includes: four magnetic sensor elements arranged within a plane orthogonal to a measured current, having a symmetrical magnetic characteristics curve, and adapted to convert a magnitude of a magnetic field into an electrical signal and output the electrical signal; a bridge circuit including the four magnetic sensor elements; and a bias magnetic field application member adapted to applying a bias magnetic field to the magnetic sensor elements. | 2015-01-22 |
20150022200 | OPTICALLY PUMPED MAGNETOMETER AND OPTICAL PUMPING MAGNETIC FORCE MEASURING METHOD - An optically pumped magnetometer having a single optical axis using atomic electron spin or nuclear spin includes a detection unit configured to detect an angle of a polarization plane of probe light having components of linear polarization and a modulation unit configured to apply a modulation to the angle of the polarization plane of the probe light having the components of linear polarization. The modulation unit is configured to control an offset in applying the modulation to the angle of the polarization plane of the probe light having the components of linear polarization according to the angle of the polarization plane of the probe light detected by the detection unit. | 2015-01-22 |
20150022201 | MAGNETIC RESONANCE IMAGING APPARATUS AND NOTIFICATION INFORMATION PROVIDING METHOD PERFORMED BY USING THE SAME AND RADIO FREQUENCY COIL AND NOTIFICATION INFORMATION PROVIDING METHOD PERFORMED BY USING THE RADIO FREQUENCY COIL - A notification method performed by using a magnetic resonance imaging (MRI) apparatus includes: obtaining information regarding a first radio frequency (RF) coil for photographing an object; obtaining information regarding a second RF coil connected to the MRI apparatus; comparing the information regarding the first RF coil and the information regarding the second RF coil; and outputting notification information indicating that the second RF coil corresponds to the first RF coil based on a result of the comparing. | 2015-01-22 |
20150022202 | METHOD FOR ANALYZING FORMATION SAMPLES USING NMR MEASUREMENTS - Methods for analyzing a formation samples using nuclear magnetic resonance (NMR) are described herein. One method includes performing an NMR measurement of the formation sample to obtain NMR data. The NMR measurement detects NMR signals with echo times of less than or equal to 100 microseconds. The NMR data is analyzed to determine a measure of organic hydrogen content of the formation sample, such as (i) total organic hydrogen content, (ii) kerogen content, (iii) bitumen content, and/or (iv) oil content. | 2015-01-22 |
20150022203 | Automatic HF Shim Configuration for Coils - In order to configure a transmission coil of a magnetic resonance imaging (MRI) system without taking a specific measurement object into account, the transmission coil is automatically detected and identified when the transmission coil is connected to the MRI system. A phase setting of a pulse to be transmitted by the detected transmission coil is identified based on at least the identified type of the transmission coil. The transmission coil is excited with the pulse having the identified phase and amplitude. | 2015-01-22 |
20150022204 | METHODS AND APPARATUS FOR PASADENA HYPERPOLARIZATION - The present subject matter relates to methods and apparatus for using hyperpolarization to improve imaging. Am exemplary embodiment, a PASADENA polarizer, is capable of delivering 2.5-5 ml of highly hyperpolarized biological | 2015-01-22 |
20150022205 | Automatic Local Coil Isocentering - A magnetic resonance imaging system includes a control unit configured to (a) compare a plurality of magnitudes of a field of a coil of a local coil, wherein each magnitude of the plurality of magnitudes is measured at a different time; and (b) determine, based on on a comparison result, whether to stop or advance a position adjustment apparatus of the patient couch of the magnetic resonance imaging system. | 2015-01-22 |
20150022206 | Hybrid Averaging Method for Specific Absorption Rate Supervision - In order to reduce the memory footprint used for monitoring specific absorption rate (SAR) in a magnetic resonance imaging (MRI) system, a hybrid sliding window method is provided. The method includes receiving a measured value once every first time interval, processing the measured value, and storing a value resulting from the processing in a first memory element. Measured values stored in second memory elements are summed every second time interval, where the first time interval is less than the second time interval. A representation of SAR is calculated every first time interval based on the value resulting from the processing and the sum of the measured values of the second memory elements. When the second time interval is reached, the value stored in the first memory element is moved to one of the second memory elements, and the value stored in the first memory element is reset to zero. | 2015-01-22 |
20150022207 | METHOD AND MAGNETIC RESONANCE APPARATUS TO ACQUIRE MR DATA AND TO RECONSTRUCT AN MR IMAGE - In a method to operate a magnetic resonance (MR) system to acquire MR data, an RF excitation pulse is radiated followed by repeated, chronologically sequential implementation of the following steps in order to respectively acquire the MR data of an echo train. A refocusing pulse is radiated, a phase coding gradient is activated, and an additional magnetic field gradient for spatial coding is activated in a direction that is orthogonal to the direction of the phase coding gradient in order to read out the MR data of a k-space line. A k-space line in the k-space center is acquired at a predetermined echo time. A first half of k-space is acquired by entering data into k-space lines of the respective echo train, the data being acquired before the echo time. A second half of k-space is acquired by entering data into k-space lines of the respective echo train, this data having been acquired after the echo time. The k-space lines in the first half of k-space have a first density while the k-space lines in the second half of k-space have a second density that differs from the first density. | 2015-01-22 |
20150022208 | Use of a Plurality of TX Coils - At least two RF transmission coil arrangements are provided. Each of the at least two RF transmission coil arrangements includes at least one RF transmission antenna. The at least two RF transmission coil arrangements are actuatable by a transmission apparatus of the magnetic resonance imaging system for transmitting RF pulses. | 2015-01-22 |
20150022209 | Method and Apparatus for Resonator Signal Production and Measurement - Techniques provide for passive Q switching in a bimodal resonator environment, where magnetic resonators are coupled for power transfer. A passive Q switch is responsive to a driving power from one magnetic resonator coupled to another magnetic resonator. After the driving power reaches a threshold, the passive Q switch shunts the receiving magnetic resonator, at least partially, to reduce the Q of that second resonator, which allows faster detection operation of the second resonator in some applications. The technique allows for fast Q switching in a bimodal resonator system, especially one having resonators having magnetic fields that are orthogonal to one another. | 2015-01-22 |
20150022210 | MAGNETIC RESONANCE IMAGING APPARATUS, IMAGE PROCESSING APPARATUS, AND IMAGE PROCESSING METHOD - The present invention provides a technique for obtaining a high-quality image at high speed in DKI analysis. In the DKI analysis, upon estimating a parameter relating to diffusion in an application direction of an MPG pulse, a least square fitting is separated from a constraint processing, and only a value of the pixel that does not meet the constraint condition in the least square fitting is targeted for the correction. Then, with regard to this pixel, a diffusion-related parameter is re-estimated using the pixel value after the correction, and a parameter image is generated by using the diffusion-related parameter thus obtained. | 2015-01-22 |
20150022211 | DETECTION CIRCUIT FOR DISPLAY PANEL - The present disclosure provides a detection circuit for a display panel, comprising: a shorting bar, with connection lines for introducing a test signal or a control signal arranged thereon; a transistor array, the gates of which are connected to the connection lines for introducing the control signal, wherein the connection lines for introducing the test signal are connected with the data lines or the scanning lines of the display panel via the sources and the drains of transistors, under the control signal, and a component, arranged between the gates of the transistor array and the shorting bar, for further reducing or increasing a voltage or current of the gates so that the transistor array can be cut off reliably when the control signal is a signal enabling the transistor array to be cut off. The detection circuit can further reduce the channel length of the thus being advantageous for the design of the narrow frame. | 2015-01-22 |
20150022212 | SURFACE CHARGE MEASUREMENT - The invention relates to methods and apparatus for determining properties of a surface. Embodiments disclosed include an apparatus for measuring a surface charge of a sample, comprising: a sample holder having an opposed pair of electrodes and configured to hold a sample in position in a measurement volume between the electrodes such that a planar surface of the sample is aligned orthogonal to the electrode surfaces; a measurement chamber for containing a measurement liquid and having an open end configured to receive the sample holder to position the electrodes in a preset orientation; a laser light source positioned and configured to direct a laser beam through the measurement chamber between the electrodes and parallel to the planar surface of the sample when the sample holder is received in the measurement chamber; and a detector positioned and configured to detect scattered light from the measurement volume, wherein the apparatus is configured to allow for detection of the scattered light by the detector over a range of distances from the surface of the sample. | 2015-01-22 |
20150022213 | BATTERY SENSING CIRCUIT PATH RESISTANCE COMPENSATION SYSTEMS AND METHODS - System and methods for measuring parameters of a battery system using a battery sensing circuit are presented. In certain embodiments, the systems and methods allow a vehicle battery sensing circuit and/or other associated system to measure a compensation parameter. The compensation parameter may be utilized by the battery sensing circuit and/or other associated system in measuring other parameters relating to the battery system including cell voltages. | 2015-01-22 |
20150022214 | MONITORING SYSTEM - A monitoring system having a monitoring unit and a circuit element that are integrated in an enclosure for protecting connections between the monitoring unit and the circuit element. The monitoring unit monitors the circuit element via a first electrical quantity, and the monitoring unit has a control unit and a first circuit unit and a second circuit unit. The first current is essentially or precisely equal in amplitude to the first current, and the first current and the second current flow simultaneously in the two line sections. The first current direction is opposite to the second current direction, and the first circuit unit ascertains a first voltage drop at the first line section, and the second circuit unit ascertains a second voltage drop at the second line section. The control unit ascertains the first electrical quantity from the first voltage drop and the second voltage drop. | 2015-01-22 |
20150022215 | SYSTEM AND METHOD OF USING FLEXIBLE ECU INPUTS TO SPECIFICALLY DETERMINE THE TYPE OF ELECTRICAL FAULT ON AN INPUT - A control module includes an input module configured to operate in a normal operating state and a fault diagnosis state. The input module receives an input signal from a circuit module and generates a voltage based on the input signal. In the normal operating state, a fault diagnostic module determines whether the voltage is in a first range or a second range. The first range and the second range indicate that a fault is detected in the circuit module. The fault diagnostic module determines that the detected fault is a first fault type if the voltage is in the first range, transitions the input module from the normal operating state to the fault diagnosis state if the voltage is in the second range, and determines whether the detected fault is a second fault type or a third fault type based on the voltage in the fault diagnosis state. | 2015-01-22 |
20150022216 | GROUND POTENTIAL RISE WITH DEPTH SENSING - Ground Potential Rise (GPR) systems and methods with depth sensing measure the GPR between the ground grid and the remote earth. Methods and systems described herein may provide a GPR measurement to an existing distance protection. A GPR system may comprise a set of potential transformers. The set of potential transformers may be coupled to different ground rods driven into the earth at different depths, respectively. One wire of the high voltage side of the potential transformer may be coupled to the ground grid of a substation, and the second wire of the potential transformer may be coupled to an insulated wire that is coupled to a ground rod or multiple of ground rods bonded together. The low voltage side of the potential transformer is used to connect Distance Relays, Voltage Relays, DFR or Alarms. | 2015-01-22 |
20150022217 | METHOD AND APPARATUS FOR MONITORING AN ELECTRIC POWER CIRCUIT - A method for monitoring an electric power circuit configured to transfer a power signal to a torque module that is electrically isolated from a chassis ground includes injecting a common voltage component into a common mode voltage of electrical phases during operation and monitoring a negative-ground voltage and a positive-negative voltage of the electric power circuit. An AC line resistance is determined based upon the negative-ground voltage and the positive-negative voltage. Faults in electrical isolation between the electric power circuit and a chassis ground are detected based upon the AC line resistance. | 2015-01-22 |
20150022218 | TECHNIQUES AND CIRCUITS FOR TESTING A VIRTUAL POWER SUPPLY AT AN INTEGRATED CIRCUIT DEVICE - A power grid provides power to one or more modules of an integrated circuit device via a virtual power supply signal. A test module is configured to respond to assertion of a test signal so that, when the power grid is working properly and is not power gated, an output of the test module matches the virtual power supply. When the power grid is not working properly, the output of the test module is a fixed logic signal that does not vary based on the power gated state of the one or more modules. | 2015-01-22 |
20150022219 | INSULATION STATE DETECTING DEVICE - In a high-speed measurement mode, a high-voltage measurement mode (V0 measurement) is omitted and only a negative-pole side ground fault resistor voltage measurement mode (VC1n measurement) and a positive-pole side ground fault resistor voltage measurement mode (VC1p measurement) are performed. In the negative-pole side ground fault resistor voltage measurement mode (VC1n measurement) and the positive-pole side ground fault resistor voltage measurement mode (VC1p measurement), the charging time for the flying capacitor is set to a second predetermined time period that is shorter than a first predetermined time period, which is different from basic operations in a normal measurement mode. | 2015-01-22 |
20150022220 | Multi-frequency Microwave Sensor for Temperature Independent Measurement of Moisture - Microwave techniques for measuring moisture and other properties of paper and related products without requiring an independent measurement of temperature are provided. A sensor directly measures the reflection or transmission of microwaves at a number of well-chosen frequencies so as to characterize the absorption spectrum of the product. The technique of measuring the parameters of a composition includes: (a) directing incident microwave radiation over a spectrum of wavelengths from an antenna upon the composition; (b) measuring the microwave radiation over the spectrum of wavelengths that emerges from the composition; (c) determining the reflected and/or transmitted transfer function; and (d) relating the transfer function of the composition to the parameters of the composition by applying a theoretic, calibrated, or hybrid model. The product moisture and temperature are extracted from the transfer function. | 2015-01-22 |
20150022221 | DIRECTIONAL CAPACITIVE SENSING MEANS - A directional capacitive sensing means for sensing number, size, position and motion direction and/or speed of sensing objects, which comprises two or more proximity capacitive sensing means, an analysis means, the two or more proximity capacitive sensing means are arranged in two or more different positions that resulted in two or more sensing fields being formed, whereof a combination area forms a sensing space; the proximity capacitive sensing devices individually produce. an electric charge sensing information according to a change of the electric charge in the electric charge fields corresponding to sensed objects; the analysis means, which connects the proximity capacitive sensing means for receiving the electric charge sensing information, analyzes a directional information according to changes of distribution of the electric charge fields and strength of the corresponding electric charge sensing information; the directional information comprises number, size, motion direction and/or seed of the sensed objects. | 2015-01-22 |
20150022222 | TOUCHSCREEN SENSOR - A touchscreen sensor includes a transparent base material, a first transparent electrode pattern, a first index-matching layer and a first adhesive layer disposed in this order at one side of the transparent base material, and a second transparent electrode pattern, a second index-matching layer and a second adhesive layer disposed in this order at another side of the transparent base material. The first index-matching layer has a refractive index greater than a refractive index of the first adhesive layer. The second index-matching layer has a refractive index greater than a refractive index of the second adhesive layer. Each of the first index-matching layer and the second index-matching layer has a thickness of 85 nm to 120 nm. | 2015-01-22 |
20150022223 | PROBE ASSEMBLY AND METHOD FOR CONTACTLESS ELECTRICAL CHARACTERIZATION OF BURIED CONDUCTING LAYERS - A probe assembly includes plural capacitive contacts that are separate from each other and a conductive depletion gate disposed between and separating the contacts from each other. The depletion gate is configured to receive a direct electric voltage in order to deplete regions of a sample under test of electrons. The contacts are configured to be placed in close proximity to a buried conducting layer in the sample under test without engaging the buried conducting layer, thereby capacitively coupling to the buried conducting layer. A first subset of the capacitive contacts is configured to apply an alternating electric current to a portion of the sample under test and a second subset of the capacitive contacts is configured to sense an alternating voltage response of the portion of the sample under test in order to characterize one or more electrical properties of the sample under test without the capacitive contacts having ohmic contact with the buried conducting layer. | 2015-01-22 |
20150022224 | TOUCH SENSING DEVICE AND A DETECTION METHOD - A touch sensor having a touch sensitive film, a signal filter, electrical circuitry and a processing unit. The film is capable of capacitive or inductive coupling to an external object when a touch is made by the object. The signal filter is formed by the resistance of the film and the capacitive or inductive coupling to the external object, and the filter has properties affected by location of the touch and/or capacitance or inductance of the touch. The electrical circuitry is coupled to the touch sensitive film and configured to supply excitation, amplitude and wave form into the signal filter and to receive response signals from the signal filter. The processing unit is configured to detect the presence or proximity of a touch, the location of said touch, the capacitance and/or inductance of said touch by processing response signals and thereby measuring changes in the properties of the signal filter. | 2015-01-22 |
20150022225 | ELECTRONIC DEVICE AND CURRENT MONITORING METHOD - An electronic device includes: a detection circuit to detect a voltage difference between both ends of a wiring portion which is at least a portion of a power supply wiring that connects a power supply circuit and a receiver circuit; a current supply circuit to supply a pilot current having a first current value which is smaller than a second current value of a main current to the power supply wiring; and a control circuit to control supply of the pilot current and stop of the supply of the pilot current, to calculate a wiring resistance value of the wiring portion based on a first value of the voltage difference when the supply is stopped, a second value of the voltage difference when the pilot current is supplied, and the first current value and to calculate the second current value based on the first value and the wiring resistance value. | 2015-01-22 |
20150022226 | SYSTEMS AND METHODS FOR CONFORMING TEST TOOLING TO INTEGRATED CIRCUIT DEVICE PROFILES WITH COAXIAL SOCKET - A coaxial socket useful in association with an integrated circuit (IC) device tester and having a conducting pin surrounded by an insulating layer and embedded in a conducting base. This coaxial pin configuration allows for good thermal conductivity and better electrical signal transmission specially for testing high-speed integrated circuits. | 2015-01-22 |
20150022227 | INTEGRATED HIGH-SPEED PROBE SYSTEM - An integrated high-speed probe system is provided. The integrated high-speed probe system includes a circuit substrate for transmitting low-frequency testing signals from a tester through a first probe of the probe assembly to a DUT, and a high-speed substrate for transmitting high-frequency testing signals from the tester to the DUT. The high-speed substrate extends from the upper surface of the circuit substrate in the testing area to the lower surface of the circuit substrate in the probe area for being adjacent to the probe assembly and electrically connecting the second probe. In this way, the tester can transmit testing signals of different frequencies through the integrated high-speed probe system. | 2015-01-22 |
20150022228 | CONDUCTIVITY INSPECTION APPARATUS AND CONDUCTIVITY INSPECTION METHOD - At least two needles ( | 2015-01-22 |
20150022229 | PROBE CARD AND METHOD OF MANUFACTURING THE SAME - A probe card, includes, a wiring substrate having an opening portion and including a first connection pad and a second connection pad, the first connection pad being arranged at a periphery of the opening portion, the second connection pad being arranged to be adjacent to the first connection pad, a resin portion formed inside the opening portion of the wiring substrate, a first wire buried in the resin portion and having one end connected to the first connection pad and the other end constituting a first contact terminal protruding from a lower face of the resin portion, and a second wire buried in the resin portion and having one end connected to the second connection pad and the other end constituting a second contact terminal protruding from the lower face of the resin portion, wherein diameters of the first contact terminal and the second contact terminal are equal to diameters of the first wire and the second wire in the resin portion, and the first contact terminal and the second contact terminal are gathered but divided from each other such that the pair of first and second contact terminals touch one electrode pad of a test object. | 2015-01-22 |
20150022230 | PROBE CARD AND METHOD OF MANUFACTURING THE SAME - A probe card includes a wiring substrate including an opening portion, a first connection pad, and a second connection pad arranged in an opposite area to the first connection pad, a resin portion formed in the opening portion, a first wire buried in the resin portion, in which one end is connected to the first connection pad and other end constitutes a first contact terminal, and a second wire buried in the resin portion, in which one end is connected to the second connection pad and other end constitutes a second contact terminal, wherein the first and second wires extend on one line, and the first and second contact terminals are arranged on the one line, and the first and second contact terminals are gathered to be separated such that the first and second contact terminals touch one electrode pad of a text object with a pair. | 2015-01-22 |
20150022231 | Test Apparatus with Sector Conveyance Device - A test apparatus includes a sector conveyance device provided with a plurality of soaking buffers, the soaking buffers being used to carry electronic components, the sector conveyance device being mounted pivotably by a pivot and moved between a test location and a transferring location; a transferring device arranged in correspondence to the transferring location, used to transfer a plurality of electronic components into or out of the sector conveyance device; and a test device arranged in correspondence to the test location for testing electronic components, the electronic components being transferred into the sector conveyance device after test. | 2015-01-22 |
20150022232 | RECONFIGURABLE SEMICONDUCTOR DEVICE - A semiconductor device capable of reconfiguration, including: a plurality of logic units which configure an array and are connected to each other, wherein each logic unit includes a pair of a first and a second memory cell units, each of the first and the second memory cell units operates as a logic element when truth value table data is written in, which is configured so that a logic calculation of an input value specified by a plurality of addresses is output to a data line, and/or operates as a connection element when truth value table data is written in, which is configured so that an input value specified by a certain address is output to a data line to be connected to an address of another memory cell unit, a latter stage of the first memory cell unit includes a sequential circuit which synchronizes with a clock, and the logic units include, for each pair of the first and the second memory cell units, a selection unit which selectively outputs an address to the first or the second memory cell unit in accordance with an operation switch signal. | 2015-01-22 |
20150022233 | Stable Supply-Side Reference Over Extended Voltage Range With Hot-Plugging Compatibility - In one embodiment, the operating range of an over-current detection circuit is extended to higher input voltage levels by providing a reference-voltage generation circuit for the detection circuit with voltage protection circuitry that applies an additional voltage drop to shield other vulnerable transistor devices from the higher input voltages. In addition, bypass circuitry is provided that is inactive at the highest input voltage levels, but actively bypasses at least some of the voltage protection circuitry at relatively low input voltage levels to apply a voltage drop that is sufficient to ensure proper operation of the vulnerable transistor devices at the low voltage levels. In one implementation, the vulnerable transistor devices are NFET devices in a programmable current minor of the reference-voltage generation circuit. In addition, a stiffened voltage divider helps to ensure sufficient voltage drop at the low voltage levels. The protection and bypass circuitry also enable hot-socketing operations. | 2015-01-22 |
20150022234 | VARIABLE SERIES RESISTANCE TERMINATION FOR WIRELINE SERIAL LINK TRANSISTOR - A variable series resistance termination circuit for wireline serial link transceivers is provided. Some embodiments include a pad for coupling to a wireline serial link and a termination circuit. The termination circuit includes a plurality of resistive components coupled in series with the pad and a plurality of switches. Each switch is to couple one or more of the plurality of resistive components in series between the pad and a termination voltage node when the switch is closed. A subset of the plurality of switches can be selectively closed to establish a resistive component of an impedance of the termination circuit. | 2015-01-22 |
20150022235 | SEMICONDUCTOR DEVICE - The disclosed invention provides a semiconductor device capable of suitably controlling the level of an enable signal to resolve NBTI in a PMOS transistor. An input node receives an input signal alternating between high and low levels during normal operation and fixed to a high level during standby. A detection unit receives a signal through the input node and outputs an enable signal. The detection unit sets the enable signal to a low level upon detecting that the input node remains at a high level for a predetermined period. A signal transmission unit includes a P-channel MOS transistor and transmits a signal input to the input node according to control by the enable signal. | 2015-01-22 |
20150022236 | Apparatus and Methods for Time-Multiplex Field-Programmable Gate Arrays - A time-multiplexed field programmable gate array (TM-FPGA) includes programmable logic circuitry, programmable interconnect circuitry, and a plurality of context registers. A user's circuit can be mapped to the programmable logic circuitry, the programmable interconnect circuitry, and the plurality of context registers without the user's intervention in mapping the design. | 2015-01-22 |
20150022237 | LOOK-UP TABLE - The present invention relates to a look-up table comprising a plurality of register signals (r | 2015-01-22 |
20150022238 | APPARATUSES AND METHODS FOR LINE CHARGE SHARING - Apparatuses and methods for charge sharing, between signal lines are disclosed. An example apparatus may include first and second lines and a charge sharing circuit The charge sharing circuit may be coupled to the first line and the second line and configured to receive a first data signal and a second data signal. The charge sharing circuit may be further configured to cause charge to be shared between the first line and the second line responsive, at least in part, to the first data signal and the second data signal having different logic levels. | 2015-01-22 |
20150022239 | Multiplexing for Systems with Multiple Supply Sources - A system includes an inverter element to gate forward current flow from a first signal source, and a reverse current inhibition element to block reverse current flow towards the first signal source from a second signal source. | 2015-01-22 |
20150022240 | POWER SUPPLY VOLTAGE TRANSITION COMPARISON CIRCUIT, POWER SUPPLY VOLTAGE TRANSITION COMPARISON METHOD, AND SEMICONDUCTOR INTEGRATED CIRCUIT - The power supply voltage transition comparison circuit includes a comparator evaluation voltage setting circuit, a comparator, a voltage evaluation circuit, and an evaluation voltage setting value output circuit. The comparator evaluation voltage setting circuit generates a divided voltage of one of a power supply voltage and a reference voltage. The comparator compares the other of the power supply voltage and the reference voltage with the divided voltage. The voltage evaluation circuit evaluates the power supply voltage based on a result of a comparison between the other voltage and the divided voltage. The evaluation voltage setting value output circuit changes a ratio between the one voltage and the divided voltage based on a result of an evaluation of the power supply voltage. | 2015-01-22 |
20150022241 | SENSOR DEVICE - Provided is a sensor device capable of removing the influence of each offset voltage of a sensor element, a differential amplifier, and an amplifier of the sensor device, to thereby detect a physical quantity with high precision. The sensor device includes: a switch circuit, which is connected to a first terminal pair and a second terminal pair of the sensor element, for controlling switching of the terminal pairs and outputting detection voltages; a differential amplifier, which includes a first input terminal and a second input terminal connected to a first output terminal and a second output terminal of the switch circuit, respectively, for outputting a result obtained by amplifying a difference of the detection voltages; an amplifier including at least two differential input pairs, one of which inputs the differential signal output from the differential amplifier, and at least one of which inputs a reference signal corresponding to a physical quantity to be detected; and a detection voltage setting circuit for outputting the reference signal to the amplifier. | 2015-01-22 |
20150022242 | Clock edge detection device and method - The present invention discloses a clock edge detection device capable of detecting the positive and negative edges of a target clock, comprising: a delay circuit for receiving the target clock and transmitting it; a register circuit coupled to the delay circuit for recording and outputting plural target clock levels in accordance with a working clock; a positive edge detection circuit including a plurality of positive edge detectors coupled to the register circuit for detecting the positive edge of the target clock; and a negative edge detection circuit including a plurality of negative edge detectors coupled to the register circuit for detecting the negative edge of the target clock, wherein the positive edge detection circuit is operable to perform a logic operation to the target clock levels while the negative edge detection circuit is operable to perform a different logic operation to the target clock levels. | 2015-01-22 |
20150022243 | DRIVER CIRCUIT FOR SIGNAL TRANSMISSION AND CONTROL METHOD OF DRIVER CIRCUIT - A driver circuit for receiving a data input and generating an output signal according to at least the data input is provided. The driver circuit includes a pair of differential output terminals, a current mode drive unit and a voltage mode drive unit. The pair of differential output terminals has a first output terminal and a second output terminal. The current mode drive unit is arranged for outputting a first reference current from one of the first and second output terminals and receiving the first reference current from the other of the first and the second output terminals according to the first data input. The voltage mode drive unit is arranged for coupling a first reference voltage to one of the first and the second output terminals and coupling a second reference voltage to the other of the first and the second output terminals according to the first data input. | 2015-01-22 |
20150022244 | SOURCE DRIVER AND BIAS CURRENT ADJUSTING METHOD THEREOF - Disclosed are a source driver provided in a display device that displays an image and a bias current adjusting method thereof, and a bias current deviating from a prescribed range is adjusted so that a source driver is driven by a bias current within the prescribed range. | 2015-01-22 |
20150022245 | Parallel Transistor Circuit Controller - A method for controlling a circuit control system. Currents are sensed at outputs of transistors in the circuit control system. Levels are identified for the currents. A number of characteristics of the transistors are controlled while the currents flow out of the transistors such that the currents flowing out of the transistors have desired levels. | 2015-01-22 |
20150022246 | DRIVER CIRCUIT FOR SWITCHING ELEMENT - A driver circuit is connected to a control terminal of a voltage-controlled switching element via a connection line. The drive circuit drives the switching element. The switching element is switched to an ON state by charging the control terminal of the switching element via the connection line. The switching element is switched to an OFF state by discharging the control terminal of the switching element via the connection line. A voltage at a predetermined position on the connection line is detected. An open circuit state between the control terminal and the predetermined position is detected based on a speed of change in the detected voltage at the predetermined position when the switching element is switched to the ON state or the OFF state. | 2015-01-22 |
20150022247 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes an output transistor, a control circuit connected with a gate of the output transistor, a first discharge route from a first node to a ground terminal, and a second discharge route from the first node to the ground terminal. In a usual turn-off, only the first discharge route is used. When a load abnormality occurs, both of the first and second discharge routes are used. The second discharge route contains a discharge transistor and a countercurrent prevention device. The discharge transistor is connected between the first node and the second node. The countercurrent prevention device prevents a flow of current from the third node to the second node. At least, in an OFF period, the control circuit sets the gate voltage of the discharge transistor to a high level. | 2015-01-22 |
20150022248 | SEMICONDUCTOR DEVICE AND DRIVING SYSTEM - An output MOS transistor has a drain connected with a power supply and a source connected with an output terminal. The short-circuit MOS transistor has a source connected with the output terminal. The short-circuit MOS transistor is formed in a semiconductor substrate connected with the power supply. A switching device is formed in a semiconductor region which is formed in the semiconductor substrate, and contains a first diffusion layer connected with the gate of the output MOS transistor and a second diffusion layer formed in the semiconductor region and connected with the drain of the short-circuit MOS transistor. | 2015-01-22 |
20150022249 | METHOD AND APPARATUS FOR GENERATING A RAMP SIGNAL - An apparatus and method for generating a ramp signal includes applying a constant reference voltage to a reference capacitor and controlling charging or discharging of the reference capacitor with a programmable current generator to provide the ramp signal at a ramp signal node. The method can include, buffering the ramp signal to an output node to drive a load. When generating the ramp signal having a negative slope, the programmable current generator includes a programmable current sink coupled to the ramp signal node. When generating the ramp signal having a positive slope, the programmable current generator includes a programmable current source that is coupled between a positive power supply node and the ramp signal node. When generating the ramp signal having a bidirectional slope, the programmable current generator includes a programmable current source and a programmable current sink. | 2015-01-22 |
20150022250 | MONOLITHIC THREE DIMENSIONAL (3D) FLIP-FLOPS WITH MINIMAL CLOCK SKEW AND RELATED SYSTEMS AND METHODS - Monolithic three dimensional (3D) flip-flops with minimal clock skew and related systems and methods are disclosed. The present disclosure provides a 3D integrated circuit (IC) (3DIC) that has a flop spread across at least two tiers of the 3DIC. The flop is split across tiers with transistor partitioning in such a way that keeps all the clock related devices at the same tier, thus potentially giving better setup, hold and clock-to-q margin. In particular, a first tier of the 3DIC has the master latch, slave latch, and clock circuit. A second tier has the input circuit and the output circuit. | 2015-01-22 |
20150022251 | NONVOLATILE LATCH CIRCUIT AND LOGIC CIRCUIT, AND SEMICONDUCTOR DEVICE USING THE SAME - To provide a novel nonvolatile latch circuit and a semiconductor device using the nonvolatile latch circuit, a nonvolatile latch circuit includes a latch portion having a loop structure where an output of a first element is electrically connected to an input of a second element, and an output of the second element is electrically connected to an input of the first element; and a data holding portion for holding data of the latch portion. In the data holding portion, a transistor using an oxide semiconductor as a semiconductor material for forming a channel formation region is used as a switching element. In addition, an inverter electrically connected to a source electrode or a drain electrode of the transistor is included. With the transistor, data held in the latch portion can be written into a gate capacitor of the inverter or a capacitor which is separately provided. | 2015-01-22 |
20150022252 | DIGITAL CIRCUITS - A digital circuit portion comprises a flip-flop ( | 2015-01-22 |
20150022253 | PHASE COMPENSATION CIRCUIT AND PHASE COMPENSATING METHOD - A phase compensation circuit includes: a first circuit that increases phase characteristic of a specific frequency of an electrical signal; a second circuit that decreases the phase characteristic of the specific frequency of the electrical signal; and a limiting amplifier that amplifies an electrical signal that is processed by at least one of the first circuit and the second circuit. | 2015-01-22 |
20150022254 | PERFORMANCE, THERMAL AND POWER MANAGEMENT SYSTEM ASSOCIATED WITH AN INTEGRATED CIRCUIT AND RELATED METHOD - The performance, thermal and power management system is configured to perform DVFS calibration, temperature compensation adjustment, aging calibration, and DC offset calibration in an IC. The initial voltage supplied to the IC may be set to an initial value which takes chip-to-chip process variations into account and then dynamically adjusted according to temperature variations, DC offset and/or aging effects. Therefore, the performance, thermal and power management system may achieve optimized thermal and power performance of the IC. | 2015-01-22 |
20150022255 | SEMICONDUCTOR DEVICE - A semiconductor device according to this invention includes a first power line that supplies power to a first circuit, a second power line that supplies power to a second circuit, and a capacitive element that is provided between the first power line and the second power line. | 2015-01-22 |
20150022256 | RADIO-FREQUENCY SWITCHES HAVING GATE BIAS AND FREQUENCY-TUNED BODY BIAS - Radio-frequency (RF) switch circuits are disclosed providing improved switching performance. An RF switch system includes a plurality of field-effect transistors (FETs) connected in series between first and second nodes, each FET having a gate and a body. A compensation network including a gate-coupling circuit couples the gates of each pair of neighboring FETs. The compensation network may further including a body-coupling circuit that couples the bodies of each pair of neighboring FETs. | 2015-01-22 |
20150022257 | SWITCHING DEVICE AND MODULE - A switching device includes: a switch that selects and connects one of at least three terminals including a first terminal, a second terminal, and a third terminal to a common terminal; and a compensating circuit that shifts a phase of at least one of a first signal transmitted through the second terminal and a second signal transmitted through the third terminal so that the first signal and the second signal compensate each other and unifies and outputs the first signal and the second signal to a fourth terminal as a third signal, or that branches a third signal input to the fourth terminal into the first signal and the second signal. | 2015-01-22 |
20150022258 | TRANSISTOR SWITCH INCLUDING INDEPENDENT CONTROL OF TURN-ON AND SLEW RATE - The disclosed transistor switching methodology enables independent control of transistor turn-on delay and slew rate, including charging, during a pre-charge period, a transistor control input to a threshold voltage V | 2015-01-22 |
20150022259 | CALIBRATION METHOD AND APPARATUS FOR CURRENT AND RESISTANCE - A calibration method and apparatus for current and resistance are provided, where the current calibration method includes: injecting at least one portion of a set of predetermined compensation currents into at least one of an output current of a first current source and an output current of a second current source, and dynamically adjusting a distribution of the at least one portion of the set of predetermined compensation currents until two monitored voltage drops are equal to each other, and recording a first compensation current configuration; exchanging the first and second current sources, and dynamically adjusting the distribution of the at least one portion of the set of predetermined compensation currents until the two monitored voltage drops are equal to each other, and recording a second compensation current configuration; and according to the first and second compensation current configurations, generating a resultant compensation current, for use of current compensation. | 2015-01-22 |
20150022260 | PERFORMANCE, THERMAL AND POWER MANAGEMENT SYSTEM ASSOCIATED WITH AN INTEGRATED CIRCUIT AND RELATED METHOD - The performance, thermal and power management system is configured to perform DVFS calibration, temperature compensation adjustment, aging calibration, and DC offset calibration in an IC. The initial voltage supplied to the IC may be set to an initial value which takes chip-to-chip process variations into account and then dynamically adjusted according to temperature variations, DC offset and/or aging effects. Therefore, the performance, thermal and power management system may achieve optimized thermal and power performance of the IC. | 2015-01-22 |
20150022261 | DISTRIBUTED LOAD CURRENT SENSING SYSTEM - A distributed load current sensing system being connected to a power input terminal that is connected to a main power trunk that has one or multiple load branches connected thereto is disclosed to include a power bus connected to the main power trunk, an active power filter connected to the power bus and a load current sensor device coupled with each load branch for sensing the load current of each load branch and providing the sensed signal to the active power filter so that the active power filter can generate a compensation signal accurately. | 2015-01-22 |
20150022262 | COMPLETE SYSTEM-ON-CHIP (SOC) USING MONOLITHIC THREE DIMENSIONAL (3D) INTEGRATED CIRCUIT (IC) (3DIC) TECHNOLOGY - Embodiments disclosed in the detailed description include a complete system-on-chip (SOC) solution using monolithic three dimensional (3D) integrated circuit (IC) (3DIC) integration technology. The present disclosure includes example of the ability to customize layers within a monolithic 3DIC and the accompanying short interconnections possible between tiers through monolithic intertier vias (MIV) to create a system on a chip. In particular, different tiers of the 3DIC are constructed to support different functionality and comply with differing design criteria. Thus, the 3DIC can have an analog layer, layers with higher voltage threshold, layers with lower leakage current, layers of different material to implement components that need different base materials and the like. Unlike the stacked dies, the upper layers may be the same size as the lower layers because no external wiring connections are required. | 2015-01-22 |
20150022263 | DEMODULATION DEVICE, DEMODULATION METHOD AND PROGRAM - The present technique relates to a demodulation device, a demodulation method and a program capable of realizing a demodulation process at a rate equivalent to a case where I and Q channel signals are not inverted, even when the I and Q channel signals are inverted. A frequency correction unit establishes synchronization of a frequency and clock based on a signal from a frequency synchronization unit. A channel inversion detection unit of a frame synchronization unit detects presence or absence of inversion of I and Q channel signals, and supplies, as a detection result, a channel inversion detection result to the channel inversion control unit. The channel inversion control unit switches the I and Q channel signals if the inversion has occurred, based on the channel inversion detection result. This technique can be applied to a demodulation device. | 2015-01-22 |
20150022264 | SENSE AMPLIFIER OFFSET VOLTAGE REDUCTION - A circuit includes a plurality of transistors responsive to a plurality of latches that store a test code. The circuit further includes a first bit line coupled to a data cell and coupled to a sense amplifier. The circuit also includes a second bit line coupled to a reference cell and coupled to the sense amplifier. A current from a set of the plurality of transistors is applied to the data cell via the first bit line. The set of the plurality of transistors is determined based on the test code. The circuit also includes a test mode reference circuit coupled to the first bit line and to the second bit line. | 2015-01-22 |
20150022265 | ADAPTIVE BOOST SUPPLY WITH SLOPE CONTROL - An apparatus includes a first circuit configured to generate a boost voltage, and a second circuit to control a slope of a magnitude of the boost voltage when the magnitude of the boost voltage is reduced. The first circuit is configured to generate the boost voltage having the magnitude equal to a first voltage when a control signal is in a first state, and reduce the magnitude of the boost voltage when the control signal is in a second state and the magnitude of the boost voltage is greater than a second voltage which is less than the first voltage. A method of providing a boost voltage includes controlling a slope of a magnitude of the boost voltage when the magnitude of the boost voltage is decreased. | 2015-01-22 |
20150022266 | FOLDED CASCODE AMPLIFIER - Exemplary embodiments are directed to systems, devices, and methods for enhancing an amplifier. An amplifier may include a first cascode circuit including a first transistor and a second transistor. The amplifier may include a second cascode circuit coupled to a differential output and including a first pair of transistors including a first transistor and a second transistor and a second pair of transistors including a third transistor and a fourth transistor. Further, the amplifier may include a differential input including a first transistor coupled to each of the first transistor of the first cascode circuit and the first and second transistors of the second cascode circuit, the differential input further including a second transistor coupled to each of the second transistor of the first cascode circuit and the third and fourth transistors of the second cascode circuit. | 2015-01-22 |
20150022267 | APPARATUS AND METHODS FOR ELECTRONIC AMPLIFICATION - Apparatus and methods for electronic amplification are provided. In one embodiment, an amplifier includes first and second input terminals, an amplification circuit, a feedback circuit, and a current mirror. The amplification circuit includes a non-inverting voltage input electrically connected to the first input terminal and to a bias voltage, an inverting voltage input electrically connected to the second input terminal, a voltage output, and a current output. The amplifier includes a first feedback path from the voltage output to the inverting voltage input through the feedback circuit and a second feedback path from the current output to the inverting voltage input through the current mirror, which can mirror a current from the current output to generate a mirrored current. A current source such as a transducer can provide an input current between the first and second input terminals, and the mirrored current can substantially match the input current. | 2015-01-22 |
20150022268 | DC OFFSET CANCELLATION CIRCUIT - A DC offset cancellation circuit is provided. The DC offset cancellation circuit includes a first operational amplifier and a feedback gain circuit. The first operational amplifier includes a first input transconductance stage, a second input transconductance stage and an output stage. An input terminal of the first input transconductance stage receives an input signal of the first operational amplifier through a first input terminal of the first operational amplifier. An output terminal of the output stage outputs an output signal of the first operational amplifier through an output terminal of the first operational amplifier. An input terminal of the feedback gain circuit is coupled to the output terminal of the first operational amplifier, and an output terminal of the feedback gain circuit is coupled to the input terminal of the second transconductance stage through a second input terminal of the first operational amplifier. | 2015-01-22 |
20150022269 | DEVICE AND METHOD FOR CONTROLLING AN INPUT SIGNAL OF A POWER AMPLIFIER - A method for controlling an input signal of a power amplifier is provided. The method comprise applying CFR to the input signal to obtain a processed input signal; determining a minimum CFR threshold; comparing the peak power of the power amplifier and an allowable peak power; and if the peak power is below the allowable peak power, determining a final CFR threshold by increasing the minimum CFR threshold, or if the peak power is not below the allowable peak power, reducing the average output power until peak power reaches the allowable peak power. | 2015-01-22 |
20150022270 | DUAL-BAND HIGH EFFICIENCY DOHERTY AMPLIFIERS WITH HYBRID PACKAGED POWER DEVICES - An amplifying structure includes a main amplifier configured to amplify a first signal; and a peak amplifier configured to amplify a second signal, each of the main amplifier and the peak amplifier including, respectively, a hybrid power device, the hybrid power device including, a first power transistor die configured to amplify signals of a first frequency, and a second power transistor die configured to amplify signals of a second frequency different than the first frequency. | 2015-01-22 |
20150022271 | Dynamic Amplifier Supply - A method of providing a power supply of an amplifier of a wireless transmission system comprising, determining the power at an antenna when transmitting a signal to be transmitted by the amplifier, determining the modulation scheme for transmitting the signal, determining the frequency allocation of the signal to be transmitted, determining a transmit channel characteristic, and adjusting a parameter of the power supply of the amplifier based on the determining steps to maintain amplifier linearity. | 2015-01-22 |
20150022272 | CLOSED LOOP DYNAMIC VOLTAGE AND FREQUENCY SCALING - A system is based on an IC. A first component of the IC generates a signal that clocks the IC at a target operating frequency. A period corresponding to the target clock frequency exceeds a duration of a longest critical path associated with the IC. The first component and synchronous logic of the IC clocked therewith, each functions with the core supply voltage, which may be supplied to each via the same power supply rail. A second IC component detects errors that relate to an operation of the IC at the target clock frequency and determines a level for adjusting the core supply voltage. The Vdd adjustment ameliorates the frequency error. The voltage determination uses closed loop dynamic voltage and frequency scaling. | 2015-01-22 |
20150022273 | SYSTEMS AND METHODS FOR A COLD ATOM FREQUENCY STANDARD - Systems and methods for a cold atom frequency standard are provided herein. In certain embodiments, a cold atom microwave frequency standard includes a vacuum cell, the vacuum cell comprising a central cylinder, the central cylinder being hollow and having a first open end and a second open end; a first end portion joined to the first open end; and a second end portion joined to the second open end, wherein the first end portion, the central cylinder, and the second end portion enclose a hollow volume containing atoms, the first end portion and the second end portion configured to allow light to enter into the hollow volume. The cold atom microwave frequency standard also includes a cylindrically symmetric resonator encircling the central cylinder, wherein the resonator generates a microwave field in the hollow volume at the resonant frequency of the atoms. | 2015-01-22 |
20150022274 | PIEZOELECTRIC FILM PRODUCING PROCESS, VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, ELECTRONIC DEVICE, AND MOVING OBJECT - A piezoelectric film producing process includes depositing a piezoelectric body in a mixed atmosphere of N | 2015-01-22 |
20150022275 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - A vibrator element includes a base portion, a vibrating arm extending from the base portion, a first electrode provided on the vibrating arm, a second electrode provided above the first electrode, a piezoelectric body arranged between the first electrode and the second electrode, and an insulating film arranged between the first electrode and the piezoelectric body, in which the material of the first electrode contains TiN, the material of the insulating film contains SiO | 2015-01-22 |
20150022276 | RESONATOR ELEMENT, RESONATOR, OSCILLATOR, ELECTRONIC DEVICE, AND MOVING OBJECT - A resonator element is provided. A base portion includes a first base portion, a second base portion, and a connecting portion. The base portion includes a width-decreasing portion that is provided at an end of the connecting portion on the first base portion side and that has a width along an X-axis direction which continuously decreases toward the second base portion. An outer edge of the width-decreasing portion and an outer edge of the connecting portion form a continuous line that does not include a corner portion, when seen in a plan view. When an angle between a tangent of a portion of the curved line on the first base portion side and a segment parallel to the X-axis direction is set to θ, a relation of 0°<θ<90° is satisfied. | 2015-01-22 |
20150022277 | VIBRATION GENERATION APPARATUS - In a gyro sensor, a TDC detects a magnitude of vibration of a vibrator. A drive circuit (excluding the TDC) determines a duty ratio of a PWM drive signal in accordance with the magnitude of vibration so that the magnitude of vibration becomes a predetermined magnitude and outputs the PWM drive signal having the determined duty ratio. The drive circuit (excluding the TDC) includes a control circuit and a DCO. The control circuit measures time corresponding to the control value by using a gate delay time, generates the PWM drive signal having a pulse width corresponding to the control value and outputs the PWM drive signal. | 2015-01-22 |
20150022278 | ELECTRONIC DEVICE FOR ELIMINATING WIRELESS NOISE INTERFERENCE - In an embodiment of the disclosure, an electronic device arranged for eliminating wireless noise interference is provided. The electronic device includes a circuit board and two first metal components. The metal components are arranged on different sides of the circuit board. Each of the first metal components comprises a first terminal and a second terminal opposite to the first terminal The first terminal is coupled to the circuit board and the second terminal is open loop. The length of the first metal component is about one-fourth wavelength of a pre-determined frequency. | 2015-01-22 |
20150022279 | DIFFERENTIAL-TO-SINGLE-ENDED TRANSMISSION LINE INTERFACE - An interface for connecting a differential signal circuit having a differential signal output and a reference potential terminal to an input of a single ended signal circuit and a reference potential terminal. The interface includes a differential transmission line having a pair of electromagnetically coupled microwave transmission lines having first ends connected to the differential signal output and second ends, one of the second ends being connected to the single ended circuit input and the other one of the second ends being coupled to the reference potential terminals of the differential signal circuit and the single ended signal circuit. | 2015-01-22 |
20150022280 | MICROSTRIP LINE/SLOT LINE TRANSITION CIRCUIT - The invention relates to a circuit for transition from a microstrip line to a slot line. According to the invention, the slot line of the transition circuit is equipped with a filter for providing on the slot line, at the crossover zone of the microstrip line and the slot line, an impedance substantially equal to the impedance of an open circuit for at least one desired frequency of the signal and an impedance substantially equal to the impedance of a short circuit for at least one undesirable frequency of the signal. Advantageously, the microstrip line is also equipped with a filter for providing on the microstrip line, at the crossover zone, an impedance substantially equal to the impedance of a short circuit for the desired frequency and an impedance substantially equal to the open-circuit impedance for the undesirable frequency. | 2015-01-22 |
20150022281 | Capacitors Adapted for Acoustic Resonance Cancellation - An embodiment of the present invention provides a method, comprising reducing the losses due to electro-mechanical coupling and improving Q in a multilayered capacitor by placing a first capacitor layer adjacent at least one additional capacitor layer and sharing a common electrode in between the two such that the acoustic vibration of the first layer is coupled to an anti-phase acoustic vibration of the at least one additional layer. | 2015-01-22 |
20150022282 | SEMICONDUCTOR DEVICE AND METHOD FOR ADJUSTING IMPEDANCE OF OUTPUT CIRCUIT - An impedance adjustment circuit includes a counter circuit outputting a count value thereof as a plurality of first impedance adjustment signals, a mode selection circuit setting a second impedance adjustment signal to be in an active/inactive state irrespective of the count value, and a level fixing circuit fixing a third impedance adjustment signal to be in an active state. A pre-stage circuit generates a plurality of first output control signals, a second output control signal, and a third output control signal in response to the first impedance adjustment signals, the second impedance adjustment signal, and the third impedance adjustment signal, respectively, and a data signal. An output circuit includes a plurality of first transistors, a second transistor, and a third transistor connected in parallel to each other between an output terminal and a first power supply wiring. Control terminals of the first transistors, the second transistor, and the third transistor receive the first output control signals, the second output control signal, and the third output control signal, respectively. | 2015-01-22 |
20150022283 | LADDER SURFACE ACOUSTIC WAVE FILTER - A ladder surface acoustic wave filter includes a series arm connecting an input terminal and an output terminal, at least one parallel arm connecting the series arm and a ground terminal, at least one series arm resonator provided in the series arm, and at least two parallel arm resonators provided in at least one parallel arm and connected to each other in series. In the ladder surface acoustic wave filter, a connection point between at least the two parallel resonators connected to each other in series is grounded through an inductor. | 2015-01-22 |