06th week of 2015 patent applcation highlights part 22 |
Patent application number | Title | Published |
20150035531 | METHOD AND DEVICE FOR DETERMINATION OF A MAGNETIC RESONANCE CONTROL SEQUENCE - A magnetic resonance control sequence with a pulse arrangement that acts selectively in at least two spatial directions in order to excite a limited rotationally symmetrical excitation profile within an examination subject has an RF excitation pulse formed as a sequence of multiple partial RF pulses, and gradient pulses in the two spatial directions that are coordinated with the partial RF pulses so that the RF energy introduction of different partial RF pulses in transmission k-space occurs on circular k-space transmission trajectories that are concentric to one another. The amplitude of the RF envelope of the partial RF pulses is constant during the duration of a traversal of each circular k-space trajectory. The control sequence can also be used in a calibration of a magnetic resonance system. | 2015-02-05 |
20150035532 | TECHNIQUES, SYSTEMS AND MACHINE READABLE PROGRAMS FOR MAGNETIC RESONANCE - The present disclosure provides various methods and systems for performing magnetic resonance studies. In accordance with many embodiments, image or other information of interest is derived from super radiant pulses. | 2015-02-05 |
20150035533 | ACTIVE POSITION MARKER SYSTEM FOR USE IN AN MRI APPARATUS - An active position marker system comprising at least one active position marker ( | 2015-02-05 |
20150035534 | Temperature Monitoring of Local Coils - A device for a magnetic resonance imaging system includes a warning signal apparatus configured to emit a warning signal when a limit value is exceeded by a current induced in the device by radiofrequency signals of a magnetic resonance imaging system. | 2015-02-05 |
20150035535 | Apparatus and Method for At-Bit Resistivity Measurements - An apparatus for making resistivity measurements near a drill bit includes a tool body, a transmitter deployed on the tool body, a receiver deployed on the tool body and at an axial distance from the transmitter, and a transmitting signal coupler coupled to the transmitter antenna and the receiver. The transmitter generates electrical signals and converts the electrical signals into electromagnetic signals to be transmitted. The receiver measures the amplitudes and phases of the electromagnetic signals received from the transmitter. The transmitting signal coupler couples a portion of the electrical signals from the transmitter antenna and measures the amplitudes and phases of the coupled electrical signals. Amplitude attenuation and phase shift between the electromagnetic signals received at the receiver and the electrical signals coupled at the transmitting signal coupler are computed for calculating resistivity. | 2015-02-05 |
20150035536 | DETECTING BOUNDARY LOCATIONS OF MULTIPLE SUBSURFACE LAYERS - Systems, methods, and software for detecting boundary locations of multiple subsurface layers are described. In some aspects, the boundaries of multiple subsurface layers in a subterranean region are identified based on measurements associated with multiple different transmitter-receiver spacings. The measurements are generated based on operating multiple transmitters and multiple receivers of a resistivity logging tool at a tool depth in a wellbore in the subterranean region. A first pair of the subsurface boundary locations are determined based on a first measurement associated with a first transmitter-receiver spacing. A second, different pair of the subsurface boundary locations are determined based on a second measurement associated with a second, longer transmitter-receiver spacing. The first pair of subsurface boundary locations reside between the second pair of subsurface boundary locations in the subterranean region. | 2015-02-05 |
20150035537 | ACQUISITION SYSTEM AND METHOD FOR TOWED ELECTROMAGNETIC SENSOR CABLE AND SOURCE - An electromagnetic survey acquisition system includes a sensor cable and a source cable, each deployable in a body of water, and a recording system. The sensor cable includes an electromagnetic sensor thereon. The source cable includes an electromagnetic antenna thereon. The recording system includes a source current generator, a current sensor, and an acquisition controller. The source current generator powers the source cable to emit an electromagnetic field from the antenna. The current sensor is coupled to the source current generator. The acquisition controller interrogates the electromagnetic sensor and the current sensor at selected times in a synchronized fashion. | 2015-02-05 |
20150035538 | METHOD FOR MONITORING AN ON-LOAD TAP CHANGER - The invention relates to a method for monitoring an on-load tap changer that is used to switch between winding taps of a tapped transformer without interrupting the load current and is actuated using a motor drive. According to the invention, prior to the actual load switching process, the on-load tap changer is initially moved a short distance, preferably against the direction in which the load is subsequently switched. In said initial process, it is verified whether the on-load tap changer has moved, i.e. has left its previous stationary position, and/or whether the torque on the motor drive has exceeded a predefined threshold value. The actual load switching process takes place only once the test has yielded a positive result. | 2015-02-05 |
20150035539 | POWER CIRCUIT ABNORMALITY DETECTION METHOD - A power circuit abnormality detection method for a power circuit detects whether an abnormality in a power source relay exists. The power circuit includes a pre-charge circuit opening and closing a connection between a direct current power source and a smoothing condenser by bypassing the power source relay to pre-charge the smoothing condenser, and a discharge circuit connected in parallel to the smoothing condenser to discharge electric charges stored in the smoothing condenser via a discharge resistance when a discharge switch is closed. The power circuit abnormality detection method includes a step of detecting whether the open contact abnormality in the power source relay exists based on whether a charge voltage of the smoothing condenser is reduced when a predetermined period of time has elapsed since both the discharge circuit and the power source relay are closed after the pre-charge circuit is opened. | 2015-02-05 |
20150035540 | BATTERY POWER DETECTING DEVICE AND METHOD - A battery power detecting device and method are provided. It can detect the battery power of a battery rod in a non-disposable electronic cigarette. The battery power detecting device includes a spare battery unit, a current sampling unit, a voltage sampling unit, a charging control unit, a main control unit, and a power display unit. The main control unit is configured to control the charging control unit to adjust and output the voltage provided by the spare battery unit according to the charging current sampled by the current sampling unit, in order to make the charging current equal to a preset current. Then, the main control unit calculates the battery power of the battery rod according to the charging voltage currently sampled by the voltage sampling unit, and finally controls the power display unit to display the battery power of the battery rod. | 2015-02-05 |
20150035541 | SIGNAL INTEGRITY TEST APPARATUS AND METHOD FOR TESTING SIGNAL INTEGRITY OF ELECTRONIC PRODUCT - In a method for testing signal integrity of an electronic product using a signal integrity test apparatus, each electronic component of the electronic product includes a test label that identifies the electronic component. The signal integrity test apparatus includes a host computer, a robot device, an oscilloscope, a camera device, and a probe. The host computer is installed with a signal integrity test system that controls the signal integrity test apparatus to test signal integrity of the electronic product. The robot device includes a first robot arm and a second robot arm. The first robot arm controls the camera device to capture an image of the test label coupled to each electronic component. The second robot arm controls the probe to touch each electronic component. The oscilloscope measures voltage signals outputted from the electronic components to generate a signal integrity report of the electronic product. | 2015-02-05 |
20150035542 | METHOD OF DETECTING OSCILLATIONS USING COHERENCE - A method of detecting oscillations is disclosed. An input signal is received. A time delay is added to the input signal. A coherence between the input signal and the time-delayed input signal is estimated. The coherence is greater than a predetermined threshold. The time delay may be greater than or equal to one sampling interval. | 2015-02-05 |
20150035543 | Method for Detecting Fast Time Constant Targets Using a Metal Detector - A method for reducing a delay, between a transition of a transmission of a metal detector and a process of a receive signal received by a receive coil of the metal detector, due to a critically damped time constant of the receive coil, including: introducing a negative capacitance into the receive coil to reduce the critically damped time constant. | 2015-02-05 |
20150035544 | Apparatus for Sensor with Configurable Damping and Associated Methods - A sensor includes a coil suspended in a magnetic field, an optical detector to detect displacement of the coil in response to a stimulus, and a feedback circuit coupled to the optical detector and to the coil to drive the coil. The sensor also includes a damping circuit coupled in parallel with the coil. | 2015-02-05 |
20150035545 | APPARATUS AND METHOD FOR DETERMINING INFORMATION ON A POWER VARIATION OF A TRANSMIT SIGNAL - An apparatus for determining information on a power variation of a transmit signal comprises a power amplifier module, an antenna module and a power variation determining module. The power amplifier module amplifies a radio frequency transmit signal and the antenna module transmits at least partly the amplified radio frequency transmit signal. The power variation determining module determines a weighted sum of a first feedback signal derived from the amplified radio frequency transmit signal and a second feedback signal derived from the amplified radio frequency transmit signal. The first feedback signal and the second feedback signal comprise different dependencies on a varying impedance at the antenna module. Further, the power variation determining module generates a power variation signal based on the weighted sum. The power variation signal comprises information related to a power variation of the amplified radio frequency transmit signal. | 2015-02-05 |
20150035546 | High Sensitivity Tunable Radio Frequency Sensors - Disclosed are highly sensitive and tunable RF sensors that provide detection and analysis of single cells and particles. The tunable RF sensors are configured as tunable interferometers, wherein cells or particles to be analyzed are passed through a channel, such as a microfluidic channel, across waveguides corresponding to reference and test branches of the interferometers. A network analyzer coupled to the interferometers can be configured to measure a plurality of scattering parameters, such as transmission scattering coefficients (S | 2015-02-05 |
20150035547 | TIRE INSPECTION USING MICROWAVE IMAGING METHODOLOGIES - A method of inspection of a tire was developed using microwave imaging comprising the steps of selecting a plurality of regions from within a tire to be imaged; determining the dielectric properties of the tire components in each of the selected regions in a plurality of frequency bands; selecting a specific location on a tire to be imaged; providing a scanning platform for microwave imaging of the tire; imaging the selected location on a tire using microwave imaging at a plurality of microwave scanning frequencies and at a selected microwave polarization to obtain images of the internal state of the sample; and filtering the images to remove the effects of curvature of the selected location of the tire. | 2015-02-05 |
20150035548 | DEVICE FOR DETECTING CRITICAL STATES OF A SURFACE - A device for detecting critical states of a surface, in which at least one hermetically sealed sensor for detecting critical states of a surface, one system for energy supply and one device for data transfer with an at least partially flexible, thin carrier plate are mechanically connected, and said carrier plate is arranged on the surface to be observed. | 2015-02-05 |
20150035549 | CAPACITANCE SENSOR - A capacitance sensor includes: a transmitting electrode; a receiving electrode; and a switching unit that performs switching between a self-capacitance detection mode for measuring a change in self-capacitance of at least one of the transmitting electrode and the receiving electrode to detect an object to be detected and a mutual capacitance detection mode for measuring a change in mutual capacitance between the transmitting electrode and the receiving electrode to detect an object to be detected. | 2015-02-05 |
20150035550 | HIGH ACCURACY MEASUREMENT OF ON-CHIP COMPONENT PARAMETERS - Techniques for measuring on-chip component parameters are described herein. In one embodiment, a method for measuring one or more on-chip component parameters comprises measuring a time for an on-chip capacitor to charge to a voltage approximately equal to a reference voltage, and measuring a time for the on-chip capacitor to charge to a voltage approximately equal to a voltage across an on-chip component. The method also comprises determining a parameter of the on-chip component based on the measured time for the on-chip capacitor to charge to the voltage approximately equal to the reference voltage, the measured time for the on-chip capacitor to charge to the voltage approximately equal to the voltage across the on-chip component, and the reference voltage. | 2015-02-05 |
20150035551 | CELL CHARACTERIZATION WITH MILLER CAPACITANCE - A method for cell characterization with Miller capacitance includes characterizing input capacitance of an input of a first stage in a cell by considering a first current transition at the input of the first stage up to a first stop time. The first stop time occurs during the first current transition exhibits a substantial tail portion contributed by the later of a first input voltage transition and a first output voltage transition reaching a corresponding steady state voltage. The first input voltage transition is associated with the input of the first stage. The first output voltage transition is associated with an output of the first stage coupled to the input through a capacitor. | 2015-02-05 |
20150035552 | PROTECTIVE COVER STRUCTURE - A protective cover structure includes a protective cover that is fitted to an assembly work opening disposed in a wall of a case in which electric components are accommodated, thereby closing the opening, and a fitting detecting connector that detects that the protective cover is fitted to the assembly work opening. The fitting detecting connector includes a receptacle connector which is fixed to an interior of the case and an insertion/extraction connector which is disposed on the protective cover in a mutually insertable/extractable manner while being opposed to the receptacle connector. The receptacle connector includes a tubular housing and fitting detecting conductors in the tubular housing. The insertion/extraction connector holds a pair of detecting electrodes which are electrically conductible with the fitting detecting conductors, and is molded integrally with the protective cover. | 2015-02-05 |
20150035553 | VOLTAGE SENSOR DEVICE - An exemplary voltage sensor device includes at least one high voltage segment and at least one low voltage impedance element. In order to enhance the power dissipation due to impedances spread inside of the device body, the sensor device can be adapted or extended such that at least one high voltage segment, and at least one low voltage impedance element are arranged on an elongated insulating support with adaptive complementary mechanical and electrical interconnection elements on at least one end of the support element. The mechanical and electrical interconnection elements provide a manner of interconnecting at least two elongated insulating supports together in a pivotable way. | 2015-02-05 |
20150035554 | WAFER DEBONDING USING MID-WAVELENGTH INFRARED RADIATION ABLATION - Structures and methods are provided for temporarily bonding handler wafers to device wafers using bonding structures that include one or more releasable layers which are laser-ablatable using mid-wavelength infrared radiation | 2015-02-05 |
20150035555 | CIRCUIT LIFETIME MEASURING DEVICE AND METHOD - The present invention discloses a circuit lifetime measuring device to estimate the rest lifetime of a target circuit, comprising: a reference clock receiving end for receiving a reference clock; a correlation signal generating circuit for providing a correlation signal in which at least some operating settings of the correlation signal generating circuit and the target circuit vary synchronously; a storage circuit for storing an initial relation between the reference clock and the correlation signal; a measuring circuit, coupled to the reference clock receiving end and the correlation signal generating circuit, for measuring a present relation between the reference clock and the correlation signal; and an estimating circuit, coupled to the storage circuit and the measuring circuit, for generating an estimation value according to the initial relation and the present relation, wherein the estimation value indicates the rest lifetime of the target circuit. | 2015-02-05 |
20150035556 | Crack Sensors for Semiconductor Devices - Crack sensors for semiconductor devices, semiconductor devices, methods of manufacturing semiconductor devices, and methods of testing semiconductor devices are disclosed. In one embodiment, a crack sensor includes a conductive structure disposed proximate a perimeter of an integrated circuit. The conductive structure is formed in at least one conductive material layer of the integrated circuit. The conductive structure includes a first end and a second end. A first terminal is coupled to the first end of the conductive structure, and a second terminal is coupled to the second end of the conductive structure. | 2015-02-05 |
20150035557 | ERROR DETECTION CIRCUIT, POWER SOURCE UNIT, AND IMAGE FORMING APPARATUS - Provided are an error detection circuit, a power source unit, and an image forming apparatus that are capable of detecting a short circuit state and an open circuit state of a power source output. | 2015-02-05 |
20150035558 | POWER THEFT INSPECTION APPARATUS AND POWER THEFT INSPECTION METHOD - A power theft inspection apparatus ( | 2015-02-05 |
20150035559 | COMPENSATED IMPEDANCE CALIBRATION CIRCUIT - Aspects of the invention provide for compensating impedance calibration circuits. In one embodiment, a compensated impedance calibration circuit, includes: a variable resistor network including a tunable resistor and a fixed resistor; and an external resistance network including a target external precision resistor and a parasitic distribution resistance; wherein a resistance of the variable resistor network is proportional to a resistance of the external resistance network, such that a ratio of an output voltage of the variable resistor network to a power supply voltage is constant. | 2015-02-05 |
20150035560 | NON-VOLATILE ELECTRONIC LOGIC MODULE - A logic module includes a device for implementing a logic function the device including at least one input and at least one output, the output at least partially representing the result of the logic function; at least one first element including at least one resistance state, at least one second element formed by a bipolar resistive memory; the first element and the second element having a common electrode connected to the output. | 2015-02-05 |
20150035561 | APPARATUS AND METHOD FOR CORRECTING OUTPUT SIGNAL OF FPGA-BASED MEMORY TEST DEVICE - An apparatus and method for correcting an output signal of an FPGA-based memory test device includes a clock generator for outputting clock signals having different phases; and a pattern generator for outputting an address signal, a data signal and a clock signal in response to the clock signals input from the clock generator, and correcting a timing of each of the output signals using flip flops for timing measurement. Wherein the address signal, the data signal and the clock signal, through a pattern generator, are implemented with a programmable logic such as FPGA, thereby shortening the correcting time without the use of an external delay device, and increasing accuracy of output timing of the signal for memory testing, ultimately enhancing performance (accuracy) of a memory tester. | 2015-02-05 |
20150035562 | LOOK-UP TABLE ARCHITECTURE - The present invention relates to a look-up table architecture and to an FPGA comprising the same. The look-up table architecture comprises a registers group comprising a plurality of registers configured to issue register signals, and a programmable logic comprising a plurality of pass gates configured to be controlled at least by the register signals, the registers group and the programmable logic forming a look-up table, wherein the pass gates are placed in a single direction. | 2015-02-05 |
20150035563 | High Speed Level Shifter with Amplitude Servo Loop - A high speed level shifter interfaces a high speed DAC to the digital information that the DAC processes. The level shifter may convert CMOS level digital representations to, for example, CML level digital representations for processing by the DAC. The level shifter conserves the voltage swing in the CMOS level representations (e.g., about 1V). The level shifter also avoids voltage overstress, using a feedback loop to constrain the voltage amplitude, and thereby facilitates the use of fast thin film transistors in its architecture. | 2015-02-05 |
20150035564 | POWER SUPPLY MONITOR - An electrical circuit includes a comparator that receives a first signal at a first input pin, where the first signal is indicative of a current drawn from a power supply unit (PSU) that delivers power to an electronic component. The comparator substantially simultaneously receives a second signal at a second input pin, where the second signal is indicative of a voltage provided by the PSU to the electronic component and is set to a predetermined threshold. An output of the comparator changes if a difference exists between the first signal and the second signal. The electrical circuit includes a variable gain amplifier that provides the first signal to the comparator, where a gain of the variable gain amplifier is set according to the predetermined threshold. | 2015-02-05 |
20150035565 | COMMUNICATION CIRCUIT APPARATUS AND TRANSCEIVER HAVING THE SAME - A communication circuit apparatus includes: multiple level shift circuits, each of which receives an input signal corresponding to a respective communication bus; an activation comparator for generating an activation signal when the input signal is input into one of the level shift circuits, and a level of the input signal exceeds a predetermined threshold; multiple input current voltage conversion circuits, each of which is arranged together with a respective level shift circuit, converts the input signal to a voltage signal, and outputs the voltage signal as an identification signal; and an identification circuit for identifying one of the communication busses based on the identification signal, which is output from one of the input current voltage conversion circuits. The one of the communication busses corresponds to the one of the level shift circuits, in which the input signal is input. | 2015-02-05 |
20150035566 | DRIVERS HAVING T-COIL STRUCTURES - A driver includes a first driver stage having a first T-coil structure. The first T-coil structure includes a first set of inductors each being operable to provide a first inductance. The first T-coil structure further includes a second set of inductors electrically coupled with the first set of inductors, wherein the second set of inductors each are operable to provide a second inductance. | 2015-02-05 |
20150035567 | OUTPUT DRIVER CIRCUIT - An output driver circuit provides an overcurrent protection function by a simple circuit configuration. The output driver circuit has a constant-current circuit, a constant-current mirror MOS transistor, and a selector circuit. The constant-current mirror MOS transistor and the output MOS transistor constitute a current mirror circuit. The gate of the output MOS transistor is controlled by a voltage based on a constant current generated by the constant-current mirror MOS transistor, thereby limiting the current flowing between the source and the drain of the output MOS transistor. | 2015-02-05 |
20150035568 | TEMPERATURE DETECTOR AND CONTROLLING HEAT - A circuit with a temperature detector includes a first FET and a second FET. Each of the first and second FETs has a channel structure having a non-planar structure. The second FET is in close proximity to the first FET. A gate of the second FET is separated from the first FET, and a source and drain of the second FET are shorted together. A resistance of the gate of the second FET between two terminals on the gate of the second FET varies with a temperature local to the first FET. | 2015-02-05 |
20150035569 | SEMICONDUCTOR ELEMENT MODULE AND GATE DRIVE CIRCUIT - A semiconductor element module includes a driving element and a voltage change detecting element each formed of a voltage driving semiconductor element. The voltage change detecting element detects a change of a voltage between a collector and an emitter or between a drain and a source of the driving element. A collector or a drain of the voltage change detecting element is connected to the collector or the drain of the driving element, and a gate of the voltage change detecting element is connected to an emitter or a source of the voltage change detecting element. The emitter or the source of the voltage change detecting element is provided as a detecting terminal. | 2015-02-05 |
20150035570 | CLOCK DOUBLER INCLUDING DUTY CYCLE CORRECTION - Exemplary embodiments are related to a clock doubler. A device may include a duty cycle correction circuit configured to receive an input clock signal and convey a corrected clock signal. The duty cycle correction circuit may include a first circuit to convey an output voltage during a first cycle of the input clock signal and correct a current mismatch of the first circuit during a second cycle of the input clock signal. The duty cycle correction circuit may also include a second circuit to convey the output voltage during the second cycle and correct a current mismatch of the second circuit during the first cycle. Further, the device may include a clock generator for receiving the corrected clock signal and generating an output clock. | 2015-02-05 |
20150035571 | WAVEFORM GENERATION - A predetermined waveform is generated using a lower frequency clock signal ( | 2015-02-05 |
20150035572 | CIRCUIT ARRANGEMENT - In accordance with one embodiment, a circuit arrangement is provided including a circuit having a first terminal for a first supply potential and a second terminal for a second supply potential, wherein the first terminal is coupled to the first supply potential; a switch, by means of which the second terminal can be coupled to the second supply potential; a voltage source coupled to the second terminal; and a control device designed to open the switch in reaction to receiving a turn-off signal in an operating mode in which the switch is closed, and subsequently to control the voltage source in such a way that it varies the potential of the second terminal in the direction of the first supply potential. | 2015-02-05 |
20150035573 | SEMICONDUCTOR DEVICE - To increase the degree of integration of a semiconductor device such as a DCDC converter. In a semiconductor device (e.g., DCDC converter) including a controller circuit and a switching transistor, the switching transistor formed using an oxide semiconductor layer is stacked over a substrate on which the controller circuit is formed. The switching transistor includes a backgate to release heat generated in the oxide semiconductor layer. The backgate has electrical conduction with a wiring to release heat and prevent a temperature increase with integration. Moreover, for power saving, a potential hold portion including a transistor and a capacitor may be formed using part of the oxide semiconductor layer over the controller circuit. The potential hold portion is formed in a circuit for generating a bias potential in the controller circuit. | 2015-02-05 |
20150035574 | SLEW RATE CONTROL DEVICE USING SWITCHING CAPACITOR - Disclosed is a slew rate control device using a switching capacitor which includes a first capacitor that is connected to a target circuit operated in response to a clock signal, and controls a rising slope of a signal output from the target circuit when the clock signal is in a high state; a switch that is connected to the first capacitor in parallel, receives a reverse signal of the clock signal, as a control signal, and is turned on when the clock signal is in a low state; and a second capacitor that is connected to the switch in series, and controls a falling slope of the signal output from the target circuit when the clock signal is in the low state. | 2015-02-05 |
20150035575 | DATA OUTPUT CIRCUITS - Data output circuits are provided. The data output circuit includes a latch control signal generator and a data output portion. The latch control signal generator generates an input pulse signal and a latch control signal i, and the latch control signal includes a pulse whose width is controlled to have a predetermined time period. The data output portion latches a data loaded on an input/output (I/O) line during a pulse width period of the latch control signal to generate a latch data. Moreover, the data output portion buffers the latch data according to an output control signal generated from a read command signal to output the buffered latch data as an output data. | 2015-02-05 |
20150035576 | CLOCK SPURS REDUCTION TECHNIQUE - Aspects of the disclosure provide a circuit having a jittered clock generator. The jittered clock generator is configured to add jitter of a controlled characteristic to a first clock signal of a clock frequency to generate a second clock signal to be used by a transceiver for operating at a radio frequency. The jitter of the controlled characteristic adjusts a clock harmonic at the radio frequency of the transceiver. | 2015-02-05 |
20150035577 | PROGRAMMABLE DELAY CIRCUIT - A computing circuit that includes clocked circuitry, a controller, and a clock generator. The clocked circuitry is configured to receive data and to perform data manipulation on the data based on a first clock signal. The controller is configured to control the transmission of the data to the clocked circuitry. The clock generator is configured to receive as inputs a second clock signal and a delay control signal from the controller, and to delay the second clock signal to generate the first clock signal. The clock generator includes a main delay component configured to receive the second clock signal and to output the first clock signal. The clock generator also includes a switchable delay component connected in parallel with the main delay component, where the switchable delay component is configured to receive as an input the delay control signal from the controller. | 2015-02-05 |
20150035578 | INTERNAL VOLTAGE COMPENSATION CIRCUIT - An internal voltage compensation circuit is provided which includes a power up signal generator configured to generate a power up signal, a select signal generator configured to compare a level of a first external voltage with a level of a second external voltage to generate first and second select signals, wherein the second select signal is generated in response to the power up signal, and a voltage compensation unit configured to electrically connect an internal voltage to the first external voltage or the second external voltage in response to the first and second select signals. | 2015-02-05 |
20150035579 | LOW-RIPPLE POWER SUPPLY - The present invention is a low-ripple power supply comprising a clock generator, a plurality of charge pump modules, and an adder unit. The low-ripple power supply inputs each of a plurality of clock signals generated by the clock generator into each of the plurality of charge pump modules. Since each of the plurality of charge pump modules sends the inputted corresponding clock signal into two paths to be inputted into the first and the second charge pump, respectively, and the corresponding clock signal inputted into the second charge pump undergoes an inversion by the inverter, by adding the first voltage outputted by the first charge pump and the second voltage outputted by the second charge pump, the ripples may be eliminated; finally, the adder unit adds the voltages outputted by each of the plurality of charge pump modules to yield a low-ripple DC voltage. | 2015-02-05 |
20150035580 | POWER ELECTRONIC DEVICE WITH IMPROVED EFFICIENCY AND ELECTROMAGNETIC RADIATION CHARACTERISTICS - A power electronic device includes first and second electronic switches, each integrated on a package having a low parasitic inductance, a supply terminal and a ground terminal. The first conduction terminal of the first switch may be coupled with the supply terminal, and the second conduction terminal of the second electronic switch may be coupled with the ground terminal. The corresponding control terminals of the switches may be coupled to corresponding pilot drivers. The package may include first and second electric terminals, wherein the second conduction terminal of the first switch is coupled to the first electric terminal, and the first conduction terminal of the second switch is coupled to the second electric terminal. A first inductance may be interposed between the first electric terminal and the output terminal and/or a second inductance interposed between the second electric terminal and the output terminal. | 2015-02-05 |
20150035581 | SWITCH CIRCUIT ARRANGEMENTS AND METHOD FOR POWERING A DRIVER CIRCUIT - In various embodiment, a switch circuit arrangement is provided. The switch circuit arrangement may include a switch circuit, a driver circuit and a supply circuit. The driver circuit may be configured to control the switch circuit. The supply circuit may be configured to power the driver circuit. The supply circuit may include a first circuit configured to modify an output impedance of the supply circuit to have a first impedance when the driver circuit controls the switch circuit to be in a conducting state and to have a second impedance when the driver circuit controls the switch circuit to change from a non-conducting state to the conducting state. | 2015-02-05 |
20150035582 | BODY BIAS SWITCHING FOR AN RF SWITCH - Embodiments of radio frequency (RF) switching circuitry are disclosed that include (at least) a first switch and a body switching network operably associated with the first switch. The first switch has a first control contact, a first switch contact and a first body contact. The body switching network includes a first switchable path and a second switchable path. The first switchable path is connected between the first body contact and the first control contact of the first switch. Additionally, the second switchable path is connected between the first body contact and the first switch contact. Accordingly, the first body contact is can be appropriately biased by the switchable paths without requiring a resistor network and thus there is less loading. This maintains the Q factor of the RF switching circuitry. | 2015-02-05 |
20150035583 | FIELD DEVICE AND METHOD OF OPERATING HIGH VOLTAGE SEMICONDUCTOR DEVICE APPLIED WITH THE SAME - A field device and method of operating high voltage semiconductor device applied with the same are provided. The field device includes a first well having a second conductive type and second well having a first conductive type both formed in the substrate (having the first conductive type) and extending down from a surface of the substrate, the second well adjacent to one side of the first well and the substrate is at the other side of the first well; a first doping region having the first conductive type and formed in the second well, the first doping region spaced apart from the first well; a conductive line electrically connected to the first doping region and across the first well region; and a conductive body insulatively positioned between the conductive line and the first well, and the conductive body correspondingly across the first well region. | 2015-02-05 |
20150035584 | ANTI-RINGING TECHNIQUE FOR SWITCHING POWER STAGE - A driver may provide a transition of a switch between an on state and an off state in two stages. In the first stage, the voltage slew rate of the voltage at an output terminal of the switch may be controlled. In the second stage, the current gradient of the switch may be controlled. The transition between the first stage and the second stage may be made based on the value of the voltage at the output terminal of the switch. | 2015-02-05 |
20150035585 | REVERSE CONDUCTION MODE SELF TURN-OFF GATE DRIVER - An apparatus includes a switch module, a sense circuit coupled to the switch module and configured to indicate an operating conduction mode of the switch module, and a drive circuit operatively coupled to the switch module to enable and disable forward conducting mode of the switch module. Once the switch module is in forward conducting mode, the drive circuit is configured to maintain enablement of the forward conducting mode even if the sense circuit indicates reverse conduction mode. | 2015-02-05 |
20150035586 | SOLID-STATE SWITCHING DEVICE HAVING A HIGH-VOLTAGE SWITCHING TRANSISTOR AND A LOW-VOLTAGE DRIVER TRANSISTOR - According to an embodiment, a solid-state switching device includes a high-voltage switching transistor including a source, a drain and a gate, and being adapted for switching a high voltage on the basis of a switching signal, and a switching driver circuit operationally connected to the high-voltage switching transistor, the switching driver circuit including a low-voltage driver transistor including a source, a drain and a gate, connected in series to the high-voltage switching transistor and being adapted for transferring the switching signal to the high-voltage switching transistor, wherein the high-voltage switching transistor is arranged source-down on top of the drain of the low-voltage driver transistor. | 2015-02-05 |
20150035587 | SEMICONDUCTOR DEVICE AND OPERATING METHOD FOR THE SAME - A semiconductor device and an operating method for the same are provided. The semiconductor device includes a first doped region, a second doped region, a first doped contact, a second doped contact, a first doped layer, a third doped contact and a first gate structure. The first doped contact and the second doped contact are on the first doped region. The first doped contact and the second doped contact has a first PN junction therebetween. The first doped layer is under the first or second doped contact. The first doped layer and the first or second doped contact has a second PN junction therebetween. The second PN junction is adjoined with the first PN junction. | 2015-02-05 |
20150035588 | SEMICONDUCTOR DEVICE HAVING VOLTAGE GENERATION CIRCUIT - The present invention provides a voltage generation circuit which outputs high-precision output voltage in a wide temperature range. A semiconductor device has a voltage generation circuit. The voltage generation circuit has a reference voltage generation circuit which outputs reference voltage, and a plurality of correction circuits for generating a correction current and making it fed back to the reference voltage generation circuit. The correction circuits generate sub correction currents which monotonously increase from predetermined temperature which varies among the correction circuits toward a low-temperature side or a high-temperature side. The correction current is sum of a plurality of sub correction currents. | 2015-02-05 |
20150035589 | THROUGH-SUBSTRATE VIA SHIELDING - A semiconductor apparatus includes a substrate structure including a silicon substrate layer, a conductive through-substrate via extending through the silicon substrate layer. The apparatus further includes a semiconductor device located in the substrate structure and a conductive wall located between the through-substrate via and the semiconductor device. The conductive wall is in electrical contact with the silicon substrate layer. | 2015-02-05 |
20150035590 | INTERNAL VOLTAGE GENERATION CIRCUITS - An internal voltage generation circuit including a drive control signal generator and an internal voltage driver. The drive control signal generator generates a drive control signal in response to an active pulse signal and a drive signal. The internal voltage driver, electrically coupled to the drive control signal generator, divides a level of an internal voltage signal in response to the drive control signal to generate a division voltage signal, compares a level of the division voltage signal with a level of a reference voltage signal to generate the drive signal, and drives the internal voltage signal in response to the drive signal. | 2015-02-05 |
20150035591 | Low-Noise Reference Voltages Distribution Circuit - A low-noise reference voltages distribution circuit ( | 2015-02-05 |
20150035592 | CORRECTION OF THE PASSBAND OF AN AIR GAP TRANSFORMER - Device for correction of the passband of an air gap transformer with a cut-off frequency, characterised in that it includes a filter adapted to be connected to the transformer in series, and in that the filter is adapted to amplify the signal that it receives from the transformer for frequencies below the cut-off frequency of the transformer, so that the passband of the transformer fitted with the correction device is increased and has a cut-off frequency lower than the cut-off frequency of the transformer. | 2015-02-05 |
20150035593 | Input Power Detecting Arrangement and Method - An amplifier circuit with an input power detector and a related method are described. With the input power detector and related control network, the arrangement enables and/or disables a number of unit cells in power amplifiers. | 2015-02-05 |
20150035594 | Method and Apparatus for Improving Leakage Performance of a Multi-Port Amplifier - A method and apparatus for managing a multi-port amplifier. In one illustrative embodiment, an apparatus comprises the multi-port amplifier and a controller. The multi-port amplifier is configured to amplify a plurality of signals to form a plurality of amplified signals. The controller is configured to send a plurality of control adjustments to a plurality of equalizers in the multi-port amplifier to improve leakage performance of the multi-port amplifier. | 2015-02-05 |
20150035595 | LOW-NOISE RECEIVER WITH COMPLEX RF ATTENUATOR - An apparatus includes an integrated circuit. The integrated circuit includes a low-noise amplifier having a first complex input impedance. The integrated circuit includes a complex attenuator coupled to an input terminal of the integrated circuit. The complex attenuator has a second complex input impedance and a first complex output impedance. The apparatus may include a matching network coupled to the input terminal of the integrated circuit. The matching network is external to the integrated circuit. The matching network may have a first real input impedance and a second complex output impedance. The second complex output impedance is matched to the second complex input impedance. | 2015-02-05 |
20150035596 | Versatile Audio Power Amplifier - An audio power amplifier includes a first and a second amplification unit, each including a switching voltage amplifier, an output filter, a current compensator, an inner current feedback loop feeding a measurement of current measured at the output inductor back to a summing input of the current compensator, a voltage compensator coupled to the summing input of the current compensator, and an outer voltage feedback loop. A controlled signal path provides the output of the voltage compensator of the first amplification unit to the current compensator of the second amplification unit. The first and second amplification units are operable with separate loads, in parallel driving a common load, or across a bridge-tied-load. A second pair of amplification units may be added and operated together with the first pair to drive a single speaker with a parallel pair of amplifiers on each side of a bridge-tied-load. | 2015-02-05 |
20150035597 | OPERATIONAL AMPLIFIER WITH SELECTIVE INPUT - An operational amplifier includes a selective differential stage including a first current mirror and a current distribution circuit. First and second legs of the first current mirror are responsive to current in first and second paths of the current distribution circuit, which distributes a tail current in response to a first signal received by a first input of the operational amplifier. Current in a first path of a selection circuit in the second path of the current distribution circuit is responsive to a second signal received by a second input of the operational amplifier. Current in the second path of the selection circuit is responsive to a third signal received by a third input of the operational amplifier. An output stage generates an output signal responsive to a difference between the first signal and one of the second and third signals. | 2015-02-05 |
20150035598 | COMMON-MODE FEEDBACK DIFFERENTIAL AMPLIFIER - The present invention discloses a common-mode feedback differential amplifier circuit, a common-mode feedback differential amplification method, and an integrated circuit. In an example, a common-mode feedback (CMFB) loop conducts voltage division on a first common-mode signal to generate a second common-mode signal and a third common-mode signal, a differential amplifier sets a voltage of the signal with the higher voltage between the second common-mode signal and the third common-mode signal equal to a voltage of a first input terminal or a second input terminal, and the CMFB loop controls the differential amplifier to output an output signal with the minimum voltage equal to the voltage of the first common-mode signal. | 2015-02-05 |
20150035599 | POWER AMPLIFIER AND DISTRIBUTED FILTER - A system comprises a power amplifier configured to amplify an input signal, a splitter configured to split the amplified input signal into a plurality of output signals, a plurality of filters configured to filter the plurality of output signals, respectively, to produce a plurality of filtered output signals, and a combiner configured to combine the filtered output signals to produce a combined output signal. | 2015-02-05 |
20150035600 | AMPLIFIERS WITH CONFIGURABLE MUTUALLY-COUPLED SOURCE DEGENERATION INDUCTORS - Amplifiers with configurable mutually-coupled source degeneration inductors are disclosed. In an exemplary design, an apparatus (e.g., a wireless device or an integrated circuit) includes a gain transistor and a plurality of inductors, which may implement an amplifier. The gain transistor receives an input signal and provides an amplified signal. The plurality of inductors are mutually coupled, are coupled to the gain transistor, and provide a programmable source degeneration inductance for the gain transistor. The inductors may have a positive coupling coefficient and may provide a larger source degeneration inductance. Alternatively, the inductors may have a negative coupling coefficient and may provide a smaller source degeneration inductance. | 2015-02-05 |
20150035601 | SPLIT BIASED RADIO FREQUENCY POWER AMPLIFIER WITH ENHANCED LINEARITY - A radio frequency (RF) power amplifier (PA) may include a first transistor and a second transistor. A first power cell may be coupled with the first transistor, and a second power cell may be coupled with the second transistor. In embodiments, the first transistor may be scaled to operate at a first current density, while the second transistor may be scaled to operate at a second current density. | 2015-02-05 |
20150035602 | NOISE CANCELING LOW-NOISE AMPLIFIER - A noise-canceling LNA circuit for amplifying signals at an operating frequency f in a receiver circuit is disclosed. The LNA circuit comprises a first and a second amplifier branch, each having an input terminal connected to an input terminal of the LNA circuit. The first amplifier branch comprises an output terminal for supplying an output current of the first amplifier branch and a common source or common emitter main amplifier. The main amplifier has an input transistor having a first terminal, which is a gate or base terminal, operatively connected to the input terminal of the first amplifier branch, a shunt-feedback capacitor operatively connected between the first terminal of the input transistor and a second terminal, which is a drain or collector terminal, of the input transistor, and an output capacitor operatively connected between the second terminal of the input transistor and the output terminal of the first amplifier branch. The second amplifier branch comprises an output terminal for supplying an output current of the second amplifier branch. The LNA circuit comprises circuitry for combining the output current of the first amplifier branch and the output current of the second amplifier branch, thereby generating a total output current of the LNA circuit. | 2015-02-05 |
20150035603 | FEED-FORWARD AMPLIFIER DEVICE AND METHOD THEREOF - The present application discloses a feed-forward amplifier device and the method thereof. The device comprises: a splitter for splitting an input signal into two portions; a non-linear amplifier for amplifying the input signal and producing inter-modulation products; a carrier canceling unit for generating pure inter-modulation products; a linear amplifier for amplifying the pure inter-modulation products; and a coupler for generating final output signal by counteracting the inter-modulation products with the amplified pure inter-modulation products; wherein the splitter and the carrier canceling unit are provided in digital base band. According to the present disclosure, pure inter-modulation products can be generated and adjusted more flexibly and more accurately in digital base band, and hence ideal output signal may be generated. | 2015-02-05 |
20150035604 | COUPLER WITH DISTRIBUTED FEEDING AND COMPENSATION - The embodiments described herein can provide improved signal feeding between hybrid couplers and associated transistors. As such, these embodiments can improve the performance of amplifiers and other such RF devices that utilize these components. In one embodiment a device includes a distribution network and a compensation resonator. The distribution network is configured to output a signal through a relatively wide output feedline. This relatively wide output feedline provides distributed signal feeding that can improve signal distribution and performance. The output feedline is coupled to the compensation resonator. In general, the compensation resonator is configured to resonate with the distribution network at the frequency band of the signal. Thus, the distribution network and compensation resonator together can provide improved signal distribution while maintaining performance at the frequencies of interest. | 2015-02-05 |
20150035605 | APPARATUS AND METHODS FOR BIASING POWER AMPLIFIERS - Apparatus and methods for biasing power amplifiers are disclosed herein. In certain implementations, a power amplifier system includes a power amplifier and a bias circuit that generates a bias voltage for biasing the power amplifier. The bias circuit includes an amplifier, a current source for generating a reference current, and a reference transistor having a current therethrough that changes in relation to the bias voltage. The amplifier can control the bias voltage based on an error current corresponding to a difference between the reference current and the current through the reference transistor. The amplifier can be used to control the bias voltage such that the reference current and the current through the reference transistor are substantially equal. | 2015-02-05 |
20150035606 | TIME AND AMPLITUDE ALIGNMENT IN ENVELOPE TRACKING AMPLIFICATION STAGE - The invention relates to a method of calibrating an envelope path and an input path of an amplification stage including an envelope tracking power supply, the method comprising: generating input signals having a known relationship for each of the input and envelope paths; and varying an amplitude and a delay of the signal in one of the envelope and input paths in order to reduce the variation in the power detected in a signal at the output of the amplification stage. | 2015-02-05 |
20150035607 | POWER AMPLIFIER MODULE - Improvement in linearity is achieved at low costs in a power amplifier module employing an envelope tracking system. The power amplifier module includes a first power amplifier circuit that amplifies a radio frequency signal and that outputs a first amplified signal, a second power amplifier circuit that amplifies the first amplified signal on the basis of a source voltage varying depending on amplitude of the radio frequency signal and that outputs a second amplified signal, and a matching circuit that includes first and second capacitors connected in series between the first and second power amplifier circuit and an inductor connected between a node between the first and second capacitors and a ground and that decreases a gain of the first power amplifier circuit as the source voltage of the second power amplifier circuit increases. | 2015-02-05 |
20150035608 | DISTORTION COMPENSATING APPARATUS AND DISTORTION COMPENSATION METHOD - A distortion compensating apparatus includes: a memory; and a processor coupled to the memory and configured to: calculate a transient response of a power source circuit, in accordance with an estimated value of a current to be consumed by an amplifier based on a signal to be amplified by the amplifier, and in accordance with an objective supply voltage, based on the signal, of a voltage to be supplied to the amplifier from the power source circuit, and correct the signal to be input to the amplifier based on a difference caused by the transient response from the objective supply voltage. | 2015-02-05 |
20150035609 | METHOD AND APPARATUS FOR CONVERTING SINGLE-ENDED SIGNALS INTO DIFFERENTIAL SIGNALS - An electronic apparatus comprises a first stage that functions as a single-ended to differential converter for signals in a low frequency range and a second stage that is electrically connected to the first stage and functions as a single-ended to differential converter for signals in a high frequency range. | 2015-02-05 |
20150035610 | Circuit, Device and Method in a Circuit - A method in a circuit comprises providing a first clock by a resistor-capacitor (RC) oscillator; demodulating a plurality of input signals to form a plurality of demodulated input signals; discriminating frequency ranges of the plurality of demodulated input signals according to the first clock; determining whether a first predetermined number of consecutive demodulated input signals among the plurality of demodulated input signals fall into a first predetermined frequency range; triggering a crystal oscillator to provide a second clock to calibrate the first clock if the first predetermined number of consecutive input signals fall into the first predetermined frequency range. | 2015-02-05 |
20150035611 | VCO WITH LINEAR GAIN OVER A VERY WIDE TUNING RANGE - An oscillating circuit with linear gain is presented. The oscillating circuit may include a relaxation oscillator and a current compensation block. The relaxation oscillator includes a capacitor, a pair of resistors operative to deliver a first current to the capacitor, and a first current source adapted to generate the first current having a first predefined level. The current compensation block includes a second current source, and a pair of cross-coupled transistors coupled to the second current source and adapted to steer a current exceeding the first predefined level in the relaxation oscillator away from the capacitor and to the second current source. The proposed oscillating circuit generates an output signal which has a linear gain over a wide tuning range. | 2015-02-05 |
20150035612 | CALIBRATION FOR A TUNABLE RF FILTER STRUCTURE - Embodiments of radio frequency (RF) front-end circuitry are disclosed where the RF front-end circuitry includes a tunable RF filter structure and a calibration circuit. The tunable RF filter structure includes (at least) a pair of weakly coupled resonators and defines a transfer function with a passband. The calibration circuit is configured to shape the passband so that the passband defines a center frequency. Additionally, the calibration circuit is configured to detect a phase difference at the target center frequency between the pair of weakly coupled resonators and adjust the phase difference of the pair of weakly coupled resonators at the target center frequency so as to reduce a frequency displacement between the center frequency of the passband and the target center frequency. In this manner, the calibration circuit calibrates the tunable RF filter structure to correct for errors in the center frequency of the passband due to component manufacturing variations. | 2015-02-05 |
20150035613 | ULTRA-WIDEBAND IMPEDANCE TUNER - A mechanical impedance tuner has at least two probe carriages mounted for movement along an axis parallel to the center conductor. The at least two probe carriages including a first probe carriage and a second probe carriage. Each probe carriage has at least N probes where N is an integer equal to or greater than one, and at least one of the N probes is mechanically different or of different nominal geometry from the probes on at least one of the other carriages so that each such probe has an non-identical frequency response. | 2015-02-05 |
20150035614 | PHASED-ARRAY RF PULSE GENERATOR - A phased-array RF pulse generator is disclosed which includes a video-pulse generator arranged to generate video pulses each having a leading edge. An array of nonlinear and dispersive transmission lines, are arranged to generate RF pulses from the video pulses. At least one sensor is arranged to detect the leading edge of the video pulses after they have passed along the transmission lines. A phase controller is arranged to set the velocity of the video pulses in each transmission line to put the detected leading edges, and hence the generated RF pulses, into a desired phase relationship. | 2015-02-05 |
20150035615 | VERTICAL MICROCOAXIAL INTERCONNECTS - In one embodiment, a vertical microcoaxial interconnect includes a dielectric substrate having a top side and a bottom side, an inner conductor extending through the substrate from its top side to its bottom side, an outer conductor that extends through the substrate from its top side to its bottom side, the outer conductor surrounding the inner conductor, a signal line extending to the inner conductor without contacting the outer conductor, and a ground line extending to the outer conductor without contacting the inner conductor or the signal line. | 2015-02-05 |
20150035616 | COUPLING STRUCTURE FOR CROSSING TRANSMISSION LINES - A coupling structure for crossing three transmission lines millimeter-wave or centimeter-wave signals a signal conductor layer of a circuit substrate, the coupling structure comprising three planar cross-couplers, and from each of the three cross-couplers two input/output points of the cross-coupler being connected clockwise in succession in the plane of the cross-coupler, to respectively one input/output point of a respective other of the three cross-couplers. | 2015-02-05 |
20150035617 | COOPERATIVE TUNABLE RF FILTERS - RF communications circuitry, which includes a first tunable RF filter and a second tunable RF filter, is disclosed. The first tunable RF filter is coupled to the second tunable RF filter. The RF communications circuitry operates in one of a first operating mode and a second operating mode. During the first operating mode, the second tunable RF filter receives and filters an upstream RF signal to provide a filtered RF signal. Further, during the first operating mode, the first tunable RF filter augments a frequency response of the second tunable RF filter. | 2015-02-05 |
20150035618 | APPARATUS FOR USE IN THE RECEIPT AND/OR TRANSMISSION OF DATA SIGNALS - Apparatus is provided which allows for the receipt and/or transmission of data signals, and, for the received signals, for the subsequent separation of the same into at least two sets of data signals which are orthogonal and provide these sets of data signals to subsequent processing components, whilst maintaining the isolation between the first and second data signal sets. For the transmission of the data signals the first and second sets of data signals are initially separate and then combined into one data set to allow the same to be transmitted. | 2015-02-05 |
20150035619 | PHASE SHIFTER AND METHOD OF SHIFTING PHASE OF SIGNAL - Provided is a phase shifter for shifting a phase of a signal the phase shifter including an input unit to split an input signal into a plurality of signals having different phases, a connection unit to change at least one of magnitudes and phases of the plurality of signals, apply the changed plurality of signals to a plurality of loads, and receive a plurality of return signals generated when the applied signals are returned by the plurality of loads, and an output unit to generate an output signal having a predetermined phase difference from the input signal based on the return signals. | 2015-02-05 |
20150035620 | GROUND NOISE INDUCTIVE FILTER - An alternating current (AC) power device includes an AC circuit having input nodes, output nodes and a ground node. The AC circuit is configured to receive an input electrical signal at the input nodes and generate an output electrical signal at the output nodes. The AC power device also includes an inductor coupled to the ground node of the AC circuit. The ground node is configured to be coupled to a ground plane at a ground potential. The AC circuit is configured to be coupled to a load at the output nodes. The inductor is configured to be connected in series between the ground node of the AC circuit and the load to attenuate radio frequency components present at the ground node. | 2015-02-05 |
20150035621 | COMPOSITE ELECTRONIC COMPONENT - A composite electronic component includes an input terminal portion receiving power converted by a power management unit, a power stabilizing unit stabilizing the power and including a composite body including a capacitor and a coil and having a hexahedral shape, the capacitor including a plurality of dielectric layers, internal electrodes disposed so as to face each other with a respective dielectric layer interposed therebetween, and capacitor electrodes electrically connected to the internal electrodes, and the coil being wound so as to encompass the capacitor and being buried in a magnetic material portion, and an output terminal portion supplying the stabilized power. | 2015-02-05 |
20150035622 | INTERFERENCE REJECTION RF FILTERS - RF communications circuitry includes an RF filter structure, which includes a group of resonators, a group of cross-coupling capacitive structures, and a group of egress/ingress capacitive structures, is disclosed. Each of the group of cross-coupling capacitive structures is coupled between two of the group of resonators. A first portion of the group of egress/ingress capacitive structures is coupled between a first connection node and the group of resonators. A second portion of the group of egress/ingress capacitive structures is coupled between a second connection node and the group of resonators. | 2015-02-05 |
20150035623 | VARIABLE HIGH FREQUENCY FILTER DEVICE AND ASSEMBLY - A tunable filter device that changes a central frequency and a bandwidth is provided. The tunable filter device may include a body forming a cavity together with a cover, a resonator attached to or integrally formed on a lower surface of the cavity, a frequency-tuning element including a head and a shaft, the shaft passed through the cover and inserted in the resonator, and a cam disposed on the head to contact the head, wherein an insertion length of the shaft is controlled by the cam. | 2015-02-05 |
20150035624 | HIGH FREQUENCY FILTER - In a high frequency filter, a multilayer structure includes a plurality of insulator layers, a first transmission line transmits an input signal, and a second transmission line is electromagnetic coupled with the first transmission line on the same insulator layer and transmits an output signal. A conductor layer defines capacitors with the first transmission line and the second transmission line with the insulator layer in between. A dielectric constant of the insulator layer that comes in contact with the first transmission line and the second transmission line is higher than a dielectric constant of an insulator layer other than the insulator layer. | 2015-02-05 |
20150035625 | INDUCTOR - An inductor ( | 2015-02-05 |
20150035626 | DIELECTRIC LINE AND ELECTRONIC COMPONENT - A dielectric line includes a line portion and a surrounding dielectric portion. The line portion is formed of a first dielectric having a first relative permittivity. The surrounding dielectric portion is formed of a second dielectric having a second relative permittivity. The line portion propagates one or more electromagnetic waves of one or more frequencies within the range of 1 to 10 GHz. In a cross section orthogonal to the direction of propagation of the one or more electromagnetic waves through the line portion, the surrounding dielectric portion is present around the line portion. The first relative permittivity is 1,000 or higher. The second relative permittivity is lower than the first relative permittivity. | 2015-02-05 |
20150035627 | CIRCUIT BREAKER HEATERS AND TRANSLATIONAL MAGNETIC SYSTEMS - A thermal-magnetic trip unit is provided for a circuit breaker. The thermal-magnetic trip unit includes a heater and a translational magnetic system coupled to the heater. The heater includes a first portion, a second portion, and a third disposed between the first portion and the second portion. The first portion has a first surface disposed in a first plane, and the second portion has a second surface disposed in a second plane that is substantially parallel to the first plane. The first surface is separated by a first predetermined distance from the second surface. The third portion has a third surface disposed in a third plane that is substantially perpendicular to the first plane. The third surface has a first predetermined length and is separated by a second predetermined distance from the second surface. Numerous other aspects are provided | 2015-02-05 |
20150035628 | CIRCUIT BREAKER TRIP BLOCKING APPARATUS, SYSTEMS, AND METHODS OF OPERATION - Embodiments disclose a trip blocking apparatus of a circuit breaker exhibiting no trip at OFF functionality. The trip blocking apparatus effectively blocks tripping of a trip bar when the circuit breaker is in the OFF configuration. The trip blocking apparatus has a trip blocking arm and a blocking lever. A first projection of the blocking lever is configured to contact a handle arm, and a second projection is configured to interfere with the trip blocking arm to block tripping of the trip bar responsive to handle arm motion. Actuator resetting and blocking apparatus and trip blocking assemblies and methods of operating the trip blocking assembly are provided, as are other aspects. | 2015-02-05 |
20150035629 | SHORT CIRCUIT INDICATING DEVICES AND METHODS FOR CIRCUIT BREAKERS - A device is provided for use with a circuit breaker that includes a magnetic trip bar adapted to move from a non-tripped position to a tripped position in response to a short-circuit condition, and move from the tripped position to the non-tripped position to reset the circuit breaker. The device includes a slider that has a first position and a second position, and a latch coupled to the magnetic trip bar and the slider. As the magnetic trip bar moves from the non-tripped position to the tripped position, the latch is adapted to move the slider from the first position to the second position to indicate that a short circuit trip has occurred. Numerous other aspects are provided. | 2015-02-05 |
20150035630 | METHODS AND APPARATUS FOR AN IMPROVED MAGNETIC ARMATURE SELECTIVE TRIPPING DEVICE OF A CIRCUIT BREAKER - Methods, apparatus, and systems are provided for a selectivity device for a circuit breaker. The invention includes a modular assembly adapted to be coupled to a load conductor assembly. The modular assembly includes a tripping plunger including a cam surface adapted to interact with a breaker tripping mechanism; an armature coupled to the tripping plunger; a yoke adapted to generate a magnetic field in response to an electric current in the load conductor assembly and disposed to apply a magnetic force proportionate to the electric current on the armature; and a spring assembly adapted to counter-balance the magnetic force up to a predefined tripping current in the load conductor assembly. Numerous additional aspects are disclosed. | 2015-02-05 |