20th week of 2015 patent applcation highlights part 22 |
Patent application number | Title | Published |
20150130425 | POWER SUPPLY - Embodiments of the invention provide a power supply including a transformer comprising a single output terminal on a secondary side, a first output unit comprising a first capacitor and connected to the single output terminal to output a first output voltage, a second output unit comprising a second capacitor having a larger capacity than the first capacitor and connected to the single output terminal to output a second output voltage, and a controller configured to control the first output voltage to be output until power is applied and charging of the second capacitor is started. | 2015-05-14 |
20150130426 | Digital current equalizing device, analog current equalizing device, current equalizing method and system - Provided are a digital current equalizing device, an analog current equalizing device, a current equalizing method and a system. The digital current equalizing device comprises: an output current sampling amplifying module ( | 2015-05-14 |
20150130427 | Low Dropout Regulator and Related Method - A device is configured to provide low dropout regulation. An amplifier stage includes a first transistor electrically connected to an output of the device, and a second transistor. A current mirror includes a third transistor electrically connected to the second transistor, and a fourth transistor electrically connected to the third transistor. The auxiliary current source has a control terminal electrically connected to a gate electrode of the fourth transistor. The pull down stage includes a fifth transistor having a gate electrode electrically connected to a drain electrode of the first transistor, and a sixth transistor having a gate electrode electrically connected to the gate electrode of the fourth transistor. The pull up transistor has a gate electrode electrically connected to a drain electrode of the fifth transistor. The first capacitor has a first terminal electrically connected to the gate electrode of the first transistor. | 2015-05-14 |
20150130428 | LEVEL SHIFT CIRCUIT AND DC-DC CONVERTER FOR USING THE SAME - A level shift circuit and a DC-DC buck converter controller for using the same are disclosed. The level shift circuit is capable of detecting a state of a converting circuit, and avoids a current leakage when determining that the converting circuit is operating under a light-load. Therefore, the level shift circuit and the DC-DC converting controller provided by the present invention can reduce power consumption under the light-load and have power-saving advantage. | 2015-05-14 |
20150130429 | FEEDING APPARATUS AND FEEDING METHOD - A feeding apparatus feeds an electric power to an object to which the electric power is fed. The feeding apparatus includes a DC/DC converter and a driver. The DC/DC converter outputs a PWM signal. The driver feeds the electric power to the object to which the electric power is fed in accordance with the PWM signal. The DC/DC converter outputs a prescribed voltage value during a Tri-State shift. | 2015-05-14 |
20150130430 | Output Switching Circuit - An output switching circuit includes a switching circuit having a first transistor connected to a high-voltage power supply, a second transistor connected to a low-voltage power supply, and an output s terminal at a connection node between the first and second transistors; a comparison unit that compares an input signal with a feedback signal obtained by feedback of an output signal of the output terminal via a low-pass filter to generate a comparison signal; and a drive pulse generating unit that generates first drive pulses for driving the first transistor and second drive pulses for driving the second transistor in accordance with the comparison signal. | 2015-05-14 |
20150130431 | MATRIX CONVERTER AND METHOD FOR COMPENSATING FOR OUTPUT VOLTAGE ERROR - A matrix converter includes a power converter, a command generator, and a commutation controller. The power converter includes bidirectional switches each having a conducting direction controllable by switching elements. The bidirectional switches are disposed between input terminals coupled to phases of an AC power source and output terminals coupled to phases of a load. The command generator generates a control command based on a voltage command specifying a pulse width of pulse width modulation control. The commutation controller controls the switching elements by a commutation method based on the control command so as to perform commutation control. The command generator includes a corrector to, when an error in an output voltage is caused by the commutation control, correct the pulse width specified in the voltage command in generating the control command to reduce the error in the output voltage. | 2015-05-14 |
20150130432 | MATRIX CONVERTER AND METHOD FOR COMPENSATING FOR OUTPUT VOLTAGE ERROR - A matrix converter includes a power converter, a control information generator, a commutation controller, a storage, and an error compensator. The power converter includes bidirectional switches each having a conducting direction controllable by switching elements. The bidirectional switches are disposed between input terminals and output terminals. The input terminals are respectively coupled to phases of an AC power source. The output terminals are respectively coupled to phases of a load. The control information generator generates control information to control the bidirectional switches. The commutation controller controls each of the switching elements based on the control information so as to perform commutation control. The storage stores setting information of at least one of a method of the commutation control and a modulation method of power conversion. The error compensator compensates for an output voltage error based on the setting information. | 2015-05-14 |
20150130433 | CONSTANT POWER AVAILABILITY FOR LOAD SWITCHES WITH FOLDBACK CURRENT - Load switch supply circuits and methods are provided that allow a load switch to maintain power delivery without having the load switch encounter thermal or power overload conditions. In an example, a load switch supply circuit can include a multiplier circuit configured to receive a first representation of voltage across a load switch and a representation of current provided by the load switch and to provide a representation of power dissipated by the load switch, and a control amplifier configured to compare the representation of power dissipated by the load switch to a power threshold and to adjust a control terminal of the load switch to avoid cycling the load switch to an off state due to thermal overload or power overload conditions. | 2015-05-14 |
20150130434 | FAST CURRENT LIMITING CIRCUIT IN MULTI LOOP LDOS - A circuit and method for providing a current limiting feature in a low dropout (“LDO”) linear voltage regulator. A pass element generates an output voltage that is less than the input voltage. The pass element is normally enabled by an error amplifier that compares a feedback signal from the output of the pass element with a reference signal. However, the pass element may be enabled by a current limiting circuit that bypasses the error amplifier to limit the current generated at the output of the pass element. | 2015-05-14 |
20150130435 | TIMING CONTROLLED AC TO DC CONVERTER AND METHOD - A timing controlled converter and method for converting a time varying input signal to a regulated DC output voltage for application to a load circuit. A feedback loop is employed as a control means for switchably coupling the time varying input signal to the load circuit for controlled periods of time in a manner so as to provide an average load voltage equal to a reference voltage. The duration of the controlled periods of time is a function of: the difference between the time varying input signal and the output voltage; and the integral of the difference between the output voltage and the reference voltage. | 2015-05-14 |
20150130436 | Apparatus and System for Noise Cancellation of Power Converters - An apparatus and system comprise a noise cancelation power converter being configured for phase inverted synchronous operation with respect to a primary power converter. The primary power converter is operable to supply power to at least one device. The primary power converter produces a first electromagnetic interference during operation to supply the power. The first electromagnetic interference is coupleable to the device. The noise cancelation power converter further is configured with parasitic components substantially matching parasitic components of the primary power converter. The noise cancelation power converter further produces a second electromagnetic interference that is coupleable to the device. The second electromagnetic interference comprises frequency components having an inverted phase relative to frequency components of the first electromagnetic interference for substantially reducing a sum of the first electromagnetic interference and the second electromagnetic interference during coupling to the device. | 2015-05-14 |
20150130437 | DC-DC CONVERTER - A DC-DC converter includes a main reactor disposed in a main energization path, a first main switching element disposed in the main energization path and on-off controlled to cause current flowing through the main reactor to intermittently flow, a second main switching element forming a discharge loop configured to discharge electrical energy stored in the main reactors to the DC voltage output terminal side, an auxiliary reactor disposed between the first main switching element and the main reactor, an auxiliary switching element discharging electrical energy stored in the reactors through the main reactor to the DC voltage output terminal side in the main energization path, diodes connected reversely in parallel to the respective main switching elements and the auxiliary switching element, and a series circuit connected in parallel to the auxiliary reactor and including a diode with an anode located at the main reactor side and a capacitor. | 2015-05-14 |
20150130438 | OVERCURRENT DETECTION OF LOAD CIRCUITS WITH TEMPERATURE COMPENSATION - An improved current limiting circuit comprising a switch having a first terminal and a second terminal, the first and second terminal configured to connect a power supply to a load. A first resistor connected in series between the first terminal and a first constant current source. A second resistor connected in series between the second terminal and a second constant current source. A control circuit configured to measure a voltage drop across the first resistor and compare the voltage drop to a voltage drop across the switch. | 2015-05-14 |
20150130439 | CURRENT BALANCING DEVICE AND METHOD - The present invention discloses a current balancing device and method capable of balancing an output current and an input current of a current loop. Said device comprises: a transmission circuit for outputting an output current and receiving an input current; at least one adjustable resistor set in the current loop for providing resistance according to at least one adjustment signal; and a current balancing circuit, coupled to the transmission circuit and the adjustable resistor, for determining whether the difference between the output and input currents satisfies a predetermined requirement in light of a predetermined duration and thereby generating the adjustment signal, wherein if the difference between the output and input currents fails to satisfy the predetermined requirement, the current balancing circuit will adjust the resistance of the adjustable resistor through the adjustment signal, so as to reduce the difference between the output and input currents. | 2015-05-14 |
20150130440 | DC-DC CONVERTER - A DC-DC converter includes a voltage conversion circuit boosting a voltage of a DC power supply and supplying the voltage to a load, a bypass circuit provided in parallel to the voltage conversion circuit, a drive circuit turning on and off a switching element of the bypass circuit, and a controller outputting a control signal for controlling the voltage conversion circuit and the drive circuit. A diode is connected in parallel to the switching element so as to be oriented toward a forward direction with respect to the DC power supply. A temperature detector of the drive circuit detects temperature of the diode. The drive circuit maintains the switching element in the on state irrespective of the control signal of the controller when the temperature detector detects a temperature greater than or equal to a predetermined value. | 2015-05-14 |
20150130441 | DETECTION DEVICE AND METHOD FOR ELECTRONIC DEVICE - A detection method for an electronic device having a chip is disclosed. The method includes: obtaining, at a detection device, a voltage of at least one signal pin of a chip coupled to the detection device; converting, at the detection device, the obtained voltage to one or more digital voltage signals; and determining, at the detection device, if the one or more digital voltage signals are in a predetermined voltage range in which the chip is correctly operational. | 2015-05-14 |
20150130442 | DC REVERSE POLARITY DETECTION - For inspecting polarities of poles of DC voltage sources, each pole being individually connected to one of separate input terminals of a combiner circuit, an inspection apparatus includes electric contacts each provided for one of the input terminals such that one of the poles of each DC voltage sources is each connected to one of the electric contacts, respectively. A signaling element when subjected to an electric signal emits a matching signal. One switching element per each of the at least two electric contacts forwards the electric signal if a polarity of a voltage present at the respective electric contact matches a polarity pre-set for the respective electric contact with regard to a reference potential, and blocks the electric signal if the polarity of the voltage does not match the pre-set polarity. The switching elements are electrically connected in series. | 2015-05-14 |
20150130443 | MAGNETOMETER TEST ARRANGEMENT AND METHOD - Manufacturing of magnetometer units employs a test socket having a substantially rigid body with a cavity therein holding an untested unit in a predetermined position proximate electrical connection thereto, wherein one or more magnetic field sources fixed in the body provide known magnetic fields at the position so that the response of each unit is measured and compared to stored expected values. Based thereon, each unit can be calibrated or trimmed by feeding corrective electrical signals back to the unit through the test socket until the actual and expected responses match or the unit is discarded as uncorrectable. In a preferred embodiment, the magnetic field sources are substantially orthogonal coil pairs arranged so that their centerlines coincide at a common point within the predetermined position. Because the test-socket is especially rugged and compact, other functions (e.g., accelerometers) included in the unit can also be easily tested and trimmed. | 2015-05-14 |
20150130444 | POSITION DETECTION DEVICE - In a position detection device of a type that omits a secondary coil, various inconveniences arising from the use of a voltage-dividing resistance (fixed resistor) are eliminated. At least two pairs of coils are provided. A magnetism-responsive member are placed so as to effect relative displacement in relation to the coils, the relative position of the member in relation to the coils varies with a position of a detection object, and impedance of each coil is varied with the relative position. The impedance changes of two coils constituting each one of coil pairs present characteristics of mutually opposite phase characteristics. For each coil pair, the two coils constituting the pair are connected in series with each other, and from a connection point thereof, a voltage-divided output voltage according to the impedance of the two coils is taken out as a detection output signal for the pair. | 2015-05-14 |
20150130445 | REMOTE SENSING SYSTEM - Remote sensors and methods of remote sensing are disclosed. A remote sensor includes a first circuit and a second circuit. The first circuit includes a first coil, a magnetic field generator for driving a current through the first coil to generate a magnetic field, and circuitry for determining loading of the magnetic field. The second circuit includes a second coil located proximate the first coil and a voltage-to-current converter for converting a voltage at an input of the second circuit to current and applying the current to the second coil. The current in the second coil registers as a loading of the magnetic field generated by the first coil. The loss, in response to the loading of the magnetic field, is measurable by the first circuit. | 2015-05-14 |
20150130446 | Magnetic Out-of-Axis Angle Sensing Principle - The present disclosure relates to a magnetic angle sensor module having first magnetic polewheel comprising a first number of poles and a second magnetic polewheel comprising a second number of poles greater than the first number. First and second magneto-resistive sensors are located around the first polewheel at a first angular position and a second angular position, respectively. The first and second magneto-resistive sensors collectively generate sensor signals corresponding to a measured angle of the first polewheel, while the third magneto-resistive sensor generates a third sensor signal corresponding to a measured angle of the second polewheel. A signal processor receives the first and third sensor signals and operates an algorithm that determines a position within a signal curve of the second polewheel from the first sensor signal and that determines an enhanced angle from the position within the signal curve and the third sensor signal. | 2015-05-14 |
20150130447 | Actuator and Linear Position Sensor Assembly - An actuator and sensor assembly with a housing defining a pocket and an access opening. A substrate with a sensor is located in the pocket through the access opening. A nozzle extends from the housing. A sleeve surrounds the nozzle and retains a hose on the nozzle. A connector assembly is located opposite and normal the pocket and the substrate. Compliant terminal pins extend generally normally from the connector assembly into the pocket and through-holes in the substrate. An actuator shaft gimbal includes a head located in a housing collar and a flexible neck extends through a housing aperture. A shoulder on the neck of the gimbal locks the gimbal in the collar. | 2015-05-14 |
20150130448 | MAGNETIC ENCODER STRUCTURE - A magnetic encoder structure according to an exemplary embodiment of the present invention includes: a back plate; and a magnet rubber which has a ring shape, and is vulcanized and attached to a rear surface of the back plate, in which the magnet rubber has a plurality of protruding portions which protrudes from an adhesive surface that is attached to the back plate, and groove portions which are formed between the protruding portions, and the protruding portions and the groove portions are repetitively disposed in a rotation direction of the magnet rubber. | 2015-05-14 |
20150130449 | ROTATIONAL ANGLE SENSOR - A rotational angle sensor for determining an angular position of a reference component with respect to an axial direction includes a magnet retaining component having a magnet. The magnet retaining component is connectable to the reference component via an interference-fit connection so as to rotate with the reference component while being axially displaceable relative to the reference component. The rotational angle sensor also includes a sensor attached to the reference component such that it can rotate with respect to the reference component, and the sensor is configured to detect a magnetic field generated by the magnet. Also included is a spring element configured to exert an axial force on the magnet retaining component so that an axial spacing between the sensor and the magnet assumes a predetermined value. | 2015-05-14 |
20150130450 | ENERGY-SELF-SUFFICIENT MULTITURN ROTARY ENCODER AND METHOD FOR DETERMINING A UNIQUE POSITION OF AN ENCODER SHAFT BY MEANS OF THE MULTITURN ROTARY ENCODER - The present invention relates einen energy-self-sufficient multiturn rotary encoder for detecting a number of complete 360° revolutions of an encoder shaft, rotating about a rotational axis and to which an excitation magnet is mounted in a rotationally fixed manner for generating an external magnetic field, as well as for determining an absolute rotational angle indicating a fine-resolved position within one 360° revolution of the encoder shaft, wherein the multiturn rotary encoder for energy-self sufficiently detecting the number of the complete 360° revolutions of the encoder shaft several functional blocks comprises. Further, a corresponding method is taught. | 2015-05-14 |
20150130451 | SENSOR CIRCUIT AND METHOD THEREFOR - In one embodiment, a sensor circuit may include a first receiver circuit that may be configured to receive a first signal that is representative oil a first mutual inductance and form a first detection signal that is representative of the first mutual inductance, wherein the first variable mutual inductance varies in response to a position of a metal object. An embodiment may include a second receiver circuit configured to receive a second signal that is representative of a second mutual inductance and form a second detection signal that is representative of the second mutual inductance, wherein the second mutual inductance varies in response to the position of the metal object. In an embodiment, the sensor circuit may include a recognition circuit configured to assert a movement detected signal responsively to a first value of the first detection signal, configured to assert a movement direction signal responsively to a first value of the second detection signal. | 2015-05-14 |
20150130452 | MAGNETIC ANGLE DETECTOR - A magnetic angle detector ( | 2015-05-14 |
20150130453 | MAGNETIC DETECTION DEVICE - A magnetic field component in a Z direction is guided by a magnetic field guide layer and applied to a magnetic sensor in an X direction that is the same as a sensitivity axis direction thereof, and a detection output is obtained. A bridge circuit is formed with a plurality of magnetic sensors and configured such that an output is not provided for a magnetic field component in the X direction. However, when an external magnetic field in the X direction is drawn to the magnetic field guide layer, variation of sensitivity for the X direction may occur. Thus, soft magnetic characteristics of a first portion of the magnetic field guide layer are deteriorated to decrease the magnetic permeability of the first portion. | 2015-05-14 |
20150130454 | DAMAGE DETECTING APPARATUS - A damage detecting apparatus comprises a magnetic-flux generating unit, a first magnetic-flux detecting element, a second magnetic-flux detecting element and a supporting unit. The magnetic-flux generating unit generates a magnetic flux in an object to be inspected. The first magnetic-flux detecting element is detects a magnetic flux leaking from a circumferential part of the object. The second magnetic-flux detecting element is arranged, opposing the first magnetic-flux detecting element across the object and detects a magnetic flux leaking from any other circumferential part of the object. The supporting unit supports the first and second magnetic-flux detecting elements, enabling the first and second magnetic-flux detecting elements to change in position relative to each other in a diameter direction of the object. | 2015-05-14 |
20150130455 | Magnetoresistive magnetic field gradient sensor - Disclosed is a magnetoresistive magnetic field gradient sensor, comprising a substrate, a magnetoresistive bridge and a permanent magnet respectively disposed on the substrate; the magnetoresistive bridge comprises two or more magnetoresistive arms; each magnetoresistive arm consists of one or more magnetoresistive elements; each magnetoresistive element is provided with a magnetic pinning layer; the magnetic pinning layers of all the magnetoresistive elements have the same magnetic moment direction; the permanent magnet is disposed adjacent to each magnetoresistive arm to provide a bias field, and to zero the offset of the response curve of the magnetoresistive element; the magnetoresistive gradiometer includes wire bonding pads that can be electrically interconnected using wire bonding to an ASIC or to the lead frame of a semiconductor chip package. | 2015-05-14 |
20150130456 | Optical Magnetometers - An optical magnetometer is disclosed. The device includes a cell filled with a substance that has a magnetic moment, such as an alkali metal. First and second light sources, typically diode lasers, illuminate the cell, one optically pumping the cell and one probing the cell. The two diode lasers are set to emit light at two distinct wavelengths, one set to drive a first transition and the other set to drive a second transition within the substance filling the cell. The probe laser light transiting the cell is used to modulate the frequency of the probe laser. The two beams of light are polarized with an ellipticity of at least 0.3. | 2015-05-14 |
20150130457 | MAGNETIC FIELD MEASUREMENT APPARATUS, MAGNETIC FIELD MEASUREMENT SYSTEM AND MAGNETIC FIELD MEASUREMENT METHOD - A magnetic field measurement apparatus includes a first gas cell disposed in a +z direction when seen from an object to be measured, a second gas cell disposed in the +z direction when seen from the first gas cell, a first measurement unit which measures a component of a magnetic field in the first gas cell, a second measurement unit which measures a component of a magnetic field in the second gas cell, a magnetic field generation unit which generates the magnetic field toward the second gas cell so as to reduce the component measured by the second measurement unit, and an output unit which outputs a signal in response to the difference in the components respectively measured by the first measurement unit and second measurement unit. | 2015-05-14 |
20150130458 | ANALYSIS FOR QUANTIFYING MICROSCOPIC DIFFUSION ANISOTROPY - The present invention describes a method for quantifying microscopic diffusion anisotropy and/or mean diffusivity in a material by analysis of echo attenuation curves acquired with two different gradient modulations schemes, wherein one gradient modulation scheme is based on isotropic diffusion weighting and the other gradient modulation scheme is based on non-isotropic diffusion weighting, and wherein the method comprises analyzing by comparing the signal decays of the two acquired echo attenuation curves. | 2015-05-14 |
20150130459 | SYSTEMS AND METHODS FOR ASSESSING PULMONARY GAS TRANSFER USING HYPERPOLARIZED 129XE MRI - Methods and systems for assessing pulmonary gas exchange and/or alveolar-capillary barrier status include obtaining at least one MRI image and/or image data of hyperpolarized | 2015-05-14 |
20150130460 | METHODS FOR SEPARATING OIL AND WATER ON MULTIDIMENSIONAL NUCLEAR MAGNETIC RESONANCE MAPS - Methods are provided for separating oil and water signals in multidimensional nuclear magnetic resonance (NMR) maps. In one embodiment, separate multidimensional NMR maps are provided for oil and water content. In another embodiment, an oil-water boundary and a water-gas boundary are generated on a D-T | 2015-05-14 |
20150130461 | MAGNETIC RESONANCE IMAGING APPARATUS AND OPERATING METHOD FOR THE SAME - Provided is a magnetic resonance imaging (MRI) apparatus. The MRI apparatus includes: a storage configured to store a plurality of MR signal data sets generated by applying a plurality of values of a first MR parameter and a plurality of values of a second MR parameter to an MR signal data generation model; a data acquisition unit configured to acquire an MR signal data set for a specific position of an object by undersampling an MR signal, based on the values of the first MR parameter; and an image processor configured to extract an MR signal data set that matches the MR signal data set acquired by undersampling the MR signal (hereinafter referred to as the ‘undersampled MR signal data set’) from among the stored MR signal data sets, obtain a value of the second MR parameter for the undersampled MR signal data set based on the extracted MR signal data set, and interpolate unsampled MR signal data in the undersampled MR signal data set (hereinafter, referred to as the ‘interpolated MR signal data set’) by using the value of the second MR parameter. | 2015-05-14 |
20150130462 | METHOD AND MAGNETIC RESONANCE SYSTEM TO ACQUIRE MR DATA OF A SLICE OF A VOLUME SEGMENT WITHIN AN EXAMINATION SUBJECT - In a method and a magnetic resonance system to acquire MR data of a slice of a volume segment within an examination subject, a slice selection gradient is activated along a first direction that is orthogonal to the slice. An RF excitation pulse is radiated for selective excitation of the slice, a first phase coding gradient is activated along the first direction, and a second phase coding gradient is activated along a second direction. The second direction is orthogonal to the first direction. A readout gradient is activated along a third direction that is orthogonal to the first direction and the second direction. MR data are acquired while the readout gradient is activated. A number of phase coding steps for the second phase coding gradient is determined depending on the first phase coding gradient. | 2015-05-14 |
20150130463 | PORTABLE DEVICE FOR NMR BASED ANALYSIS OF RHEOLOGICAL CHANGES IN LIQUID SAMPLES - The invention features a portable device for monitoring changes in the rheological state of multiple samples by NMR based measurement. The rheological changes can be, for example, gelation occurring during limulus amoebocyte lysate (LAL) testing for endotoxins or blood coagulation. The inventive method entails organization of individual NMR tubes in a disposable cartridge where the tubes are connected through a top cover, provided with movable actuators to push the reagent in the reagent compartments of the individual chambers to the reaction chambers in a predetermined sequence. | 2015-05-14 |
20150130464 | POWER CONVERTER FOR POWERING AN MRI GRADIENT COIL AND METHOD OF OPERATING A POWER CONVERTER - A power converter for powering a gradient coil ( | 2015-05-14 |
20150130465 | DIPOLE ARRAY ARRANGEMENT - An apparatus can be provided that can include a plurality of electric dipole antenna arrangements, and a processing arrangement configured to receive a signal(s) from the electric dipole antenna arrangements, and generate a magnetic resonance image based on the signal(s). Each of the electric dipole antenna arrangements can have at least two poles extending in opposite directions from each other. One of the poles can have a curved shape, which can bifurcate and follow two mirror symmetric S-shapes. | 2015-05-14 |
20150130466 | TEM RESONATOR SYSTEM ESPECIALLY FOR USE IN AN MRI SYSTEM - A TEM resonator system is disclosed comprising at least two TEM resonators ( | 2015-05-14 |
20150130467 | Transmission Antenna Apparatus and Magnetic Resonance Imaging Device - The transmission antenna apparatus is configured for emitting transmission magnetic fields in magnetic resonance imaging devices and includes one or more flat antennas. A magnetic resonance imaging device includes such a transmission antenna apparatus. | 2015-05-14 |
20150130468 | APPARATUS AND METHOD FOR MONITORING A FLUID - A fluid monitoring apparatus includes a housing and a tracer sensor attached to an exterior of the housing. The housing has at least one flow passage for a fluid sample and a port for the tracer sensor to monitor the fluid sample in the housing. In one example, the monitoring apparatus may include a plurality of tracer sensors attached to the housing, wherein the tracer sensors are interchangeably attached to the housing. In one embodiment, the monitoring apparatus may be attached to a first well for detecting the presence of a tracer in the first well, wherein the tracer is supplied from a second well. | 2015-05-14 |
20150130469 | ELECTRIC VEHICLE BATTERY CONTACTOR SWITCH MONITORING - Contactor switches between a multi-cell battery pack and an electric vehicle load are monitored. A main microcontroller having a chassis ground is digitally isolated from positive and negative busses of the battery pack. A battery monitoring IC having a plurality of auxiliary/thermistor A/D inputs measures respective voltages of battery cells. An evaluation switch is connected to a junction between a first contactor switch and the load. The evaluation switch is activated in response to a command received from the main microprocessor. A voltage divider is coupled between the output of the evaluation switch and the negative bus to provide a divided voltage output to one of the auxiliary/thermistor A/D inputs. The battery monitoring IC transmits a digital value representative of the divided voltage output to the main microprocessor via a serial data link, and the main microprocessor determines a state of the contactor in response to the digital value. | 2015-05-14 |
20150130470 | METHOD FOR DETERMINING A MAXIMUM VOLTAGE VALUE OF A LOAD SIGNAL BY SAMPLING - A method for determining, by sampling at a given frequency, a maximum voltage value of a load signal of at least one motor vehicle battery cell, the load signal to be sampled being rectified and sinusoidal and having a frequency that is higher than the sampling frequency, the method including: determining a sampling frequency, a measurement time at the sampling frequency, and a related inaccuracy, measuring a load voltage with the predetermined sampling frequency and with the predetermined measurement time, and determining a maximum load voltage. | 2015-05-14 |
20150130471 | ELECTRIC VEHICLE BATTERY PACK VOLTAGE MONITORING - Total voltage output by a multi-cell battery pack in an electric vehicle is monitored. A main microcontroller having a chassis ground is digitally isolated from positive and negative busses of the battery pack. A battery monitoring IC having a plurality of auxiliary/thermistor A/D inputs measures respective voltages of the battery cells. A voltage divider is selectably coupled to the positive bus by an evaluation switch under control of the main microprocessor with an auxiliary output terminal of the IC. A divided voltage is coupled to one of the auxiliary/thermistor A/D inputs. The battery monitoring IC transmits a digital value representative of the divided voltage output to the main microprocessor via the serial data link, and the main microprocessor determines the main battery voltage in response to the digital value. | 2015-05-14 |
20150130472 | THERMOELECTRIC CONDUCTIVITY MEASUREMENT INSTRUMENT OF THERMOELECTRIC DEVICE AND MEASURING METHOD OF THE SAME - Provided are a thermoelectric conductivity measurement instrument of a thermoelectric device and a measuring method of the same. The thermoelectric conductivity measurement instrument of the thermoelectric device includes a sample piece fixing module configured to provide an environment for measuring physical properties of the thermoelectric device as a sample piece and comprising an electrode part configured to provide contact points which are respectively in contact with both ends of the sample piece, and a measuring circuit module configured to provide a source AC voltage of a first frequency heating the sample piece to the electrode part, detect a first thermoelectric AC voltage of a second frequency greater than the first frequency and a second thermoelectric AC voltage of a third frequency greater than the second frequency, which are generated by a temperature change occurring at the contact points, and then obtain the thermoelectric conductivity. | 2015-05-14 |
20150130473 | Miniaturized Helium Photoionization Detector - The present invention provides an ionization detector having a base having an enclosed chamber. The enclosed chamber has a first end and a second end. The detector also includes a first outlet which is a source of an excitable medium. A second outlet is provided which functions a source of an analyte that is transported by a carrier gas. An ionization source for creating a discharge from said excitable medium is also provided. The collector electrode generates a time dependent current based on its interaction with ionized analytes from which the analyte may be detected. | 2015-05-14 |
20150130474 | APPARATUS FOR FREQUENCY ANALYZING A MEASUREMENT TARGET AND METHOD OF FREQUENCY ANALYZING A MEASUREMENT TARGET - A semiconductor device testing apparatus | 2015-05-14 |
20150130475 | Street light cable anti-theft system - A street light cable anti-theft system includes a front-end control device, a signal control device and an information processing terminal. The front-end control device is disposed within a street light control box for applying a voltage signal to a street light cable when a street light is switched off. The signal control device is installed on a lighting pole of a last street light of a public lighting circuit for detecting a voltage signal of the street light cable, determining a state of the street light cable based on the obtained voltage signal, and sending the state signal to the information processing terminal. The information processing terminal is adapted for receiving and processing the state signal sent by the signal control device. The anti-theft system has some advantages of timely obtaining the information of the cable, low maintenance cost, not being affected by power failure and high reliability. | 2015-05-14 |
20150130476 | DIRECT-CURRENT REGULATOR, DC-DC CONVERTER, AND METHOD FOR MONITORING ANOMALY OF DIRECT-CURRENT REGULATOR - A direct-current regulator includes: a fuse, a high-side switch, and a low-side switch connected in series between a high potential side input voltage terminal and a low potential side input voltage terminal; and a control unit configured to control the high-side switch and the low-side switch, wherein the fuse is formed on a silicon substrate on which the high-side switch is formed, and the fuse includes: two electrodes separately formed on the silicon substrate; a plurality of band-shaped polysilicon films formed between the two electrodes; and a linking part of a polysilicon film provided so as to connect the neighboring band-shaped polysilicon films at intermediate portions. | 2015-05-14 |
20150130477 | Reliable Arc Fault Circuit Interrupter Tester Utilizing A Dynamic Fault Voltage - An arc fault circuit interrupter test circuit is disclosed. The test circuit incorporates a controller along with at least one power transistor, a current sense circuit and a voltage sense circuit. When the power transistor is operated, the current flowing through the transistor is sensed, and if the current is not at least equal to a threshold value, the voltage at which the power transistor is operated is increased. | 2015-05-14 |
20150130478 | Method For Adapting The Sensitivity Of A Sensor System - Provided is a method for adapting the sensitivity of a sensor system, in particular of a capacitive sensor system, which provides a sensor signal, wherein
| 2015-05-14 |
20150130479 | INFORMATION PROCESSING SYSTEM, INFORMATION PROCESSING APPARATUS, AND CABLE - An information processing system includes a cable and a first information processing apparatus. The cable connects information processing apparatuses to each other. The cable includes one or more first core wires through which information is transmitted, and one or more second core wires having a shape or component associated with preset information. The first information processing apparatus measures a first parameter that is related to the second core wires and changes with the shape or component, and to identify the cable using the measured first parameter. | 2015-05-14 |
20150130480 | SYSTEM AND METHOD FOR MONITORING CHARACTERISTICS OF AN ELECTRICAL DEVICE - A remote monitoring system is presented. The system includes a sensor unit disposed in the electrical device, and configured to obtain measurement characteristics in response to a measurand of the electrical device, obtain reference characteristics insensitive to the measurand of the electrical device, and communicate the measurement characteristics and the reference characteristics using time varying electromagnetic fields. Further, the system includes a reader unit to establish a far-field communication with the sensor unit in the presence of at least one metallic interferer in the electrical device, wherein the reader unit is configured to receive the time varying electromagnetic fields associated with the measurement characteristics and the reference characteristics in response to a radio frequency signal transmitted to the sensor unit, and determine the measurand of the electrical device based on at least one property of the received time varying electromagnetic fields associated with the measurement characteristics and the reference characteristics. | 2015-05-14 |
20150130481 | ELECTROMAGNETIC WAVE SENSOR AND/OR EMITTER - Provided is a device for performing at least one of detection and emission of electromagnetic waves, including a plurality of antennas, in which a first antenna includes a first radiating element and a first electronic element electrically connected to the first radiating element, and is sensitive to a first frequency band, and in which a second antenna includes a second radiating element and a second electronic element electrically connected to the second radiating element, and is sensitive to a second frequency band. At least a part of the second radiating element is arranged inside the first radiating element. | 2015-05-14 |
20150130482 | CAPACITIVE SENSING SYSTEM AND METHOD - The invention provides a capacitive sensor circuit in which a capacitance to be sensed is selectively coupled into a ring oscillator circuit. The ring oscillator frequency is measured with the capacitance coupled and not coupled, and a capacitance is derived from the change in ring oscillator frequency. | 2015-05-14 |
20150130483 | DIFFERENTIAL AMPLIFIER DESIGN AS THE PREAMP OF DMM - An amplifying circuit comprises a differential input stage having a first input terminal, a second input terminal, and an intermediate node, wherein the differential input stage is configured to generate a differential current flowing through the intermediate node in response to an input voltage difference between the first and second input terminals. The amplifying circuit further comprises a first current source coupled to the intermediate node, which is configured to provide a first bias current which allows the differential current to vary within a predetermined range. The amplifying circuit further comprises an output terminal coupled to the intermediate node, and a second current source coupled to the intermediate node and configured to provide a second bias current. The second bias current compensates the differential current and the first bias current and produces an output current flowing through the output terminal in a predetermined direction. A measurement device is also described. | 2015-05-14 |
20150130484 | ACTIVE CURRENT MEASUREMENT CIRCUIT AND MEASUREMENT DEVICE - The current sensing circuit comprises a first input terminal and a second input terminal for introducing a subject current that flows in a current path; a shunt resistor coupled in the current path for converting the subject current into an output voltage difference across the shunt resistor; an amplifier having a first input node coupled to the first input terminal, a second input node coupled to the second input terminal, an output node, and a feedback path comprising an over-current protection device, wherein the feedback path is coupled between the output node and the first input terminal; and an output terminal coupled to the second input terminal and the shunt resistor to output the output voltage difference. The current sensing circuit has a relatively large current measuring range and a small burden voltage. A measurement device is also described. | 2015-05-14 |
20150130485 | MODULATED TEST MESSAGING FROM DEDICATED TEST CIRCUITRY TO POWER TERMINAL - The present disclosure describes a novel method and apparatus for using a device's power and ground terminals as a test and/or debug interface for the device. According to the present disclosure, messages are modulated over DC voltages applied to the power terminals of a device to input test/debug messages to the device and output test/debug messages from the device. The present disclosure advantageously allows a device to be tested and/or debugged without the device having any shared or dedicated test or debug interface terminals. | 2015-05-14 |
20150130486 | ELECTRICAL CONNECTOR PIN COVER - One embodiment includes a method for protecting from the accidental application of an electrical potential to an incorrect pin of a multipin electrical connector during testing. A sleeve is fitted around a pin that is not to have potential applied to it such that the pin is protected from accidental application of potential during testing. | 2015-05-14 |
20150130487 | INTEGRATED CIRCUIT (IC) TEST SOCKET WITH FARADAY CAGE - An integrated circuit test socket includes a highly conductive compliant material that is cut and installed into the test socket. The conductive material draws electrical charge away from the test socket, leading to more accurate testing. The test socket base is grounded, and a ground current runs through the base and into conductive strips. The configuration forms an electromagnetic impulse shield, protecting the chip from electromagnetic interference. The compliance of the shield material allows the shield to be sealed when activated, ensuring that the electromagnetic impulse shield is complete around the semi-conductor chip. | 2015-05-14 |
20150130488 | INSPECTION APPARATUS - An inspection apparatus capable of reducing the effect of noises is provided. An inspection apparatus according to the present invention includes a work table | 2015-05-14 |
20150130489 | SUBSTRATE INSPECTION APPARATUS - A probe apparatus | 2015-05-14 |
20150130490 | PROBE APPARATUS FOR TESTING CHIPS - The present invention relates to a probe apparatus for testing the quality of semiconductor chips, wherein the probe apparatus for testing chips has superior reliability and durability. The probe apparatus of the present invention comprises: a printed circuit board having a center with a through-hole; a pin holder which is attached to the front surface of the printed circuit board and which has a plurality of pinholes; a plurality of probe pins, each of which has an L-shape with a horizontal end connected to one side end of a circuit pattern formed on the printed circuit board, and a vertical end exposed outwardly from the upper surface of the pinhole; and a back cover attached to the back surface of the printed circuit board. | 2015-05-14 |
20150130491 | CABLE INTERFACE FOR COAXIAL CABLES - The invention relates to a cable interface ( | 2015-05-14 |
20150130492 | TEST CARRIER - A test carrier includes a base member that holds a die and a cover member. The base member includes a board having a wiring line that is electrically connected to the die. The wiring line includes a wiring line and a resistive portion having a resistance value that is higher than the resistance value of the wiring line. | 2015-05-14 |
20150130493 | ELECTRONIC DEVICE TESTING APPARATUS, ELECTRONIC DEVICE HOUSING APPARATUS, ELECTRONIC DEVICE RETRIEVING APPARATUS, AND ELECTRONIC DEVICE TESTING METHOD - An electronic device testing apparatus includes a housing unit which disassembles an empty test carrier and assembles the test carrier while housing an untested die in the test carrier, a test unit which tests the die housed in the test carrier, and a retrieving unit which disassembles the test carrier, retrieves the tested die from the test carrier, and reassembles the empty test carrier. | 2015-05-14 |
20150130494 | TEST CARRIER - A test carrier includes a base member and a cover member. The base member includes a multi-layer board including a wiring line that is electrically connected to a die and a base film that supports the multi-layer board. The cover member includes a frame-shaped cover frame having an opening formed therein. The size of the multi-layer board is larger than the size of the die and is smaller than the size of the opening in a direction along a surface that is opposite to the die. | 2015-05-14 |
20150130495 | Assembly For Testing Semiconductor Devices - A testing assembly for testing a plurality of semiconductor devices comprising a carrier assembly adapted to hold the plurality of semiconductor devices at predetermined locations therein that is operably connectable with a plurality of different socket assemblies. A universal socket assembly is also described. | 2015-05-14 |
20150130496 | Method For Testing Semiconductor Devices - A method of testing semiconductor devices includes placing a plurality of semiconductor devices in a carrier assembly and performing at least one testing operation on the plurality of semiconductor devices while they remain inside the carrier assembly. | 2015-05-14 |
20150130497 | Electrical Test Socket - Provided is an electrical test socket that is arranged between a terminal of a test target device and a pad of test equipment in order to electrically connect the terminal and the pad, the electrical test socket including: a socket body including a central hole at a center thereof in order to house the test target device inside; a pin connection member comprising a plurality of conductive pins that are arranged on locations corresponding to the terminal of the test target device housed in the central hole of the socket body, and whose upper end contacts the terminal of the test target device, and a housing having penetration holes into which the conductive pins are inserted to support the conductive pins; and a sheet-type connection member in which a plurality of conductive parts are arranged on locations corresponding to the conductive pins, wherein the plurality of conductive parts are arranged on a bottom portion of the pin connection member, exhibit conductivity only in a thickness direction, and are elastically deformed in the thickness direction, wherein the conductive pins have a rectangular pillar shape. | 2015-05-14 |
20150130498 | SYSTEMS FOR PROBING SEMICONDUCTOR WAFERS - A wafer probing system includes a plurality of contacting pins connected to a test head. The system further includes a probe card electrically connectable with the test head, where the probe card includes a circuit board having a plurality of contact pads on opposite sides of the circuit board. | 2015-05-14 |
20150130499 | RESISTANCE COMPONENT EXTRACTION FOR BACK CONTACT BACK JUNCTION SOLAR CELLS - Methods and structures for extracting at least one electric parametric value from a back contact solar cell having dual level metallization are provided. | 2015-05-14 |
20150130500 | Configurable Vertical Integration - The Configurable Vertical Integration [CVI] invention pertains to methods and apparatus for the enhancement of yields of 3D or stacked integrated circuits and herein referred to as a CVI Integrated Circuit [CVI IC]. The CVI methods require no testing of circuit layer components prior to their fabrication as part of a 3D integrated circuit. The CVI invention uses active circuitry to configure the CVI IC as a means to isolate or prevent the use of defective circuitry. CVI circuit configuration method can be predominately described as a large grain method. | 2015-05-14 |
20150130501 | ADJUSTABLE RESISTOR DEVICE - An adjustable resistor device includes a first pin, a second pin, a resistance-adjusting branch circuit, and a resistance display circuit. The first and second pins are configured to connect to an external circuit. The resistance-adjusting branch circuit is connected between the first pin and the second pin, and provides resistors for testing the external circuit. The resistance display circuit displays a resistance of the resistance display circuit. | 2015-05-14 |
20150130502 | CIRCUIT AND METHOD FOR DETECTING A FAULT ATTACK - A device for detecting a fault attack, including: a circuit for detecting an interruption of a power supply; a circuit for comparing the duration of said interruption with a first threshold; and a counter of the number of successive interruptions of the power supply having a duration which does not exceed the first threshold. | 2015-05-14 |
20150130503 | METHOD OF PROCESSING RECURRENT SURGE OSCILLOGRAPH DATA TO ENABLE MORE PRECISE LOCATION OF GENERATOR ROTOR INTER-TURN SHORTS AND GROUND FAULTS - A system and method for locating inter-turn short circuits or ground faults in a rotor winding of an electrical generator. The method analyzes data from a Recurrent Surge Oscillograph (RSO) test, identifies a spike or anomaly in a reflected RSO signal, determines an elapsed time between a transmitted signal and the anomaly in the reflected signal, calculates a distance along the winding conductor to the inter-turn short circuit or ground fault based on the elapsed time, and uses a geometric model of the winding conductor to identify a location of the fault based on the distance. The location of the inter-turn short circuit or ground fault specifies a coil number, a turn number within the coil and a position within the turn. | 2015-05-14 |
20150130504 | METHOD AND APPARATUS FOR OFF-LINE TESTING OF MULTI-PHASE ATERNATING CURRENT MACHINES - A method and apparatus are provided for off-line testing of a multi-phase alternating current machine. A method includes determining, at a first rotor position, a physical stator quantity of each stator winding by applying a test signal to each stator winding, and determining a first joint physical stator quantity by summing the determined physical stator quantities of the stator windings. A method includes determining, at a second rotor position, a physical stator quantity of each stator winding by applying a test signal to each stator winding, determining a second joint physical stator quantity by summing the determined physical stator quantities of the stator windings, comparing the second joint physical stator quantity with a previously determined first joint physical stator quantity, and determining a fault condition of said multi-phase alternating current machine if the first joint physical stator quantity differs from the second joint physical stator quantity. | 2015-05-14 |
20150130505 | CHARGE DISTRIBUTION CONTROL FOR SECURE SYSTEMS - Advantageous analog and/or digital logic cells and methods of powering circuit blocks using the same are provided. A digital logic cell can include a charge storage device, a logic block, and connections to a power supply. The charge storage device may be a capacitor. The capacitor or other charge storage device can be disconnected from the logic block and a power supply to discharge the capacitor, and then connected to the power supply, via the power supply connections, to charge the capacitor. The capacitor can be disconnected from a ground connection of the power supply while the capacitor is discharged. After being charged via the power supply, the capacitor can also be disconnected from the power supply (including ground) and connected to the logic block to power the logic block. | 2015-05-14 |
20150130506 | DEFENSE AGAINST COUNTERFEITING USING ANTIFUSES - A locking system for an integrated circuit (IC) chip can include an arrangement of one or more antifuse devices in a signal path of the IC chip. The antifuse devices can be configured to operate in a first state, corresponding to a normally open switch, to inhibit normal operation of the IC chip, and to transition from the first state to a permanent second state, corresponding to a closed switch, in response to a program signal applied to at least one terminal of the IC chip to enable the normal operation of the IC chip. | 2015-05-14 |
20150130507 | INTEGRATED CIRCUIT WITH CONFIGURABLE ON-DIE TERMINATION - Described are integrated-circuit die with differential receivers, the inputs of which are coupled to external signal pads. Termination legs coupled to the signal pads support multiple termination topologies. These termination legs can support adjustable impedances, capacitances, or both, which may be controlled using an integrated memory. | 2015-05-14 |
20150130508 | Non-Sequentially Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes at least fifty configurable circuits arranged in an array having a plurality of rows and a plurality of columns. Each configurable circuit for configurably performing a set of operations. At least a first configurable circuit reconfigures at a first reconfiguration rate. The first configurable circuit performs a different operation each time the first configurable circuit is reconfigured. The reconfiguration of the first configurable circuit does not follow any sequential progression through the set of operations of the first configurable circuit. | 2015-05-14 |
20150130509 | NANOELECTROMECHANICAL ANTIFUSE AND RELATED SYSTEMS - An antifuse apparatus can include a cantilever extending from a first electrode portion to terminate in a distal end. A second electrode portion can be spaced apart from the cantilever by an air gap. In response to a program voltage across the first and second electrode portions, the cantilever can be adapted to move from an unprogrammed condition, corresponding to an open circuit condition where the cantilever is spaced apart from the second electrode portion, to at least one permanent programmed condition, corresponding to a short circuit condition between the first and second electrode portions where the cantilever engages the second electrode portion. | 2015-05-14 |
20150130510 | LEAKAGE REDUCTION IN OUTPUT DRIVER CIRCUITS - An output driver circuit may include a electrically conductive medium, an output logic inverter having a first switch adapted to couple a first positive supply voltage to the electrically conductive medium and a second switch adapted to couple a ground supply voltage to the conductive medium. A first biasing network includes a first input that is coupled to the conductive medium, a second input that receives a clock signal, and a first output that is adapted to couple a second positive supply voltage to each input of the first and the second switch. Based on the second switch coupling the conductive medium to the ground supply voltage and the received clock signal generating a logic low, the biasing network reverse biases the first switch by coupling the second positive supply voltage to the respective input of the first switch causing a leakage current reduction in the first switch. | 2015-05-14 |
20150130511 | SCHEME TO IMPROVE THE PERFORMANCE AND RELIABILITY IN HIGH VOLTAGE IO CIRCUITS DESIGNED USING LOW VOLTAGE DEVICES - A high voltage input/output (IO) circuit designed using low voltage devices. The IO circuit receives a first bias voltage and a second bias voltage. The IO circuit includes a pre-reverse switch, a main-driver and a post-reverse switch. The pre-reverse switch includes a first capacitor and a second capacitor. The main-driver includes a first parasitic capacitance and a second parasitic capacitance. The post-reverse switch includes a third capacitor and a fourth capacitor. The first capacitor and the third capacitor counter an effect of coupling by the first parasitic capacitance on the first bias voltage and the second capacitor and the fourth capacitor counter an effect of coupling by the second parasitic capacitance on the second bias voltage. | 2015-05-14 |
20150130512 | Encoder - An encoder is configured for detection of rotational movement of a rotatable shaft in relation to a part of a machine, and a method is provided for generating a reference signal by an encoder. | 2015-05-14 |
20150130513 | SAMPLING DEVICE WITH TIME-INTERLEAVED OPTICAL CLOCKING - A sampling device comprising a first input port and a second input port, wherein an input-signal is fed to the first input port and wherein an optical clock signal is fed to the second input port. The sampling device comprises a plurality of track and hold units, wherein each of the plurality of track and hold units is connected to the first input port. The plurality of the track and hold units is further connected to the second input port through an optical waveguide in such a manner that the plurality of tack and hold units operate in a time-interleaved mode. | 2015-05-14 |
20150130514 | APPARATUS AND METHOD FOR COMPENSATING FOR PROCESS VARIATION IN ELECTRONIC DEVICE - An electronic device for compensating for process variation is provided. The electronic device includes a first circuit configured to consume a current supplied to the first circuit, and a second circuit configured to control the current supplied to the first circuit. The second circuit is configured to generate a signal for controlling the current supplied to the circuit based on a frequency of a pulse signal generated using a second component that is of a same kind as a first component of the first circuit. | 2015-05-14 |
20150130515 | Multi-Gate High Voltage Device - A high voltage semiconductor device, particularly a device including a number of high breakdown voltage transistors having a common drain, first well, and insulating structure between the gate and the drain as well as method for using the same is provided in this disclosure. The high breakdown voltage transistors in the device together are in an elliptical shape. A second well region, gate structure, and a source region are partially overlapping discontinuous elliptical rings having at least two discontinuities or openings in a top view. The respective discontinuities or openings define each of the high breakdown voltage transistors. | 2015-05-14 |
20150130516 | DIODE LOAD DRIVING POWER SUPPLY APPARATUS - A main rectifying/smoothing circuit is connected to one end of a secondary winding of a transformer and a plurality of rectifying/smoothing circuits are connected to a plurality of central taps of the secondary winding. The rectifying/smoothing circuits are each equipped with a switch. In a preliminary driving period, a DSP, which controls the switches, reads forward drop voltages of first to third diode loads and sets feedback gains corresponding to the forward drop voltages. The DSP controls the switches based on the set feedback gains and begins rated driving. | 2015-05-14 |
20150130517 | BIPOLAR TRANSISTOR FREQUENCY DOUBLERS AT MILLIMETER-WAVE FREQUENCIES - Frequency multipliers include a pair of transistors each connected to a common impedance through a respective collector impedance formed from a transmission line. Each transmission line has a length between about one quarter and about one eighth of a wavelength of an input signal frequency and is tuned to produce a large impedance at a collector of the respective transistor at the input signal frequency. The output frequency between the collector impedances and the common impedance is an even integer multiple of the input frequency. | 2015-05-14 |
20150130518 | AUTO FREQUENCY CALIBRATION FOR A PHASE LOCKED LOOP AND METHOD OF USE - An apparatus comprises a code generator configured to generate a coarse tuning signal and a reset signal based on a reference frequency and a phase difference signal. The apparatus also comprises a digital loop filter configured to generate a fine tuning signal based on the phase difference signal. The apparatus further comprises a voltage control oscillator configured to generate an output signal based on the coarse tuning signal and the fine tuning signal. The apparatus additionally comprises a divider configured to generate a divider frequency based on a divider control signal and the output signal. The phase difference signal is based, at least in part, on the divider frequency, and the divider is configured to be reset based on the reset signal. | 2015-05-14 |
20150130519 | METHOD AND APPARATUS FOR POWER-UP DETECTION FOR AN ELECTRICAL MONITORING CIRCUIT - A method and apparatus is provided for outputting a reset signal during power-up until two conditions are satisfied. In one embodiment, the method and apparatus includes a voltage detector that provides a first output (“VO1”) when an output voltage of a regulator (“VREG”) exceeds a threshold voltage, thereby satisfying a first condition, a comparator receiving a first input voltage and a second input voltage, the comparator providing a second output (“VO2”) when the first input voltage exceeds the second input voltage, thereby satisfying a second condition, and a release circuit that outputs the reset signal unless the voltage detector provides VO1 while the comparator provides VO2. | 2015-05-14 |
20150130520 | TIMING ADJUSTMENT CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A timing adjustment circuit includes a voltage-controlled delay line, a phase detector, a control voltage generation circuit, and a startup circuit. The voltage-controlled delay line receives an input clock signal and generates multi-phase clocks, a delay amount of each of the multi-phase clocks is changed according to a control voltage. The phase detector detects a phase difference between a first clock and a second clock, the first clock is a reference, the second clock is generated from the voltage-controlled delay line. The control voltage generation circuit generates the control voltage on the basis of the detected phase difference. The startup circuit operates for a certain period after activation, and continuously changes the control voltage between a first voltage and a second voltage. | 2015-05-14 |
20150130521 | METHOD, CIRCUIT AND SYSTEM FOR DETECTING A LOCKED STATE OF A CLOCK SYNCHRONIZATION CIRCUIT - Locked state detection circuits, devices, systems, and methods for detecting a locked or synchronized state of a clock synchronization circuit are described. Detection of a locked state includes a circuit including a phase detector configured to generate a delay adjustment signal in response to comparison of a forward path signal indicative of an external clock signal and a feedback path signal indicative of an output clock signal. The circuit further includes a trend detector operably coupled to the delay adjustment signal and configured to generate a locked signal indicative of an in-phase steady-state between the external clock signal and the output clock signal. | 2015-05-14 |
20150130522 | PHASE LOCK LOOP, VOLTAGE CONTROLLED OSCILLATOR OF THE PHASE LOCK LOOP, AND METHOD OF OPERATING THE VOLTAGE CONTROLLED OSCILLATOR - A voltage controlled oscillator (VCO) includes a sensing circuit, where the sensing circuit is configured to generate a plurality of compensation control signals. The VCO further includes a voltage-to-current converter comprising a plurality of current sources which are configured to generate a current signal in response to the plurality of compensation control signals. Additionally, the VCO includes a plurality of switching circuits, each of the plurality of switching circuits being configured to selectively enable or disable a corresponding one of the plurality of current sources in response to a corresponding one of the plurality of compensation control signals. Furthermore, the VCO includes a current controlled oscillator configured to generate an oscillating signal in response to the current signal. | 2015-05-14 |
20150130523 | FREQUENCY JITTER CIRCUIT AND METHOD - An oscillator generates a clock signal according to a voltage, a current and a capacitance, and a frequency jitter circuit and method use a random number to modulate the voltage, the current or the capacitance, or a count value to modulate the capacitance, to jitter the frequency of the clock signal. | 2015-05-14 |
20150130524 | LOW LEAKAGE RETENTION REGISTER TRAY - A particular method includes receiving a retention signal. In response to receiving the retention signal, the method includes retaining state information in a non-volatile stage of a retention register and reducing power to a volatile stage of the retention register. The non-volatile stage may be powered by an external voltage source. The volatile stage may be powered by an internal voltage source. | 2015-05-14 |