03rd week of 2015 patent applcation highlights part 22 |
Patent application number | Title | Published |
20150015141 | IGNITER-LESS POWER SUPPLY FOR XENON LAMPS IN AN ACCELERATED WEATHERING TEST APPARATUS - A power supply for use in an accelerated weathering test apparatus can ignite the lamp without using a separate igniter and control both the xenon lamp radiated spectrum and its intensity in order to fully simulate the sun's daily cycle, improve the ultraviolet output, reduce the infrared radiation, and compensate for the xenon lamp aging. | 2015-01-15 |
20150015142 | LED LIGHT BULB WITH LEDS MOUNTED ON ANGLED CIRCUIT BOARD - An LED light bulb has a lamp base for a lamp socket, a heat sink, and a globe. Within the globe on the heat sink is a printed circuit board having tabs or legs projecting from the circuit board. The tabs or legs have one or more LEDs mounted thereon and are angled relative to the circuit board so as to be directed away from the axis of the light bulb. the circuit board may either be ring-shaped with inwardly extending tabs, or may have outwardly extending tabs. Methods of making such LED light bulb and methods of distributing light from the LED light bulb, which involves directing light output by a plurality of LEDs in a plurality of radially outward directions relative to an axis of the light bulb, are also disclosed herein. | 2015-01-15 |
20150015143 | LIGHT-EMITTING-DIODE-DRIVING DEVICE, LIGHTING APPARATUS FOR VEHICLE AND VEHICLE INCLUDING THE SAME - A light-emitting-diode-driving device includes a control circuit that is configured to perform constant current control with a DC-DC converter so that a value of a current detected by a current detection unit agrees with a prescribed reference current value to be supplied to a light source. The control circuit includes a reference-current-instruction unit, a threshold-voltage-setting unit, and a comparator circuit. The reference-current-instruction unit is configured to set the prescribed reference current value. The threshold-voltage-setting unit is configured to set a threshold voltage for determining a short circuit failure in the light source. The comparator circuit is configured to compare, with the threshold voltage, a value of a voltage that is detected by a voltage detection unit. The control circuit is configured to make the threshold-voltage-setting unit reduce the threshold voltage, when the reference-current-instruction unit reduces the prescribed reference current value. | 2015-01-15 |
20150015144 | HIGH EFFICIENCY CERAMIC LAMP - Embodiments provide a ceramic metal halide (CMH) lamp and methods for making the same that provide or achieve, during lamp operation, a correlated color temperature (CCT) greater than 5000 K, a color rendering index (CRI) of 85 or greater, a lumen maintenance percentage (LM %) greater than 90%, and a life of at least 15,000 hours. | 2015-01-15 |
20150015145 | HANDHELD DEVICE FOR CONTROLLING SETTINGS OF A LIGHTING FIXTURE - A handheld device having a communication interface configured to wirelessly communicate with a plurality of lighting fixtures and control circuitry is described. In one embodiment, the circuitry is configured to effect selection of a first lighting fixture in a first group of lighting fixtures via the communication interface; identify the first group of lighting fixtures based on information from the first lighting fixture; determine new settings for the first group of lighting fixtures; and send the new settings to each of the first group of lighting fixtures via the communication interface, wherein the first group of lighting fixtures includes a defined plurality of lighting fixtures that are associated to operate in a coordinated manner. | 2015-01-15 |
20150015146 | IMAGE DISPLAY DEVICE AND CONTROL METHOD THEREOF - An image display device including: a light-emitting unit; a display panel including color filters of a plurality of colors and pixels corresponding to the respective color filters; a sensor which detects light from the light-emitting unit and light incident from outside; an acquisition unit configured to acquire, in a state where the display panel is controlled so that, relative to transmittance of pixels of one color among the plurality of colors, transmittance of pixels of colors other than the one color becomes smaller, a detection value that is output from the sensor; and a determination unit configured to determine an irradiation condition of external light based on the detection value of each color of the plurality of colors acquired by the acquisition unit. | 2015-01-15 |
20150015147 | Illumination Devices and Related Systems and Methods - Illumination devices and related systems and methods are disclosed that can be used for LCD (Liquid Crystal Display) backlights, LED lamps, or other applications. The illumination devices can include a photo detector, such as a photodiode or an LED or other light detecting device, and one or more LEDs of different colors. A related method can be implemented using these illumination devices to maintain precise color produced by the blended emissions from such LEDs. One application for the illumination devices is backlighting for FSC (Field Sequential Color) LCDs (Liquid Crystal Displays). FSC LCDs temporally mix the colors in an image by sequentially loading the red, green, and blue pixel data of an image in the panel and flashing the different colors of an RGB backlight. Precise and uniform color temperature across such a display can be advantageously maintained by continually monitoring ratios of photodiode currents induced by the different colored LEDs in each illumination device as each color is flashed. | 2015-01-15 |
20150015148 | LED BACKLIGHT SYSTEM AND DISPLAY DEVICE - The present invention discloses an LED backlight system and a display device. The LED backlight system includes an LED display module and an LED backlight control circuit. The LED display module includes LED string. The LED backlight control circuit includes a current module, a comparison unit, a control switch unit, and an impedance unit wherein, an input terminal of the comparison unit obtains a voltage at a negative terminal of the LED string, and when the voltage at the negative terminal is greater than a preset threshold voltage, the comparison unit controls the control switch unit to turn on such that the impedance unit connects in parallel with the current module so as to decrease the voltage at the negative terminal. Through above way, the present invention can prevent the unstability of the circuit loop in order to prevent the flicker phenomenon of the backlight system. | 2015-01-15 |
20150015149 | LED Control Method and Apparatus - An LED control circuit designed for providing stable voltage to LED loads, which is comprised of a bridge rectifier connected with the power supply, at least one LED branch circuit comprised of LED control units in series connection with a current-regulating element. Each LED control unit is comprised of a zener diode parallelly connected with LED working elements made of an LED and a serially connected current limiting resistor. The forward voltage drop of the zener diode closely approximates the desired working voltage of the LED loads, and thus each LED control unit plays the role of a voltage regulator. When voltage of an LED control unit is below the stabilized voltage of the zener diode, the brightness of LED is continuously adjustable. When an LED branch circuit is put under the control of a constant current control module, the current flowing through each LED can be stabilized. | 2015-01-15 |
20150015150 | LIGHT EMITTING DIODE (LED) LAMP REPLACEMENT DRIVER FOR LINEAR FLUORESCENT LAMPS - Provided is a driver circuit including an input port configured for coupling to a ballast and a transformer having a first side coupled to the input port. The driver circuit also includes a rectifier having an input portion coupled to a second side of the transformer and an output portion configured for coupling to a light source. The transformer is configured to match output characteristics of the ballast to input characteristics of the light source. | 2015-01-15 |
20150015151 | Lighting Circuit and Luminaire - A lighting circuit include a connecting section connected to a light source module to thereby form at least a first path and a second path, a power supplying section connected to the connecting section and capable of supplying first direct-current power and second direct-current power to the light source module, a detecting section configured to detect the connection of the light source module, and a control section configured to determine, when the detecting section detects the connection of the light source module, whether the light source module is connected to the first path or the second path and, when determining that the light source module is connected to the first path, cause the power supplying section to supply the first direct-current power and, when determining that the light source module is connected to the second path, cause the power supplying section to supply the second direct-current power. | 2015-01-15 |
20150015152 | LIGHTING DRIVER AND HOUSING HAVING INTERNAL ELECTROMAGNETIC SHIELDING LAYER CONFIGURED FOR DIRECT CONNECTION TO CIRCUIT GROUND - An apparatus ( | 2015-01-15 |
20150015153 | CIRCUIT AND METHOD FOR DRIVING LED LAMP WITH A DIMMER - A driver circuit for an LED (light-emitting diode) lamp includes a transformer having a primary winding and a secondary winding, a dimmer circuit coupled to a power source for varying an input voltage to the primary winding, and an output rectifying circuit coupled to the secondary winding for providing an output current to the LED lamp. The driver circuit also includes a controller coupled to the dimmer circuit to receive an average input voltage signal (DIM) from the dimmer circuit. The controller is configured to vary the output current according to the average input voltage. | 2015-01-15 |
20150015154 | LIGHT-EMITTING DIODE LIGHT TUBE DRIVING CIRCUIT - A light-emitting diode (LED) light tube driving circuit includes a LED driver and a rectifier unit. The LED driver is configured for receiving an operating voltage to drive at least one LED. The rectifier unit has a first input/output terminal and a second input/output terminal and is electrically coupled to an external alternating-current power source selectively by the first input/output terminal and the second input/output terminal. The rectifier unit is configured for providing the operating voltage to the LED driver. The rectifier unit further includes a first rectifier diode and a second rectifier diode. | 2015-01-15 |
20150015155 | ELECTRONIC DEVICE FOR DRIVING LIGHT EMITTING DIODES - The present invention relates to an electronic device for driving a light emitting diode, which includes a switch (Ts) being adapted to switch a switch-mode power converter, and controlling means (CNTL) being adapted for controlling the switch (Ts) in response to a sensing value (Vs) indicative of a current of the switch-mode power converter and for controlling by the switch (Ts) the output voltage of the switched power converter and a current (Tout) through the light emitting diode. | 2015-01-15 |
20150015156 | SIGNAL TRANSMISSION METHOD AND RELATED DEVICE - A method of operating an electrical power supply device having a primary side and a secondary side is provided. The method includes transmitting with an optocoupler arranged between the primary side and the secondary side a wide band control signal and a numerical information signal. The method further includes transmitting the control signal and the information signal over a rectangular-wave signal modulated in combination with frequency modulation and pulse width modulation. The control signal and the information signal are the modulating signals for frequency modulation and pulse width modulation of said rectangular-wave signal. | 2015-01-15 |
20150015157 | LCD Display, a Driving Device for Driving the LCD display, and a Driving Method for Driving the LCD Display - The present invention discloses an LCD display and related driving device and driving method. The driving method includes: obtaining an accumulated working time of the LCD display; obtaining a high reference voltage corresponding to the accumulated working time; utilizing the high reference voltage to drive the LCD display; making a multiplying product of a transmittance and a backlight magnitude of the LCD display remain equal or proximity. The present invention suppresses the backlight magnitude decrease phenomenon due to the long-used term of the LCD display such that the display quality can be improved. | 2015-01-15 |
20150015158 | APPARATUSES FOR BLEEDING CURRENT FROM A TRANSFORMER OF A SOLID-STATE LIGHT EMITTING DIODE - A system configured to provide current to power a solid-state light emitting diode in accordance with a dimming level, wherein the dimming level corresponds to an amount of light provided from the solid-state light emitting diode. The system includes a transformer and a switch. The transformer includes a coil. The transformer is configured to receive a first current. The coil is configured to, based on the first current, output a second current to power the solid-state light emitting diode. The switch is configured to, based on a dimming level that corresponds to the amount of light provided from the solid-state light emitting diode of the system, bleed a portion of the second current out of the coil to a ground reference in order to divert the portion of the second current from being supplied to the solid-state light emitting diode. | 2015-01-15 |
20150015159 | LED DRIVER CAPABLE OF REGULATING POWER DISSIPATION AND LED LIGHTING APPARATUS USING SAME - An LED driver having one end coupled with an LED module and another end coupled to a ground, being capable of generating a duty current and a duty in response to a dropout voltage across the LED driver in a way that, the duty current will increase and the duty will decrease when the dropout voltage exceeds a first threshold, and the duty current will decrease and the duty will increase when the dropout voltage falls below a second threshold. | 2015-01-15 |
20150015160 | CONVERTER DEVICE - A converter, for feeding a load via an inductor with a current having a controlled intensity between a maximum and a minimum level, includes a switch to permit or prevent, respectively, current towards said inductor, a first current sensor sensitive to the current flowing through switch when the switch is on, a second current sensor sensitive to the current flowing through said inductor when the switch is off, drive circuitry to turn the switch off and on upon receiving a first and a second logic signal, respectively, and comparison circuitry coupled to the first and the second current sensors to generate first and the second logic signals when, respectively: the current intensity detected by the first current sensor is offset a given amount with respect to the maximum level, and the current intensity detected by the second current sensor is offset a given amount with respect to the minimum level. | 2015-01-15 |
20150015161 | MEDICAL LIGHT-SOURCE DEVICE - A medical light-source device for securing a long illumination time required for operations in the medical field, has an LED illumination section including an LED element; a holder to put the LED illumination section on a head of the operator; a battery power supply section that supplies power to the LED illumination section; a charger having an AC adaptor capable of being connected to a commercial power supply for charging the battery power supply section; and a battery holding belt to put the battery power supply section and the charger on the body of the operator. The battery holding belt has a switch section to switch on/off the LED illumination section and to adjust intensity of illumination of the LED element; and a control section to control a constant current, which is associated with the intensity of illumination, supplied to the LED illumination section. | 2015-01-15 |
20150015162 | LIGHTING DEVICE - A trigger-signal-output part sets a burst time cycle to a time period N (integer of two or more) times as long as a constant first cycle, and outputs a trigger signal M (positive integer of N or less) times during an operation period so as to synchronize it with the first cycle, and does not output the trigger signal during a stop period except the operation period of the burst time cycle. Alternatively, a trigger-signal-output part sets a burst time cycle to a time period N times as long as an output cycle of a trigger signal in an operation period, and sets the operation period to a time period M times as long as the output cycle, and sets a stop period except the operation period of the burst time cycle to a time period generated by multiplying the output cycle by a difference between N and M. | 2015-01-15 |
20150015163 | Dual-Purpose Lamp - Disclosed is a dual-purpose lamp, which comprises a power-converting module, a light-emitting module and a control unit. The power-converting module is used for generating a direct current. The light-emitting module is electrically connected with the power-converting module, the light-emitting module comprises an illuminative light-emitting body and a scenario light-emitting body, and the illuminative light-emitting body and the scenario light-emitting body are connected with each other in parallel. The control unit is electrically connected with the power-converting module and is used for controlling the power-converting module so as to adjust the brightness of the illuminative light-emitting body when light is emitted, or to adjust the color, the brightness or the chroma of the scenario light-emitting body when light is emitted. | 2015-01-15 |
20150015164 | LIGHT-EMITTING DIODE LIGHTING DEVICE HAVING MULTIPLE DRIVING STAGES - An LED lighting device includes multiple driving stages. A first driving stage includes a first luminescent device driven by a first current, a second luminescent device driven by a second current, a path-controller for conducting a third current, a first current controller for regulating the first current, and a second current controller for regulating the second current. The second driving stage includes a third current controller coupled in series to the first driving stage and configured to conduct and regulate a fourth current. When the path-controller is turned off, the third current is zero, and the fourth current is equal to the sum of the first current and the second current. When the path-controller is turned on, the first current, the second current, the third current and the fourth current is equal. | 2015-01-15 |
20150015165 | METHODS AND APPARATUS FOR CONFIGURATION OF CONTROL DEVICES - Methods and apparatus for configuration of a physical control panel ( | 2015-01-15 |
20150015166 | FIELD EMISSION CATHODE AND FIELD EMISSION LIGHT USING THE SAME - A field emission cathode comprises at least one electron emitting parcel, and at least one ion absorbing parcel each being electrically connected with each of the at least one electron emitting parcel. The electron emitting parcel includes a first substrate and a nano emission component disposed on the first substrate for emitting electrons in an electric field. The ion absorbing parcel is constituted by a second substrate, in which the electric conductivity of the first substrate is less than that of the second substrate. A field emission light comprises the said field emission cathode, a field emission anode and a power supply. Thus the positive ions in an electric field can be absorbed by ion absorbing parcels to suppress an ion bombardment in the electric field. The efficiency of the electric field of the field emission is then maintained, and the lifetime of the field emission light is enhanced. | 2015-01-15 |
20150015167 | SELF-SHIELDED VERTICAL PROTON-LINEAR ACCELERATOR FOR PROTON-THERAPY - A linear proton accelerator includes a plurality of accelerator components arranged after one another, and a proton source and a plurality of accelerating units. The accelerator further includes a reticular support structure for supporting the accelerator components. The support structure is shaped as a prism with a polygonal cross-section, and has a plurality of side faces joining opposite ends of the prism. The support structure is arranged concentrically with respect to the accelerator components. | 2015-01-15 |
20150015168 | VEHICULAR DRIVING SYSTEM - A vehicular driving system includes a rotating electric machine, an inverter and a controller. The rotating electric machine is constantly connected to an axle shaft. The inverter has an upper-arm device and a lower-arm device corresponding to each of three phases of the rotating electric machine. The inverter is configured to perform electric power conversion between a DC power supply and the rotating electric machine and to supply three-phase AC power to the rotating electric machine. The controller is configured to perform an operation to reduce a rotational speed of the rotating electric machine when a short-circuit fault occurs to the inverter. | 2015-01-15 |
20150015169 | ONBOARD MOTOR CONTROLLER - There is provided an onboard motor controller that starts a failsafe process in short time at a vehicle collision. A control circuit in the motor controller acquires an acceleration detected by an acceleration sensor. When the acceleration is equal to or higher than a prescribed value, the control circuit determines that a collision of the vehicle has occurred, and executes a switching process of a control mode of a motor. The control circuit immediately switches the control mode of a motor from voltage phase control to current vector control when the collision is detected. The control circuit reads current values from current detectors. When an overcurrent is detected, the control circuit executes a failsafe process to turn off the MOSFETs of an inverter. The control circuit stops a supply of electricity to the inverter by turning off a power supply relay, thereby stopping the rotation of the motor. | 2015-01-15 |
20150015170 | Method and Apparatus for Determining Position for a Permanent Magnet Elevator Motor - A system for determining the angular position of a synchronous motor includes an encoder with a friction wheel engaging a rotating surface of the motor. The friction wheel is spun by the rotation of the motor, and the encoder generates a signal corresponding to the angular position of the friction wheel. An independent, sensor is provided to generate a pulse once per revolution of the motor. The independent sensor detects the presence of a target on the rotating surface of the motor and generates the pulse when the target is proximate to the sensor. A controller receives the signal corresponding to the angular position of the friction wheel as well as the pulse generated by the independent sensor to determine the angular position of the motor. The controller compensates the angular position of the motor each time the pulse is generated, correcting accumulated position error. | 2015-01-15 |
20150015171 | APPARATUS FOR CARRYING OUT IMPROVED CONTROL OF ROTARY MACHINE - In an apparatus for controlling a variable of a rotary machine based on an AC voltage supplied to the rotary machine via a switching element of a power converter, a generator generates a drive signal including an on-off pattern of the switching element. A driver drives, based on the on-off pattern of the drive signal, the switching element. A parameter monitor monitors a parameter indicative of change of a harmonic current flowing in the rotary machine based on a harmonic voltage included in the AC voltage. A limiter limits, based on the parameter monitored by the parameter detector, generation of the drive signal by the generator to limit an increase of a level of the harmonic current. | 2015-01-15 |
20150015172 | MOTOR CONTROLLER - The present invention relates to a motor controller which includes a motor; an oscillator for generating a clock signal; a speed detection unit for detecting the rotational speed of the motor from a pulse signal generated according to the rotation of the motor and the clock signal; and a sampling period determination unit for determining a sampling period by compensating an error generated in the oscillator and provides an useful effect that can precisely control the rotational speed of the motor in spite of the error of the oscillator. | 2015-01-15 |
20150015173 | MOTOR CONTROL DEVICE - A motor control device includes a model control system that controls a motor machine model position using a target value (a position instruction after differentiation) related to a position instruction, and a feedback control system that controls a motor position using the target value (a position instruction after differentiation) related to the position instruction and an amount of control (model position) of the model control system. The feedback control system controls the motor position using the amount of control (model position) of the model control system at all times. | 2015-01-15 |
20150015174 | ACTIVE-ACTIVE REDUNDANT MOTOR GEAR SYSTEM - A fault tolerant virtual elliptical electric motor has at least four coil elements constrained in a stator case. A drive plate is supported by a fulcrum for nutating motion and has at least four core segments each associated with a respective one of the at least four coil elements for attraction upon activation. A control processor provides independent current control to each of the at least four coil elements for activation responsive to a received position command and a received wobble angle input, inducing the at least four coil elements to operate in a pure torque sum configuration upon the drive plate. | 2015-01-15 |
20150015175 | POSITION DETECTING APPARATUS AND DRIVING SYSTEM - The position detecting apparatus includes a comparing part that compares the value of the digital signal output from the AD converter and a reference value that is based on a preset reference amplitude at the timings and outputs a control signal responsive to a result of the comparison. The position detecting apparatus includes an amplitude controlling part that controls amplification factors of the first amplifier and the second amplifier in such a manner that the value of the digital signal output from the AD converter comes closer to the reference value in response to the control signal output from the comparing part. | 2015-01-15 |
20150015176 | DIGITAL-TO-ANALOG SINUSOIDAL DRIVER APPARATUS, SYSTEMS AND METHODS - Input codes are sequenced at a lower-resolution linear DAC and the output is converted to a linear current waveform. A first of two interconnected analog current multipliers multiplies the linear current by itself and by the inverse of a first constant current source to create a quadratic current output. A second current multiplier multiplies the quadratic output current by the linear current and by the inverse of a second constant current source to generate a cubic current output. The quadratic and cubic currents are subtracted from the linear current to generate an approximation of the first 180 degrees of a sine wave current. Alternate (pi to 2*pi) positive-going one-half sine waves may be polarity reversed to create a complete positive-going and negative-going sine-shaped electrical current of higher resolution than is available from a sine DAC of resolution equivalent to that of the lower-resolution linear DAC. | 2015-01-15 |
20150015177 | DYNAMIC MIXED-MODE CURRENT DECAY APPARATUS AND METHODS - Stepper motor winding current regulation methods and apparatus continuously and bi-directionally sense winding current to determine both the magnitude of the winding current and the slope of a waveform representing the winding current. The magnitude and slope information is used to more precisely control periods of current rise and characteristics of fast and slow current decay during pulse-width modulation (“PWM”) regulation cycles. Winding current rise and decay shaping is based upon the sensed magnitude of the winding current, the magnitude of the winding current regulation set-point ITRIP, whether the sensed winding current is greater than or less than ITRIP at a selected sampling time, whether the sensed winding current is increasing or decreasing when a waveform of the sensed winding current crosses over ITRIP, and whether or not the magnitude of ITRIP changes during a PWM cycle in response to a receipt of a subsequent DAC code. | 2015-01-15 |
20150015178 | METHOD AND APPARATUS FOR MONITORING AND CONTROLLING A SYNCHRONOUS ELECTRIC MACHINE - Controlling a synchronous electric machine includes determining a rotor field current of a wound rotor of the synchronous electric machine and determining a time-rate change in field flux linkage. A rotor field voltage is determined based upon the time-rate change in the field flux linkage, and a rotor field resistance is determined based upon the rotor field voltage and the rotor field current. A rotor temperature is determined based upon the rotor field resistance. Operation of the synchronous electric machine is controlled responsive to a torque command and the rotor temperature. | 2015-01-15 |
20150015179 | CHARGE POWER CONTROL APPARATUS, CHARGE POWER CONTROL METHOD, PROGRAM, AND SOLAR POWER GENERATION SYSTEM - The present disclosure relates to a charge power control apparatus, a charge power control method, a program, and a solar power generation system, for improving charge efficiency. A solar power generation system includes a solar panel that receives sunlight to generate power, a PV power conditioner that performs DC/AC conversion of the power generated by the solar panel, and a charging AC/DC converter that performs AC/DC conversion of power output from the PV power conditioner and charges a storage battery. Voltage of the power supplied to the PV power conditioner from the solar panel is acquired while the power supplied from a power system is stopped, and a change in power supplied to the PV power conditioner from the solar panel is obtained according to the voltage. Charge power that is output from the charging AC/DC converter to charge the storage battery is adjusted based on the change in voltage. | 2015-01-15 |
20150015180 | Portable Power Charger with Wireless and Direct Charging Connectivity - A portable charger is provided for charging one or more electronic devices from a rechargeable internal battery. The portable charger includes wireless power transmission components, such as a transmitter and a receiver for recharging the charger as well as electronic devices via wireless power transmission methods. The portable charger also includes at least one power connection for connecting the charger with an external power source, or at least one electronic device, or both, for direct charge connectivity. The power connection can be a power connection port or a power connector cable, attached to the charger housing, each capable of acting as a power input, a power output, or both. A processing unit controls operation of the charger for wireless and direct charging. | 2015-01-15 |
20150015181 | DC/DC CONVERTER - In a DC/DC converter for bidirectional power transmission, a first switching circuit is connected between a first winding of a high-frequency transformer and a DC power supply, and a second switching circuit is connected between a second winding and a battery. In the first and second switching circuits, capacitors are connected in parallel to semiconductor switching devices, and first and second reactors are connected on AC input/output lines. Upon power transmission, the switching circuit on the primary side of the high-frequency transformer performs zero voltage switching, and the switching circuit on the secondary side performs a step-up operation by using the reactor. | 2015-01-15 |
20150015182 | SYSTEM AND METHOD FOR CHARGING MOBILE DEVICES AT A VENUE - Systems and methods for charging mobile devices are described, embodiments of the systems including: a base station; and a plurality of satellite charging units; each of the satellite charging units include a rechargeable power supply which can be recharged by the base station; each of the satellite units are arranged to recharge mobile devices by way of transferring charge from their power supply to the mobile device. | 2015-01-15 |
20150015183 | BATTERY ELECTRIC VEHICLE JUMPER CABLE AND JUMP STARTING METHOD - A battery electric vehicle jumper cable includes a first battery electric vehicle electrical plug adapted for connection to a standard charging port interface on a first battery electric vehicle; a second battery electric vehicle electrical plug adapted for connection to a standard charging port interface on a second battery electric vehicle; and an electrical cable establishing electrical communication between the first battery electric vehicle electrical plug and the second battery electric vehicle electrical plug. An electrical power transfer system for battery electric vehicles and a battery electric vehicle jump starting method are also disclosed. | 2015-01-15 |
20150015184 | USB CHARGING CIRCUIT - A USB charging circuit includes a mating hub module including a USB input port for the connection of an external computer and a USB main hub control circuit electrically connected to the USB input port, a power supply module including a power supply device and a synchronization/charge mode switching circuit for detecting the power signal output of the USB input port and outputting a corresponding mode judgment signal, and one or multiple output control units each including a USB charging control circuit electrically connected to the USB main hub control circuit, the power supply device and the synchronization/charge mode switching circuit to receive the outputted data signal, power supply and mode judgment signal and a USB output port for receiving the outputted data signal and power supply from the USB charging control circuit so that connected portable electronic devices can be charged or receive data synchronously. | 2015-01-15 |
20150015185 | Cut-off Structure of a Charger - A cut-off structure of a charger contains a power supply unit and a cutting-off set. The power supply unit includes a voltage converting portion, a connector member, and an extension cord connecting with the voltage converting portion and the connector member. The voltage converting portion has a transforming coil for transforming mains electricity into a charging voltage. The cutting-off set includes a controlling head, a control switch, and a control wire coupling with the controlling head and the control switch. The control switch is fixed on the connector member, and the voltage converting portion is disposed on the controlling head. After removing the connector member, the mains electricity cannot conduct to the power supply unit via the controlling head. After the connector member is inserted to an electronic device, the control switch is triggered so that the relay circuit conducts with a mains power cable. | 2015-01-15 |
20150015186 | USB CHARGER FOR ELECTRONIC CIGARETTES - A USB charger for electronic cigarettes, comprising a USB interface configured for connecting with a power supply and a load end configured for connecting with a load, wherein, the USB charger for electronic cigarettes further comprises a voltage comparison unit, a benchmark circuit, a sampling circuit, a current detecting element, a state indicating unit, and a low voltage difference linear regulator connected between the USB interface and the load end; the benchmark circuit is connected between an input end of the low voltage difference linear regulator and an input end of the voltage comparison unit; and the state indicating unit is connected with an output end of the voltage comparison unit; the USB charger for electronic cigarettes of the present invention achieves advantages effects of being safer and improving users' experiences. | 2015-01-15 |
20150015187 | CONTROL CIRCUIT AND METHOD FOR ELECTRONIC CIGARETTE BOX - A control circuit and method for use with an electronic cigarette box, the control circuit includes a charge management module, an inner battery, a control module, a voltage booster, a batter voltage detective module, a load detective module and an indicative module. According to received signals form the battery voltage detective module, the load detective module and the charge management module, the control module control the voltage booster adjusting a charge voltage supplied from the inner battery and outputting a voltage to charge a charge load, and the control module further control the indicative module displaying a charge state. The control circuit provides indications of various operation states or breakdown states, various charge interfaces, functions of detecting load and protection for inner battery and circuits. | 2015-01-15 |
20150015188 | POWER SUPPLY SYSTEM AND POWER RECEIVING FACILITY - A power supply system includes: a vehicle; a power cable; and a distribution board configured to be capable of exchanging electric power with an electric power system and the power cable. The distribution board includes: an operation unit operated by a user to select one of a first mode in which the electric power system and the vehicle are interconnected with each other and a second mode in which the electric power system is disconnected from the vehicle and electric power is exchanged between the vehicle and a house; and a switching circuit that switches a source of supply for a receptacle, to which an electrical load is connected, between the electric power system and the power cable and switches the communication line, in accordance with the operation on the operation unit. | 2015-01-15 |
20150015189 | PORTABLE POWER SOURCE PROVIDING SUPPORT BY NOTCH - A portable power source includes a housing and a support member. The housing has a power supply module. The support member includes a main body detachably mounted in the housing and the housing has the appearance of being notched when the support member is inserted therein. A notch is defined on the main body to provide support for the electronic device for viewing or other purposes. | 2015-01-15 |
20150015190 | ELECTRICAL LOAD MANAGEMENT SYSTEM AND METHOD - A load management system provides an interface between a power input and several switched power outputs and un-switched power outputs. A controller groups the switched power outputs into one or more load groups based on a switched current limit determined for the system and the measured currents of the electrical loads. The load groups are defined so that the sum of electrical load currents in each load group does not exceed the switched current limit. The controller also activates one or more switches to apply electrical power to the load groups according to a power sequence. A method for distributing electrical power to electrical loads using load groups is also provided. | 2015-01-15 |
20150015191 | CHARGER FOR BLOCKING STANDBY POWER AND METHOD OF CONTROLLING SAME - The present invention discloses a charger ( | 2015-01-15 |
20150015192 | WIRELESS TRACKING POCKET-FORMING - The present disclosure describes a wireless tracking system for tracking the location of living beings or objects. This wireless tracking system may operate by using the wireless power transmission methodology which may include one transmitter and at least one or more receivers, being the transmitter the source of energy and the receiver the device that is desired to charge or power. Receivers and transmitters may include communications components to communicate between each other. Communication components may utilize wireless protocols which may have a unique identifier. The unique identifier may allow mapping, store and uploading information of devices a database located in public or private cloud-based service. A user may be able to access to information stored in database using user credentials, being able to access from any suitable device and place. Other elements may be adapted to wireless tracking system for obtaining more complete information about living beings or objects. | 2015-01-15 |
20150015193 | VEHICLE POSITIONING SYSTEM FOR WIRELESS CHARGING STATIONS - A system for positioning a vehicle over a wireless charging station. The system includes a plurality of ultra wideband transceivers (UWBX) installed on the vehicle and the wireless charging station, and a controller configured to determine various distances between the various UWBXs. | 2015-01-15 |
20150015194 | WIRELESS CHARGING AND POWERING OF ELECTRONIC DEVICES IN A VEHICLE - Configurations and methods of wireless power transmission for charging or powering one or more electronic devices inside a vehicle are disclosed. A transmitter capable of single or multiple pocket-forming may be connected to a car lighter, where this transmitter may include a circuitry module and an antenna array integrated within the transmitter, or operatively connected through a cable. This cable may allow the positioning of the antenna array in different locations inside the vehicle suitable for directing RF waves or pockets of energy towards one or more electronic devices. Transmitter's configuration can be accessed by one or more electronic devices through Bluetooth communication in order to set up charging or powering priorities. | 2015-01-15 |
20150015195 | PORTABLE WIRELESS CHARGING PAD - The present disclosure provides a method and apparatus for improved wireless charging pads for charging and/or powering electronic devices. Such pads may not require a power chord for connecting to a main power supply, for example a wall outlet. In contrast, power may be delivered wireless to the foregoing pads through pocket-forming. A transmitter connected to a power source may deliver pockets of energy to the pads which through at least one embedded receiver may convert such pockets of energy to power. Lastly, the pads may power and/or charge electronic devices through suitable wireless power transmission techniques such as magnetic induction, electrodynamics induction or pocket-forming. | 2015-01-15 |
20150015196 | Personal Wireless Charging System - The present disclosure provides wireless personal electronic charging systems including a personal storage item including a storage location for a portable electronic device, the personal storage item further includes a power section including a wireless induction charger receiver and a system battery configured to receive and store power from the wireless induction charger receiver. The personal storage item further includes a connector in electrical communication with the power section and, when a portable electronic device including a device battery is located within the storage location, in electrical communication with the device battery, wherein the connector transfers power from the power section to the device battery when the connector is connected to the portable electronic device. | 2015-01-15 |
20150015197 | DOUBLE-SIDED LCC COMPENSATION METHOD FOR WIRELESS POWER TRANSFER - A double-sided LCC compensation network and a tuning method are proposed for a wireless power transfer system. With the proposed topology, the resonant frequency is independent of coupling coefficient and load conditions. The parameter values are tuned to realize zero voltage switching (ZVS) for the sending side switches. A wireless charging system with up to 7.7 kW output power was designed and built using the proposed topology and achieved 96% efficiency from DC power source to battery load. | 2015-01-15 |
20150015198 | WIRELESS CHARGING DEVICE AND METHOD FOR CONTROLLING WIRELESS CHARGING - A wireless charging device ( | 2015-01-15 |
20150015199 | Apparatus for Inductive Power Transmission - Apparatus for inductively transmitting power, which apparatus comprises a primary unit with a primary coil and a secondary unit with a secondary coil, and in which the primary coil induces a magnetic transmission field in a transmission area between the primary unit and the secondary unit, and which has an even number of detector coil elements which are wound in opposite directions in pairs and form a detector pair. | 2015-01-15 |
20150015200 | ADD-ON COMMUNICATION APPARATUS ATTACHED TO CABLE INSTALLMENT TYPE CHARGING CONTROL DEVICE - An add-on communication apparatus is attached to cable installment type charging control device integrally attached to an electric vehicle charging cable assembly. A wireless communication unit wirelessly communicates with a terminal device. An infrared light receiving diode receives an infrared light having a digital pattern representing an attachment check response signal and receives an infrared light having a digital pattern representing electric vehicle charging related information from the cable installment type charging control device. An attachment check unit checks whether the add-on communication device is attached to the cable installment type charging control device on the basis of the first digital pattern. The attachment check unit changes a state of the add-on communication device on the basis of whether the add-on communication device is attached to the cable installment type charging control device. | 2015-01-15 |
20150015201 | CHARGING DEVICE ASSEMBLY FOR ELECTRIC VEHICLE - Provided is a charging device assembly for an electric vehicle. The assembly includes a cable connecting the electric vehicle to a power supply unit, a charge control device coupled with the cable, a main bracket, to which the charge control device is attached to be detachable, and an ad-on communication device couplable with the main bracket. Herein, the charge control device includes an ad-on communication unit for wireless short-distance communication. The ad-on communication device includes a charge control device communication unit for wireless short-distance communication with the charge control device and a terminal communication unit for wireless communication with a terminal displaying one of charging operation and state of the electric vehicle. | 2015-01-15 |
20150015202 | CHARGER FOR ELECTRIC VEHICLE - Provided is a charger for an electric vehicle. The charger for an electric vehicle includes a light emitting unit displaying charging operation information of the charger, a communication unit performing near-field wireless communication with an external device, a guide guiding visible light of the light emitting unit, and a control unit controlling operations of the light emitting unit and the communication unit. The guide includes a reflective layer surrounding a portion of the outside of the guide to reflect the visible light toward the inside of the guide. | 2015-01-15 |
20150015203 | POWER RECEIVING CONNECTOR, CHARGING SYSTEM AND COMMUNICATION SYSTEM - Provided a power receiving connector and a charging system that, during a communication such as inband communication wherein a communication signal is superposed in a control wire incorporated in a charging cable connecting a vehicle and a feed device, can reduce the mutual effect resulting from electromagnetic waves caused by the communication signal transmitted within the vehicle and a device in the vehicle. A power receiving connector to be placed as a vehicle-mounted feeding port is formed by integrating connection terminals, internal wirings, a superposition separation element, and a capacitor with a housing as a replaceable unit. | 2015-01-15 |
20150015204 | DETACHABLY INTEGRATED BATTERY CHARGER FOR MOBILE CELL PHONES AND LIKE DEVICES - A cell phone charger comprises a main body having embedded therein a charging circuit configured to receive line AC voltage and to convert it to a DC voltage suitable for charging the mobile device. AC prongs fold into the body in a stowed position and a connection structure formed integrally with the main body grasps onto and holds the charger secured to the cell phone device. In a preferred embodiment, the AC prongs pivot independently and lie flat against an outside surface of the main body. In a further embodiment, the AC prongs are concealed by a cover plate in their stowed position. | 2015-01-15 |
20150015205 | Charger, Battery Pack Charging System and Cordless Power Tool System - A charger ( | 2015-01-15 |
20150015206 | ELECTRICAL CHARGING/DISCHARGING CONTROLLER, CHARGING CONTROL METHOD, DISCHARGING CONTROL METHOD, AND PROGRAM - A peak cut power calculation unit calculates peak cut power transmittable to an overhead wire as power exhibiting monotonic non-increase with respect to a resistance value of the overhead wire between a vehicle and a substation. In addition, a peak cut unit controls electrical charging/discharging of a rechargeable battery with power of a difference between load power and transmission peak cut power when the load power is equal to or more than the peak cut power. | 2015-01-15 |
20150015207 | ELECTRIC AUTOMOBILE AND DISCHARGING DEVICE THEREOF - A discharging apparatus for an electric vehicle and an electric vehicle are provided. The discharging apparatus comprises: an AC charging interface; a charging connection device, having a first terminal connected with the AC charging interface and a second terminal connected with an exterior equipment, and configured to transmit an AC output from the AC charging interface to the exterior equipment; an instrument, configured to send a discharging preparation instruction; a controller, configured to detect whether the charging connection device is connected with the AC charging interface, and if yes, to switch to an external discharging mode; a battery manager, configured to control an external discharging circuit in a high-voltage distribution box of the electric vehicle to be connected after the controller switches to the external discharging mode; a power battery, connected with the high-voltage distribution box and configured to provide a DC via the external discharging circuit. | 2015-01-15 |
20150015208 | DISCHARGE CONTROL DEVICE, DISCHARGE CONTROL METHOD AND COMPUTER READABLE MEDIUM - A discharge control device for controlling discharge in an energy storage device disposed in an electric apparatus, wherein the discharge control device includes a first determination unit adapted to determine whether or not an electric apparatus's status is being outside a predetermined first range and a discharge controller adapted to start discharge in the energy storage device, when the first determination unit determines that the status of the electric apparatus is being outside the first range. | 2015-01-15 |
20150015209 | SYSTEM AND METHODS FOR CURRENT BALANCING - A battery module includes: a battery pack including multiple cells; control circuits corresponding to the cells, each control circuit including a control unit for managing the corresponding cell and a compensation unit for generating a corresponding compensation current such that the sum of the corresponding consumed current and the corresponding compensation current is equal to a target total current, where the control circuits include a first control circuit and a second control circuit, where the first control circuit includes a first control unit operating with a first consumed current, the second control circuit includes a second control unit operating with a second consumed current, and where the first control circuit conditionally generates a first compensation current and the second control circuit conditionally generates a second compensation current based on a comparison of the first consumed current and the second consumed current. | 2015-01-15 |
20150015210 | VOLTAGE-ENHANCED ENERGY STORAGE DEVICES - The present disclosure provides an energy storage device comprising at least one electrochemical cell comprising a negative current collector, a negative electrode in electrical communication with the negative current collector, an electrolyte in electrical communication with the negative electrode, a positive electrode in electrical communication with the electrolyte and a positive current collector in electrical communication with the positive electrode. The negative electrode comprises an alkali metal. Upon discharge, the electrolyte provides charged species of the alkali metal. The positive electrode can include a Group IIIA, IVA, VA and VIA of the periodic table of the elements, or a transition metal (e.g., Group 12 element). | 2015-01-15 |
20150015211 | ADD-ON COMMUNICATION APPARATUS ATTACHED TO CABLE INSTALLMENT TYPE CHARGING CONTROL DEVICE - An add-on communication device attached to a cable installment type charging control device attached to a cable assembly for charging an electric vehicle is disclosed. The add-on communication device includes a first communication unit wirelessly communicating with a terminal device, a second communication unit wirelessly communicating with the cable installment type charging control device, and a control unit. The control unit receives a command from the terminal device through the first communication unit, creates a first control command on the basis on the command, and transmits the first control command to the cable installment type charging control device through the second communication unit. | 2015-01-15 |
20150015212 | CAPACITIVE WELDER AND METHOD FOR CHARGING SAME - The capacitive welder includes a charging circuit, a welding transformer, a capacitor, a discharging switching element connected in parallel with a primary winding of the welding transformer and the capacitor that are connected in series, a bypass switching element connected in parallel with the primary winding, welding electrodes connected in parallel with a secondary winding of the welding transformer, and a control circuit for bringing the welding transformer into a reset allowing state by allowing a reset current to flow in the primary winding using the input power introduced through the charging circuit without supplying an ON signal to the bypass switching element, and then supplying the ON signal to the bypass switching element such that the capacitor is charged through the bypass switching element by the input power introduced through the charging circuit. | 2015-01-15 |
20150015213 | FREQUENCY RESPONSIVE CHARGING SYSTEM AND METHOD - In some embodiments, the present invention includes the use of one or more electric power supply system, or systems, and the electric vehicle, or vehicles, connected thereto, to provide load-based utility grid frequency regulation by varying the amount of power drawn by the vehicle or vehicles. | 2015-01-15 |
20150015214 | ACTIVE VIBRATION DAMPING USING ALTERNATOR - A method of performing active vibration damping in a front end accessory drive (FEAD) system of an automobile using an alternator of the FEAD system and an alternator are described. The method includes determining a resonance to be counteracted, determining a counteracting forcing function to counteract the resonance, and determining a duty cycle change to apply to a field voltage to obtain an output voltage with the counteracting forcing function, wherein the field voltage results in a field current supplied to a rotor that causes a stator to generate the output voltage. The method also includes implementing the duty cycle change for a period of time. | 2015-01-15 |
20150015215 | VOLTAGE REGULATOR, UNDER-VOLTAGE PROTECTION CIRCUIT THEREOF AND VOLTAGE REGULATION SYSTEM - A voltage regulator coupled between a batteryless alternator and a ground includes an under-voltage detection circuit and an exciting current regulating unit. The under-voltage protection circuit includes a voltage detection unit, a plurality of switching circuits, and a power switch. The voltage detection unit generates a first control signal according to an output voltage of the batteryless alternator. The switching circuits are connected in series and controlled by the first control signal. The power switch is coupled to one of the switching circuits and a rotor coil of the batteryless alternator. The exciting current regulating unit controls the operation of the power switch according to the output voltage of the batteryless alternator. The voltage detection unit detects whether the output voltage is lower than a threshold and selectively cuts off the power switch by sequentially controlling the operations of the switching circuits according to the detection result. | 2015-01-15 |
20150015216 | THREE-PHASE POWER CONVERSION WITH POWER FACTOR CORRECTION OPERATIONAL DAY AND NIGHT - System and method for controlling power factor correction (PFC) for three-phase AC power conveyed via a three-phase AC power grid. Currents and voltages on the grid are monitored and used to generate waveform data enabling dynamic control of switching circuitry used in controlling one or more phase offsets between the currents and voltages. | 2015-01-15 |
20150015217 | METHOD FOR OPERATING A POWER FACTOR CORRECTION CIRCUIT - A method for operating a power factor correction circuit is provided which may include the steps of providing a plurality of N switched-mode converter circuits each comprising an nth inductor, where N is at least 2, starting a switching pulse for the nth switched-mode converter circuit when the following conditions are fulfilled: the nth inductor of the nth switched-mode converter circuit has a predefined magnetization state; and a predefined time period has elapsed since the start of a switching pulse for an mth switched-mode converter circuit, where m=n−1 in case n>1 and m=N in case n=1. The predefined time period is a predefined fraction of the time period from the start of a previous switching pulse for the nth switched-mode converter circuit to a time when the nth inductor of the nth switched-mode converter circuit has the predefined magnetization state. | 2015-01-15 |
20150015218 | ADJUSTING DEVICE OF AN OUTPUT VOLTAGE OF A SWITCH POWER SUPPLY, AN ADJUSTING METHOD THEREOF AND AN INTEGRATED CHIP - An adjusting device of an output voltage of a switch power supply and an adjusting method are provided. The adjusting device includes a potential setting module generating a high level signal and an adjustor being connected to the potential setting module to receive the high level signal. The adjustor includes a signal emitting module and a comparison module. The signal emitting module emits a pulse drive signal to the switch power supply when receiving the high level signal. The switch power supply automatically adjusts the output voltage when receiving the pulse drive signal. The comparison module reads the output voltage, compares with a preset voltage, and adjusts the output voltage according to a comparison result. The switch power supply can stop the automatic adjustment when an output level of a switch port of the switch power supply is inverted. An integrated chip is also provided. | 2015-01-15 |
20150015219 | DC/DC CONVERTER - A DC/DC converter comprises: inductors L provided for respective channels; switching circuits provided for the respective channels; and a controller configured to change the number of channels to be activated, i.e., K, according to an amount of a load current I | 2015-01-15 |
20150015220 | CONTROL FOR SWITCHING BETWEEN PWM AND PFM OPERATION IN A BUCK CONVERTER - Mode control circuitry is disclosed for use in a buck switching voltage regulator capable of operating in a pulse width modulation (PWM) mode and a pulse frequency modulation (PFM) mode, with the regulator including an inductor having first and second opposite inductor terminals, a first transistor switch connected between the first inductor terminal and a power input terminal and a second transistor switch connected between the first inductor terminal and a circuit common. Current sensing circuitry is provided to sense inductor current through the second switching transistor when the second switching transistor is switched to an ON state and to produce a current sense signal which is integrated over time starting when the second switching transistor is switched to an ON state and to produce a sense signal. The mode switching circuitry switches between the PWM and PFM modes in response to the sense signal. | 2015-01-15 |
20150015221 | SYSTEMS FOR CONTROLLING HIGH FREQUENCY VOLTAGE MODE SWITCHING REGULATORS - A circuit for controlling a switching regulator is provided. The circuit includes a first input to receive a feedback signal from the switching regulator proportional to an output voltage of the switching regulator, a second input to receive a voltage reference signal, an output to be coupled to an input of the switching regulator, an error amplifier having a first input terminal coupled to the first input to receive the feedback signal, a second input terminal coupled to the second input to receive the voltage reference signal, and an output terminal coupled to the output, and a compensation network coupled between the second input and the output. The compensation network includes a series combination of a first capacitance and a first resistance coupled between the second input and a node, a second resistance coupled between the node and the output, and a second capacitance coupled to the node. | 2015-01-15 |
20150015222 | LOW DROPOUT VOLTAGE REGULATOR - Voltage regulators are disclosed herein. An embodiment of a voltage regulator includes a MOS-type pass transistor, wherein a first node of the pass transistor is connectable to a voltage source and wherein a second node of the pass transistor is connected to the output of the voltage regulator. The voltage regulator also includes an error amplifier having a reference input and an output, the output being connected to the gate of the pass transistor, and the reference input being connected to a reference voltage source. | 2015-01-15 |
20150015223 | Low Dropout Regulator and Related Method - A device includes an error amplifier, a standby current source, a charging current source, a voltage divider, and a first switch. The error amplifier has a negative input terminal and a positive input terminal. The standby current source has a control terminal electrically connected to an output terminal of the error amplifier. The voltage divider has an input terminal electrically connected to an output terminal of the standby current source, and an output terminal electrically connected to the positive input terminal of the error amplifier. The charging current source has a control terminal electrically connected to the output terminal of the error amplifier. The first switch has a first terminal electrically connected to an input terminal of the charging current source, and a second terminal electrically connected to a first power supply node. | 2015-01-15 |
20150015224 | POWER SUPPLY CIRCUIT - A power supply circuit includes a transistor disposed between an input terminal to which an input voltage is applied and an output terminal to which an output voltage is applied, and an error amplifier configured to compare a feedback voltage varied based on the output voltage and a reference voltage, and control the transistor based on a result of the comparison, the reference voltage being generated by selectively using the input voltage or the output voltage. | 2015-01-15 |
20150015225 | MULTI-PHASE BUCK DC CONVERTER - A multi-phrase buck DC converter comprise a plurality of storage inductors, a plurality of low-side switches, a first input capacitor, a second input capacitor, a plurality of high-side switches and at least one clamping capacitor. The storage inductors are used to drive a load. The low-side switches are connected to the storage inductors; respectively. The second input capacitor is connected to the first input capacitor in series. The contact of the first input capacitor and the second input capacitor is connected to one storage inductor. A part of the high-side switches are connected in series. One end of each clamping capacitor is connected to any two high-side switches connected in series and the other end is connected to the storage inductors. | 2015-01-15 |
20150015226 | Current Driver Circuit - A current driver circuit includes a converter part having a switching element and converting an input voltage into an output voltage; a current detector which generates a detection signal indicative of the current of the switching element; an input voltage compensating circuit which generates a compensation signal corresponding to the input voltage; a comparator which compares the detection signal and the compensation signal against each other; and a switch driver circuit which generates a drive signal. The drive signal turns the switching element off in accordance with an output of the comparator, and turns the switching element on again after a lapse of a prescribed time from the switching element being turned off. | 2015-01-15 |
20150015227 | BOOST CONVERTER CIRCUIT AND DRIVE CONTROL MODULE THEREOF - A boost converter and a drive control module thereof are provided. The boost converter includes a inductor, a power switch, a PWM control circuit and the drive control module. The inductor is coupled between the input terminal and the output terminal. The power switch is coupled between a inductor and a ground end. The PWM control circuit is provided to provide the PWM control signal to the gate of the power switch to control the conducting state of the power switch, and the conversion output voltage at the second end. Based on the current load state of the boost converter in operation, the drive control module outputs the gate electronic potential signal to the PWM control circuit according to the input voltage or the conversion output voltage, and the PWM control circuit adjusts the voltage amplitude of the PWM control signal correspondingly. | 2015-01-15 |
20150015228 | CONTROL DEVICE, DIGITAL CONTROL POWER SUPPLY, AND CONTROL METHOD - In a digital control power supply, a mode control unit measures a first frequency and a second frequency for a difference between a second digital value and a target value. Based on the measured first frequency and second frequency and a predetermined threshold set to the first and second frequencies, the mode control unit determines whether an amplification factor for use in amplification processing by an amplifier is maintained at a current amplification factor or is changed to an amplification factor which is larger or smaller by 1 than the current amplification factor. This contributes to an improvement in noise resistance of the digital control power supply and prevents an output voltage from being unstable. | 2015-01-15 |
20150015229 | SEMICONDUCTOR INTEGRATED CIRCUIT - A feedback loop, which feedbacks information of an output voltage or a load current, is provided. The feedback loop has a first mode, which digitalizes and feedbacks the information of the current voltage or the load current, and a second mode, which feedbacks the information as an analog value. | 2015-01-15 |
20150015230 | ELECTRONIC DEVICE AND SWITCHING CIRCUIT CAPABLE OF SWITCHING BETWEEN POWER-SAVING MODE AND NORMAL MODE - An electronic device includes a power-saving mode and a normal mode. When a mechanical button is in a first position, a main control chip outputs a logic high pulse to a switch connected to a voltage converter, such that the switch is turned on, and the voltage converter is disabled. The electronic device accordingly enters the power-saving mode because power from an external power source cannot be converted to a work voltage of the electronic device via the voltage converter. When the mechanical button is in a second position, the main control chip outputs a logic low pulse to the switch, such that the switch is turned on, and the voltage converter is enabled. The electronic device accordingly enters the normal mode because power from the external power source can be converted to the work voltage of the electronic device via the voltage converter. | 2015-01-15 |
20150015231 | Capacitive Positioning Device - A locating appliance for a capacitive detection of an object encloses in a medium. The locating appliance comprises a measurement electrode such that a first alternating current flows from the measurement electrode into the medium. The locating appliance further comprises a reception electrode where the measurement electrode forms a measurement capacitance with the reception electrode, where the measurement capacitance is based at least in part on the object. The locating appliance further comprises a reference electrode such that the reference electrode forms a reference capacitance with the reception electrode, where the reference capacitance is not based on the object. The locating appliance further comprises a first opposing electrode that is configured to introduce a first alternating current in the medium. The absolute value of the second alternating current corresponds to an absolute value of the first alternating current and is in antiphase with the second alternating current. | 2015-01-15 |
20150015232 | APPARATUS AND METHOD FOR MEASURING REAL TIME CLOCK ACCURACY IN AN ELECTRICITY METER - An arrangement for measuring an internal clock within an electricity meter includes an optical communication circuit within the meter, an optical detector external to the meter, and a frequency counter. The optical communication circuit within the electricity meter is operably coupled to receive a pulse output of the meter's internal clock, and is further configured to generate a corresponding optical pulse representative of the pulse output. The optical detector is configured to detect the pulse output via an optical port of the electricity meter. The frequency counter is operably coupled to receive from the optical detector a signal that is representative of the detected pulse output. | 2015-01-15 |
20150015233 | TRACKING ENERGY CONSUMPTION USING A BUCK-BOOSTING TECHNIQUE - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant width ON-time. | 2015-01-15 |
20150015234 | CONTACT VOLTAGE DETECTION SYSTEM AND METHOD - An electrical safety system and associated method may be used on an electrical enclosure containing phase to phase and phase to ground electricity. The system includes a volt meter having a probe and a receptacle having a number of ports adapted to receive the probe of the volt meter. The receptacle is mounted to a panel, cabinet or enclosure having at least one conducting wire therein. The method allows a worker to use a contact voltage detector to check for the presence or absence of voltage inside the closed electrical panel. | 2015-01-15 |
20150015235 | Method and Device for Measuring Current at a Converter - In a method and device for measuring current at a converter, the prevailing phase current is determined at the output of the converter by current-measuring devices, in order to supply it to a closed-loop control device assigned to the converter. The prevailing phase current to be ascertained at an output of the converter is measured independently at two current-measuring devices, and the measuring results of both current-measuring devices are utilized to determine the prevailing phase current. | 2015-01-15 |
20150015236 | CONSUMER CONSUMPTION MONITORING SYSTEM - A consumer consumption monitoring system includes a plurality of measurement devices disposed in corresponding supply paths of coupled consumer devices located within a building. A network node circuit coupled to the plurality of measurement devices retrieves measurement data from the plurality of measurement devices, and stores and analyzes the measurement data over time to develop one or more consumer device consumption profiles. | 2015-01-15 |
20150015237 | MICROWAVE ABLATION ANTENNA RADIATION DETECTOR - A radiation detector disposed on a microwave antenna assembly is disclosed. The radiation detector includes a receiving antenna adapted to receive errant microwave energy and a rectifier coupled to the receiving antenna that is adapted to rectify at least a portion of the errant microwave energy. A filter is coupled to the rectifier and is adapted to convert the rectified microwave energy into a detection signal. | 2015-01-15 |
20150015238 | Measurement System Utilizing a Frequency-Dithered Local Oscillator - An improved receiver system may include an input to receive an input signal, and a signal generating circuit to generate a desired oscillator signal that is a single sideband radio frequency signal of time varying frequency. The receiver may also include a downconversion stage to generate an intermediate frequency (IF) signal based on the input signal and the desired oscillator signal. A signal processing block in the receiver may be used to produce an output signal based on the IF signal by frequency shifting the IF signal by an amount that compensates for the time varying frequency of the desired oscillator signal. The desired oscillator signal may be generated using a vector signal generator that receives a control value from the signal processing block, converts the control value to a pair of analog input signals, and generates the desired oscillator signal by quadrature modulating the pair of analog input signals. | 2015-01-15 |
20150015239 | APPARATUS AND METHOD FOR REAL TIME HARMONIC SPECTRAL ANALYZER - In one embodiment, a measuring device may comprise two oscillators. The first oscillator may generate a local reference signal in a frequency detector to detect a fundamental frequency of the AC. The second oscillator may generate two substantially mutually orthogonal sinusoid signals having the selected frequency. The measuring device further may comprise a first group of multipliers that mixes the two sinusoid signals with a current and a voltage data signal of the AC respectively, a group of low-pass filters for removing high frequency components from the multiplication products, a second group of multipliers for mixing the filtered multiplication produces respectively, and a plurality of adders each to sum together a pair of multiplication products of the second group of multipliers. | 2015-01-15 |
20150015240 | METHOD OF DETECTING IRREGULAR CURRENT FLOW IN AN INTEGRATED CIRCUIT DEVICE AND APPARATUS THEREFOR - A method of detecting irregular high current flow within an integrated circuit (IC) device is described. The method comprises obtaining infrared (IR) emission information for the IC device, identifying at least one functional component within the IC device comprising a high current flow, based at least partly on the obtained IR emission information, obtaining IR emission information for at least one reference component within the IC device, and determining whether the high current flow of the at least one functional component comprises an irregular high current flow based at least partly on a comparison of respective IR emission information for the at least one functional component and the at least one reference component. | 2015-01-15 |