Entries |
Document | Title | Date |
20080265859 | ELECTRONIC DEVICE FOR CONTROLLED FAILURE - A selectively protected electrical system includes or operates with a power source, a load, a power driver circuit for controllably transferring power from the power source to the load, the power driver circuit being encapsulated in a potting material, and a controller for enabling and disabling the power driver circuit, the controller being un-encapsulated by the potting material. If a contaminant induced electrical fault occurs in the selectively protected electrical system, the electrical fault is more likely to occur in the un-encapsulated controller, such that the selectively protected electrical system is disabled. The contaminant is inhibited from contacting and inducing an electrical fault in the power driver circuit, thus providing for a controlled failure of the selectively protected electrical system. | 10-30-2008 |
20090001956 | POWERED DEVICE INCLUDING A MULTI-USE DETECTION RESISTOR - In a particular embodiment, a method includes receiving a powered device (PD) detection signal at a PD from a powered network and applying the PD detection signal to an external resistor to provide a detection signature to the powered network. Further, the method includes receiving a PD classification mark signal at the PD, applying the received PD classification mark signal to the external resistor, and selectively activating a classification mark current path in parallel with the external resistor to produce a classification mark signature. | 01-01-2009 |
20090085548 | CONVERTER CIRCUIT AND METHOD FOR OPERATING SUCH A CONVERTER CIRCUIT - A converter circuit is specified in which, in order to avoid losses to the greatest possible extent, a first inductance is connected in series into the connection of a DC voltage source of the converter circuit to a first switch of the converter circuit, and in which, moreover, a second inductance is connected in series into the connection of a second switch of a switching group of the converter circuit to the junction point between a second capacitive energy store and a second unidirectional non-drivable power semiconductor switch of the switching group. Two further alternative converter circuits and also a method for operating the converter circuit are furthermore specified. | 04-02-2009 |
20090167279 | DC Power Converter and Mode-Switching Method - A DC converter and a mode-switching method used in an electronic apparatus are included. The electronic apparatus includes a subsystem circuit. The DC power converter comprises a first voltage converting circuit electrically connected to the subsystem circuit, receiving a system voltage and a first reference voltage, and converting the system voltage to a first output voltage based on the first reference voltage; and a second voltage converting circuit electrically connected to the subsystem circuit and receiving the system voltage and a second reference voltage, and converting the system voltage to a second output voltage to the same output end of the first voltage converting circuit based on the second reference voltage; wherein the second voltage converting circuit outputs the second output voltage to the subsystem circuit when the first output voltage at the output end is smaller than a threshold. | 07-02-2009 |
20090201004 | HIGH-FREQUENCY POWER SUPPLY CIRCUIT - [Problems] To accurately regulate output of a high-frequency power with a simple configuration. | 08-13-2009 |
20090219006 | Electric power converter - An electric power converter facilitates performing soft switching in the two-way electric-power-conversion operation thereof, and reducing the manufacturing costs thereof and the losses caused therein, The electric power converter includes a first switching device; a second switching device; a first series circuit including capacitor, a diode, the primary winding of transformer, and a third switching device; a second series circuit including a capacitor, a fourth switching device, the primary winding of transformer, and a diode; a third series circuit including a diode and the secondary winding of transformer; and a voltage clamping element connected in parallel to the primary winding of transformer. The first series circuit is connected in parallel to the first switching device, and the second series circuit is connected in parallel to second switching device. The third series circuit is connected between the DC output terminals. | 09-03-2009 |
20090251121 | METHOD AND APPARATUS PROVIDING FINAL TEST AND TRIMMING FOR A POWER SUPPLY CONTROLLER - A power supply controller having final test and trim circuitry. In one embodiment, a power supply controller for switched mode power supply includes a selector circuit, a trim circuit, a shutdown circuit and a disable circuit. The trim circuit includes a programmable circuit connection that can be selected by the selector circuit by toggling a voltage on an external terminal such as for example a power supply terminal, a control terminal or a function terminal of the power supply controller. The programmable circuit connection in the trim circuit can be programmed by applying a programming voltage to the external terminal. The shutdown circuit shuts down the power supply controller if the temperature rises above an over temperature threshold voltage. The shutdown circuit includes adjustment circuitry that can be used to test the shutdown circuit. The adjustment circuitry can adjust and reduce the over temperature threshold of the power supply controller. Thus, the power supply controller can be tested without having to actually heat the part. The disable circuit includes a programmable circuit connection, which when programmed prevents further trimming of power supply controller and prevents adjustment of the shutdown circuit over temperature threshold. | 10-08-2009 |
20100001708 | Paralleling Voltage Regulators - Circuits and methods for paralleling voltage regulators are provided. Improved current sharing and regulation characteristics are obtained by coupling control terminals of the voltage regulators together which results in precise output voltages and proportional current production. Distributing current generation among multiple paralleled voltage regulators improves heat dissipation and thereby reduces the likelihood that the current produced by the voltage regulators will be temperature limited. | 01-07-2010 |
20100033155 | POWER SUPPLY FOR IGBT/FET DRIVERS - A power supply for IGBT/FET drivers ( | 02-11-2010 |
20100045257 | SUPPLY CIRCUIT FOR A MOTOR DISPOSING OF AN ELEMENT PROVIDING FOR POWER SWITCHING, A PROTECTION AGAINST POLARITY INVERSION AND AN ELEMENT FOR LIMITING THE INRUSH CURRENT OF A CAPACITIVE ELEMENT - Supply circuit ( | 02-25-2010 |
20100045258 | DEDICATED POWER SUPPLY APPARATUS, TERMINAL, POWER SUPPLY SYSTEM, AND POWER SUPPLY METHOD - A dedicated power supply apparatus includes a regulator that receives power from an external power source, two signal lines to which the regulator is connected, and two resistors, each placed between the regulator and an associated one of the two signal lines. | 02-25-2010 |
20100052642 | SYSTEM AND METHOD FOR USING A PHY'S DISCOVERY OF CABLE SHIELDING FOR POWER OVER ETHERNET CURRENT CAPACITY SETTING AND TEMPERATURE DE-RATING - A system and method for using a physical layer device's discovery of cable shielding for PoE current capacity setting and temperature de-rating. Headroom in a particular cable installation is increased when it is determined that the physical layer device is coupled to a shielded cable, which more effectively removes heat from a bundled cable. By the determination of the type of cabling, the current capable of being carried over the cable can be increased and/or the temperature de-rating decreased due to the removal of limitations of worst-case cable assumptions. | 03-04-2010 |
20100244806 | AUTARKES FELDGERAT ORDER AUTARKER FUNKADAPTER FUREIN FELDGERAT DER AUTOMATISIERUNGSTECHNIK - The invention relates to an autarkic field device or an autarkic radio adapter ( | 09-30-2010 |
20100264897 | VOLTAGE CONTROL FOR ELECTRIC POWER SYSTEMS - A limitation of the interaction between cascaded tap changers and/or between a tap changer and a shunt compensator independently of any real-time communication between the respective controllers is disclosed. Coordinated voltage control in distribution networks can be achieved by an adaptive updating or tuning of control parameters DB | 10-21-2010 |
20100283446 | DEVICE AND METHOD FOR CONTROLLING DC BIAS OF RF DISCHARGE SYSTEM - The present invention provides a device and a method for controlling a DC bias of a RF discharge system. Said device comprises a DC bias detection module ( | 11-11-2010 |
20100283447 | MULTILAYER INDUCTOR AND POWER CONVERTER COMPRISING IT - A multilayer inductor comprising a coil embedded in a magnetic portion, and a magnetic gap formed by a non-magnetic portion in part of a magnetic path, the magnetic portion being made of Ni ferrite, whose relative temperature coefficient αμ | 11-11-2010 |
20100301829 | BATTERY POWER SUPPLY FOR RADIOFREQUENCY TRANSMITTER - The invention relates to a power supply device for an RF transmitter ( | 12-02-2010 |
20100308787 | APPARATUS AND METHOD FOR PULSE SAMPLING CONTROL - The present invention proposes a hot surface igniter (HSI) controller which is transformerless and which is capable of delivering power from a 120/240 VAC RMS mains voltage, for example, to a load whose nominal operational voltage is equivalent to 24 VAC RMS, for example, sinusoidal full wave AC Voltage. The controller provides an impulse range which is mainly designed to deliver power to hot surface igniter active loads with sufficient thermionic inertia and mass, and where the real voltage shape of supplied power is unimportant. This is achieved by supplying half-cycle pulses to the HIS that are separated by even number of half-cycles that are not supplied to the HIS. Thus the consecutively applied half-cycles are always of opposing polarity. | 12-09-2010 |
20110012579 | POWER CONVERTER, DEVICE AND METHOD FOR INTERLEAVING CONTROLLING POWER FACTOR CORRECTION CIRCUITS - A Power Converter, a device, and a method for interleaving controlling Power Factor Correction (PFC) circuits are disclosed. The Power Converter includes a first bridge arm unit, a second bridge arm unit, and a capacitor. The upper side of the first bridge arm unit and the upper side of the second bridge arm unit are connected with the first end of the capacitor, and the lower side of the first bridge arm unit and the lower side of the second bridge arm unit are connected with the second end of the capacitor. The first bridge arm unit includes two diodes or switches series-connected in the same direction, and the joint of the two diodes or switches is connected with the first end of the power supply. The second bridge arm unit includes two switches series-connected in the same direction and one inductor, and the first end of the inductor is connected with the joint of the two switches, while the second end of the inductor is connected with the second end of the power supply. Thus, the utilization of the inductor is improved. | 01-20-2011 |
20110012580 | Electronic Leakage Reduction Techniques - Electronic leakage reduction techniques are provided, whereby an electrical outlet with a programmable computing unit is programmed to detect the current, resistance, power or pattern of current, resistance or power of an attached appliance in the on position and/or off position. Among other aspects, the electrical outlet with a programmable computing unit delivers a selected voltage below the original operational voltage and/or delivers voltage at particular durations for particular intervals to the appliance in the off position and compares detected current, resistance, power or pattern of current, resistance or power to programmed levels associated with the appliance in the on position and/or off position. If any or some of those characteristics match those programmed associated with the appliance in the on position, or fail to match those programmed associated with the off position by a set confidence interval, original operational voltage is provided to the appliance. | 01-20-2011 |
20110043183 | FIELD INSTRUMENT - A current control element (variable resistance element) is provided on a supply path of the current from a voltage regulator to another voltage regulator. An alarm driving circuit is provided on a branch flow path of the current from the voltage regulator to the voltage regulator. When the alarm driving circuit needs to be operated, a current control element controlling unit controls the resistance value of the current control element to branch the current flowing through the supply path to the branch flow path. In this case, the current branched to the branch flow path is set to the amount required to operate the alarm driving circuit. Since the sum of the currents is supplied to the voltage regulator and is the same as the current flowing before the alarm driving circuit is activated, there is no shortage of supplied power to a CPU. | 02-24-2011 |
20110062933 | FULL CYCLE AC POWER CONTROL - A method includes selectively applying full cycles of AC power to a load. The cycles may have first and second states such as full on and full off states. The cycles may be arranged in groups in a pattern. The pattern may have a length that is shorter than a perceptible response time of the load. Different patterns may be used for different power levels. | 03-17-2011 |
20110062934 | Circuit Board, Method for Determining a Current Space Vector, Converter, Circuit Board and Series of Converters - In circuit board for a converter, including control electronics, the circuit board includes a device for current detection, the device respectively having at least two measuring amplifier circuits, only the output of one of the measuring amplifier circuits being supplied as the detected current value to the control electronics of the converter. | 03-17-2011 |
20110074378 | Multiphase Power Converters, Controllers and Control Methods - A method of controlling a multiphase power converter including a plurality of sub-converters coupled to provide power to a load is disclosed. Each sub-converter includes a power switch. The method includes selectively and consistently turning on the power switch of one or more of the sub-converters at substantially a same time as a reference signal representing a desired output of the power converter increases. The method further includes selectively and consistently turning off the power switch of one or more of the sub-converters at substantially a same time as the reference signal representing the desired output of the power converter decreases. Other methods, multiphase power converters and controllers for multiphase power converters are also disclosed. | 03-31-2011 |
20110074379 | DC-DC CONVERTER - A DC-DC converter including a power supply supplying direct current (DC) to an inductor, a switching device controlling the supply of DC from the power supply to the inductor by switching between a conductive state and a disconnected state according to a modulation signal, a signal output device generating the modulation signal for increasing or decreasing a period of the conductive state of the switching device, wherein the signal output device increases or decreases a duty ratio of the modulation signal to increase or decrease the period of the conductive state of the switching device, and a delay device controlling an increase of a duty ratio of the modulation signal, wherein the signal output device outputs the modulation signal with the controlled duty ratio to the switching device, thereby delaying the switching device from reaching a conductive state in which the duty ratio is a value of 1. | 03-31-2011 |
20110127986 | Time-Shared Digital Power Controller - Methods and systems for providing electrical power, including determining a plurality of fine power duty cycles according to a respective plurality of power values, and generating the respective plurality of power values using a time-shared pulse-width modulator (PWM), the time-shared PWM being configured to be modulated at the respective plurality of fine duty power cycles during a respective plurality of time slots. | 06-02-2011 |
20110140680 | APPARATUS AND METHOD FOR EXTRACTING MAXIMUM POWER FROM SOLAR CELL - An apparatus and method for extracting maximum power from a solar cell are provided. The apparatus includes a solar cell for producing power from solar energy, a maximum power extractor for generating a pulse width modulation signal for extracting the maximum power from the solar cell, and a DC-DC converter for adjusting an amount of current generated from the solar cell according to the pulse width modulation signal. | 06-16-2011 |
20110148385 | SELECTIVELY ACTIVATED THREE-STATE CHARGE PUMP - This document discusses, among other things, a device for providing a DC output voltage, including a first output voltage and a second output voltage, from an input voltage. The device can include a first voltage regulator configured to provide the first output voltage when the input voltage is below a threshold voltage, and a charge pump configured to provide the second output voltage from the first output voltage in a two-state mode when the input voltage is below the threshold voltage, and to provide the first output voltage and the second output voltage in a three-state mode when the input voltage is above the threshold voltage. | 06-23-2011 |
20110175589 | TRANSMISSION INPUT CIRCUIT - This transmission input circuit is provided with an adjustment processing section which turns ON a switch at an empty timing where transmission current from a slave device is not flowing, to allow a reference current to flow from a constant current circuit to a current detection resistor, generates in the current detection resistor a target adjustment voltage, in which a threshold voltage corresponding to the reference current is added to a load current detection voltage corresponding to the load current, and adjusts a digital value so that a reference voltage output from a digital variable resistor matches with the target adjustment voltage. | 07-21-2011 |
20110204869 | CALIBRATION CIRCUIT - A calibration circuit includes a pad connected between an external resistor connected to a first voltage source and a first node, a first resistor unit connected between the first node and a second voltage source, a second resistor unit connected between a second node and the second voltage source, a first control unit for generating and outputting a first output signal, a first pull-down circuit connected between the second node and the first voltage source, a second pull-down circuit connected between a third node and the first voltage source, a second control unit for generating and outputting a second output signal, and a pull-up circuit connected between the third node and the second voltage source. | 08-25-2011 |
20110227551 | MOBILE WIRELESS COMMUNICATIONS DEVICE INCLUDING REMOVABLE ELECTRICAL POWER SUPPLY MODULE AND RELATED METHODS - A mobile wireless communications device may include a device housing, and mobile wireless communications device circuitry carried by the device housing. The device may also include a removable electrical power supply module coupled to the mobile wireless communications device circuitry. The removable electrical power supply module may include a module housing, and within the module housing, a battery cell, a DC-to-DC converter coupled to the battery cell, and an output inductor coupled to the DC-to-DC converter. The removable electrical power supply module may also include, within the module housing, a spark suppression circuit coupled to the output inductor, and an output voltage clamp circuit coupled to the output inductor. The removable electrical power supply module may further include a pair of output terminals carried by the module housing and coupled to the output voltage clamp circuit. | 09-22-2011 |
20110227552 | Apparatus of Supplying Power and Method Therefor - A power supply apparatus and a method for supplying power are provided. The apparatus, for use in a system having a first power signal, includes an assistance unit and a power supply device. The assistance unit outputs at least one maintaining signal according to the first power signal selectively. The power supply device outputs a second power signal, wherein the power supply device maintains the second power signal according to the at least one maintaining signal, for example, in an inactive state, such as an idle or standby state or other suitable timing. | 09-22-2011 |
20110267023 | DC VOLTAGE CONVERSION MODULE, SEMICONDUCTOR MODULE, AND METHOD OF MAKING SEMICONDUCTOR MODULE - A DC voltage conversion module includes a substrate, an input terminal, an output terminal, a ground terminal, a DC voltage conversion control element mounted on the substrate, a coil mounted on the substrate and connected to the DC voltage conversion control element and the output terminal, an input-side capacitor mounted on the substrate and connected to the input terminal and the ground terminal, and an output-side capacitor mounted on the substrate and connected to the output terminal and the ground terminal. The input terminal, the output terminal and the ground terminal project in a predetermined projecting direction parallel to each other. The ground terminal is arranged between the input terminal and the output terminal in a direction perpendicular to the projecting direction. | 11-03-2011 |
20110267024 | BURST MODE CONTROLLER AND METHOD - A method for controlling burst mode operation of a switched mode power supply (SMPS) is disclosed. The method comprises:
| 11-03-2011 |
20110267025 | LOW POWER CONSUMPTION CONTROL CIRCUIT AND OPERATION METHOD THEREOF - The present invention discloses a low-power control circuit that comprises a receiver circuit and a control chip, wherein the receiver circuit is signally connected with the control chip, and the control chip is connected with an actuating mechanism. The present invention is characterized in that the low-power control circuit also comprises a clock generator control circuit which is respectively and signally connected with the receiver circuit and the control chip. Because the clock generator control circuit is adopted in the present invention to close the receiver circuit at regular time, the control chip is awakened only when output signal exists in the receiver circuit. Therefore, the control chip is in sleep state (also called standby state) in general. The power consumption of the control chip in standby state is about a few tenths of microampere in general, which is much less than the power consumption (about several milliamperes) of control chip in operation and is much less than the power consumption (about dozens of microamperes) of the dual-frequency control chip in low frequency state. Thus, the present invention can greatly reduce the electric energy consumption of the control chip, so that the control circuit can save electric energy. | 11-03-2011 |
20120019229 | VOLTAGE REGULATING CIRCUIT FOR PORTABLE ELECTRONIC DEVICE - A regulating circuit is used to regulate an output from a power supply to a load. The regulating circuit includes a regulator and a voltage dividing. The voltage dividing is connected between the power supply and the regulator. | 01-26-2012 |
20120062203 | APPARATUS FOR WIRELESS POWER TRANSMISSION AND RECEPTION - Provided is a wireless power transmission system to increase efficiency in wireless power transmission. A wireless power transmitter may include: one or more capacitors; a power inputting unit configured to receive power from a power supply and to charge the one or more capacitors; a transmitting unit configured to transmit resonance power; and a switching unit configured to control electrical connection of the one or more capacitors to the power inputting unit and to the transmitting unit. A wireless power receiver is also described. | 03-15-2012 |
20120081097 | High Voltage High Current Regulator - High voltage high current regulator circuit for regulating current is interposed between first and second terminals connected to an external circuit and comprises at least one main-current carrying cold-cathode field emission electron tube conducting current between the first and second terminals. First and second grid-control cold-cathode field emission electron tubes provide control signals for first and second grids of the at least one main-current carrying cold-cathode field emission electron tube for positive and negative excursions of voltage on the first and second terminals, respectively. The current regulator circuit may be accompanied by a voltage-clamping circuit that includes at least one cold-cathode field emission electron tube. At least two cold-cathode field emission electron tubes, configured to operate at high voltage and high current, are preferably contained within a single vacuum enclosure and are interconnected to provide a circuit function, so as to form a high voltage high current vacuum integrated circuit. | 04-05-2012 |
20120086424 | POWER SEMICONDUCTOR DEVICE CURRENT DETECTOR CIRCUIT AND DETECTION METHOD - A small power semiconductor device current detector circuit and detection method with low loss by detecting current using the sensing function of a power semiconductor device is disclosed. An already known current is caused to flow through a main region of the power semiconductor device. The current is detected by a current detector unit connected to a sense terminal of the power semiconductor device. A deviation in characteristics between the main region and a sensing region is detected by a variable voltage source circuit based on the detected current. An offset amount and gain amount in an output regulator are regulated in such a way that the characteristics of the two coincide. The offset amount and gain amount to be regulated may be supplied to the output regulator, serially or in parallel, from a CPU provided externally. | 04-12-2012 |
20120091984 | DEDICATED POWER SUPPLY APPARATUS, TERMINAL, POWER SUPPLY SYSTEM, AND POWER SUPPLY METHOD - A dedicated power supply apparatus includes a regulator that receives power from an external power source, two signal lines to which the regulator is connected, and two resistors, each placed between the regulator and an associated one of the two signal lines. | 04-19-2012 |
20120105043 | Control of Multi-Level Supply Stage - There is described a buck-boost converter comprising: a voltage source; an inductor, wherein a first terminal of the inductor is switchably connected to the voltage source; and a plurality of capacitors switchably connected to a second terminal of the inductor, wherein a respective plurality of output voltages are formed across the plurality of capacitors, further comprising: an error determination means, for determining an error in each of the plurality of voltages, an inner control loop adapted to switchably connect one of the plurality of capacitors to the second terminal of the inductor in dependence on the determined errors; and an outer control loop adapted to control switching between buck mode and boost mode in dependence upon the determined errors. | 05-03-2012 |
20120105044 | Circuit Arrangement And Method For Inductive Energy Transfer - A circuit arrangement for the inductive transfer of energy is disclosed. The circuit arrangement includes an oscillator; a power supply for supplying the oscillator with energy and having a complex input resistance; and a device for detecting the inductive load of the oscillator and for modifying the complex input resistance of the power supply depending on the load of the oscillator. | 05-03-2012 |
20120112727 | ELECTRIC CURRENT MEASURING DEVICE, ELECTRIC CURRENT MEASURING METHOD, AND ELECTRIC CURRENT MEASURING PROGRAM - A current measurement device has a rectification unit rectifying an alternating-current signal, an A/D conversion unit converting an analog signal corresponding to a signal obtained by the rectification into a digital signal, an addition unit for adding digital signals corresponding to alternating-current signals during a sampling period among the digital signals obtained by the conversion, and a current value conversion unit for converting an additional value obtained by the addition by the addition unit into a current value using a current value conversion function. The sampling period is a common multiple of the periods of alternating-current signals of 50 Hz and 60 Hz, the current values of which are to be measured. | 05-10-2012 |
20120126776 | VOLTAGE SMOOTHING CIRCUIT - A voltage smoothing circuit is configured to smooth a voltage outputted from a power supply portion. The voltage smoothing circuit includes first and second smoothing capacitors, a first balancing resistor, and a second conduction regulating portion. The first smoothing capacitor and the second smoothing capacitor are connected in series to each other and are connected in parallel to the power supply portion. The first balancing resistor is connected in parallel to the first smoothing capacitor. The second conduction regulating portion is connected on a current path in parallel with the second smoothing capacitor and conducts current in one direction on the current path in a case where a voltage equal to or greater than a second predetermined voltage has been applied. | 05-24-2012 |
20120153925 | VOLTAGE ADJUSTMENT SYSTEM - A voltage adjustment system includes a power supply for providing an initial voltage signal, a plurality of buck converters for receiving the initial voltage signal and generating one adjustable output voltage signal respectively, a microcontroller for determining one adjustable output voltage signal to output and determining whether a variable voltage signal generated by a buck converter that outputs the adjustable output voltage signal is positive or negative, a display unit for displaying value of the adjustable output voltage signal that is outputted, a plurality of voltage control units corresponding to the plurality of buck converters, and a voltage variation adjustment circuit including two buttons. The variable voltage signal is added to the adjustable output voltage signal generated by the same buck converter. Selection of the two buttons causes the microcontroller to adjust absolute value of the variable voltage signal generated by the buck converter through the corresponding voltage control unit. | 06-21-2012 |
20120153926 | TERMINAL DEVICE AND SUPPLY CURRENT CONTROL METHOD - Provided are a terminal device and a supply current control method which enable reliable charging with a current obtained by power generation. In a terminal device ( | 06-21-2012 |
20120194162 | PULSE WIDTH MODULATION CONTROLLER AND METHOD FOR OUTPUT RIPPLE REDUCTION OF A JITTERING FREQUENCY SWITCHING POWER SUPPLY - A pulse width modulation controller and method for output ripple reduction of a jittering frequency switching power supply detect the current of a power switch of the switching power supply to generate a current sense signal, and adjust the gain or the level of the current sense signal according to the switching frequency of the power switch to adjust the on time of the power switch, to reduce the output ripple of the switching power supply caused by the jittering frequency of the switching power supply. | 08-02-2012 |
20120200280 | PLUG FOR DC APPLIANCE - A plug for a DC appliance includes an input unit including anode and cathode terminals, an output unit including anode and cathode terminals to allow a DC current input through the input unit to be output to an electric device, a connection unit to interconnect the input unit and the output unit, a rectifier unit coupled between anode and cathode terminals of the input unit to rectify the input DC current, an inductor unit connected in series to the rectifier unit so that an internal current of the plug is gradually increased in response to an increase of the input DC current, and a condenser unit connected in series to the inductor unit, which is charged with voltage in response to a current passing through the inductor unit, and discharges the charged voltage to the output unit when the input of the DC current from the input unit is interrupted. | 08-09-2012 |
20120217948 | ENERGY CONVERSION DEVICE AND RELATED DISTRIBUTION METHOD - A method for distributing the total power of an energy conversion device between at least two converters in the energy conversion device is disclosed. The sum of the conversion powers of the converters is the total power of the conversion device. The energy conversion device converts energy between a first electrical entity and a second electrical entity, where the two converters correspond to at least two portions of a ring, the portions being proportional to a predetermined power value of the respective converters thereof, the combination of the at least two portions forming the whole ring. The total power of the conversion device corresponds to an arc of the ring between the positions of a first slider and a second slider moveable around the ring, and the distribution of power between the converters is determined by the positions of the first and second sliders. | 08-30-2012 |
20120229115 | VOLTAGE AMPLITUDE LIMITING CIRCUIT OF FULL DIFFERENTIAL CIRCUIT - A voltage amplitude limiting circuit of a full differential circuit is provided for limiting voltage levels of a differential signal. The voltage amplitude limiting circuit includes a reference voltage generating unit and a replacing circuit. The reference voltage generating unit generates a high reference voltage and a low reference voltage. The replacing circuit is coupled to the reference voltage generating unit, a first input terminal and a second input terminal. When voltage at the first input terminal is greater than the high reference voltage, the replacing circuit uses the high reference voltage to replace the voltage at the first input terminal to serve as an output. When voltage at the first input terminal is less than the low reference voltage, the replacing circuit uses the low reference voltage to replace the voltage at the first input terminal to serve as an output. | 09-13-2012 |
20120235662 | VERY LOW VOLTAGE REFERENCE CIRCUIT - A low-voltage reference circuit may have a pair of semiconductor devices. Each semiconductor device may have an n-type semiconductor region, an n+ region in the n-type semiconductor region, a metal gate, and a gate insulator interposed between the metal gate and the n-type semiconductor region through which carriers tunnel. The metal gate may have a work function matching that of p-type polysilicon. The gate insulator may have a thickness of less than about 25 angstroms. The metal gate may form a first terminal for the semiconductor device and the n+ region and n-type semiconductor region may form a second terminal for the semiconductor device. The second terminals may be coupled to ground. A biasing circuit may use the first terminals to supply different currents to the semiconductor devices and may provide a corresponding reference output voltage at a value that is less than one volt. | 09-20-2012 |
20120242315 | DC-DC Conversion Using Vibration - This invention relates to the field of vibration switches, and more particularly to vibration switches used for DC to DC switching conversion. DC to DC convertors use an electrical switch like MOSFET/transistor for conversion to switched DC. The MOSFET/transistor requires a power source for the switching action. A vibration switch comprising of metal or conductive polymer strip can be used for the switching action in a DC to DC convertor. The strip is bent by using a small weight attached to one end. When exposed to vibration beyond a certain threshold the metal strip oscillates and performs multiple switching operations by connecting to the contact terminal. The switched DC thus produced could be filtered to generate a DC output. This switch does not require power for operation. The vibration sensitivity and frequency of oscillations of the switch can be controlled using the hardness of the material used. | 09-27-2012 |
20120256611 | POWER SUPPLY APPARATUS AND METHOD OF CONTROLLING THE SAME - A power supply apparatus includes a controller. If the controller detects that the internal resistance of a battery detected by an internal resistance detecting unit is relatively high, then the controller switches a first switch from an open state to a closed state using a first threshold value with respect to the voltage difference between a battery voltage and a system voltage, and if the controller detects that the internal resistance of the battery is relatively low, then the controller switches the first switch from the open state to the closed state using a second threshold value which is smaller than the first threshold value. | 10-11-2012 |
20120262143 | SEMICONDUCTOR INTEGRATED CIRCUIT FOR CONTROLLING REGULATOR CIRCUIT AND SIGNAL PROCESSOR WHICH OPERATES BASED ON OUTPUT VOLTAGE THEREOF - A control circuit receives a change request for an operating mode of a signal processor which operates based on an output voltage of a regulator circuit, changes the output voltage of the regulator circuit, and then changes the operating mode of the signal processor based on the change request. | 10-18-2012 |
20120274302 | WIDEBAND CMOS RMS POWER DETECTION SYSTEM - A system includes a first circuit and a second circuit. The first circuit includes a first MOS transistor having a gate and a drain. The first circuit is configured to receive a radio frequency (RF) signal at the gate of the first MOS transistor. The drain of the first MOS transistor is configured to output a first current that is proportional to the square of the input voltage of the RF signal while receiving the RF signal. The second circuit includes a second MOS transistor having a source configured to receive a first current from the first circuit. The second MOS transistor is biased in a triode region and has a channel resistance between the source and a drain. The second circuit is configured to output a voltage proportional to the value of the power of the RF signal received by the first circuit. | 11-01-2012 |
20120280672 | POWER SUPPLY CIRCUIT FOR UNIVERSAL SERIAL BUS PORT - A power supply circuit for Universal Serial Bus (USB) ports includes a first USB port and a current amplifier circuit electrically connected to the first USB port. The first power converter receives a first voltage and outputs a first current. The second power converter receives the first voltage and outputs a second current. The first power converter and the second power converter are electrically connected together. The first current is output to the first USB port together with the second current. | 11-08-2012 |
20120280673 | VOLTAGE CONTROL APPARATUS, METHOD, AND PROGRAM - The voltage control apparatus ( | 11-08-2012 |
20120286759 | DISTRIBUTED POWER GENERATION SYSTEM - A distributed power generation system of the present invention is a distributed power generation system connected to a three-wire electric power system including first to third electric wires, the third electric wire being a neutral wire, and includes: an electric power generator ( | 11-15-2012 |
20120306468 | Energy Storage System and Method for Operating Same - An energy supply system including an electrical energy storage system having multiple storage modules, in particular a battery system, an ascertaining device for ascertaining state variables of the storage modules and an energy transmission device for energy transmission between the storage modules and a downstream electrical device. It is provided that the energy transmission device has multiple d.c. chopper converters, which are connected to one another in parallel and/or in series at the output end, and each of the d.c. chopper converters is connectable to a storage module of the energy storage system, and the energy supply system has a trigger device for triggering the d.c. chopper converters as a function of the ascertained state variable of the respective connected storage module. Also described is a method for operating an energy supply system. | 12-06-2012 |
20120313610 | Power Supply Control Circuit - A power supply control circuit includes a mode controlling unit which, in accordance with an output voltage of an amplifying section, performs a mode up for switching a current power supply voltage of the amplifying section to a higher power supply voltage being higher than the current power supply voltage, and which, in a case where a magnitude of the output voltage of the amplifying section is smaller than a threshold voltage for a predetermined time period or longer, performs a mode down for switching the power supply voltage of the amplifying section to a lower power supply voltage being lower than the current power supply voltage, and a threshold setting unit which sets the threshold voltage based on the output voltage of the amplifying section at a timing when the mode up is performed. | 12-13-2012 |
20120326693 | Voltage reference and temperature sensor - A highly accurate voltage reference and temperature sensor circuit requires only several low-cost components in addition to a general-purpose microcontroller with an analog-to-digital converter. Unlike known circuits, the circuit disclosed does not rely on matching between a pair of semiconductor devices, as only a single semiconductor junction is used. All of the signal processing may be performed digitally. | 12-27-2012 |
20130038314 | VOLTAGE GENERATION CIRCUIT - A voltage generation circuit supplies an internal power supply voltage to an internal circuit via an output terminal and includes a regulator, a second drive element, and a control circuit. The regulator includes a first drive element disposed between an external power supply VDD (first power supply) and an output terminal, and supplies a voltage based on a reference voltage to the output voltage by controlling the first drive element. The second drive element is disposed between the external power supply VDD and the output terminal, and supplies a voltage of the external power supply VDD to the output terminal when activated. When a voltage of the external power supply is a previously set detection voltage value or less, the control circuit activates the first and the second drive element, and when the voltage of the external power supply exceeds the detection voltage value, deactivates the second drive element. | 02-14-2013 |
20130057244 | DUTY RATIO/VOLTAGE CONVERSION CIRCUIT - A duty ratio/voltage conversion circuit that converts the duty ratio of an input signal into voltage level and outputs the voltage level includes: an input terminal to which the input signal is input; a first CR integrating circuit that integrates the input signal; a load resistor a first end of which is connected to an output point of the first CR integrating circuit, and a second end of which is grounded; and an output terminal connected to the load resistor. The first CR integrating circuit includes a first pathway that has a first resistor, and a second pathway in which a phase inversion portion, a second resistor and a first capacitor are connected in series, and is a parallel circuit in which first and second ends of the first pathway are connected to first and second ends, respectively, of the second pathway. | 03-07-2013 |
20130063118 | Charge Pump System Dynamically Reconfigurable For Read And Program - A charge pump system can provide multiple regulated output levels, including several concurrently, in an arrangement that can reduce the area and power consumption of such a high voltage generation system. The charge pump system can be dynamically reconfigurable based on output requirements. When output level is low, but required for a large AC, DC load, the system is configured in parallel to share the load. When a higher output is required, such as for a programming in a non-volatile memory, the system is configured in serial to generate the desired high output level. The exemplary embodiment uses all of the pump units in each operation and, hence, is able to be optimized for smaller pump area and less power consumption, while still delivering the same pump ability as larger, more power consuming arrangements. | 03-14-2013 |
20130063119 | Direct current link circuit - A device for converting power from a floating source of DC power to a dual direct current (DC) output, the device includes: positive and negative input terminals connectible to the floating source of DC power; and positive and negative, and ground output terminals connectible to the dual DC output that may feed an inverter. The inverter may be either a two or three level inverter. A charge storage device may be connected in parallel to, and charged from, the positive and negative input terminals. A resonant circuit may be also connected between the charge storage device and the dual DC output. The resonant circuit may include an inductor connected in series with a capacitor. The charge storage device may discharge through the resonant circuit by switching through to either the negative output terminal or the positive output terminal. | 03-14-2013 |
20130069615 | EMI SUPPRESSION WITH SHIELDED COMMON MODE CHOKE - A power supply arrangement constituted of: an isolated power supply having a primary side and a secondary side, the secondary side electrically isolated from the primary side; a common mode choke having a first winding and a second winding wound on a common core, the common mode choke coupled between the primary side of the isolated power supply and an AC mains; and a shielding surrounding the common mode choke, the shielding coupled to a common potential of the secondary side of the isolated power supply. | 03-21-2013 |
20130076327 | POWER SYSTEM JUNCTION TEMPERATURE CONTROL - An electrical power generating system including a power generating device, a power converter connected to the power generating device, and an electrical controller connected to the power converter. The electrical controller is configured to limit a peak junction temperature of the power converter by applying at least one junction temperature derating function. | 03-28-2013 |
20130076328 | ELECTRONIC DEVICES AND FOOL-PROOF METHODS - An electronic device having a fool-proof feature is provided, including a first magnet, an output terminal, a hall sensor and a power supply unit. The first magnet generates a magnetic field. The output terminal is disposed in the range of the magnetic field and is mated with an input terminal of a second electronic device. The hall sensor generates a hall voltage according to the magnetic field. The power supply unit is coupled to the output terminal and provides power to the output terminal according a control signal outputted from the hall sensor, in which the hall sensor outputs the control signal when the output terminal is coupled to the input terminal and the hall voltage exceeds a specific voltage, such that the power supply unit provides power to the output terminal according to the control signal, and the second electronic device receives power from the output terminal. | 03-28-2013 |
20130119962 | Intermediate Bus Architecture Power Supply Controller - A voltage controller is operable to generate control signals for controlling an intermediate bus voltage (V | 05-16-2013 |
20130127435 | STANDALONE SOLAR ENERGY CONVERSION SYSTEM WITH MAXIMUM POWER POINT TRACING AND METHOD OF OPERATING THE SAME - A standalone solar energy conversion system includes a first DC-DC conversion apparatus, a second DC-DC conversion apparatus, and a control apparatus. The first DC-DC conversion apparatus receives a DC voltage and converts a voltage level of the DC voltage to provide a capacitance voltage. The second DC-DC conversion apparatus receives the capacitance voltage and converts a voltage level of the capacitance voltage. The control apparatus includes a first comparison unit and a second comparison unit. The capacitance voltage is compared to a first capacitance voltage command and a second capacitance voltage command through the first comparison unit and the second comparison unit, respectively, thus controlling output powers of the first DC-DC conversion apparatus and the second DC-DC conversion apparatus. | 05-23-2013 |
20130127436 | APPARATUS OF SUPPLYING POWER AND METHOD THEREFOR - A power supply apparatus and a method for supplying power are provided. The method includes: providing a first power supply for outputting a first power signal; providing a second first power supply for outputting a second power signal; and selectively charging the second power supply by using the first power supply. | 05-23-2013 |
20130134956 | USING A SWITCHING SIGNAL DELAY TO REDUCE NOISE FROM A SWITCHING POWER SUPPLY - Embodiments of circuitry, which includes power supply switching circuitry, a first inductive element, and a second inductive element, are disclosed. The power supply switching circuitry provides a first switching output signal to the first inductive element and a second switching output signal to the second inductive element. The first inductive element has a first inductor current and the second inductive element has a second inductor current. The second switching output signal is delayed from the first switching output signal by a switching signal delay. The first inductor current and the second inductor current combine to provide a combined inductor current, which has a frequency response with a group of notches, such that frequency locations of the group of notches are based on the switching signal delay. | 05-30-2013 |
20130141072 | PHASE RECONFIGURABLE SWITCHING POWER SUPPLY - Embodiments of circuitry, which includes power supply switching circuitry and a first inductive element, are disclosed. The power supply switching circuitry has a first switching output and a second switching output. The first inductive element is coupled between the first switching output and a power supply output. The power supply switching circuitry operates in one of a first operating mode and a second operating mode. During the first operating mode, the first switching output is voltage compatible with the second switching output. During the second operating mode, the first switching output is allowed to be voltage incompatible with the second switching output. | 06-06-2013 |
20130154599 | Methods for Reducing Power Consumption of Electronic Systems - Evolutionary methods for reducing power consumption of an electronic system are disclosed. The electronic system comprises one or more subsystems. Each of the subsystems is connected to a supply power through a programmable power limiter that limits power delivered to the subsystem. A controller initiates a power reduction procedure by reducing power limit to reach a level that the subsystem delivers minimum acceptable performances. | 06-20-2013 |
20130154600 | CONTROL OF POWER CONVERTERS WITH CAPACITIVE ENERGY TRANSFER - An apparatus for power conversion comprises a voltage transformation element, a regulating element, and a controller; wherein, a period of the voltage transformation element is equal to a product of a coefficient and a period of the regulating circuit, and wherein the coefficient is selected from a group consisting of a positive integer and a reciprocal of said integer. | 06-20-2013 |
20130169257 | METHOD OF CONTROLLING MULTI LEVEL CONVERTER - A method of controlling a multilevel converter is provided. In the method of controlling a multilevel converter according to an embodiment, a sub-module having the maximum voltage and a sub-module having the minimum voltage respectively are extracted from among a plurality of sub-modules. An amount of state variation of each of the plurality of sub-modules is determined. When the amount of state variation is not determined to be 0, a direction of a current flowing through the plurality of sub-modules is detected. A subsequent state of at least one sub-module is determined according to at least one of the amount of the state variation and current direction. Subsequently an arrangement time for sub-module values can be efficiently reduced while the number of the sub-modules increases in the voltage balancing. | 07-04-2013 |
20130187625 | CONVERGENCE TYPE POWER SUPPLY DEVICE - A convergence type power supply device includes a supply circuit and a filter circuit, and both circuits receive a rectified pulse DC power, and the supply circuit supplies the pulse DC power to a load directly when the filter circuit is charged, and the voltage of the pulse DC power becomes higher after the filter circuit is charged, and the filter circuit filters the pulse voltage to supply a filter DC to the load, so as to achieve the effect of enhancing the power factor. | 07-25-2013 |
20130200875 | ELECTRIC POWER DETECTION SYSTEM - An integration circuit charges a capacitor by a charge current corresponding to a current flowing in a detection resistor provided in an electric power supply path extending to a DCM. A comparison circuit outputs a comparison signal, which changes to one of a high level and a low level in accordance with an integration value corresponding to a charge voltage of the capacitor. A discharge switch discharges the capacitor and stops discharge of the capacitor, when the comparison signal is at the high level and the low level, respectively. A control circuit determines an estimation value of electric power supplied from a battery to a DCM based on a count of edges, at which the signal level of the detection signal changes. | 08-08-2013 |
20130234692 | VOLTAGE SUPPLY AND METHOD WITH TWO REFERENCES HAVING DIFFERING ACCURACY AND POWER CONSUMPTION - Voltage supply and method having a first reference and a second reference. The first reference has an operation mode configured to supply a first reference voltage at a first accuracy and consume an operation power and a standby mode configured to consume standby power less than the operation power. The second reference is configured to supply a second reference having a second accuracy less than the first accuracy of the first reference and which consumes a second reference power less than the operation power of the first reference, the second reference voltage being trimmable based, at least in part, on a comparison of the first reference voltage to the second reference voltage. | 09-12-2013 |
20130241517 | POWER CIRCUIT HAVING THREE-TERMINAL REGULATOR - A power circuit includes a power input port, a power output port, and a three-terminal regulator. A voltage regulating circuit and a charge/discharge circuit are connected to the power output port. The three-terminal regulator detects a voltage value of the output port and enables the input port if the detected voltage value is less than a predetermined voltage value and disables the input port if the detected voltage value is not less than the predetermined value. If the input port of the three-terminal regulator is enabled, the charge/discharge circuit is charged by the current provided by a power supply connected to the power input port. If the input port of the three-terminal regulator is disabled, the charge/discharge circuit discharges to an electronic device connected to the power output port with the voltage regulating circuit. | 09-19-2013 |
20130241518 | SWITCHED CAPACITOR VOLTAGE REGULATOR WITH HIGH EFFICIENCY OVER A WIDE VOLTAGE RANGE - In some embodiments, a voltage regulator device may include a switched capacitor voltage regulator to receive an input voltage and to provide an output voltage to a load, and a control unit to receive information related to a desired output voltage for the switched capacitor voltage regulator and to determine a desired input voltage for the switched capacitor voltage regulator based on the desired output voltage and selected operation mode or modes of switched capacitor voltage regulator. Other embodiments are disclosed and claimed. | 09-19-2013 |
20130249521 | METHOD FOR PERFORMING POWER CONSUMPTION CONTROL, AND ASSOCIATED APPARATUS - A method for performing power consumption control is provided, where the method is applied to an electronic device. The method includes: sensing a current on a current path between a battery and at least one portion of the electronic device by performing sampling operations to generate a plurality of samples; performing calculation on the samples to monitor the current; and based upon the calculation, when it is detected that the current reaches a predetermined threshold, triggering a post processing operation to be performed within the electronic device. In particular, performing the sampling operations to generate the plurality of samples further includes: utilizing an analog-to-digital converter (ADC) to perform the sampling operations on a voltage difference corresponding to the current to generate the plurality of samples. For example, the voltage difference can be obtained by probing two terminals of a resistor or a Hall component. An associated apparatus is also provided. | 09-26-2013 |
20130249522 | Power Supply Control Device - A power supply control device includes a switch element that is provided between a power supply and a load, an on-off control section that controls to turn on and off the switch element, and a voltage detecting section that detects a voltage supplied from the power supply to the load. The on-off control section controls to turn on the switch element intermittently and shortens a duty ratio of an on-time period of the switch element in accordance with an increase of the supplied voltage detected by the voltage detecting section. | 09-26-2013 |
20130257407 | Electronic Control Device and Method for Reducing Stand-By State Energy Consumption of an Electric Household Appliance - A household appliance ( | 10-03-2013 |
20130300393 | CIRCUIT OF OUTPUTTING TEMPERATURE COMPENSATION POWER VOLTAGE FROM VARIABLE POWER AND METHOD THEREOF - Disclosed herein are a circuit of outputting a temperature compensation power voltage from variable power and a method thereof, the circuit including: a regulator circuit unit converting the variable power into a predetermined voltage desired by a system; a resistance compensation circuit unit provided at an output terminal of the regulator circuit unit, and compensating for a change in resistance value due to the temperature change; and a temperature sensor sensing a change in surrounding temperature of an electronic circuit system employing the regulator circuit unit and supplying an output value corresponding to the sensed temperature change to the resistance compensation circuit unit, to thereby allow the resistance compensation circuit unit to compensate for the change in resistance value due to the temperature change. | 11-14-2013 |
20130320950 | CONTROL METHOD FOR REDUCING THE AUDIO NOISE - A control method for reducing audio noise is disclosed. The method includes the steps of: providing an input power source; providing a power source converter having a component with a mechanical resonant frequency, coupled to the input terminal or the output terminal of the power source converter; providing an output capacitor and a load connected in parallel therebetween; making the power source converter operate in a burst mode; and controlling the electrical energy transferred from the input terminal to the output terminal of the power source converter during an operating period of every burst cycle, so as to reduce the audio noise of the power source converter. | 12-05-2013 |
20130335053 | PARTIAL ARBITRARY MATRIX TOPOLOGY (PMAT) AND GENERAL TRANSPOSED SERIAL-PARALLEL TOPOLOGY (GTSP) CAPACITIVE MATRIX CONVERTERS RELATED APPLICATIONS - A direct current (DC) to DC converter, including: input ports for receiving an input DC voltage; output ports for outputting an output DC voltage; a first matrix of capacitors and switches; a second matrix of capacitors and switches; and a control circuit, coupled to the switches of the first and second matrices, configure d to repetitively: (i) configure the first matrix to a charge configuration and couple the first matrix to the input ports while configuring the second matrix to a discharge configuration and coupling the second matrix to the output ports; (ii) maintain the charge and discharge configurations for a first period of time; (iii) configure the second matrix to the charge configuration and couple the second matrix to the input ports while configuring the first matrix to the discharge configuration and couple the first matrix to the output ports; and (iv) maintain the charge and discharge configurations for a second period of time; | 12-19-2013 |
20140002048 | VOLTAGE BALANCING CONTROL METHOD FOR MODULAR MULTILEVEL CONVERTER | 01-02-2014 |
20140009137 | SYSTEM, METHOD, AND COMPUTER PROGRAM PRODUCT FOR SINGLE WIRE VOLTAGE CONTROL OF A VOLTAGE REGULATOR - A system, method, and computer program product are provided for single wire voltage control of a voltage controller. A voltage controller is included and is in communication with a device, A single wire is connected between the voltage controller and the device for use by the device in controlling an output voltage of the voltage controller. | 01-09-2014 |
20140015507 | APPARATUS AND METHOD FOR SUPPLYING POWER IN MOBILE TERMINAL - An apparatus for supplying power in a mobile terminal is provided. The apparatus includes a battery, a power management integration circuit including a buck-boost converter for converting a battery voltage to output a specific voltage, and a plurality of regulators for regulating the specific voltage output from the buck-boost converter to voltages of respective corresponding constituent elements and for outputting the regulated voltages, the buck-boost converter operating in a buck mode when the battery voltage is greater than the specific voltage, and the buck-boost converter operating in a boost mode when the battery voltage is less than the specific voltage, such that the constituent elements include a controller for controlling an operation of the mobile terminal, a touch panel for generating an input and for providing the generated input signal to the controller, and a display unit for displaying an operation of the mobile terminal under control of the controller. | 01-16-2014 |
20140028278 | DUAL REGULATOR SYSTEMS - A microcontroller system includes a main voltage regulator and a low power voltage regulator having a static current consumption less than the static current consumption of the main voltage regulator. A power state controller enables the low power voltage regulator during a power saving mode. On exiting the power saving mode, the power state controller enables the main voltage regulator and disables the low power voltage regulator after determining that the main voltage regulator is ready. The switching circuitry can be asynchronous. | 01-30-2014 |
20140028279 | POWER SUPPLY CIRCUITS - A power supply circuit includes a first power amplifier that amplifies an input signal; a high pass filter that removes frequency components that are lower than a predetermined first cutoff frequency from an output signal of the first power amplifier; a current detector that detects a current value of the output signal of the first power amplifier; a composite signal generation circuit that combines the input signal and an output signal of the current detector; a second power amplifier that amplifies an output signal of the composite signal generation circuit; a low pass filter that removes frequency components that are higher than a predetermined second cutoff frequency from an output signal of the second power amplifier; and a signal output terminal that combines a current of an output signal of the high pass filter and a current of an output signal of the low pass filter and then outputs the resultant signal. | 01-30-2014 |
20140043008 | METHODS AND APPARATUS FOR DYNAMIC VOLTAGE TRANSITION - Methods and apparatus for power regulation according to various aspects of the present invention may operate in conjunction with producing a voltage ramp starting at a first voltage and ending at a second voltage and compensating the voltage ramp according to a compensation parameter. The compensation parameter may be adapted to compensate for a circuit parameter. A voltage may then be generated according to the compensated voltage ramp. | 02-13-2014 |
20140055116 | Method And Control Arrangement In A Power System - A method of controlling a magnitude of an electrical parameter in a power system via a high voltage electron tube. The method includes the steps of measuring the magnitude of the electrical parameter; generating a control signal based on the magnitude of the electrical parameter and on a reference magnitude of the electrical parameter; and switching the high voltage electron tube via the control signal such that the reference magnitude of the electrical parameter is essentially obtained. A control arrangement and a power system is also presented. | 02-27-2014 |
20140062446 | Bridge Magnetic Devices And Associated Systems And Methods - An electrical assembly includes a substrate, a bridge magnetic device disposed on an outer surface of the substrate, and at least one electrical component. The bridge magnetic device includes (1) a magnetic core disposed over and offset from a first portion of the outer surface of the substrate, (2) N windings wound around at least a portion of the magnetic core and electrically coupled to conductors of the substrate, where N is an integer greater than zero, and (3) a ground return conductor disposed on an outer surface of the magnetic core facing the first portion of the outer surface of the substrate. The at least one electrical component is disposed on the first portion of the outer surface of the substrate. | 03-06-2014 |
20140070787 | Low Ripple Step-Up/Step-Down Converter - There is described a device for converting an input signal having a given input voltage (Vbat) value (Vbat) into an output signal having an output voltage (Vout) (Vout) different from the input voltage (Vbat). The device comprises a main module ( | 03-13-2014 |
20140077787 | OPEN LOOP RIPPLE CANCELLATION CIRCUIT IN A DC-DC CONVERTER - A direct current (DC)-DC converter, which includes an open loop ripple cancellation circuit, a switching supply, and a parallel amplifier, is disclosed. During a calibration mode, the parallel amplifier provides a parallel amplifier output current to regulate a power supply output voltage based on a calibration setpoint. The switching supply drives the parallel amplifier output current toward zero using a switching control signal, such that during the calibration mode, an estimate of a current gain is based on the switching control signal. Further, during the calibration mode, the open loop ripple cancellation circuit is disabled. During a normal operation mode, the open loop ripple cancellation circuit provides a ripple cancellation current, which is based on the estimate of the current gain. | 03-20-2014 |
20140117965 | ENERGY EFFICIENT SOLAR POWERED HIGH VOLTAGE DIRECT CURRENT BASED DATA CENTER - A system and method for providing power is disclosed. A variable direct current (DC) power source provides a variable DC voltage. A configurator dynamically converts the variable DC voltage to a selected DC voltage to provide the power. A set of switches combines the solar voltage with a substantially constant DC voltage. A control unit controls the set of switches and the configurator to provide the combined voltages at a selected voltage level. | 05-01-2014 |
20140232367 | SWITCHING REGULATOR CONTROL METHOD - A control method for preventing an output voltage of a buck switching regulator from falling when an input voltage of the buck switching regulator falls includes: converting the input voltage into a charging current; determining a duty cycle of the buck switching regulator according to the charging current and the output voltage; and adjusting a switching frequency of a pulse width modulation signal in the buck switching regulator when the input voltage falls to a specific voltage and an off time of the pulse width modulation signal reaches a minimum value, in order to change the duty cycle to prevent the output voltage from falling. | 08-21-2014 |
20140239935 | APPARATUS AND METHOD FOR SELECTIVE AND ADAPTIVE SLOPE COMPENSATION IN PEAK CURRENT MODE CONTROLLED POWER CONVERTERS - An apparatus and a method for selective and adaptive slope compensation in peak current mode controlled power converter are disclosed. The selective and adaptive slope compensation in peak current mode controlled power converter is implemented by hardware, software, and/or combination of both to carry out start of a pulse width modulated period and delay of a start of slope compensation by a first time from the starting of the pulse width modulated period. | 08-28-2014 |
20140266128 | Transient Suppression with Lossless Steady State Operation - A power supply efficiently suppresses transient voltages by storing the maximum charge expected in the transient and releasing it during the transient event at a rate in an equal but opposite amount to the transient, preventing the battery voltage from collapsing. The described power supply provides improved efficiency compared to conventional architectures for transient suppression, thus increasing the length of time between battery charges and creating a better user experience. | 09-18-2014 |
20140266129 | Method and System for Regulating Battery Voltages in Handheld/Portable Electronic Systems - A power supply circuit ( | 09-18-2014 |
20140347031 | CONTROL DEVICE FOR A DC-DC CONVERTER - A control device for a dc-dc converter. The control device is designed for an increase and a decrease in the output power of the dc-dc converter, and the increase in the output power occurs at a different speed than the decrease. | 11-27-2014 |
20140368179 | POWER SUPPLY DEVICE - A power supply device may include: a standby power unit converting a direct current (DC) voltage to an operating voltage and a first standby voltage and providing the first standby voltage to a standby output terminal; a DC/DC converting unit receiving the operating voltage from the standby power unit, converting the DC voltage to a main voltage, and providing the main voltage to a main output terminal; and a main/standby power unit converting the main voltage from the DC/DC converting unit to a second standby voltage and providing the second standby voltage to the standby output terminal. The standby power unit varies a magnitude of the first standby voltage based on whether or not the second standby voltage is supplied to the standby output terminal. | 12-18-2014 |
20150054484 | DC VOLTAGE CONVERSION MODULE, SEMICONDUCTOR MODULE, AND METHOD OF MAKING SEMICONDUCTOR MODULE - A DC voltage conversion module includes a substrate, an input terminal, an output terminal, a ground terminal, a DC voltage conversion control element mounted on the substrate, a coil mounted on the substrate and connected to the DC voltage conversion control element and the output terminal, an input-side capacitor mounted on the substrate and connected to the input terminal and the ground terminal, and an output-side capacitor mounted on the substrate and connected to the output terminal and the ground terminal. The input terminal, the output terminal and the ground terminal project in a predetermined projecting direction parallel to each other. The ground terminal is arranged between the input terminal and the output terminal in a direction perpendicular to the projecting direction. | 02-26-2015 |
20150061635 | VOLTAGE CONVERTING INTEGRATED CIRCUIT - A voltage converting integrated circuit includes a first switch, a second switch, a third switch, a fourth switch, and a control circuit. The first switch is coupled between a first voltage pin and a first switch pin. The second switch is coupled between a second voltage pin and a second switch pin. The third switch is coupled between the first switch pin and a third voltage pin. The fourth switch is coupled between the second switch pin and a reference ground. The first to the fourth switches are controlled by a control signal to be turned on or off. The control circuit is coupled to the first to the fourth switches for receiving a mode setting signal and the control circuit generates a control signal according to the mode setting signal. | 03-05-2015 |
20150137787 | DC-DC Converter Circuit Arrangement - DC-DC converter circuit arrangement ( | 05-21-2015 |
20150303793 | POINT OF LOAD REGULATOR SYNCHRONIZATION AND PHASE OFFSET - An electronic system includes a multiple POL regulators that supply a regulated voltage to a component within the electronic system. A phase spreading scheme may be implemented so that the POL regulators operate under various phases to reduce voltage noise, high input capacitance, and high radiated emissions. One phase spreading scheme includes a single POL regulator controlling phase spreading so that the other POL regulators operate under different phases. Another phase spreading scheme includes an upstream POL regulator determining a phase offset that may be passed to a downstream POL regulator so that the downstream POL regulator may operate under a different phase relative to the upstream POL regulator. | 10-22-2015 |
20150316948 | METHOD FOR DISTRIBUTING THE TOTAL CONVERSION POWER BETWEEN THE CONVERTERS OF A MULTIPLE-CONVERTER CONVERSION DEVICE - The invention relates to a method for distributing the total power of an energy conversion device between at least two converters in said energy conversion device,
| 11-05-2015 |
20150325376 | VOLTAGE SMOOTHING CIRCUIT, VOLTAGE CONVERSION CIRCUIT, AND METHOD FOR CONTROLLING VOLTAGE TO BE APPLIED TO MULTILAYER CAPACITOR - A voltage smoothing circuit includes a first multilayer capacitor, a second multilayer capacitor, and a regulator including an input terminal electrically connected to the second multilayer capacitor and an output terminal electrically connected to the first multilayer capacitor. The regulator calculates a first voltage applied to the first multilayer capacitor based on a second voltage applied to the second multilayer capacitor from the input terminal such that a potential difference which is applied to the first multilayer capacitor decreases or increases when a potential difference which is applied to the second multilayer capacitor increases or decreases, and outputs the first voltage from the output terminal. | 11-12-2015 |
20150326109 | VOLTAGE SMOOTHING CIRCUIT, VOLTAGE CONVERSION CIRCUIT, AND METHOD FOR CONTROLLING VOLTAGE TO BE APPLIED TO MULTILAYER CAPACITOR - A voltage smoothing circuit includes a multilayer capacitor including a first capacitance unit and a second capacitance unit and a regulator including an input terminal which is electrically connected to the second capacitance unit and an output terminal which is electrically connected to the first capacitance unit. The regulator calculates a first voltage which is applied to the first capacitance unit based on a second voltage which is applied to the second capacitance unit from the input terminal such that a potential difference which is applied to the first capacitance unit decreases or increases when a potential difference which is applied to the second capacitance unit increases or decreases, and outputs the first voltage from the output terminal. | 11-12-2015 |
20150338871 | Voltage Regulation System and Method for Providing Power to a Load - A voltage regulation system for providing power to a load is provided. The voltage regulation system includes a voltage regulator operable to set an operating voltage of the load at a first voltage level which corresponds to a first voltage requirement of the load, receive a second voltage requirement of the load which is different than the first voltage requirement and produce a voltage ramp from the first voltage level to the second voltage level. The voltage regulator is further operable to transition the operating voltage from the first voltage level to the second voltage level at a same ramp rate as the voltage ramp and with a lag between the voltage ramp and the transition in the operating voltage. | 11-26-2015 |
20160006347 | POWER SUPPLY APPARATUS, CONTROL APPARATUS, AND PROGRAM THEREFOR - A power supply apparatus includes: an inductor to which an input voltage is applied; a switching element that switches a current flowing to the inductor on and off so as to cause an induced voltage to be generated; an electrolytic capacitor that smoothes the induced voltage and outputs the voltage to a load; and a control circuit that controls the switching element, wherein the control circuit outputs a second switching control signal obtained by superimposing a degradation detection-purpose signal for detecting degradation of the electrolytic capacitor on a first control signal, detects an output voltage output by switching performed by the switching element controlled by the second control signal, and estimates the degradation of the electrolytic capacitor by using the output voltage detected, a duty cycle of the first control signal, and a frequency component of the degradation detection-purpose signal contained in the output voltage detected. | 01-07-2016 |
20160079855 | HIGH-EFFICIENCY ENERGY HARVESTING INTERFACE AND CORRESPONDING ENERGY HARVESTING SYSTEM - An electrical-energy harvesting system envisages a transducer for converting energy from an environmental energy source into a transduced signal, an electrical energy harvesting interface for receiving the transduced signal and for supplying a harvesting signal, and an energy storage element coupled to the electrical energy harvesting interface for receiving the harvesting signal. The electrical-energy harvesting system also includes a voltage converter connected to the electrical energy harvesting interface for generating a regulated voltage. The harvesting interface samples an open-circuit voltage value of the transduced signal, generates an optimized voltage value starting from the open-circuit voltage value, and generates an upper threshold voltage and a lower threshold voltage on the basis of the optimized voltage value. The harvesting interface controls the voltage converter in switching mode so that the harvesting signal has a value between the upper and lower threshold voltages in at least one operating condition. | 03-17-2016 |
20160094138 | Voltage Doubling Alternating current Power Supply Using Electricity from Two Circuits with Transformer for Phase Control and Input Circuit Isolation - An alternating current power supply configured to provide a high-voltage alternating current power output from two low-voltage alternating current power sources is provided. The alternating current power supply comprises a first alternating current power input, a second alternating current power input, and an alternating current power output having a first output conductor and a second output conductor. The alternating current power supply includes a first switch means for coupling the first alternating current input to the first output connector and the second alternating current input to the second output connector. The first switch means is sequentially responsive to the first current flow followed by the second current flow. The alternating current power supply further comprises an isolation means connected between the first switch means and the alternating current power output, wherein the isolation means is configured to isolate the first current flow from the second current flow. | 03-31-2016 |
20160149483 | SYSTEM AND METHOD FOR OPTIMIZING CONSTANT POWER, CONSTANT CURRENT AND CONSTANT VOLTAGE OPERATION - A circuit includes a device monitoring component, a voltage error component, a current error component, a power error component, an error selecting component, a filter instruction component and a filter. The device monitoring component monitors load voltage and load current, and outputs a device state signal. The voltage error component outputs a voltage error signal. The current error component outputs a current error signal. The power error component outputs a power error signal. The error selecting component outputs a selected error signal. The filter instruction component outputs a filter instruction based on the device state signal. The filter outputs a modification signal to modify operation of a device so as to modify one of the load voltage, the load current and the load power. | 05-26-2016 |
20160170430 | REFERENCE CIRCUIT | 06-16-2016 |
20160170431 | INTERNAL POWER SUPPLY OF A DEVICE | 06-16-2016 |
20160197548 | ANTI-LEAKAGE SUPPLY CIRCUIT | 07-07-2016 |