Entries |
Document | Title | Date |
20080211317 | Method and Apparatus for Determining a Switching Time for an Electrical Switching Device - A method and a device for determining a switching time of an electric switching device. An electric switching device includes an interrupter link. A first line section and a second line section can be connected and disconnected by way of the interrupter link. In order to determine a switching time, the temporal progression of a driving voltage is determined in the first line section. In addition, a temporal course of an oscillator voltage appearing in the second line section is determined. Potential switching times are determined at the voltage zero crossings of a resulting voltage. The selection of the potential switching times ensues while evaluating the rises of the driving voltage and of the oscillator voltage or of the polarity of the oscillating current. | 09-04-2008 |
20080211318 | SWITCH CIRCUIT - A switch circuit including a control unit and a voltage level adjusting circuit is provided. The control unit has a first end, a second end, and a third end. The first end of the control unit receives a first voltage, and the voltage difference between the first end and the third end is steady. In addition, the voltage level adjusting circuit has a switch which is determined whether or not turning on according to the voltage on the second end of the control unit, so as to determine whether driving a load or not. The voltage level adjusting circuit is used for adjusting a bias of the load on driving. The switch has a source. The voltage on the source is varied following the ON/OFF of the switch, and the voltage on the third end of the control unit is varied following the voltage on the source. | 09-04-2008 |
20080218001 | METHOD AND APPARATUS FOR MODE SELECTION FOR HIGH VOLTAGE INTEGRATED CIRCUITS - A method is disclosed to add functionality to a terminal of a high voltage integrated circuit without the penalty of additional high voltage circuitry. The benefit is that alternative modes of operation can be selected for testing, trimming parameters of the integrated circuit, or any other purpose without the cost of an additional terminal. In one embodiment, ordinary low voltage circuitry monitors the voltage on the terminal that normally is exposed to high voltage. The configuration of a simple voltage detector and an ordinary latch allows easy entry into the test and trimming mode when the integrated circuit is not in the intended application, but prohibits entry into the test and trimming mode when the integrated circuit operates in the intended application. | 09-11-2008 |
20080224547 | Reverse voltage protected integrated circuit arrangement - An integrated circuit arrangement is disclosed which comprises a semiconductor body having a substrate and at least one substrate terminal, at least one semiconductor component integrated in the semiconductor body and being connected between a first supply terminal providing a first supply potential and a second supply terminal providing a second supply potential, and switching means adapted for connecting at least one of said substrate terminals to either the first or to the second supply terminal dependent on which supply terminal provides the lower supply potential. | 09-18-2008 |
20090026845 | SWITCHING DEVICE FOR TRANSFORMER HAVING UNINTERRUPTIBLE POWER SUPPLY FUNCTION, AND METHODS OF CONTROLLING TURN RATIO AND VOLTAGE OF THE TRANSFORMER USING THE SAME - A switching device for a transformer allows stable power supply without power interruption when a secondary winding voltage of the transformer is changed in the case of voltage drop on a distribution line due to a load characteristic. The switching device having an uninterruptible power supply function includes a plurality of switches operated by an external signal, a current circulation unit for multiple switches electrically connected to a large-current path of the switches to perform a switch-on function in place of the switches upon switching on and off between the switches, and a control unit electrically connected to the switches and current circulation unit to read voltage values and to apply signals to the switches depending on the voltage values to sequentially switch the switches. Accordingly, the switching device can stably supply power to power consumption sources without power interruption. | 01-29-2009 |
20090058194 | SOURCE DRIVER AND METHOD FOR RESTRAINING NOISE THEREOF - The present invention discloses a source driver and a method for restraining noise output by a source driver during power on/off of a power supply. The source driver includes a multiplexer, at least two channels and at least two output pads. The channels are connected to the output pads via the multiplexer. The source driver is powered by a first supply voltage from the power supply. The two output pads are connected via a charge sharing switch. The method comprises the following steps. First, determine whether the first supply voltage is insufficient, and if yes, perform the following steps. Turn off the charge sharing switch. Then, disconnect the channels from the output pads by the multiplexer. | 03-05-2009 |
20090066166 | Low-Voltage Dips Generator Device - The invention relates to a device for generating low-voltage dips in an electrical power generator ( | 03-12-2009 |
20090102295 | Audio Power Conversion System - An audio power conversion system includes a power supply having a positive supply rail and a negative supply rail for supplying power to a single ended class D amplifier. The system further includes a supply pump reduction circuit connected to the supply rails and adapted to redistribute a pumping charge from said power supply by forcing a current-flow from a rail with a higher voltage to a rail with a lower voltage. According to the at least one embodiment of the invention, the redistribution circuit is arranges to always distribute charge from the rail with the higher voltage. Thus, for practical circuits, the pump canceling occurs continuously and is not confined to every other cycle. | 04-23-2009 |
20090121555 | Vehicle audio system power supply - A power supply circuit for a vehicle audio system supplies a regulated voltage to a control unit through a series diode and full battery voltage to a power amplifier through a normally-off series power-FET. When the audio system is activated, the control unit turns on the series power-FET to permit operation of the power amplifier. If the control unit detects a sudden voltage drop or an engine crank signal, it prevents audible loudspeaker sounds by immediately turning off the series power-FET and issuing a shut-down command to the power amplifier. If the battery voltage is reversed, the series diode isolates the control unit, and the series power-FET remains off. | 05-14-2009 |
20090206680 | Apparatus for Suppressing Mid-Frequency Noise in an Integrated Circuit Having Multiple Voltage Islands - An apparatus for suppressing mid-frequency noise in an integrated circuit having multiple voltage islands is disclosed. Voltage rails powered at higher nominal voltages are selectively connected to voltage rails powered at lower nominal voltages via controlled gates. During operation, a voltage rail in which voltage has decreased below a pre-determined threshold is coupled to a voltage rail powered at a higher nominal voltage for a pre-selected time interval. | 08-20-2009 |
20090212643 | Systems and Methods of Dynamic Reactive Support for a Power Transmission System - Systems and methods of dynamic reactive power support for a power transmission system are provided. In one embodiment, a method of dynamic reactive power support for a power transmission system includes at least one circuit breaker connecting a shunt capacitor bank containing at least one shunt capacitor with a metal oxide varistor (MOV) connected in parallel. A controller is used to detect a voltage drop at the power transmission system (e.g., substation bus). In response to detecting the voltage drop, the controller closes the circuit breaker(s) connecting the shunt capacitors to the power transmission system. The controller then monitors at least one MOV to detect a current flow. Upon detection of a current flow in the MOV, the controller disconnects one or more shunt capacitors from the power transmission system by opening one or more circuit breakers. The shunt capacitors may be disconnected simultaneously, sequentially, in groups, or otherwise. | 08-27-2009 |
20090230780 | Power controller for a mounting substrate and a semiconductor substrate - In a power controller for a mounting substrate adapted to mount an integrated circuit includes I/O pads mounted on a semiconductor substrate as the mounting substrate, and a Vcc1 electric circuit system mounted on the semiconductor substrate, an isolator portion is included in the power controller and is connected between one of the I/O pads and the Vcc1 electric circuit system. Another isolator portion may be connected between the other I/O pad and another Vcc3 electric circuit system. | 09-17-2009 |
20090243400 | Semiconductor device capable of switching operation modes and operation mode setting method therefor - A semiconductor device according to the present invention includes: a first internal terminal; a second internal terminal; a first switching circuit coupled to the second internal terminal to switch between a state in which the second internal terminal is electrically coupled to a first reference electric potential and a state in which the second internal terminal is not electrically coupled to the first reference electric potential; a second switching circuit coupled to the second internal terminal to switch between a state in which the second internal terminal is electrically coupled to a second reference electric potential and a state in which the second internal terminal is not electrically coupled to the second reference electric potential; and a comparator coupled to the first internal terminal and the second internal terminal to compare an electric potential of the first internal terminal with an electric potential of the second internal terminal, in which the first switching circuit and the second switching circuit exclusively operate in accordance with the electric potential of the first internal terminal. In the above-mentioned structure, when the second internal terminal is not bonded to an external terminal, the second internal terminal is pulled up or pulled down in accordance with a logical level of a signal input to the first internal terminal. Consequently, a connection state between the external terminal and the second internal terminal (mode pad) can be detected irrespective of the logical level (H level/L level) of the signal input to the first internal terminal. | 10-01-2009 |
20100013325 | FIELD DEVICE INTERFACE WITH NETWORK PROTECTION MECHANISM - A field device interface module includes a connector, a plurality of terminals, a protocol interface module, a controller and a power supply module. The connector is configured to operably couple to a computer. The terminals are operably coupleable to a field device. The protocol interface module is coupled to the plurality of terminals and configured to generate signals in accordance with a process communication protocol. A power supply module is coupled to the plurality of terminals. The controller is coupled to the protocol interface module and to the power supply module and is configured to measure a voltage across the plurality of terminals and selectively cause the power supply module to provide power to the field device. | 01-21-2010 |
20100045117 | PROTECTION DEVICE FOR A POWER SOURCE AND POWER UNIT USING SAME - A protection device for an output power source of an electronic device includes a compare unit, an invert unit and a switch unit. The compare unit is coupled with the output power source and receives an input voltage value and a predetermined voltage value from the output power source. The compare unit compares the input voltage value and the predetermined voltage value to generate a comparison signal. The invert unit is coupled with the compare unit and receives the comparison signal to generate an inverted signal. The switch unit is coupled with the output power source and the invert unit, and receives the inverted signal. If the input voltage value is higher than the predetermined voltage value, the switch unit turns on and outputs an output voltage, and if the input voltage value is lower than the predetermined voltage value, the switch unit turns off and has no output. | 02-25-2010 |
20100060084 | BATTERY PROTECTION IC AND BATTERY DEVICE - Provided are a battery protection IC adaptable to any number of batteries connected in series without increasing a breakdown voltage thereof, and a battery device including the battery protection IC mounted thereon. A charge control signal input terminal and a discharge control signal input terminal of one battery protection IC are provided with a clamp circuit ( | 03-11-2010 |
20100066177 | APPARATUS FOR STABILIZING POWER SUPPLY OF HEATER HOUSING BOX COOLING APPARATUS - In a cooling system used in cooling of a heater housing box, the present invention presents an apparatus for stabilizing power supply of heater housing box cooling apparatus capable of changing over a plurality of taps provided in the winding of a power transformer before the output voltage exceeds an allowable voltage range when turning on alternating-current power supply. For this purpose, first resistor | 03-18-2010 |
20100141048 | MOBILE PHONE AND POWER SUPPLY SYSTEM OF THE SAME - A mobile phone includes a signal processor, an operating module, and a power supply system. The working voltage of the operating module is bigger than that of the signal processor. The power supply system includes a power source, a voltage boosting unit, and a controller. The input terminal and output terminal of the voltage boosting unit is connected to the power source and the operating module respectively. The controller is configured for connecting the signal processor to the power source or the output terminal of the voltage boosting unit corresponding to the output voltage of the power source being bigger or smaller than a preset threshold voltage. | 06-10-2010 |
20100225177 | SWTICHING PHASE OFFSET FOR CONTACTOR OPTIMIZATION - A system and methods providing for minimizing the arc energy delivered to the pads of a plurality of contactors using a single control coil based on monitoring the electrical sine waves of the three alternating current electrical poles and calculating the instant to energize or deenergize a single control coil. The remainder of the contactors will make or break based on an offset in time from the making or breaking of the control contactor. | 09-09-2010 |
20100244587 | POWER CONNECTION BETWEEN SERIAL INTERFACES - This invention relates to a method, an apparatus, a computer program product and a system for a first serial and a second serial interface for connecting or disconnecting a power terminal of a first serial interface to a power terminal of a second serial interface based on a voltage level at an identification terminal of the second serial interface, wherein each interface comprising at least one data line and power supply line. | 09-30-2010 |
20100264753 | INTERFACE DEVICE FOR HOST DEVICE, INTERFACE DEVICE FOR SLAVE DEVICE, HOST DEVICE, SLAVE DEVICE, COMMUNICATION SYSTEM AND INTERFACE VOLTAGE SWITCHING METHOD - A communication system in which an operating voltage can be selected from a plurality of interface voltages enables an interface voltage to be switched in a stable manner during operation of the system. When the interface voltage is to be switched, a host device ( | 10-21-2010 |
20100277006 | SOLID STATE CIRCUIT BREAKER - A solid state circuit breaker includes a first terminal; a second terminal; a first wide-band gap field effect transistor coupled to the first terminal; a second wide-band gap field effect transistor coupled to the second terminal, wherein the first wide-band gap field effect transistor and the second wide-band gap field effect transistor are common-source connected to one another; and a bi-directional snubber device coupled to the first wide-band gap field effect transistor and the second wide-band gap field effect transistor. Such a solid state circuit breaker may also include a gate drive circuit coupled to the first wide-band gap field effect transistor and the second wide-band gap field effect transistor, where the gate drive circuit may comprise a voltage regulation stage and a drive stage. | 11-04-2010 |
20110095624 | Single Wire Transmission Interface And Method For the Same - The present invention discloses a single wire transmission interface comprising: a signal detection circuit detecting level switchings of a transmission signal from a single wire, and generating an enable signal and a decoded signal corresponding to the transmission signal, the level switchings including first switchings from a first level to a second level and second switchings from the second level to the first level, wherein the enable signal starts according to one first switching of the transmission signal, and stops when no first switching occur in a predetermined period after one second switching of the transmission signal, and wherein rising edges (or falling edges) of the decoded signal correspond to the first switchings of the transmission signal; a counter, under enablement by the enable signal, counting a number of the rising edges (or the rising edges) of the decoded signal or the first switchings of the transmission signal, and generating a count; a single short pulse generator generating a short pulse according to the start of the enable signal to reset the decoded signal. | 04-28-2011 |
20110133571 | PROTECTION CIRCUIT AND BATTERY PACK - A protection circuit having: a connecting terminal which is connected to an external circuit and which inputs and outputs a charging/discharging current of a secondary battery to and from the external circuit; a voltage detection unit for detecting an output voltage of the secondary battery; a current detection unit for detecting a discharging current of the secondary battery; a power consumption calculation unit for calculating power consumption of the external circuit by multiplying a value of the output voltage detected by the voltage detection unit by a value of the discharging current detected by the current detection unit; and an external protection unit for executing external protection processing of protecting the external circuit when the power consumption calculated by the power consumption calculation unit exceeds a power threshold set to a value that is not less than a maximum value of power consumption of the external circuit. | 06-09-2011 |
20110163613 | Semiconductor Device - Of a wireless communication system, an RF tag which can operate normally even when a communication distance is extremely short, like the case where the RF tag is in contact with a reader/writer, whereby the reliability is improved. The RF tag which communicates data by wireless communication includes a comparison circuit which compares electric power supplied from outside with reference electric power and a protection circuit portion which is operated when the electric power supplied from outside is higher than the reference electric power in the comparison circuit. | 07-07-2011 |
20120032528 | INTERFACE DEVICE FOR HOST DEVICE, INTERFACE DEVICE FOR SLAVE DEVICE, HOST DEVICE, SLAVE DEVICE, COMMUNICATION SYSTEM AND INTERFACE VOLTAGE SWITCHING METHOD - A communication system in which an operating voltage can be selected from a plurality of interface voltages enables an interface voltage to be switched in a stable manner during operation of the system. When the interface voltage is to be switched, a host device ( | 02-09-2012 |
20120062042 | LOW POWER START-UP CIRCUIT - A start-up circuit includes an energy storage device operable to selectively power a load. A switch controls a flow of current from the energy storage device to the load. The switch preventing a flow of current to the load in an OFF state. A voltage comparison device is configured to turn the switch ON to permit a flow of current to the load in response to a charge of the energy storage device exceeding a predefined voltage threshold. The voltage comparison device maintains the switch in an OFF state in response to the charge of the energy storage device being below the predefined voltage threshold. | 03-15-2012 |
20120074793 | PERIPHERAL DEVICE AND CONTROL METHOD THEREOF - There is provided a peripheral device capable of being connected to a host device through a connection cable including a power line. This peripheral device comprises: a first power terminal capable of being connected to the power line of the connection cable; a power circuit connected to a second power terminal different from the first power terminal and for supplying power to an internal circuit; a start signal generating circuit for generating a start signal causing the power circuit to start supplying power to the internal circuit, when power has been supplied to the first power terminal through the connection cable; and a feedback circuit for allowing the start signal to remain activated when power has been supplied to the internal circuit from the power circuit. | 03-29-2012 |
20120169142 | TPMS TRANSMISSION MODULE HAVING POWER SAVING FUNCTION - Disclosed herein is a TPMS transmission module having a power saving function, the TPMS transmission module including: a micom outputting a switch turn-off control signal when a vehicle having the TPMS transmission module mounted therein is stopped; a switch supplying a power when the switch is turned on and blocking the supply of the power when it is turned off; an energy generator generating and outputting an electric power when a tire rotates; and a switch controller turning on the switch when the electric power of a predetermined voltage or more is generated in the energy generator and turning off the switch when a switch turn off control signal is output from the micom. | 07-05-2012 |
20120175972 | SYSTEM AND METHOD FOR BATTERY SAVER - A battery saver device including a microcontroller that measures a voltage of a battery; a battery control module coupled to the microcontroller and including one or more transistors that electronically connect a device load to the battery when the transistors are in an active mode, and the microcontroller is further provided to turn off the transistors when the voltage of the battery falls below a predetermined threshold voltage. | 07-12-2012 |
20120212077 | HOT SWAPPABLE SYNCHRONOUS BUCK REGULATOR - A synchronous buck regulator includes a voltage regulator, a sample unit, a switch element, a comparison unit, a time delay unit, and a control unit. The sample unit is connected to the external power source for sampling a voltage drop in the external power source. The comparison unit is connected to the sample unit for outputting a result-high signal when the current passing through the sample unit is greater than a predetermined current rating. The time delay unit is connected to the comparison unit for outputting a first result-low signal. The control unit is connected to the time delay unit and outputs a first a low level signal to the switch element according to the result-low signal. The switch element connects the sample unit and the voltage regulator and can isolate the voltage regulator from the external power source when the low level signal is received. | 08-23-2012 |
20120217823 | DISPLAY DEVICE AND POWER-SUPPLY NECESSITY DETERMINATION METHOD OF BRANCH DEVICE CONNECTED TO DISPLAY DEVICE - A branch device has a connector for connecting to a display device as a sink device. A pull-up resistor is connected between an internal power source in the branch device and a first terminal in the connector when power supply from the display device is not necessary for the branch device, and a short resistor is connected between the first terminal and a second terminal in the connector when power from the display device is necessary. An evaluation circuit determines whether or not the power has to be supplied from the display device to the branch device by evaluating a voltage appearing at the first terminal when the signal for determination is applied to the second terminal by comparing that voltage to two different reference voltages which are within a range higher than a GND voltage and lower than the voltage of a second internal power source of the device itself. | 08-30-2012 |
20120286591 | POWER SUPPLY DEVICE - A power supply device has a power source providing a voltage and a monitoring device electrically connected to the power source. The monitoring device measures the voltage, the current, and the temperature of the power source when power is drawn from the power source, and interrupts the power draw if the voltage drops below a cutoff threshold. The cutoff threshold depends on the temperature at the power source and the current. | 11-15-2012 |
20120299395 | SWTICHING PHASE OFFSET FOR CONTACTOR OPTIMIZATION - A system and methods providing for minimizing the arc energy delivered to the pads of a plurality of contactors using a single control coil based on monitoring the electrical sine waves of the three alternating current electrical poles and calculating the instant to energize or deenergize a single control coil. The remainder of the contactors will make or break based on an offset in time from the making or breaking of the control contactor. | 11-29-2012 |
20120326531 | ELECTRICAL STORAGE APPARATUS - According to one embodiment, an electrical storage apparatus includes an electrical storage unit configured to output direct-current power, a switch element configured to block positive-side wiring connecting the electrical storage unit to an outside, a diode connected in parallel with the switch element in a direction of a current flowing from the outside to the electrical storage unit, a voltage detection unit configured to detect voltages at both ends of the switch element, and a switch control unit configured to open the switch element when the voltage detected by the voltage detection unit is a predetermined value or greater. | 12-27-2012 |
20130002045 | Power Harvesting Device - Techniques are described to harvest power from a single current carrying conductor to furnish power to a powered device. The techniques employ a power harvesting device that is coupled to the conductor. In implementations, the conductor has a first path and a second path. The power harvesting device includes a first switch coupled to the second path. An energy storing element is coupled to the first path and configured to store energy based upon the direct current flowing through the first path. The power harvesting device also includes a power condition and management device coupled to the energy storing element configured to switch the first switch to a closed configuration when the energy storing element is measured to have a predefined high voltage threshold, and to switch the first switch to an open configuration when the energy storing element is measured to have a predefined low voltage threshold. | 01-03-2013 |
20130015722 | ACTUATING DEVICEOF WIRELESS ACCESS POINTAANM Lu; Chia-HaoAACI Zhubei CityAACO TWAAGP Lu; Chia-Hao Zhubei City TWAANM Yen; Shi-MinAACI Guishan TownshipAACO TWAAGP Yen; Shi-Min Guishan Township TWAANM Liao; Chih-WeiAACI Hukou TownshipAACO TWAAGP Liao; Chih-Wei Hukou Township TW - An actuating device of a wireless access point (WAP), the WAP includes a first module, a second module with a power requirement, and an actuating device. The WAP has a first voltage range and a second voltage range. The actuating device includes a switching unit and a voltage regulating unit. The switching unit receives an input voltage and has two output terminals. The switching unit outputs a first voltage via the first output terminal when the input voltage is within the first voltage range, and outputs a second voltage via the second output terminal when the input voltage is within the second voltage range. The voltage regulating unit is coupled to the output terminals to convert the second voltage to the first voltage. The second module is coupled to the second output terminal of the switching unit. | 01-17-2013 |
20130038141 | FAN CONTROL CIRCUIT - A fan control circuit is used to control first and second fans to be powered on at different time after receiving a power good (PWGD) signal from a motherboard. The fan control circuit includes a first control circuit, a delay circuit, and a second control circuit. The first control circuit and the delay circuit are connected to the motherboard to receive the PWGD signal. The first control circuit powers the first fan after receiving the PWGD signal. The delay circuit delays the received PWGD signal, and outputs the delayed PWGD signal to the second control circuit after a delay time. The second control circuit powers the second fan after receiving the delayed PWGD signal. | 02-14-2013 |
20130038142 | ELECTRICAL ADAPTER POWER RATING DETERMINATION - Electronic circuits are provided for use with various electrical adapters. Two resistors define a voltage divider circuit. One or more resistors are coupled in parallel arrangement with the voltage divider by way of controlled switching. A voltage present within the voltage divider is converted into a digital signal, which is used to determine a power rating for the respective electrical adapter. The power rating is used to control normal operations of a computer or other device. The electrical adapter can optionally include a second resistor that is switched into parallel circuit arrangement with a first resistor during the power rating determination process. | 02-14-2013 |
20130062970 | SWITCHING DEVICE - A phase changeover switch selects that phase of a three-phase supply system which has the lowest loading for forwarding to a single-phase connection. | 03-14-2013 |
20130134802 | APPARATUS AND METHOD FOR USE IN TRANSFERRING AN ELECTRICAL POWER SUPPLY IN ORDER TO BYPASS A TRANSFORMER BASED VOLTAGE OPTIMIZATION DEVICE - A transformer based voltage-optimization device configured for use as a component of an electrical circuit that is associated with an electrical power supply, a load and a bypass switch connection, the voltage optimization device comprising a transformer comprising a control winding, an electrical power input means and a transformer tap, the voltage optimization device characterized by further comprising a control means configured to control the voltage potential across said transformer wherein the control means is configured to substantially equalize the voltage and the associated phase angle of the voltage across the transformer in order to limit the voltage potential across the control winding before disconnecting the transformer from the power supply. | 05-30-2013 |
20130140914 | Controlling Communication System - There is provided a controlling communication system which includes a control device for transmitting a control signal, an object-side communication device mounted on a controlled object for receiving the control signal, and a drive control device for controlling the controlled object, and which can set a failsafe function of the object-side communication device using the control device, wherein a voltage reference value and a detection time reference value set by the control device are transmitted to the object-side communication device and are stored in a memory unit of the object-side communication device, and wherein the object-side communication device judges if the battery state meets a requirement for activating a failsafe function by referring to the voltage reference value and the detection time reference value stored in the memory unit. | 06-06-2013 |
20130175881 | VOLTAGE OR CONTACT CLOSURE SENSOR - An external signal sensor uses a single sensing circuit to detect a DC voltage or an AC voltage or a contact closure. The circuit can sense different isolated signals with relatively low power consumption. According to various embodiments, an isolation transformer has a primary winding that is fed by an oscillator signal. A secondary winding of the isolation transformer is open when no contact closure or AC or DC voltage is present, but is closed when a contact closure is present or when an AC or DC voltage is present. When the secondary winding is open, a status signal at an output of the sensing circuit has a logical high value. When the secondary winding is closed, the status signal has a logical low value. In this way, the same sensing circuit can be used to detect either a contact closure or an AC or DC voltage. | 07-11-2013 |
20130200728 | POWER MANAGEMENT SYSTEM - A power management system for an electronic device includes a first power converting module, for selectively converting an input voltage of a battery module of the electronic device to a first supply voltage and outputting the first supply voltage to an output node according to a first control signal; a second power converting module, for selectively converting the input voltage to a second supply voltage and outputting the second supply voltage to the output node according to a second control signal; and a logic control module, for outputting the first control signal and the second control signal according to the input voltage and a threshold voltage in order to control whether the input voltage is converted by the first power converting module or the second power converting module. | 08-08-2013 |
20130221760 | POWER SWITCHING CONTROL DEVICE AND CLOSING CONTROL METHOD THEREOF - A power switching control device and a closing control method thereof that can suppress generation of a transient voltage or current that is possibly caused by a variation in a load-side voltage after interrupting a current are obtained. A circuit-breaker-gap-voltage estimate value at and after a present time is calculated based on a power-supply-side voltage estimate value and a load-side voltage estimate value at and after the present time, a target closing-time domain from a closing controllable time to a closing control limit time in which a circuit breaker can be closed at a timing when an absolute value of the circuit-breaker-gap-voltage estimate value falls within a preset allowable range is calculated based on this circuit-breaker-gap-voltage estimate value, and the closing controllable time is delayed by a preset delay time in a case of a subsequent closing phase of a second or later closing phase. | 08-29-2013 |
20130300215 | INRUSH CURRENT SUPPRESSION APPARATUS - According to one embodiment, there is provided an inrush current suppression apparatus that suppresses an inrush current generated when shunt capacitors are connected to a power system, the apparatus including a voltage measurement unit measuring power source voltages, a current measurement unit measuring circuit breaker currents, a polarity determination unit determining the polarities of residual voltages, a phase section detector detecting a phase section in which the polarities of the residual voltages match the polarities of the power source voltages, and a circuit breaker closing unit closing the circuit breaker within the phase section. | 11-14-2013 |
20130313917 | ELECTRICAL MEANS TO LIMIT CURRENT IN BATTERY OPERATED PATIENT-CONNECTED MEDICAL DEVICES | 11-28-2013 |
20130320777 | CONNECTOR DEVICE AND ELECTRONIC DEVICE - A connector device includes: a pin; a detector coupled to the pin and detects a voltage of the pin; a controller coupled to the detector and identifies that an external device is coupled to the pin on the basis of the voltage of the pin; and a switching circuit coupled to the pin and switches an output signal on the basis of a control signal output from the controller. | 12-05-2013 |
20130320778 | Protective Device for a Photovoltaic System - A protective device for a photovoltaic system includes at least one input for connection to a photovoltaic generator and at least one output for delivery of an electric power supplied from the photovoltaic generator. The protective device includes a detection device for a signal applied via the at least one output, and is configured to provide a low level-limited voltage at the at least one output if an applied signal does not meet a predetermined criteria, and is further configured to connect the at least one output with low resistance to the at least one input via a switching device if the applied signal meets the predetermined criteria. | 12-05-2013 |
20130328415 | BLEEDER CIRCUITRY FOR INCREASING LEAKAGE CURRENT DURING HICCUP MODES OF POWER ADAPTERS - The disclosed embodiments provide a system that facilitates operation of a power adapter in hiccup mode. The system includes a bleeding mechanism that reduces a hiccup time of the hiccup mode by increasing a leakage current of the power adapter. The system also includes an activation mechanism that activates the bleeding mechanism upon detecting a voltage drop associated with the hiccup mode. | 12-12-2013 |
20140015343 | USB MULTI-ADAPTER - A USB multi-adapter for connecting to a USB plug of an electronic device, and a USB receptacle of a laptop computer, a desktop computer, or an electric socket, includes a device identifying module including at least one USB plug and/or at least one USB receptacle, the device identifying module being capable of identifying kind of a connected electronic device based on a voltage signal in a differential pair and communicating therewith; and a mode determining module electrically connected to the device identifying module for determining whether the connected electronic device is in a power supply mode or a communication mode so that at least one electronic device can be charged by the USB multi-adapter or a communication between the at least one electronic device can be carried out by the USB multi-adapter. | 01-16-2014 |
20140021802 | USB SSIC THIN CARD DEVICE AND DATA TRANSFER METHOD THEREOF - A USB SSIC thin card device and a data transfer method thereof are provided. A first universal serial bus (USB) physical layer circuit is controlled by a USB device control unit to transmit data through a pair of first differential signal pins and a pair of a second differential signal pins, wherein the first USB physical layer circuit is used to transmit data complied with a USB 3.0 SSIC transmission specification. | 01-23-2014 |
20140028116 | SYSTEM FOR DETECTING A FALLING ELECTRIC POWER CONDUCTOR AND RELATED METHODS - Methods and systems for detecting a falling power line in a power transmission or distribution system are described. Electrical measurements at various points in the power distribution system are used to detect changes in a power line indicating that the conductor has broken or become disconnected. Upon detection, control mechanisms are used to deenergize the conductor while the conductor is falling and/or before it contacts the ground. | 01-30-2014 |
20140042828 | ELECTRIC STORAGE APPARATUS AND POWER PATH SWITCH APPARATUS - An electric storage apparatus includes: an electric storage device; a potential difference measuring unit for measuring a potential difference at two arbitrary points on a charging/discharging path for the electric storage device; a self-holding switch disposed between the two points on the charging/discharging path; a current measuring unit for measuring a current flowing on the charging/discharging path; a switch controller for controlling switching of the self-holding switch based on at least the state of the electric storage device; and an operational state determining unit for determining the operational state of the self-holding switch based on the control state of the switch controller and at least one of a result measured by the potential difference measuring unit and a result measured by the current measuring unit. | 02-13-2014 |
20140042829 | DEVICE, METHOD, AND SYSTEM FOR INTEGRATED BATTERY POWER CONTROL - A device, method, and system includes an integrated battery power controller configured to monitor a voltage difference between a first output terminal and a second output terminal; disconnect, via a switch, at least one of the first output terminal and the second output terminal from a power source if the voltage difference between the first output terminal and the second output terminal is less than a predetermined voltage threshold; and connect, via the switch, both the first output terminal and the second output terminal to the power source if the voltage difference between the first output terminal and the second output terminal is equal to or greater than the predetermined voltage threshold. | 02-13-2014 |
20140070631 | ELECTRONIC DEVICE FOR THE CONNECTION OF TWO OR MORE LOADS TO THE ALTERNATING ELECTRICAL NETWORK AND THE EXECUTED CONNECTION PROCEDURE - Electronic device for the connection of two or more loads to the alternating electrical network and the executed connection procedure, allowing for the supply of such loads keeping under control inrush current value, as well as supplying the nominal current value during steady state. The device and its procedure comprise a clear solution especially designed for simultaneous charge of significant amount of electronic devices, whose charge is carried out by switching-type DC chargers. This situation is feasible for both single-phase networks of 110 VAC or 220 VAC nominal. | 03-13-2014 |
20140091643 | Electronic Circuit with an Electronic Switch and a Monitoring Circuit - An electronic circuit includes an electronic switch having a control terminal and a load path. A monitoring circuit includes a switched-capacitor circuit with a capacitive storage element. The switched-capacitor circuit is coupled to the load path of the electronic switch. The monitoring circuit is operable to evaluate a load voltage of the electronic switch and to generate a failure signal dependent on the evaluation. A drive circuit is operable to provide a drive signal at the control terminal of the electronic switch dependent on the failure signal. | 04-03-2014 |
20140091644 | Electric hand-held power tool with a shut-off delay device - An electric hand-held power tool includes at least one electrical drive, at least one electrical device that requires electrical energy in order to operate, a shut-off delay device for the electrical drive and/or the electrical device, at least one rechargeable battery for supplying electrical energy to the drive and the electrical device and an exhaustive-discharge safeguard device. The exhaustive-discharge safeguard device specifies the delay time (Δt) of the shut-off delay device as a function of the state of charge of the rechargeable battery it has determined. | 04-03-2014 |
20140111030 | POWER MANAGEMENT CIRCUIT AND METHOD THEREOF - A power management circuit adapted for a portable electronic device is provided. The portable electronic device receives a supply voltage from a USB power supplying port through a built-in USB charging port. The power management circuit includes a USB detection unit, a voltage detection unit, and a control unit. The USB detection unit determines the type of the USB power supplying port. The voltage detection unit detects the supply voltage. The control unit configures the power consumption of the portable electronic device based on the type of the USB power supplying port and the supply voltage. When the portable electronic device initiates booting process with the USB power supplying port being the Dedication Charging Port and the supply voltage being lowered than a threshold, the control unit reduces the power consumption of the portable electronic device to maintain the supply voltage above the threshold for booting stably. | 04-24-2014 |
20140117781 | CONTROL APPARATUS FOR AN ELECTRICAL LOAD - A control apparatus for controlling the power of an electrical load, in particular of an electrical domestic appliance or an assembly of an electrical domestic appliance, comprises at least one sensor for detecting a parameter of an electrical supply voltage, and a processing means for comparing a parameter which is detected by the sensor with a prespecified value, and for influencing the power of the load on the basis of the result of the comparison. | 05-01-2014 |
20140132083 | USB PERIPHERAL DEVICE DETECTION ON AN UNPOWERED BUS - Method for detecting a connection of a peripheral device to a communication interface of an electronic device and associated detection circuit; the communication interface comprising a voltage power line for the power supply of a peripheral device, a range of nominal operating voltage values being associated with the power line, the method being characterised in that it comprises steps of application of a nominal voltage comprised in the range of nominal operating voltage values to the power line, of withdrawal of the nominal operating voltage applied to the power line, of detection, on the power line, in the presence of a residual voltage less than a threshold value of the nominal voltage value, of a transient signal resulting from the connection of the peripheral device to the interface, and of application of the nominal voltage to the voltage power line, according to the transient signal detected. | 05-15-2014 |
20140139046 | Method and Electrical Interface Circuit Enabling Multiplexing - An electrical interface circuit is disclosed. The circuit comprises a microphone circuit ( | 05-22-2014 |
20140159507 | BATTERY PACK - An electrical combination. The electrical combination comprises a battery pack configured to be interfaced with a hand held power tool, a control component, and a semiconducting switch. The transfer of power from the battery pack to the hand held power tool is controlled by the control component and the switch based on one of a battery pack state of charge and a respective state of charge of one of a plurality of battery cells. A discharge current of the battery pack is regulated based on the switch being controlled into one of a first state and a second state by the control component to selectively enable the transfer power from the plurality of battery cells to the hand held power tool. | 06-12-2014 |
20140167528 | REMOTE DISCONNECT SAFETY MECHANISM - Electricity service may be safely remotely connected to a site by a network computing device, such as an electricity meter, even when the network computing device is not accessible at the site. The network computing device may include a service switch capable of connecting electricity service to a site, a communication module capable of receiving commands to connect or disconnect electricity service, and a safety mechanism to monitor a circuit internal to the site and to prevent the service switch from connecting electricity service to the site while a potentially unsafe condition is detected. | 06-19-2014 |
20140183975 | BROWNOUT RECOVERY CIRCUIT FOR BOOTSTRAP CAPACITOR AND SWITCH POWER SUPPLY CIRCUIT - In one embodiment, a brownout recovery circuit configured for a switch power supply circuit with a first switch, can include: (i) an under-voltage detection circuit that activates a detection signal when a bootstrap capacitor is not in an under-voltage state, and deactivates the detection signal when the bootstrap capacitor is in the under-voltage state; (ii) a logic circuit that generates a first control signal according to a main control signal from the switch power supply circuit and a second switch state; (iii) a first control circuit that generates a first switch signal according to the detection signal, and controls the first switch thereby; and (iv) a second control circuit that receives the first control signal, and generates a second switch signal to control the second switch thereby. | 07-03-2014 |
20140183976 | Method and System for a Connection System Operable to Sink and Source Supply Power - Aspects of a method and system for a connection system operable to sink and source supply power are provided. In this regard, one or more circuits within a connector that resides in a networking enabled device may be operable to determine whether the networking enabled device is to operate as a powered device or as a power supplying device. Based on a result of the determination, the one or more circuits may be operable to couple power pins of the connector to either a first power rail of the networking enabled device or a second power rail of the networking enabled device. The determination of whether the networking enabled device is to operate as a powered device or as a power supplying device may be based on a voltage on a sense pin of the connector and/or based on mechanical characteristics of the connector. | 07-03-2014 |
20140191589 | SAFETY DEVICE FOR A PHOTOVOLTAIC SYSTEM - The disclosure relates to a safety device for a photovoltaic system for feeding into a power supply system, that includes at least one input for connection to a PV generator, at least one output for connection to an inverter, and a switching element for de-energizing the at least one output. The safety device includes an evaluating unit configured to switch the switching element based on a low-frequency signal at the at least one output. The disclosure also relates to a method for operating such a safety device. | 07-10-2014 |
20140191590 | ELECTRICAL APPARATUS - An electrical apparatus is provided which can reduce, when it is shipped in a state in which a secondary battery is built therein, power consumption before a user starts to use the electrical apparatus first. The electrical apparatus includes a secondary battery, a load which operates by power supplied from the secondary battery, and a switch element disposed between the secondary battery and the load. The switch element remains in an off state until a user starts use of the electrical apparatus. | 07-10-2014 |
20140285032 | INTEGRATED CIRCUIT ARRANGEMENT, METHOD AND SYSTEM FOR USE IN A SAFETY-CRITICAL APPLICATION - An integrated circuit arrangement ( | 09-25-2014 |
20140292108 | BATTERY DISCONNECTION CIRCUIT - The invention is related to an apparatus comprising a switch configured to variably connect a device circuit of an electronic device to a battery, a cutout control circuit connected to the switch and comprising a supply power input and a cutout activation input, wherein the cutout control circuit is configured to turn the switch on when a supply voltage is connected to the supply power input. The invention is further related to a drug delivery device for delivering at least one drug agent comprising an apparatus of the aforementioned kind, a charging connector for a drug delivery device of the aforementioned kind and a method for manufacturing a drug delivery device of the aforementioned kind. | 10-02-2014 |
20140300210 | SYSTEM FOR CONTROLLING, MEASURING AND MONITORING THE SECONDARY ELECTRIC POWER DISTRIBUTION GRID - The present invention relates to a system for controlling, measuring and monitoring the secondary electric power distribution grid with remote fraud and power theft detection, readings, power cuts-off, reconnection and client load control, besides continuous monitoring of the electric grid parameters, providing diagnostics on the status of the grid and public lighting from an assigned Command Central, located at the secondary bulbar of the distribution transformer, and Measuring Modules at clients installations. | 10-09-2014 |
20140368060 | SAMPLE COOLING DEVICE FOR HISTOLOGICAL SAMPLES - A sample cooling device for histological samples is connectable to a power network for supplying electrical voltage to the device. The sample cooling device comprises a measuring apparatus for measuring a magnitude of an input line voltage present at the sample cooling device, and a transformer having a primary coil that comprises at least three coil pickoffs, and a secondary coil. The sample cooling device further comprises a switching means that connects two of the coil pickoffs to the power network as a function of the magnitude of the input line voltage, so that a magnitude of an output voltage present at the secondary coil has a predefined or predefinable voltage value irrespective of the magnitude of the input voltage. A corresponding method for supplying electrical power to a sample cooling device for histological samples is also disclosed. | 12-18-2014 |
20150035386 | Battery Management Scheme for NFC - There is described a method for establishing an NFC connection between a subscriber identity module (SIM) and an NFC device (RDR). The subscriber identity module (SIM) is connected to a telecommunications system (CELL_P) through contacts (VCC, RST, CLK, D+, GND, SWP, IO, D−) of the telecommunications system (CELL_P). The telecommunications system (CELL_P) comprises a chipset (CHP) and an NFC circuit (NFCC). The method comprises measuring the level of charge of a battery (BATT) powering the telecommunications system (CELL_P) with a battery gauge. Based on the measurement, the method selects the source for supplying power to the subscriber identity module (SIM) and configures the wiring of the subscriber identity module (SIM). The disclosure also relates, in particular, to a telecommunications system, to a computer program, and to a storage medium. | 02-05-2015 |
20150084437 | Portable Power and Signal Distribution System for a Controllable System Including Multiple Devices - A power supply assembly which can drive a number of different devices at different voltages. A rack holds a number of breaker modules, and each breaker module can connect to one or many breakout boxes. The breakout boxes are keyed to the breaker modules, so that the breaker boxes will not be energized with power unless they are the proper voltage and/or configuration to receive that power. The coil of a contactor in the breaker module is powered by a key wire that is connected through specified pins in the breakout box. Therefore, no power is ever provided to the breakout box unless it is of the proper voltage configuration. In addition, feeder power to the power supply assembly is provided over bolted connections, without any wire connections between the power feed and the circuit breaker. | 03-26-2015 |
20150091391 | DETECTION AND CLASSIFICATION SCHEME FOR POWER OVER ETHERNET SYSTEM - In a method performed by a PoE system, a PSE provides data and operating voltage over Ethernet wires to a PD. Before the full PoE voltage is supplied, the PSE generates a low current signal received by the PD. A circuit in the PD, connected across its input terminals, has a characteristic analog response to the PSE signal corresponding to the PD's PoE requirements, such as whether the PD is a Type 1 or Type 2 PD. The circuit may be a certain value capacitor, zener diode, resistor, or other circuit. The PSE may generate a fixed current, fixed voltage, or time varying signal. Upon the PSE sensing the magnitude of the analog signal response at a particular time, the PSE associates the response with the PoE requirements of the PD. The PSE then applies the full PoE voltage in accordance with the PD's PoE requirements. | 04-02-2015 |
20150108853 | Storage Battery System - By voltage sensors (CT | 04-23-2015 |
20150115745 | TRANSFER SWITCH - A transfer switch ( | 04-30-2015 |
20150115746 | APPARATUS AND METHOD FOR SELECTIVELY DETERMINING A MODE OF OPERATION - An apparatus for selectively switching a mode of operation of a detector, the apparatus comprising a detector configured for connection to a signalling terminal, switching means for configuring the detector to operate in one of sink mode or source mode and a voltage comparator, wherein the apparatus is configured to selectively switch to operate in sink mode or source mode based on a comparison of a voltage from the signalling terminal received at the voltage comparator with a threshold voltage. | 04-30-2015 |
20150123495 | RESET UNIT AND PORTABLE ELECTRONIC DEVICE HAVING SAME - A portable electronic device is formed of a system circuit, a battery, a normally open switch, and a reset unit. The system circuit includes a processor. The normally open switch is electrically connected with the battery. The reset unit is electrically connected with the system circuit, the battery, and the normally open switch and includes a reset switch and a control circuit. The control circuit is electrically connected with the reset switch. When the normally open switch is continuously conducted, electric energy accumulated in the control circuit reaches a predetermined threshold potential to cut of the reset switch to further stop the battery from supplying electric energy for the system circuit. | 05-07-2015 |
20150309545 | POWER METER DISCONNECT SWITCH OPERATION - Techniques are disclosed herein for improved power meter disconnect switch operation, which may include opening and/or closing of the disconnect switch. In particular, for reasons such as reduction of electromechanical stress on the disconnect switch, the disconnect switch may be operated based, at least in part, on a voltage at the load side of the disconnect switch. For example, in some cases, the disconnect switch may be opened slightly before a zero crossover of a waveform corresponding to the load side voltage. As another example, in some cases, the disconnect switch may be closed slightly before or slightly after a zero crossover of a waveform corresponding to the load side voltage. | 10-29-2015 |
20150316619 | METHOD AND APPARATUS FOR MEASURING VOLTAGE OF BATTERY PACK - A method and apparatus for measuring a voltage of a battery pack are provided. A battery control apparatus may include a voltage distributor configured to distribute a voltage of a battery pack including battery modules, using distribution elements connected to the battery pack, and a voltage extractor configured to extract a voltage value of the voltage of the battery pack by measuring the distributed voltage. | 11-05-2015 |
20150325999 | Method of Operating an Electronic Circuit with an Electronic Switch - An electronic circuit includes an electronic switch having a control terminal and a load path and also includes a monitoring circuit comprising a switched-capacitor circuit with at least one capacitive storage element. The switched-capacitor circuit coupled to the load path of the electronic switch. The circuit can be operated by using the monitoring circuit to evaluate a load voltage of the electronic switch and to generate a failure signal dependent on the evaluation and providing a drive signal at the control terminal of the electronic switch dependent on the failure signal. | 11-12-2015 |
20150343915 | ELECTRIC POWER CONTROL DEVICE - An electric power control device has a first connector connected to a second connector provided in a second appliance, and a control circuit provided within a first appliance that exchanges electric power with the second appliance via a harness and connected to the first connector via the harness. The first connector includes a latching solenoid that switches connector connection, i.e., connection between the first and second connectors, between a locked state and an unlocked state. The control circuit outputs a first or second voltage to an operating coil inside the latching solenoid to bring the connector connection into the locked or unlocked state, respectively. | 12-03-2015 |
20150377971 | Required Available Capacity Indication for Battery Backup Unit - A power management system is disclosed for providing an indication of the required available capacity (RAC) available from a backup battery unit (BBU) for backup or peak loading as required by a critical DC load, such as a computer bus. The power management system is configured to repeatedly determine the gross remaining capacity of the backup battery unit (BBU). The system processes this information and other measured or known battery parameters to determine the required available capacity (RAC). The RAC is based upon the required capacity of the critical load to which the BBU is connected. In general, the RAC is the difference between the gross remaining capacity of the battery at a given point in time and the required capacity of the critical load. In accordance with an important feature of the power management system, an indication of the RAC is provided. This indication can be used to indicate that the battery needs to be replaced or that the battery requires service and might indicate that the battery needs to be charged, needs to be warmed up, cooled down, etc. | 12-31-2015 |
20160043595 | ELECTRONIC DEVICE AND METHOD - According to one embodiment, an electronic device includes a power supply, a port and a circuit. The port is configured to connect with an external device. The circuit is configured to control the power supply to supply a first voltage to the external device connected with the port if a system status of the electronic device is not a power-saving status, and to supply a second voltage different from the first voltage to the external device if the system status of the electronic device is the power-saving status. | 02-11-2016 |
20160056002 | Method for activating a control device - A circuit arrangement for activating a control device includes: a first switch in a main current path, via which the control device is activated; an alternative current path; and a control logic which compares a voltage present for activating the control device to a threshold voltage and opens the first switch if the threshold voltage falls below so that a higher volume of an interference current effectuated by the present negative voltage flows via the alternative current path. | 02-25-2016 |
20160062383 | POWER SUPPLY VOLTAGE DETECTOR CIRCUIT - A power supply voltage detector circuit includes a control signal terminal, switch circuit, first voltage detector circuit, and second voltage detector circuit. The first voltage detector circuit has a first input connected to a power supply terminal and a first output connected to the control signal input of the switch circuit. The first voltage detector circuit outputs a first-ON signal to a control signal input of the switch circuit when the power supply voltage is greater than or equal to the first threshold. The second voltage detector circuit has a second input connected to a power supply output of the switch circuit and second output connectable to a load circuit. The second voltage detector circuit outputs a second-ON signal to the control signal terminal to activate the load circuit when the voltage at the second input is greater than or equal to the second threshold. | 03-03-2016 |
20160064974 | BATTERY PROTECTION INTEGRATED CIRCUIT APPLIED TO BATTERY CHARGING/DISCHARGING SYSTEM AND METHOD FOR DETERMINING RESISTANCES OF VOLTAGE DIVIDER OF BATTERY PROTECTION INTEGRATED CIRCUIT - A battery protection IC applied to a battery charging system is provided, where the battery charging system includes a charger and a switch, the switch is coupled between the charger and a battery when the battery is put into the battery charging system, and the battery protection IC includes a voltage divider, a comparator and a controller. The voltage divider is coupled to a first node of the switch, and is utilized for dividing a voltage of the first node to generate a divided voltage, whereat least one resistor of the voltage divider is formed by two different types of fuses. The comparator is utilized for comparing the voltage with a reference voltage to generate a comparison result. The controller is utilized for generating a control signal according to the comparison result, where the control signal is utilized for switching on or switching off the switch. | 03-03-2016 |
20160093456 | INTEGRATED CONNECTOR HAVING SENSE AND SWITCHING CONDUCTORS FOR A RELAY USED IN A BATTERY MODULE - Relays having internal connections on both sides of their switches may be used in conjunction with a connector that integrates both the normal relay switch control lines with the sensing conductors of a control module for a battery module of an energy storage device. In this manner, sensing conductors may be routed along with the switch control lines for the relay instead of separately as described above. This integration reduces the complexity and cost associated with the energy storage device, because it reduces the number of separately routed lines and also eliminates the external connections for at least some of the sensing conductors. | 03-31-2016 |
20160094226 | POWER SWITCH CONTROL BETWEEN USB AND WIRELESS POWER SYSTEM - An electrical system can selectively power a load via a USB connection or via another power source, such as a wireless power transfer path. An integrated switch controller determines whether to power the load via the USB connection or the other power sources and controls two external transistors via a single I/O pin connection to implement that determination. The switch controller determines the greater of two voltages: a voltage associated with the USB connection and a voltage associated with the other power source. The switch controller also determines whether there is a valid USB connection. The switch controller circuitry that controls the two external transistors is powered at the greater voltage to ensure that the external transistors are appropriately and securely turned on or off. | 03-31-2016 |
20160116925 | ELECTRICAL CIRCUIT FOR DELIVERING POWER TO CONSUMER ELECTRONIC DEVICES - An electrical circuit for providing electrical power for use in powering electronic devices, such as monitors, televisions, white goods, data centers, and telecom circuit boards, is described herein. The electrical circuit includes a voltage reduction circuit cell that includes a first capacitor, a second capacitor, a switching circuit, and a hold capacitor. The switching circuit includes a plurality of switching devices that are coupled to the first and the second capacitors for delivering power from an input terminal to an output terminal. The plurality of switching devices includes at least two switching devices that are coupled to ground. The voltage reduction circuit cell also includes a controller for operating the switching circuit in a plurality of operational modes to deliver an output power signal at a desired voltage level. | 04-28-2016 |
20160134275 | SWITCH BOX - A switch box includes a relay transistor circuit connecting a pair of batteries in parallel, and an breaker circuit that breaks the relay transistor circuit when a sign of a potential difference between a potential of at least one of the pair of batteries connected to the relay transistor circuit and a predetermined reference potential is reversed with respect to the sign of the potential difference in which the batteries are correctly connected. | 05-12-2016 |
20160164428 | METHODS AND DEVICES FOR DETECTING THE INPUT VOLTAGE AND DISCHARGING THE RESIDUEVOLTAGE - The present invention relates to power conversion systems, specifically, it relates to a device for detecting the DC voltage rectified from the AC power supply voltage in an AC-DC converter, primarily used to determine whether the DC input voltage is under a brown-out level and to monitor whether the AC power supply is removed and to discharge the residue DC voltage generated in a high frequency filter capacitor, which is used to filter high frequency noise signals of the AC power supply, during the removal of the AC power. | 06-09-2016 |
20160169946 | Monitoring Voltage Stability of a Transmission Corridor | 06-16-2016 |
20160197508 | Maximum Power Point Tracking in Energy Harvesting DC-to-DC Converter | 07-07-2016 |
20160254676 | ELECTRONIC DEVICE | 09-01-2016 |
20160380433 | METHOD OF DETERMINING A CONDITION OF AN ELECTRICAL POWER NETWORK AND APPARATUS THEREFOR - The present invention relates to apparatus | 12-29-2016 |
20180024172 | SYSTEMS FOR DETERMINING A VOLTAGE OUT-OF-RANGE HIGH CONDITION AND A VOLTAGE OUT-OF-RANGE LOW CONDITION OF A BATTERY MODULE | 01-25-2018 |