16th week of 2014 patent applcation highlights part 21 |
Patent application number | Title | Published |
20140103812 | Rolling Blackout Adjustable Color LED Illumination Source - A system and method for producing white light in an adjustable light emitting diode (LED) illumination device is provided. The system and method varies the “off” time for one of multiple sets of light emitting diodes (LEDs) or channels in succession in order to compensate for and stabilize the color-shifting or degradation that gradually occurs in LEDs. Each channel corresponds to a different color. By varying the “off” time of only one channel at a time, the system efficiently utilizes the majority of the LEDs, thereby enabling the production of a more stable white light with fewer LEDs. | 2014-04-17 |
20140103813 | MULTICHANNEL LIGHTING UNIT AND DRIVER FOR SUPPLYING CURRENT TO LIGHT SOURCES IN MULTICHANNEL LIGHTING UNIT - A lighting unit includes at least two channels of light sources, and a driver for the light sources. The driver includes a DC/DC converter and a control arrangement for controlling the current supplied to at least one of the two channels in response to a control signal produced by the DC/DC converter. Beneficially, a feedback loop controls a switching device in the DC/DC converter to maintain the light level produced by the light sources at a desired level regardless of changes in the supply voltage arid the load. | 2014-04-17 |
20140103814 | COMMUNICATION SYSTEM FOR ADAPTIVE LIGHTING CONTROL - Provided is a lighting system to control illumination of a plurality of areas. The lighting system includes a lighting fixture matrix having a plurality of lighting fixtures respectively located at the plurality of areas. Each of the lighting fixtures includes a sensor and a controller coupled with the sensor, a first sensor being configured to detect the presence of a user in a first of the plurality of areas. The lighting system also includes a communication circuit configured to provide for communication between each of the plurality of lighting fixtures. Upon detection of presence of a user in the first area, the respective controller is configured to illuminate a first of the lighting fixtures and send a signal to simultaneously trigger illumination of two or more of a remaining number of the plurality of areas. | 2014-04-17 |
20140103815 | Lamp with energy saving control - A lamp having energy saving controls, which include: a lighting unit, a control device coupled to this lighting unit, and signals from this control device are used to control the brightness levels of this lighting unit; a sensing device coupled to this control device, and when this sensing device senses an object or the object moves, it sends a signal to the control device, which adjusts the strength of the power supply accordingly; and a remote signal receiving device coupled to this control device, and when this remote signal receiving device receives a signal it generates a remote signal according to the signal received, and sends this signal to the control device, which adjusts the strength of the power supply accordingly. | 2014-04-17 |
20140103816 | Method and Structure for Increasing Receiving Angle of Optical Sensor and Handheld Terminal - A method and a structure are provided to increase a receiving angle of an optical sensor. The structure includes touchscreen glass, an optical sensor, and a main board. An ambient light hole is provided on the touchscreen glass. The optical sensor is disposed between the touchscreen glass and the main board. A light uniformizing film is disposed between the touchscreen glass and the optical sensor, is in contact with the touchscreen glass, and completely covers the ambient light hole. A handheld terminal includes the foregoing structure. | 2014-04-17 |
20140103817 | Night light - A night light is made to operate conveniently from a house current by converting the current to lower voltage for efficient automatic operation of a suitable LED light, or other suitable small light, for response to ambient light. An almost instantaneous response to an ambient light is provided by a circuit formed of readily available standard components guided in this instance by cooperation of a photocell which responds to a light ray to direct a Schmitt-trigger Inverter to operate a super-bright LED lamp. Circuitry is placed upon a printed circuit board upon a plastic housing for safety and convenience. | 2014-04-17 |
20140103818 | MICROCONTROLLER-BASED MULTIFUNCTIONAL ELECTRONIC SWITCH - A microcontroller-based multifunctional electronic switch using a detection circuit design to convert external motion signals into message carrying sensing signals readable to the microcontroller. Based on the time length of sensing signals and the format of the sensing signals received in a preset instant period of time the microcontroller through the operation of its software program codes written in the OTPROM is able to recognize the working modes chosen by the external signal generating user and thereby selecting the appropriate loops of subroutine for execution. The system and method of the present invention may simultaneously be applicable to detection circuit design using infrared ray sensor, electrostatic induction sensor, conduction based touch sensor or push button sensor for performing multifunction such as controlling the on/off switch performance, the diming or speed control and the delay timer management within the capacity of a single lighting device or an electrical appliance. | 2014-04-17 |
20140103819 | USER CONTROL OF AN ENVIRONMENTAL PARAMETER OF A STRUCTURE - An apparatuses, methods and systems for providing user control of an environmental parameter of a structure are disclosed. One method includes configuring a one or more units of the lighting system, establishing a local line-of-sight communication link between a user device and at least one sensor unit of the one or more sensor units, receiving, by the at least one sensor unit, a request from the user device, the at least one sensor unit propagating the request to a controller of the lighting system, the controller responding to the request with an operational change of a device associated with the at least one sensor unit, and the at least one sensor unit or the device associated with the at least one sensor unit providing an observable indicator to the user that the request has been addressed. | 2014-04-17 |
20140103820 | Boost Converter of Driver Circuit With Thermal Compensation - A circuit for providing thermal compensation for a driver circuit used to drive light emitting diodes (LEDs) is provided. The driver circuit can include a rectifier circuit configured to rectify an AC power source into a DC power source providing a DC source voltage. The driver circuit can further include a boost circuit configured to boost the DC source voltage to provide a drive voltage for driving the light emitting diodes. The boost circuit can include a switching element that is controlled based at least in part on a current sense circuit having a sense transistor. A thermal tracking transistor is provided as part of the reference to the sense circuit. | 2014-04-17 |
20140103821 | LIGHTING DEVICE AND VOLTAGE REDUCTION METHOD THEREOF - The disclosure provides a lighting device and a voltage reduction method thereof, wherein the lighting device comprises: an AC power supply generator for generating an AC power source to supply power to other accessories and circuits in the lighting device; m load components, every two adjacent load components forming one head common connection point and one end common connection point respectively for each load component from head to end alternatively; and (m−1) current balancing cells each respectively connected between one head common connection point or one end common connection point and one of two output terminals of the AC power supply generator; wherein the m load components comprise (m−n) low impedance load components therein. The present application can reduce the output voltage of the AC power supply generator with lower cost. | 2014-04-17 |
20140103822 | ELECTRONIC APPARATUS - According to one embodiment, an electric apparatus comprises a panel, a plurality of substrates at a back side of the panel, a plurality of first LEDs spaced apart from each other with gaps, on each of the substrates, and configured to illuminate the panel from the back side of the panel, and a plurality of second LEDs additionally arranged in the gaps at a substantially central portion in a lateral direction of the panel, of the gaps on each of the substrates, and configured to illuminate the panel from the back side of the panel. | 2014-04-17 |
20140103823 | LED LIGHT SOURCE - A LED light source comprises a full bridge rectifier equipped with a first input terminal and a second input terminal for coupling to output terminals of the phase cut dimmer, a series arrangement comprising N LED loads, a first and second end of said series arrangement being coupled to a first output terminal and a second output terminal of the full bridge rectifier respectively, control means for during a period of the rectified AC supply voltage subsequently making the LED loads comprised in the first series arrangement carry a current, one by one and in dependency of the momentary amplitude of the rectified AC supply voltage when the momentary amplitude increases and for subsequently making the LED loads stop carrying a current, one by one, and in dependency of the momentary amplitude of the rectified AC supply voltage when the momentary amplitude decreases, said control means controlling the current through the LED loads at zero when the output voltage of the phase cut dimmer equals zero and controlling the current through the LED loads at a value that is independent from the phase angle of the phase cut dimmer when the output voltage of the phase cut dimmer differs from zero Volt. In order to make the LED light source compatible with a phase cut dimmer, the LED light source is further equipped with a switchable bleeder current source coupled between the first and second output terminal of the full bridge rectifier, a latch coupled between the first and second output terminals of the full rectifier bridge and comprising a series arrangement of a resistor and a capacitor to prevent the current through the dimmer from crossing zero after a leading edge generated by the phase cut dimmer, in case the phase cut dimmer is a leading edge phase cut dimmer, a unidirectional element arranged in series with the capacitor for preventing discharging of the capacitor via the LED loads or the adjustable bleeder current source, and a clamp circuit coupled to the capacitor and comprising a current source for discharging the capacitor and providing a low ohmic path for the dimmer current when the dimmer is off. | 2014-04-17 |
20140103824 | LAMP - A lamp includes a lamp tube, a carrier, a light bar circuit board, a driver circuit board, a plurality of first luminous elements and a parallel-connected type luminous unit. The carrier is accommodated in the lamp tube. The light bar circuit board is disposed on the carrier. The driver circuit board is disposed on the carrier and adjoins the light bar circuit board. The first luminous elements are disposed on the light bar circuit board. The parallel-connected type luminous unit is disposed on the driver circuit board, and includes a plurality of luminous element groups connected in parallel. | 2014-04-17 |
20140103825 | LED LIGHT SOURCE - A string of LED loads is supplied by means of a rectified mains voltage. A cathode of each LED load is coupled to ground by means of a string. The strings are made conductive and non-conductive one by one in dependency of the instantaneous value of the rectified mains using both voltage and current sensing. | 2014-04-17 |
20140103826 | TWO-WIRE DIMMER SWITCH FOR LOW-POWER LOADS - A two-wire load control device (such as, a dimmer switch) for controlling the amount of power delivered from an AC power source to an electrical load (such as, a high-efficiency lighting load) includes a thyristor coupled between the source and the load, a gate coupling circuit coupled between a first main load terminal and the gate of the thyristor, and a control circuit coupled to a control input of the gate coupling circuit. The control circuit generates a drive voltage for causing the gate coupling circuit to conduct a gate current to thus render the thyristor conductive at a firing time during a half cycle of the AC power source, and to allow the gate coupling circuit to conduct the gate current at any time from the firing time through approximately the remainder of the half cycle, where the gate coupling circuit conducts approximately no net average current to render and maintain the thyristor conductive. | 2014-04-17 |
20140103827 | TWO-WIRE DIMMER SWITCH FOR LOW-POWER LOADS - A two-wire load control device (such as, a dimmer switch) for controlling the amount of power delivered from an AC power source to an electrical load (such as, a high-efficiency lighting load) includes a thyristor coupled between the source and the load, a gate coupling circuit coupled between a first main load terminal and the gate of the thyristor, and a control circuit coupled to a control input of the gate coupling circuit. The control circuit generates a drive voltage for causing the gate coupling circuit to conduct a gate current to thus render the thyristor conductive at a firing time during a half cycle of the AC power source, and to allow the gate coupling circuit to conduct the gate current at any time from the firing time through approximately the remainder of the half cycle, where the gate coupling circuit conducts approximately no net average current to render and maintain the thyristor conductive. | 2014-04-17 |
20140103828 | METHODS AND CIRCUITS FOR SUPPLYING A PULSED CURRENT TO LEDS - Methods and circuits for driving one or more than one light-emitting diodes with a pulsed current are disclosed. | 2014-04-17 |
20140103829 | FEED FORWARD IMBALANCE CORRECTOR CIRCUIT - A circuit includes an input to be coupled to receive a rectified line voltage having a controlled conduction phase angle in each half line cycle. An active device is coupled to a feedback terminal of a controller. The feedback terminal is coupled to receive a feedback signal representative of an output of a power supply. The active device includes a control terminal coupled to receive a signal representative of the input. The active device is coupled to adjust the feedback signal on the feedback terminal in response to the control of the conduction phase angle of the rectified line voltage in each half line cycle. | 2014-04-17 |
20140103830 | LIGHT-EMITTING MODULE, LED DRIVING CIRCUIT, AND LED DRIVING METHOD - A light-emitting diode (LED) driving circuit is configured for driving at least one group of LEDs. The LED driving circuit includes a constant current source, a pulse width modulation (PWM) element, and at least one pulse frequency modulation (PFM) element. The constant current source is configured for generating a current signal with a constant current value; the PWM element is electrically connected to the constant current source and configured for modulating the current signal to generate a PWM signal corresponding to the current signal; the PFM element is electrically connected between the PWM element and the LED and configured for modulating a frequency width of the PWM signal to generate at least one PFM signal for driving the LED. | 2014-04-17 |
20140103831 | Brightness Control of a Status Indicator Light - An apparatus and method for controlling the brightness and luminance of a light, such as an LED. The embodiment may vary the brightness and luminance of the LED in a variety of ways to achieve a variety of effects. The exemplary embodiment may vary the rate at which the LED's luminance changes, such that an observer perceives the change in the LED's brightness to be smooth and linear as a function of time, regardless of the ambient light level. Changes to the LED's luminance may be time-constrained and/or constrained by a maximum or minimum rate of change. | 2014-04-17 |
20140103832 | LED TRAFFIC LAMP CONTROL SYSTEM - A traffic lamp and a method of controlling the traffic lamp based on a power signal are provided. The traffic lamp can include a controller and a light emitting element. When a plurality of light emitting elements is included in the traffic lamp, each light emitting element is coupled with a separate controller. Each controller can be configured to include a predetermined light emitting timing sequence for the corresponding light emitting element. When the power signal is supplied to the traffic lamp, each controller determines a power signal characteristic such as a frequency or a period of the power signal and controls a light output of the light emitting element based on the power signal characteristic and the light emitting timing sequence. A plurality of light emitting elements can be synchronized using the power signal applied to the traffic lamp. | 2014-04-17 |
20140103833 | ORGANIC LIGHT EMITTING DEVICE AND LIGHT ADJUSTING METHOD THEREOF - An organic light emitting device includes, a first organic light emitting diode unit, a second light emitting diode unit, and an optical component. The first organic light emitting diode unit is connected with the second organic light emitting diode unit, and an internal angle is formed between the two organic light emitting diode units. The first organic light emitting diode unit, the second organic light emitting diode unit, and the optical component are connected together to form a triangle structure. A first light emitting region of the first organic light emitting diode unit and a second light emitting region of the second organic light emitting diode unit are overlapped on the optical component and forming a third light emitting region. A uniform light can be obtained by adjusting the first organic light emitting diode unit and the second organic light emitting diode unit respectively. | 2014-04-17 |
20140103834 | DEVICE FOR CONTROLLING A LIGHTING DEVICE - A device is provided for controlling an illumination device ( | 2014-04-17 |
20140103835 | MULTIPLE-FILAMENT TUNGSTEN-HALOGEN LIGHTING SYSTEM HAVING MANAGED TUNGSTEN REDEPOSITION - Described embodiments include a tungsten-halogen lighting system and a method. A described system includes a sealed glass envelope containing a halogen gas. The system includes at least two tungsten filaments enclosed within the glass envelope. Each tungsten filament of the at least two tungsten filaments is configured to generate light in response to a flow of electric current. The system includes a controller circuit configured to manage the at least two tungsten filaments in response to a tungsten filament management schedule. The tungsten filament management schedule includes controlling tungsten redeposition by the halogen regenerative cycle on each tungsten filament of the at least two tungsten filaments. | 2014-04-17 |
20140103836 | ELECTRONIC BALLAST OR OPERATING DEVICE FOR ILLUMINATION MEANS HAVING PROGRAMMABLE OR CONFIGURABLE CONTROL UNIT - In the case of an electronic ballast ( | 2014-04-17 |
20140103837 | LIGHTING APPARATUS - Of the various technological features disclosed in the present specification, a structure according to the one technological feature is as follows. A lighting apparatus changeable between an illuminating state and a non-illuminating state comprising: a non-contact motion sensor arranged to sense a movement of a hand near the lighting apparatus; and a controller arranged to control the lighting apparatus in the non-illuminating state to change from the non-illuminating state to the illuminating state in response to the movement of hand sensed by the non-contact motion sensor, and to control the lighting apparatus in the illuminating state to cause a change in illumination with the illuminating state kept in response to the same movement of hand sensed by the non-contact motion sensor. | 2014-04-17 |
20140103838 | ADAPTIVE DIMMER DETECTION AND CONTROL FOR LED LAMP - An LED lamp is provided in which the output light intensity of the LEDs in the LED lamp is adjusted based on the input voltage to the LED lamp. A dimmer control unit detects a type of dimmer switch during a configuration process. Using the detected dimmer type, the dimmer control unit generates control signals appropriate for the detected dimmer type to provide regulated current to the LEDs and to achieve the desired dimming effect. The LED lamp can be a direct replacement of conventional incandescent lamps in typical wiring configurations found in residential and commercial building lighting applications that use conventional dimmer switches. | 2014-04-17 |
20140103839 | Variable Rotating Capacitor for Synchrocyclotron - A variable rotating capacitor or RotCo | 2014-04-17 |
20140103840 | BOOTSTRAP CIRCUIT AND CONTROL SYSTEM FOR A POWER TOOL - An electronic circuit for a power tool includes a plurality of high-side and low-side switches connected in series between terminals of a power source and coupled to a load, a bootstrap circuit comprising a plurality of bootstrap capacitors arranged to provide sufficient amount of drive voltage to turn ON and OFF the plurality of high-side switches, and a control unit configured to turn ON and OFF the plurality of low-side switches in succession to sequentially charge the bootstrap capacitors. | 2014-04-17 |
20140103841 | Controlling Method of Synchronous Motor - A method is for controlling a synchronous motor includes a stator, a rotor with a position and a speed, a direct axis and a quadrant axis. The method includes: providing a position control, a speed control and a current control programs; executing either the position control program or the speed control program to produce a quadrant axis current; executing the current control program; detecting the synchronous motor to obtain a first, a second and a third phase currents, and digitizing the three phase currents; using the three phase currents and the quadrant axis current to calculate a direct axis current; converting the direct axis current and quadrant axis current to a direct axis voltage command and quadrant axis voltage command; executing a pulse width modulation for the direct axis and the quadrant axis voltage commands, to get a trigger signal for controlling the synchronous motor. | 2014-04-17 |
20140103842 | PORTABLE CONTROLLER WITH INTEGRAL POWER SOURCE FOR MECHANICAL CIRCULATION SUPPORT SYSTEMS - A portable external device for a mechanical circulation support system includes first and second power sources, e.g. batteries and control electronics for redundant uninterrupted operation of an implantable blood pump. The control and power source module may be configured to accommodate a variety of wearable configurations for patient convenience and comfort. | 2014-04-17 |
20140103843 | INVERTER CONTROL METHOD AND SYSTEM FOR ECO-FRIENDLY VEHICLE - Provided is an inverter control system and method for an eco-friendly vehicle, by which overall improvements can be obtained in terms of switching loss, electromagnetic performance, noise-vibration-harshness (NVH) performance, control stability, and so forth, when compared to a conventional case in which one fixed switching frequency and one fixed sampling frequency are used over the entire operation area. To this end, the inverter control method for an eco-friendly vehicle which generates a pulse width modulation (PWM) signal according to a switching frequency and a sampling frequency and controls ON/OFF driving of a switching element, in which a controller changes and sets the switching frequency according to a current motor speed, changes and sets a sampling frequency according to the switching frequency, and controls on/off driving of a switching element according to the switching frequency corresponding to the motor speed and the sampling frequency. | 2014-04-17 |
20140103844 | CONTROL DEVICE OF AC MOTOR - A control device for controlling an AC motor with an inverter includes: a current acquisition device of a sensor phase current sensed value of the motor in a sensor phase current sensing cycle; a rotation angle acquisition device of a rotation angle sensed value of the motor; a current command value operation device for updating a current command value in a command update cycle; a current estimation device; a voltage command value operation device; a drive signal generation device; and a sudden change prevention device for preventing the voltage command value from a sudden change according to a sudden change in the current estimated value. The sudden change of the current estimated value is caused by a sudden change in the current command value. | 2014-04-17 |
20140103845 | Reducing Current Reversal Time In Electric Motor Control - The time required to reverse current flow in an electric motor is reduced by exploiting inductive current that persists in the motor when power is temporarily removed. Energy associated with this inductive current is used to initiate reverse current flow in the motor. | 2014-04-17 |
20140103846 | SYSTEM AND METHOD FOR CONTROLLING AN ELECTRIC MOTOR - A system for controlling an electric motor is disclosed herein. In particular, the system receives a user input indicative of a desired performance parameter for the electric motor. Based on the desired performance parameter, the system determines a control parameter that defines an operational range. The system then adjusts the electric motor according to the control parameter so that the electric motor generates constant output power over the operational range. | 2014-04-17 |
20140103847 | COOLING APPARATUS FOR INTERNAL COMBUSTION ENGINE - A cooling apparatus for an internal combustion engine includes a fan that cools a coolant by operating at least at a first drive voltage and a second drive voltage higher than the first drive voltage; and a control unit that drives the fan at the first drive voltage when a vehicle is driven at a low vehicle speed that is a vehicle speed lower than a vehicle speed threshold and a coolant temperature is higher than a fan low-voltage activation threshold. | 2014-04-17 |
20140103848 | ERROR DIAGNOSTICS AND PROGNOSTICS IN MOTOR DRIVES - An automation network that utilizes motor drives to diagnose faults, and provide potential solutions to a user. The fault status and/or diagnostic remedies may be displayed via a user display integrated with (e.g., in a single cabinet with) the motor drives and/or coupled to (e.g., in an external device separate from) the motor drives. As such, a logic process or other algorithm may be executed by the motor drive to determine a potential set of solutions for any given fault, based on, for example, determined errors and likelihood of causes for presentation to a user. In this manner, motor drives may allow for user corrective actions to be communicated to a user. | 2014-04-17 |
20140103849 | ABNORMALITY DETECTION METHOD AND APPARATUS - There is provided a system and method for detecting an abnormal operation of a motor controlling an operating parameter of a machine. Both a torque of the motor and the operating parameter are monitored. A memory stores a plurality of predetermined torque values indicative of a normal operation of the motor. A plurality of operating parameter values are also stored in the memory with each operating parameter value having a corresponding predetermined torque value associated therewith. The predetermined torque value corresponding to the monitored operating parameter is retrieved from the memory and compared to the monitored torque value to detect an abnormal operation of the motor. | 2014-04-17 |
20140103850 | REDUNDANT WINDING CONNECTIONS FOR MULTIPHASE ELECTRIC MACHINES - Redundant winding connections for multiphase electric machines are disclosed. According to one aspect, a multiphase machine having redundant winding connections includes: a first set of N coils operating as a first winding group, wherein each coil in the first winding group operates at a different phase from the other coils in the first winding group and wherein N is an integer greater than three; a second set of N coils separate from the first set and operating as a second winding group, wherein each coil in the second winding group operates at a different phase from the other coils in the second winding group and wherein the failure of one of the coils in the first winding group does not affect the function of the second winding group. | 2014-04-17 |
20140103851 | Use of Cooling Fan in Adjustable Speed Drives - Apparatuses and methods are described for implementing adjustable speed drives. For instance, an apparatus may comprise an inverter circuit configured to drive a multi-phase electrical load, the inverter configured to be powered by first and second direct-current (DC) bus lines, a fan drive circuit configured to be powered by the first and second DC bus lines, a fan configured to be controlled by the fan drive circuit and having a plurality of windings coupled together at an electrical node, a first capacitor having a first terminal coupled to the first DC bus line and a second terminal coupled to the electrical node, and a second capacitor having a first terminal coupled to the second DC bus lines and a second terminal coupled to the electrical node. | 2014-04-17 |
20140103852 | MOTOR CONTROL DEVICE CONTROLLING A PLURALITY OF MOTORS THAT DRIVE ONE DRIVEN BODY - A state switching unit switches the state of a motor that has caused an alarm, from an excited state to an un-excited state at an alarm generation timing. A state switch timing setting unit sets a state switch timing of switching the state of a motor other than the motor that has caused the alarm, from an excited state to an un-excited state. This setting is made on the basis of a physical quantity concerning at least one of the motor and a driven body. At the set state switch timing, a state switching unit switches the state of the motor other than the motor that has caused the alarm, from an excited state to an un-excited state. | 2014-04-17 |
20140103853 | MOTOR CONTROL DEVICE - Motor drive information is sampled at a regular interval and stored in a storage unit, during a period when a normal operation is performed in accordance with a first command signal received from a controller. When an abnormality occurs, a second command signal with which a motor can be driven is internally generated from the motor drive information stored in the storage unit. When the abnormality occurs, the internally-generated second command signal is input as a command signal to a motor drive unit, and thereby it is possible to achieve a necessary retracting operation without any problem even if the first command signal cannot be obtained from the controller. | 2014-04-17 |
20140103854 | INVERTER CONTROL METHOD AND SYSTEM FOR ECO-FRIENDLY VEHICLE - Disclosed is an inverter control system and method for an eco-friendly vehicle, by which overall improvements can be obtained in terms of switching loss, electromagnetic performance, noise-vibration-harshness (NVH) performance, control stability, and so forth, when compared to a conventional case in which one fixed switching frequency and one fixed sampling frequency are used over the entire operation area. To this end, the inverter control method for an eco-friendly vehicle which generates a pulse width modulation (PWM) signal according to a switching frequency and a sampling frequency and controls ON/OFF driving of a switching element, in which a controller changes and sets the switching frequency according to a current motor speed, changes and sets a sampling frequency according to the switching frequency, and controls on/off driving of a switching element according to the switching frequency corresponding to the motor speed and the sampling frequency. | 2014-04-17 |
20140103855 | DISTRIBUTED ENERGY STORAGE AND POWER QUALITY CONTROL IN PHOTOVOLTAIC ARRAYS - A solar electric system comprises photovoltaic elements having integrated energy storage and control, ideally on each PV-panel. The energy storage media may be primary or secondary cylindrical cells interconnected into a battery and/or an array of capacitors (or super-capacitors) and are accompanied by an electronic control circuit which may perform a variety of functions, including but not limited to: power quality control, load following, pulse powering, active line transient suppression, local sensing, remote reporting, wireless or wired communications allowing two way programmable control through local or remote operation. The operation of the system may yield direct current or with the integration of bidirectional micro-inverters create distributed alternating current generation enhanced with energy storage and control two way energy flows between the solar system and the grid. | 2014-04-17 |
20140103856 | APPARATUS AND METHOD FOR CHARGING BATTERY IN A PORTABLE TERMINAL WITH SOLAR CELL - A method for charging in a portable terminal is provided. The method includes charging a battery of an electronic device, using a natural resource, monitoring a charging state of the battery, and booting the electronic device based at least in part on the charging state and a determination that the electronic device is powered off. | 2014-04-17 |
20140103857 | Charge redistribution method for cell arrays - A topology is described in which each pair of cells in a string shares a single inductor. Switches permit the single inductor to selectively charge one or the other of the cells. In a variant of the topology, the inductor together with additional switches permit selectively charging multiple cells simultaneously (even one or both cells simultaneously in a pair of cells), drawing upon either an external energy source or upon one or multiple other cells in the string. In this way the number of inductors is minimized while providing isolation among the charging circuits. | 2014-04-17 |
20140103858 | MOBILE CHARGING DEVICE - The invention concerns a mobile charging device for at least one electrically operable tool device, which comprises at least one battery that can be charged by the mobile charging device. | 2014-04-17 |
20140103859 | ELECTRIC STORAGE SYSTEM - An electric storage system includes a first electric storage apparatus and a second electric storage apparatus each performing charge and discharge, a first relay and a second relay, and a controller. The first relay enables the charge and discharge of the first electric storage apparatus in an ON state and disables them in an OFF state. The second relay enables the charge and discharge of the second electric storage apparatus in an ON state and disables them in an OFF state. The first electric storage apparatus and the first relay are connected in parallel to the second electric storage apparatus and the second relay. The controller switches each of the first relay and the second relay from the ON state to the OFF state after the controller allows a circulating current flowing between the first electric storage apparatus and the second electric storage apparatus. | 2014-04-17 |
20140103860 | POWER CONVERTER AND BATTERY CHARGER USING THE SAME - A power converter including: a transformer in which first and second voltages are induced; a full-bridge circuit including parallel-connected first and second arms each including series-connected FETs; and a control circuit, wherein, within a given time period for which a voltage V | 2014-04-17 |
20140103861 | Active Power Factor Corrector Circuit - In accordance with an embodiment, an electronic device includes a controller configured to be coupled to a first switch of a power factor corrector. The controller is configured to produce a variable switching frequency depending on a load current. For a first load current, the controller is configured to produce a first switching frequency, and for a second load current, the controller is configured to produce a second switching frequency. | 2014-04-17 |
20140103862 | POWER PATH SWITCHING IN AN ELECTRONIC DEVICE INCLUDING A PLURALITY OF CHARGING PORTS - Exemplary embodiments are directed to power path switching between multiple charging ports of an electronic device. A device may include a charging port of a plurality of charging ports for coupling to a power supply via an over-voltage protection circuit. The device may further including a comparison unit configured to couple the charging port to the power supply based at least partially on a comparison between a voltage at an input of the over-voltage protection circuit coupled to the charging port with a voltage at the output of the over-voltage protection circuit coupled to the power supply. | 2014-04-17 |
20140103863 | CHARGING DEVICE AND METHOD FOR CHARGING AN ELECTRICAL ENERGY STORE - The present invention relates to a charging device ( | 2014-04-17 |
20140103864 | HAND HELD DEVICE, USB CHARGER, AND METHOD FOR HAND HELD DEVICE TO IDENTIFY USB CHARGER - An identification information module is connected to a non-power pin inside a USB charger charging interface, and the identification information module contains identification information that marks identity information of the USB charger, and meanwhile, an identification information acquisition module is set between the non-power pin and a charging control circuit, configured to acquire the identification information inside the USB charger and provide it to the charging control circuit, and the charging control circuit compares the acquired identification information with standard identification information, and if the identification information is within the standard information range, the hand held device is capable of using the USB charger for charging; otherwise, the hand held device is not capable of using the USB charger for charging, thereby ensuring the charging safety of the hand held device. | 2014-04-17 |
20140103865 | SYSTEM AND METHOD FOR REDUCING INTERFERENCE DURING WIRELESS CHARGING - A method is provided for reducing interference in an inductive charging system within a vehicle. The method includes inductively charging a device with an inductive charger. The method also includes detecting at least one mode of operation of a potential interfering device in proximity to the inductive charger. The method further includes adjusting at least one of a frequency band employed by the charger and an amount of power provided to the device by the charger based on at least one detected mode of operation. | 2014-04-17 |
20140103866 | Electric Vehicle Charging Station Dynamically Responding to Power Limit Messages Based on a Recent History of Power Provided - An electric vehicle charging station charging electric vehicles dynamically responds to power limit messages. The charging station includes a charging port that is configured to electrically connect to an electric vehicle to provide power to charge that electric vehicle. The charging station also includes a power control unit coupled with the charging port, the power control unit configured to control an amount of power provided through the charging port. The charging station also includes a set of one or more charging station control modules that are configured to, in response to receipt of a message that indicates a request to limit an amount of power to an identified percentage and based on a history of power provided through the charging port over a period of time, cause the power control unit to limit the power provided through the charging port to the identified percentage. | 2014-04-17 |
20140103867 | WIRELESS POWER DISTRIBUTION AND CONTROL SYSTEM - A wireless power distribution and control system may be used to supply power wirelessly to various devices. The devices in the system may have control over the system and/or over certain features of other devices. For example, a smartphone charging in the wireless power distribution and control system may have access to and control over other devices in the system, such as the overhead lights, or a projector in a conference room. The identification of other devices, as well as commands for controlling these devices may be communicated over the wireless power link. The type and degree of control of each device in that system may vary based on access control levels for the power supplies and connected devices. The devices that receive power may be configured to automatically connect with the power distribution system and to monitor the other devices connected to the system. | 2014-04-17 |
20140103868 | UNIVERSAL SYSTEM FOR CHARGING AT LEAST ONE PORTABLE DEVICE - A universal system for recharging at least one portable appliance, the dedication of which is being capable from a device ( | 2014-04-17 |
20140103869 | PROTECTION DEVICE AND METHOD FOR POWER TRANSMITTER - Aspects of a protection circuit and method are disclosed. An apparatus to transmit wireless power comprises a transmit antenna, a driver, a sensing circuit, and a control circuit. The transmit antenna generates a wireless field to charge devices. The driver powers the transmit antenna for generation of the wireless field. A power level of the wireless field is based on a power level of the driver. The sensing circuit senses wireless power received at the transmit antenna and generates a monitoring signal based on the sensed wireless power received at the transmit antenna. The control circuit controls the power level or inhibits the driver from powering the transmit antenna when the monitoring signal indicates that the transmit antenna is receiving wireless power from a foreign antenna. | 2014-04-17 |
20140103870 | WIRELESS CHARGING SYSTEM - The present invention provides wireless power supply systems that wirelessly supply power to a remote device for rapidly charging a charge storage capacitor, which charges a battery with the power stored in the charge storage capacitor. This allows the remote device to be positioned near the inductive power supply for rapid charging of the charge storage capacitor and allows battery charging to continue even after the remote device is removed from the inductive power supply. | 2014-04-17 |
20140103871 | CONTACTLESS ELECTRICITY SUPPLY DEVICE - A contactless electric power supply device | 2014-04-17 |
20140103872 | VEHICLE, ELECTRIC DEVICE, AND POWER TRANSMISSION/RECEPTION SYSTEM - A vehicle includes: a reception device receives power for running the vehicle in a non-contact manner using electromagnetic field resonance; and a transmission device transmits power supplied to a device inside the vehicle in a non-contact manner using the electromagnetic field resonance. An electromagnetic field frequency used by the reception device setting a different electromagnetic field frequency used to transmit power. To set the electromagnetic field frequency used by the reception device to receive power and the electromagnetic field frequency used by the transmission device to transmit power such that the electromagnetic field frequency used to receive power is lower than the electromagnetic field frequency used by the transmission device to transmit power. The power received by the reception device in a non-contact manner from an external transmission device outside the vehicle to be larger than the power transmitted by the transmission device in a non-contact manner. | 2014-04-17 |
20140103873 | POWER SOURCE, CHARGING SYSTEM, AND INDUCTIVE RECEIVER FOR MOBILE DEVICES - A power source, charging system, and inductive receiver for mobile devices. A pad or similar base unit comprises a primary, which creates a magnetic field by applying an alternating current to a winding, coil, or any type of current carrying wire. A receiver comprises a means for receiving the energy from the alternating magnetic field and transferring it to a mobile or other device. The receiver can also comprise electronic components or logic to set the voltage and current to the appropriate levels required by the mobile device, or to communicate information or data to and from the pad. The system may also incorporate efficiency measures that improve the efficiency of power transfer between the charger and receiver. | 2014-04-17 |
20140103874 | CONSTRUCTION MACHINE - Construction machine capable of incorporating an engine and using an external power source. The construction machine includes an electrical storage device performing a charge with the external power source, uses the electrical storage device to provide assist when the power of the engine is insufficient, uses an electrical charge in the electrical storage device systematically in accordance with work time, and efficiently uses the electrical storage device by controlling its discharge amount in accordance with load status. The construction machine includes the engine, accessory loads connected to the engine, an assist electric motor driven by the engine, electrical power converters for converting an AC current, which is the output current of the assist electric motor, to a DC current, and the electrical storage device connected to the DC side of each electrical power converter. The electrical storage device becomes charged through a charging device from the external power source. | 2014-04-17 |
20140103875 | Power Generation and Charging Device for Continuous Running of Electric Automobile - A power generation and charging device for continuous running of an electric automobile comprises generators, a charger and a storage battery. The generators are disk generators and are arranged on rims of wheels. The power generation and charging device is provided with the storage battery as same as an automobile-mounted power supply, and current leading-out wires of the generators are connected with the storage battery through the charger and a circuit converter. The original storage battery of the electric automobile is connected with an automobile power supply binding post through the circuit converter. Through the power generation and charging device, a replaced power supply is provided when the electric quantity of the automobile-mounted power supply of the electric automobile is insufficient, and the continuous running mileage of the electric automobile is greatly increased. | 2014-04-17 |
20140103876 | BATTERY PACK AND METHOD OF CONTROLLING THE SAME - A battery pack and a method of controlling the same. The battery pack includes: a first battery module that includes at least one battery cell; a second battery module that includes at least one battery cell electrically connected to the first battery module; a charge/discharge control unit that breaks or connects a charge/discharge path of each of the first battery module and the second battery module; a first battery management unit that controls the first battery module; and a second battery management unit that generates a signal for controlling switches included in the charge/discharge control unit by referring to a state of the second battery module, wherein the first battery management unit and the second battery management unit are connected in parallel to the charge/discharge control unit. | 2014-04-17 |
20140103877 | BATTERY MANAGEMENT SYSTEM - A battery management system that monitors and controls the charging and discharging a battery pack in the most versatile way at the block level with virtually no parasitic or dissipative loss is disclosed. The system has capability of using blocks of cells using different chemistry in the same battery pack. Such versatility makes it very useful for usage with erratic grid conditions, solar, wind and other natural energy sources for charging the battery. | 2014-04-17 |
20140103878 | POWER CONDITIONING AND SAVING DEVICE - Systems and methods are disclosed herein to a power factor adjustor comprising: a power factor measurement unit configured to measure the power factor on an input line to a load and generate a power factor correction signal based on the measured power factor; and a power factor adjustment unit connected to the power factor measurement unit comprising: a fixed capacitor connected in series to a first switching device; and an adjustable element having a variable capacitance connected in parallel to the fixed capacitor and in series to a second switching device, wherein the overall capacitance of the power factor adjustment unit is adjusted by adjusting the capacitance of the adjustable element or by toggling the first and second switching devices in response to the power factor correction signal. | 2014-04-17 |
20140103879 | CHARGING AND DISCHARGING APPARATUS AND TERMINAL - Embodiments of the present utility model provide a charging and discharging apparatus and a terminal. The charging and discharging apparatus includes a charging and discharging interface and a interface wire; the charging and discharging interface includes a charging and discharging circuit; the charging and discharging circuit includes a battery connection end, a current input end, and a current output end; one end of the interface wire for external connection is electrically connected to the battery connection end, and the other end is connected to a battery of a first terminal; the current input end is configured to be connected to a current output end; the second charging and discharging apparatus is electrically connected to a second terminal; the current output end is configured to be connected to a current input end. Embodiments of the present utility model are used to realize mutual charging between terminals. | 2014-04-17 |
20140103880 | CONVERTER CELL HAVING A CELL HOUSING, BATTERY HAVING AT LEAST TWO SUCH CONVERTER CELLS, AND METHOD FOR PRODUCING A CONVERTER CELL - Converter cell having at least one particularly rechargeable electrode assembly, that is designed to at least temporarily supply electrical energy particularly to a consumer, which has at least two electrodes of different polarity, with at least one current conducting device, which is designed to be electrically, preferably materially connected to one of the electrodes of the electrode assembly, with a cell housing with a first housing section, wherein the first housing section is designed to at enclose at least areas of the electrode assembly. | 2014-04-17 |
20140103881 | REPEATERS FOR ENHANCEMENT OF WIRELESS POWER TRANSFER - Exemplary embodiments are directed to wireless power transfer. A wireless power transfer system include a transmit circuit with a transmit antenna driven from a power amplifier to generate a near field radiation at a resonant frequency within a first coupling mode region surrounding the transmit antenna. One or more repeater antennas are disposed at different locations within the first coupling mode region. Each repeater antenna generates an enhanced near field radiation at the resonant frequency within a coupling mode region corresponding to that repeater antenna. One or more receive circuits including a receive antenna receive power when they are disposed in one of the coupling mode regions corresponding to that repeater antenna. | 2014-04-17 |
20140103882 | EMERGENCY SYSTEM FOR POWER FAILURES - An emergency system for power failures includes a single-cell or multiple-cell rechargeable battery selected from the group consisting of NiMH, NiCd, NiZn, Ag | 2014-04-17 |
20140103883 | POWER SUPPLY DEVICE OF VEHICLE - A vehicle includes a first battery; a converter; a second battery connected to an electric load in parallel with the converter; a charging device charging the first battery or the second battery using an external power supply of the vehicle; an electrical leakage detection device connected to the first battery and detecting electrical leakage; and a control device, when the second battery is charged using the charging device, causing one of electrodes of the first battery and one of electrodes of the second battery to be connected to each other, and determining based on a detection result by the electrical leakage detection device whether electrical leakage occurs or not. | 2014-04-17 |
20140103884 | RESONANT MODE DAMPING SYSTEM AND METHOD - A control system for increasing the damping of a resonant mode of a rotor drive train is provided. A control loop is introduced in parallel with the free turbine speed governing control loop. The control loop receives a feedback signal from the free turbine and rotor drive train, the feedback signal representative of the free turbine speed. The control loop extracts the resonant component from the feedback signal to generate a resonant signal containing the resonant component and estimates a derivative of the free turbine speed from the resonant signal. The control loop then outputs a request for damping the resonant mode on the basis of the derivative. A narrow-band reject filter is introduced in the free turbine speed governing loop to filter out the resonant component from the feedback signal, thereby ensuring that the free turbine speed governing loop does not interfere with the control loop. | 2014-04-17 |
20140103885 | MAXIMUM POWER POINT TRACKING - A method and an arrangement of tracking a selected (e.g., maximum) power point of a photovoltaic system is disclosed, in which method an operation point of the photovoltaic system is changed based on the change of operation point and a change of power generated by the photovoltaic system. The method can include repeatedly determining a current or voltage of the photovoltaic system, determining a power of the photovoltaic system, determining a change of power of the photovoltaic system with respect to a previous determined power, and changing the operation point of the photovoltaic system by changing a current or voltage reference of the system stepwise depending on the change of power and a direction of a previous change of the current or voltage reference. | 2014-04-17 |
20140103886 | Method for producing reactive current with a converter and converter arrangement and energy supply plant - in a method for producing reactive current with a converter ( | 2014-04-17 |
20140103887 | POWER CONVERTER AND METHOD FOR CONTROLLING SAME - A power converter | 2014-04-17 |
20140103888 | METHODS AND SYSTEMS OF NETWORK VOLTAGE REGULATING TRANSFORMERS - Methods and systems of network voltage regulating transformers are provided. A network voltage regulating transformer (NVRT) may provide voltage transformation, isolation, and regulation. A NVRT may further provide power factor corrections. Multiple NVRTs may operate autonomously and collectively thereby achieving an edge of network voltage control when installed to a power system. A NVRT comprises a transformer, a VAR source, and a control module. The input current (i.e., the current through the primary side of the transformer), the output current (i.e., the current through the secondary side of the transformer), and/or the output voltage (i.e., the voltage across the secondary side of the transformer) may be monitored. | 2014-04-17 |
20140103889 | Rapid-Transition DC-DC Converter - A DC-DC converter for delivering electrical power to a load includes an output filter having an inductor and an output capacitor, a first switch, and a second switch. The first switch is configured to alternately couple and decouple the inductor to and from a DC input voltage as power is being delivered to the load. The second switch is configured to electrically disconnect the output capacitor when the load is removed or deactivated. Disconnecting the output capacitor allows the DC-DC converter to rapidly transition from an operating state to a disabled state, obviating any need to discharge the output capacitor in order to fully disable the DC-DC converter. Residual energy stored in the electric field of the output capacitor and/or the magnetic field of the inductor at the time the load is next reactivated is available to hasten transition back to the operating state. | 2014-04-17 |
20140103890 | SUPPLY NOISE CURRENT CONTROL CIRCUIT IN BYPASS MODE - A proposed inrush control circuit may work in the presence of supply noise. A linear regulator in bypass mode may be designed for inrush current control, but may be susceptible to irregularities from increased supply noise. The circuit may include a splitting of the bypass power MOS that are switched on with some delay during the power on to control the initial power-on inrush current. | 2014-04-17 |
20140103891 | Systems And Methods For Controlling Maximum Power Point Tracking Controllers - A method for operating a maximum power point tracking (MPPT) controller including a switching circuit adapted to transfer power between an input port and an output port includes the steps of: (a) in a first operating mode of the MPPT controller, causing a first switching device of the switching circuit to operate at a fixed duty cycle; and (b) in a second operating mode of the MPPT controller, causing a control switching device of the switching circuit to repeatedly switch between its conductive and non-conductive states to maximize an amount of power extracted from a photovoltaic device electrically coupled to the input port. | 2014-04-17 |
20140103892 | SCALABLE MAXIMUM POWER POINT TRACKING CONTROLLERS AND ASSOCIATED METHODS - A scalable maximum power point tracking (MPPT) controller includes an input and an output port, a switching circuit adapted to transfer power from the input port to the output port, and a controller core. The controller core is adapted to (a) control the switching circuit to maximize an amount of power extracted from a photovoltaic device electrically coupled to the input port, and (b) set one or more parameters of the MPPT controller based at least in part on a configuration code representing a number of photovoltaic cells of the photovoltaic device electrically coupled in series. | 2014-04-17 |
20140103893 | Load Transient, Reduced Bond Wires for Circuits Supplying Large Currents - Circuits and methods to improve dynamic load transient performance of circuits supplying high current and having parasitic resistances are disclosed. These circuits comprise e.g. LDOs, amplifiers or buffers. The circuits and methods are characterized by including parasitic resistances, caused by bond wires, metallization of pass devices, and substrate routings, in a loop for fast transient response. Furthermore the circuits comprise a stabilization circuit within said loop and a separate pad for said loop. | 2014-04-17 |
20140103894 | Maximum Power Point Tracking Controllers And Associated Systems And Methods - A maximum power point tracking controller includes an input port for electrically coupling to an electric power source, an output port for electrically coupling to a load, a control switching device, and a control subsystem. The control switching device is adapted to repeatedly switch between its conductive and non-conductive states to transfer power from the input port to the output port. The control subsystem is adapted to control switching of the control switching device to regulate a voltage across the input port, based at least in part on a signal representing current flowing out of the output port, to maximize a signal representing power out of the output port. | 2014-04-17 |
20140103895 | COMPENSATION CIRCUIT AND SWITCHING POWER SUPPLY THEREOF - Disclosed are compensation circuits for a switching power supply. In one embodiment, a compensation circuit can include: (i) a transconductance amplifier configured to receive a reference signal and a feedback signal, and to generate an amplifier output signal according to a difference between the reference signal and the feedback signal; (ii) a switching circuit configured to receive the amplifier output signal, where the switching circuit is controllable by a control signal from a switch control circuit; and (iii) a charging circuit coupled to the switching circuit, where the charging circuit is configured to be charged by the amplifier output signal in response to the control signal, and to generate a compensation signal therefrom. | 2014-04-17 |
20140103896 | DC TO DC BUCK CONVERTING CONTROLLER WITH PROGRAMMABLE ON-TIME PERIOD UNIT - A programmable on-time period of a DC to DC buck converting controller is adjusted according to a level of a preset output voltage or a reference signal. Therefore, the DC to DC buck converting controller of the present invention is suitable for any applications with different requests of output voltages or different operating mode. | 2014-04-17 |
20140103897 | GLITCH SUPPRESSION IN DC-TO-DC POWER CONVERSION - Exemplary embodiments are directed to devices and method for operating a charge pump. A method may include activating a first switch coupled between a capacitor and a ground voltage over a first period of a charging phase. The first period may coincide with a non-overlapping time between the charging phase and an output phase. The method may also include activating a second switch coupled between the capacitor and an input voltage over a second period of the charging phase, wherein the first period begins prior to the second period. Further, the method may include deactivating the second switch over a third period of the charging phase and deactivating the first switch over a fourth period of the charging phase, wherein the third period begins prior to the fourth period. | 2014-04-17 |
20140103898 | APPARATUS AND METHOD FOR CONTROLLING INDUCTOR CURRENT IN A SWITCH MODE POWER SUPPLY - Apparatus and method for controlling inductor current in a switch mode power supply. In one embodiment, a switch mode power supply includes an inductor, a high-side switch coupled to the inductor, a low-side switch coupled to the inductor, and a controller. The controller is coupled to at least one of the high-side switch and the low-side switch. The controller includes a first capacitor and a current source. The controller is configured to control timing of current switching to the inductor by enabling current flow through the at least one of the high-side switch and the low-side switch based on time to charge the first capacitor via the current source. The time is a function of voltage across the inductor. | 2014-04-17 |
20140103899 | BUCK CONVERTER WITH SINGLE STAGE - The present disclosure provides a mirror device with illumination comprising a transparent conductive substrate, an isolation layer, a mirror layer and a light emitting diode (LED) layer. The isolation layer, formed on a surface of the transparent conductive substrate, divides the surface of the transparent conductive substrate into at least one first region and at least one second region. The mirror layer formed on the transparent conductive substrate within the at least one first region, while the LED layer is formed on the transparent conductive substrate within the at least one second region, wherein the mirror layer and the LED layer are electrically isolated from each other. In another embodiment, the present disclosure further provides a mirror box having the mirror device with illumination disposed therein so that the mirror device can be easily carried and kept in the pocket, or purse of user. | 2014-04-17 |
20140103900 | LOW POWER REFERENCE GENERATOR CIRCUIT - A PTAT circuit includes a first, second, third, and fourth transistors plus a resistor. The first and second transistors have control terminals coupled to each other. The third and fourth transistors have control terminals coupled to each other. The third transistor sources a first current to the first transistor and the fourth transistor sources a second current to the second transistor. The resistor is coupled at a node to the second transistor. A current source circuit sources additional current into the node that is derived from the first and second currents. In one implementation, the additional current is a scaled mirror of the second current. In another implementation, the additional current is a scaled mirror of the sum of the first and second currents. An output current is obtained by mirroring one of the first-third currents. A band-gap output voltage is obtained by applying the additional current across a resistance. | 2014-04-17 |
20140103901 | ELECTRICAL POWER MULTIPLICATION - A power multiplier and method are provided. The power multiplier includes a power multiplying network that is a multiply-connected, velocity inhibiting circuit constructed from a number of lumped-elements. The power multiplier also includes a launching network, and a directional coupler that couples the launching network to the power multiplying network. The power multiplier provides for power multiplication at nominal power generation frequencies such as 50 Hertz, 60 Hertz, and other power frequencies, in a compact circuit. | 2014-04-17 |
20140103902 | Semiconductor Device Having Sensing Functionality - A semiconductor package includes a power semiconductor chip having a control electrode, a first load electrode and a second load electrode. The package also includes a first terminal conductor electrically coupled to the control electrode, a second terminal conductor electrically coupled to the first load electrode and a third terminal conductor electrically coupled to the second load electrode. Further, the package includes a temperature sensor electrically coupled to at least two of the first, second and third terminal conductor. | 2014-04-17 |
20140103903 | HELICAL SPRING, CONNECTOR, ELECTRODE AND ELECTROMETER - An object of the present invention is to provide a helical spring having a small spring constant, a connector, an electrode and an electrometer. Specifically, the spring constant is 2.0 gf/mm or smaller until the spring is compressed to 50% or more in an axis direction. | 2014-04-17 |
20140103904 | Apparatus and Method of Power Measurement for Pulsed Terahertz Quantum-Cascade Laser - The present invention provides a power measurement apparatus and method for a pulsed terahertz quantum-cascade laser (THz QCL). The apparatus includes a light source part, a light path part, and a detection part. Terahertz light emitted by a THz QCL reaches a terahertz quantum-well photodetector (THz QWP) through the measurement apparatus, and is absorbed to generate a corresponding current signal. A signal processing circuit extracts a voltage signal from the current signal, amplifies the voltage signal, and inputs the amplified voltage signal to an oscilloscope for reading and displaying. According to a responsivity of the THz QWP at a lasing frequency of the laser, the measurement of the output power of the pulsed THz QCL is acquired. The present invention avoids integration estimation when a thermal detector is used to measure output power of a THz QCL in a pulse operating mode, and can directly acquire the power value of a pulsed output from the laser according to the amplitude of the detector responding to the pulsed terahertz light. | 2014-04-17 |
20140103905 | ENERGY MONITORING DEVICE - A device and method are provided for monitoring voltage and current in a continuous conductor. A current sensor is configured to sense current in the continuous conductor. A voltage sense conductor is provided and a guided path is configured to bring the voltage sense conductor into contact with the continuous conductor at a pre-determined orientation. A communication interface is configured to receive information about a common reference voltage from a source, the source being external to the device. A voltage measuring circuit is configured to estimate voltage between a voltage sensed by the voltage sense conductor and the common reference voltage using the information about a common reference voltage. | 2014-04-17 |
20140103906 | INTEGRATED REAL POWER DETECTOR - Techniques for calculating a real power delivered to a transmit load of a transceiver. In an aspect, two distinct voltages are sampled from a matching network coupling the transmit load to an amplifier output. The voltages are coupled by configurable coupling elements to the down-conversion mixers of the transceiver, and are subsequently converted to digital form for processing by a baseband processor. The baseband processor may calculate a coefficient relating the calculated real power to an actual power delivered to the load. The coefficient may be stored and subsequently applied to a transmit element during normal signal transmission by the transceiver. Note the coupling elements may be configured to decouple the sampled voltages from the down-conversion mixers during normal signal reception by the transceiver, thus avoiding unnecessary loading on the receive signal path. | 2014-04-17 |
20140103907 | CALIBRATION MODULE FOR A TESTER AND TESTER - A calibration module for a tester, for testing a device under test, includes a pair of RF-channel terminals, a calibration device, a pair of measurement terminals and a mode selector. The pair of RF-channel terminals is configured to send or receive measurement signals to or from an RF-channel of the tester. The calibration device is configured to perform a calibration of the RF-channel based on the measurement signals sent to, or received from, the RF-channel. The pair of measurement terminals is configured to send or receive measurement signals to or from the device under test. The mode selector is configured to connect, in a calibration phase, the pair or RF-channel terminals to the calibration device for calibrating the RF-channel and to connect, in a measurement phase, the pair of RF-channel terminals to the pair of measurement terminals for routing measurement signals from the RF-channel to the device under test or vice versa. | 2014-04-17 |
20140103908 | CURRENT SENSOR - A current sensor of the present invention includes a mounting unit including a disposition region in which a current path is disposed, a pair of magnetic detection elements disposed in the mounting unit so as to sandwich therebetween the disposition region, and an arithmetic circuit performing an arithmetic operation on the current value of the current path on the basis of the detection values of the pair of magnetic detection elements. The pair of magnetic detection elements is disposed on sides opposite to each other with respect to a virtual line passing through the gravity center of the current path in cross-sectional view of the current path, and individually has sensitivity axes parallel to a direction perpendicular to the direction of a current conducted through the current path and the direction of the virtual line. | 2014-04-17 |
20140103909 | METHOD AND APPARATUS FOR DETECTING POSITION AND STARTUP A SENSORLESS MOTOR - A method and a circuit for detecting positions for a motor are provided. The circuit includes a control circuit for generating PWM signals, high-side transistors and low-side transistors, resistors and a microcontroller. The high-side transistors and the low-side transistors generate voltage signals configured to drive the motor. The resistors coupled to the low-side transistors generate sensing signals in response to motor currents and back-EMF signals. The microcontroller controls the control circuit. the PWM signals are utilized to control the high-side transistors and the low-side transistor for generating the voltage signals. The high-side transistors are coupled to the input power source. The low-side transistors are coupled to the ground via the resistors. The control circuit determines the motor position in accordance with the sensing signals. | 2014-04-17 |
20140103910 | DIFFERENTIAL TRANSFORMER TYPE MAGNETIC SENSOR AND IMAGE FORMING APPARATUS - A differential transformer type magnetic sensor includes a board, a drive coil, a first differential coil, and a second differential coil. The drive coil includes a planar coil in which a dimension of a first direction which is one of longitudinal and transverse dimensions is smaller than that of a second direction which is the other of the longitudinal and transverse dimensions, and is disposed on the board. The first differential coil includes a planar coil having the same shape as the drive coil, and is disposed on the board. The second differential coil includes a planar coil having the same shape as the drive coil, and is disposed on the board. The first differential coil and the second differential coil are electrically connected so that a direction of induced current flowing along the first differential coil and a direction of induced current flowing along the second differential coil are opposite to each other. The differential transformer type magnetic sensor is disposed on a development part with the first direction set to be vertical and with the second direction set to be horizontal. | 2014-04-17 |
20140103911 | ROTATION ANGLE DETECTION DEVICE - A rotation angle detection device has a first yoke, an inside surface of which is formed of a first concave curved surface and a second concave curved surface, and a second yoke, an inside surface of which is formed of a third concave curved surface and a fourth concave curved surface. Each concave curved surface does not extend in a second direction but extends toward a first flat surface or a second flat surface in an inclined manner. The first flat surface and the second flat surface face each other sandwiching a Hall element therebetween and are parallel to each other. The magnetic flux, which leaks from the first yoke into an inside space and reaches the second yoke, flows in the second direction over a wider area around the Hall element. | 2014-04-17 |