Product
Patsnap Eureka
For R&D, Patsnap Eureka makes reading and utilizing patents & technical documents easy.
Patsnap Eureka AIR
Designed for self-driven R&D workflows. Generate viable solutions, solve complex R&D challenges, empower your innovation with AI.
Patsnap Eureka Materials
Designed for material experts only. Revolutionize your material R&D, from search, analyze, to developing new materials.
Feature
TechResearch
Generate reliable direction feasibility study reports for your R&D in just a few steps.
TechSeek
Discover and master advanced knowledge NOW. Basics, ideas, possibilities, all at once.
TechMind
As an expert in R&D Theories, TechMind can generates customized viable solutions instantly.
TechRisk
Analyze your overall solution with one click, know your potential R&D risks in advance.
TechMonitor
Get weekly tech updates, stay abreast of the latest tech innovations and key insights.
Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
4047 results about "Power controller" patented technology
Efficacy Topic
Property
Owner
Technical Advancement
Application Domain
Technology Topic
Technology Field Word
Patent Country/Region
Patent Type
Patent Status
Application Year
Inventor
Systems and Methods for Receiving and Managing Power in Wireless Devices
InactiveUS20090200985A1Dc network circuit arrangementsBatteries circuit arrangementsPower controllerEngineering
Exemplary systems and methods are provided for collecting / harvesting direct current (DC) power received from a power source(s). The system comprises a controlled impedance power controller comprises a power converter configured to present a positive equivalent resistive load to the at least one power source over a range of input power levels. Exemplary systems and methods are provided for collecting radio frequency (RF) power. An exemplary system comprises at least two rectenna elements, a power controller, and a DC combining circuit. The DC combining circuit is associated with the at least two rectenna elements and the DC combining circuit is configured to dynamically combine the at least two rectenna elements in one of a plurality of series / parallel configurations. The power controller is configured to control the DC combining circuit to achieve a desired overall power output from the at least two rectenna elements.
Owner:UNIV OF COLORADO THE REGENTS OF
Power distribution system and method
ActiveUS20130261821A1Easy accessMechanical power/torque controlLevel controlTablet computerDistribution power system
A power distribution system / method implementing Internet based access to hybrid home automation networks is disclosed. The system utilizes a smart gateway power controller (SGPC) configured for single / multi-gang wallplate installation to selectively switch an AC power source to a load device under switched control and / or local / remote network commands that may be routed through a variety of network interfaces and protocols present within a home or other structure-local communications network. SGPC configurations may be nested within a home automation network to permit separation of control for load devices within a common home automation environment. Present invention methods may include routing protocols between disparate home automation networks as well as remote access protocols that permit control of disparate home automation networks via the Internet using a wide variety of remote access interfaces including mobile devices, tablet computers, laptops, desktop computers, and the like.
Owner:ADVANERGY
Distributed power system using direct current power sources
ActiveUS20110084553A1Batteries circuit arrangementsSingle network parallel feeding arrangementsPower controllerEngineering
A distributed power system including multiple (DC) batteries each DC battery with positive and negative poles. Multiple power converters are coupled respectively to the DC batteries. Each power converter includes a first terminal, a second terminal, a third terminal and a fourth terminal. The first terminal is adapted for coupling to the positive pole. The second terminal is adapted for coupling to the negative pole. The power converter includes: (i) a control loop adapted for setting the voltage between or current through the first and second terminals, and (ii) a power conversion portion adapted to selectively either: convert power from said first and second terminals to said third and fourth terminals to discharge the battery connected thereto, or to convert power from the third and fourth terminals to the first and second terminals to charge the battery connected thereto. Each of the power converters is adapted for serial connection to at least one other power converter by connecting respectively the third and fourth terminals, thereby forming a serial string. A power controller is adapted for coupling to the serial string. The power controller includes a control part adapted to maintain current through or voltage across the serial string at a predetermined value.
Owner:SOLAREDGE TECH LTD
Power controls with photosensor for tube mounted LEDs with ballast
InactiveUS20050281030A1Easy to controlReduce flickerPoint-like light sourceElongate light sourcesControl signalNetwork communication
A power saving device for a light emitting diode (LED) lamp mounted to an existing fixture for a fluorescent lamp having a ballast assembly and LEDs positioned within a tube and electrical power delivered from the ballast assembly to the LEDs. The LED lamp includes means for controlling the delivery of the electrical power from the ballast assembly to the LEDs wherein the use of electrical power can be reduced or eliminated automatically during periods of non-use. Such means for controlling include means for detecting the level of daylight in the illumination area of said least one LED in particular a light level photosensor and means for transmitting to the means for controlling a control signal relating to the detected level of daylight from the photosensor. The photosensor can be used in operative association with an on-off switch in power connection to the LEDs, or with a computer or logic gate array in operative association with a dimmer that controls the power to the LEDs. An occupancy sensor that detects motion or a person in the illumination area of the LEDs can be optionally used in association with the photosensor and the computer and dimmer. Two or more such LED lamps with one or more computers or logic gate arrays can be in network communication with the photosensors and the occupancy sensors to control the power to the LEDs.
Owner:SIGNIFY HLDG BV
Power controls with photosensor for tube mounted LEDs with ballast
InactiveUS7490957B2Reduce flickerReduce usageLighting support devicesPoint-like light sourceControl signalNetwork communication
Owner:SIGNIFY HLDG BV
Networkable power controller
InactiveUS6400103B1Telemetry/telecontrol selection arrangementsSpace heating and ventilation safety systemsDigital controlBuilding automation
A networkable power controller includes a mode selector for selectively conducting of a plurality of input signals to an output of the networkable power controller, where the input signals and the output signals satisfy the same signaling protocol. The networkable power controller may be networked with other networkable power controllers, lighting ballasts and other building automation control devices, and user-controlled voltage selectors to provide a lighting control network. A power controller may include a mode selector that may be used in combination with other control devices or components, including a rotary dimmer control, a digital slide dimmer control, a demand load shedder component, a photometer component, and a communications interface. The communications interface allows digital control of the networkable power controller.
Owner:POWER CIRCUIT INNOVATIONS
Intelligent Solid-State Non-Volatile Memory Device (NVMD) System With Multi-Level Caching of Multiple Channels
InactiveUS20080235443A1Memory architecture accessing/allocationEnergy efficient ICTPower controllerLogical block addressing
A flash memory system stores blocks of data in Non-Volatile Memory Devices (NVMD) that are addressed by a logical block address (LBA). The LBA is remapped for wear-leveling and bad-block relocation by the NVMD. The NVMD are interleaved in channels that are accessed by a NVMD controller. The NVMD controller has a controller cache that caches blocks stored in NVMD in that channel, while the NVMD also contain high-speed cache. The multiple levels of caching reduce access latency. Power is managed in multiple levels by a power controller in the NVMD controller that sets power policies for power managers inside the NVMD. Multiple NVMD controllers in the flash system may each controller many channels of NVMD. The flash system with NVMD may include a fingerprint reader for security.
Owner:SUPER TALENT TECH CORP
Dynamic voltage control method and apparatus
Owner:MEDIATEK INC
Intelligent power controller
ActiveUS20120054511A1Volume/mass flow measurementDigital storagePower controllerIntellectual property
A method, apparatus, and system in which an interconnect for an integrated circuit communicates transactions between one or more initiator Intellectual Property (IP) cores and one or more target IP cores coupled to the interconnect, including a power manager having a hierarchy of two or more layers including a hardware logic portion to control a power consumption of two or more domains in the integrated circuit, where each layer of the power manager performs its own function; wherein the power manager has its own dedicated CPU or dedicated state machine to execute power management instructions; and wherein the power manager controls the power consumption of two or more domains without using a CPU IP core utilized by other IP cores on the integrated circuit to execute power management instructions.
Owner:META PLATFORMS TECH LLC
System and method for providing collaborating power controllers
InactiveUS20110204717A1Batteries circuit arrangementsDc source parallel operationPower controllerEngineering
A method is provided in one example embodiment and includes receiving a message associated with a detection of reactive power in an energy system and inducing a first quantity of reactive power at a power level specified in the message. The first quantity of reactive power is induced in order to mitigate a second quantity of reactive power that is detected on a specific segment of the energy system. The first quantity of reactive power is induced at a local level on which a source associated with the second quantity of reactive power operates. In more specific embodiments, the message is sent in response to a sensor detecting the second quantity of reactive power, where the first quantity and the second quantity of reactive power are the same. In other embodiments, the method can include receiving a second message to stop mitigating the first quantity of reactive power.
Owner:CISCO TECH INC
Low power audio detection
InactiveUS20130223635A1Reduce power consumptionIncrease power consumptionPower managementHearing device energy consumption reductionAudio signal flowLow power dissipation
Devices and methods of detecting a predetermined audio signal in audio signals are provided. A device includes a processor coupled to a clock signal generator, a power controller and an audio detector. The power controller controls a clock rate provided to the processor by the clock signal generator, to control the device to operate in a low power mode having a relatively low power consumption or in a normal power mode having a relatively high power consumption. The audio detector receives audio signals and detects, in the low power mode, probable presence of a predetermined audio signal in the audio signals. The power controller controls the device to switch from the low power mode to the normal power mode responsive to the detected presence of the predetermined audio signal by the audio detector.
Owner:QUALCOMM TECH INT
Power Control System and Method
ActiveUS20130085620A1Easy accessLevel controlEmergency protective arrangements for automatic disconnectionTablet computerPower control system
A power control system / method implementing Internet based access to hybrid home automation networks is disclosed. The system utilizes a smart gateway power controller (SGPC) to selectively switch an AC power source to a load device under control of local or remote network commands that may be routed through a variety of network interfaces and protocols present within a home or other structure-local communications network. SGPC configurations may be nested within a home automation network to permit separation of control for load devices within a common home automation environment. Present invention methods may include routing protocols between disparate home automation networks as well as remote access protocols that permit control of disparate home automation networks via the Internet using a wide variety of remote access interfaces including mobile devices, tablet computers, laptops, desktop computers, and the like.
Owner:ADVANERGY
Dynamic power control apparatus, systems and methods
InactiveUS6885974B2Reduce dependenceImprove practicalityEnergy efficient ICTElectric devicesPower controllerIdle time
Dynamic power controller apparatus, systems and methods are provided which utilize system and user data to control power to components. The present invention employs dynamically controlled idle timeout values which are based, in part, on the historical use of the component. It can also employ user settings, event occurrences and available resources of a system to dynamically control the power to one of the system's components or a remote component. In an instance of the present invention related to hard disk power control, it is employed in an operating system's kernel where disk idleness is monitored. When the hard disk's idle time meets a dynamically computed power control idle timeout, the disk driver is commanded to power down the device.
Owner:MICROSOFT TECH LICENSING LLC
Remotely accessible power controller for building lighting
InactiveUS6842668B2Improve reliabilityPrevent external noiseElectric signal transmission systemsLevel controlElectrical conductorEffect light
A remotely accessible power controller communicates power reduction command signals by power line carrier (PLC) signaling over existing AC power distribution conductors for automatically disconnecting building lighting loads. Turn-off command signals from a local or remote controller automatically disconnect building lighting loads according to a time-of-day schedule to comply with mandated energy consumption codes applicable to the automatic shutoff of electrical lighting. Load shedding (selective turn off and / or dimming) command signals transmitted from public or private utility companies automatically disconnect or reduce building lighting loads in accordance with load curtailment agreements to limit total connected power consumption below an agreed level. The power controller is connected by a minimum amount of retrofit wiring into an existing end-user alternating current power distribution network, for example, a building power distribution network having AC power conductors that service multiple lighting loads interconnected in one or more power phase groups. Each dimming lighting load is equipped with an addressable dimming module for decoding and executing dimming and turn-on and turn-off power reduction commands. Fluorescent lamps are equipped with addressable electronic dimming ballasts.
Owner:SIGNIFY NORTH AMERICA CORP
Mehotd for determining a maximum power point voltage of a fuel cell, as well as fuel cell control system and power controller used in the fuel cell control system
InactiveUS20060222916A1Reduce output powerAccurately determineMechanical power/torque controlFuel cell heat exchangePower controllerFuel cells
A detection voltage, which is obtained by dividing the voltage of a fuel cell 1 by resistors, is compared with a first reference voltage Vref1 by a differential amplifier. The differential voltage is input to a control section. The control section performs PWM control for the circuit section according to the difference. The first reference voltage Vref1 is set according to the dividing ratio of the resistors, based on the output voltage when the fuel cell generates power at the maximum power point. To determine the output voltage for maximum power generation, a characteristic curve representing a current-voltage characteristic is approximated by an approximating line within a range excluding an area in which the output voltage changes abruptly when the output current is nearly zero, and an extrapolated voltage is obtained on the extension line of the approximating line at an output current of zero. Fifty percent of the extrapolated voltage is then determined as the output voltage when the fuel cell generates power at the maximum power point. Thus, a fuel cell control system that identifies a highly precise output voltage for power generation at a maximum power point and controls power so that the maximum power point is not exceeded could be provided.
Owner:HITACHI LTD
Method and apparatus for reducing power consumption in digital electronic circuits
InactiveUSRE36839E1Reduce power consumptionMinimize powerEnergy efficient ICTSolid-state devicesPower controllerData stream
An integrated circuit with power conservation includes a number of functional blocks, each of which includes a digital circuitry and at least one output control line, and a power controller coupled to the control lines. The output control lines develop clock control signals based upon a functional block's knowledge of the direction of data flow. The power controller the reduces power by deactivating functional blocks that are not needed as indicated by the clock control signals. More specifically, a system with power conservation includes a number of functional blocks capable of processing data, each of the functional blocks including a modulated clock input and N+1 clock control lines which reflect the direction of data flow, where N is a number of neighbors of a particular functional block, and a clock controller having an input clock, the clock controller being coupled to the modulated clock inputs and the clock control lines of the functional blocks. The clock controller is operative to modulate the input clock in accordance with the signals on the clock control lines to provide modulated clocks to each of the plurality of functional blocks. A method for reducing power consumption includes the steps of: a) receiving control signals from a number of functional blocks; b) selectively deactivating a particular functional block upon a request from that functional block or from another functional block; and c) activating the particular functional block upon a request from another functional block.
Owner:CONVERSANT INTPROP MANAGEMENT INC
System and Method for Operating a GPS Device in a Micro Power Mode
A wireless device including a transceiver that utilizes a power supply is described. The wireless device includes a Global Positioning System (“GPS”) section having a plurality of GPS subsystems and a power controller in signal communication with the power supply and GPS section, wherein the power controller is configured to selectively power each GPS subsystem from the plurality of GPS subsystems.
Owner:CSR TECH INC +1
Devices, methods, and computer program products for controlling power transfer to an antenna in a wireless mobile terminal
InactiveUS20070142014A1Different electrical lengthResonant long antennasRadio relay systemsPower controllerAudio power amplifier
A wireless mobile terminal includes an antenna, a power amplifier coupled to the antenna, a power detector coupled to an output of the power amplifier, a phase shifter coupled between the output of the power amplifier and the antenna, and a controller coupled to the phase shifter. The power detector is configured to detect a power of a signal provided by the power amplifier. The controller is configured to adjust the phase shifter responsive to the detected signal power. More particularly, the controller may be configured to adjust the phase shifter to modify a phase component of a reflection coefficient of a load impedance at the power amplifier output without substantially altering a magnitude of the reflection coefficient. Related methods and computer program products are also discussed.
Owner:SONY ERICSSON MOBILE COMM AB
Methods and Systems for Power Management in a Data Processing System
ActiveUS20080168285A1Lower latencyReduce total powerEnergy efficient ICTVolume/mass flow measurementData processing systemGeneral purpose
Methods and systems for managing power consumption in data processing systems are described. In one embodiment, a data processing system includes a general purpose processing unit, a graphics processing unit (GPU), at least one peripheral interface controller, at least one bus coupled to the general purpose processing unit, and a power controller coupled to at least the general purpose processing unit and the GPU. The power controller is configured to turn power off for the general purpose processing unit in response to a first state of an instruction queue of the general purpose processing unit and is configured to turn power off for the GPU in response to a second state of an instruction queue of the GPU. The first state and the second state represent an instruction queue having either no instructions or instructions for only future events or actions.
Owner:APPLE INC
Dynamic voltage control method and apparatus
A dynamic power controller is provided that identifies a clock frequency requirement of a processor and determines a voltage requirement to support the clock frequency requirement. The dynamic power controller transitions the processor to a power state defined by the clock frequency requirement and the voltage requirement. In particular, a voltage level indicated by the voltage requirement is supplied to the processor and the frequency distribution indicated by the frequency requirement is provided to the clocks signals of the processor.
Owner:MEDIATEK INC
Self-clocking multiphase power supply controller
InactiveUS20020125869A1Improve noise immunityIncrease flexibilityEfficient power electronics conversionDc-dc conversionPower controllerMode control
A ripple-mode controller provides reliable operation in multi-phase power supply circuits, over a variety of operating conditions. Cross-phase blanking allows the controller to preserve the desired phase relationship between the switching pulses its provides to the different output phases, and permits the controller to operate each output phase at nearly 100% duty cycles. Active current sharing compliments blanking operations by adjusting the width of switching pulses the controller provides to one or more of the output phases based on detecting load current imbalances between the different output phases. With active current sharing, the controller prevents one or more output phases from carrying excessive portions of the load current. Further complimenting its operation, the controller may include virtual ripple generation to increase the noise immunity of its ripple-mode regulation.
Owner:SEMTECH CORP
Detector for sensing motion and direction of a railway device
InactiveUS6087950AElectric signal transmission systemsMeasurement devicesPower controllerMotion detector
A motion detector for detecting movement of a rail based vehicle and the direction of that movement is provided. The motion detector can be integral with or attachable to an end-of-train unit and can include a single axis accelerometer mounted at an angle from the rails for detecting acceleration in both the lateral and vertical directions. A systems controller, which can include an analyzer, can be provided to receive and analyze output from the accelerometer to determine a motion state and a direction. A power controller can be provided for supplying power to the accelerometer on an intermittent basis to conserve power. A calibration unit can be provided to both initially calibrate and to subsequently recalibrate the accelerometer after a stopped motion state is detected. Additionally, an input / output port and an output driver for conditioning the signal for output to the end-of-train unit can be provided.
Owner:THE UNION SWITCH & SIGNAL
Reduced power consumption wager gaming machine
InactiveUS20080070652A1Reduce power consumptionConfiguration is complicatedEnergy efficient ICTDigital data processing detailsPower controllerElectricity
Novel wager gaming machines, gaming servers, and power consumption control methods for intelligently controlling power consumed by a wager gaming machine in a manner that does not discourage or prevent use of the gaming machine are described. A component of a gaming machine, for example, a ticket printer, is powered down when it has been determined that, based on usage pattern data, the component is not likely to be used. Usage pattern data are derived from raw activity usage data for a machine and its components. Components that are not powered based on the usage pattern data can be powered upon detecting an action implying that a user will be using the machine, for example, a card read or bill insert. A power controller processes signals conveying rules based on the usage pattern data and may also process a signal conveying a user-initiated action if there is one, to form a command to power up or turn off one or more gaming machine components.
Owner:IGT
Programmable power controller
InactiveUS20060250745A1Electric light circuit arrangementEnergy saving control techniquesMicrocontrollerPower controller
A device connected between a source of power and at least one load for selectively providing power from the source of power to the at least one load to operate in an area responsive to an environmental condition in the area. In one embodiment, the device includes a home mode, an away mode, and a custom mode, and a user interface for selecting one of the home mode and the custom mode to be operated. The device further includes at least one timer for timing a plurality of predefined operations, a first detector for generating a low light detection signal responsive to an ambient light level being below a predetermined threshold value, a second detector for generating a motion signal responsive to detection of a movement in the area, a dimmer for adjusting power supplying to the at least one load at a predetermined level, and a microcontroller coupled to the first detector and the second detector and coupled with the user interface for operatively controlling transmission of the source of power to the at least one load.
Owner:GARDNER GROFF GREENWALD & VILLANUEVA P C
Switching Power Controller and System
ActiveUS20110096574A1Conversion with intermediate conversion to dcDc-dc conversionPower controllerClock generator
A switching power controller circuit comprises a first terminal pin for a high potential of a power supply for the controller circuit, a second terminal pin for providing output of switch drive signals and for receiving feedback signals, and a third terminal pin for receiving external current signals and for a low potential of the power supply. The switching power controller further comprises a clock generator, a pulse width modulation (PWM) generator, a reference generator, a power switch driver, a feedback signal sampler, a PWM comparator and a floating sampler.
Owner:GIANTEC SEMICON LTD
Method and system for control of turbogenerator power and temperature
InactiveUS6958550B2Efficiency of turbine is maximizedIncrease speedLoad balancing in dc networkSteam usePower controllerEngineering
A power controller controls the turbine of a turbine powered generating system regardless of the load on the system to maximize the efficiency of the turbine and maintains the turbine at a substantially constant temperature during a system load change by using an energy storage device to provide power to the load while the turbine is changing speed to meet the new load demand.
Owner:CAPSTONE TURBINE
Distributed power system using direct current power sources
ActiveUS8618692B2Electric signal transmission systemsBatteries circuit arrangementsElectric forcePower controller
Owner:SOLAREDGE TECH LTD
Token based power control mechanism
A token-based power control mechanism for an apparatus including a power controller and a plurality of processing devices. The power controller may detect a power budget allotted for the apparatus. The power controller may convert the allotted power budget into a plurality of power tokens, each power token being a portion of the allotted power budget. The power controller may then assign one or more of the plurality of power tokens to each of the processing devices. The assigned power tokens may determine the power allotted for each of the processing devices. The power controller may receive one or more requests from the plurality of processing devices for one or more additional power tokens. In response to receiving the requests, the power controller may determine whether to change the distribution of power tokens among the processing devices.
Owner:GLOBALFOUNDRIES US INC
Power amplifier and radio wave transmitter having the same
ActiveUS20100266066A1Eliminate high frequency noiseNegative-feedback-circuit arrangementsModulated-carrier systemsPower controllerHigh frequency power
A power amplifier (10) comprises: an A / D converter (11) for converting, to a time discrete signal, an envelope signal included in a high-frequency modulated signal and including only an amplitude modulated component of the high-frequency modulated signal; a switching amplifier (12) for amplifying the output signal of the A / D converter (11); a low-pass filter (13) for removing high frequency noise from the output signal of the switching amplifier (12); a plurality of high-frequency power amplifiers (15-1 to 15-n) for receiving the output signal of the low-pass filter (13) as a power supply and for amplifying a carrier signal included in the high-frequency modulated signal; and a power controller (14) for adjusting the average power of the output signal of the power amplifier (10) by controlling the total gains of the plurality of high-frequency power amplifiers (15-1 to 15-n).
Owner:NEC CORP
System and method for remotely managing electric power usage of target computers
ActiveUS20130073882A1Volume/mass flow measurementPower supply for data processingPower controllerUser input
In one aspect, a system for remotely managing electric power usage of a plurality of target computers is disclosed. In one embodiment, the system includes a plurality of target computers arranged in a group, each using electric power at a rate associated with a corresponding duty cycle and power rating. A remote management computer is communicatively connected to the group of target computers and operative to receive user input data including a total group power usage limit and a priority assignment, minimum duty cycle setting, and / or power zone setting for at least one of the target computers. A power controller is operative to remotely control the power usage of the target computers according to the corresponding user input data, to cause the total group power usage to be at or below the group power usage limit.
Owner:AMERICAN MEGATRENDS
Who we serve
- R&D Engineer
- R&D Manager
- IP Professional
Why Patsnap Eureka
- Industry Leading Data Capabilities
- Powerful AI technology
- Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More Browse by: Latest US Patents, China's latest patents, Technical Efficacy Thesaurus, Application Domain, Technology Topic, Popular Technical Reports.
© 2024 PatSnap. All rights reserved.Legal|Privacy policy|Modern Slavery Act Transparency Statement|Sitemap|About US| Contact US: help@patsnap.com