Patent application number | Description | Published |
20090212391 | Micromodules Including Integrated Thin Film Inductors and Methods of Making the Same - Micromodules and methods of making them are disclosed. An exemplary micromodule includes a substrate having a thin film inductor, and a bumped die mounted on the substrate and over the thin film inductor. | 08-27-2009 |
20110030206 | MICROMODULES INCLUDING INTEGRATED THIN FILM INDUCTORS AND METHODS OF MAKING THE SAME - Micromodules and methods of making them are disclosed. An exemplary micromodule includes a substrate having a thin film inductor, and a bumped die mounted on the substrate and over the thin film inductor. | 02-10-2011 |
20110057607 | VARIABLE WIRELESS POWER TRANSMISSION - Exemplary embodiments are directed to variable power wireless power transmission. A method may include conveying wireless power to a device at a first power level during a time period. The method may further include conveying wireless power to one or more other devices at a second, different power level during another time period. | 03-10-2011 |
20120025624 | LOW POWER DETECTION OF WIRELESS POWER DEVICES - Exemplary embodiments are directed to detection and validation of wirelessly chargeable devices positioned within a charging region of a wireless power transmitter. A device may include a wireless power transmitter configured detect a change in at least one parameter at the transmitter. The transmitter may further be configured to determine whether at least one valid chargeable device is positioned within a charging region of the transmitter upon detecting the change in the at least one parameter. | 02-02-2012 |
20120104997 | WIRELESS CHARGING DEVICE - Exemplary embodiments are directed to wirelessly charging a chargeable device. A device may include a receiver configured to receive a stored power status from an embeddable, chargeable device. The device may further include a transmitter configured to wirelessly transmit power to charge the embeddable, chargeable device based on the stored power status. | 05-03-2012 |
20120153907 | Dual-Stage Power Conversion - A circuit converts an input voltage to an output voltage. The circuit includes a first stage voltage converter that receives the input voltage and converts the input voltage. The first stage voltage converter includes a first buck converter having a double rail output: a first rail at a high intermediate voltage and a second rail at a low intermediate voltage. The circuit also includes a second stage voltage converter that receives the output rails and produces the output voltage. | 06-21-2012 |
20120249093 | POWER SUPPLY CONTROLLER - Exemplary embodiments are directed to a power controller. A method may include comparing a summation voltage comprising a sum of an amplified error voltage and a reference voltage with an estimated voltage to generate a comparator output signal. The method may also include generating a gate drive signal from the comparator output signal and filtering a signal coupled to a power stage to generate the estimated voltage. | 10-04-2012 |
20140167273 | LOW PARASITIC PACKAGE SUBSTRATE HAVING EMBEDDED PASSIVE SUBSTRATE DISCRETE COMPONENTS AND METHOD FOR MAKING SAME - One feature pertains to a multi-layer package substrate of an integrated circuit package that comprises a discrete circuit component (DCC) having at least one electrode. The DCC is embedded within an insulator layer, and a via coupling component electrically couples to the electrode. A first portion of the via coupling component extends beyond a first edge of the electrode, and a plurality of vias each having a first end couple to the first via coupling component. At least a first via of the plurality of vias couples to the first portion of the via coupling component that extends beyond the first edge of the electrode. Moreover, the plurality of vias each have a second end that electrically couple to a first outer metal layer, and at least a second portion of the via coupling component is positioned within a first inner metal layer. | 06-19-2014 |
20140268615 | TWO-STAGE POWER DELIVERY ARCHITECTURE - A two-stage power delivery network includes a voltage regulator and an interposer. The interposer includes a packaging substrate having an embedded inductor. The embedded inductor includes a set of traces and a set of through substrate vias at opposing ends of the traces. The interposer is coupled to the voltage regulator. The two-stage power delivery network also includes a semiconductor die supported by the packaging substrate. The two-stage power delivery network also includes a capacitor that is supported by the packaging substrate. The capacitor is operable to provide a decoupling capacitance associated with the semiconductor die and a capacitance to reduce a switching noise of the voltage regulator. | 09-18-2014 |
20150084586 | LOW POWER DETECTION OF WIRELESS POWER DEVICES - Exemplary embodiments are directed to detection and validation of wirelessly chargeable devices positioned within a charging region of a wireless power transmitter. A device may include a detection circuit comprising an oscillator, the detection circuit configured to detect a change in a frequency of the oscillator. The device may also include a wireless power transmitter configured to determine whether a chargeable device is positioned within a charging region of the transmitter upon the detection circuit detecting the change in the frequency of the oscillator, wherein the transmitter further configured to be selectively electrically isolated from the detection circuit. | 03-26-2015 |
Patent application number | Description | Published |
20130043734 | WIRELESS POWER RECEIVER WITH MULTIPLE RECEIVER COILS - Systems, methods and apparatus are disclosed for wireless power transfer using multiple receive coils. In one aspect a wireless power receiver is provided that is configured to receive wireless power from a wireless power transmit coil. The wireless power receiver includes a first receive coil having a first mutual coupling with the transmit coil. The wireless power receiver further includes a second receive coil having a second mutual coupling with the transmit coil. The wireless power receiver further includes a load coupled to at least one of the first receive coil and the second receive coil for receiving the wireless power. | 02-21-2013 |
20140266018 | SYSTEMS AND METHODS FOR EXTENDING THE POWER CAPABILITY OF A WIRELESS CHARGER - This disclosure provides systems, methods and apparatus for wireless power transfer. In one aspect, an apparatus transfers energy wirelessly to at least one receive antenna of at least one receiver. The apparatus comprises a first antenna configured to generate a first wireless field when the at least one receiver is in an energy transfer region of the first transmit antenna. The apparatus further comprises a second antenna configured to generate a second wireless field when the at least one receiver is in an energy transfer region of the second transmit antenna. The apparatus further comprises a controller configured to activate at least one of the first antenna or the second antenna based on whether the at least one receiver is in an energy transfer region of one or both of the first and second wireless fields. | 09-18-2014 |
20150019882 | SWITCHING POWER SUPPLY WITH NOISE CONTROL - On embodiment of a device with a noise adaptive power supply includes a noise adaptation unit configured to receive a noise adaptation signal. The noise adaptation unit can provide processing, such as digital filter processing to reduce the effect of power supply noise. In one embodiment, a feedback signal is used to adjust the output voltage of the power supply. The noise adaptation signal can be similar to the feedback signal. The noise adaptation unit can provide the processing in response to the noise adaptation signal. | 01-15-2015 |
20150028801 | SYSTEMS AND METHODS FOR EXTENDING THE POWER CAPABILITY OF A WIRELESS CHARGER - Systems and methods for converting voltages between different voltage levels in a receiver are disclosed. In an aspect, a wireless power receiver apparatus for charging a chargeable device is provided. The wireless power receiver apparatus for charging a chargeable device can include a receive antenna configured to wirelessly receive power at a level sufficient for charging the chargeable device. The wireless power receiver apparatus can also include converter circuitry. The converter circuitry can be coupled to the receive antenna. The converter circuitry can be configured to receive an input voltage derived from the wirelessly received power. The converter circuitry can also be configured to produce an output voltage that is scaled to a value relative to the input voltage based on a relationship between the input voltage and a first voltage level threshold. | 01-29-2015 |
20150028803 | SYSTEMS AND METHODS FOR ENABLING A UNIVERSAL BACK-COVER WIRELESS CHARGING SOLUTION - Systems and methods for converting voltages between different voltage levels in a receiver are disclosed. In an aspect, a wireless power receiver apparatus for charging a chargeable device is provided. The apparatus includes a plurality of receive antennas disposed on a cover of the chargeable device, wherein at least one of the plurality of receive antennas is configured to wirelessly receive power according to a wireless charging protocol different from at least one other of the plurality of receive antennas. The apparatus includes a switching circuit disposed on the cover and configured to receive the wireless power from at least one of the plurality of receive antennas and selectively provide a respective voltage from a corresponding one of the plurality of receive antennas across an output configured to be connected to an input of the chargeable device. | 01-29-2015 |