Patent application number | Description | Published |
20090278506 | SYSTEM AND METHOD FOR DYNAMIC POWER MANAGEMENT OF A MOBILE DEVICE - The present relates to a system and method for dynamic power management of a mobile device. The mobile device has a plurality of loads and a battery charger electrically connected to a voltage rail. The method comprises monitoring the plurality of loads to determine when at least one of the loads will become active or inactive, determining a minimum required output voltage level to be provided by the voltage converter based on active loads and the at least one load that will become active or inactive and device operation; and adjusting an input voltage level via the voltage converter to provide the minimum required output voltage level on the voltage rail in advance of the at least one load becoming active or after the at least one load becomes inactive. The method further monitors the input voltage level, and determines whether the input voltage level is below a first predetermine threshold. When the input voltage level falls below the first threshold, the method reduces the output voltage level provided by the voltage converter thereby reducing a charging rate of the battery charger. | 11-12-2009 |
20090315730 | METHOD AND APPARATUS FOR DISPLAYING BATTERY FAULT NOTIFICATIONS ON WIRELESS DEVICES - A battery pack for a mobile device, a method for processing fault notifications for a mobile device, and a mobile device for processing fault notifications are described. The battery pack comprises a housing, at least one battery cell within the housing, and a memory accessible by an application of the mobile device, the memory having stored thereon identifying information for identifying at least one of the battery pack and battery cell. Notifications are sent to mobile device including fault parameters for identifying at least one battery pack and/or battery cell affected by a fault. If the identifying information is within the fault parameters, displaying a fault notification on the display of the mobile device. | 12-24-2009 |
20100014848 | METHOD AND APPARATUS FOR POWER MANAGEMENT IN AN ELECTRONIC DEVICE - An electronic device and method for power management in an electronic device is provided. In an embodiment, the electronic device includes the functionality of a personal digital assistant, wireless email paging and a camera with a flash that is operated via self-contained power supply in the form of a battery. The device also includes a supervisor circuit which causes the device to enter sleep mode, or disables the device, or certain features of the device, if the battery level falls below a certain threshold. A method in accordance with an embodiment performs, in response to a request to fire the flash, a pre-flash test which is selected so as to not trip the supervisor circuit. The battery level is examined before the pre-flash test and examined as a consequence of performing the pre-flash test, if a change in the battery level as so examined meets certain criterion, then the full flash is not permitted to proceed. If the battery level does not meet the criterion, the full flash is permitted to proceed. | 01-21-2010 |
20100066311 | POWER SUPPLY CIRCUIT AND METHOD FOR PROVIDING OUTPUT VOLTAGE - Various embodiments are described herein for a charging device and an associated charging method for charging a rechargeable battery. The charging device generally includes a current source that is coupled to a power source and configured to provide a charging current to the rechargeable battery. The charging device further includes a controller that is configured to control the current source to provide the charging current with an amplitude that is less than the charging current required by the rechargeable battery in a given charging state to bring an output voltage of the current source towards the voltage of the rechargeable battery. | 03-18-2010 |
20100197366 | INTERFACE AND COMMUNICATION PROTOCOL FOR A MOBILE DEVICE WITH A SMART BATTERY - Various embodiments are described herein for a mobile communication device that utilizes a smart battery. The mobile device includes a main processor for controlling the operation of the mobile communication device. The smart battery is coupled to the main processor and provides supply power. The smart battery includes a battery processor for controlling the operation of the smart battery and communicating with the main processor, and a battery module having one or more batteries for providing the supply power. A battery interface is provided for coupling between the main processor and the battery processor for providing communication therebetween. The battery interface comprises a data communication line and protection circuitry for protecting the main processor from electrostatic discharge. A communication protocol is also provided for communication between the main processor and the battery processor. | 08-05-2010 |
20100197367 | INTERFACE AND COMMUNICATION PROTOCOL FOR A MOBILE DEVICE WITH A SMART BATTERY - Various embodiments are described herein for a mobile communication device that utilizes a smart battery. The mobile device includes a main processor for controlling the operation of the mobile communication device. The smart battery is coupled to the main processor and provides supply power. The smart battery includes a battery processor for controlling the operation of the smart battery and communicating with the main processor, and a battery module having one or more batteries for providing the supply power. A battery interface is provided for coupling between the main processor and the battery processor for providing communication therebetween. The battery interface comprises a data communication line and protection circuitry for protecting the main processor from electrostatic discharge. A communication protocol is also provided for communication between the main processor and the battery processor. | 08-05-2010 |
20110217032 | METHOD AND APPARATUS FOR POWER MANAGEMENT IN AN ELECTRONIC DEVICE - An electronic device and method for power management in an electronic device is provided. In an embodiment, the electronic device includes the functionality of a personal digital assistant, wireless email paging and a camera with a flash that is operated via self-contained power supply in the form of a battery. The device also includes a supervisor circuit which causes the device to enter sleep mode, or disables the device or certain features of the device, if the battery level falls below a certain threshold. A method in accordance with an embodiment performs, in response to a request to fire the flash, a pre-flash test which is selected so as to not trip the supervisor circuit. The battery level is examined after the pre-flash test. If the battery level meets certain criteria, the full flash is permitted to proceed, else the full flash is not permitted to proceed. | 09-08-2011 |
20120021709 | SYSTEM AND METHOD FOR MANAGING BATTERY SLUMP DURING WIRELESS COMMUNICATIONS USING SIGNAL TRIGGERED VOLTAGE MONITORING - A system and method for managing battery slump in a battery-powered communications device including: an input configured for receiving battery voltage level information; an output configured for sending a signal for terminating a transmission; and a controller connected to the input and the output and configured to receive the battery voltage level information from the input; monitor the battery voltage level information; and send a signal via the output to terminate a transmission if the battery voltage level information crosses a predetermined threshold during the transmission. In particular, the system and method may further include an input connected to the controller and configured for receiving a signal indicating when a transmission is beginning or occurring and the controller is further configured to receive and monitor the battery voltage level information only when the transmission is occurring. | 01-26-2012 |
20120021807 | MOBILE DEVICE WITH A SMART BATTERY HAVING A BATTERY INFORMATION PROFILE CORRESPONDING TO A COMMUNICATION STANDARD - Various embodiments are described for a mobile communication device having a main processor for controlling the operation of the mobile communication device; a device memory coupled to the main processor for storing a plurality of battery information profiles; and a smart battery coupled to the main processor for providing supply power. The smart battery includes a battery processor for controlling the operation of the smart battery and communicating with the main processor; and a battery memory coupled to the battery processor for storing a Battery ID indicating the model of the smart battery. The main processor is configured to communicate with the battery processor to obtain the Battery ID and select one the battery information profiles based on the Battery ID. | 01-26-2012 |
20120306272 | SYSTEM AND METHOD FOR DYNAMIC POWER MANAGEMENT OF A MOBILE DEVICE - A method of dynamic power management of a mobile device. The method includes monitoring at least one load to determine when at least one of the loads will become active or inactive, determining a minimum required output voltage level to be provided by a single voltage converter based on voltage level requirements of the at least one load that will become active or inactive, converting an input voltage level via the voltage converter to provide the minimum required output voltage level to the output power port in advance of the at least one load becoming active or after the at least one load becomes inactive, monitoring the input voltage level, determining whether the input voltage level is below a first threshold, and when the input voltage level is below the first threshold, reducing the output voltage level provided by the single voltage converter. | 12-06-2012 |
20120315959 | MOBILE DEVICE WITH A SMART BATTERY HAVING A BATTERY INFORMATION PROFILE CORRESPONDING TO A COMMUNICATION STANDARD - Various embodiments are described for a mobile communication device having a main processor for controlling the operation of the mobile communication device; a device memory coupled to the main processor for storing a plurality of battery information profiles; and a smart battery coupled to the main processor for providing supply power. The smart battery includes a battery processor for controlling the operation of the smart battery and communicating with the main processor; and a battery memory coupled to the battery processor for storing a Battery ID indicating the model of the smart battery. The main processor is configured to communicate with the battery processor to obtain the Battery ID and select one the battery information profiles based on the Battery ID. | 12-13-2012 |
20120322513 | INTERFACE AND COMMUNICATION PROTOCOL FOR A MOBILE DEVICE WITH A SMART BATTERY - Various embodiments are described herein for a mobile communication device that utilizes a smart battery. The mobile device includes a main processor for controlling the operation of the mobile communication device. The smart battery is coupled to the main processor and provides supply power. The smart battery includes a battery processor for controlling the operation of the smart battery and communicating with the main processor, and a battery module having one or more batteries for providing the supply power. A battery interface is provided for coupling between the main processor and the battery processor for providing communication therebetween. The battery interface comprises a data communication line and protection circuitry for protecting the main processor from electrostatic discharge. A communication protocol is also provided for communication between the main processor and the battery processor. | 12-20-2012 |
20120328094 | INTERFACE AND COMMUNICATION PROTOCOL FOR A MOBILE DEVICE WITH A SMART BATTERY - Various embodiments are described herein for a mobile communication device that utilizes a smart battery. The mobile device includes a main processor for controlling the operation of the mobile communication device. The smart battery is coupled to the main processor and provides supply power. The smart battery includes a battery processor for controlling the operation of the smart battery and communicating with the main processor, and a battery module having one or more batteries for providing the supply power. A battery interface is provided for coupling between the main processor and the battery processor for providing communication therebetween. The battery interface comprises a data communication line and protection circuitry for protecting the main processor from electrostatic discharge. A communication protocol is also provided for communication between the main processor and the battery processor. | 12-27-2012 |
20130002442 | METHOD AND APPARATUS FOR DISPLAYING BATTERY FAULT NOTIFICATIONS ON WIRELESS DEVICES - A battery pack for a mobile device, a method for processing fault notifications for a mobile device, and a mobile device for processing fault notifications are described. The battery pack comprises a housing, at least one battery cell within the housing, and a memory accessible by an application of the mobile device, the memory having stored thereon identifying information for identifying at least one of the battery pack and battery cell. Notifications are sent to mobile device including fault parameters for identifying at least one battery pack and/or battery cell affected by a fault. If the identifying information is within the fault parameters, displaying a fault notification on the display of the mobile device. | 01-03-2013 |
Patent application number | Description | Published |
20100102774 | Method and Apparatus for Handling a Charging State in a Mobile Electronic Device - In accordance with the teachings described herein, a method and apparatus for handling a charging state in a mobile electronic device is provided. A universal serial bus (USB) interface may be used for connecting the mobile device to a USB host. A processing device may be used to control operation of the mobile device and receive an enumeration acknowledgement signal from the USB host via the USB interface and generate an enable signal upon receiving the enumeration acknowledgement signal. The method and apparatus may further include a rechargeable battery, a battery charger, a timing circuit, and a battery charger enabling circuit. | 04-29-2010 |
20100117595 | Method and Apparatus for Handling a Charging State in a Mobile Electronic Device - A system and method for using a universal serial bus (USB) interface in a mobile device is provided that includes providing a battery charger operable to receive a voltage provided at the USB interface, the battery charger operable for charging a battery in the mobile device, and, a voltage regulator operable to receive a voltage provided at the USB interface, the voltage regulator used in powering the mobile device. The method also includes, detecting a USB bus voltage at the USB interface, measuring passage of a predetermined amount of time upon detecting the USB bus voltage, and disabling at least one of the voltage regulator and the battery charger if the predetermined amount of time expires before an enumeration acknowledgement signal is received at the USB interface. | 05-13-2010 |
20100219797 | Circuit and Method of Operation for an Electrical Power Supply - A battery charging circuit comprising: a semiconductor switch having an output connected to a rechargeable battery; a battery charge controller for receiving power from an external source, and supplying output power to a portable device and the input of the semiconductor switch, the current output of the battery charge controller being controllable; and a voltage sensing circuit for: measuring the voltage drop across the battery charge controller; and responding to the voltage drop across the battery charge controller by modulating the semiconductor switch to reduce the quantity of current supplied to the rechargeable battery when the voltage drop is too great; whereby the total power dissipated by the battery charge controller is controlled, the portable device receiving the power it needs to operate and the rechargeable battery receiving any additional available power. | 09-02-2010 |
Patent application number | Description | Published |
20110095652 | HOLSTER-INTEGRATED PIEZOELECTRIC ENERGY SOURCE FOR HANDHELD ELECTRONIC DEVICE - A holster for a handheld electronic device. The holster has integrated therein one or more piezoelectric elements that provide an output voltage to the handheld electronic device upon insertion of device in the holster. The output voltage can be used to charge the battery of the device, to power, at least in part, the device, or both. The output voltage is generated by harvesting vibration energy at the piezoelectric elements upon the holster being subjected to acceleration caused by a user carrying the holster when walking, running, or during any other suitable activity. | 04-28-2011 |
20120032640 | HOLSTER-INTEGRATED PIEZOELECTRIC ENERGY SOURCE FOR HANDHELD ELECTRONIC DEVICE - A holster for a handheld electronic device. The holster has integrated therein one or more piezoelectric elements that provide an output voltage to the handheld electronic device upon insertion of device in the holster. The output voltage can be used to charge the battery of the device, to power, at least in part, the device, or both. The output voltage is generated by harvesting vibration energy at the piezoelectric elements upon the holster being subjected to acceleration caused by a user carrying the holster when walking, running, or during any other suitable activity. | 02-09-2012 |
20120206373 | ELECTRONIC DEVICE AND METHOD OF CONTROLLING SAME - A method includes detecting movement of a touch on a touch-sensitive display of an electronic device from a first touch location to a second touch location. When the distance between the first touch location and the second touch location meets a first threshold, the second touch location is reported to an application layer of the electronic device. After the first threshold is met, a third touch location is reported to the application layer when movement of the touch from the second touch location to the third touch location is detected and the distance between the second touch location and the third touch location meets a second threshold. | 08-16-2012 |
20120274274 | HOLSTER-INTEGRATED PIEZOELECTRIC ENERGY SOURCE FOR HANDHELD ELECTRONIC DEVICE - A holster for a handheld electronic device. The holster has integrated therein one or more piezoelectric elements that provide an output voltage to the handheld electronic device upon insertion of device in the holster. The output voltage can be used to charge the battery of the device, to power, at least in part, the device, or both. The output voltage is generated by harvesting vibration energy at the piezoelectric elements upon the holster being subjected to acceleration caused by a user carrying the holster when walking, running, or during any other suitable activity. | 11-01-2012 |
Patent application number | Description | Published |
20110169741 | SYSTEM AND METHOD FOR ASSOCIATING CHARACTERS TO KEYS IN A KEYPAD IN AN ELECTRONIC DEVICE - The disclosure relates to a system and method of mapping a layout of a keyboard onto a keypad in an electronic device. The method comprises: associating a first set of characters in a QWERTY keyboard layout with a segment of programmable keys in the keypad, the QWERTY keyboard layout comprising at least a left and a right column of keys; navigating through the QWERTY keyboard layout for the programmable keys using first and second directional keys providing upper and lower navigation controls for the segment of programmable keys when the first set of characters is from the right column of keys in the QWERTY keyboard layout; and associating the segment of keys with a second set of characters in the QWERTY keyboard layout based on a signal received from the first and second direction keys. | 07-14-2011 |
20120113616 | FRAME INCORPORATING A FUEL CELL FOR AN ELECTRONIC PORTABLE DEVICE - Embodiments herein relate to a frame and an electronic portable device having a frame. The frame may include at least one fuel cell. The frame may also include at least one inlet for introducing fuel into the at least one fuel cell, and at least one drain for draining a residue produced by a reaction of the at least one fuel cell. The frame further may further include a connector for electrically connecting the at least one fuel cell to at least one electronic component of the electronic portable device. The frame may be further adapted for embedding the electronic component therein. | 05-10-2012 |
20130285614 | SYSTEM AND METHOD FOR DYNAMIC POWER MANAGEMENT OF A MOBILE DEVICE - A mobile device adapted for dynamic power management. The mobile device includes an output power port, a voltage converter adapted to convert an input voltage to provide an output voltage to the output power port, and a processor. The processor is adapted to monitor at least one load electrically to determine when the at least one load will become active or inactive, determine a minimum required output voltage to be provided by the voltage converter based on the at least one load that will become active or inactive, control the voltage converter to provide at least the minimum required output voltage on the output power port in advance of the at least one load becoming active or after the at least one load becomes inactive, and when the input voltage is below the first threshold, control the voltage converter to reduce the output voltage. | 10-31-2013 |
Patent application number | Description | Published |
20130169659 | HIGH EFFICIENCY DYNAMIC COLOR CONTROL MANAGEMENT SYSTEM - A method and apparatus are disclosed that use one or more of advanced signal processing or auxiliary metadata to detect maximum video pixel drive levels required, in advance, for quickly reducing light source power levels to only supply what is absolutely required by the spatial light modulator for that time period. A spatial light modulator is controlled so as to compensate proportionally by increasing its throughput. Thus, the image brightness can be preserved at a lower average source power level resulting in increased lifetime of the light source and lower operating cost on a per-hour basis and/or projection at a desired brightness using a lower cost light source than prior art systems. | 07-04-2013 |
20130321475 | ZONAL ILLUMINATION FOR HIGH DYNAMIC RANGE PROJECTION - A zonal illumination system for use in a projector, comprising a source of illumination; a first modulation stage for dividing light from the source of illumination into a plurality of zones having respective light intensities based on zonal lighting intensity of an image to be projected; and a second modulation stage for modulating light from the first modulation stage to generate the image to be projected. | 12-05-2013 |
20140253985 | SYSTEM FOR ORDER ALIGNMENT OF DIFFRACTIVELY PRODUCED IMAGES - A system for order alignment of diffractively produced images is provided. The system comprises: a diffractive spatial light modulator (DSLM) configured to provide a computer generated hologram of an image; a substantially coherent light source configured to illuminate the DSLM which responsively produces the image along each of different diffractive order paths; and, at least one set of optical components located along respective diffractive order paths of the DSLM, the at least one set of optical components configured to align at least one respective image diffracted from the DSLM with at least another diffracted image at a common image plane. | 09-11-2014 |
20140267978 | SYSTEM AND METHOD FOR ZONAL SWITCHING FOR LIGHT STEERING TO PRODUCE AN IMAGE HAVING HIGH DYNAMIC RANGE - A method and system for zonal switching for light steering to produce an image having high dynamic range is described. The system comprises: a light source for providing light along an optical path; a spatial light modulator for directing portions of the light to off-state and on-state light paths, thereby producing an image, the spatial light modulator having a plurality of illumination zones corresponding to the image; and a set of sequentially-arranged optical elements in the optical path for steering at least some of the light from a first subset of the plurality of illumination zones to a second subset of the plurality of illumination zones to increase the dynamic range of the image. The dwell time of the one or more sequentially arranged optical elements can be modified to steer light. | 09-18-2014 |
20140268066 | MULTI-COLOUR ILLUMINATION APPARATUS - A light engine is provided for a projection system, comprising a color wheel having a plurality of color phosphor portions; at least two light sources for illuminating the wheel at different locations for generating at least two time-sequenced beams of red, green and blue light, wherein the output beams are highly synchronized and exhibit substantially similar colorimetry, including spectrum and balance of red, green and blue light; and a digital micromirror device for modulating the time-sequenced beams of red, green and blue light to create an image. In another aspect, a light engine is provided for a tiled projection system having at least two projectors, comprising a color wheel having a plurality of color phosphor portions; a light source for generating a beam of light; a beam splitter for splitting the beam of light into at least two highly correlated beams to illuminate the wheel at different locations for generating at least two time-sequenced beams of identical red, green and blue light; and a digital micromirror device in each of the projectors for modulating the highly correlated beams to create a tiled image | 09-18-2014 |