Patent application number | Description | Published |
20080234009 | SYSTEM AND DEVICES FOR INDUCTIVE CHARGING OF A WEARABLE ELECTRONIC DEVICE - Disclosed is a wearable electronic device including an earmount. The earmount includes an inductor configured to convert an alternating magnetic field to alternating current. The device also includes a rectifier circuit coupled to the inductor and configured to convert alternating current to direct current for trickle charging, and a rechargeable power source configured to receive from the rectifier circuit direct current for trickle charging of the power source. Also disclosed is a charger adapted for use with the wearable wireless communication device described above. The charger is configured to receive an earmount of the wearable electronic device and to electromagnetically couple to the wearable electronic device via the inductor included in the earmount. Also disclosed is a system for trickle charging of a wearable electronic device. The system may include a charger and one or more wearable electronic devices, each device including an earmount having an inductor. | 09-25-2008 |
20130120106 | DISPLAY DEVICE, CORRESPONDING SYSTEMS, AND METHODS THEREFOR - A display system includes a display and a control circuit operable with the display. The display is configured to provide visual output having a presentation orientation. When user input is received, the control circuit can alter the presentation orientation from an initial orientation in response to user input. When non-user events or device events are detected, the control circuit can revert the presentation orientation to the initial orientation in response to the non-user event or device event. Where the presentation orientation has a user input configuration associated therewith, the user input configuration can either be altered with the presentation orientation or retained in an initial disposition. | 05-16-2013 |
20130326790 | Wearable Band with Ease of Adjustment - An impact resistant wearable band assembly | 12-12-2013 |
20140162482 | ELECTRICAL CONNECTOR, METHODS AND SYSTEMS THEREFOR - A connector ( | 06-12-2014 |
20140232694 | Sensing Strip for Providing Touch and Gesture Controls - An infrared sensing strip includes a substantially linear substrate board, a receiver diode, and a plurality of light emitting diodes (LEDs) linearly aligned along the linear substrate board. Each of the LEDs is operative to transmit in a different direction. The infrared sensing strip utilizes prismatic films arranged to refract light from each of the LEDs in different directions. In one embodiment, the receiver diode is positioned centrally on the linear substrate board, and includes at least four LEDs, with two of each being disposed on either side of the receiver diode. Four prismatic films each cover a respective one of the LEDs and are arranged to refract light from each respective LED in one of four different directions. The small scale of the infrared sensing strip enables various applications including a scroll control, volume control, a heart rate monitor and various transmit and receive features. | 08-21-2014 |
20140239984 | Capacitive Sensor - One example disclosed wearable device includes a first housing portion having a conductive section and a non-conductive section. The conductive section is connected to ground. A second housing portion includes a printed circuit board (PCB) with a conductor on the PCB surface positioned beneath the non-conductive section. The conductor on the PCB surface and the conductive section form a capacitor of a capacitive sensor. The wearable device may also include a first adhesive layer between a surface of the non-conductive section of the first housing portion and the PCB surface. A second adhesive layer, coplanar with the first adhesive layer, may be applied between a surface of the conductive section of the first housing portion and the PCB surface. The first adhesive layer and the second adhesive layer form a water tight seal that prevents liquids from penetrating into at least the second housing portion. | 08-28-2014 |
20140270415 | SENSING CHARACTERISTICS OF ADJACENT FINGERS FOR USER AUTHENTICATION - To authenticate a user, fingerprint data for multiple fingers of the user fingers is sensed by a fingerprint sensor ( | 09-18-2014 |
20140372940 | Display Device, Corresponding Systems, and Methods Therefor - A display system includes a display and a control circuit operable with the display. The display is configured to provide visual output having a presentation orientation. When user input is received, the control circuit can alter the presentation orientation from an initial orientation in response to user input. When non-user events or device events are detected, the control circuit can revert the presentation orientation to the initial orientation in response to the non-user event or device event. Where the presentation orientation has a user input configuration associated therewith, the user input configuration can either be altered with the presentation orientation or retained in an initial disposition. | 12-18-2014 |
20150022439 | METHOD AND APPARATUS FOR SELECTING BETWEEN MULTIPLE GESTURE RECOGNITION SYSTEMS - A method and apparatus for selecting between multiple gesture recognition systems includes an electronic device determining a context of operation for the electronic device that affects a gesture recognition function performed by the electronic device. The electronic device also selects, based on the context of operation, one of a plurality of gesture recognition systems in the electronic device as an active gesture recognition system for receiving gesturing input to perform the gesture recognition function, wherein the plurality of gesture recognition systems comprises an image-based gesture recognition system and a non-image-based gesture recognition system. | 01-22-2015 |
20150022978 | Circuit Assembly and Corresponding Methods - A circuit assembly ( | 01-22-2015 |
20150022986 | Circuit Assembly and Corresponding Methods - A circuit assembly ( | 01-22-2015 |
20150069242 | Electronic Device and Method for Detecting Presence - An electronic device for detecting presence includes a housing, an infrared (“IR”) sensor disposed in the housing, and a waveguide included in the housing. The waveguide is configured to collect heat or IR signal emitted by a person from outside of the housing and guide the collected IR signal to the IR sensor. The IR sensor is configured to receive the IR signal via the waveguide and generate a signal in response thereto. | 03-12-2015 |
20150069243 | ELECTRONIC DEVICE AND METHOD FOR DETECTING PRESENCE - An electronic device for detecting presence includes a housing and an infrared (“IR”) sensor. The housing includes an outer surface having an opening formed thereon. The IR sensor is disposed in the housing and adjacent to the opening. The IR sensor has an unobstructed path and line of sight through the opening to outside of the housing. The IR sensor is configured to receive heat emitted by a person from outside of the housing via the opening and to generate a signal in response thereto. | 03-12-2015 |
20150069248 | Electronic Device with Gesture Detection System and Methods for Using the Gesture Detection System - A method in an electronic device, the method includes projecting infrared (“IR”) light from a plurality of light emitting diodes (“LEDs”) disposed proximate to the perimeter of the electronic device, detecting, by a sensor, IR light originating from at least two of the plurality of LEDs reflected from off of a person, and carrying out a function based on the relative strength of the detected IR light from the LEDs. | 03-12-2015 |
20150069249 | Electronic Device with Gesture Detection System and Methods for Using the Gesture Detection System - A method in an electronic device, the method includes projecting infrared (“IR”) light from a plurality of light emitting diodes (“LEDs”) disposed proximate to the perimeter of the electronic device, detecting, by a sensor, IR light originating from at least two of the plurality of LEDs reflected from off of a person, and carrying out a function based on the relative strength of the detected IR light from the LEDs. | 03-12-2015 |
20150072742 | Electronic Device and Method for Detecting Presence and Motion - An electronic device for detecting presence and motion includes a housing, a first infrared (“IR”) sensor, and a second IR sensor. The housing includes a first corner having a first plurality of openings formed thereon, and a second corner having a second plurality of openings formed thereon. The first IR sensor is disposed proximate to the first corner and has an unobstructed path and line of sight to outside of the electronic device via the first plurality of openings. The second IR sensor is disposed proximate to the second corner and has an unobstructed path and line of sight to outside of the electronic device via the second plurality of openings. The openings of the first plurality of openings are oriented toward the first IR sensor in different directions. The openings of the second plurality of openings are oriented toward the second IR sensor in different directions. | 03-12-2015 |