Patent application number | Description | Published |
20100194682 | METHOD FOR TAP DETECTION AND FOR INTERACTING WITH A HANDHELD ELECTRONIC DEVICE, AND A HANDHELD ELECTRONIC DEVICE CONFIGURED THEREFOR - A method for tap detection and for interacting with a handheld electronic device, and a handheld electronic device configured therefore are described. In accordance with one embodiment, there is provided a method for tap detection on a handheld electronic device, comprising: measuring acceleration using an accelerometer of the handheld electronic device; determining when measured acceleration exceeds an upper limit threshold and a lower limit threshold within a predetermined duration of each other; when the upper limit threshold and lower limit threshold have been exceeded, determining a rate of change of acceleration between the upper limit threshold and lower limit threshold and registering a tap input when the rate of change of acceleration exceeds a predetermined tap threshold. | 08-05-2010 |
20110080349 | METHOD OF WAKING UP AND A PORTABLE ELECTRONIC DEVICE CONFIGURED TO PERFORM THE SAME - The present disclosure provides a method of waking a portable electronic device and a portable electronic device configured to perform the same. In accordance with one embodiment, there is provided a method of conserving power on a portable electronic device, the portable electronic device having a device housing which comprises a touch-sensitive display, an accelerometer, and a force sensing transducer, the method comprising: causing the portable electronic device to enter a sleep mode in response to a trigger condition, wherein the touch-sensitive display is deactivated in the sleep mode and the force sensing transducer measures forces applied to the touch-sensitive display at a reduced rate relative to a rate of a full power mode when in the sleep mode; detecting an inertial event using the accelerometer; causing the force sensing transducer to measure forces applied to the touch-sensitive display at the rate of the full power mode in response to detection of an inertial event; detecting forces applied to the touch-sensitive display using the force sensing transducer at the rate of the full power mode; causing the touch-sensitive display to be reactivated in response to detection of a force which is greater than a predetermined wake force threshold; detecting touch events on the touch-sensitive display; and causing the portable electronic device to wake from the sleep mode in response to detection of a touch event within a first predetermined duration of the detection of the force which is greater than a predetermined wake force threshold. | 04-07-2011 |
20110289238 | APPARATUS, AND ASSOCIATED METHOD, FOR FACILITATING SYNCHRONIZATION OF A WIRELESS DEVICE - An apparatus, and an associated method, facilitates synchronization of a wireless device, such as a portable mobile station. The wireless device is positioned at a support dock, such as a charging cradle of a charging assembly. Positioning of the wireless device at the support dock is detected, such a through detection of application of charging current to the wireless device. Detection of the positioning causes automatic initiation of synchronization operations. Synchronization operations are initiated and then carried out. | 11-24-2011 |
Patent application number | Description | Published |
20110080367 | LOW POWER WAKEUP DETECTION CIRCUIT AND A PORTABLE ELECTRONIC DEVICE HAVING A LOW POWER WAKEUP DETECTION CIRCUIT - The present disclosure provides a low power wakeup detection circuit and a portable electronic device having a low power wakeup detection circuit. In accordance with one embodiment, there is provided a portable electronic device, comprising: a housing; a controller received within the housing; a touch-sensitive display having a touch-sensitive overlay, the touch-sensitive display being mechanically constrained by the housing; at least one force sensing transducer located below the touch-sensitive display on an opposite side to the touch-sensitive overlay, the at least one force sensing transducer being connected to the controller and measuring forces applied to the touch-sensitive display; wherein the controller is configured for: initiating a sleep mode from a full power mode in response to a trigger; when in the sleep mode, reading force data measured by the at least one force sensing transducer at a reduced duty cycle relative to the full power mode, comparing the force data to a wakeup force threshold, and returning to the full power mode from the sleep mode when the force data is greater than the wakeup force threshold. | 04-07-2011 |
20120170177 | ELECTRONIC DEVICE HAVING AN ELECTRONIC COMPASS ADAPTED TO DETECT WHEN THE DEVICE IS IN A HOLSTER - According to one aspect, a portable electronic device sized and shaped to be received within a holster having a magnetic element. The portable electronic device includes an electronic compass adapted to measure a magnetic field of the magnetic element in at least two axes. When the measured pattern corresponds to a first pattern, the portable electronic device is adapted to determine that the portable electronic device is in the holster. | 07-05-2012 |
20120205165 | INPUT DETECTING APPARATUS, AND ASSOCIATED METHOD, FOR ELECTRONIC DEVICE - An apparatus, and an associated method, forms a user interface permitting input of input instructions to an electronic device. Input commands are evidence by tactile input forces applied to a force receiving surface. Force sensing elements are positioned to sense indications of the tactile input force. The force sensing element is caused to exhibit a selected input parameter value through application of a selected force thereto by application of a tightening torque to a fastener positioned in proximity to the force sensing element. | 08-16-2012 |
20120326982 | OPTICAL NAVIGATION DEVICE WITH HAPTIC FEEDBACK - An optical joystick is connected to a vibratory transducer such as a piezoelectric transducer, where the vibratory transducer produces vibration which may be perceived upon a surface of the optical joystick. The vibration is perceived primarily at the surface of the optical joystick, and not upon a case of the computing device, and is distinguishable from other vibrations which may be induced in the computing device. Vibrations are created to indicate scrolled items in a list, selected items, or navigation within certain displayed zones. | 12-27-2012 |
20130084805 | Orientation Determination For A Mobile Device - A system determines an orientation of a user of a mobile device has a head-mounted accessory device including a first digital compass for providing a first orientation signal and a short-range wireless transmitter for transmitting the first orientation signal to the mobile device. The mobile device includes a short-range wireless receiver for receiving the first orientation signal from the head-mounted accessory device. A processor in the mobile device determines the orientation based on the first orientation signal. The mobile device may include a second digital compass. The system with two compasses provides greater accuracy. By comparing the two orientation signals, the device can infer whether the user is viewing the mobile device. Tilt sensors in the accessory device and mobile device can also be used with the orientation signals to infer whether the user is viewing the mobile device and thus to control content delivered by the mobile device. | 04-04-2013 |
20130276550 | INPUT DETECTING APPARATUS, AND ASSOCIATED METHOD, FOR ELECTRONIC DEVICE - An apparatus, and an associated method, forms a user interface permitting input of input instructions to an electronic device. Input commands are evidence by tactile input forces applied to a force receiving surface. Force sensing elements are positioned to sense indications of the tactile input force. The force sensing element is caused to exhibit a selected input parameter value through application of a selected force thereto by application of a tightening torque to a fastener positioned in proximity to the force sensing element. | 10-24-2013 |
20140292320 | ELECTRONIC DEVICE HAVING AN ELECTRONIC COMPASS ADAPTED TO DETECT WHEN THE DEVICE IS IN A HOLSTER - According to one aspect, a portable electronic device sized and shaped to be received within a holster having a magnetic element. The portable electronic device includes an electronic compass adapted to measure a magnetic field of the magnetic element in at least two axes. When the measured pattern corresponds to a first pattern, the portable electronic device is adapted to determine that the portable electronic device is in the holster. | 10-02-2014 |