Abstract: Techniques for identifying and discriminating between different input patterns to a multi-touch touch-screen device are described. By way of example, large objects hovering a short distance from the touch-surface (e.g., a cheek, thigh or chest) may be identified and distinguished from physical contacts to the surface. In addition, rough contacts due to, for example, ears and earlobes, may be similarly identified and distinguished from contacts due to fingers, thumbs, palms and finger clasps.

Abstract: Multi-event input systems, methods, and devices for use in connection with touch-sensitive electronic devices are disclosed. In accordance with certain embodiments of the present disclosure, a third state called “hover” can be achieved on a touch-base user interface device in addition to the states of pointer down and pointer up. In an embodiment involving a capacitive touch-sensing surface, one way to achieve the third state is for the user to contact the touchpad or touch screen with a non-flesh part of a finger, such as a fingernail, rather than the fleshy part of a finger. In other embodiments, the non-flesh part may comprise an electrically insulative layer covering a portion of a finger. The third state enables an adjunct system's user interface to achieve active navigation around the screen in a pointer-up (or left-up) input tool condition. One result is that mouseover pop-ups can be used on touch screen devices. Another result is that tooltips can be used on touch screen devices.

Abstract: Pre-stored no-touch or no-hover (no-event) sensor output values can initially be used when a sensor panel subsystem is first booted up to establish an initial baseline of sensor output values unaffected by fingers or other objects touching or hovering over the sensor panel during boot-up. This initial baseline can then be normalized so that each sensor generates the same output value for a given amount of touch or hover, providing a uniform response across the sensor panel and enabling subsequent touch or hover events to be more easily detected. After the initial normalization process is complete, the pre-stored baseline can be discarded in favor of a newly captured no-event baseline that may be more accurate than the pre-stored baseline due to temperature or other variations.

Abstract: Embodiments of the present invention are directed to a microcontroller which includes a Register Load Assist engine. The microcontroller can include no or minimal non-volatile memory which stores boot data. Thus, most of the boot data can be stored at a non-volatile memory external to the microcontroller. An external circuit can read the externally positioned non-volatile memory and send compressed boot data to the microcontroller. The boot data can be originally stored in compressed form in the external non-volatile memory or it can be compressed by the external circuit. The boot data can be received by the microcontroller and saved in an intermediate location in the microcontroller's internal volatile memory. The RLA engine can then uncompress the boot data and store various portions of it in their final destinations (such as, for example, in respective registers).

Abstract: A multi-layer cover for an electronic device having one or more of a sensor panel, a proximity sensor, an ambient light sensor, and a display device can include an outer hardcoat, a structural layer, an IR transmissive ink layer, a mask layer, and a backside hardcoat. The backside hardcoat can reduce cover warpage, enable full surface lamination of the cover to the sensor panel, prevent bubbles from forming in transparent windows in the cover, enable a wider range of functional inks to be applied in various layering orders to allow certain types of light to pass through while blocking others, and hide the sensors to provide a seamless, uncluttered visual appearance.

Abstract: A method and system for managing power in a computer system is disclosed. In one embodiment the method includes providing output signals from a sensor panel to a controller, wherein the controller includes a data bus and a plurality of devices communicatively coupled to the data bus; monitoring an activity level on the data bus by monitoring bus access requests by one or more of the plurality of devices; and reducing or shutting off a bus clock frequency if there is reduced or no activity on the bus for a predetermined period of time.

Abstract: The use of one or more proximity sensors in combination with one or more touch sensors in a multi-touch panel to detect the presence of a finger, body part or other object and control or trigger one or more functions in accordance with an “image” of touch provided by the sensor outputs is disclosed. In some embodiments, one or more infrared (IR) proximity sensors can be driven with a specific stimulation frequency and emit IR light from one or more areas, which can in some embodiments correspond to one or more multi-touch sensor “pixel” locations. The reflected IR signal, if any, can be demodulated using synchronous demodulation. In some embodiments, both physical interfaces (touch and proximity sensors) can be connected to analog channels in the same electrical core.

Abstract: Multi-touch touch-sensing devices and methods are described herein. The touch sensing devices can include multiple sense points, each of which can be stimulated with a plurality of periodic waveforms having different frequencies to measure a touch value at the sense point. Noise at one or more of the frequencies can interfere with this measurement. Therefore, various noise detection (and rejection) techniques are described. The noise detection techniques include two-clean-frequency noise detection, one-clean-frequency noise rejection, and combined two-clean-frequency/one-clean-frequency noise detection. Each of the noise detection techniques can include statistical analyses of the sample values obtained. The touch sensing methods and devices can be incorporated into interfaces for a variety of electronic devices such as a desktop, tablet, notebook, and handheld computers, personal digital assistants, media players, and mobile telephones.

Abstract: Normalization of regions of a sensor panel capable of detecting multi-touch events, or a sensor panel capable of detecting multi-hover events, is disclosed to enable each sensor in the sensor panel to trigger a virtual button in a similar manner, given the same amount of touch or hover. Each sensor produces an output value proportional to the level or amount of touch or hover. However, due to processing, manufacturing and physical design differences, the sensor output values can vary from region to region or panel to panel for a given amount of touch or hover. To normalize the sensor output values across regions, gain and offset information can be obtained in advance, stored in nonvolatile memory, and later used to normalize the sensor output values so that all regions in the sensor panel can trigger virtual buttons similarly, providing a uniform “response function” at any location on the sensor panel.

Abstract: Techniques for identifying irregular objects in contact with, or in close proximity to, a touch-surface are described. An irregularity measure is determined based on the regions intrinsic characteristics (e.g., energy content) rather than on the shape (or pattern) of the pixels within the region.

Abstract: A cam-action expanding standoff connector and related method are disclosed for mounting a circuit board. The standoff connector includes a body and a plurality of mounting members having interior longitudinally-extending camming portions for engagement by a cam. A cam is configured to be positioned within the mounting members in a first position in which the mounting members are not expanded against the interior of a mounting opening and in a second position in which the cam engages the camming portions to expand the plurality of mounting members against the interior of the mounting opening. Since the camming action is horizontal only (purely radial), practically no vertical forces are applied to the circuit board and a best-fit alignment between a circuit board and heatsink can be established and maintained.

Abstract: Methods, devices, systems and computer program products for the automatic management of dynamically allocated program memory (“garbage collection”s are described. In one implementation, identification of reachable objects is performed substantially concurrently with continued execution of computational threads (mutator execution). Only during a brief, catch-up scan, are mutator threads blocked—and then only one thread at a time. In another embodiment, generational collection is provided wherein retained nodes are not moved. In still another implementation, functions may be registered with the garbage collector task. These functions may be executed periodically during a collection cycle to determine if a specified event (e.g., timer expiration or user interface event such as a mouse “click”) has occurred. If the specified event is detected, garbage collection may be aborted.

Abstract: An electronic device that provides audio feedback is disclosed. The audio feedback can assist a user with usage of the electronic device. Audio characteristics of the audio feedback can pertain to one or more events or condition associated with the electronic device. The events or conditions can vary depending on the nature of the electronic device. The electronic device is, for example, a portable electronic device, such as a media device (e.g., media playback device).

Abstract: Methods and apparatus for managing power consumption in a multi-function electronic device powered by one or more batteries are provided. In one embodiment, when the power available from the one or more batteries is diminished (e.g., below a certain threshold), management of power consumption in a battery-powered electronic device (e.g., a portable electronic device) can operate or be operated to preserve one or more functions supported by the electronic device. For example, the one or more functions can be preserved by: (i) alerting a user that they should act to avoid usage of other functions that are not being preserved, and/or (ii) disabling (e.g., automatically) one or more of the other functions that are not being preserved.

Abstract: A display system provides a first semiconductor light source that is electrically connected in a first plane. A second semiconductor light source is electrically connected in a second plane separate from the first plane. A third semiconductor light source is electrically connected in the first plane at least a distance away from the first semiconductor light source equal to the width of the second semiconductor light source. The first plane and the second plane are merged into a combined plane by positioning the electrically connected second semiconductor light source between the electrically connected first semiconductor light source and the electrically connected third semiconductor light source.

Abstract: Remote control systems that can distinguish predetermined light sources from stray light sources, e.g., environmental light sources and/or reflections are provided. The predetermined light sources can be disposed in asymmetric substantially linear or two-dimensional patterns. The predetermined light sources also can output waveforms modulated in accordance with one or more signature modulation characteristics. The predetermined light sources also can output light at different signature wavelengths.

Abstract: With respect to a wireless network, an out of range warning provides an estimate of an amount of time remaining until a wireless device is out of range of the wireless network.

Abstract: The invention pertains to improved gift card carriers. More particularly, a first aspect pertains to a gift card carrier that also operates as a greeting card. In a first folded configuration, the gift card carrier presents the gift card for purchase. In a second folded configuration, the gift card carrier acts like a greeting card that encloses the gift card, and possibly supplies a greeting or message. A second aspect pertains to a gift card carrier with a depression for receiving a gift card therein. The depression may make the gift card appear as if its flush mounted within a panel of the gift card carrier. A third aspect pertains to a gift card carrier with an image of hardware device that includes a display, and a gift card that includes an image associated with the hardware device. The gift card is positioned over the display region of the hardware device image making it appear as if the gift card is the display, and the image thereon is being displayed.

Abstract: The invention pertains to improved gift card carriers. More particularly, a first aspect pertains to a gift card carrier that also operates as a greeting card. In a first folded configuration, the gift card carrier presents the gift card for purchase. In a second folded configuration, the gift card carrier acts like a greeting card that encloses the gift card, and possibly supplies a greeting or message. A second aspect pertains to a gift card carrier with a depression for receiving a gift card therein. The depression may make the gift card appear as if its flush mounted within a panel of the gift card carrier. A third aspect pertains to a gift card carrier with an image of hardware device that includes a display, and a gift card that includes an image associated with the hardware device. The gift card is positioned over the display region of the hardware device image making it appear as if the gift card is the display, and the image thereon is being displayed.

Abstract: An apparatus and method for controlling the brightness and luminance of a light, such as an LED. The embodiment may vary the brightness and luminance of the LED in a variety of ways to achieve a variety of effects. The exemplary embodiment may vary the rate at which the LED's luminance changes, such that an observer perceives the change in the LED's brightness to be smooth and linear as a function of time, regardless of the ambient light level. Changes to the LED's luminance may be time-constrained and/or constrained by a maximum or minimum rate of change.