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Broga
Antanas Matthew Broga, Cambridge CA
| Patent application number | Description | Published |
|---|---|---|
| 20110102451 | MULTIPLE ORIENTATION MOBILE ELECTRONIC HANDHELD DEVICE AND METHOD OF AMBIENT LIGHT SENSING AND BACKLIGHT ADJUSTMENT IMPLEMENTED THEREIN - A method is set forth for automatically adjusting display brightness on a mobile electronic device having a light sensor, display screen and orientation sensor, for legibility under varying lighting conditions and orientations of the device. The method includes obtaining light level samples from the light sensor, and orientation from the orientation sensor, and adjusting backlight intensity of the display responsive to the light level samples and orientation of the device. Preferably, backlight adjustments are made from dim to bright notwithstanding orientation of the device whereas adjustments from bright to dim are made only for orientations of the device where the light sensor is unlikely to be covered. | 05-05-2011 |
| 20110210921 | LIGHT GUIDE FOR IMPROVING DEVICE LIGHTING - A light guide guides light from a light emitter that is adjacent to an aperture of an electronic device. The light is eventually emitted from the aperture, to thereby provide lighting. The light guide can include a plurality of prisms which can thereby permit reduction in the overall thickness of the electronic device. | 09-01-2011 |
| 20120037794 | COMMUNICATION DEVICE SENSOR ASSEMBLY - A proximity sensor assembly including a light source, a first detector, and a first light focusing device. The light source is operative to emit light toward a first target area. The first detector is operative to detect light, including light emitted by the light source and reflected from the first target area. The first light focusing device is in a first optical path between the light source and the first detector. The first optical path includes an optical path from the light source and reflected from the first target area. | 02-16-2012 |
Antanas Matthew Broga, Waterloo CA
| Patent application number | Description | Published |
|---|---|---|
| 20120001553 | ELECTRONIC DEVICE AND METHOD OF ILLUMINATION - A method and system are set forth for automatically adjusting keypad luminance based on display content. In one embodiment, the method comprises calculating a lighting level based on ambient light; calculating a luminance level of an image on the display; setting a maximum lighting level to the luminance level of the image on the display; and in the event the calculated lighting level exceeds the maximum lighting level then selecting the maximum lighting level, and in the event the calculated lighting level does not exceed the maximum lighting level then selecting the calculated lighting level. | 01-05-2012 |
Martin Broga, Amherst, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20100135853 | AUTOMATIC ISOTHERMAL TITRATION MICROCALORIMETER APPARATUS AND METHOD OF USE - Automated isothermal titration micro calorimetry (ITC) system comprising a micro calorimeter with a sample cell and a reference cell, the sample cell is accessible via a sample cell stem and the reference cell is accessible via a reference cell stem. The system further comprises an automatic pipette assembly comprising a syringe with a titration needle arranged to be inserted into the sample cell for supplying titrant, the pipette assembly comprises an activator for driving a plunger in the syringe, a pipette translation unit supporting the pipette assembly and being arranged to place pipette in position for titration, washing and filling operations, a wash station for the titrant needle, and a cell preparation unit arranged to perform operations for replacing the sample liquid in the sample cell when the pipette is placed in another position than the position for titration. | 06-03-2010 |
Matthew Broga, Waterloo CA
| Patent application number | Description | Published |
|---|---|---|
| 20100220329 | OPTICAL DETECTION OF A COMPONENT FOR AN ELECTRONIC DEVICE - A system and method for optically identifying a component coupled to an electronic device is provided. The method includes emitting light from within the device toward a surface of a component connector inserted into a receiving socket of the device. A light sensor senses the intensity, amplitude or wavelength of light reflected from a surface of the component connector. A processor of the device identifies the component based on the intensity, amplitude or wavelength of light reflected from a surface of the component connector. The processor modifies at least one setting of the electronic device in response to the identification of the component. | 09-02-2010 |
| 20100328283 | WAVE GUIDE FOR IMPROVING LIGHT SENSOR ANGULAR RESPONSE - Electronic displays encounter visibility issues due to varying ambient light conditions. An ambient light sensor can be provided to sense ambient light and dynamically adjust display brightness to compensate for changes in ambient light. A wave guide for improving angular response in a light sensor is provided. | 12-30-2010 |
| 20110074690 | AUTOMATIC KEYPAD BACKLIGHT ADJUSTMENT ON A MOBILE HANDHELD ELECTRONIC DEVICE - A method is set forth for automatically adjusting keypad brightness on a mobile electronic device having a light sensor, a keypad and a backlight for said keypad, comprising obtaining light level samples from the light sensor, turning the backlight from off to on in the event a current light level sample is less than a threshold value below which backlight illumination becomes necessary in order to read the keypad, and from off to on after a predetermined time period in the event the current light level sample is greater than the threshold value. | 03-31-2011 |
Matthew Broga, Cambridge CA
| Patent application number | Description | Published |
|---|---|---|
| 20120088408 | OPTICAL DETECTION OF A COMPONENT FOR AN ELECTRONIC DEVICE - A system and method for optically identifying a component coupled to an electronic device is provided. The method includes emitting light from within the device toward a surface of a component connector inserted into a receiving socket of the device. A light sensor senses the intensity, amplitude or wavelength of light reflected from a surface of the component connector. A processor of the device identifies the component based on the intensity, amplitude or wavelength of light reflected from a surface of the component connector. The processor modifies at least one setting of the electronic device in response to the identification of the component. | 04-12-2012 |