摘要:
The present invention is to provide an anisotropic conductive adhesive (ACA) for ultrasonic wave adhesion, which electrically connects a first electrode, which is an electrode of a connection portion of a first electronic component, with a second electrode, which is an electrode of a connection portion of a second electronic component. The anisotropic conductive adhesive includes an insulating polymer resin, conductive adhesive particles which are melted by heat generated from the ultrasonic waves applied to the anisotropic conductive adhesive, and spacer particles, which have a melting point higher than that of the adhesive particles, and wherein the adhesive particles are melted and made to come in surface contact with at least one electrode selected from the first electrode and the second electrode, and the first electrode and the second electrode are electrically connected with a constant gap maintained between the first electrode and the second electrode by the spacer particles.
摘要:
Data analysis of a food item based on one or more digital images of the food item is disclosed. In one embodiment, the method comprises displaying, on a display unit of the smart device, first and second digital images of a meal, where the first digital image is captured before the second digital image. The method also comprises determining a volume of each food item in the first digital image and a volume of each food item in the second digital image by analyzing the first digital image and the second digital image using a digital image processing technique. The method further comprises generating, on the display unit, an amount of intake for the meal based on a difference between the volume of each food item in the first digital image and the volume of each food item in the second digital image.
摘要:
Data sharing between networked smart devices is disclosed. One embodiment of the present disclosure pertains to a method for data sharing with one or more associated smart devices via a network. The method comprises displaying, on a display unit of the smart device, an image for each one of the associated smart devices within coverage of the network and an image of shared data. The method also comprises effecting a change in a first image for a first smart device of the associated smart devices when the first smart device is targeted as a target device for the data sharing. The method further comprises communicating the shared data with the first smart device via the network when, on the display unit, the image of the shared data is moved to or from a domain of the first image of the first smart device.
摘要:
Data analysis of a food item based on one or more digital images of the food item is disclosed. In one embodiment, the method comprises displaying, on a display unit of the smart device, first and second digital images of a meal, where the first digital image is captured before the second digital image. The method also comprises determining a volume of each food item in the first digital image and a volume of each food item in the second digital image by analyzing the first digital image and the second digital image using a digital image processing technique. The method further comprises generating, on the display unit, an amount of intake for the meal based on a difference between the volume of each food item in the first digital image and the volume of each food item in the second digital image.
摘要:
Data sharing between networked smart devices is disclosed. One embodiment of the present disclosure pertains to a method for data sharing with one or more associated smart devices via a network. The method comprises displaying, on a display unit of the smart device, an image for each one of the associated smart devices within coverage of the network and an image of shared data. The method also comprises effecting a change in a first image for a first smart device of the associated smart devices when the first smart device is targeted as a target device for the data sharing. The method further comprises communicating the shared data with the first smart device via the network when, on the display unit, the image of the shared data is moved to or from a domain of the first image of the first smart device.
摘要:
A gallium nitride high electron mobility transistor, in which an inner field-plate is disposed between the gate and drain of the high electron mobility transistor, so that an electric field is distributed between gate and drain regions to reduce a peak value and to reduce gate leakage current while maintaining high frequency performance, thus obtaining a high breakdown voltage, reducing the capacitance between the gate and the drain attributable to a shielding effect, and improving linearity and high power and high frequency characteristics through variation in the input voltage of the inner field-plate.
摘要:
A gallium nitride high electron mobility transistor, in which an inner field-plate is disposed between the gate and drain of the high electron mobility transistor, so that an electric field is distributed between gate and drain regions to reduce a peak value and to reduce gate leakage current while maintaining high frequency performance, thus obtaining a high breakdown voltage, reducing the capacitance between the gate and the drain attributable to a shielding effect, and improving linearity and high power and high frequency characteristics through variation in the input voltage of the inner field-plate.
摘要:
A gallium nitride high electron mobility transistor, in which an inner field-plate is disposed between the gate and drain of the high electron mobility transistor, so that an electric field is distributed between gate and drain regions to reduce a peak value and to reduce gate leakage current while maintaining high frequency performance, thus obtaining a high breakdown voltage, reducing the capacitance between the gate and the drain attributable to a shielding effect, and improving linearity and high power and high frequency characteristics through variation in the input voltage of the inner field-plate. The gallium-nitride high electron mobility transistor includes a gallium nitride buffer layer. An aluminum gallium-nitride barrier layer is formed on the buffer layer. A source electrode is placed on the barrier layer. A drain electrode is placed on the barrier layer to be spaced apart from the source electrode. A gate electrode is placed on a top of the barrier layer to be spaced apart from the source electrode and the drain electrode. A dielectric layer is deposited on the top of the barrier layer. An electric field electrode is formed on the dielectric layer located on the gate electrode. An inner field-plate is formed in the dielectric layer to be spaced apart from the gate electrode and the drain electrode.