Patent application number | Description | Published |
20090130804 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device includes first providing an insulation substrate. A patterned conductive layer is formed over the insulation substrate, and the patterned conductive layer includes a channel region and a number of protruding regions. A gate structure layer is formed over the insulation substrate. The gate structure layer covers a part of the patterned conductive layer, and each of the protruding regions has an exposed region. A doping process is performed to dope at least the exposed region of the patterned conductive layer to form a number of S/D regions. | 05-21-2009 |
20090212735 | RECONFIGURABLE CHARGING CONTROL MODULE - The present invention provides a reconfigurable charging control module whose energy transmission state can be changed or adjusted according to the specifications of an energy storage device that is to receive energy. The energy transmission state can be changed or adjusted in a contact or contactless manner. In addition, the energy transmission state of the reconfigurable charging control module can be set in a contact or contactless manner in advance, and then incorporated with an energy storage device to form an energy storage system. | 08-27-2009 |
20090279271 | INTRA-CONNECTION LAYOUT OF ARRAY - An intra-connection layout of array is disclosed. An alterable area is disposed between the devices of a device array. The alterable area includes an insulation layer, a plurality of first conductive wires and a plurality of second conductive wires. The first conductive wires are disposed within the alterable area along a first direction for selectively connecting electrical paths in the first direction between different devices. The second conductive wires are disposed within the alterable area along a second direction for selectively connecting electrical paths in the second direction between different devices. The insulation layer is disposed within the alterable area and between the above-mentioned first conductive wires and second conductive wires, wherein the insulation layer has an opening to allow one of the first conductive wires and one of the second conductive wires to be contacted with each other. | 11-12-2009 |
20100265193 | TOUCH SENSITIVE DEVICE - A touch sensitive device is provided. The device includes a substrate; a plurality of first electrodes formed on the substrate and arranged along a first direction without overlapping one another; a first insulating layer formed on the substrate and covering the plurality of first electrodes; and a plurality of second electrodes formed on the first insulating layer and arranged along a second direction without overlapping one another, wherein the fist direction is vertical to the second direction. | 10-21-2010 |
20110012496 | Thermal sensitive image display - A thermal sensitive display is disclosed, including a substrate, a first electrode and a second electrode perpendicular with each other over the substrate, a electric heat converting layer between the first electrode and the second electrode, and a heat induced color changing layer, heated by the electric heat converting layer to display pictures. | 01-20-2011 |
20110286071 | TUNABLE PHOTOVOLTAIC ELECTROCHROMIC DEVICE AND MODULE - A tunable photovoltaic electrochromic (PV-EC) device and module are provided. The device includes a transparent substrate, a thin film solar cell on the transparent substrate, a transparent conductive layer located on the transparent substrate beside the thin film solar cell, an EC material covering an exposed surface of the transparent conductive layer and the thin film solar cell, a switching apparatus, and a charge-discharge device coupled to the switching apparatus. The transparent conductive layer and a cathode layer of the thin film solar cell respectively serve as the anode and the cathode of the EC material simultaneously. The switching apparatus is electrically connected to the transparent conductive layer and electrically connected to the anode layer and the cathode layer of the thin film solar cell. The switching apparatus enters a control mode through a switch control signal. | 11-24-2011 |
20130147758 | PROJECTED CAPACITIVE TOUCH DEVICE AND TOUCH CONTROL METHODS FOR PROJECTED CAPACITIVE PANEL THEREOF - A projected capacitive touch device, a projected capacitive touch panel and touch control methods thereof are disclosed. The touching control method includes mixing a detecting signal and a feedback driving signal to generate a sending signal; transmitting the sending signal to at least one touch sensing unit of the projected capacitive touch panel, wherein an electrical field is generated on the touch sensing unit according to the feedback driving signal so that a feedback tactile sense according to the electrical field can be obtained by a user while touching the touch sensing unit. | 06-13-2013 |
20130334024 | TACTILE FEEDBACK APPARATUS - A tactile feedback apparatus is disclosed. The tactile feedback apparatus includes at least one tactile feedback unit. The feedback tactile sense unit includes at least one feedback electrode, a dielectric layer and at least one reference electrode. A common reference potential is formed by a user's finger and the tactile feedback apparatus using the reference electrode. An electric filed is generated on the user's finger by the dielectric layer and the feedback electrode to provide a tactile feedback. Besides, the tactile feedback apparatus also provides a touch sensing function. | 12-19-2013 |
20140071065 | TOUCH PANEL - A touch panel connected to a control circuit and includes a substrate, at least one first sensing series, at least one second sensing series, and at least one third sensing series. The substrate has at least one first sensing region and at least one second sensing region alternatively arranged in a first direction. Each first sensing series extends along the first direction and includes at least one first-first sensing portion located in the first sensing region and at least one second-first sensing portion located in the second sensing region. A pattern or material of the second-first sensing portion is different from that of the first-first sensing portions. Each second sensing series extends along a second direction intersecting with the first direction and is intersected with the first-first sensing portion. Each third sensing series extends in the second direction and is intersected with the second-first sensing portion. | 03-13-2014 |
20140204291 | TOUCH SENSING FILM STRUCTURE - A touch sensing film structure including a touch-sensitive device layer, a water/oxygen barrier layer and a flexible substrate is provided. The touch-sensitive device layer has a first surface and a second surface opposite to the first surface. The water/oxygen barrier layer is formed on the first surface or the second surface or integrated with the touch-sensitive device layer to form a multi-function layer. The flexible substrate can stack with the water/oxygen barrier layer and the touch-sensitive device layer, or stack with the multi-function layer. | 07-24-2014 |
20140320447 | TOUCH APPARATUS AND TOUCH SENSING METHOD THEREOF - A touch sensing method of a touch panel may include: defining at least one of at least one sensing loop as at least one reference sensing loop, wherein the sensing loop is disposed in the touch panel for sensing a touch event; providing a driving signal to the reference sensing loop in order to read at least one reference signal from the reference loop during an electrical detection period; providing the driving signal to the sensing loop in order to read at least one sensing signal from the sensing loop during a touch sensing period; and detecting a touch position of the touch event according to the reference signal and the sensing signal. Several touch apparatuses are also provided. | 10-30-2014 |
20150035657 | TACTILE FEEDBACK APPARATUS - A tactile feedback apparatus is provided, which includes a signal generator and a tactile feedback structure. The signal generator provides a driving signal. The tactile feedback structure is connected to the signal generator and provides a tactile feedback signal in response to the driving signal when an object surface is touched or a housing of the tactile feedback apparatus is touched. The tactile feedback signal is related to a tactile sensation. The tactile feedback signal is related to an electrical property of the driving signal. | 02-05-2015 |
Patent application number | Description | Published |
20090300247 | INTERFACE TRANSMISSION DEVICE AND METHOD - An interface transmission device and method are disclosed. The interface device, located in a first device, includes a transmission interface and a receiving circuit. The transmission interface receives an initialization signal and an interface signal. The receiving circuit receives the initialization signal through the transmission interface, and acquires a bit length of the interface signal according to the initialization signal. Thereby, the first device resolves the interface signal according to the bit length. | 12-03-2009 |
20100238159 | DIFFERENTIAL SIGNAL GENERATING DEVICE - A differential signal generating device includes a control circuit and a differential signal driver receiving a single-ended signal. The control circuit receives a source signal and generates a control signal corresponding to a first mode when the source signal conforms with a first pre-defined state, and corresponding to a second mode when the source signal conforms with a second pre-defined state. Variations of the source signal are related to signal content of the single-ended signal. The differential signal driver is coupled to the control unit for receiving the control signal therefrom. The differential signal driver outputs a differential signal output according to the single-ended signal when the control signal corresponds to the first mode. The differential signal driver outputs a non-differential signal output when the control signal corresponds to the second mode. | 09-23-2010 |
20110221717 | OVER-DRIVE CONTROLLER APPLIED TO A DISPLAY PANEL AND METHOD FOR OVER-DRIVE CONTROL THEREIN - An over-drive controller applied to a display panel and a method for over-drive control are provided. The over-drive controller includes an analyzing unit and an over-drive delta value determining unit. The analyzing unit is arranged for analyzing information of a current pixel in order to generate an over-drive information. The over-drive delta value determining unit is coupled to the analyzing unit, and is arranged for determining an over-drive delta value according to the over-drive information. Herein the over-drive information includes a position information or a field information of the current pixel. | 09-15-2011 |
20130342515 | OVER-DRIVE CONTROLLER APPLIED TO A DISPLAY PANEL AND METHOD FOR OVER-DRIVE CONTROL THEREIN - An over-drive controller applied to a display panel and a method for over-drive control are provided. The over-drive controller includes an analyzing unit and an over-drive delta value determining unit. The analyzing unit is arranged for analyzing information of a current pixel in order to generate an over-drive information. The over-drive delta value determining unit is coupled to the analyzing unit, and is arranged for determining an over-drive delta value according to the over-drive information. Herein the over-drive information includes a position information or a field information of the current pixel. | 12-26-2013 |
20150318858 | Clock generation circuit and method thereof - This invention discloses a clock generation circuit and a clock generation method for generating a clock. The clock generation circuit includes a reference clock generation circuit, which is installed in a chip for independently generating a reference clock; a temperature sensor for sensing an ambient temperature to generate temperature information; a temperature compensation module, coupled to the temperature sensor, for generating a temperature compensation coefficient according to the temperature information; and a clock adjusting circuit, coupled to the clock generation circuit, for generating the clock according to the reference clock and the temperature compensation coefficient. The temperature compensation module generates the temperature compensation coefficient dynamically such that the frequency of the clock approaches a target frequency and does not substantially vary with the temperature. | 11-05-2015 |
Patent application number | Description | Published |
20090267108 | LIGHT EMITTING DIODE CHIP PACKAGE AND METHOD OF MAKING THE SAME - The LED chip package of the present invention uses a semiconductor substrate as package substrate, which improves heat dissipation. Also, the LED chip package is incorporated with a planarization structure, which renders the LED chip and the substrate a substantially planar surface, thereby making formation of a planar patterned conductive layer possible. Accordingly, serial/parallel electrical connections between light emitting diode chips can be easily implemented by virtue of the planar patterned conductive layer. | 10-29-2009 |
20090273004 | CHIP PACKAGE STRUCTURE AND METHOD OF MAKING THE SAME - A chip package structure and method thereof uses a semiconductor substrate as a package substrate, which improve heat dissipation. Also, the chip package structure is incorporated with a planarization structure, which renders the chip and the package substrate a substantially planar surface, thereby making formation of a planar patterned conductive layer possible. Accordingly, electrical connections in series or in parallel between chips can be easily implemented by virtue of the planar patterned conductive layer. | 11-05-2009 |
20100090245 | LIGHT EMITTING DIODE PACKAGE AND METHOD OF MAKING THE SAME - The light emitting diode package of the present invention uses photosensitive materials to form phosphor encapsulations or a phosphor layer, which can be fabricated by means of semiconductor processes in batch. Also, the concentration of phosphors in individual regions can be accurately and easily controlled by a laser printing process or by light-through holes. Accordingly, the optic effects of light emitting diode packages can be accurately adjusted. | 04-15-2010 |
20120080693 | LIGHT EMITTING DIODE PACKAGE AND METHOD OF MAKING THE SAME - The light emitting diode package of the present invention uses photosensitive materials to form phosphor encapsulations or a phosphor layer, which can be fabricated by means of semiconductor processes in batch. Also, the concentration of phosphors in individual regions can be accurately and easily controlled by a laser printing process or by light-through holes. Accordingly, the optic effects of light emitting diode packages can be accurately adjusted. | 04-05-2012 |