Patent application number | Description | Published |
20110285859 | COMMUNICATION IMAGE INTEGRATION MODULE - A communication image integration module applied to a portable computer has both communication transmission and image capture functions, and the communication image integration module is connected to the portable computer through the electric connection interface unit, and the integration module includes a substrate, an image capture unit, a communication connection unit and a Bluetooth communication unit, and the image capture unit, the communication connection unit and the Bluetooth communication unit are installed on the substrate, and the image capture unit is electrically coupled to the electric connection interface unit, and the communication connection unit and the Bluetooth communication unit include a communication antenna and a Bluetooth antenna respectively, such that the communication image integration module can achieve primary manufacture, testing and purchase, and lower the manufacturing cost. | 11-24-2011 |
20130117549 | METHOD FOR EXECUTING MULTIPLE OPERATING SYSTEMS AND ELECTRONIC APPARATUS - A method for executing multiple operating systems (OSs) and an electronic apparatus are provided. Current hardware resources of the electronic apparatus are obtained after executing a boot process. The hardware resources are allocated to each of the OSs according to a resource allocation ratio, so as to load each of the OSs. | 05-09-2013 |
20130206566 | CAPACITIVE TOUCH DEVICE - A capacitive touch device includes a first transparent substrate, a second transparent substrate and an adhesive layer connecting the first and second transparent substrates with each other. The first transparent substrate has a first side and a second side. A first conductive layer is disposed on the second side. The second transparent substrate has a third side and a fourth side. A second conductive layer is selectively disposed on the third side or the fourth side. The adhesive layer is disposed between the first transparent substrate and the second transparent substrate. By means of the design of the capacitive touch device, the thickness of the touch device is greatly reduced and the manufacturing cost is lowered. | 08-15-2013 |
20130209808 | CAPACITIVE TOUCH UNIT - A capacitive touch unit includes a transparent substrate, a polymeric transparent substrate, a second conductive layer and an adhesive layer. The transparent substrate is coated with at least one first conductive layer and is correspondingly attached to the polymeric transparent substrate. The second conductive layer is selectively disposed on one of two sides of the polymeric transparent substrate. The adhesive layer is disposed between the transparent substrate and the polymeric transparent substrate. By means of the capacitive touch unit, the thickness can be greatly reduced and the manufacturing cost can be greatly lowered. | 08-15-2013 |
20130215072 | METHOD OF MANUFACTURING TOUCH PANEL - A method of manufacturing touch panel includes the steps of providing a backlight module having at least one extended wall portion formed therewith, so that a receiving space is enclosed in the extended wall portion; providing a liquid crystal display (LCD) layer and a capacitive sensing layer; providing a bonding layer to bond the LCD layer and the capacitive sensing layer to each other; and positioning the bonded LCD layer and capacitive sensing layer in the receiving space of the backlight module. Any extra amount of the bonding layer flowing out from between the bonded LCD layer and capacitive sensing layer forms an overflowed portion that is stopped by the extended wall portion from entering into the receiving space, so that time and labor costs for removing the overflowed portion in assembling the touch panel are saved and the production yield is increased. | 08-22-2013 |
20130215073 | TOUCH PANEL STRUCTURE - A touch panel structure includes a backlight module, a liquid crystal display (LCD) layer, a capacitive sensing layer, a bonding layer, and an electromagnetic sensing layer. The backlight module has at least one extended wall portion to enclose a receiving space therein. The LCD layer and the capacitive sensing layer are bonded together via the bonding layer, and are positioned in the receiving space. The electromagnetic sensing layer is attached to one side of the backlight module opposite to the LCD layer. With these arrangements, the touch panel structure provides more than one touch manner and is therefore more convenient for use. | 08-22-2013 |
20130215074 | TOUCH DEVICE - A touch device includes a transparent capacitive substrate having a first side and an opposite second side, a transparent electromagnetic substrate having a third side and an opposite fourth side, and a bonding layer applied to between the second side of the transparent capacitive substrate and the third side of the transparent electromagnetic substrate, so that the transparent capacitive substrate and the transparent electromagnetic substrate are bonded together via the bonding layer. With the transparent capacitive substrate and the transparent electromagnetic substrate electrically integrated into the touch device, the touch device can provide more than one touch manner and is therefore more convenient for use. | 08-22-2013 |
20130264183 | CAPACITIVE TOUCH UNIT - A capacitive touch unit includes a transparent substrate, a polymeric transparent substrate, a second conductive layer and an adhesive layer. The transparent substrate is coated with at least one first conductive layer and is correspondingly attached to the polymeric transparent substrate. The second conductive layer is selectively disposed on one of two sides of the polymeric transparent substrate. The adhesive layer is disposed between the transparent substrate and the polymeric transparent substrate. By means of the capacitive touch unit, the thickness can be greatly reduced and the manufacturing cost can be greatly lowered. | 10-10-2013 |
20130264184 | CAPACITIVE TOUCH DEVICE - A capacitive touch device includes a first transparent substrate, a second transparent substrate and an adhesive layer connecting the first and second transparent substrates with each other. The first transparent substrate has a first side and a second side. A first conductive layer is disposed on the second side. The second transparent substrate has a third side and a fourth side. A second conductive layer is selectively disposed on the third side or the fourth side. The adhesive layer is disposed between the first transparent substrate and the second transparent substrate. By means of the design of the capacitive touch device, the thickness of the touch device is greatly reduced and the manufacturing cost is lowered. | 10-10-2013 |
20140008199 | CAPACITIVE TOUCH PANEL STRUCTURE - A capacitive touch panel structure includes a transparent substrate, a conductive layer, a polymeric transparent substrate and an adhesive layer. The transparent substrate has a first side and a second side. The conductive layer is disposed on the second side. The polymeric transparent substrate has a third side and a fourth side. The adhesive layer is disposed between the transparent substrate and the polymeric transparent substrate. By means of the design of the capacitive touch panel structure, the number of the conductive layer is reduced to lower the manufacturing cost. | 01-09-2014 |
20140008202 | CAPACITIVE TOUCH PANEL UNIT - A capacitive touch panel unit includes a transparent substrate, a conductive layer and a protection layer. The transparent substrate has a first side and a second side opposite to the first side. The conductive layer is disposed on the second side. The protection layer is correspondingly attached to one side of the conductive layer, which side is opposite to the transparent substrate. By means of the design of the capacitive touch panel unit, the number of the conductive layer is reduced to lower the manufacturing cost and reduce the total thickness. | 01-09-2014 |
20140015766 | TOUCH UNIT - A touch unit includes multiple first axial electrodes and multiple second axial electrodes. The first axial electrodes extend in a first direction. Each first axial electrode includes multiple first sensing electrodes arranged in the first direction. Each first sensing electrode is formed with a hollow section and has a first extension end and a second extension end. The first and second extension ends defines therebetween a passageway in communication with the hollow section. Each second axial electrode includes multiple second sensing electrodes and multiple second connection lines. The second sensing electrodes are respectively disposed in the hollow sections. The second connection lines are connected with the second sensing electrodes and extend in a second direction through the passageways. By means of the design of the first and second axial electrodes, the manufacturing cost is effectively lowered and the total thickness of the touch unit is reduced. | 01-16-2014 |
20140028580 | TOUCH PAD - A touch pad includes a first transparent substrate and a second transparent substrate. The first transparent substrate has a plurality of first axial electrodes and at least one hollow channel. The second transparent substrate has a plurality of second axial electrodes. Each of the second axial electrodes has a plurality of first sensing electrode regions and at least one second sensing electrode region. The first sensing electrode regions are provided on both sides of the second sensing electrode region and arranged to extend along a second direction. The central portion of the second sensing electrode regions is formed with a hollow region. By means of the first axial electrode and the second axial electrode, the touch pad of the present invention has an increased signal-to-noise ratio and an enhanced anti-jamming capability. | 01-30-2014 |
20140043548 | CAPACITIVE TOUCH UNIT - A capacitive touch unit includes a transparent substrate, a polymeric transparent substrate, a second conductive layer and an adhesive layer. The transparent substrate is coated with at least one first conductive layer and is correspondingly attached to the polymeric transparent substrate. The second conductive layer is selectively disposed on one of two sides of the polymeric transparent substrate. The adhesive layer is disposed between the transparent substrate and the polymeric transparent substrate. By means of the capacitive touch unit, the thickness can be greatly reduced and the manufacturing cost can be greatly lowered. | 02-13-2014 |
20140049506 | TOUCH PANEL AND METHOD OF MANUFACTURING SAME - A touch panel and a method of manufacturing same are disclosed. The touch panel includes a backlight module, an LCD display unit disposed in a receiving space enclosed in a raised wall portion of the backlight module, a capacitive sensing layer arranged on one side of a first glass substrate of the LCD display unit, and a transparent substrate bonded by an adhesive layer to one side of the LCD display unit opposite to the backlight module. Any extra amount of the adhesive layer flowing out from between the LCD display unit and the transparent substrate forms an overflowed adhesive portion, which is also located in the receiving space and shielded by the raised wall portion of the backlight module. Therefore, the step of removing the overflowed adhesive portion can be saved to reduce the labor and time cost for assembling the touch panel. | 02-20-2014 |
20140125603 | TOUCH PANEL WITH PHOTOVOLATIC CONVERSION FUNCTION - A touch panel with photovoltaic conversion function includes a touch zone and a non-touch zone located immediately around the touch zone. The touch zone includes, from top to bottom, a first transparent substrate, a photovoltaic conversion layer, a touch electrode layer and a second transparent substrate. The photovoltaic conversion layer has an upper side attached to a lower side of the first transparent substrate, and the touch electrode layer is formed on an upper side of the second transparent substrate and attached to a lower side of the photovoltaic conversion layer. The touch panel having the above arrangements enables the photovoltaic conversion layer to have effectively increased light-absorption areas to convert more light into more electric current. | 05-08-2014 |
20140126122 | TOUCH MODULE WITH PHOTOVOLATIC CONVERSION FUNCTION - A touch module with photovoltaic conversion function includes a touch zone and a non-touch zone. The touch zone includes a first clear substrate, a second clear substrate and a photovoltaic conversion unit. The first clear substrate has opposite first and second sides, and the second clear substrate has opposite third and fourth sides. A first and a second touch electrode layer are provided on the second side and the third side, respectively; and the photovoltaic conversion unit is provided on the first side of the first clear substrate. By providing the photovoltaic conversion unit in the touch zone of the touch module, the photovoltaic conversion unit can have increased light-absorption areas to enable conversion of light into more electric current and accordingly, enable a touch device using the touch module to have extended standby and operation time. | 05-08-2014 |
20140126123 | TOUCH DEVICE WITH PHOTOVOLATIC CONVERSION FUNCTION - A touch device with photovoltaic conversion function includes a main body divided into a touch zone and a non-touch zone located immediately around the touch zone. A photovoltaic conversion layer is provided on a top of the touch zone. By providing the photovoltaic conversion layer on the top of the touch zone of the touch device, the photovoltaic conversion layer can have an increased light-absorption area to enable conversion of more light into more electric current for use by the touch device and accordingly, enable the touch device to have extended standby and operation time. | 05-08-2014 |
20140145971 | TOUCH Panel - A touch panel includes a substrate and a transparent conductor pattern. The substrate includes a display area and a first and a second peripheral area located outside and adjacent to two opposite sides of the display area. The transparent conductor pattern is formed on the substrate within the display area and includes a plurality of first electrodes and a plurality of second electrodes corresponding to the first electrodes. The second electrodes respectively have an electrode lead wire. The electrode lead wires of some of the second electrodes are extended into the first peripheral area to connect to a first peripheral wire structure in the first peripheral area while the electrode lead wires of the other second electrodes are extended into the second peripheral area to a second peripheral wire structure in the second peripheral area. | 05-29-2014 |
20140165383 | MANUFACTURING METHOD OF TOUCH PANEL - A manufacturing method of touch panel includes steps of: providing a substrate and defining a touch section and a non-touch section; disposing a shield layer on the non-touch section of the substrate; disposing a touch electrode layer with multiple touch electrodes on the touch section and the non-touch section by means of sputtering; covering the touch electrode layer with a metal mask and forming a metal wiring layer on the non-touch section by means of printing or sputtering and then removing the metal mask; performing lithography and etching processes to the touch electrode layer so as to form multiple touch electrodes; disposing an insulation layer on the junctions between the touch electrodes and the metal wires; disposing a lead layer with multiple metal leads on the insulation layer; and disposing a protection layer on the touch electrode layer and the metal wiring layer and the insulation layer. | 06-19-2014 |
20140166451 | TOUCH MODULE - A touch module includes a transparent substrate, a shield layer, a touch electrode layer, a transparent insulation layer and a lead layer. The shield layer is coated on the transparent substrate. The touch electrode layer is coated on both the transparent substrate and the shield layer. The transparent insulation layer is disposed on the touch electrode layer and formed with at least one through hole. The lead layer is disposed on the transparent insulation layer and formed with a conduction section positioned in the through hole in electrical connection with the touch electrode layer. Therefore, the lead layer can directly electrically connect with the touch electrode layer through the through hole of the transparent insulation layer. Accordingly, the cost for the optical mask design and the lithographic and etching processes can be saved and the problem that the transparent substrates often fail to fully attach is eliminated. | 06-19-2014 |
20140168529 | TOUCH DISPLAY DEVICE - A touch display device includes a touch sensing unit, a first conductive adhesive layer, a second conductive adhesive layer, a flexible printed circuit board, a liquid crystal display unit, a first adhesion layer and a second adhesion layer. The first adhesion layer serves to adhere the touch sensing unit to the liquid crystal display unit. The touch sensing unit includes a transparent substrate, multiple first sensing electrodes and multiple second sensing electrodes. The transparent substrate has a touch section and a peripheral section around the touch section. The first sensing electrodes are disposed on one side of the transparent substrate and positioned on the touch section. The second sensing electrodes are disposed in the liquid crystal display unit. The touch display device increases the ratio of good products and lowers the manufacturing risk. | 06-19-2014 |
20140168530 | POLARIZATION STRUCTURE WITH TOUCH FUNCTION - The present invention provides a polarization structure with touch functions, including a first polarization plate, a transparent substrate having an inductive electrode layer, a first conductive glue layer, and a first adhesive layer, one side of the first conductive glue layer being attached to the inductive electrode layer and the other side thereof being attached to an FPC, the first adhesive layer being disposed between the first polarization plate and the transparent substrate, whereby the first polarization plate is attached to the transparent substrate. The structure of the present invention is applied to an LCD module and thus the manufacturing yield can be increased and the touch functions can be fulfilled. | 06-19-2014 |
20140168531 | POLARIZATION UNIT WITH TOUCH FUNCTION - The present invention provides a polarization unit with touch functions, including a first polarization plate and an inductive electrode layer. The first polarization plate has a first side and a second side opposite to the first side. The inductive electrode layer is disposed on the first side of the first polarization plate. By means of the polarization unit of the present invention being applied to an LCD module, the manufacturing yield can be increased and the touch functions of the LCD module can be fulfilled. | 06-19-2014 |
20140168532 | POLARIZER STRUCTURE - A polarizer structure includes a transparent substrate, a sensor, a polarizing plate and a first insulating adhesive layer. The sensor is coated on one side of the transparent substrate, and the first insulating adhesive layer is arranged between the sensor and the polarizing plate to bond them together. The polarizer structure is configured for arrangement on a liquid crystal display (LCD) unit to make the latter a touch screen, on which a user can input and do other operations by touching the polarizer structure. In this manner, a touch screen can be manufactured with reduced cost and increased good yield rate. | 06-19-2014 |
20140168535 | TOUCH PANEL - A touch panel includes a substrate, a shielding layer, a first electrode layer, a first insulation layer, a second electrode layer, a lead layer and a second insulation layer. The substrate has a touch section and a non-touch section. The shield layer and the lead layer are disposed on the non-touch section. The first and second electrode layers are disposed on touch section. The first insulation layer is disposed between the first and second electrode layers corresponding to the second electrode layer. The second insulation layer is overlaid on the second electrode layer and the lead layer. In the touch panel, the number of leads is reduced. Moreover, the touch panel is free from the problems of interference and signal interference between the electrodes. | 06-19-2014 |
20140347228 | ELECTRONIC DEVICE - An electronic device includes a main body, a metal cover, an antenna and a magnetic flux inducer unit. The metal cover is disposed at the main body and the main body includes a nonmetal covered portion. The antenna is disposed in the main body. The magnetic flux inducer unit is disposed in the main body and located between the nomnetal covered portion and the antenna. The permeability of the magnetic flux inducer unit is greater than 1. | 11-27-2014 |
20150052747 | MANUFACTURING METHOD OF TOUCH SUBSTRATE - A manufacturing method of touch substrate includes steps of: providing a substrate, a photosensitive film of Nano-Silver particles being formed on a surface of the substrate; performing an exposure process to the film of Nano-Silver particles of the surface of the substrate; performing a development process to the film of Nano-Silver particles of the surface of the substrate to form a nontransparent sensing electrode layer and a nontransparent electrode wiring layer in the form of a mesh on the surface of the substrate; and performing a high electrical conductivity treatment and a stabilization treatment to the nontransparent sensing electrode layer on the surface of the substrate. So, the nontransparent sensing electrode layer and nontransparent electrode wiring layer can be formed on the surface of the substrate at the same time. Therefore, the manufacturing process is simplified. Moreover, the surface resistance is lowered and the wiring space is enlarged. | 02-26-2015 |
20150053639 | METHOD OF MANUFACTURING TOUCH DEVICES - A method of manufacturing touch devices comprises the steps of cutting a large-sized substrate into a plurality of even units and then performing the subsequent machining processes, providing the required materials of each structure layer, layer by layer, via sputtering or coating, and then simultaneously forming each structure layer via processes such as photolithography, developing, and etching. Therefore, the manufacturing cost is significantly reduced and the structure strength is substantially enhanced. | 02-26-2015 |
20150055028 | TOUCH SUBSTRATE - A touch substrate includes a substrate, a nontransparent electrode wiring layer formed on a surface of the substrate and at least one nontransparent sensing electrode layer formed on the surface of the substrate. The nontransparent sensing electrode layer has multiple Nano-Silver particles and multiple nontransparent sensing blocks formed of the Nano-Silver particles, which are arranged in the form of a mesh. The nontransparent electrode wiring layer is in adjacency to and in connection with the nontransparent sensing electrode layer. According to the arrangement of the touch substrate, the manufacturing process is simplified and the surface resistance is lowered. Also, the wiring space is enlarged. | 02-26-2015 |