Patent application number | Description | Published |
20110192636 | TOUCH PANEL ROLL AND MANUFACTURING METHOD THEREOF - A touch panel roll and a manufacturing method thereof are provided. The method includes providing a first structure roll and a second structure roll. A manufacturing method of the first structure roll includes forming an opening in a first flexible substrate, wherein conductive lines respectively connected with electrodes extend to the opening. A manufacturing method of the second structure roll includes forming conductive lines respectively connected with electrodes and independent conductive lines corresponding to the conductive lines in the first structure roll on a second flexible substrate, wherein one end of each conductive line in the second structure roll is located at a position corresponding to the opening. The method further includes laminating the first structure roll and the second structure roll by a roll-to-roll process. | 08-11-2011 |
20120127112 | FLEXIBLE PROJECTIVE CAPACITIVE TOUCH SENSOR STRUCTURE - A flexible projective capacitive touch sensor structure includes following elements. A roll of first flexible transparent substrate has sensing unit regions thereon, and each of the sensing unit regions includes at least two first transparent patterned electrodes and at least three second transparent patterned electrodes. Bridging wires respectively stride over the corresponding first transparent patterned electrodes and respectively and electrically bridge the second transparent patterned electrodes located at two sides of each of the first transparent patterned electrodes to form at least one conducting wire. Dielectric pads are disposed between the bridging wires and the first transparent patterned electrodes. First connection wires are connected to the first transparent patterned electrodes and have first electrical connection terminals. Each of the second connection wires is connected to one second transparent patterned electrode of one end of the at least one conducting wire and has one second electrical connection terminal. | 05-24-2012 |
20120127113 | FLEXIBLE RESISTIVE TOUCH SENSOR STRUCTURE - A flexible resistive touch sensor structure includes a roll of first and a roll of second flexible transparent substrates, first connection wires, second connection wires, spacer dots and insulation frames. The rolls of first and the second flexible transparent substrate have first and second electrode unit regions thereon respectively. Each first electrode unit region includes at least one first transparent electrode. Each second electrode unit region includes at least one second transparent electrode correspondingly facing to the first electrode unit regions. The first connection wires are connected to the first transparent electrodes. The second connection wires are connected to the second transparent electrodes. The spacer dots are disposed between the first and the second transparent electrodes. The insulation frame seal surroundings of the first electrode unit regions and the second electrode unit regions corresponding to each other respectively and isolate the first and the second connection wires respectively. | 05-24-2012 |
20120152347 | STACKED ELECTRODE AND PHOTO-ELECTRIC DEVICE HAVING THE SAME - A stacked electrode includes an optical match layer, a transparent conductive layer, and a metal layer. A complex refractive index of the optical match layer is N | 06-21-2012 |
20120193210 | PROJECTIVE CAPACITIVE TOUCH SENSOR STRUCTURE AND FABRICATING METHOD THEREOF - A projective capacitive touch sensor structure includes following elements. Two second transparent patterned electrodes are disposed on a substrate and located at two sides of a first transparent patterned electrode. A bridging wire strides over the first transparent patterned electrode and electrically bridges the second transparent patterned electrodes to form a conducting wire. A transparent dielectric pad is disposed between the bridging wire and the first transparent patterned electrode. A dielectric portion of the transparent dielectric pad located above the first transparent patterned electrode and the second transparent patterned electrodes includes an upper surface, a lower surface and an inclined side surface connecting the upper surface and the lower surface, an area of the upper surface is 70%-95% of an area of the lower surface, and an included angle between the inclined side surface and the lower surface is an acute angle. | 08-02-2012 |
20120279545 | SOLAR CELL MODULE AND SOLAR CELL - A solar cell module is described, including a series of solar cells each including a bottom electrode, a photoelectric conversion layer, an insulating pattern, a top electrode layer and a passivation layer. The conversion layer is on the bottom electrode and also on the substrate at a first side of the bottom electrode. The insulating pattern is on the bottom electrode, covering an edge portion of the conversion layer near a second side of the bottom electrode. The top electrode layer is on the conversion layer and adjacent to the insulating pattern. The passivation layer is on the top electrode layer and adjacent to the insulating pattern, wherein the top of the passivation layer on the top electrode layer is lower than the top of the insulating pattern. The bottom electrode of a solar cell is electrically connected with the top electrode layer of an adjacent solar cell. | 11-08-2012 |
20130008687 | CONDUCTIVE FILM STRUCTURE CAPABLE OF RESISTING MOISTURE AND OXYGEN AND ELECTRONIC APPARATUS USING THE SAME - A conductive film structure capable of resisting moisture and oxygen and an electronic apparatus using the same are provided. The conductive film structure includes a metal electrode, a metal oxide layer, and an insulating layer. The metal oxide layer is disposed on the metal electrode and includes an oxide of the metal electrode. The insulating layer covers the metal oxide layer and has at least one pinhole therein. | 01-10-2013 |
20140124241 | TOUCH STRUCTURE AND MANUFACTURING METHOD FOR THE SAME - A touch structure and a manufacturing method for the same are provided. The touch structure comprises first patterned electrodes, a second patterned electrode, a dielectric structure and a conductive bridge. The second patterned electrode is disposed between the first patterned electrodes, and separated from the first patterned electrodes. The dielectric structure is disposed on the first patterned electrodes and the second patterned electrode. The dielectric structure has a dielectric opening. The conductive bridge is disposed across the dielectric structure and extended in the dielectric opening. The first patterned electrodes are electrically connected to each other through the conductive bridge. | 05-08-2014 |