Patent application number | Description | Published |
20100163916 | FULL-COVER LIGHT-EMITTING DIODE LIGHT BAR AND METHOD FOR MANUFACTURING THE SAME - In a full-cover light-emitting diode light bar that can withstand a large bending deformation, a first lead and a second lead are juxtaposed with a distance. An insulating layer having a slot is formed on the first lead and the second lead via a hot pressing process. A crystal-receiving section of the first lead is displayed in the slot, and a connecting section of the second lead is displayed in the slot. A light-emitting diode crystal has a first electrode and a second electrode. Then, the light-emitting diode crystal is disposed in the slot with the first electrode being electrically fixed to the crystal-receiving section. The second electrode of the light-emitting diode crystal is electrically connected to the connecting section via a metallic lead. A light-transmitting body is used to seal the slot. Via the above process, a full-cover light-emitting diode light bar is formed. | 07-01-2010 |
20100163917 | LIGHT-EMITTING DIODE LIGHT BAR AND METHOD FOR MANUFACTURING THE SAME - In a light-emitting diode light bar of a light-emitting device, a first lead and a second lead are juxtaposed with a distance. A light-emitting diode crystal has a first electrode and a second electrode. Then, the first electrode is electrically fixed to the first lead. The second electrode is electrically connected to the second lead via a metallic lead. A light-transmitting body is used to package the light-emitting diode crystal and the metallic lead. Finally, via a hot pressing process, an insulating layer covers the first lead and the second lead. In this way, a light-emitting diode light bar is formed. | 07-01-2010 |
20110012165 | LIGHT-EMITTING DIODE LIGHT BAR - In a light-emitting diode light bar of a light-emitting device, a first lead and a second lead are juxtaposed with a distance. A light-emitting diode crystal has a first electrode and a second electrode. Then, the first electrode is electrically fixed to the first lead. The second electrode is electrically connected to the second lead via a metallic lead. A light-transmitting body is used to package the light-emitting diode crystal and the metallic lead. Finally, via a hot pressing process, an insulating layer covers the first lead and the second lead. In this way, a light-emitting diode light bar is formed. | 01-20-2011 |
Patent application number | Description | Published |
20080296044 | FLEXIBLE FLAT CABLE - A flat cable includes a plurality of flat cores arranged at an interval, an insulating layer covering integrally each core, and an adhesive sheet. Both surfaces of the insulating layer are provided with a plurality of grooves to correspond to the cores respectively. The distal end of each core extends beyond the insulating layer and each has a connecting portion. Each connecting portion has two flat surfaces. One of the flat surfaces is used for electrical connection, and the other is adhered to the adhesive sheet. The adhesive sheet is adhered from the distal end of each connecting portion to a portion of the insulating layer. Further, an external surface of the adhesive sheet is colored. | 12-04-2008 |
20080305678 | Flat Cable Connector - A flat cable connector includes an insulating base. Both ends of the insulating base have a protruding buckling end respectively. The buckling ends on both ends and a plate body of the insulating base form an accommodating space for accommodating the flat cable therein. The insulating base is provided thereon with a plurality of penetrating holes for penetrating the plate body. Both surfaces of the insulating base are connected with an upper conductive cover and a lower conductive cover respectively. The upper conductive cover and the lower conductive cover are provided with a plurality of fixing terminals. After the upper conductive cover is connected with the insulating base, the fixing terminals of the upper conductive cover abut against the flat cable. After the lower conductive cover is connected with the insulating base, the fixing terminals of the lower conductive cover abut against the flat cable via the penetrating holes, thereby blocking the electro-magnetic interference generated by the flat cable connector. | 12-11-2008 |
20090035600 | FLAT CABLE COVERING MEANS FOR GENERATING DIFFERENT IMPENDANCES - A flat cable covering means for generating different impedances includes a plurality of cores, an insulating body and a first metallic covering layer. The cores are arranged at an interval respectively. The insulating body covers an outer surface of the cores. The first metallic covering layer is provided to correspond to a portion of cores and partially covers one side of the insulating body with the impedance of the cores in an area covered by the first metallic covering layer smaller than that of the cores in an area not covered by the first metallic covering layer. Via this arrangement, in order to correspond to the need of impedances of different devices in the electronic apparatus, the different impedances can be made integrally in the same flat cable. In this way, not only the manufacturing and assembling processes can be simplified, but also the management and layout of lines are simple and convenient. | 02-05-2009 |