Patent application number | Description | Published |
20090160653 | Anti-metal RFID tag and manufacturing method thereof - An anti-metal radio frequency identification (RFID) tag and a manufacturing method thereof are described. The anti-metal RFID tag includes a substrate having a first surface and a second surface on an opposite side thereof; a planar integral antenna formed on the first surface of the substrate; a RFID transceiver chip (i.e., RFID chip) disposed on the surface of the substrate and coupled to a signal feed point of the planar integral antenna. The flexible planar integral antenna and substrate are folded and then fixed by a fixing mechanism to form an anti-metal RFID tag with a feed-in structure, a RFID transceiver chip, and a radiator on one side, and a ground plane on the opposite side. A spacer is further sandwiched in the center of the folded structure, which is helpful for improving the antenna gain of the anti-metal RFID tag. | 06-25-2009 |
20100116893 | RFID TAG - A radio frequency identification (RFID) tag including a substrate, an RFID chip, a chip contact part, a folding circuit and a radiation part is provided. The chip contact part is formed on the substrate and electrically coupled to the RFID chip. The folding circuit is formed on the substrate and electrically coupled to the chip contact part. The folding circuit has a winding part, which forms a hollow region, for compensating the antenna electric length. The radiation part is formed on the substrate and electrically coupled to the folding circuit, wherein one terminal of the winding part of the folding circuit is open, and the other terminal is electrically coupled to the radiation part. At least one of the folding circuit and the radiation part is asymmetric to the chip contact part. | 05-13-2010 |
20100166952 | NANO-METAL SOLUTION, NANO-METAL COMPLEX GRAINS AND MANUFACTURING METHOD OF METAL FILM - A nano-metal solution, nano-metal complex grains, and a manufacturing method of a metal film are provided. The nano-metal solution includes metal grains having an amount of 0.1˜30 wt %, metallic-organic self-decomposition molecules having an amount of 0.1˜50 wt % and having formula 1, and a solvent having an amount of 20˜99.8 wt %: | 07-01-2010 |
20100270516 | METHOD FOR FORMING NANOMETER SCALE DOT-SHAPED MATERIALS - A method for forming nanometer scale dot-shaped materials is provided. The method includes providing a sub-micrometer scale material and a metallo-organic compound. The sub-micrometer scale material and the metallo-organic compound are mixed in a solvent. Then, the metallo-organic compound is decomposed by thermal decomposition process and reduced to form a plurality of nanometer scale dot-shaped materials on the sub-micrometer scale material, wherein the sub-micrometer scale material and the nanometer-scale dot-shaped materials are heterologous materials. Then, the plurality of nanometer scale dot-shaped materials is melted, such that a plurality of the adjacent sub-micrometer scale materials is connected to each other to form a continuous interface between the sub-micrometer scale materials. | 10-28-2010 |
20110101283 | ELECTRICALLY CONDUCTIVE COMPOSITION AND FABRICATION METHOD THEREOF - An electrically conductive composition and a fabrication method thereof are provided. The electrically conductive structure includes a major conductive material and an electrically conductive filler of an energy delivery character dispersed around the major conductive material. The method includes mixing a major conductive material with an electrically conductive filler of an energy delivery character to form a mixture, coating the mixture on a substrate, applying a second energy source to the mixture while simultaneously applying a first energy source for sintering the major conductive material to form an electrically conductive composition with a resistivity smaller than 10×10 | 05-05-2011 |
20110134622 | Wireless Communication Apparatus - A wireless communication apparatus in one embodiment includes a bag body and a radio frequency device. The bag body has at least a first slot, which extends to an edge of the bag body. The radio frequency device including a wireless integrated circuit chip is for radio-frequency signal transmission or receiving, and is disposed across a portion of the first slot and coupled to two connection ends of the bag body so that the bag body between the two connection ends serves as an inductance circuit. The inductance circuit of the two connection ends of the bag body is based on metallic material. An impedance of the inductance circuit is for conjugate matching with that of the radio frequency device and is determined according to a plurality of geometric parameters including: a distance from the edge to the wireless integrated circuit chip, and size of the first slot. | 06-09-2011 |
20120138565 | BOTTLED STRUCTURE - A bottled structure includes a bottle, a liquid substance and an electrical tag. The bottle has a body. The body has a bottle opening. The liquid substance is contained in the body and has a dielectric constant. The electrical tag is disposed on the body. The electrical tag has a radiator, wherein the radiation power of the radiator is stronger on the top or the bottom of the bottle opening than that on a plane perpendicular to the body according to the dielectric constant of the liquid substance. | 06-07-2012 |
20120168211 | SUBSTRATE ASSEMBLY CONTAINING CONDUCTIVE FILM AND FABRICATION METHOD THEREOF - A substrate assembly containing a conductive film and a fabrication method thereof are provided. The substrate assembly includes a polymer substrate, a surface treatment layer formed on the polymer substrate and a conductive film formed on the surface treatment layer, wherein the conductive film is formed by sintering a metal conductive ink and the surface treatment layer is formed from a composite material of an auxiliary filler and a polymer. The auxiliary filler in the surface treatment layer can deliver energy into the metal conductive ink for sintering the conductive metal ink. | 07-05-2012 |
20130044401 | PROTECTION COMPONENT AND PROTECTION DEVICE USING THE SAME - A protection component includes: a package substrate; a first fuse unit disposed in the package substrate, having a first fusing region; a second fuse unit disposed in the package substrate, having a second fusing region which is close to the first fusing region; and a first buried cave disposed in the package substrate corresponding to the first and second fusing regions. When one of the first and second fusing regions is blown out, the first buried cave assists energy of fuse melting to break the other of the first and second fusing regions. | 02-21-2013 |
20130123726 | RADIO FREQUENCY IDENTIFICATION TAG AND DIAPER, ABSORBER AND SENSING SYSTEM USING THE SAME - A radio frequency (RF) identification tag including a substrate, a planar antenna, an RF chip, a plurality of signal conductors and a plurality of ground conductors is provided. The RF chip receives an RF signal from the planar antenna to generate an identification code. The signal conductors are coupled to the planar antenna. The ground conductors, interlaced on two opposite sides of the signal conductors, and the signal conductors are adjacent to each other and disposed on the substrate to form a coplanar waveguide structure which includes an impedance match portion and a transmission portion. The impedance match portion has an input end coupled to the signal conductors and a ground plane coupled to the ground conductors. The RF chip is disposed between the input end and the ground plane. The transmission portion is connected between the impedance match portion and the planar antenna. | 05-16-2013 |
20140141968 | PHOTOCATALYST MATERIAL AND METHOD FOR FABRICATING THE SAME - The disclosure provides a photocatalyst material and a method for fabricating the same. The photocatalyst material includes a zinc oxide material doped with metal, wherein the zinc oxide material has a lattice structure including a plurality of defects. A part of the defects are filled with a metal, | 05-22-2014 |
20140318414 | NANO-METAL SOLUTION AND NANO-METAL COMPLEX GRAINS - A nano-metal solution, nano-metal complex grains, and a manufacturing method of a metal film are provided. The nano-metal solution includes metal grains having an amount of 0.1˜30 wt %, metallic-organic self-decomposition molecules having an amount of 0.1˜50 wt % and having formula 1, and a solvent having an amount of 20˜99.8 wt %: | 10-30-2014 |