Patent application number | Description | Published |
20090101494 | Method for Producing Internal Antenna with Anti-Electromagnetic Interference Property Through Vacuum Process - A method for producing an internal antenna with an anti-electromagnetic interference property by performing a vacuum process, which includes (1) performing a surface pretreatment process on an insulating substrate to clean the surface thereof, (2) placing the substrate into a vacuum chamber, and performing a first plasma bombardment by using a conductive target material; (3) placing the substrate into another vacuum chamber, and performing a second plasma bombardment by using a passivation target material; (4) removing a certain part of the passivation layer and the conductive layer, such that a planar antenna pattern is remained with a certain distance spaced apart from the surrounding passivation layer and conductive layer. The conductive layer and the passivation layer cover the surface of the substrate for completely shielding the electromagnetic interference, and meanwhile, the planar shape of the antenna saves the cost and the available space within the housing. | 04-23-2009 |
20140300391 | OUTPUT BUFFER - An output buffer includes an input/output end, a voltage source, a first transistor and a second transistor. The first transistor includes a first end coupled to the input/output end, a second end coupled to the voltage source, and a control end coupled to the voltage source. The second transistor includes a first end coupled to the input/output end, a second end coupled to the voltage source, and a control end coupled to the voltage source. The control end of the first transistor and the control end of the second transistor are substantially perpendicular to each other, and the punch through voltage of the first transistor is higher than the punch through voltage of the second transistor. | 10-09-2014 |
20150014809 | FIN DIODE STRUCTURE - A fin diode structure and method of manufacturing the same is provided in present invention, which the structure includes a substrate, a doped well formed in the substrate, a plurality of fins of first conductivity type and a plurality of fins of second conductivity type protruding from the doped well, and a doped region of first conductivity type formed globally in the substrate between the fins of first conductivity type, the fins of second conductivity type, the shallow trench isolation and the doped well and connecting with the fins of first doped type and the fins of second doped type. | 01-15-2015 |
20150221632 | FIN DIODE STRUCTURE - A fin diode structure and method of manufacturing the same is provided in present invention, which the structure includes a substrate, a doped well formed in the substrate, a plurality of fins of first conductivity type and a plurality of fins of second conductivity type protruding from the doped well, and a doped region of first conductivity type formed globally in the substrate between the fins of first conductivity type, the fins of second conductivity type, the shallow trench isolation and the doped well and connecting with the fins of first doped type and the fins of second doped type. | 08-06-2015 |
Patent application number | Description | Published |
20110141406 | LOW COLOR VARIATION OPTICAL DEVICES AND BACKLIGHT MODULES AND LIQUID CRYSAL DISPLAYS COMPRISING THE OPTICAL DEVICES - A low color variation optical device is provided. The optical device includes a cholesteric liquid crystal film, a first phase retardation film disposed above the cholesteric liquid crystal film and a second phase retardation film disposed below the cholesteric liquid crystal film, wherein the second phase retardation film includes a plurality of molecules with a tilted and twisted arrangement. The invention also provides a backlight module and a liquid crystal display including a low color variation optical device. | 06-16-2011 |
20110240402 | UNIT WITH A SOUND ISOLATION/VIBRATION ISOLATION STRUCTURE, ARRAY EMPLOYING THE SAME, AND METHOD FOR FABRICATING THE SAME - The disclosure provides a unit with a sound isolation/vibration isolation structure, an array employing the same, and a method for fabricating the same. The unit with a sound isolation/vibration isolation structure includes: a hollow frame surrounding an inside space; a film disposed within the inside space, vertically contacting an inside wall of the hollow frame; and a body mass disposed on a top surface of the film. Particularly, the horizontal area of the inside space is larger than the area of the top surface of the film. | 10-06-2011 |
20130038870 | SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE AND A TRACE DETECTION METHOD OF A BIOLOGICAL AND CHEMICAL ANALYTE USING THE SAME - The invention provides a surface-enhanced Raman scattering substrate and a trace detection method of a biological and chemical analyte using the same. The substrate includes: a substrate having a periodic nanostructure; a reflection layer formed on the substrate; a dielectric layer formed on the reflection layer; and a metal thin film layer formed on the dielectric layer. | 02-14-2013 |
20130049573 | OPTICAL FILM AND LIGHT EMITTING DEVICE - An optical film and a light emitting device are provided. The optical film includes a substrate, a resin layer, and a plurality of porous particles. The resin layer is located on the substrate. The porous particles are distributed in the resin layer, and each of the porous particles includes a particle body and a plurality of holes. A refractive index of the particle body is different from a refractive index of the resin layer, and the refractive index of the particle body is different from a refractive index of air in the holes. The light emitting device includes a light emitting element and an optical film. The light emitting element has a light emitting surface, and the optical film is located on the light emitting surface of the light emitting element. | 02-28-2013 |
20130143146 | HYBRID POROUS MATERIALS AND MANUFACTURING METHODS AND USES THEREOF - The present disclosure provides a hybrid porous material including a porous material including a microporous polymer film or a non-woven fabric, wherein the porous material has an upper surface and a lower surface; and a continuous inorganic coating covering the upper surface, the lower surface, and surfaces of pores within the porous material. The present disclosure also provides a manufacturing method for the hybrid porous material and an energy storage device including the same. | 06-06-2013 |
20130153017 | PACKAGE STRUCTURE AND SOLAR CELL WITH THE SAME - A package structure and a solar cell with the same are provided. The package structure includes a transparent package bulk and at least one structure capable of changing a direction of light. The structure is disposed within the transparent package bulk and at a distance from a surface of the transparent package bulk. When applied to a solar cell, the package structure can reduce gridline shading. | 06-20-2013 |
20130208488 | ILLUMINATION DEVICE - An illumination device including a base, at least one LED light source and a first diffusing element is provided. The base has a supporting plane. The LED light source disposed on the supporting plane has a light emitting surface substantially parallel to the supporting plane. The first diffusing element disposed on the supporting plane is a hollow column surrounding the LED light source. An inner diameter width of the first diffusing element is gradually reduced outward from the base. The first diffusing element has a rough surface comprising a plurality of surface structures. | 08-15-2013 |
20140131675 | LIGHT-EXTRACTION ELEMENT AND LIGHT-EMITTING DEVICE - The invention provides a light-extraction element, comprising a light-diffusion layer which including a resin; a first particle with a single refractive index; and a second particle with two different refractive indices, wherein the second particle is a hollow particle or a core-shell particle, wherein the refractive index of the core is different from that of the shell. The invention also provides a light-emitting device, including a pair of electrodes composed of an anode and a cathode; an organic light-emitting unit disposed between the pair of electrodes, wherein the organic light-emitting unit includes a light-emitting layer; and a light-extraction element which is disposed on a light-emitting surface of the light-emitting device. | 05-15-2014 |
20140141355 | GRAPHENE ELECTRODE, ENERGY STORAGE DEVICE EMPLOYING THE SAME, AND METHOD FOR FABRICATING THE SAME - The disclosure provides a graphene electrode, an energy storage device employing the same, and a method for fabricating the same. The graphene electrode includes a metal foil, a non-doped graphene layer, and a hetero-atom doped graphene layer. Particularly, the hetero-atom doped graphene layer is separated from the metal foil by the non-doped graphene layer. | 05-22-2014 |
20140332773 | LIGHT-EXTRACTION ELEMENT AND LIGHT-EMITTING DEVICE - The invention provides a light-extraction element, comprising a light-diffusion layer which including a resin; and a plurality of raspberry-like particles uniformly dispersed in the resin, wherein the raspberry-like particles feature a surface with a plurality of round bumps, and the plurality of raspberry-like particles are composed of a material having a single reflective index. The invention also provides a light-emitting device, including a pair of electrodes composed of an anode and a cathode; an organic light-emitting unit disposed between the pair of electrodes, wherein the organic light-emitting unit includes a light-emitting layer; and a light-extraction element which is disposed on a light-emitting surface of the light-emitting device. | 11-13-2014 |
20140362373 | SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE - The disclosure provides a surface-enhanced Raman scattering substrate, including: a surface-enhanced Raman scattering (SERS)-active substrate; a patterned hydrophilic region and a patterned hydrophobic region formed on the SERS-active substrate, wherein a water contact angle difference between the patterned hydrophilic region and the patterned hydrophobic region is in a range from about 29 degrees to about 90 degrees. | 12-11-2014 |
20150055351 | ILLUMINATION DEVICE - An illumination device including a base, at least one LED light source and a diffusing element is provided. The base has a supporting plane. The LED light source disposed on the supporting plane has a light emitting surface substantially parallel to the supporting plane. The diffusing element disposed on the supporting plane to cover the at least one LED light source. The diffusing element includes a first portion and a second portion. The first portion located above the at least one LED light source. The second portion connected between the first portion and the base. An optical characteristic of the first portion is different from that of the second portion so that a non-continuous boundary is defined between the first portion and the second portion. | 02-26-2015 |
20150146285 | REFLECTIVE STRUCTURE FOR OPTICAL TOUCH SENSING - A reflective structure for optical touch sensing, which includes a transparent substrate, a plurality of microstructures and a transmittive reflective layer. The transparent substrate has a surface. The microstructures are disposed on the transparent substrate and expose a portion of the surface to allow a visible light to pass through. The transmittive reflective layer is disposed on the microstructures and at least covers a portion of the microstructures. | 05-28-2015 |