Patent application number | Description | Published |
20130076575 | PORTABLE ELECTRONIC APPARATUS WITH ANTENNA STRUCTURE - A portable electronic apparatus with antenna structure is disclosed. The portable electronic apparatus includes an apparatus casing, an antenna structure, and an electronic component. The apparatus casing has an accommodating space and an appearance casing. The antenna structure is disposed adjacent to the appearance casing. The electronic component is disposed in the accommodating space and leaks electromagnetic wave during operation. Thereby, even though the electronic component leaks electromagnetic wave toward the antenna structure, the invention can reduce the influence on the antenna structure by the leaked electromagnetic wave by disposing the antenna structure as away from the electronic component as possible. Therefore, the antenna structure still can work normally during the operation of the electronic component, which solves the problem that an antenna structure of a conventional portable electronic apparatus is easily interrupted in the range of the leaked electromagnetic wave in the prior art. | 03-28-2013 |
20130313224 | METHOD FOR FORMING ANTENNA AND COMPRESSION HEAD - An embodiment of the invention provides a method for forming an antenna which includes: providing a workpiece having a surface; providing a compression head including a main body, a soft rubber head disposed on the main body, and at least a through-hole, wherein the through-hole penetrates through the main body and the soft rubber head; adsorbing and fixing a conducting film on the soft rubber head through the through-hole; moving the compression head against the surface of the workpiece to press the conducting film onto the surface of the workpiece; removing the compression head; and patterning the conducting film. | 11-28-2013 |
20130318778 | METHOD FOR MANUFACTURING ANTENNA STRUCTURE - A method for manufacturing an antenna structure is disclosed. Employing steps of mixing with a catalyst and embedding a metal insert can simplify steps for manufacturing the antenna structure. Further, a non-conductive frame produced by the process disclosed herein can exhibit waterproof effect. The catalyst mentioned above is mixed with a plastic and then injected into a mold to form the non-conductive frame. The metal insert mentioned above is disposed in the mold before the step of injecting the plastic. Alternatively, the metal insert is embedded in the non-conductive frame after the step of injecting the plastic. | 12-05-2013 |
20150070232 | ANTENNA STRUCTURE AND METHOD FOR MANUFACTURING ANTENNA - A method for manufacturing an antenna includes the steps of: providing a ferrite sheet; forming a via hole through the ferrite sheet, wherein the via hole is connected between a first surface and a second surface of the ferrite sheet; forming a nonconductive ink layer on the first surface and the second surface and in the via hole of the ferrite sheet; applying a displacement process to the nonconductive ink layer so as to form a first metal layer on the nonconductive ink layer; and applying a thickening process to the first metal layer so as to form a second metal layer on the first metal layer, wherein the first metal layer and the second metal layer both extend from the first surface through the via hole to the second surface of the ferrite sheet. | 03-12-2015 |
20150357716 | ANTENNA STRUCTURE AND MOBILE DEVICE - An antenna structure includes a ferromagnetic patch, first metal conductive lines, second metal conductive lines, and metal connection elements. The ferromagnetic patch has a first surface and a second surface, and the second surface is opposite to the first surface. The first metal conductive lines are disposed on the first surface of the ferromagnetic patch. The second metal conductive lines are disposed on the second surface of the ferromagnetic patch. The metal connection elements penetrate the ferromagnetic patch. The metal connection elements further connect the first metal conductive lines to the second metal conductive lines, respectively. | 12-10-2015 |
Patent application number | Description | Published |
20080205203 | Optical head having dual optical paths - An optical head to access data on an optical recording medium, which has two data storage densities, includes two sets of optical path systems to provide two optical paths that are crossed. Each optical path system includes a laser light generation unit, a light guiding unit, a converging objective lens and a photo detector. The light guiding unit is located on the optical path of the laser light generation unit, to direct the laser light to pass through the converging objective lens and focus on the data side of the optical recording medium to carry optical data signals from the data side. The laser light returns to the light guiding unit and travels along the optical path and is received by the photo detector. | 08-28-2008 |
20100038349 | LASER MARKING METHOD AND LASER MARKING SYSTEM - A laser marking method and a laser marking system are provided. The laser marking method includes the following steps. Firstly, a substrate having at least M pattern lines is provided, wherein M is an integer which is larger than or equal to 1. Next, a laser beam is provided. Then, the laser beam is divided into at least two laser sub-beams including a first laser sub-beam and a second laser sub-beam. Afterwards, the second laser sub-beam is aimed at an (N-M)-th pattern line, and an N-th pattern line is marked by the first laser sub-beam, wherein N is an integer which is larger than or equal to M. | 02-18-2010 |
20110284720 | FLUORESCENCE MICROSCOPY IMAGING SYSTEM - A fluorescence microscopy imaging system is used for detecting a fluorescence signal of a sample, and includes a module for detecting fluorescence and a module for focusing control. The module for detecting fluorescence includes a fluorescence excitation light source generator (FELSG) and a fluorescence detector. The FELSG is capable of generating an excitation light beam having a first wavelength to excite the sample to emit fluorescence. The fluorescence detector is used to read the fluorescence signal of the sample. The module for focusing control generates a servo light beam having a second wavelength. A servo light beam reflecting film disposed on an observation plane is used to reflect the servo light beam. A return beam signal is analyzed using a focusing detection method. An actuator is used to move the objective for focusing, so as to enable the fluorescence excitation light beam to excite the sample to emit fluorescence. | 11-24-2011 |
20110304838 | EXPOSURE SYSTEM AND ADJUSTMENT METHOD THEREOF - An exposure system including a first laser light source, a second laser light source, a focusing module, an astigmatism generating element, and a photo detector, and an adjustment method thereof are provided. The first laser light source emits a first laser beam. The second laser light source emits a second laser beam. The focusing module includes a light converging unit disposed on transmission paths of the first laser beam and the second laser beam for projecting the first laser beam and the second laser beam onto a material. The material reflects at least a part of the first laser beam into a first reflective beam. The light converging unit and the astigmatism generating element are disposed on the transmission path of the first reflective beam. The photo detector is disposed on the transmission path of the first reflective beam from the astigmatism generating element. | 12-15-2011 |
20130094018 | OPTICAL EQUIPMENT AND REGISTRATION METHOD - An optical equipment for inspecting and addressing a specimen is disclosed. The optical equipment comprises an optical device and a processing module. The optical device comprises a light source, a sample inspecting device and an address detecting device. The sample inspecting device comprises a first objective lens and a first detector. A beam is focused on a sample placed in an inspected site of a specimen by the first objective lens. The address detecting device comprises a second objective lens and a second detector. A beam is focused on the address coding site by the second objective lens. The processing module controls the beam to be focused on the sampling points of the inspected site to generate first optical signals, and simultaneously controls the beam of the light source to be focused on the corresponding address codes of the address coding site to generate second optical signals. | 04-18-2013 |
20130153758 | OPTICAL APPARATUS HAVING ADJUSTABLE PINHOLE AND METHOD USING THE SAME - An optical apparatus for adjusting the position and aperture of a pinhole and a method using the same are provided. A light beam is provided. The light beam is focused on an object and reacts with the object to form a signal beam. The signal beam is focused and projected on a liquid-crystal switch. The projection position of the signal beam on the liquid-crystal switch is determined, and the transparence of the liquid-crystal switch at the projection position is adjusted to form a transparent area. The signal beam passes through the transparent area and reaches a light detecting unit to form a detecting signal. The aperture of the transparent area is adjusted according to the intensity of the detecting signal. The liquid-crystal switch is driven to move, so that the position of the transparent area in the moving direction of the signal beam is adjusted. | 06-20-2013 |
20130169931 | AUTO-FOCUSING DIAGNOSTIC EQUIPMENT - A diagnostic equipment having an auto-focusing function comprising a image detection device, a first scanning device, a mobile optical lens assembly, a focusing detection device and a first splitter assembly is provided. The image detection device comprises a first light source and a first photo detector. The first light source provides a first incident light and the first incident light incident to an object and becomes a first signal light. The first photo detector is for receiving the first signal light. The first scanning device is for adjusting a path of the first incident light and to scan the object. The mobile optical lens assembly has a lens and a mobile platform. The first splitter assembly is for transmitting the first and the second signal light to the first and the second photo detector, respectively. | 07-04-2013 |
20130299587 | OPTICAL REGISTRATION CARRIER - A carrier with the optical registration function is disclosed. The carrier allows the registration of inspected results of the sampling images of the sample to the corresponding address codes of the address coding site of the carrier. | 11-14-2013 |
20140168654 | FIBER-TYPE IMAGE CAPTURING METHOD AND APPARATUS THEREOF - A fiber-type image capturing apparatus includes a fiber optic, an optical rotating module, an outer tube, an air inlet hole, and an air outlet hole. The optical rotating module is connected to one end of the fiber optic and has a light forward exit and a light lateral exit. The optical rotating module further includes a stator, a rotor, and a light path selector. The stator is fixed correspondingly to the fiber optic. The rotor has a fan blade which is pivotally connected to the stator. The light path selector is installed at the rotor and has a forward scanning path and a lateral scanning path. The outer tube fixes the fiber optic and the optical rotating module. The air inlet hole is disposed at the outer tube and feeds the fan blade with air. The air outlet hole is disposed at the outer tube and vents the air. | 06-19-2014 |
Patent application number | Description | Published |
20080309391 | DELAY CIRCUIT AND RELATED METHOD THEREOF - Disclosed is a delay circuit, which comprises: a map delay module, for delaying an input data signal to generate an output data signal according to a mapped delay selection signal; and a delay mapping unit, coupled to the map delay module, for generating the mapped delay selection signal according to an input selection signal and at least a mapping value. | 12-18-2008 |
20090096484 | LEVEL SHIFTERS - Level shifters capable of setting logic level of the output signals thereof to a pre-defined known state during power-up are provided, in which a first logic unit is powered by a first power voltage, receives input signals with a core power voltage and comprises first and second output terminals. First and second drivers are coupled between the first output terminal and the first power voltage and between the second output terminal and the second power voltage respectively. When one of the first and second power voltages is not ready during power-up, the first driver matches a voltage level on the first output terminal with the first power voltage by AC coupling and the second driver pulls low or maintains a voltage level on the second output terminal. | 04-16-2009 |
20090265596 | SEMICONDUCTOR DEVICES, INTEGRATED CIRCUIT PACKAGES AND TESTING METHODS THEREOF - An integrated circuit package comprising a semiconductor device and pins is provided. The semiconductor device comprises first and second scan chains, each having an input port and an output port. The semiconductor device further comprises at least two first pads, at least two second pads, and a connecting device. The at least two first pads are coupled to the input port of the first scan chain and the output port of the second scan chain, respectively. The at least two second pads are coupled to the output port of the first scan chain and the input port of the second scan chain, respectively. The connecting device is coupled between the first and the second chains, and is capable of controlling electrical connection between the input port of the second scan chain and the output port of the first scan chain. When the connecting device is disabled, the input port of the second scan chain is electrically disconnected from the output port of the first scan chain. The first pads are electrically connected to the pins and the second pads are not electrically connected to any pins of the integrated circuit package. | 10-22-2009 |
20090278549 | DELAY CIRCUIT AND RELATED METHOD - A delay circuit includes a first delay module, a delay measurement unit and a fault judge unit. The first delay module has a first delay circuit with at least one delay stage. The delay measurement unit is used for measuring a first delay amount and a second delay amount of the first delay chain respectively corresponding to a first number and a second number of delay stages. The fault judge unit is used for determining if the first delay chain has delay faults or not according to the first and second delay amounts. | 11-12-2009 |
20090322397 | DELAY CIRCUIT AND RELATED METHOD THEREOF - A delay circuit comprising a delay measurement unit, a delay mapping unit and a map delay module. The delay measurement unit generates a mapping table according to a reference signal and a reference clock signal. The delay mapping unit generates a mapped delay selection signal according to an input selection signal and at least a mapping value from the mapping table. The map delay module delays an input data signal to generate an output data signal according to the mapped delay selection signal. | 12-31-2009 |