| Patent application number | Description | Published |
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| 20110255240 | CIRCUIT BOARD ASSEMBLY - A circuit board assembly includes a motherboard defining a number of plug slots, and a fixing mechanism for securing a heat sink. The fixing mechanism is positioned between two adjacent plug slots, and includes a support member mounted on the motherboard, two fixing brackets mounted on opposite ends of the support member, two bars rotatably connected to the fixing brackets, and a connection member detachably connected to the support member by the bars. The opposite borders of the support member extend in the same direction substantially parallel to the plug slots, and the support member forms four connecting portions for securing the heat sink on opposite sides thereof, and the connecting portions are located between the opposite borders. | 10-20-2011 |
| 20110296075 | MOTHERBOARD USED IN SERVER COMPUTER - An exemplary motherboard includes a substrate, a first CPU socket provided on the substrate for receiving a first CPU, a second CPU socket provided on the substrate for receiving a second CPU, a switching circuit connected to the first CPU and the second CPU, at least one quick path interconnect (QPI) bus connecting the first CPU to the second CPU, a number of first peripheral component interconnect express (PCI-e) interfaces connected to the first CPU via a number of first wires, a number of second PCI-e interfaces connected to the second CPU via a number of second wires, and a activating chip connected to the first CPU and the second CPU via the switching circuit and configured for starting a peripheral device connected to the first PCI-e interfaces or the second PCI-e interfaces. | 12-01-2011 |
| 20120102308 | BOOTSTRAP SYSTEM FOR DUAL CENTRAL PROCESSING UNITS - A bootstrap system for dual central processing units includes a south bridge, a first central processing unit, a second central processing unit and a switch control module. The south bridge provides enable signals and reset signals, the first central processing unit provides an identification signal and an operation signal. The second central processing unit receives the enable signals and reset signals. The switch control module receives the identification signal and the operation signal from the first central processing unit to generate a corresponding switch command signal. The south bridge is selectably and electrically connected to the first central processing unit or the second central processing unit under the control of switch command signal. | 04-26-2012 |
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| 20110278748 | METHOD FOR MAKING OPTICAL FIBER CONNECTOR - A method for making an optical fiber connector includes a mold. The mold includes a first mold portion having inserts each for molding a blind hole preform, and a second mold portion having a flat molding surface for forming a flat optical surface, and a number of curved molding surfaces for forming lens caps. A non-contact detection instrument is provided to project a light beam to the bottom of the blind hole preforms with the light beam passing through the flat optical surface. Then a coarseness factor image is obtained and analyzed to determine whether a coarseness factor of the bottom of the corresponding blind hole preform is acceptable and the corresponding insert is modified if it is not acceptable. Finally, the curved molding surfaces are aligned with the inserts to form the lens caps on the flat optical surface. | 11-17-2011 |
| 20110294076 | METHOD FOR MAKING PATTERNED ROLLER - A method for making a patterned roller includes: forming a dry film photoresist layer on an outer surface of a to-be-patterned roller; exposing the dry film photoresist layer to an exposure machine using a photomask; developing the dry film photoresist layer to expose a plurality of portions of the outer surface of the to-be-patterned roller; sandblasting the exposed portions of the outer surface of the to-be-patterned roller to define a pattern in the outer surface of the to-be-patterned roller; and removing the remaining dry film photoresist layer to obtain a patterned roller. | 12-01-2011 |
| 20110315082 | FILM COATING APPARATUS - A film coating apparatus for coating a patterned roller using an atomic layer deposition process includes a deposition chamber and a heater. The deposition chamber defines an inlet and an outlet. The inlet is misaligned with the outlet. The heater is received in the deposition chamber. The heater includes a number of coiled filaments each formed into a generally circular loop. The filaments are spaced from each other and surrounds the patterned roller. The filaments are configured for heating the patterned roller. | 12-29-2011 |
| 20110318563 | NANOWIRE STRUCTURE AND METHOD FOR MAKING SAME - A nanowire structure includes a thermoplastic polymer layer defining a surface; and a nanowire film formed on the surface of the thermoplastic polymer layer. The nanowire film includes nanowires laid directly on the surface with the nanowires oriented along a substantially same direction on the surface. A method for making the nanowire structure includes a spin coating step and a heating step for forming the thermoplastic polymer layer, and a rolling step for allowing the nanowires to be oriented on the thermoplastic polymer layer. | 12-29-2011 |
| 20120009293 | MOLDING MACHINE AND METHOD FOR FORMING OPTICAL FILM - A molding machine for manufacturing an optical film includes a hopper, a first cylindrical roller, a second cylindrical roller, and an ultraviolet light source. The hopper defines a narrow outlet. The first cylindrical roller is rotatable around its central axis parallel to the narrow outlet. The second cylindrical roller is a transparent hollow structure rotatable around its second central axis. The first central axis is parallel to the second central axis at the same level. The first and second cylindrical rollers are located at two opposite sides of the narrow outlet and below the narrow outlet, and define a gap therebetween to feed the raw material. The ultraviolet light source is located in the second cylindrical roller. An emission direction of the ultraviolet light source is orientated toward a space between the narrow outlet and the second cylindrical roller. | 01-12-2012 |
| 20120031336 | CHEMICAL VAPOR DEPOSITION DEVICE - A chemical vapor deposition device includes a chamber, a gas input assembly, a gas output assembly, a heating device, and a driving module. The chamber includes a first side, a second side and a deposition area defined between the first side and the second side. The second side is opposite to the first side. The gas input assembly is positioned at the first side of the chamber. The gas input assembly includes a jet module. The jet module faces the deposition area to introduce reaction gases. The gas output assembly is positioned at the second side of the chamber. The gas output assembly exhausts the gases in the chamber. The heating device heats the deposition area. The driving module drives a deposition roll located in the deposition area. | 02-09-2012 |
| 20120031551 | METHOD FOR TRANSFER PRINTING NANOWIRES - A method for transfer printing nanowires, includes the following steps. First, a first substrate having nanowires formed thereon, is provided. Second, a transfer printing film is provided. The transfer printing film is hydrophobic and is in a soft state. Third, the transfer printing film and the first substrate are combined with the nanowire array in contact with the transfer printing film. Fourth, a roller is applied on the transfer printing film to press the transfer printing film against the first substrate. Fifth, the first substrate is removed, thereby obtaining the nanowires transfer printed on the transfer printing film with the nanowires reoriented along a substantially same direction. | 02-09-2012 |
| 20120045176 | OPTICAL FIBER COUPLING CONNECTOR - A fiber coupling connector includes a receptacle and a plug for insertion into the receptacle. The plug includes a first lens portion and a first sleeve receiving and surrounding the first lens portion. The receptacle includes a second lens portion and a second sleeve receiving and surrounding the second lens portion. The second sleeve is engagingly received in the first sleeve such that the first lens portion is optically coupled with the second lens portion. | 02-23-2012 |
| 20120045885 | METHOD FOR MAKING NANOWIRE ELEMENT - A method for making a nanowire element includes: providing an imprint mold including a first substrate and a conductive pattern-transferring layer, the pattern-transferring layer includes first conductive strips; electrifying the pattern-transferring layer with an alternating current; applying a nanowire-containing suspension on the pattern-transferring layer; reorienting the nanowires in the nanowire-containing suspension using a dielectrophoresis method, thereby the nanowires connected between two adjacent first conductive strips; providing a pattern-receiving body, the pattern-receiving body including a second substrate and a pattern-receiving layer; pressing the imprint mold onto the pattern-receiving body with the conductive pattern-transferring layer facing the pattern-receiving layer, thereby defining a patterned recess in the pattern-receiving layer and transferring the nanowires to the second substrate; forming a first conductive layer on the second substrate to obtain a conductive pattern layer, the conductive pattern layer including second conductive strips, the nanowires connecting two adjacent second conductive strips; and removing the pattern-receiving layer. | 02-23-2012 |
| 20120068047 | MOLD FOR PROCESSING OPTICAL FILM AND MANUFACTURING METHOD THEREOF - A mold for processing optical film includes a substrate, a copper oxide film, and a hydrophobic fluorinated self-assembled monolayer film. The substrate has a copper surface. The copper oxide film is formed on the copper surface. The hydrophobic fluorinated self-assembled monolayer film is formed on the surface of the copper oxide film. The mold provides easy release of the hydrophobic fluorinated self-assembled monolayer film. | 03-22-2012 |
| 20120070524 | MOLD FOR PROCESSING OPTICAL FILM AND MANUFACTURING METHOD THEREOF - A mold for processing an optical film includes a substrate defining a microstructure on an outer surface thereof for printing a pattern on the optical film, an aluminum oxide film, and a hydrophobic fluorinated self-assembled monolayer film. The aluminum oxide film is formed on an outer surface of the substrate by atomic layer deposition. The hydrophobic fluorinated self-assembled monolayer film is formed on an outer surface of the aluminum oxide film. The mold provides easy release of the hydrophobic fluorinated self-assembled monolayer film and protection for the mold from abrasion. | 03-22-2012 |
| 20120070527 | LEVEL ADJUSTMENT DEVICE FOR INJECTION MOLDING MACHINE - A level adjustment device includes a main body, four shaft seats, two adjusting elements, two actuating gears, and a supporting plate. The main body has a side surface and an upper surface connected to the side surface. The main body defines two slots in the side surface. Each two shaft seats are positioned at two opposite sides of a corresponding one of the slots and extend outwards from the side surface. Each of the adjusting elements includes a toothed portion and a supporting portion, the toothed portion movably received in the slot and the supporting portion protruding out of the upper surface. Each of two actuating gears is rotatably sleeved between two corresponding shaft seats and meshes with the toothed portion. The supporting plate is supported on the two adjustment elements above the upper surface. | 03-22-2012 |
| 20120091433 | LIGHT EMITTING DIODE AND METHOD FOR MAKING SAME - A light emitting diode includes a substrate, a number of light emitting units formed on the substrate, and an insulating layer. Each light emitting unit includes a first electrode layer, a number of light emitting nanowires and a second electrode layer. Each light emitting nanowire includes a zinc-oxide-nanowire buffering segment extending from the first electrode layer, an N-type gallium nitride nanowire segment and a P-type gallium nitride nanowire segment. The N-type gallium nitride nanowire segment is interconnected between the zinc-oxide-nanowire buffering segment and the P-type gallium nitride nanowire segment. The P-type gallium nitride nanowire segment has a distal portion embedded in the second electrode layer. The insulating layer is formed on the substrate and the first electrode layer. The light emitting nanowires is embedded in the insulating layer and insulated from each other. | 04-19-2012 |
| 20120104361 | TRANSISTOR USING SOURCE ELECTRODE AND DRAIN ELECTRODE HAVING POINTED PORTIONS - A transistor includes a substrate, a source electrode, a drain electrode and a nanowire-layer. The source electrode, the drain electrode and the nanowires-layer are formed on the substrate. The source electrode includes a plurality of first pointed portions, and the drain electrode includes a plurality of second pointed portions each aligned with a corresponding first pointed portions. The nanowire-layer is interconnected between the first pointed portions and the second pointed portions. | 05-03-2012 |
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| 20110110033 | MOUNTING APPARATUS FOR PCI CARD - A mounting apparatus includes a mounting bracket, a mounting piece adapted to mount a PCI card to the mounting bracket, and a securing member. The mounting bracket includes a base and a blocking plate. The mounting piece includes an elongated body and a mounting end. The securing member includes a first pivoting portion pivotably attached to the mounting bracket, a pressing portion, and a mounting portion. The mounting portion includes a securing portion. The securing portion includes a handling portion and a second engaging portion extending from the handling portion. The second engaging portion engages the first engaging portion. The handling portion is configured to drive the second engaging portion to disengage the first engaging portion by pressing the handling portion. | 05-12-2011 |
| 20110110056 | MOUNTING APPARATUS FOR PCI CARD - A mounting apparatus for a PCI card includes a mounting bracket, a mounting piece for attaching the PCI card to the mounting bracket, and a securing member. The mounting bracket has a base and a blocking plate bent from the base. The mounting piece includes an elongated body and a mounting end bent from the elongated body. The elongated body adjoins the base and the mounting end abuts on the blocking plate. The securing member includes a first pivoting portion pivotably attached to the mounting bracket, a pressing portion extending from the pivoting portion, and a securing portion extending from the pressing portion. The pressing portion elastically abuts against the mounting end, thereby sandwiching the mounting end between the blocking plate and the pressing portion. The securing portion is for driving the pressing portion to move away from the mounting end by handling the securing portion. | 05-12-2011 |
| 20110116227 | COMPUTER SYSTEM WITH HEAT SINK - A computer system includes a chassis, a motherboard, an isolation component, and a block. The chassis includes a bottom wall, and a sidewall connected to the bottom wall. The motherboard is secured to the chassis. A heat sink is secured to the motherboard for cooling a chip mounted on the motherboard. An isolation component is secured to the chassis between the bottom wall and the motherboard. The isolation component includes a bent piece attached to the side wall and positioned between the heat sink and the sidewall. A distance is defined between the bent piece and the heat sink. The block is attached to the bent piece and positioned between the heat sink and the sidewall to span the distance. | 05-19-2011 |
| 20110116229 | ELECTRONIC DEVICE WITH EXPANSION CARD MODULES - An electronic device includes a chassis having a bottom wall, a rear wall, and a sidewall perpendicular to each other. A motherboard is secured on the chassis bottom wall. A first socket is disposed on the motherboard. A mounting bracket is secured in the chassis above the motherboard. The mounting bracket includes a first mounting wall and a second mounting wall. The first mounting wall is parallel to and spaced from the sidewall of the chassis, and the second mounting wall is parallel to and spaced from the rear wall. A first riser card is coupled to the first socket on the motherboard, and is secured to the first mounting wall of the mounting bracket. An expansion card module is accommodated in the mounting bracket and parallel to the bottom wall of the chassis. | 05-19-2011 |
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| 20100056206 | ANTENNA MODULE AND PORTABLE ELECTRONIC DEVICE USING THE SAME - A portable electronic device includes a housing, and an antenna module assembled in the housing. The antenna module has multiple signal processing functions, and includes a plurality of signal processing units, a plurality of signal receiving portions, and an antenna. The plurality of signal receiving portions is electrically and respectively connected to the plurality of signal processing units. The antenna including a signal connecting portion to correspondingly engage with each of the plurality of signal receiving portions to realize different signal processing functions. | 03-04-2010 |
| 20100330936 | MULTIBAND ANTENNA AND WIRELESS COMMUNICATION DEVICE EMPLOYING THE SAME - An exemplary multiband antenna includes an antenna module and a switch module electrically connected to the antenna module. The antenna module includes a first antenna member, a second antenna member, and a third antenna member, which are mounted on a main board. The antenna module is electrically connected or disconnected by operating the switch module to form different antenna structures for receiving different wireless signals. | 12-30-2010 |
| 20110075385 | PORTABLE ELECTRONIC DEVICE - A portable electronic device includes a housing, a circuit board received in the housing, and a memory card retaining mechanism received in the housing. The memory card retaining mechanism includes a plurality of conductive parts. The plurality of conductive parts cooperatively form an antenna integrated with the memory card retaining mechanism and connected to the circuit board. | 03-31-2011 |
| 20110156960 | ANTENNA MODULE - The disclosure provides an antenna module used for a portable device. The antenna module includes a first antenna part, a second antenna part, a third antenna part, a feed part, and a ground part. The first antenna part and the second antenna part are separated to encircle an adjustment space operable to adjust assembly of the antenna module. The third antenna part is disposed by the side of the first antenna part and the second antenna part. The feed part and the ground part are parallel to each other. The first antenna part and the second antenna part jointly connect with the feed part. The second antenna part and the third antenna part jointly connect with the ground part. | 06-30-2011 |
| 20110207413 | MOBILE DEVICE AND METHOD FOR REGULATING ANTENNA CHARACTERISTIC THEREOF - A mobile device includes an antenna module, a calculation module, a location sensor, a determination module, and a regulator module. The calculation module calculates a received signal strength indication (RSSI) of the antenna module. The location sensor senses a user relative to the mobile device when the mobile device is in a communication mode. The determination module determines whether the RSSI degrades over a default period and whether the user is near the mobile device when the mobile device is in the communication mode. The regulator module regulates antenna characteristic of the mobile device when the RSSI degrades over the default period and the user is near the mobile device when the mobile device is in the communication mode. | 08-25-2011 |
| 20110227798 | WIRELESS COMMUNICATION DEVICE - A wireless communication device includes a housing and a circuit board. The circuit board includes a signal transmitting point and a grounding point. The housing connects to the signal transmitting point and the grounding point, and forms an antenna with the signal transmitting point and the grounding point. | 09-22-2011 |
| 20110291906 | ANTENNA MODULE FOR PORTABLE ELECTRONIC DEVICE - An antenna module for a portable electronic device includes a loop portion, a dipole portion, a feeding end portion and a grounding end portion. The dipole portion is positioned in the loop portion and connected to the loop portion. The feeding end portion and the grounding end portion are connected to the loop portion. | 12-01-2011 |
| 20110298674 | ELECTRONIC DEVICE WITH ANTENNA SWITCH AND ANTENNA SWITCHING METHOD THEREOF - An electronic device with antenna switch comprises a first antenna, a first proximity sensor, a second antenna, a detection module, a determination module and a control module. The first proximity sensor is located with the first antenna at a first side portion of the electronic device. The detection module detects an approach signal from the first proximity sensor. The determination module determines whether the strength of the approach signal is stronger than a threshold value in real time. The control module initiate the second antenna to receive signals through the switch if the strength of the approach signal is stronger then the strength of the threshold value. | 12-08-2011 |
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| 20090243129 | DETECTING APPARATUS - A detecting apparatus and method for detecting deformation of a fixed mold plate of an injection molding machine. The apparatus includes a mounting member and an elastic member that is received in the through hole of the mounting member and generally positioned at the center thereof. The apparatus also has a contacting member that is received in the through hole and positioned near or at the first end surface, and a sliding member that is slidably received in the through hole near or at the second end surface. A blocking member is attached to the second end surface of the mounting member. A pressure sensor is fixed between the blocking member and the contacting member. | 10-01-2009 |
| 20090261495 | METHOD FOR SETTING ACTION STEPS OF A MOLD CORE - A method for setting action steps of a mold core, used in a mold core control system, the method comprising confirmation of the mold core for use. If mold cores are to be used, the number thereof is set. The control system implements action timing settings for every mold core, based on individual requirements. The new settings are confirmed, and if accepted, YES is entered and the action steps of the mold core are complete, and if not, NO is entered, and confirmation of the mold core for use is repeated. | 10-22-2009 |
| 20100168898 | CONTROL SYSTEM AND METHOD FOR DISPLAY OF INJECTION MOLDING MACHINE - A control system for controlling the display of an injection molding machine (IMM) includes a human machine interface (HMI), a driver, a controller, a timer, and a time display module. The controller controls the driver to drive the IMM to do a plurality of operations. The time display module controls the HMI to display working times of operations that have been done, and the working time of an operation that is in process in the current work cycle. The timer records working time of each operation by starting to time at the beginning of each operation, and stopping timing at the end of each operation. | 07-01-2010 |
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| 20110019257 | MECHANICAL SHUTTER AND ELECTRONIC DEVICE USING THE SAME - A mechanical shutter includes a base including a plate with an aperture and a protruding positioning projection. A core on the surface surrounds the aperture and includes a first end and a second end. The positioning projection is arranged between the first end and the second end, on one corner of the surface. A coil surrounds the core and a blade and a permanent magnet are pivoted on the positioning projection. When receiving current, the coil magnetizes to the core to generate a magnetic force and rotates the permanent magnet, and the blade, to cover and expose the aperture. An electronic device having the mechanical shutter is also provided. | 01-27-2011 |
| 20110135296 | MECHANICAL SHUTTER AND CAMERA MODULE HAVING SAME - An exemplary mechanical shutter includes a barrel, a first blade, a second blade, a third blade, a magnet, and a magnetic field generator. The barrel defines a through hole and an aperture in the hole. The first blade is arranged in the hole and mounted on the barrel. The second blade is slidably mounted on the first blade. The third blade is slidably mounted on the second blade. The magnet is attached to the third blade. The magnetic field generator is mounted on the fixture and spatially corresponding to the magnet. The magnetic field generator applies a magnetic field to the magnet. The magnet and the magnetic field generator cooperatively move the blade group between an extended position and an retracted position. | 06-09-2011 |
| 20110150456 | ELECTRONIC DEVICE - An electronic device includes a main body, a lens received in the main body, and a collapsible lens cover with one end fixed on the main body and the other end capable of resisting or detaching from the main body such that the lens is covered or uncovered. | 06-23-2011 |
| 20110217033 | MECHANICAL SHUTTER AND PORTABLE ELECTRONIC DEVICE WITH SAME - A mechanical shutter includes a base, a cover, a primary blade and a secondary blade. The base includes a first through hole and a connecting shaft extending from the base. The cover includes a second through hole and a connecting hole. The connecting shaft of the base extends through the connecting hole to secure the cover to the base. The first through hole is coaxial to the second through hole, thereby cooperatively forming an light passage. The primary blade and the secondary blade are moveably interconnected so when the primary blade rotates around the connecting shaft relative to the base, the primary blade carries the secondary blade to move, and the secondary blade moves together to cover or expose the light passage. | 09-08-2011 |
| 20110260435 | VEHICLE SEAT SYSTEM - An exemplary vehicle seat system includes a vehicle seat, an electronic control unit, a crash detection unit connected with the control unit, a seat occupancy sensing module configured for sensing an occupancy of the seat and generating a digital signal associated therewith, an airbag, and an airbag inflating module. The detection unit detects a crash and sends a crash signal associated therewith to the control unit. The inflating module is selectively operable in an activated mode where the inflating module is configured to inflate the airbag in response to the crash signal and an inactivated mode where the inflating module is deactivated and irresponsive to the crash signal. The control unit analyzes the digital signal and determining if the vehicle seat is occupied, and switches the inflating module either in the activated mode if the seat is occupied or in the inactivated mode if the seat is not occupied. | 10-27-2011 |
| 20110314742 | MECHANICAL SHUTTER WITH SHAPE MEMORY ELEMENT - An exemplary mechanical shutter includes a base with a through hole defined therein, a blade arranged on the base, two shape memory alloy units, and a control unit. Each of the two shape memory alloy units includes a first end and a opposite second end. The first end of the shape memory alloy element is attached to the base, and the second end is attached to the blade. The control unit is configured for controlling the two shape memory alloy units to selectively deform into a first shape, or into a second shape. In particular, the two shape memory alloy units each straighten to a first shape (straight shape) and move the blade to cover the through hole. In addition, the two shape memory alloy units each deform to a second shape (spring coil shape) and thus move the blade away from the through hole to expose the through hole. | 12-29-2011 |
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| 20100266793 | HOUSING AND METHOD OF MANUFACTURING THEREOF - A housing includes a plastic substrate, a supporting layer, a hair line layer, a decorative layer, and a transparent protection layer. The supporting layer, the hair line layer, the decorative layer, and the transparent protection layer are formed on the substrate in that order. | 10-21-2010 |
| 20100279042 | HOUSING AND METHOD OF MANUFACTURING THE SAME - A housing for a portable electronic device includes a metallic base, a chemical plating layer, a prime layer, a color coating layer, a decorative layer, and a transparent protection layer. The chemical plating layer, the prime layer, the color coating layer, the decorative layer, and the transparent protection layer are coated on the metallic base in that order. The decorative layer defines a pattern extending through the decorative layer. | 11-04-2010 |
| 20100279043 | HOUSING AND METHOD OF MANUFACTURING THE SAME - A housing for an electronic device includes a plastic base, a prime layer, a decorative layer, and a transparent protection layer. The prime layer, the decorative layer, and the transparent protection layer are coated on the plastic base in that order. The decorative layer defines a pattern extending through the decorative layer. | 11-04-2010 |
| 20100291330 | HOUSING AND METHOD OF MANUFATURING THE SAME - A housing for an electronic device includes a plastic base, a prime layer, a decorative layer, and a transparent protection layer. The prime layer is coated on the plastic base, and defines a pattern embedded in the prime layer. The decorative layer is coated on the prime layer and the pattern. The decorative layer has a light reflective capability, and a thickness of the decorative layer is less than a depth of the pattern. The transparent protection layer is coated on the decorative layer. | 11-18-2010 |
| 20100291361 | HOUSING AND METHOD OF MANUFACTURING THE SAME - A housing for an electronic device includes a metallic base, a chemical plating layer, a prime layer, a color coating layer, a decorative layer, and a transparent protection layer. The chemical plating layer, the prime layer, the color coating layer, the decorative layer, and the transparent protection layer are coated on the metallic base in that order. The color coating layer defines a pattern embedded in the color coating layer. The decorative layer is coated on the color coating layer and the pattern. The decorative layer has light reflective capability, and a thickness of the decorative layer is less than a depth of the pattern. | 11-18-2010 |
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| 20080225154 | DIGITAL CAMERA AND MENU DISPLAY METHOD OF SAME - A digital camera includes a rotatable wheel, a screen, and a menu display system for displaying menu on the screen. The menu display system includes a primary menu having a number of menu options and may have one or more hierarchical submenu options. The submenu is disk-shaped with a number of sub-submenu options displayed around the disk, each of the sub-submenu options can be selected by rotating the rotatable wheel clockwise or anticlockwise. The digital camera is capable of being operated quickly and efficiently. | 09-18-2008 |
| 20080240620 | Electronic device with simplified operation input/output module - An electronic device includes an imaging unit configured for capturing an image of a subject, a memory unit configured for storing data and images; a processing unit configured for processing data and images; a display unit configured for displaying data and images; and a central processing unit configured for processing various signals and images. The processing unit includes a replay module, a selection module, a function module, a menu module and an input/output unit. The input/output unit is configured for activating anyone of the replay module, the selection module, the function module and the menu module. The application system for the electronic device through activating each module via the input/output interface unit can allow the use of the electronic device to be more convenient and simplified. | 10-02-2008 |
| 20090110389 | CAMERA INTEGRATED WITH DEFORMABLE SUPPORTING STRUCTURE - A camera includes a body having a front plate and a rear plate, a lens module mounted on the front plate, a slot defined in the rear plate, and an elongated deformable wire. The deformable wire is received in the slot, and the deformable wire is deformable between a first configuration where the deformable wire is received in the slot, and a second configuration where the deformable wire is released from the slot and reshaped to support the body on an object. | 04-30-2009 |
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| 20090285210 | NETWORK DEVICE AND METHOD FOR DETECTING RTP PACKETS - A network device includes a real-time transport protocol (RTP) stream prediction table (SPT), a receiving module, a stream determining module, a service module, and a transmitting module. The RTP SPT includes a plurality of packet entries, each of which comprises common parameters. The receiving module receives a packet that comprises individual parameters. The stream determining module determines if the received packet matches with one of the packet entries of the RTP SPT by comparing the individual parameters of the received packet with the common parameters of each of the packet entries of the RTP SPT. The service module provides quality of service (QoS) for the received packet when the received packet matches with one of the packet entries of the RTP SPT. The transmitting module transmits the received packet based on QoS. A method for detecting RTP packets is also provided. | 11-19-2009 |
| 20110058491 | SYSTEM AND METHOD FOR MANAGING NETWORK CONNECTIVITY OF A CPE USING A CMTS - A system and method can manage network connectivity of a customer premises equipment (CPE) using a cable modem termination system (CMTS). The CMTS connects to the CPE via a cable modem, and connects to a dynamic host configuration protocol (DHCP) server via a network. The CMTS includes a connection unit that is operable to inform the CPE to request the DHCP server to get a new internet protocol (IP) address when the cable modem changes a radio frequency (RF) channel to different IP domains, and control the CPE to communicate with the CMTS according to the new IP address. | 03-10-2011 |
| 20110182282 | MODEM AND METHOD SUPPORTING VARIOUS PACKET CABLE PROTOCOLS - A modem includes a communicating module, a multimedia terminal adapter (MTA) module, a parsing module, and a selecting module. The communicating module sends a configuration file request packet to a TFTP server to get configuration files including a file ID. The parsing module parses the configuration files to get the file ID. The selecting module configures the MTA module corresponding to the file ID. The communicating module further communicates with a VoIP network according to a protocol corresponding to the file ID. | 07-28-2011 |
| 20110310887 | CABLE MODEM AND METHOD OF SUPPORTING VARIOUS PACKET CABLE PROTOCOLS - A cable modem in communication with a trivial file transfer protocol (TFTP) server includes a default system and a backup system employing various packet cable protocols. The cable modem boots with the default system, obtains a vendor specific information (VSIF) from the TFTP server, and determines if the VSIF matches with the default system. The cable modem continuously boots with the default system if the VSIF matches with the default system. The cable modem configures the currently default system to be the backup system and configures the currently backup system to be the default system, and reboots with the newly configured default system if the VSIF mismatches with the default system. | 12-22-2011 |
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| 20090258602 | MULTI-PATH SIMULATION SYSTEM - A multi-path simulation system ( | 10-15-2009 |
| 20090267840 | SOLID ANTENNA - A solid antenna positioned on a substrate, includes a feeding portion for feeding electromagnetic signals and a radiating portion for transceiving the electromagnetic signals. The radiating portion includes a first radiator, a second radiator, a third radiator, a fourth radiator, a first connecting section, and a second connecting section. The first radiator and the second radiator are positioned on a first plane, and respectively comprise a first inverted-U-shaped radiating section and a second inverted-U-shaped radiating section. The third U-shaped radiator is positioned on a second plane perpendicular to the first plane. The first connecting section connects the first radiator to the third radiator. The second connecting section connects the second radiator to the third radiator. The fourth radiator is connected to the second radiator. The first connecting section, the second connecting section, and the fourth radiator comprise one radiating section positioned on a third plane. | 10-29-2009 |
| 20100066610 | MULTIBAND ANTENNA - A multiband antenna located on a substrate includes a feed portion, a grounded portion, and an antenna body. The feed portion is connected to the substrate, delivering electromagnetic signals. The grounded portion is connected to the substrate. The antenna body is electrically connected to the feed portion and the grounded portion, transceiving electromagnetic signals. The antenna body includes a first radiator, a second radiator, a first resonator, and a second resonator. The first radiator is connected to the first radiator and the grounded portion. The second radiator is connected to the first radiator and the grounded portion. The first resonator is connected to the second radiator. The second resonator is connected to the second radiator. The second resonator and the first radiator are parallel and of different lengths. | 03-18-2010 |
| 20110001681 | MULTIBAND ANTENNA - A multiband antenna includes a feed portion, a radiating portion and a matching portion. The radiating portion is operable to transceive electromagnetic signals, and includes a first radiator, a second radiator and a third radiator. The first radiator is connected to the feed portion, and includes a first free end and a second free end. The second radiator is bent, and includes a first feed end and a third free end, wherein the first feed end is connected to the feed portion. The third radiator is substantially L shaped, and includes a second feed end and a fourth free end, wherein the second feed end is electrically connected to the feed portion. The matching portion is rectangularly shaped, and electrically connected to the first radiator, for impedance matching. | 01-06-2011 |
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| 20090109706 | OPTICAL GUIDING DEVICE AND BACKLIGHT MODULE USING SAME - An exemplary optical guiding device for optically coupling a plurality of light beams having at least one laser beam, includes a light coupling lens, a light collimating lens, and an optical fiber. The light coupling lens and the light collimating lens are positioned apart along an optical path. The optical fiber is optically coupled to the light couple lens. External laser beam introduced by the optical fiber are optically coupled by the light coupling lens for collimating and mixing the light beams, then collimated by the at least one light collimating lens, and finally emitting out. A backlight module using the optical guiding device with colored semiconductor lasers and light transferring device are also provided. The backlight module has a good color performance, such as high color saturation. | 04-30-2009 |
| 20090231509 | LIQUID CRYSTAL DISPLAY MODULE AND METHOD FOR ASSEMBLING THE SAME - An exemplary liquid crystal display module includes a liquid crystal display panel, a backlight unit, a bottom frame, and an upper frame. The backlight unit is positioned on the bottom frame. The upper frame is assembled on the bottom frame to fix the backlight unit in position. The upper frame includes four sidewalls, a top flange extending from the four sidewalls towards a center of the upper frame, and a plurality of supporting members defined at the inner surfaces of the sidewalls adjacent to the top flange. At least one of the supporting members is resilient. The liquid crystal display panel is held in place between the top flange and the supporting members. A method for assembling the liquid crystal display module is also provided. | 09-17-2009 |
| 20090236405 | METHOD FOR MAKING BACKLIGHT MODULE FRAME - An exemplary method for making backlight module frame includes: providing a plurality of metallic sheets cooperatively defining a frame shape, and a positioning device comprising a worktable and a plurality of positioning portions defined at corners of the worktable, wherein each metallic sheet comprises a first positioning protrusion corresponding to the positioning portions, positioning the metallic sheets on the worktable of the positioning device with the first positioning protrusions of the metallic sheets engaging with the positioning portions of the positioning device, welding the metallic sheets together to form a semi-manufactured frame, and pressing the semi-manufactured frame to form a backlight module frame. | 09-24-2009 |
| 20090239438 | METHOD FOR MAKING BACKLIGHT MODULE FRAME - An exemplary method for making backlight module frames includes: method includes: providing a first metallic sheet and a second metallic sheet, each of the first and second metallic sheets having at least two L-shaped portions connected side by side and oriented in the same direction; welding the two metallic sheets to form a plurality of connected semi-manufactured frames corresponding to s subsequent backlight module frame; and pressing the connected semi-manufactured frames to form a plurality of backlight module frames. The method costs less welding time and it is convenient for the backlight module frames to be mass-produced. | 09-24-2009 |
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| 20080297933 | COLOR WHEEL ASSEMBLY AND COLOR WHEEL WITH SAME - An exemplary color wheel assembly comprises a carrier, a locking member, a color filter unit and an elastic member. The carrier includes a main body, a shaft and a lock-receiving portion. The shaft coaxially protrudes outwardly from the main body. The lock-receiving portion is defined in the shaft. The locking member is lockingly received in the lock-receiving portion. The color filter unit is disposed on the main body. The elastic member is interposed between the locking member and the color filter unit and is compressed therebetween to push the color filter unit against the main body. In this way, the color filter unit is firmly fixed on the main body and the color wheel assembly is assembled. | 12-04-2008 |
| 20090034069 | POLARIZATION CONVERSION DEVICE AND PROJECTOR USING SAME - A polarization conversion device for converting a non-polarized light into a single-polarized light includes a prism substrate having a first positioning surface and an opposite second positioning surface parallel to the first positioning surface. The first and second positioning surfaces are configured for coming into contact with a positioning member. The prism substrate includes a plurality of parallelogram prisms arranged between the first and second positioning surfaces, and a plurality of polarization beam splitting layers in parallel with the first and second surfaces. The polarization beam splitting layers and the parallelogram prisms are arranged in an alternate fashion. Each of the plurality polarization beam splitting layers is sandwiched between two adjacent parallelogram prisms. | 02-05-2009 |
| 20090051883 | X-PRISM FOR USE IN PROJECTOR - An x-prism provides four triangular prisms each of which includes a hypotenuse side, a first side surface adjoining the hypotenuse side surface, a second side surface perpendicular to the first side surface, a first end surface and an opposite second end surface, the first and second end surfaces being at opposite sides of each of the triangular prisms, the triangular prisms being attached to each other with the hypotenuse side surfaces thereof facing outward. The four triangular prisms includes at least two triangular prisms with the first end surfaces thereof being coplanar with each other, and at least one triangular prism with the first end surface thereof being non-coplanar with the first end surfaces of the other triangular prisms. | 02-26-2009 |
| 20090103179 | PROJECTION DEVICE WITH POLARIZATION CONVERTER - A projector ( | 04-23-2009 |
| 20100287990 | METHOD FOR MANUFACTURING GLASS PLATE - A method for manufacturing a glass plate having a concave surface and an opposite flat surface includes: providing a flat glass plate and a molding die having a concave surface; covering the concave surface of the molding die with the flat glass plate; heating the flat glass plate and the molding die together to intenerate and bend the flat glass plate to form a curved glass plate with a surface thereof facing the molding die attached to the concave surface of the molding die, the curved glass plate having a concave surface facing away from the molding die and a convex surface facing the molding die; and flattening the convex surface of the curved glass plate. | 11-18-2010 |
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| 20090159096 | ACID PICKLING SOLUTION AND METHOD FOR SURFACE TREATMENT UTILIZING THE SAME - An exemplary acid pickling solution for treating a surface of a magnesium alloy workpiece. The acid pickling solution consists of 5 g/l to 30 g/l of citric acid, 1.5 g/l to 6 g/l of surface active agent, wherein the surface active agent is a water-soluble and silicone free agent. A method for treating a surface of a magnesium alloy workpiece is also provided. | 06-25-2009 |
| 20090159158 | PHOSPHATING SOLUTION AND METHOD FOR CONVERSION TREATING SURFACE OF MAGNESIUM ALLOY WORKPIECE - An exemplary phosphating solution is used for conversion treating a surface of a magnesium alloy workpiece. The phosphating solution includes: 2.89 gram/liter to 8.67 gram/liter of phosphoric acid, 0.3 gram/liter to 1.0 gram/liter of carbamide, 0.39 gram/liter to 1.56 gram/liter of nitric acid, 6 gram/liter to 30 gram/liter of manganese dihydrogen phosphate, and 0.2 gram/liter to 0.6 gram/liter of tannin. A method for conversion treating a surface of a magnesium alloy workpiece is also provided. | 06-25-2009 |
| 20090162678 | MAGNESIUM ALLOY ARTICLE AND METHOD FOR FABRICATING THE SAME - An exemplary magnesium alloy article includes a main body and a phosphate film formed on a surface of the magnesium alloy main body. The phosphate film contains carbon, oxygen, magnesium, aluminum, phosphorus, and manganese. A method for fabricating the present magnesium alloy article is also provided. | 06-25-2009 |
| 20110155287 | METHOD FOR CONVERSION TREATING SURFACE OF MAGNESIUM ALLOY WORKPIECE - A method for conversion treating a surface of a magnesium alloy workpiece includes the steps of degreasing, acid pickling, alkali pickling, and chemical converting. A phosphating solution is used in the step of chemical converting and includes the following solution concentrations: 2.89 gram/liter to 8.67 gram/liter of phosphoric acid, 0.3 gram/liter to 1.0 gram/liter of carbamide, 0.39 gram/liter to 1.56 gram/liter of nitric acid, 6 gram/liter to 30 gram/liter of manganese dihydrogen phosphate, and 0.2 gram/liter to 0.6 gram/liter of tannin. | 06-30-2011 |
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| 20090034101 | WIDE-ANGLE IMAGE PICK-UP LENS SYSTEM AND VEHICLE WITH SAME - A wide-angle image pick-up lens system includes a first lens group with negative refracting power and a second lens group with positive refracting power. The first lens group and the second lens group are aligned in order from an object side to an image side. The first lens group and the second lens group satisfy the following conditions: −0.15| 02-05-2009 | |
| 20090046378 | LENS SYSTEM - A lens system includes a positive refractive power first lens, a positive refractive power second lens, and a negative refractive power third lens in that order from the object side of the lens system. Wherein the lens system satisfies the following conditions: (1) 0.25| 02-19-2009 | |
| 20090073575 | OPTICAL ZOOM LENS - An optical zoom lens includes, in this order from the object side to the image side thereof, a first lens group of negative refraction power, a second lens group of positive refraction power, and a third lens group of positive refraction power. The optical zoom lens satisfies the formulas of: −0.45| 03-19-2009 | |
| 20090303610 | ZOOM LENS - A zoom lens includes, in this order from the object side to the image side thereof, a first lens group having positive refraction power, a second lens group having negative refraction power, a third lens group having positive refraction power, and a fourth lens group having positive refraction power. The zoom lens satisfying the formulas: 0.15| 12-10-2009 | |
| 20090316276 | PROJECTION LENS SYSTEM - An exemplary projection lens system includes, in order from the magnification side to the reduction side thereof, a first lens with negative refraction power, a second lens with positive refraction power, a third lens with negative refraction power, and a fourth lens with positive refraction power. The projection lens system satisfies the formulae 3.71.41; where TT is a total length of the projection lens, f is an effective focal length of the projection lens system and BFL is a back focal length of the projection lens system. | 12-24-2009 |
| 20100315722 | OPTICAL ZOOM LENS MODULE AND IMAGE CAPTURING DEVICE USING SAME - An optical zoom lens module includes, in this order from the object side to the image side thereof, a first lens group of positive refraction power, a second lens group of negative refraction power, a third lens group of positive refraction power, and a fourth lens group of positive refraction power. The optical zoom lens module satisfies the formula: 12| 12-16-2010 | |
