Patent application number | Description | Published |
20130279132 | ELECTROMAGNETIC SHIELDING COVER - An electromagnetic shielding cover disposed on a printed circuit board having thereon an electronic component includes a lid and a frame which are coupled together to shield the electronic component from electromagnetic interference and allow the electronic component to be changed and tested easily during a rework process. | 10-24-2013 |
20130284510 | ELECTROMAGNETIC SHIELDING COVER AND DEVICE HAVING THE SAME - An electromagnetic shielding cover and a device having the same are introduced. The device comprises a casing and is coupled to a base having a printed circuit board on which an electronic component is mounted. The casing is defined with a receiving region. The electromagnetic shielding cover is disposed within the receiving region and coupled thereto. The electromagnetic shielding cover is marked with a plurality of peripheral folding lines. The electromagnetic shielding cover is folded along the peripheral folding lines by an angle to form a plurality of walls and a shielding space. Coupling the casing and the base together allows the electromagnetic shielding cover to shield an electronic component mounted on the circuit board and received in the shielding space, thereby shielding the electronic component from electromagnetic interference. The electronic component can be easily changed and tested during a rework process. | 10-31-2013 |
20130329367 | ELECTRONIC DEVICE HAVING HEAT-DISSIPATING STRUCTURE - An electronic device having a heat-dissipating structure includes a housing, a printed circuit board, a heat-dissipating element, and a thermal conductive element. The housing has an opening and internally defines a receiving space. The printed circuit board is located in the receiving space and has an electronic component mounted thereon. The heat-dissipating element has a first surface and an opposing second surface, and is disposed above the printed circuit board to locate in the receiving space of the housing wile the first surface is exposed from the housing via the opening. The thermal conductive element is disposed between the heat-dissipating element and the electronic component for transferring heat generated by the electronic component to the heat-dissipating element, so that the heat is directly dissipated into ambient air via the opening. Accordingly, heat produced by the electronic component can be efficiently removed without accumulating in the electronic device. | 12-12-2013 |
20130329381 | ELECTROMAGNETIC SHIELDING CASE AND ELECTRONIC DEVICE HAVING THE SAME - An electromagnetic shielding case and an electronic device having the same are introduced. The electronic device includes a PCB, which has at least one electronic component mounted thereon and is provided around the electronic component with multiple positioning holes. The electromagnetic shielding case includes a casing body internally defining a shielding space and multiple fixing pins formed on lower edges of the casing body corresponding to the positioning holes on the PCB. Each fixing pin includes a neck portion and an end portion with an angle included therebetween. After the fixing pins are correspondingly extended through the positioning holes, the end portions can be deflected by an angle to thereby hold the casing body to the PCB with the electronic component located in the shielding space and shielded against EMI. With these arrangements, the electromagnetic shielding case can be quickly mounted to and dismounted from the PCB. | 12-12-2013 |
20130329461 | POWER SUPPLY DEVICE USING ELECTRIC POWER NETWORK - A power supply device using electric power network connects to an external power source and an electronic device, and supplies an alternating current power from the external power source to the electronic device to be a direct current power for the electronic device. In this case, the power supply device using electric power network comprises an electric power connection unit connected with the external power source, a conversion unit connected with the electric power connection unit, and an output unit connected with the conversion unit and the electronic device. The electric power connection unit is used for acquiring the alternating current power from the external power source, and the alternating current power is converted into a direct current power by the conversion unit. Thereby, the direct current power required for the electronic device during the process of charging and supplying power is supplied. | 12-12-2013 |
20130330947 | HOMEPLUG WITH CHANGEABLE TOP CASE STRUCTURE - A HomePlug with a changeable top case structure includes a casing and a socket assembly. The casing has a first coupling portion therein and has an opening. The socket assembly has a second coupling portion for coupling with the first coupling portion, such that the socket assembly corresponds in position to the opening and thereby is coupled to the casing from inside and exposed from the opening. The HomePlug with a changeable top case structure is effective in dispensing with redesign and the manufacturing of a casing in its entirety, cutting die and material costs, enhancing ease of product design, and increasing assembly universality. | 12-12-2013 |
20130330961 | HOMEPLUG HAVING PANEL REPLACEMENT STRUCTURE - A HomePlug having a panel replacement structure includes a HomePlug body and a panel. The HomePlug body has an operation side and a network port. The operation side has an insertion portion and a first coupling portion. The panel has an opening and second coupling portion. The second coupling portion can be coupled to the first coupling portion so as to allow the opening to correspond in position to the insertion portion. Changes in the appearance of the HomePlug are brought about by panel replacement. A heat dissipation vent is disposed at the junction of the operation side and an adjacent side, such that heat dissipation takes place at the adjacent side-neighboring portion of the heat dissipation vent when the panel is coupled to the operation side and covers the operation side. | 12-12-2013 |
20130330974 | HOMEPLUG - A HomePlug includes a body, a power socket, and a network port. The body has an installation region, an insertion region, and an operation region defined on a side surface of the body. The power socket is disposed on the insertion region and has a central point. The network port is disposed on the operation region and spaced apart from the central point by a specific distance. Accordingly, not only is the HomePlug convenient to manipulate, but a network cable connected to the HomePlug is also unlikely to bend, even though the HomePlug is installed at an electric outlet positioned proximate to the ground. | 12-12-2013 |
20130335274 | WIRELESS COMMUNICATION DEVICE WITH ANTENNA STRUCTURE - A wireless communication device with an antenna structure includes a wireless communication device body and an antenna. The antenna includes a first flexible laminate substrate, a second flexible laminate substrate, and an antenna metal layer. The antenna is disposed on a surface of a case of the wireless communication device body through the second flexible laminate substrate. The antenna metal layer is disposed between and is in contact with the first flexible laminate substrate and the second flexible laminate substrate. With the antenna disposed on the surface of the case of the wireless communication device, it is feasible to reduce the space required to accommodate an internal circuit of the wireless communication device, enhance the efficiency of the antenna for transmitting and receiving signals, and display any pattern on the outer surface of the antenna. | 12-19-2013 |
20130335276 | ELECTRONIC COMMUNICATION DEVICE WITH ANTENNA STRUCTURE - An electronic communication device with an antenna structure includes a casing defining a receiving space therein, a circuit board, an antenna module, and at least an elastic conductive element. The circuit board is received in the receiving space and has a first electrically connecting portion. The antenna module is received in the receiving space and has a second electrically connecting portion corresponding in position to the first electrically connecting portion. The elastic conductive element is disposed between the circuit board and the antenna module and corresponds in position to the first and second electrically connecting portions. The elastic conductive element produces an elastic deforming force to enable electrical connection between the first and second electrically connecting portions and thereby enable electrical connection between the circuit board and the antenna module, thereby facilitating assembly and dispensing with a cable otherwise required to connect the antenna module and the circuit board. | 12-19-2013 |
20140134860 | POWER SOCKET AND SAFETY GATE MECHANISM THEREOF - A power socket includes a socket main body, a front cover and a safety gate mechanism. The front cover has two openings. The safety gate mechanism includes a casing and a safety gate. The casing located between the socket main body and the front cover has two inserted holes and a protrusion. The inserted holes are aligned with the openings. The safety gate slidably disposed at the casing is dislocated from the protrusion. When the safety gate is at a first position, the safety gate blocks the inserted holes, and two terminals of a plug push the safety gate through the two openings to make the safety gate slide to expose the inserted holes. When an object pushes the safety gate through one of the openings, the safety gate rotates to drive a part of the safety gate to be aligned with the protrusion to avoid exposing the inserted holes. | 05-15-2014 |