Patent application number | Description | Published |
20080198550 | HEAT SINK MODULE FOR DUAL HEAT SOURCES - A heatsink module for dual heat sources for dissipating heat generated by a first and a second heat-generating element disposed on a circuit board is provided. The heatsink module includes a first heat-conducting plate, a second heat-conducting plate, a fixing member, a heat pipe, and a pressing flat spring. The first and second heat-conducting plates contact the first and second heat-generating elements respectively. The fixing member when fixed to the circuit board presses the second heat-conducting plate against the second heat-generating element. One end of the pressing flat spring is under the traction of the fixing member fixed to the circuit board, and presses the first heat-conducting plate against the first heat-generating element. The fixing member and the first heat-conducting plate then clamp the heat pipe, so as to conduct the heat generated by the first and second heat-generating elements to the heat pipe via the connecting elements. | 08-21-2008 |
20090016020 | HEAT-DISSIPATING MODULE AND ELECTRONIC APPARATUS - A heat-dissipating module suitable for dissipating heat generated by a heat-generating element is provided. The heat-dissipating module includes a first heat-conducting plate, a first heat-dissipating tube, and a fan. The first heat-conducting plate is thermally coupled to the heat-generating element. The first heat-dissipating tube has a first opening and a second opening opposite to the first opening. The first heat-conducting plate is connected to the first heat-dissipating tube and located at an outside of the first heat-dissipating tube. The fan is disposed adjacent to the first opening and corresponding to first opening. The fan is adapted for generating an air current flowing in the first heat-dissipating tube. The heat-dissipating module can transfer the heat generated by the heat-generating element during operation to an external environment. | 01-15-2009 |
20090034193 | HEAT-DISSIPATING MODULE - A heat-dissipating module adapted for cooling a heat-generating element is provided. The heat-dissipating module includes a plurality of fins, a fan and a heat pipe. The fan is adapted for generating an air current. Each fin has an edge facing the fan. The edges are located on a folded surface. The air current first passes through the folded surface and then passes by the fins. The heat pipe includes a first end thermally coupled to the heat-generating element, and a second end thermally coupled to the fins. | 02-05-2009 |
20090034195 | HEAT-DISSIPATING MODULE - A heat-dissipating module dissipating heat generated by a heat-generating element includes a plurality of fins, a fan generating an air current and a heat pipe. Each fin has a first edge facing the fan and a second edge facing the fan. The first edges are located on a first surface. The second edges are located on a second surface not coinciding with the first surface. The air current passing through the first and second surfaces passes by the fins. A first end of the heat pipe is thermally coupled to the heat-generating element. A second end of the heat pipe is thermally coupled to the fins. | 02-05-2009 |
20090034196 | HEAT-DISSIPATING MODULE - A heat-dissipating module adapted for cooling a heat-generating element is provided. The heat-dissipating module includes a fin module, a fan and a heat pipe. The fan is adapted for generating an air current. The fin module includes a plurality of first fins and a plurality of second fins. Each first fin includes a first edge facing the fan. The first edges are located on a first surface. Each second fin includes a second edge facing the fan. The second edges are located on a second surface not coinciding with the first surface. The air current passes through the first surface and the second surface and then passes by the first fins and the second fins. The heat pipe includes a first end thermally coupled to the heat-generating element, and a second end thermally coupled to the first fins and the second fins. | 02-05-2009 |
20090056925 | HEAT DISSIPATION MODULE - A heat dissipation module for being assembled to a circuit board with a first heat-generating element and a second heat-generating element is provided. A heat generation rate of the first heat-generating element is higher than that of the second heat-generating element. The heat dissipation module includes a heat-transferring connection element, a cooling device, a first heat-transferring plate and a second heat-transferring plate. The heat-transferring connection element has a first part and a second part. The cooling device connects to the first part. The first heat-transferring plate is connected between the first heat-generating element and the second part. The second heat-transferring plate has a third part and a fourth part. The second part is connected between the first heat-transferring plate and the third part. The fourth part is connected to the second heat-generating element. The thermal conductivity of the first heat-transferring plate is higher than that of the second heat-transferring plate. | 03-05-2009 |
20140037073 | NETWORK AUDIO TESTING SYSTEM AND NETWORK AUDIO TESTING METHOD THEREOF - A network audio testing system and a network audio testing method thereof for testing the performance of a network communication, system during communication are disclosed. The system includes a processing system and a sound simulation device. The processing system is for generating a near-end simulation signal and a far-end simulation signal. The sound simulation device is for receiving and making a near-end simulation sound. The near-end simulation sound is received by a microphone of the network communication system to generate a first test signal. The processing system further simultaneously makes the sound simulation device sounding the near-end simulation sound and a speaker sounding a far-end simulation sound to obtain a second test signal. The processing system compares the first and the second test signal to obtain an attenuation degree of the near-end simulation signal and a residual energy of the far-end simulation signal. | 02-06-2014 |
20140083655 | ELECTRONIC DEVICE - An electronic device includes a case, a heat source, a radiator, and an air stream generator. The case has an air ventilation hole and an opening. The radiator is disposed in the case and in thermal contact with the heat source. The radiator includes a main body having a first, a second, and a third side surface. A first air inlet, an air outlet, and a second air inlet are disposed on the first side surface, the second side surface, and the third side surface, respectively. The third side surface and the case are separated by a distance from each other. The second air inlet is disposed between a geometric middle plane of fins of the main body and the second side surface. The distance between the second air inlet and the first side surface is greater than that between the air ventilation hole and the first side surface. | 03-27-2014 |
20140085819 | ELECTRONIC DEVICE - An electronic device comprises a case having an air ventilation hole and an opening, a heat source, a radiator disposed inside the case and in thermal contact with the heat source, and an air current generator. The radiator comprises a body having a first and second lateral sides, and a third lateral side disposed therebetween. A first air inlet is disposed on the first lateral side. An air outlet exposed by the opening is disposed on the second lateral side, and a second air inlet is disposed on the third lateral side. The body comprising fins and a geometrical middle side of the fins is between the first and second lateral sides. The second air inlet corresponding to the air ventilation hole is between the geometrical middle side and the first lateral side. An air exhausting hole of the air current generator faces the first air inlet. | 03-27-2014 |
20140127022 | FAN BLADE STRUCTURE - A fan blade structure includes a hub, an annular partition surrounding the hub, a first blade group and a second blade group. The hub has a top surface and a flank connected to the top surface. The first blade group, disposed on one side of the annular partition, includes two blade arrays having multiple first and second blades respectively. The clearance between the two adjacent first blades is less than that between the two adjacent second blades. The second blade group, disposed on another side of the annular partition, includes another two blade arrays having a plurality of third and fourth blades respectively. The clearance between the two adjacent third blades is less than that between the two fourth blades adjacent to each other. | 05-08-2014 |