| Patent application number | Description | Published |
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| 20100135025 | LIGHTING MODULE AND LIGHTING SYSTEM - A lighting module includes a light source, a heat sink, a case, and a fan. The light source has a light emitting surface and a bottom surface opposite thereto. The heat sink is disposed at the bottom surface of the light source and includes a heat sink mass having a heat dissipation surface, wherein the heat dissipation surface is opposite to the bottom surface. The case is disposed to the heat sink and has a module airflow inlet and a module airflow outlet. The fan is disposed to the case or the heat sink for driving airflow to sequentially pass through the module airflow inlet, the heat sink, and the module airflow outlet. The case is capable of making the flowing direction of the airflow passing the module airflow outlet the same as the light emitting direction of the light emitting from the light emitting surface. | 06-03-2010 |
| 20110038165 | ILLUMINATION SYSTEM - An illumination system includes a casing having an air inlet and an air outlet, a light source disposed in the casing and capable of generating an illumination beam emitting out of the casing, a fan disposed in the casing and capable of guiding cooling air to the air inlet and the air outlet in sequence, a heat dissipation guiding board disposed in the casing and located at the air inlet for guiding the cooling air from the air inlet to the casing in a direction away from the air outlet, and a power supply disposed on the heat dissipation guiding board. The cooling air flow flowing into the casing and guided by the heat dissipation guiding board flows to the air outlet in a direction away from the air outlet. Thereby, the cooling air flow is allowed to flow in the casing during an increased time within an extended range. | 02-17-2011 |
| 20110133686 | BATTERY DEVICE - A battery device for a notebook computer includes a control circuit, a rechargeable battery unit, and a fuel cell unit. The control circuit includes a transmission interface adapted to be electrically connected to the notebook computer. The rechargeable battery unit is electrically connected to the control circuit and includes a plurality of battery cells. The fuel cell unit is electrically connected to the control circuit. A volume of the fuel cell unit is substantially integral multiple of a volume of the battery cell. | 06-09-2011 |
| 20110135973 | FUEL CARTRIDGE, FUEL CELL SYSTEM, AND POWER MANAGEMENT METHOD THEREOF - A fuel cartridge includes a plurality of chambers and a plurality of supply devices. Each of the chambers is capable of storing a first reactant. The supply devices are respectively corresponding to the chambers; and each of the supply devices is capable of supplying a second reactant to the corresponding chamber so that the second reactant reacts with the first reactant in the corresponding chamber to generate hydrogen gas. In addition, a fuel cell system using the fuel cartridge and a power management method thereof are also provided. | 06-09-2011 |
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| 20100181886 | Heat dissipating module - A heat dissipating module is adapted for transferring heat from a heat source. The heat dissipating module includes a first heat sink, a fan, a second heat sink, and a partition. The first heat sink is adapted to be connected to the heat source and has an outlet. The fan is disposed adjacently to the first heat sink. The second heat sink is connected to the first heat sink. The partition is disposed between the first heat sink and the second heat sink and has an inlet, and the position of the inlet is corresponding to the position of the fan. An airflow driven by the fan is capable of flowing through the second heat sink, the inlet, and the first heat sink in sequence, and the airflow is capable of exiting from the outlet of the first heat sink. | 07-22-2010 |
| 20100246166 | Illumination apparatus - An illumination apparatus includes a housing, a light source, a centrifugal fan, and a heat sink. The housing has an accommodation, a plurality of inlets, and a plurality of outlets. The accommodation communicates with the outside of the housing through the inlets and the outlets. The light source, the centrifugal fan, and the heat sink are disposed in the accommodation. The heat sink includes a base and a plurality of fins connected to the base. The base is connected to the light source, the fins radially surround the centrifugal fan. An air channel is disposed between two adjacent fins. An air from the outside of the housing is capable of flowing into the accommodation through the inlets and then into the centrifugal fan in an axial direction of the centrifugal fan, and flow out of the accommodation in a radial direction of the centrifugal fan through the air channel and outlets. | 09-30-2010 |
