Patent application number | Description | Published |
20080277094 | MINIATURE HEAT-DISSIPATING FAN DEVICE - A miniature heat-dissipating fan device is disclosed, which comprises: a frame; a shaft, pivotally connected to the frame; at least a planar coil, each being received in the frame and formed in a wave winding manner; at least a permanent magnet, each being connected to the shaft while being positioned about parallel to the at least one planar coil for enabling the generation of an alternating multipolar magnetic field; a plurality of blades, being disposed at positions corresponding to the at least one permanent magnet while centering around the axis of the shaft in a centrifugal manner; and at least a magnetically permeable back iron, disposed at a side of the at least one planar coil and being structured with a geometrical shape matching to the wave winding planar coil; wherein the plural blades are integrated with the at least one permanent magnet for enabling the same to rotate with the at least one permanent magnet synchronously. In an exemplary embodiment of the invention, the planar coil is structured with at least a hollowed area, each having a Hall-effect sensor embedded therein. With the aforesaid device, not only it can be structured as a thin-type device with improved convection efficiency, but also the magnetic flux density is increased. | 11-13-2008 |
20090090616 | SYSTEM AND METHOD FOR PLASMA ENHANCED THIN FILM DEPOSITION - A system and a method for plasma enhanced thin film deposition are disclosed, in which the system comprises a plasma enhanced thin film deposition apparatus and a plasma process monitoring device. The plasma enhanced thin film deposition apparatus receives pulsed power and a reactive gas, whereby plasma discharging occurs to ionize the reactive gas into a plurality of radicals for thin film deposition. The plasma process monitoring device comprises an optical emission spectroscopy (OES) and a pulsed plasma modulation device, in which the OES detects spectrum intensities of the radicals and the pulsed plasma modulation device calculates a spectrum intensity ratio of the radicals so as to modulate the plasma duty time of pulsed power, thereby high deposition rate as well as real-time monitoring on thin film deposition quality can be achieved. | 04-09-2009 |
20090146508 | RECIPROCATING POWER GENERATING MODULE - A reciprocating power generating module is disclosed, which comprises: a guide; a magnet, being an integrated unit composed of at least two magnetic elements connected with each other in a manner that poles of any one of the plural magnetic elements are orientated to repel poles of its neighboring magnetic elements; and a coil, being wound around the guide; wherein the magnet is capable of being driven to move linearly by the defining of the guide. The full sine-wave AC voltage output is obtained when the relative linear motion equals double of the length of the magnetic element. | 06-11-2009 |
20090151637 | MICROWAVE-EXCITED PLASMA SOURCE USING RIDGED WAVE-GUIDE LINE-TYPE MICROWAVE PLASMA REACTOR - A microwave-excited plasma source using a ridged wave-guide line-type microwave plasma reactor is disclosed. The microwave-excited plasma source comprises a reaction chamber, a ridged wave-guide and a separation plate. The ridged wave-guide is disposed on the reaction chamber, and comprises a frame portion, a ridge portion and a line-shaped slot. The line-shaped slot is disposed on a first side of the frame portion, and the ridge portion facing the line-shaped slot is disposed on a second side of the frame portion. The separation plate is disposed on the line-shaped slot. Moreover, the ridged wave-guide is suitable for concentrating microwave power, which is transmitted to the reaction chamber through the line-shaped slot in order to excite plasma. | 06-18-2009 |
20100116623 | TRANSMISSION DEVICE FOR THIN AND BRITTLENESS SUBSTRATE - A transmission device for thin and brittleness substrate is disclosed, which comprises: a plurality of transportation rollers and a plurality of pinch rollers. Each transportation roller further comprises: a rigid spindle; and a plurality of elastic supporting wheels, mounted on the spindle. Each pinch roller comprises: a sleeve; a spindle, ensheathed in the sleeve; and a plurality of pressing wheels, mounted on the sleeve at positions corresponding to the supporting wheels. When the transportation rollers are driven to rotate, a substrate sandwiched between the supporting wheels and the pressing wheels will be push to move while subjecting to a friction originated from a sufficient holding force by the supporting wheels and the pressing wheels, and consequently, providing an improved buffering capability for deformation absorption that enables the transmission device to guide the thin substrate to move smoothly without causing buckling or scratching to the thin substrate. | 05-13-2010 |
20100141147 | CAPACITIVELY COUPLED PLASMA (CCP) GENERATOR WITH TWO INPUT PORTS - A capacitively coupled plasma (CCP) generator with two input ports, which is especially used as a large-area capacitively coupled plasma (CCP) generator. In the inventive CCP generator, only a RF power supply is required to provide the two input ports with RF power. The input impedance at each of the input ports is adjustable so that the standing wave between two rectangular electrodes can be eliminated to achieve plasma uniformity. | 06-10-2010 |
20100164381 | LONG LINEAR-TYPE MICROWAVE PLASMA SOURCE USING VARIABLY-REDUCED-HEIGHT RECTANGULAR WAVEGUIDE AS PLASMA REACTOR - A long linear-type microwave plasma source using a variably-reduced-height rectangular waveguide as the plasma reactor has been developed. Microwave power is fed from the both sides of the waveguide and is coupled into plasma through a long slot cut on the broad side of the waveguide. The reduced height of the waveguide is variable in order to control the coupling between microwave and plasma so that the plasma uniformity can remain a high quality when extending the length of the linear-type plasma source. | 07-01-2010 |
20100303652 | MINIATURE HEAT-DISSIPATING FAN DEVICE - A miniature heat-dissipating fan device is disclosed, which comprises: a frame; a shaft, pivotally connected to the frame; at least a planar coil, each being received in the frame and formed in a wave winding manner; at least a permanent magnet, each being connected to the shaft while being positioned about parallel to the at least one planar coil for enabling the generation of an alternating multipolar magnetic field; a plurality of blades, being disposed at positions corresponding to the at least one permanent magnet while centering around the axis of the shaft in a centrifugal manner; and at least a magnetically permeable back iron, disposed at a side of the at least one planar coil and being structured with a geometrical shape matching to the wave winding planar coil; wherein the plural blades are integrated with the at least one permanent magnet for enabling the same to rotate with the at least one permanent magnet synchronously. In an exemplary embodiment of the invention, the planar coil is structured with at least a hollowed area, each having a Hall-effect sensor embedded therein. With the aforesaid device, not only it can be structured as a thin-type device with improved convection efficiency, but also the magnetic flux density is increased. | 12-02-2010 |
20110156501 | RECIPROCATING POWER GENERATING MODULE - A reciprocating power generating module is disclosed, which comprises: a guide having a hollow space along the center axis thereof; an integrated magnet composed of a plurality of magnetic elements which are aligned one next to another in a manner such that poles of each of the magnetic elements are orientated to repel poles of its neighboring magnetic elements; and a coil composed of a plurality of at-least-two-phase windings which are wound around the guide and integrated one winding next to another; wherein the integrated magnet and the coil are arranged in a manner such that the coil is received in the hollow space inside the guide, and the shape of the inner surface of the guide directs the motion path of the integrated magnet. | 06-30-2011 |
20120313113 | PHOTOVOLTAIC ORGANIC LIGHT EMITTING DIODES DEVICE AND MANUFACTURING METHOD THEREOF - A photovoltaic organic light emitting diodes (PV-OLED) device and manufacturing method thereof are introduced. The PV-OLED device includes a substrate, a solar cell module, and a plurality of organic light emitting diodes. The solar cell module is disposed on a surface of the substrate. The organic light emitting diodes are disposed on the same surface of the substrate that the solar cell module is disposed on. The organic light emitting diode is electrically isolated from the solar cell module. The solar cell module can apply power to the organic light emitting diodes for emitting light. | 12-13-2012 |