Tzu-Ying
Tzu-Ying Chen, Taipei City TW
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20120080218 | TRANSPARENT CONDUCTIVE FILM HAVING HIGH OPTICAL TRANSMITTANCE AND METHOD FOR MANUFACTURING THE SAME - The present invention pertains to a transparent conductive film including a conductive layer having different thicknesses so as to increase the optical transmittance while maintaining the conductivity of the transparent conductive film. The present invention also pertains to a process for the preparation of the above-mentioned transparent conductive film. | 04-05-2012 |
20120114903 | METHOD FOR FORMING A MICROSTRUCTURE - A method for forming a microstructure includes: (a) forming a photocurable layer on a substrate, the photocurable layer including at least one photocurable compound that has a photocurable functional group equivalent weight ranging from 70 to 700 g/mol; (b) covering partially the photocurable layer using a patterned mask; (c) exposing the photocurable layer through the patterned mask using a first light source so that the photocurable layer is cured at first regions which are exposed; (d) removing the patterned mask; and (e) illuminating the photocurable layer using a second light source to cure second regions of the photocurable layer which have not been cured. The first and second regions have different surface heights and provide a surface roughness for the microstructure. | 05-10-2012 |
Tzu-Ying Chen, Tainan City TW
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20140083855 | BIO-CHIP AND METHOD FOR SEPARATING AND CONCENTRATING PARTICLES USING THE SAME - A bio-chip adapted for separating and concentrating particles in a solution includes a chip body defining a receiving space therein for receiving the solution, an inner electrode disposed in the receiving space, an outer electrode unit disposed in the receiving space of the chip body and including a first outer electrode that is spaced apart from and surrounds the inner electrode, and a second outer electrode that is spaced apart from and surrounds the first outer electrode, and a power source electrically connected to the inner electrode, the first outer electrode, and the second outer electrode. A method for using the bio-chip to separating and concentrating the particles in the solution is also disclosed in the present invention. | 03-27-2014 |
Tzu-Ying Kuo, Taipei City TW
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20090283872 | PACKAGE STRUCTURE OF THREE-DIMENSIONAL STACKING DICE AND METHOD FOR MANUFACTURING THE SAME - This invention provides a package structure of three-dimensional stacking dice and its manufacturing method. This invention employs the Through-Silicon-Vias (TSVs) technology to establish vertical electrical connection of the three-dimensional stacking dice and a redistribution layer between a blind hole-on-pad and a vertical through hole formed by the TSVs technology to direct the electrical connection from a first surface to an opposite second surface of this structure. In addition, this invention employs a conductive bump completely covering the pads jointed together between the stacking dice to avoid breakage of the pads. The reliability of the three-dimensional stacking dice of the present invention is increased. | 11-19-2009 |
20100032830 | THREE-DIMENSIONAL CONDUCTING STRUCTURE AND METHOD OF FABRICATING THE SAME - The three-dimensional conducting structure comprises a substrate, a first redistributed conductor, a second redistributed conductor and an insulator. The substrate has an active surface, a passive surface opposite to the active one, a pad on the active surface and a through hole. The first redistributed conductor comprises a projecting portion and a receiving portion. The projecting portion is projected from the active surface and electrically connected to the pad. The receiving portion is outside the active surface and in contact with the projecting portion, both of which constitute a recess communicating with the through hole. The second redistributed conductor is positioned within the through hole and the recess, in contact with the receiving portion, and extended toward the passive surface along the through hole. The insulator is filled between the second redistributed conductor and the substrate and between the second redistributed conductor and the projecting portion. | 02-11-2010 |
20120133046 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure and a process thereof are provided. The semiconductor structure includes a semiconductor wafer having a first surface and a second surface opposite to the first surface, through silicon vias and a crack stopping slot. The through silicon vias are embedded in the semiconductor wafer and connected between the first surface and the second surface. The crack stopping slot is located in the periphery of the second surface of the semiconductor wafer. The depth of the crack stopping slot is less than or equal to the thickness of the semiconductor wafer. The process firstly provides a semiconductor wafer having through silicon vias. Then, the aforementioned crack stopping slot is formed at a back side of the semiconductor wafer opposite to the first surface. Next, the semiconductor wafer is thinned from the back side to expose a second end of each through silicon via. | 05-31-2012 |
Tzu-Ying Liao, Yongkang City TW
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20100038949 | ADJUSTABLE CHAIR HEADREST FRAME - An adjustable chair headrest frame includes a headrest provided with a pivotal frame at the rear side. A support frame is pivotally assembled with the pivotal frame of the headrest, having its inner side formed with a recessed face having its outer periphery fixed with plural female-thread studs. An adjusting device is combined at the inside of the support frame, composed of a fit plate, plural stop blocks, a holding plate, springs and a back plate. A combining plate is threadably combined with the fit plate of the adjusting device and assembled at the rear side of a chair. By so designing, the headrest frame can be adjusted upward or downward, and the headrest can be adjusted and positioned at different angles. | 02-18-2010 |
Tzu-Ying Wu, Chubei City TW
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20100283617 | DIAPER ALARM SYSTEM - A diaper alarm system, comprising: at least a diaper, and an alarm system. Wherein, in each diaper is provided with a sensor and a transmitter. Said sensor and said transmitter are located inside said diaper, said sensor is printed on a urine-gathering region and an excrement-gathering region inside said diaper, such that the sensor is connected to the transmitter wirelessly, thus said sensor is able to utilize said transmitter to send out detection signals. Said alarm system includes a receiver, which is connected to said transmitter through transmission of telecommunication signals. On receiving a detection signal by said receiver, said alarm system will determine whether to send out an alarm based on said detection signal. | 11-11-2010 |
Tzu-Ying Wu, Taipei City TW
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20080220218 | Ornamental soft solid magnet and a manufacturing method thereof - An ornamental soft solid magnet and a manufacturing method thereof. The soft solid magnet includes at least one magnetic substrate made of magnetic material and a facial layer with figures or characters. The facial layer is combined with the substrate to form an integrated sheet body. The sheet body is mold-pressed by a mold set to form the ornamental soft solid magnet. The mold set includes an upper mold section and a lower mold section made of soft material. The upper mold section is preformed with recessed/embossed figures or characters in accordance with the figures or characters of the facial layer. After pressed, the sheet body is placed on a magnetically attractive surface, whereby after the sheet body is cooled and patterned, the sheet body keeps in a plane state without shrinking, curving or deforming. | 09-11-2008 |
20090019714 | Balance Unit with Direction-Setting Function - A balance unit with direction-setting function, including a support element positioned on a preset locating face, the support element having a contact section; a balance element having a contact section at its gravity center for contacting with the contact section of the support element by very little frictional coefficient, the balance element having a direction-indicating section; and a magnetic element connected with the balance element. By means of the interaction between the magnetic element and terrestrial magnetism, the balance element can overcome the little frictional force between the balance element and the support element, whereby the direction-indicating section of the balance element can naturally move to indicate a preset direction. | 01-22-2009 |