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Ming-Chang
Ming-Chang Chiang, Bali Shiang TW
| Patent application number | Description | Published |
|---|---|---|
| 20110194886 | CORNER JOINT OF A FRAME FOR FIXING A SOLAR PANEL - A corner joint of a frame for fixing a solar panel disposed between two adjacent frame pieces of the frame includes an L shaped member and a sheath. Two ends of the L shaped member separately extend to one corresponding frame piece of the two adjacent frame pieces to form an extending arm plugged into a latching slot defined in an end of the corresponding frame piece. The L shaped member further includes a bending portion defining a mortise extending to the extending arm. The sheath includes two adjacent joint surfaces for abutting the two adjacent frame pieces. The sheath defines an upper receiving space and a lower receiving space therein. The upper receiving space and the lower receiving space are separately exposed from the joint surfaces. The upper receiving space and the lower receiving space are configured for receiving a corner of the solar panel and the bending portion, respectively. The sheath further includes a tenon capable of being plugged into the mortise and received in the latching slot such that the sheath joins the L shaped member and the solar panel. The corner joint can be easily molded and the manufacturing cost thereof is low. | 08-11-2011 |
Ming-Chang Hsieh, Jhudong Township TW
| Patent application number | Description | Published |
|---|---|---|
| 20110084391 | Reducing Device Mismatch by Adjusting Titanium Formation - An integrated circuit structure includes a semiconductor substrate; a first titanium layer over the semiconductor substrate, wherein the first titanium layer has a first thickness less than 130 ā«; a first titanium nitride layer over and contacting the first titanium layer; and an aluminum-containing layer over and contacting the first titanium nitride layer. | 04-14-2011 |
Ming-Chang Hsu, Douliou City (yunlin County) TW
Ming-Chang Hsu, Hsinchu TW
| Patent application number | Description | Published |
|---|---|---|
| 20090145753 | Biomechanical test system, measurement device, and biochemical test strip - A biochemical test system, a measurement device, and a biochemical test strip are provided. The biochemical test strip includes an insulating substrate, an electrode system disposed on the insulating substrate, and an identifying unit disposed on one side of the insulating substrate. The identifying unit includes N components, and at least one of the N components includes a groove. It should be noted that the term āNā in this specification is an integer greater than two. The measurement device includes a microprocessor and a connector, wherein the connector is coupled to the identifying unit for receiving a signal of an identification code corresponding to the identifying unit, and the microprocessor is coupled to the connector for receiving the signal from the connector. | 06-11-2009 |
Ming-Chang Huang, Taoyuan County TW
| Patent application number | Description | Published |
|---|---|---|
| 20100134233 | INDUCTOR AND METHOD FOR MAKING THE SAME - An inductor includes: an inductive coil having a coil portion and two extension legs; a magnetic pillar including a pillar portion that is inserted into the coil portion and that has an upper end projecting upwardly from the inductive coil, and a flange portion radially projecting from the upper end of the pillar portion, the flange portion pressing against an upper end of the coil portion; and an embedding body in which the coil portion and the magnetic pillar are embedded, the extension legs being exposed from the embedding body. | 06-03-2010 |
Ming-Chang Kao, Bali Township TW
| Patent application number | Description | Published |
|---|---|---|
| 20100164040 | Microlens Structure for Image Sensors - A microlens structure and a method of fabrication thereof are provided. The method comprises forming a layer of microlens material over a substrate, which has photo-sensitive elements formed therein. The microlens material, which comprises a photo-resist material, is exposed in accordance with a desired pattern a plurality of times. The energy used with each exposure process is less than the energy required if a single exposure is used. Furthermore, the masks used for each exposure may differ. In an embodiment, the masks are varied so as to create a notch in the upper corner of the microlens. The microlens structure may have a height less than about 0.5 um and/or a gap between microlenses less than about 0.2 um. In an embodiment, one or more dielectric layers having a combined thickness greater than about 3.5 um are interposed between the photo-sensitive elements and the microlenses. | 07-01-2010 |