Patent application number | Description | Published |
20080285189 | Electrostatic discharge protection device for an optical disc drive - An electrostatic discharge protection device for an optical disc drive is provided. A rail disposed on the casing of the disc drive has an opening. A guide bar is slidable disposed on the rail. A conductive elastic plate is fixed around the opening on the rail. The elastic plate has an elastic-pressing end leaning against the guide bar through the opening, and a protrusion electrically contacting the casing. A tray supported by the guide bar to move in and out of the casing has an underside covered by a protection bottom plate. A conductive strip-shaped elastic element is fixed on the tray by a fixing screw, which fastens the protection bottom plate on the tray. As such, the elastic element is in contact with the protection bottom plate; besides, the elastic element also leans against the guide bar, so as to dissipate electrostatic discharge by the guide bar. | 11-20-2008 |
20100032203 | PROTECTION DEVICE FOR PROTECTING A FLAT CABLE - The invention provides a protection device for protecting a flat cable in an optical disk drive. The protection device includes a casing, whereon a main board is fixed inside the casing, and an opening is formed at a front edge of the casing. The protection device further includes a tray disposed inside the casing in a slidable manner, a circuit board disposed on a bottom of the tray, the flat cable connected to the main board and the circuit board, a cover disposed on the bottom of the tray, and a support frame connected to the cover and protruding towards a rear of the casing. The support frame is disposed on the bottom of the tray and adjacent to a position, where the flat cable is connected to the circuit board, for holding the flat cable and preventing the flat cable from dropping. | 02-11-2010 |
Patent application number | Description | Published |
20130134652 | MULTI-FUNCTION PERIPHERAL - A multi-function peripheral (MFP) suited for printing/scanning a paper or a business card is provided. The MFP includes a body and a printing/scanning unit, a feeding roller, and a plurality of idle rollers disposed in the body. The body has a feeding path that the printing/scanning unit, the feeding roller, and the idle rollers are located thereon. The printing/scanning unit used for printing/scanning the paper or the business card on the feeding path. The idle rollers lean against the feeding roller respectively. A path length between two leaning points of any two adjacent idle rollers contacting the feeding roller is shorter than a size of the business card. | 05-30-2013 |
20130134666 | PAPER FEEDING DEVICE AND MULTI-FUNCTION PRINTER USING THE SAME - A paper feeding device and a multi-function printer using the same are provided. The paper feeding device includes a frame, a top cover, a set of gear chains, a power unit and a set of driving gears. The set of gear chains and the power unit are disposed on a side of the frame. The set of driving gears is disposed on the top cover. When the top cover is closed relatively to the frame, the set of driving gears interferes with the power unit, and the power unit provides a power to enable the set of driving gears to rotate, so as to drive the set of gear chains. When the top cover is opened relatively to the frame, the set of driving gears releases interference with the power unit and the set of gear chains, and the set of gear chains is at a free rotation status. | 05-30-2013 |
20130336696 | AUTOMATIC DOCUMENT FEEDER AND MEDIA RECORD EQUIPMENT USING THE SAME - An automatic document feeder and a media record equipment using the same are provided. The automatic document feeder includes a frame, a cover and a gear chain. An end of the cover pivoted to the frame has a cam. The gear chain disposed in the frame has multiple driven gears and a rotating unit. The driven gears engaged with each other rotate about a first axial direction. The rotating unit having a first rock arm contacting the cam and a second rock arm with one of the driven gears disposed thereon is capable of rotating about the first axial direction. The cam pushes the first rock arm to drive the rotating unit to rotate about the first axial direction, and then an engagement between the driven gear on the second rock arm is released by departing from another driven gear engaged therewith when the cover opens relative to the frame. | 12-19-2013 |
Patent application number | Description | Published |
20140160708 | LEAD STRUCTURE - A lead structure disposed on a substrate is provided. The substrate includes a display area disposed with a device and a peripheral area disposed with a lead structure including first pads, a second pad, first traces and a second trace. The first traces are connected to the device. Each first trace has a first linear portion and a first bonding portion connected together. Each first trace is electrically connected to one of the first pads through the first bonding portion. The second trace has a second linear portion and a second bonding portion connected together. The second trace is electrically connected to the second pad through the second bonding portion. A width of the first linear portion is smaller than a width of the first bonding portion, and a width of the second linear portion is smaller than a width of the second bonding portion. | 06-12-2014 |
20140184950 | TOUCH PANEL - A touch panel, having a peripheral region, includes a first substrate, a touch-sensing structure, first outer traces, a first ground wire and an outer device. The first outer trace is electrically connected to the touch-sensing structure. The first outer traces extend to a connection region in the peripheral region. The first ground wire extends to the connection region, and the first ground wire has at least one discontinuous section in the connection region. The outer device is electrically connected to the first ground wire and the first outer traces in the connection region. The outer device electrically connects two ends of the discontinuous section of the first ground wire in the connection region, and the two ends of the discontinuous section of the first ground wire are electrically connected via the outer device. | 07-03-2014 |
20140184952 | TOUCH PANEL - A touch panel, having a peripheral region, includes a first substrate, a plurality of first conductive series, a plurality of first outer traces, and an outer device. The first conductive series are disposed on the first substrate and extend along a first direction. The first outer traces are disposed in the peripheral region. Two ends of each of the first outer traces are respectively connected to two ends of the corresponding first conductive series. The first outer traces connected to the each of the first conductive series extend to a connection region within the peripheral region and include discontinuous sections within the connection region. The outer device is disposed in the peripheral region and is electrically connected to the first outer traces. Each of the first outer traces, each corresponding first conductive series, and the outer device in the connection region constitute a closed conductive path on the first substrate. | 07-03-2014 |
20140300835 | TOUCH PANEL - A touch panel, having a light transmission touch sensing region and a peripheral region adjacent to at least one side of the light transmission touch sensing region, includes an inner frame and a decoration frame disposed in the peripheral region. The peripheral region has an inner edge and an outer edge, wherein the inner edge is closer to the light transmission touch sensing region than the outer edge. The inner sidewall of the inner frame is disposed along the inner edge of the peripheral region. The decoration frame includes at least one decoration layer. The pattern of the decoration layer does not exceed the inner edge of the peripheral region. | 10-09-2014 |
20140362043 | TOUCH PANEL - The present invention discloses a touch panel, which includes a substrate, a plurality of first axis electrodes, a plurality of second axis electrodes and an insulation structure. The first axis electrodes are disposed on the substrate along a first direction and each of the first axis electrodes includes a plurality of first sub electrodes and a plurality of connection structures. Each of the connection structures is at least partially disposed between each of the first sub electrodes and the substrate, and is electrically connected to two adjacent first sub electrodes. Each of the connection structures includes a first metal layer and a low reflective layer disposed between the substrate and the first metal layer. The low reflective layer of the present invention is applied to reduce the visibility of the connection structures, as well as to enhance the reliability of the touch panel. | 12-11-2014 |
20150049263 | TOUCH DISPLAY DEVICE - A touch display device including a touch panel, a protection layer, a conductive optical adhesive layer and a display panel is provided. The touch panel includes a substrate, pads, at least one grounding pad, a touch-sensing device, and at least one ESD protection line. The touch panel includes a pad area and an active area. The pads and the grounding pad are disposed on the substrate and located in the pad area. The touch-sensing device is disposed on the substrate and located in the active area. The ESD protection line is disposed on the substrate and located at a side of the active area. The protection layer including a first opening covers the touch panel and a portion of the pad area is exposed by the first opening. The conductive optical adhesive layer is disposed on the protection layer and electrically connected to the ESD protection circuit. | 02-19-2015 |
Patent application number | Description | Published |
20110169056 | HYDROGEN ION-SENSITIVE FIELD EFFECT TRANSISTOR AND MANUFACTURING METHOD THEREOF - A hydrogen ion-sensitive field effect transistor and a manufacturing method thereof are provided. The hydrogen ion-sensitive field effect transistor includes a semiconductor substrate, an insulating layer, a transistor gate, and a sensing film. A gate area is defined on the semiconductor substrate having a source area and a drain area. The insulating layer is formed within the gate area on the semiconductor substrate. The transistor gate is deposited within the gate area and includes a first gate layer. Further, the first gate layer is an aluminum layer, and a sensing window is defined thereon. The sensing film is an alumina film formed within the sensing window by oxidizing the first gate layer. Thus, the sensing film is formed without any film deposition process, and consequently the manufacturing method is simplified. | 07-14-2011 |
20130146899 | CMOS SENSOR WITH IMAGE SENSING UNIT INTEGRATED THEREIN - A complementary metal-oxide semiconductor (CMOS) sensor with an image sensing unit integrated therein is provided. The CMOS sensor includes a first substrate, a CMOS circuit, and a sensing device. The first substrate has the image sensing unit formed thereon. The CMOS circuit is disposed on the first substrate and has a receiving space. The sensing device is disposed in the receiving space. The image sensing unit is located at a position from which the image sensing unit can monitor the sensing device. Accordingly, the image sensing unit monitors the sensing device by sensing its image. | 06-13-2013 |
20130153969 | STRUCTURE FOR MOSFET SENSOR - A structure for a metal-oxide-semiconductor field-effect transistor (MOSFET) sensor is provided. The structure includes a MOSFET, a sensing membrane, and a reference electrode. The reference electrode and the sensing membrane are formed on the first surface of the MOSFET and are arranged in such a way that the reference electrode and the sensing membrane are uniformly and electrically coupled to each other. Thus, the electric field between the sensing membrane and the reference electrode is uniformly distributed therebetween to stabilize the working signal of the MOSFET sensor. | 06-20-2013 |
Patent application number | Description | Published |
20100099582 | Biochip Package Structure - A biochip package structure is provided. The biochip package structure includes a substrate, a biochip, at least one wire, and a molding compound. The substrate has a circuit unit electrically connected, by wiring, to the biochip defined with a sensing region. The molding compound covers the wire but leaves the sensing region of the biochip exposed, allowing a cavity to be formed in the sensing region. The cavity delivers a biomedical sample. The biomedical sample reacts in the sensing region. Thus, the biochip package structure is applicable to various medical and biochemical assays. | 04-22-2010 |
20110133256 | CMOS-MEMS Cantilever Structure - The present invention discloses a CMOS-MEMS cantilever structure. The CMOS-MEMS cantilever structure includes a substrate, a circuit structure, and a cantilever beam. The substrate has a circuit area and a sensor unit area defined thereon. The circuit structure is formed in the circuit area. The cantilever beam is disposed in the sensor unit area with one end floating above the substrate and the other end connecting to the circuit structure. With the above arrangement, the manufacturing process of CMOS-MEMS cantilever structure of this invention can be simplified. Furthermore, the structure of the cantilever beam is thinned down and therefore has a higher sensitivity. | 06-09-2011 |