Abstract: A display panel including a pixel array region. The pixel array region includes a plurality of pixel cells disposed in a matrix configuration. Each pixel cell has an active device. A relative position of a first active device in a first pixel cell among the pixel cells is different from that of a second active device in a second pixel cell among the pixel cells.

Abstract: An oscillator including a high tone bulk acoustic resonator (HBAR), a film bulk acoustic resonator (FBAR) filter and a method of fabrication are described.

Abstract: A picture element for an electro-luminescent display comprises a substrate, a first intermediate structure disposed above a first area of the substrate, at least one first color type electro-luminescent device disposed above the first intermediate structure, a second intermediate structure disposed above a second area of the substrate, and at least one second color type electro-luminescent device disposed above the second intermediate structure. The second intermediate structure is different from the first intermediate structure.

Abstract: The present invention relates to a WSSV peptide, which comprises a peptide sequence as set forth in SEQ ID NO: 1 and can be used as target peptide for WSD immunodetection in crustaceans. In addition, the present invention also provides a WSSV nucleotide sequence, which comprises a nucleotide sequence encoding the peptide sequence as set forth in SEQ ID NO: 1, and can be used as a detection target for WSD in crustaceans. On the other hand, the present invention can be applied in a WSSV detection method using the peptide or nucleotide sequences as targets. The WSSV peptide of the present invention is highly expressed in the hosts. The sensitivities of the WSSV detection using the target peptide in the invention are therefore greatly increased in comparison to the traditional detection target.

Abstract: A picture element for an electro-luminescent display comprises a substrate, a first intermediate structure disposed above a first area of the substrate, at least one first color type electro-luminescent device disposed above the first intermediate structure, a second intermediate structure disposed above a second area of the substrate, and at least one second color type electro-luminescent device disposed above the second intermediate structure. The second intermediate structure is different from the first intermediate structure.

Abstract: A detectable flat panel display and a recognition system therefor. The detectable flat panel display includes a substrate including a circuit region and a display region, a circuit device disposed on the circuit region of the substrate, a display device disposed in the display region of the substrate, and a metal pattern. The metal pattern can be formed in the circuit or display region and can reflect light such that the reflected light is detectable by recognition equipment.

Abstract: The present invention relates to a WSSV peptide, which comprises a peptide sequence as set forth in SEQ ID NO: 1 and can be used as target peptide for WSD immunodetection in crustaceans. In addition, the present invention also provides a WSSV nucleotide sequence, which comprises a nucleotide sequence encoding the peptide sequence as set forth in SEQ ID NO: 1, and can be used as a detection target for WSD in crustaceans. On the other hand, the present invention can be applied in a WSSV detection method using the peptide or nucleotide sequences as targets. The WSSV peptide of the present invention is highly expressed in the hosts. The sensitivities of the WSSV detection using the target peptide in the invention are therefore greatly increased in comparison to the traditional detection target.

Abstract: A full color LED display, comprised a plurality of full color luminant units, is characteristic of: each of the full color luminant units comprises four LEDs distributed in a cross type; each of the LEDs has a polygon top; each space between any two adjacent LEDs of the LEDs is smaller than or equal to 1.2 millimeters; and each space between any two adjacent full color luminant units of the full color luminant units is smaller than or equal to 8 millimeters. The full color luminant unit comprises two red LED, one green LED and one blue LED while the LEDs are full-length LEDs. Moreover, a LED panel's virtual pixel technology is applied for the full color LED display so that the full color LED display has higher image density, better signal mixing, and higher resolution thereof.

Abstract: Methods of forming thin film devices with different electrical characteristics on a substrate comprising a driver circuit region and a pixel region. A first and a second polysilicon pattern layers are formed on the driving circuit region and the pixel region of the substrate, respectively. A first ion implantation is performed on the second polysilicon pattern layer using a masking layer covering the first polysilicon pattern layer as an implant mask, such that the first polysilicon pattern layer has an impurity concentration different from the second polysilicon pattern layer. After removal of the masking layer, a gate dielectric layer and a gate are successively formed on each of the first and second polysilicon pattern layers and a source/drain region is subsequently formed in each of the first and second polysilicon pattern layers to define a channel region therein.

Abstract: A compact camera module includes multiple hollow cylinders, a voice coil motor and a torsion spring. An intervening cylinder is mounted on a base. An upright rail is disposed on the intervening cylinder and perpendicular to a support plane of the base. An inner cylinder has a zoom lens inside and at least one moving component, wherein the inner cylinder is disposed in a hollow space of the intervening cylinder and the moving component slides within the upright rail. An outer cylinder is disposed around the intervening cylinder. The outer cylinder has a sloping rotational rail supporting the moving component. A wire coil is secured around the outer cylinder. A torsion spring encircles the outer cylinder and is secured to the base and the wire coil at two ends. A magnet-generating device is disposed around the wire coil and secured on the base.

Abstract: Methods of forming thin film devices with different electrical characteristics on a substrate comprising a driver circuit region and a pixel region. A first and a second polysilicon pattern layers are formed on the driving circuit region and the pixel region of the substrate, respectively. A first ion implantation is performed on the second polysilicon pattern layer using a masking layer covering the first polysilicon pattern layer as an implant mask, such that the first polysilicon pattern layer has an impurity concentration different from the second polysilicon pattern layer. After removal of the masking layer, a gate dielectric layer and a gate are successively formed on each of the first and second polysilicon pattern layers and a source/drain region is subsequently formed in each of the first and second polysilicon pattern layers to define a channel region therein.

Abstract: The present invention discloses a method for fabricating a pixel area of an electro-luminescent display device. At least one buffer layer is formed on a substrate. An etch stop layer is formed on the buffer layer. At least one intermediate layer is formed over the etch stop layer. The intermediate layer is etched to expose the etch stop layer, which has an etch rate substantially selective against that of the intermediate layer. The etch stop layer is etched to expose the buffer layer, which has an etch rate substantially selective against that of the etch stop layer, thereby improving an level uniformity of the exposed buffer layer.

Abstract: In an active matrix organic light emitting diode (AMOLED) display panel having an improved OLED circuit layout in the TFT back panel, the AMOLED pixels in the AMOLED pixel array are arranged to have the TFT circuit portions of the AMOLED pixels in clustered regions so that each pulse of laser beam during laser annealing of the amorphous silicon film irradiates mostly TFT circuit portions, thus, allowing more efficient laser annealing process.

Abstract: A scanning device includes a base, a transparent platen above the base, a left sloped plate connecting a left platen edge of the transparent platen to a left base edge of the base, a right sloped plate connecting a right platen edge of the transparent platen to a right base edge of the base, and a scanning module below the transparent platen. The left sloped plate and the right sloped plate are disposed at two opposite sides of the transparent platen. A left angle between the left sloped plate and the transparent platen and a right angle between the right sloped plate and the transparent platen are greater than 90 degrees. The scanning module is movable along a direction parallel to the right platen edge and the left platen edge so as to acquire an image of a document placed on the transparent platen.

Abstract: A top emission type electro-luminescent display device comprising a thin film transistor, an opaque electrode, an opaque layer, and an electro-luminescent medium layer. The thin film transistor overlies a substrate and is covered by an interlayer insulator. The opaque electrode and the opaque layer are successively disposed on the interlayer insulator, in which the opaque electrode is electrically connected to the thin film transistor and the opaque layer comprises an opening exposing a portion of the underlying opaque electrode. The electro-luminescent medium layer is disposed over the exposed portion of the opaque electrode. The transparent electrode is disposed on the opaque layer and conformally covers the surfaces of the opening and the electro-luminescent medium layer.

Abstract: Methods of forming thin film devices with different electrical characteristics on a substrate comprising a driver circuit region and a pixel region. A first and a second polysilicon pattern layers are formed on the driving circuit region and the pixel region of the substrate, respectively. A first ion implantation is performed on the second polysilicon pattern layer using a masking layer covering the first polysilicon pattern layer as an implant mask, such that the first polysilicon pattern layer has an impurity concentration different from the second polysilicon pattern layer. After removal of the masking layer, a gate dielectric layer and a gate are successively formed on each of the first and second polysilicon pattern layers and a source/drain region is subsequently formed in each of the first and second polysilicon pattern layers to define a channel region therein.

Abstract: An active matrix organic electroluminescence display device capable of maintaining the brightness of the organic light emitting diode. The active matrix organic electroluminescence display device comprises a thin film transistor and an organic light emitting diode. By improving the structure of the passivation layer of the thin film transistor to reduce the leakage current occurring in the TFT, the brightness of the organic light emitting diode can be stably maintained.

Abstract: The present invention discloses a method for fabricating a pixel area of an electro-luminescent display device. At least one buffer layer is formed on a substrate. An etch stop layer is formed on the buffer layer. At least one intermediate layer is formed over the etch stop layer. The intermediate layer is etched to expose the etch stop layer, which has an etch rate substantially selective against that of the intermediate layer. The etch stop layer is etched to expose the buffer layer, which has an etch rate substantially selective against that of the etch stop layer, thereby improving an level uniformity of the exposed buffer layer.

Abstract: A display panel including a pixel array region. The pixel array region includes a plurality of pixel cells disposed in a matrix configuration. Each pixel cell has an active device. A relative position of a first active device in a first pixel cell among the pixel cells is different from that of a second active device in a second pixel cell among the pixel cells.

Abstract: A display pixel having higher aperture ratio and method of fabricating the same. The method of fabricating a display pixel in accordance with the invention includes the steps of providing a substrate and simultaneously forming a transistor and a rugged capacitor on adjacent portions thereof, wherein the rugged capacitor comprises a first conductive layer, a dielectric layer and a second conductive layer stacked over the substrate, respectively having a rugged surface. An organic light emitting diode (OLED) is then formed on a portion of the substrate adjacent to the transistor, wherein an anode thereof electrically connects to the transistor.