Patent application number | Description | Published |
20100143657 | HIGH-TEMPERATURE-DURABLE OPTICAL FILM STRUCTURE AND FABRICATION METHOD THEREOF - A high-temperature-durable optical film structure and its fabricating method are provided. The optical film structure is formed by covering a surface of a substrate with an optical layer structure and forming a plurality of passage structures on the optical layer structure to divide the optical layer structure into a plurality of optical blocks. The passage structures can be used as a space of releasing the thermal stress to prevent the film deformation and peeling. | 06-10-2010 |
20100148148 | FABRICATION METHOD OF A LIGHT-EMITTING ELEMENT AND THE LIGHT-EMITTING ELEMENT - A fabrication method of the light emitting element and its light emitting element are disclosed herein. It utilizes the membrane forming technology to form optic films arranged in array on a substrate and then upward forming the epitaxial layer by the epitaxial lateral overgrowth (ELOG) technology so as to form light-emitting elements in array. The optic films contribute to the high reflection property and can sustain high temperature in the ELOG process. | 06-17-2010 |
20100203245 | FABRICATION METHOD OF A PHOTONIC CRYSTAL STRUCTURE - A method for fabricating a photonic crystal structure is disclosed herein for forming a cavity-type or a pillar type photonic crystal structure of a large area. By the property that a hetero-interface inhibits epitaxial growth, a patterned film layer is formed over the epitaxy substrate, so a photonic crystal structure is grown vertically by epitaxy in area outside of the patterned film layer on the epitaxy substrate. Furthermore, by designing the pattern of the patterned film, a defect mode photonic crystal structure such as an optical waveguide, an optical resonator and a beam splitter can be formed. | 08-12-2010 |
20120175654 | LIGHT EMITTING DEVICE HAVING AUTO-CLONING PHOTONIC CRYSTAL STRUCTURES AND MANUFACTURING METHOD THEREOF - A light emitting device having auto-cloning photonic crystal structures comprises a substrate, a first semiconductor layer, an active emitting layer, a second semiconductor layer and a saw-toothed multilayer film comprising auto-cloning photonic crystal structures. The saw-toothed multilayer film provides a high reflection interface and a diffraction mechanism to prevent total internal reflection and enhance light extraction efficiency. The manufacturing methods of the light emitting device having auto-cloning photonic crystal structures are also presented. | 07-12-2012 |
20120299034 | COLLIMATING LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - A collimating light emitting device comprises a patterned optical layer able to redirect divergent light to light beam with uniform direction without utilizing external lenses thereby decreasing the size. The collimating light emitting device of the present invention may be utilized as a micro array projection device. The patterned optical layer may also be utilized in a single-die light-emitting device, thereby enhancing collimation. The manufacturing methods of the collimating light emitting device are also presented. | 11-29-2012 |
20130270598 | LIGHT EMITTING DEVICE HAVING AUTO-CLONING PHOTONIC CRYSTAL STRUCTURES - A light emitting device having auto-cloning photonic crystal structures comprises a substrate, a first semiconductor layer, an active emitting layer, a second semiconductor layer and a saw-toothed multilayer film comprising auto-cloning photonic crystal structures. The saw-toothed multilayer film provides a high reflection interface and a diffraction mechanism to prevent total internal reflection and enhance light extraction efficiency. | 10-17-2013 |
20130273681 | MANUFACTURING METHOD OF LIGHT EMITTING DEVICE HAVING AUTO-CLONING PHOTONIC CRYSTAL STRUCTURES - A light emitting device having auto-cloning photonic crystal structures comprises a substrate, a first semiconductor layer, an active emitting layer, a second semiconductor layer and a saw-toothed multilayer film comprising auto-cloning photonic crystal structures. The saw-toothed multilayer film provides a high reflection interface and a diffraction mechanism to prevent total internal reflection and enhance light extraction efficiency. The manufacturing method of the light emitting device having auto-cloning photonic crystal structures is presented here. | 10-17-2013 |
20140319558 | LIGHT EMITTING DEVICE - This disclosure discloses a light-emitting device. The light-emitting device comprise a light-emitting stack having a first-type semiconductor layer, a second-type semiconductor layer, and an active formed between the first-type semiconductor layer and the second-type semiconductor layer and emitting a light; and a reflective structure formed on the first-type semiconductor layer and having a first interface and a second interface; wherein the critical angle of the light at the first interface is larger than that at the second interface; and wherein the reflective structure ohmically contacts the first-type semiconductor layer at the first interface. | 10-30-2014 |
Patent application number | Description | Published |
20090091983 | NON-VOLATILE MEMORY STRUCTURE AND ARRAY THEREOF - A non-volatile memory structure including a substrate, stacked patterns and stress patterns is provided. The stacked patterns are disposed on the substrate. Each of the stacked patterns includes a charge storage structure and a gate from bottom to top. Here, the charge storage structure at least includes a charge storage layer. The stress patterns are disposed on the substrate between the two adjacent stacked patterns, respectively. | 04-09-2009 |
20130328119 | NON-VOLATILE MEMORY AND MANUFACTURING METHOD THEREOF - A non-volatile memory and a manufacturing method thereof are provided. The non-volatile memory includes a gate dielectric layer, a floating gate, a control gate, an inter-gate dielectric structure and two doped regions. The gate dielectric layer is disposed on a substrate. The floating gate is disposed on the gate dielectric layer. The control gate is disposed on the floating gate. The inter-gate dielectric structure is disposed between the control gate and the floating gate. The inter-gate dielectric structure includes a first oxide layer, a second oxide layer and a charged nitride layer. The first oxide layer is disposed on the floating gate. The second oxide layer is disposed on the first oxide layer. The charged nitride layer is disposed between the first oxide layer and the second oxide layer. The doped regions are disposed in the substrate at two sides of the floating gate, respectively. | 12-12-2013 |
20140127894 | MANUFACTURING METHOD OF NON-VOLATILE MEMORY - The present invention provides a manufacturing method of a non-volatile memory including forming a gate dielectric layer on a substrate; forming a floating gate on the gate dielectric layer; forming a first charge blocking layer on the floating gate; forming a nitride layer on the first charge blocking layer; forming a second charge blocking layer on the nitride layer; forming a control gate on the second charge blocking layer; and performing a treatment to the nitride layer to get a higher dielectric constant. | 05-08-2014 |
Patent application number | Description | Published |
20090140280 | Light-emitting device - A light-emitting device comprises a substrate, an epitaxial structure formed on the substrate including a first semiconductor layer, a second semiconductor layer, and a light-emitting layer formed between the first semiconductor layer and the second semiconductor layer. A trench is formed in the epitaxial structure to expose a part of side surface of the epitaxial structure and a part of surface of the first semiconductor layer, so that a first conductive structure is formed on the part of surface of the first semiconductor layer in the trench, and a second conductive structure is formed on the second semiconductor layer. The first conductive structure includes a first electrode and a first pad electrically contacted with each other. The second conductive structure includes a second electrode and a second pad electrically contacted with each other. Furthermore, the area of at least one of the first pad and the second pad is between 1.5×10 | 06-04-2009 |
20120211794 | LIGHT-EMITTING DEVICE - This disclosure discloses a light-emitting device. The light-emitting device comprises: a light-emitting stack having an upper surface and a lower surface; a pad, arranged on the upper surface, comprising: a first bonding region; and a second bonding region physically connected to the first bonding region through a connecting region having a connecting width; a first electrode connected to the first bonding region; a second electrode connected to the second bonding region; and a third electrode extending from the pad and arranged between the first electrode and the second electrode. At least one of the first electrode, the second electrode, and the third electrode has a width smaller than the connecting width. | 08-23-2012 |
20140084324 | LIGHT-EMITTING DEVICES - A light-emitting device of an embodiment of the present application comprises a semiconductor layer sequence provided with a first main side, a second main side, and an active layer; a beveled trench formed in the semiconductor layer sequence, having a top end close to the second main side, a bottom end, and an inner sidewall connecting the top end and the bottom end. In the embodiment, the inner sidewall is an inclined surface. The light-emitting device further comprises a dielectric layer disposed on the inner sidewall of the beveled trench and the second main side; a first metal layer formed on the dielectric layer; a carrier substrate; and a first connection layer connecting the carrier substrate and the semiconductor layer sequence. | 03-27-2014 |
20140367733 | LIGHT-EMITTING DEVICE - A light-emitting device comprises: a light-emitting stack having an upper side, a first edge having an end point, and a second edge opposite to the first edge; a first bonding region arranged on the upper side, near the first edge, and far from the end point; a second bonding region separated from to the first bonding region by a first distance and being far from the end point; a third bonding region arranged on the upper side; a fourth bonding region separated from the third bonding region by a second distance longer than the first distance; a first electrode connected to the first bonding region; a second electrode connected to the second bonding region; a third electrode connected to the third bonding region; a fourth electrode connected to the fourth bonding region; and a fifth electrode connected to the first bonding region and pointing to the fourth bonding region. | 12-18-2014 |
20150236208 | LIGHT-EMITTING DEVICES - A light-emitting device comprises a semiconductor layer sequence comprising a first semiconductor layer having a first electrical conductivity, a second semiconductor layer having a second electrical conductivity, and an active layer interposed between the first semiconductor layer and the second semiconductor layer; a plurality of protruding structures; a plurality of beveled trenches in the semiconductor layer sequence and respectively accommodating the plurality of protruding structures; a dielectric layer on the second semiconductor layer and an inner sidewall of the plurality of beveled trenches, wherein the dielectric layer comprises a surface perpendicular to a thickness direction of the semiconductor layer sequence; a metal layer formed along the inner sidewall of the plurality of beveled trenches and extending to the surface of the dielectric layer, wherein the metal layer is insulated from the second semiconductor layer by the dielectric layer; and a first electrode formed on the plurality of protruding structures. | 08-20-2015 |
Patent application number | Description | Published |
20120211634 | SUPPORTING PEDESTAL AND RELATED ANTENNA SYSTEM - A supporting pedestal capable of adjusting an azimuth angle of an antenna system is disclosed in the present invention. The angle adjusting mechanism includes a main body and a tube. The main body includes a base, a first board and a second board. The first board and the second board are respectively disposed on two sides of the base. A first pivot hole and a first slot are formed on the first board. A second pivot hole is formed on the second board. The main body further includes a strengthening rib disposed on an edge of the base and connecting the first and second boards for preventing the first and second boards from bending relative to the base. The first and second pivot holes are respectively formed on the sides of the first and second boards adjacent to the strengthening rib. The tube pivots relative to the main body. | 08-23-2012 |
20120212393 | SCREW MECHANISM FOR ADJUSTING AN ANGLE OF AN ANTENNA MODULE AND RELATED ANTENNA SYSTEM - A screw mechanism for adjusting an angle of an antenna module is disclosed in the present invention. The screw mechanism includes a screw rod. The screw rod includes a rod portion. A thread is formed on a first area of the rod portion. An annular protrusion is formed on a second area of the rod portion, and an outer diameter of the annular protrusion is greater than an outer diameter of the rod portion. The screw rod further includes a handle disposed on an end of the rod portion adjacent to the second area. The screw mechanism further includes an accommodating component whereon a sunken part is formed. The sunken part is for accommodating the annular protrusion of the screw rod. The screw mechanism further includes a screw having a side hole. The screw is installed on the first area of the screw rod and moves along the thread. | 08-23-2012 |
20140084121 | CLAMPING MECHANISM WITH EASY ASSEMBLY AND ANTENNA DEVICE THEREWITH - A clamping mechanism includes a clamping member, a first fixing member, a second fixing member, a shaft, a first adjusting member, a second adjusting member and a handle. The clamping member encloses a supporting tube. The first fixing member and the second fixing member are connected to the clamping member, respectively. The shaft is disposed through the first fixing member and the second fixing member. The first adjusting member, connected to the shaft, abuts against the first fixing member. The second adjusting member, connected to the shaft, cooperates with the first adjusting member for driving the second fixing member to move relative to the first fixing member along the shaft. The handle, pivoted to the second fixing member, abuts against the second fixing member for pressing the second fixing member to approach the first fixing member, so as to force the clamping member to clamp the supporting tube. | 03-27-2014 |
20140084127 | BRIDGING MECHANISM FOR CONNECTING A SUPPORTING TUBE AND A HOLDER AND ANTENNA DEVICE THEREWITH - A bridging mechanism, for connecting a supporting tube and a holder, includes at least one positioning portion, a bridging member, a connecting member, a handle and at least one positioning structure. The at least one positioning portion is formed on the supporting tube. The bridging member is used for bridging the supporting tube. The connecting member extends from the bridging member for connecting the holder. The handle is pivoted to the bridging member for rotably pressing the supporting tube when the supporting tube is bridged to the bridging member, so as to abut the supporting tube against the bridging member. The at least one positioning structure is formed on the handle. The at least one positioning structure simultaneously rotates with the handle for wedging with the at least one positioning portion when the handle rotates to press the supporting tube to position the bridging member on the supporting tube. | 03-27-2014 |