Patent application number | Description | Published |
20090273034 | Source/Drain Carbon Implant and RTA Anneal, Pre-SiGe Deposition - A semiconductor device system, structure, and method of manufacture of a source/drain to retard dopant out-diffusion from a stressor are disclosed. An illustrative embodiment comprises a semiconductor substrate, device, and method to retard sidewall dopant out-diffusion in source/drain regions. A semiconductor substrate is provided with a gate structure, and a source and drain on opposing sides of the gate structure. Recessed regions are etched in a portion of the source and drain. Doped stressors are embedded into the recessed regions. A barrier dopant is incorporated into a remaining portion of the source and drain. | 11-05-2009 |
20110027955 | Source/Drain Carbon Implant and RTA Anneal, Pre-SiGe Deposition - A semiconductor device system, structure, and method of manufacture of a source/drain to retard dopant out-diffusion from a stressor are disclosed. An illustrative embodiment comprises a semiconductor substrate, device, and method to retard sidewall dopant out-diffusion in source/drain regions. A semiconductor substrate is provided with a gate structure, and a source and drain on opposing sides of the gate structure. Recessed regions are etched in a portion of the source and drain. Doped stressors are embedded into the recessed regions. A barrier dopant is incorporated into a remaining portion of the source and drain. | 02-03-2011 |
20120032603 | Light Emitting Device and Driving Method thereof - A light emitting device includes a plurality of light emitting modules and a plurality of voltage controlling circuits capable of being independently controlled. Each voltage controlling circuit includes a dynamic voltage controlling module, a current controlling module, and a luminance controlling module. The dynamic voltage controlling module is used for comparing a voltage level at a second terminal of the light emitting module and a voltage level of a reference voltage source, so as to output a first voltage. The current controlling module is used for adjusting a bias current flowing through the light emitting module, according to the first voltage. The luminance controlling module is used for comparing the first voltage with a clock signal, and for generating a pulse width modulation signal according to a result of the comparison, so as to dynamically control a duty cycle of the light emitting module. | 02-09-2012 |
20120044586 | PROJECTION APPARATUS - A projection apparatus includes an illumination system providing an illumination light beam, a light valve disposed in a transmission path of the illumination light beam and converting the illumination light beam into an image light beam, a projection lens disposed in a transmission path of the image light beam, a first field lens, and a second field lens. The first field lens and the second field lens are disposed between the light valve and the projection lens and in the transmission paths of the illumination light beam and the image light beam. The first field lens is a positive meniscus lens with a first concave surface facing the projection lens. The second field lens is a positive meniscus lens with a second concave surface adjacent to the first field lens. The projection apparatus is capable of reducing a ghost image. | 02-23-2012 |
Patent application number | Description | Published |
20120299017 | BATWING LED WITH REMOTE PHOSPHOR CONFIGURATION - An LED emitter uses a molded lens with phosphor material embedded in a circumferential trench to generate a batwing beam pattern. After the lens is molded over a package substrate with connected LED dies thereon, the phosphor material is molded, injected, or dispensed into a circumferential trench. The molded lens is shaped such that a majority of the light emitted by the one or more LED dies is reflected by the top surface to the side surfaces through the phosphor material. | 11-29-2012 |
20120299018 | BAT-WING LENS DESIGN WITH MULTI-DIE - A batwing beam is produced from an optical emitter having a primary LED lens over a number of LED dies on a package substrate. The LED lens includes a batwing surface formed by rotating a parabolic arc about an end of the parabolic arc over a center of the optical emitter. A center of each of the LED dies is mounted to the package substrate about the focus of a parabola whose arc forms the batwing surface, for example, between about 0.5 to 1.5 of a focal distance from the vertex of the parabola. The batwing surface reflects light from the number of LED dies through total internal reflection (TIR) or through a reflectivity gel coating. | 11-29-2012 |
20130299855 | Wafer Level Reflector for LED Packaging - An optical emitter is fabricated by bonding a Light-Emitting Diode (LED) die to a package wafer, electrically connecting the LED die and the package wafer, forming a phosphor coating over the LED die on the package wafer, molding a lens over the LED die on the package wafer, molding a reflector on the package wafer, and dicing the wafer into at least one optical emitter. | 11-14-2013 |
20130309789 | Batwing LED with Remote Phosphor Configuration - A semiconductor structure includes a module with a plurality of die regions, a plurality of light-emitting devices disposed upon the substrate so that each of the die regions includes one of the light-emitting devices, and a lens board over the module and adhered to the substrate with glue. The lens board includes a plurality of microlenses each corresponding to one of the die regions, and at each one of the die regions the glue provides an air-tight encapsulation of one of the light-emitting devices by a respective one of the microlenses. Further, phosphor is included as a part of the lens board. | 11-21-2013 |
20140247578 | BATWING LED WITH REMOTE PHOSPHOR CONFIGURATION - A lighting apparatus includes a substrate. One or more light-emitting devices are disposed over the substrate. A lens is molded over the substrate and over the one or more light-emitting devices. A recess is disposed in the lens. The recess circumferentially surrounds the one or more light-emitting devices in a top view. The recess is at least partially filled with phosphor particles. | 09-04-2014 |
20140295592 | BAT-WING LENS DESIGN WITH MULTI-DI - A batwing beam is produced from an optical emitter having a primary LED lens over a number of LED dies on a package substrate. The LED lens includes a batwing surface formed by rotating a parabolic arc about an end of the parabolic arc over a center of the optical emitter. A center of each of the LED dies is mounted to the package substrate about the focus of a parabola whose arc forms the batwing surface, for example, between about 0.5 to 1.5 of a focal distance from the vertex of the parabola. The batwing surface reflects light from the number of LED dies through total internal reflection (TIR) or through a reflectivity gel coating. | 10-02-2014 |
20150118772 | BATWING LED WITH REMOTE PHOSPHOR CONFIGURATION - A lens is formed over one or more light-emitting devices disposed over a substrate. The lens includes a trench that circumferentially surrounds the one or more light-emitting devices. The trench is filled with a phosphor-containing material. | 04-30-2015 |
20150380616 | BATWING LED WITH REMOTE PHOSPHOR CONFIGURATION - A lens is formed over one or more light-emitting devices disposed over a substrate. The lens includes a trench that circumferentially surrounds the one or more light-emitting devices. The trench is filled with a phosphor-containing material. | 12-31-2015 |
Patent application number | Description | Published |
20100048279 | GAME SYSTEM AND METHOD CAPABLE OF CHANGING SYMBOLS WITH SHOWN SUPER SYMBOL - The present invention is a game system and method including a game machine, a game judge unit and a symbol judge and change unit, wherein the game machine has plural wheels arranged in an array for constituting a symbol set, and each wheel in the symbol set shows a symbol randomly. Moreover, the game judge unit judges and if the symbols of the symbol set conform to a particular rule, a particular amount of bonus game is provided. Then, the game machine runs the bonus game, and each wheel in the symbol set is capable of showing the super symbol randomly. Furthermore, the symbol judge and change unit judges the appearance of super symbol and defines a particular position for the wheel showing the super symbol. Finally, the symbol judge and change unit forces the symbols on the wheels of the particular position to change into an universal symbol respectively. | 02-25-2010 |
20100056267 | GAME SYSTEM AND METHOD PROVIDING CARD SYMBOLS COLLECTION - A game system and method capable of collecting card symbols includes a game machine, a card symbol judging unit and a card symbol collecting unit. The game machine has a plurality of wheels which are arranged in juxtaposed and array fashion to generate a card set. Each wheel has card symbols that appear randomly. The card symbol judging unit judges whether the card symbols of the card set meet a special requirement. If confirmed positive, a selected amount of bonus game is granted. During the bonus game, special card symbols selected from a specific card symbol combination can randomly appear. The card symbol collecting unit records and collects the appeared special card symbols. When the bonus game ends, based on the collection result, a judgment is made on whether to grant points or an extra amount of the bonus game to repeat playing of the bonus game. | 03-04-2010 |
Patent application number | Description | Published |
20090058673 | Information communication and interaction device and method for the same - An information communication and interaction device and method for the same are disclosed according to the present invention; the device is applicable to data processing device that can run the information communication software and has first data transmission unit; the data processing device is capable of processing information communication and sharing by using the information communication software through one data transmission system; features of the method of the present invention are: have one control unit process information communication with data processing device through one second data transmission unit, which is connecting to the first data transmission unit; and based on coded datum of the communicated information, the control unit commands one drive unit to drive one motion unit to bring about a real motion corresponding to the information; therefore, signified conception of the information can be expressed properly by means of real interaction. | 03-05-2009 |
20090091470 | INFORMATION COMMUNICATION AND INTERACTION DEVICE AND METHOD FOR THE SAME - An information communication and interaction device and a method for the same are disclosed. The device is applicable to a data processing device that can run information communication software and has first data transmission unit. The data processing device is capable of processing information communication and sharing by using the information communication software through a data transmission system. According to the method, a control unit processes information communication with the data processing device through a second data transmission unit, which is connected to the first data transmission unit, and based on coded data of the communicated information, the control unit commands a drive unit to drive a motion unit to bring about a real motion corresponding to the information. Therefore, signified conception of the information can be expressed properly by means of real interaction. | 04-09-2009 |
20100235451 | INSTANT MESSAGING INTERACTION SYSTEM AND METHOD THEREOF - An instant messaging interaction system and method work by: analyzing communicative information sent by a remote user to create emotional messages and analyzing information about the remote user's identity; storage in a storage module behavior weight value preset and corresponding to the information about the remote user's identity; determining, by a learning module, interactive responses according to the emotional messages and the behavior weight values; outputting, by an output module, the interactive responses; detecting if receiving a feedback signal from an local user; if the feedback signal is not received, the learning module stores the behavior weight value in the storage module; if the feedback signal is received, the feedback module generates a modification value corresponding to different levels of the feedback signal; generating, by the learning module and according to a detection result, modification values for modifying the behavior weight values. As a result, the messaging interaction system is capable of presenting rated interactive responses in a personalized, artificial intelligence-based manner that meets the local user's expectation. | 09-16-2010 |
Patent application number | Description | Published |
20100077175 | Method of Enhancing Command Executing Performance of Disc Drive - For decreasing seeks generated when switching an execution flow between commands to enhance read and write performances of a disc drive, a command is implemented with a specifically-designed data structure, and commands having neighboring physical addresses and the same type of read or write operations are grouped and linked together. With the aid of command groups, seeks between commands are significantly decreased, though starvation may arise. A few techniques are further provided for preventing starvation of command groups and for preserving the benefits of decreasing seeks. | 03-25-2010 |
20100120263 | MICROWAVE ACTIVATION ANNEALING PROCESS - The present invention relates a microwave activation annealing process, which includes: the providing of a semiconductor process to form a semiconductor device on a substrate; activation: using a microwave device to perform microwave activation on the semiconductor device with frequency in the range of 2.45 GHz and 24.15 GHz and temperature in the range of 100° C. and 600° C.; annealing: using the microwave device to perform microwave annealing on the semiconductor device with frequency in the range 2.45 GHz to 24.15 GHz and temperature in the range 100° C. to 600° C.; by doing so, the present invention can, in the premise without the destruction of material property and structural interface and be able to shorten process time and enhance heating homogeneity, achieve the objective of activation annealing, hence, it can solve the defects caused by the heat treatment technique of prior art high temperature activation annealing. | 05-13-2010 |
20140111305 | VERIFYING SYSTEM AND A METHOD THEREOF - This invention discloses a verifying system and method thereof. The verifying system comprises a plurality of objects to be verified and a verifying end. Each of the objects to be verified respectively comprises an identifying code. The verifying end has a database, and the database stores a plurality records of information of the objects respectively corresponding to each of the indentifying codes. When a user utilizes an electronic device to read one of the indentifying codes for making the electronic device connect to the verifying end, the verifying end compares the identifying code with the plurality records of information of the objects to generate an information of verification results which is then transmitted back to the electronic device. Herewith the effect of the present invention being verifying authenticity of the object by the indentifying code is achieved. | 04-24-2014 |
Patent application number | Description | Published |
20150115361 | Lateral Diffused Metal Oxide Semiconductor - A lateral diffused N-type metal oxide semiconductor device includes a semiconductor substrate, an epi-layer on the semiconductor substrate, a patterned isolation layer on the epi-layer, a N-type double diffused drain (NDDD) region in a first active region of the patterned isolation layer, a N+ heavily doped drain region disposed in the NDDD region, a P-body diffused region disposed in a second active region of the patterned isolation layer, a neighboring pair of a N+ heavily doped source region and a P+ heavily doped source region disposed in the P-body diffused region, a first gate structure disposed above a channel region of the patterned isolation layer and a second gate structure disposed above the second active region. The second gate structure and the first gate structure are spaced at a predetermined distance. | 04-30-2015 |
20150115362 | Lateral Diffused Metal Oxide Semiconductor - A lateral diffused N-type metal oxide semiconductor device includes a semiconductor substrate, an epi-layer on the semiconductor substrate, a patterned isolation layer on the epi-layer, a N-type double diffused drain (NDDD) region in a first active region of the patterned isolation layer, a N+ heavily doped drain region disposed in the NDDD region, a P-body diffused region disposed in a second active region of the patterned isolation layer, a neighboring pair of a N+ heavily doped source region and a P+ heavily doped source region disposed in the P-body diffused region, a first gate structure disposed above a channel region of the patterned isolation layer and a second gate structure disposed above the second active region. The second gate structure and the first gate structure are spaced at a predetermined distance. A making method of the NDDD region includes using an ion implant and an epitaxy layer doping. | 04-30-2015 |