Patent application number | Description | Published |
20110007240 | HIGH EFFICIENCY MICRO PROJECTION OPTICAL ENGINE - A high efficiency micro projection optical engine includes a light source module, a lens assembly, a micro display panel and a projection lens. Wherein the light source module includes light emitting elements and shaping lens module used to collect and shape the received light beams. The lens assembly is arranged on the path of the emission light of the shaping lens assembly. The shaping lens module and lens assembly form an image of the luminous surface of the light emitting elements in the vicinity of the micro display panel. The micro display panel which is arranged on the path of emission light of the lens assembly modulate incident light and image light with image information is obtained. The projection lens is used to project the image information on the micro display panel and form an image onto a screen. The optical engine of present invention enhances efficiency by means of critical illumination, furthermore, the whole optical engine only relates to illumination device, micro display panel and projection lens, so the optical system has the features that the design of light path is simple and advantage of compact structure and small size. | 01-13-2011 |
20130181616 | Control Circuit and Illuminating Device - The present invention relates to a control circuit for an illuminating device, characterized in that the control circuit comprises a detecting unit, a central control unit and an illumination mode control unit, the detecting unit detects ambient brightness and generates a detection signal, the central control unit controls the illumination mode control unit, according to the detection signal, to generate a plurality of first driving signal enabling the illuminating device to operate in a first illumination mode or a plurality of second driving signal enabling the illuminating device to operate in a second illumination mode. The control circuit can automatically adjust the illuminating device to be in different operation modes according to different ambient brightness. | 07-18-2013 |
20140211772 | MULTI-WAN DEVICE AND METHOD OF UPDATING ROUTING TABLE - A multi-WAN interface device includes a first WAN interface, a second WAN interface, an application module, a detection module, a register module, an updating module and a routing table. The first WAN interface connects to a first network and the second WAN interface connects a second network. The application module applies the first network and the second network for a mobile IP home address and a care-of-address. The detection module detects whether it is necessary for switching between the first network and the second network. The register module registers the care-of-address to the home agent. The updating module updates the default routing table of the first network. A method for the multi-WAN interface device updating the routing table is also provided. | 07-31-2014 |
Patent application number | Description | Published |
20090148875 | Control markers for auto-detection of control solution and method of use - A method of distinguishing a control solution from a sample in an electrochemical test sensor is performed. The method includes adding a control marker to the control solution. The control solution includes the control marker and analyte. The test sensor includes working and counter electrodes, and a reagent. A potential is applied to the test sensor to oxidize the control marker and the analyte. The resulting electrical current is measured. A potential is applied to the test sensor lower than the other potential in which the potential is sufficient to oxidize the analyte and not the control marker. The resulting electrical current is measured. Determining whether a control solution or a sample is present based on the measured electrical currents. To increase the measured current, a salt may be added to the control solution in an amount sufficient to increase the electrical current by at least 5% as compared to a control solution in the absence of a salt. | 06-11-2009 |
20090266718 | Correction of Oxygen Effect in Test Sensor Using Reagents - An electrochemical test sensor is adapted to measure glucose and correct for the oxygen effect in a fluid sample. The test sensor comprises a base, first and second working electrodes, and a counter electrode. The first working electrode includes glucose oxidase, a mediator and peroxidase. The second working electrode includes glucose oxidase and the mediator. The first working electrode, the second working electrode and the counter electrode are located on the base. In other embodiments, an electrochemical test sensor is adapted to measure cholesterol, lactate, pyruvate or xanthine and correct for the oxygen effect in a fluid sample. | 10-29-2009 |
20090305317 | USER INTERFACE FOR TESTING DEVICE - A testing system for testing an analyte in a fluid sample includes a user interface including a display for displaying information relating to measurements of health data and an input device for receiving information from a user relating to the health data. The testing system further includes an automarking feature adapted to identify a testing result of a control solution, the testing of the control solution being distinguishable from the testing of the fluid sample. The testing result of the control solution is not included in the information relating to the measurements of health data that is displayed to a user via the user interface. | 12-10-2009 |
20120067743 | METHOD OF CORRECTING FOR OXYGEN EFFECT ON TEST SENSORS - An electrochemical test sensor is adapted to measure glucose and correct for the oxygen effect in a fluid sample. The test sensor comprises a base, first and second working electrodes, and a counter electrode. The first working electrode includes glucose oxidase, a mediator and peroxidase. The second working electrode includes glucose oxidase and the mediator. The first working electrode, the second working electrode and the counter electrode are located on the base. In other embodiments, an electrochemical test sensor is adapted to measure cholesterol, lactate, pyruvate or xanthine and correct for the oxygen effect in a fluid sample. | 03-22-2012 |
20130078724 | Control Solution For Use In An Electrochemical System - A method of distinguishing a control solution from a sample in an electrochemical test sensor is performed. The method includes adding a control marker to the control solution. The control solution includes the control marker and analyte. The test sensor includes working and counter electrodes, and a reagent. A potential is applied to the test sensor to oxidize the control marker and the analyte. The resulting electrical current is measured. A potential is applied to the test sensor lower than the other potential in which the potential is sufficient to oxidize the analyte and not the control marker. The resulting electrical current is measured. Determining whether a control solution or a sample is present based on the measured electrical currents. To increase the measured current, a salt may be added to the control solution in an amount sufficient to increase the electrical current by at least 5% as compared to a control solution in the absence of a salt. | 03-28-2013 |
20130233726 | METHOD OF CORRECTING FOR OXYGEN EFFECT ON TEST SENSORS - An electrochemical test sensor is adapted to measure glucose and correct for the oxygen effect in a fluid sample. The test sensor comprises a base, first and second working electrodes, and a counter electrode. The first working electrode includes glucose oxidase, a mediator and peroxidase. The second working electrode includes glucose oxidase and the mediator. The first working electrode, the second working electrode and the counter electrode are located on the base. In other embodiments, an electrochemical test sensor is adapted to measure cholesterol, lactate, pyruvate or xanthine and correct for the oxygen effect in a fluid sample. | 09-12-2013 |
Patent application number | Description | Published |
20080202425 | TEMPERATURE CONTROLLED LID ASSEMBLY FOR TUNGSTEN NITRIDE DEPOSITION - Embodiments of the invention provide apparatuses for vapor depositing tungsten-containing materials, such as metallic tungsten and tungsten nitride. In one embodiment, a processing chamber is provided which includes a lid assembly containing a lid plate, a showerhead, a mixing cavity, a distribution cavity, and a resistive heating element contained within the lid plate. In one example, the resistive heating element is configured to provide the lid plate at a temperature within a range from about 120° C. to about 180° C., preferably, from about 140° C. to about 160° C., more preferably, from about 145° C. to about 155° C. The mixing cavity may be in fluid communication with a tungsten precursor source containing tungsten hexafluoride and a nitrogen precursor source containing ammonia. In some embodiments, a single processing chamber may be used to deposit metallic tungsten and tungsten nitride materials by CVD processes. | 08-28-2008 |
20080206987 | PROCESS FOR TUNGSTEN NITRIDE DEPOSITION BY A TEMPERATURE CONTROLLED LID ASSEMBLY - Embodiments of the invention provide processes for vapor depositing tungsten-containing materials, such as metallic tungsten and tungsten nitride. In one embodiment, a method for forming a tungsten-containing material is provided which includes positioning a substrate within a processing chamber containing a lid plate, heating the lid plate to a temperature within a range from about 120° C. to about 180° C., exposing the substrate to a reducing gas during a pre-nucleation soak process, and depositing a first tungsten nucleation layer on the substrate during a first atomic layer deposition process within the processing chamber. The method further provides depositing a tungsten nitride layer on the first tungsten nucleation layer during a vapor deposition process, depositing a second tungsten nucleation layer on the tungsten nitride layer during a second atomic layer deposition process within the processing chamber, and exposing the substrate to another reducing gas during a post-nucleation soak process. | 08-28-2008 |
20090081866 | VAPOR DEPOSITION OF TUNGSTEN MATERIALS - Embodiments of the invention provide an improved process for depositing tungsten-containing materials. The process utilizes soak processes and vapor deposition processes to provide tungsten films having significantly improved surface uniformity while increasing the production level throughput. In one embodiment, a method is provided which includes depositing a tungsten silicide layer on the substrate by exposing the substrate to a continuous flow of a silicon precursor while also exposing the substrate to intermittent pulses of a tungsten precursor. The method further provides that the substrate is exposed to the silicon and tungsten precursors which have a silicon/tungsten precursor flow rate ratio of greater than 1, for example, about 2, about 3, or greater. Subsequently, the method provides depositing a tungsten nitride layer on the tungsten suicide layer, depositing a tungsten nucleation layer on the tungsten nitride layer, and depositing a tungsten bulk layer on the tungsten nucleation layer. | 03-26-2009 |
Patent application number | Description | Published |
20080318382 | METHODS FOR FABRICATING TUNNELING OXIDE LAYER AND FLASH MEMORY DEVICE - A method for manufacturing a tunneling oxide layer including the following steps: forming a tunneling oxide layer on a semiconductor substrate by in-situ steam generation oxidation; performing a annealing on the tunneling oxide layer. There is also provided a method for manufacturing a flash memory device. According to the invention, the dangling bonds between silicon oxide in a tunneling oxide layer and silicon adjacent to a semiconductor substrate interface are terminated by performing a annealing on a tunneling oxide layer, thereby improving the erase rate of the tunneling oxide layer. | 12-25-2008 |
20120232352 | VAGINAL DILATOR HAVING SIDE BLADES OR HAVING UPPER AND LOWER BLADES COMPRISING ACCESSORIAL BLADES - A vaginal dilator having side blades or having upper and lower blades comprising accessorial blades includes an upper blade ( | 09-13-2012 |
20130179558 | SERVER MANAGEMENT USING A BASEBOARD MANAGEMENT CONTROLLER TO ESTABLISH A WIRELESS NETWORK - A server management system and a method for server management, wherein the server management system comprises baseboard management controllers (BMCs) located at each of a plurality of servers, wherein each BMC comprises: a connection establishment interface component configured to establish connection with one processing device in response to a request of establishing connection with the processing device and to receive a server management instruction from the processing device; and a wireless network communication component configured to enable the BMCs to establish a wireless network through their wireless network communication component; wherein, the server that establishes connection with the processing device is designated as an interface server, and the wireless network communication component of the BMC of the interface server is further able to broadcast the server management instruction received by the connection establishment interface component to managed servers via the established wireless network. | 07-11-2013 |
20150060961 | FINFET DEVICE AND METHOD OF FORMING FIN IN THE SAME - A method for manufacturing a fin for a FinFET device includes providing a semiconductor substrate, forming a plurality of implanted regions in the semiconductor substrate, and epitaxially forming fins between two adjacent implanted regions. The method also includes forming an insulating structure between two adjacent fins. | 03-05-2015 |
Patent application number | Description | Published |
20140064412 | High Performance Turbo DPSK - A system includes a DPSK transmitter and a DPSK receiver. The DPSK transmitter is configured to encode a signal and transmit the encoded signal as a sequence of symbols. The DPSK receiver is configured to decode the sequence of symbols into bit values. The DPSK receiver further includes a first decoder which is configured to receive the sequence of the symbols, and to estimate extrinsic information for each symbol and forward the extrinsic information to a second decoder. Moreover, if magnitude of a LLR received form a second decoder is greater than a threshold, the first decoder is configured to determine a bit value of a received symbol, without considering neighboring symbols in the sequence of symbols. Still moreover, if the magnitude of the LLR received from the second decoder is not greater than the threshold, the first decoder is configured to continue to decode the received symbol and consider neighboring symbols in the sequence of symbols. | 03-06-2014 |
20150043596 | FREQUENCY DIVERSITY MODULATION SYSTEM AND METHOD - A method of encoding a first bit and a second bit for transmission on a transmission band is provided. The method includes: mapping, via a mapping component, the first bit and the second bit into a first symbol; mapping, via the mapping component, the first bit and the second bit into a second symbol; dividing, via a dividing component, the transmission band into subcarriers; allocating, via an allocating component, the first symbol to a first subcarrier of the subcarriers, allocating, via the allocating component, the second symbol to a second subcarrier of the subcarriers; and differentially encoding, via a differential encoder, the first symbol and the second symbol. | 02-12-2015 |
20150071306 | TIME AND FREQUENCY DIVERSITY MODULATION SYSTEM AND METHOD - A method of encoding a set of L bits for transmission on a transmission band through a transmission medium is provided, wherein L is a positive integer that is greater than 1. The method includes: mapping, via a mapping component, the L bits into M symbols; dividing, via a first dividing component, the transmission band into sub-bands; allocating, via an allocating component, the M symbols to individual sub-bands, respectively, for transmission at a first time; and allocating, via the allocating component, the M symbols to different individual sub-bands, respectively, for transmission at a second time. | 03-12-2015 |