Patent application number | Description | Published |
20140170671 | APPARATUS AND METHODS FOR THREE-DIMENSIONAL TISSUE MEASUREMENTS BASED ON CONTROLLED MEDIA FLOW - An apparatus including a plurality of wells for conducting analysis of three-dimensional cell samples (e.g., tissue samples) and methods for experimenting with a three-dimensional sample. A removable insert for use with the apparatus enables plunger-driven perfusion of the three-dimensional sample. | 06-19-2014 |
20140186876 | CELL ANALYSIS APPARATUS AND METHOD - Devices and methods that measure one or more properties of a living cell culture that is contained in liquid media within a vessel, and typically analyzes plural cell cultures contained in plural vessels such as the wells of a multiwell microplate substantially in parallel. The devices incorporate a sensor that remains in equilibrium with, e.g., remains submerged within, the liquid cell media during the performance of a measurement and during addition of one or more cell affecting fluids such as solutions of potential drug compounds. | 07-03-2014 |
20140248650 | METHOD AND DEVICE FOR MEASURING MULTIPLE PHYSIOLOGICAL PROPERTIES OF CELLS - A method of analyzing cells disposed in media within a vessel includes the steps of providing a vessel having an original volume of media about the cells, reducing the original volume of media about at least a portion of the cells to define a reduced volume of media, and analyzing a constituent related to the cells within the reduced volume of media. An apparatus for analyzing cells includes a stage adapted to receive a vessel holding cells and a volume of media, a plunger adapted to receive a barrier to create a reduced volume of media within the vessel including at least a portion of the cells, the barrier adapted for insertion into the vessel by relative movement of the stage and the plunger, and a sensor in sensing communication with the reduced volume of media, wherein the sensor is configured to analyze a constituent disposed within the reduced volume. | 09-04-2014 |
Patent application number | Description | Published |
20100105578 | METHOD AND DEVICE FOR MEASURING MULTIPLE PHYSIOLOGICAL PROPERTIES OF CELLS - A method of analyzing cells disposed in media within a vessel includes the steps of providing a vessel having an original volume of media about the cells, reducing the original volume of media about at least a portion of the cells to define a reduced volume of media, and analyzing a constituent related to the cells within the reduced volume of media. An apparatus for analyzing cells includes a stage adapted to receive a vessel holding cells and a volume of media, a plunger adapted to receive a barrier to create a reduced volume of media within the vessel including at least a portion of the cells, the barrier adapted for insertion into the vessel by relative movement of the stage and the plunger, and a sensor in sensing communication with the reduced volume of media, wherein the sensor is configured to analyze a constituent disposed within the reduced volume. | 04-29-2010 |
20100124761 | METHOD AND DEVICE FOR MEASURING EXTRACELLULAR ACIDIFICATION AND OXYGEN CONSUMPTION RATE WITH HIGHER PRECISION - The accuracy and/or precision of measurements of extracellular acidification rate or CO | 05-20-2010 |
20100227385 | METHOD AND DEVICE FOR MEASURING MULTIPLE PHYSIOLOGICAL PROPERTIES OF CELLS - A method of analyzing cells disposed in media within a vessel includes the steps of providing a vessel having an original volume of media about the cells, reducing the original volume of media about at least a portion of the cells to define a reduced volume of media, and analyzing a constituent related to the cells within the reduced volume of media. An apparatus for analyzing cells includes a stage adapted to receive a vessel holding cells and a volume of media, a plunger adapted to receive a barrier to create a reduced volume of media within the vessel including at least a portion of the cells, the barrier adapted for insertion into the vessel by relative movement of the stage and the plunger, and a sensor in sensing communication with the reduced volume of media, wherein the sensor is configured to analyze a constituent disposed within the reduced volume. | 09-09-2010 |
Patent application number | Description | Published |
20080242062 | FABRICATION OF DIVERSE STRUCTURES ON A COMMON SUBSTRATE THROUGH THE USE OF NON-SELECTIVE AREA GROWTH TECHNIQUES - Diverse semiconductor structures are fabricated on a single substrate or wafer by using a non-selective area growth technique involving deposition of material over the entire substrate. The fabricated structures are obtained by selective removal of portions of the deposited material layers. Single level and multi-level structures are possible. | 10-02-2008 |
20130259063 | METHODS AND APPARATUSES FOR ADAPTING BUFFER CAPACITY AT ROUTERS - In a method for dynamic buffer adjustment at a line card of router, a current buffer occupancy at the line card is compared with at least a first buffer occupancy threshold, the first buffer occupancy threshold being calculated based on a buffer occupancy threshold parameter and a capacity of at least a first buffer memory at the line card; and an active buffer capacity is adjusted by at least one of activating and deactivating buffer memory blocks at the line card based on the comparing step, the activating including switching on the buffer memory blocks, and the deactivating including causing the buffer memory blocks to enter a sleep state. | 10-03-2013 |
20150085351 | SYSTEM AND METHOD FOR A MULTI-MODE PUMP IN AN OPTICAL AMPLIFIER - An optical amplifier includes a multi-mode pump laser module, a multi-mode waveguide, a multi-mode to multiple single-mode fiber converter module and a plurality of single-mode cores. The multi-mode pump laser module emits pump light having a plurality of modes to the multi-mode fiber or waveguide. The multi-mode waveguide propagates the emitted pump light to the converter module. The converter module receives the pump light and distributes the pump light approximately uniformly to a plurality of single-mode cores. | 03-26-2015 |
20150085352 | OPTICAL AMPLIFIER FOR SPACE-DIVISION MULTIPLEXING - In an example embodiment, an optical amplifier comprises a doped multi-core optical fiber and two optical couplers placed at the ends of the doped multi-core fiber, with each optical coupler having a respective plurality of optical waveguide cores optically coupled to the optical waveguide cores of the doped multi-core fiber. The spatial arrangement of the cores at the input end of the first optical coupler is configured for low-loss intake of the optical energy from the input transmission line. The spatial arrangement of the cores at the output end of the first optical coupler and the spatial arrangement of the cores at the input end of the second optical coupler match the spatial arrangement of the cores in the doped multi-core fiber. The spatial arrangement of the cores at the output end of the second optical coupler is configured for low-loss transfer of the optical energy into the output transmission line. | 03-26-2015 |
20150086199 | COMPACT TWO-STAGE OPTICAL AMPLIFIER - Various exemplary embodiments relate to an optical amplifier, including: a multicore rare-earth doped optical fiber with a first plurality of cores associated with a first stage of the optical amplifier and a second plurality of cores associated with a second stage of the optical amplifier; a three dimensional (3D) waveguide configured to couple input space division multiplexed (SDM) channels into the first plurality of cores at a first end of the multicore rare-earth doped optical fiber and to couple channels from the second plurality of cores to output SDM channels; a reflector configured to optically interconnect the first plurality of cores to the second plurality of cores; and pump laser coupled to the multicore rare-earth doped optical fiber configured to produce laser pump light to pump the multicore rare-earth doped optical fiber. | 03-26-2015 |
Patent application number | Description | Published |
20080247387 | Scalable hybrid switch fabric - In one embodiment, a three-stage scalable hybrid switch fabric has an input stage with one or more electronic input crossbar switches, a middle stage, and an output stage with one or more electronic output crossbar switches. The middle stage has (1) tunable optical transmitters that convert electrical signals received from the input stage into optical signals having selectable wavelengths, (2) one or more passive, wavelength-dependent optical routers that route the optical signals received from the transmitters at input nodes to output nodes, each output node determined by the wavelength of the optical signal and possibly by the input node at which the optical signal is applied, and (3) optical receivers that convert the routed optical signals into electrical signals provided to the output stage. Each scaling increment includes (i) an input crossbar switch and its corresponding optical transmitters and (ii) an output crossbar switch and its corresponding optical receivers. | 10-09-2008 |
20110052114 | VERTICAL OPTICALLY EMITTING PHOTONIC DEVICES WITH ELECTRONIC STEERING CAPABILITY - An optical photonic device comprising a planar semiconductor substrate having a light-guiding layer thereon, a primary laser light source in said light-guiding layer and a vertical coupler optically coupled to the primary laser light source by waveguide portions of the light-guiding layer. The vertical coupler is configured to receive a light beam from the primary laser light source and redirect the light beam in a direction that is substantially perpendicular to a surface of the planar substrate. | 03-03-2011 |
20120087623 | OPTICAL ASSEMBLY FOR A WDM RECEIVER OR TRANSMITTER - An optical assembly for a wavelength-division-multiplexing (WDM) transmitter or receiver that lends itself to cost-effective production-line manufacturing. In one embodiment, the fiber optic assembly has a vernier-type arrayed waveguide grating (AWG) with five optical ports at one side and fourteen optical ports at another side. Ten of the fourteen ports are optically coupled to ten photo-detectors or lasers. A selected one of the five ports is optically coupled to an external optical fiber. The coupling optics and the mounting hardware for the AWG are designed to accommodate, with few relatively straightforward adjustments performed on the production line, any configuration of the AWG in which any consecutive ten of the fourteen ports are optically coupled to the ten photo-detectors or lasers. | 04-12-2012 |
20120141140 | DISTRIBUTION OF OPTICAL POWER IN AN OPTICAL TRANSPORT SYSTEM - An optical-power-distribution (OPD) subsystem that provides means for supplying optical local-oscillator signals and optical-carrier signals to various optical line cards, without the need for each optical line card to have a corresponding individual laser source. In one embodiment, a single laser coupled to the OPD subsystem provides optical local-oscillator signals and/or optical-carrier signals to multiple optical line cards. In another embodiment, multiple lasers coupled to the OPD subsystem provide multiple optical local-oscillator signals and/or optical-carrier signals to a single line card. An OPD subsystem may provide significant power savings in the operation of the corresponding optical transport system, a reduction in the required equipment-cooling capacity, and/or an increase in the device-packing density within optical line cards and/or inside equipment cabinets that house optical line cards. | 06-07-2012 |
20120195593 | SPECTRAL ALIGNMENT OF A WDM DEVICE TO A SPECIFIED FREQUENCY GRID - A WDM device having a controller that individually controls the operating parameters of tunable lasers and the temperatures of an optical multiplexer and etalon. The device employs a spectral analyzer to measure the spectral composition of the optical output signal produced by the device. Based on the analyses of the measured spectral composition, the controller sets the temperatures of the tunable lasers, optical multiplexer, and optical etalon to values that cause: (i) middle frequencies of transmission bands of the optical multiplexer to be spectrally aligned with the corresponding frequencies of the specified frequency grid, (ii) each laser line to be properly positioned within the corresponding transmission band, and (iii) transmission resonances of the optical etalon to be properly positioned with respect to the laser lines. | 08-02-2012 |
20130077976 | TRANSMITTER AND METHOD FOR OPTICAL TRANSMISSION - An optical multi-wavelength transmitter comprising an optical interleaver with at least a first optical waveguide and a second optical waveguide; a first plurality of microcavity modulators coupled to the first optical waveguide and a second plurality of microcavity modulators coupled to the second waveguide. A plurality of optical wavelengths received at an input of the interleaver are separated into a first group of separated optical wavelengths for being input in the first optical waveguide and a second group of separated optical wavelengths for being input in the second optical waveguide. Each one of the first and the second group of separated optical wavelengths have a separated wavelength spacing between adjacent separated optical wavelengths. A method of optical multi-wavelength transmission is also disclosed. | 03-28-2013 |
20130121695 | WAVELENGTH ROUTER FOR A PASSIVE OPTICAL NETWORK - A passive arrayed-waveguide-grating (AWG) router that can be used to implement the dual functionality of a wavelength router and a 3-dB power splitter for one of its wavelength channels while functioning as a conventional wavelength router for the other wavelength channels. The passive AWG router can advantageously be used, e.g., in a WDM-PON system to reduce the insertion-loss disparity between the various wavelength channels that are being used to broadcast optical signals from an optical line terminal located at the service provider's central office, through the passive AWG router, to a plurality of optical network units located near the end users. | 05-16-2013 |
20130216183 | COMPACT WAVELENGTH-SELECTIVE CROSS-CONNECT DEVICE HAVING MULTIPLE INPUT PORTS AND MULTIPLE OUTPUT PORTS - A wavelength-selective cross-connect (WSXC) device having N input ports and M output ports and configured to route any set of one or more carrier wavelengths from a corresponding input port to any selected output port. In one embodiment, the WSXC device includes a diffraction grating and a beam-steering device optically coupled to each other and to the input/output ports so that each of the carrier wavelengths traverses the diffraction grating and the beam-steering device two or more times en route from the respective input port to a designated output port. Various unfolded configurations of the WSXC device are also disclosed. | 08-22-2013 |
20140294346 | WAVELENGTH-SELECTIVE CROSS-CONNECT DEVICE HAVING ASTIGMATIC OPTICS - A wavelength-selective cross-connect (WSXC) device configured to route any set of carrier wavelengths from a corresponding input port to any selected output port. The WSXC device comprises a diffraction grating and a beam-steering device optically coupled to one another and to the input/output ports using astigmatic optics. The astigmatic optics includes one or more cylindrical lenses configured to image one beam-steering surface onto another beam-steering surface to enable a continuous spectral response. The astigmatic optics may further include (i) a cylindrical Fourier lens that enables the WSXC device to convert a change in the angular beam steering performed by the beam-steering device into a corresponding image-spot displacement at the output ports and/or (ii) one or more cylindrical lenses configured to image the active surface of the beam-steering device onto the diffraction grating. Various unfolded configurations of the various embodiments of the WSXC device are also disclosed. | 10-02-2014 |
Patent application number | Description | Published |
20090324221 | SCALABLE LOAD-BALANCED INTERCONNECT SWITCH BASED ON AN ARRAYED WAVEGUIDE GRATING - According to one embodiment, an interconnect switch has an arrayed waveguide grating (AWG) having N input ports and N output ports. The AWG is characterized by two or more diffraction orders and is adapted to route optical signals from the input ports to the output ports. In a fully deployed implementation, the interconnect switch has N input line cards and N output line cards. Each of the input line cards is adapted to generate N respective modulated optical signals using carrier wavelengths corresponding to at least two different diffraction orders of the AWG to provide wavelength redundancy for optically connecting the input line card and any of the output line cards. In a partially deployed implementation, the interconnect switch has fewer than N input line cards and/or fewer than N output line cards. In either the fully deployed implementation or a partially deployed implementation, the interconnect switch is capable of load balancing. | 12-31-2009 |
20090324243 | SCALABLE LOAD-BALANCED INTERCONNECT SWITCH BASED ON AN OPTICAL SWITCH FABRIC HAVING A BANK OF WAVELENGTH-SELECTIVE SWITCHES - According to one embodiment, an interconnect switch has an optical switch fabric (OSF) having N input ports and N output ports. The OSF has a bank of optically interconnected wavelength-selective switches and is adapted to route optical signals from the input ports to the output ports. In a fully deployed implementation, the interconnect switch has N input line cards and N output line cards. Each of the input line cards is adapted to generate N respective modulated optical signals using carrier wavelengths that are controllably selected from more than N carrier wavelengths to provide wavelength redundancy for optically connecting the input line card and any of the output line cards. In a partially deployed implementation, the interconnect switch has fewer than N input line cards and/or fewer than N output line cards. In either the fully deployed implementation or a partially deployed implementation, the interconnect switch is capable of load balancing. | 12-31-2009 |
20100054761 | Monolithic coherent optical detectors - An optical receiver has a monolithically integrated electrical and optical circuit that includes a substrate with a planar surface. Along the planar surface, the monolithically integrated electrical and optical circuit has an optical hybrid, one or more variable optical attenuators, and photodetectors. The optical hybrid is connected to receive light beams, to interfere light of said received light beams with a plurality of relative phases and to output said interfered light via optical outputs thereof. Each of the one or more variable optical attenuators connects between a corresponding one of the optical outputs and a corresponding one of the photodetectors. | 03-04-2010 |
20120087655 | Direct Laser Modulation - An apparatus includes an array of lasers, an array of electrical drivers, and optical filter. Each laser is configured to produce light in a corresponding wavelength-channel, wherein the wavelength-channels of different ones of the lasers are different. The electrical drivers are connected to directly modulate the lasers. Each driver produces a first driving current or voltage to cause a corresponding one of the lasers to be in a first lasing state and produces a different second driving current or voltage to cause the corresponding one of the lasers to be in a different second lasing state. The optical filter is connected to receive light output by the lasers. The optical filter selectively attenuates light from each of the lasers in the first lasing states thereof and to selectively pass light from each of the lasers in second lasing states thereof. | 04-12-2012 |
Patent application number | Description | Published |
20110094717 | Systems and Methods for Cooling Optical Fiber - In one embodiment, an optical fiber cooling system includes a first cooling tube oriented substantially in parallel with and spaced apart from a second cooling tube such that an optical fiber pathway is positioned between the first cooling tube and the second cooling tube. The first cooling tube includes a plurality of cooling fluid outlets positioned along an axial length of the first cooling tube which are oriented to direct a flow of cooling fluid across the optical fiber pathway towards the second cooling tube. The second cooling tube includes a plurality of cooling fluid outlets positioned along an axial length of the second cooling tube which are oriented to direct a flow of cooling fluid across the optical fiber pathway towards the first cooling tube. | 04-28-2011 |
20120260697 | SYSTEMS AND METHODS FOR COOLING OPTICAL FIBER - In one embodiment, an optical fiber cooling system includes a first cooling tube oriented substantially in parallel with and spaced apart from a second cooling tube such that an optical fiber pathway is positioned between the first cooling tube and the second cooling tube. The first cooling tube includes a plurality of cooling fluid outlets positioned along an axial length of the first cooling tube which are oriented to direct a flow of cooling fluid across the optical fiber pathway towards the second cooling tube. The second cooling tube includes a plurality of cooling fluid outlets positioned along an axial length of the second cooling tube which are oriented to direct a flow of cooling fluid across the optical fiber pathway towards the first cooling tube. | 10-18-2012 |
20130133372 | GLASS FLOW MANAGEMENT BY THERMAL CONDITIONING - This disclosure relates to methods and apparatus for controlling glass flow in, for example, a downdraw glass manufacturing process (e.g., the fusion downdraw process). The methods and apparatus are particularly well-suited for use in the manufacture of glass sheets such as the glass sheets used as substrates in display devices, e.g., liquid crystal displays (LCDs). | 05-30-2013 |
20130312461 | METHOD FOR COOLING OPTICAL FIBER - In one embodiment, an optical fiber cooling system includes a first cooling tube oriented substantially in parallel with and spaced apart from a second cooling tube such that an optical fiber pathway is positioned between the first cooling tube and the second cooling tube. The first cooling tube includes a plurality of cooling fluid outlets positioned along an axial length of the first cooling tube which are oriented to direct a flow of cooling fluid across the optical fiber pathway towards the second cooling tube. The second cooling tube includes a plurality of cooling fluid outlets positioned along an axial length of the second cooling tube which are oriented to direct a flow of cooling fluid across the optical fiber pathway towards the first cooling tube. | 11-28-2013 |
20150147467 | APPARATUS AND METHOD FOR APPLICATIONS OF OPTICAL FIBER COATINGS - One embodiment of the disclosure relates to a fiber coating apparatus having a fiber entrance opening, a conical section with walls tapered at half angles between 2 and 25° and height (also referred to as length herein) L | 05-28-2015 |
Patent application number | Description | Published |
20100315159 | HIGH VOLTAGE POWER INTEGRATED CIRCUIT - A high performance, power integrated circuit composed of two charge balanced, extended drain NMOS transistors (CBDEMOS) formed on an n-substrate. A CBDENMOS transistor with an n-type substrate source. A charge balanced channel diode (CBCD) with an n-type substrate. A process for forming a high performance, power integrated circuit composed of two CBDENMOS transistors formed on an n-substrate. A process for forming a power integrated circuit composed of one CBDENMOS transistor and one CBCD on an n-type substrate. | 12-16-2010 |
20110303976 | HIGH VOLTAGE CHANNEL DIODE - A channel diode structure having a drift region and method of forming. A charge balanced channel diode structure having an electrode shield and method of forming. | 12-15-2011 |
20130193502 | MEDIUM VOLTAGE MOSFET DEVICE - A semiconductor device includes a medium voltage MOSFET having a vertical drain drift region between RESURF trenches containing field plates which are electrically coupled to a source electrode of the MOSFET. A split gate with a central opening is disposed above the drain drift region between the RESURF trenches. A two-level LDD region is disposed below the central opening in the split gate. A contact metal stack makes contact with a source region at lateral sides of the triple contact structure, and with a body contact region and the field plates in the RESURF trenches at a bottom surface of the triple contact structure. A perimeter RESURF trench surrounds the MOSFET. A field plate in the perimeter RESURF trench is electrically coupled to the source electrode of the MOSFET. An integrated snubber may be formed in trenches formed concurrently with the RESURF trenches. | 08-01-2013 |
20140070265 | FAST SWITCHING IGBT WITH EMBEDDED EMITTER SHORTING CONTACTS AND METHOD FOR MAKING SAME - Integrated circuits are presented having high voltage IGBTs with integral emitter shorts and fabrication processes using wafer bonding or gown epitaxial silicon for controlled drift region thickness and fast switching speed. | 03-13-2014 |
20140217497 | MOSFET WITH CURVED TRENCH FEATURE COUPLING TERMINATION TRENCH TO ACTIVE TRENCH - A metal oxide semiconductor field effect transistor (MOSFET) in and on a semiconductor surface provides a drift region of a first conductivity type. A plurality of active area trenches in the drift region, and first and second termination trenches are each parallel to and together sandwiching the active area trenches. The active area trenches and termination trenches include a trench dielectric liner and electrically conductive filler material filled field plates. A gate is over the drain drift region between active area trenches. A body region of a second conductivity abuts the active region trenches. A source of the first conductivity type is in the body region on opposing sides of the gate. A vertical drain drift region uses the drift region below the body region. A first and second curved trench feature couples the field plate of the first and second termination trench to field plates of active area trenches. | 08-07-2014 |
20140220761 | REDUCTION OF POLYSILICON RESIDUE IN A TRENCH FOR POLYSILICON TRENCH FILLING PROCESSES - A method of fabricating a semiconductor device includes forming at least one trench from a top side of a semiconductor layer, wherein the trench is lined with a trench dielectric liner and filled by a first polysilicon layer. The surface of the trench dielectric liner is etched, wherein dips in the trench dielectric liner are formed relative to a top surface of the first polysilicon layer which results in forming a protrusion including the first polysilicon layer. The first polysilicon layer is etched to remove at least a portion of the protrusion. A second dielectric layer is formed over at least the trench after etching the first polysilicon layer. A second polysilicon layer is deposited. The second polysilicon layer is etched to remove it over the trench and provide a patterned second polysilicon layer on the top side of the semiconductor layer. | 08-07-2014 |
Patent application number | Description | Published |
20100205551 | METHOD AND APPARATUS FOR GENERATING A WEB SITE WITH DYNAMIC CONTENT DATA FROM AN EXTERNAL DATA SOURCE INTEGRATED THEREIN - A technique for generating a web site in accordance with received data entry by: determining at least one characteristic of at least one web site dimension of the web site based on the data entry; generating a multi-dimensional description of the web site based on the determined characteristics; retrieving web site data according to the generated multi-dimensional description of the web site; and generating the web site based upon the generated multi-dimensional description of the web site and the retrieved web site data. The web site data includes dynamic content data from an external data source, and the data entry may include a designation of such an external data source. | 08-12-2010 |
20100306644 | METHOD AND APPARATUS FOR GENERATING A WEB SITE USING A MULTI-DIMENSIONAL DESCRIPTION OF THE WEBSITE - A technique for generating a web site in accordance with received data entry by: determining at least one characteristic of at least one web site dimension of the web site based on the data entry; generating a multi-dimensional description of the web site based on the determined characteristics; retrieving web site data according to the generated multi-dimensional description of the web site; and generating the web site based upon the generated multi-dimensional description of the web site and the retrieved web site data. | 12-02-2010 |
20140181206 | METHOD AND APPARATUS FOR GENERATING A WEB SITE USING A MULTI-DIMENSIONAL DESCRIPTION OF THE WEB SITE - A technique for generating a web site in accordance with received data entry by: determining at least one characteristic of at least one web site dimension of the web site based on the data entry; generating a multi-dimensional description of the web site based on the determined characteristics; retrieving web site data according to the generated multi-dimensional description of the web site; and generating the web site based upon the generated multi-dimensional description of the web site and the retrieved web site data. | 06-26-2014 |
20140344110 | METHOD AND APPARATUS FOR GENERATING A LINK TO A PRESENTED WEB PAGE - A technique for generating links to a web page by: presenting a web page; defining one or more other web pages to include a link to the presented web page; and placing a link on at least one of the other web pages linking to the presented web page. A prompt for an acceptance of the link may be presented to the other web pages whereby a link is not added until the corresponding acceptance of the link is received. | 11-20-2014 |
20150113448 | METHOD AND APPARATUS FOR GENERATING A WEB SITE WITH DYNAMIC CONTENT DATA FROM AN EXTERNAL DATA SOURCE INTEGRATED THEREIN - A technique for generating a web site in accordance with received data entry by: determining at least one characteristic of at least one web site dimension of the web site based on the data entry; generating a multi-dimensional description of the web site based on the determined characteristics; retrieving web site data according to the generated multi-dimensional description of the web site; and generating the web site based upon the generated multi-dimensional description of the web site and the retrieved web site data. The web site data includes dynamic content data from an external data source, and the data entry may include a designation of such an external data source. | 04-23-2015 |
Patent application number | Description | Published |
20130032737 | BATTERY-POWERED CONTROL VALVE AND OPERATION THEREOF - The present disclosure describes, among other things, a method. The method may include receiving, by a wireless communication device, an instruction to actuate a valve. The method may also include receiving a period of time. The method may also include applying energy from a battery to the valve for the period of time. | 02-07-2013 |
20130035796 | BATTERY-POWERED CONTROL VALVE AND OPERATION THEREOF - The present disclosure describes, among other things, a method. The method may include receiving an instruction to actuate a valve. The method may also include receiving a first period of time. The method may also include applying energy to the valve for the first period of time. The method may also include comparing a first state of the valve with a state in the instruction. The method may also include determining a second period of time by increasing the first period of time. The method may also include applying energy to the valve for the second period of time. The method may also include determining that a second state of the valve matches the state in the instruction. | 02-07-2013 |
20140192836 | RESONANT DEW POINT MEASURING DEVICE - A dew and/or frost point measurement instrument and related method are disclosed. An electrically actuated micro/nanoscale resonating element is formed over a resonator substrate. A temperature controlled platform is provided in thermal communication with the resonator substrate. A temperature sensing element is provided in thermal communication with the resonating element. A sustaining amplifier stimulates the resonating element to maintain substantially continuous oscillations at one of its mechanical natural frequencies. A control circuitry monitors the resonator frequency, controls the temperature of the resonator substrate accordingly, and interprets a dew or frost point of a gaseous compound of interest. | 07-10-2014 |