Patent application number | Description | Published |
20130206614 | CASE FOR A COMMUNICATION DEVICE - Some embodiments disclosed herein relate to a case for a communication device, having two or more portions movable with respect to each other. A first case portion may cover a particular component or area of the communication device. Accessories or auxiliary structures may be available for use with the particular component, and may be configured to attach to or be used with a communication device housing of a particular size or shape. The first case portion may be moved relative to a second case portion, thereby exposing the component or area of the communication device for use with the accessory. Additional embodiments disclosed herein related to modular components that may be used with cases in order to provide various accessories and features, such as mounts, flashes, batteries, and the like. | 08-15-2013 |
20140071547 | REMOVABLE OPTICAL DEVICES FOR MOBILE ELECTRONIC DEVICES - Some embodiments disclosed herein relate to an optical device with one or more optical components (e.g., lenses) attached to a retainer portion or clip. The optical device can be removably attached to mobile electronic devices, such as mobile phones, tablet computers, media players, and the like. The retainer portion may be configured so as not to interfere with a user's view of a display panel of the mobile device. The optical device may include one or more energy conveying paths to allow energy to be conveyed to and/or from various components of the mobile device, such as flashes or microphones. In some embodiments, additional features may be provided, such as optical components tilted to complement a tilt of an onboard camera of a mobile device, and structures or adapters to reduce friction or allow an optical device to be attached to mobile devices of varying thicknesses. | 03-13-2014 |
20140267882 | REMOVABLE LENSES FOR MOBILE ELECTRONIC DEVICES - In some embodiments, an auxiliary optical system for a mobile electronic device has a mounting component that is configured to be selectively attachable and detachable from the mobile electronic device. The mounting component is configured to be coupled to and decoupled from a multi-lens component with a plurality of lenses. When the multi-lens component is coupled to the mounting component, the multi-lens component can be prevented from moving, such as sliding or rotating. In some embodiments, an auxiliary optical system for a mobile electronic device comprises a removable onboard camera lens or onboard camera of a mobile electronic device. The onboard lens or onboard camera can be removed and/or replaced with another onboard lens or onboard camera with different optical qualities. | 09-18-2014 |
20140268376 | OPTICAL SYSTEMS FOR MOBILE ELECTRONIC DEVICES - Some embodiments disclosed herein relate to an optical system with a mounting component, a light conveyance member, and an optical component. The mounting component may be removably attached to a mobile electronic device, and light entering the optical component may be conveyed to an onboard camera of the mobile electronic device via the light conveyance member. Additional embodiments disclosed herein relate to a protective case with a light conveyance member and an optical component. The protective case may be removably attached to a mobile electronic device, and light entering the optical component may be conveyed to an onboard camera of the mobile electronic device via the light conveyance member. | 09-18-2014 |
20150042877 | AUXILIARY OPTICAL COMPONENTS FOR MOBILE DEVICES - In some embodiments, an auxiliary optical device for a mobile electronic device has a mounting component that is configured to be selectively attachable and detachable from the mobile electronic device. The mounting component is configured to be coupled to and decoupled from a mobile electronic device using an anchor that is inserted into a port of the mobile electronic device. In some embodiments, the auxiliary optical device attaches to the mobile electronic device by clamping or otherwise contracting or squeezing upon a portion of the mobile electronic device. In further embodiments, the auxiliary optical device is configured to be attached to wearable devices, such as eyewear that includes an onboard camera lens. | 02-12-2015 |
20150087359 | SELECTIVELY ATTACHABLE AND REMOVABLE OPTICAL SYSTEMS FOR MOBILE DEVICES - Some embodiments disclosed herein relate to an optical system having multiple (e.g., two or more) optical components attached to a retainer portion, and the retainer portion may be removably attached to mobile electronic devices such as mobile phones, tablet computers, media players, and the like. In some embodiments, the optical components may be permanently or removably attached to the same face of the retainer portion. The optical system may be oriented in at least two different positions with respect to a mobile electronic device. In a first position, a first optical component may be generally aligned with an onboard camera of the mobile electronic device, and in a second potion a second optical component may be aligned with the onboard camera. | 03-26-2015 |
20150116851 | SELECTIVELY ATTACHABLE AND REMOVABLE OPTICAL SYSTEMS FOR MOBILE DEVICES - Some embodiments disclosed herein relate to an optical system having multiple (e.g., two or more) optical components attached to a retainer portion, and the retainer portion may be removably attached to mobile electronic devices such as mobile phones, tablet computers, media players, and the like. In some embodiments, the optical components may be permanently or removably attached to the same face of the retainer portion. The optical system may be oriented in at least two different positions with respect to a mobile electronic device. In a first position, a first optical component may be generally aligned with an onboard camera of the mobile electronic device, and in a second potion a second optical component may be aligned with the onboard camera. | 04-30-2015 |
20150222315 | CASES FOR MOBILE ELECTRONIC DEVICES CONFIGURED TO RECEIVE AUXILIARY OPTICAL DEVICES - Examples of cases and other accessories for mobile electronic devices are provided. Some cases are provided to protect mobile electronic devices from unintended forceful contact that could otherwise cause damage to the mobile electronic devices and/or to protect the mobile electronic devices against unwanted and potentially damaging ingress of harmful materials, such as water, dust, dirt, and/other potentially damaging materials. Some cases can include an attachment region that is configured to receive an auxiliary component to be used and/or attached with the mobile electronic device, such as an auxiliary lens or other optical device that can be used and/or attached with an onboard camera of the mobile electronic device. | 08-06-2015 |
20150293430 | AUXILIARY OPTICAL DEVICES - Disclosed in some examples are auxiliary optical systems for removably attaching to mobile devices, including mobile telephones with onboard cameras, to provide enhanced optical features. Some auxiliary optical systems can be configured to attach to multiple different types and sizes of mobile devices. Some auxiliary optical systems can be configured to attach to a mobile device that includes a protruding onboard camera. For example, in some embodiments, a retainer portion of an auxiliary optical system can comprise a region for receiving the protruding onboard camera in a clearance or friction fit. | 10-15-2015 |
20150370150 | AUXILIARY OPTICAL COMPONENTS FOR MOBILE DEVICES - A multi-lens system can be configured to be selectively attachable to a mobile electronic device having a user-facing onboard camera lens and an outward-facing onboard camera lens. The multi-lens system can attach to the mobile electronic device in at least a first position and a second position. The first lens component in the first position is configured to be in optical alignment with the user-facing onboard camera lens and simultaneously the second lens component is configured to be in optical alignment with the outward-facing onboard camera lens. The first lens component in the second position is configured to be in optical alignment with the outward-facing onboard camera lens and simultaneously the second lens component is configured to be in optical alignment with the user-facing onboard camera lens. A portable attachment accessory can be configured to be selectively attachable to a lens system that is configured to receive a portion of a mobile electronic device. | 12-24-2015 |
Patent application number | Description | Published |
20100283324 | POWER DELIVERY OVER DIGITAL INTERACTION INTERFACE FOR VIDEO AND AUDIO (DiiVA) - A system for delivering power over a network of devices connected through a serial link includes a first and second differential pairs of wires. Each differential pair of wires is double AC coupled by a HPF on one side and by another HPF on an opposite side. An LPF connects a portion of each differential pair of wires between the HPFs to a voltage source, and another LPF connects that portion of each differential pair to a load. The system further includes a third and fourth differential pairs of wires. All four differential pairs of wires are located within a single cable, such as a CAT6 cable. The first, second and third differential pair of wires are used for video links, and the fourth differential pair of wires are used for the bi-directional hybrid link. A power delivery circuit in each device includes a voltage source, a power relay switch, a signature resistor for detection, and a load detector. | 11-11-2010 |
20130191570 | MULTI-MEDIA USB DATA TRANSFER OVER DIGITAL INTERACTION INTERFACE FOR VIDEO AND AUDIO (DiiVA) - A system for delivering USB data over a DiiVA network may include a USB host controller, at least one USB device, a first DiiVA device connected to the USB host controller through an upstream USB port, a second DiiVA device connected to the USB device through a downstream USB port; and a network configured to transfer data between the first DiiVA device and the second DiiVA device according to USB protocol through a DiiVA bi-directional hybrid link in the network. The network is responsive to the USB host controller to deliver contents for the USB protocol through at least one line state information packet and at least one USB data packet transmitted through the hybrid link between the upstream USB port and the downstream USB port. | 07-25-2013 |
20130191872 | VIDEO MANAGEMENT AND CONTROL IN HOME MULTIMEDIA NETWORK - A system may include a video link and a hybrid link that connects a transmitting device to the receiving device, and at least one intermediate hop between the transmitting device and the receiving device. The intermediate hop may be configured to relay video content from the video source to the video sink through the hybrid link using one or more data relay modes. The hybrid link may be configured to perform hybrid link control signaling (HLCS) to manage a physical layer of the hybrid link. The video link between the video source and the video sink may be configured to transmit a video stream the from video source to the video sink over one or more video lanes. A video link training may be implemented for the video link and the hybrid link. | 07-25-2013 |
20140159477 | Power Delivery Over Digital Interaction Interface for Video and Audio (DiiVA) - A system for delivering power over a network of devices connected through a serial link includes a first and second differential pairs of wires. Each differential pair of wires is double AC coupled by a HPF on one side and by another HPF on an opposite side. An LPF connects a portion of each differential pair of wires between the HPFs to a voltage source, and another LPF connects that portion of each differential pair to a load. The system further includes a third and fourth differential pairs of wires. All four differential pairs of wires are located within a single cable, such as a CAT6 cable. The first, second and third differential pair of wires are used for video links, and the fourth differential pair of wires are used for the bi-directional hybrid link. A power delivery circuit in each device includes a voltage source, a power relay switch, a signature resistor for detection, and a load detector. | 06-12-2014 |
Patent application number | Description | Published |
20120096933 | SENSOR WITH G-LOAD ABSORBING SHOULDER - A sensor is provided and includes a body disposed at a point of measurement interest on a rotor at a radial distance from a centerline thereof and having a substantially cylindrical shape and first and second opposing ends and a sensing end coupled to one of the first and second opposing ends, the other of the first and second opposing ends being coupled to a communication system, the sensing end including a sensing device configured to generate a signal reflective of a detected condition at the point of measurement interest, and at least one of the first and the second opposing ends being formed to define a shoulder portion for absorbing gravitational loading. | 04-26-2012 |
20120096934 | COMMUNICATION SYSTEM FOR TURBINE ENGINE - A communication system is provided and includes a sensor to measure a condition at a point of measurement interest defined on a rotor of a turbine at a radial distance from a centerline about which the rotor is rotatable, wiring disposed on the rotor at a radial distance from the centerline, the wiring including a first wiring section coupled to the sensor, a second wiring section and a first connection by which the first and second wiring sections are connectable, a second connection by which the second wiring section transmits a signal reflective of the detected condition to a non-rotating recording element and a temperature compensation module disposed on the second wiring section to adjust the signal. | 04-26-2012 |
20120096946 | SENSOR PACKAGING FOR TURBINE ENGINE - A turbine is provided and includes a rotor, which is rotatable about a centerline thereof, a sensor to measure a condition at a point of measurement interest defined on the rotor at a radial distance from the centerline, a communication system by which condition measurements are transmittable from the sensor to a non-rotating recording system and a probe holder to secure the sensor and a portion of the communication system on the rotor proximate to the point of measurement interest. | 04-26-2012 |
20120096961 | PROBE HOLDER FOR TURBINE ENGINE SENSOR - A turbine is provided and includes a component having a body, which is rotatable about a rotor centerline and which is formed to define a cavity radially proximate to a point of measurement interest defined at a radial distance from the centerline, a sensor to measure a condition at the point of measurement interest, a communication system by which condition measurements are transmittable from the sensor to a non-rotating recording system and a probe holder insertible into the cavity to secure the sensor proximate to the point of measurement interest. | 04-26-2012 |
20120134782 | PURGE SYSTEMS FOR ROTARY MACHINES AND METHODS OF ASSEMBLING SAME - A method for assembling a rotary machine includes providing a first rotatable element. The method also includes coupling a second rotatable element to the first rotatable element. The first rotatable element and the second rotatable element at least partially define a cavity therein and at least one conduit extending substantially axially therebetween. Further, the method includes coupling a purge device including at least one radial channel defined therein and extending to the first rotatable element and to the second rotatable element such that the at least one radial channel is coupled in flow communication with the cavity and with the at least one axial conduit. | 05-31-2012 |
20150040567 | Systems and Methods for Reducing or Limiting One or More Flows Between a Hot Gas Path and a Wheel Space of a Turbine - A turbine assembly is disclosed herein. The turbine assembly may include a rotor with at least one bucket extending radially therefrom. The turbine assembly also may include a stator assembly positioned adjacent to the at least one bucket. Moreover, the turbine assembly may include a seal assembly. The seal assembly may include a first flange extending in a substantially axial direction from the at least one bucket. The seal assembly also may include a second flange extending from the stator assembly in the substantially axial direction opposite the first flange. The second flange may include at least one protuberance projecting towards the first flange. | 02-12-2015 |
Patent application number | Description | Published |
20110017017 | RAPID SYNTHESIS AND SIZE CONTROL OF CHALCOPYRITE-BASED SEMI-CONDUCTOR NANOPARTICLES USING MICROWAVE IRRADIATION | 01-27-2011 |
20110152554 | METHODS OF FORMING SINGLE SOURCE PRECURSORS, METHODS OF FORMING POLYMERIC SINGLE SOURCE PRECURSORS, AND SINGLE SOURCE PRECURSORS AND INTERMEDIATE PRODUCTS FORMED BY SUCH METHODS - Methods of forming single source precursors (SSPs) include forming intermediate products having the empirical formula ½{L | 06-23-2011 |
20120192930 | METHODS FOR FORMING PARTICLES, METHODS OF FORMING SEMICONDUCTOR MATERIALS, METHODS OF FORMING SEMICONDUCTOR DEVICES, AND DEVICES FORMED USING SUCH METHODS - Single source precursors or pre-copolymers of single source precursors are subjected to microwave radiation to form particles of a I-III-VI | 08-02-2012 |
20130026535 | FORMATION OF INTEGRAL COMPOSITE PHOTON ABSORBER LAYER USEFUL FOR PHOTOACTIVE DEVICES AND SENSORS - Methods of forming photoactive devices include infiltrating pores of a solid porous ceramic material with a fluid, which may be a supercritical fluid, carrying at least one single source precursor therein. The single source precursor may be decomposed to form a plurality of particles within the pores of the solid porous ceramic material. Photoactive devices include a solid porous ceramic material exhibiting electrical conductivity, and a plurality of photoactive semiconductor particles within pores of the solid porous ceramic material. | 01-31-2013 |
20130060054 | METHODS OF FORMING SINGLE SOURCE PRECURSORS, METHODS OF FORMING POLYMERIC SINGLE SOURCE PRECURSORS, AND SINGLE SOURCE PRECURSORS FORMED BY SUCH METHODS - Methods of forming single source precursors (SSPs) include forming intermediate products having the empirical formula ½{L | 03-07-2013 |
20130200313 | HYBRID PARTICLES AND ASSOCIATED METHODS - Hybrid particles that comprise a coating surrounding a chalcopyrite material, the coating comprising a metal, a semiconductive material, or a polymer; a core comprising a chalcopyrite material and a shell comprising a functionalized chalcopyrite material, the shell enveloping the core; or a reaction product of a chalcopyrite material and at least one of a reagent, heat, and radiation. Methods of forming the hybrid particles are also disclosed. | 08-08-2013 |
Patent application number | Description | Published |
20100234698 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve. For example, such a device may be used to measure fractional flow reserve (FFR) across a stenotic lesion in order to assess the severity of the lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. Some distance back from the sensor and distal sleeve, the device separates from the guidewire to permit independent control of the sensor delivery device and the guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. The sensing mechanism (sensor) can be a fiber optic pressure sensor, such as a MEMS-based Fabry-Perot fiber optic pressure sensor, for example, or could employ some other technology, e.g., MEMS capacitive or piezoresistive sensor. | 09-16-2010 |
20120136244 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve. For example, such a device may be used to measure fractional flow reserve (FFR) across a stenotic lesion in order to assess the severity of the lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. Some distance back from the sensor and distal sleeve, the device separates from the guidewire to permit independent control of the sensor delivery device and the guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. The sensing mechanism (sensor) can be a fiber optic pressure sensor, such as a MEMS-based Fabry-Perot fiber optic pressure sensor, for example, or could employ some other technology, e.g., MEMS capacitive or piezoresistive sensor. | 05-31-2012 |
20120220883 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve, such as a fractional flow reserve (FFR) across a stenotic lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. The sensing mechanism (sensor) can be a fiber optic pressure sensor, such as a MEMS-based FabryPerot fiber optic pressure sensor, for example, or could employ some other technology, e.g., MEMS capacitive or piezoresistive sensor. | 08-30-2012 |
20130324864 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve. For example, such a device may be used to measure fractional flow reserve (FFR) across a stenotic lesion in order to assess the severity of the lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. Some distance back from the sensor and distal sleeve, the device separates from the guidewire to permit independent control of the sensor delivery device and the guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. | 12-05-2013 |
20130331714 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve, such as a fractional flow reserve (FFR) across a stenotic lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. The sensing mechanism (sensor) can be a fiber optic pressure sensor, such as a MEMS-based FabryPerot fiber optic pressure sensor, for example, or could employ some other technology, e.g., MEMS capacitive or piezoresistive sensor. | 12-12-2013 |
20140275892 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve. For example, such a device may be used to measure fractional flow reserve (FFR) across a stenotic lesion in order to assess the severity of the lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. Some distance back from the sensor and distal sleeve, the device separates from the guidewire to permit independent control of the sensor delivery device and the guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. | 09-18-2014 |
20150173682 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve. For example, such a device may be used to measure fractional flow reserve (FFR) across a stenotic lesion in order to assess the severity of the lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. Some distance back from the sensor and distal sleeve, the device separates from the guidewire to permit independent control of the sensor delivery device and the guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. | 06-25-2015 |
20150359439 | PHYSIOLOGICAL SENSOR DELIVERY DEVICE AND METHOD - An intravascular sensor delivery device for measuring a physiological parameter of a patient, such as blood pressure, within a vascular structure or passage. In some embodiments, the device can be used to measure the pressure gradient across a stenotic lesion or heart valve. For example, such a device may be used to measure fractional flow reserve (FFR) across a stenotic lesion in order to assess the severity of the lesion. The sensor delivery device has a distal sleeve configured to pass or slide over a standard medical guidewire. Some distance back from the sensor and distal sleeve, the device separates from the guidewire to permit independent control of the sensor delivery device and the guidewire. The sensor delivery device can be sized to pass over different sizes of guidewires to enable usage in coronary and peripheral arteries, for example. | 12-17-2015 |
Patent application number | Description | Published |
20100319868 | Industrial Roll With Sensors Having Conformable Conductive Sheets - An industrial roll includes: a substantially cylindrical core having an outer surface and an internal lumen; a polymeric cover circumferentially overlying the core outer surface; and a sensing system. The sensing system includes: a plurality of sensors at least partially embedded in the cover, the sensors configured to sense an operating parameter of the roll and provide signals related to the operating parameter; and a processor operatively associated with the sensors that processes signals provided by the sensors. Each of the plurality of sensors includes: a first electrode overlying the top surface of a substrate and a second electrode underlying the bottom surface of the substrate, wherein the first electrode overlies the top surface of the substrate and the second electrode underlies only a portion of the bottom surface of the substrate, thereby forming a gap adjacent the bottom surface and a side surface of the substrate; a first sheet of conductive material attached to the first electrode and the side surface of the substrate and extended in a first direction away from the bottom surface of the substrate; and a second sheet of conductive material attached to the second electrode and extended in a second direction away from the bottom surface of the substrate, the second surface being opposite the first direction. | 12-23-2010 |
20100324856 | Industrial Roll With Sensors Arranged To Self-Identify Angular Location - An industrial roll includes: a substantially cylindrical core having an outer surface; a polymeric cover circumferentially overlying the core outer surface; and a sensing system. The sensing system comprises: a plurality of sensors embedded in the cover, the sensors configured to detect an operating parameter of the roll and provide signals representative of the operating parameter, wherein one of the plurality of sensors is a tracking sensor and the remaining sensors are non-tracking sensors; and a processor operatively associated with the sensors that processes signals provided by the sensors. The sensors are arranged at a substantially equal radial distance from the core outer surface, such that they define a circle when viewed from an end of the roll. Each of the non-tracking sensors is further arranged at a substantially equal first angular distance from its immediate non-tracking sensor neighbors, two endmost non-tracking sensors defining an angular gap. The tracking sensor is disposed in the angular gap, such that a second angular distance defined by the tracking sensor and either of the endmost sensors differs from the first angular distance. In this configuration, the sensing system can identify from which sensor signals are generated without a trigger signal generator or accelerometer. | 12-23-2010 |
20110301003 | Industrial Roll With Multiple Sensor Arrays - An industrial roll includes: a substantially cylindrical core having an outer surface; a polymeric cover circumferentially overlying the core outer surface; and a sensing system. The sensing system includes: a first signal carrying member serially connecting a first set of sensors; a second signal carrying member serially connecting a second set of sensors; and a signal processing unit operatively associated with the first and second signal carrying members and configured to selectively monitor the signals provided by the first and second set of sensors. | 12-08-2011 |
20130288868 | INDUSTRIAL ROLL WITH MULTIPLE SENSOR ARRAYS - An industrial roll includes: a substantially cylindrical core having an outer surface; a polymeric cover circumferentially overlying the core outer surface; and a sensing system. The sensing system includes: a first signal carrying member serially connecting a first set of sensors; a second signal carrying member serially connecting a second set of sensors; and a signal processing unit operatively associated with the first and second signal carrying members and configured to selectively monitor the signals provided by the first and second set of sensors. | 10-31-2013 |
Patent application number | Description | Published |
20130046791 | DYNAMICALLY GENERATED PHRASE-BASED ASSISTED INPUT - Techniques are disclosed for supplying users in an online environment with a safe and effective chat facility. The chat facility is “safe” in the sense that the ability of users to compose inappropriate messages is greatly restricted, while “effective” in the sense that users are still allowed a broad range of expressivity in composing and exchanging chat messages. | 02-21-2013 |
20130047099 | SOFT-SENDING CHAT MESSAGES - Techniques are disclosed for supplying users in an online environment with a safe and effective chat facility. The chat facility is “safe” in the sense that the ability of users to compose inappropriate messages is greatly restricted, while “effective” in the sense that users are still allowed a broad range of expressivity in composing and exchanging chat messages. | 02-21-2013 |
20140278361 | AUTOCORRECTING TEXT FOR THE PURPOSE OF MATCHING WORDS FROM AN APPROVED CORPUS - System, method, and computer program product to autocorrect text for the purpose of matching words from an approved corpus, by: responsive to receiving a text input comprising a first word, validating the first word against a content corpus, wherein the content corpus comprises a plurality of words approved for display in an online chat, validating the first word against a set of rules, and upon determining that the first word of the text input is not validated against at least one of the content corpus and the set of rules, modifying the text input by replacing the first word with a first approved word from the content corpus. | 09-18-2014 |
20140278367 | COMPREHENSIVE SAFETY SCHEMA FOR ENSURING APPROPRIATENESS OF LANGUAGE IN ONLINE CHAT - A method is disclosed for evaluating a chat message sent between users of an online environment. The method may include associating each word in the chat message with metadata. The metadata identifies a word type and usage for each word in the chat message. This method may also include identifying one or more safety rules associated with the metadata. Each safety rule identifies an ordered sequence of one or more sets of words. This method may also include applying the safety rule to the chat message to determine whether a sequence of words in the chat message present in the ordered sequence of sets of words. Upon determining a word, from each set of words in the ordered sequence of sets of words, matches a respective one of the words in the chat message, the chat message is blocked from being sent to a message recipient. | 09-18-2014 |
20140280638 | REAL-TIME SEARCH AND VALIDATION OF PHRASES USING LINGUISTIC PHRASE COMPONENTS - A method and system is disclosed for evaluating a chat message sent between users of an online environment. The method may include receiving a chat message and parsing the message into words. The method determines the acceptability of the message by matching the message to a plurality of acceptable messages stored in a data structure. Upon determining the message does not match any acceptable messages, the method replaces each word in the message with grammatical metadata. The method may use templates to determine if the message has acceptable word combinations based on the metadata. The method may also compare the metadata to rules wherein the rules determine if the message has unacceptable word combinations based on the metadata. The method may send the message to a user upon determining words in the message do not match any word in a list of unacceptable words. | 09-18-2014 |
Patent application number | Description | Published |
20100162955 | Systems and methods for substrate processing - In accordance with some embodiments described herein, a system for processing substrates includes two or more process modules, a substrate handling robot, a load lock chamber, and a transverse substrate handler. The transverse substrate handler includes mobile transverse chambers configured to convey substrates to process modules, wherein each mobile transverse chamber is configured to maintain a specified gas condition during the conveyance of the substrates. The transverse substrate handler further includes a rail for supporting the mobile transverse chambers, wherein the rail is positioned adjacent to entry of the process modules, and drive systems for moving the mobile transverse chambers on the rail. | 07-01-2010 |
20100167503 | Methods and systems of transferring, docking and processing substrates - In accordance with some embodiments described herein, a method for transferring a substrate to two or more process modules is provided, comprising loading at least one substrate into one or more mobile transverse chambers, the mobile transverse chambers being carried on a rail positioned adjacent to the two or more process modules, and wherein each mobile transverse chamber is configured to maintain a specified gas condition during conveyance of the substrate. One or more drive systems are actuated to propel at least one of the one or more mobile transverse chambers along the rail. The at least one mobile transfer chamber docks to at least one of the process modules, and the substrate is conveyed from the mobile transverse chamber to the at least one process modules. | 07-01-2010 |
20110151119 | Methods and Systems of Transferring, Docking and Processing Substrates - In accordance with some embodiments described herein, a method for transferring a substrate to two or more process modules is provided, comprising loading at least one substrate into one or more mobile transverse chambers, the mobile transverse chambers being carried on a rail positioned adjacent to the two or more process modules, and wherein each mobile transverse chamber is configured to maintain a specified gas condition during conveyance of the substrate. One or more drive systems are actuated to propel at least one of the one or more mobile transverse chambers along the rail. The at least one mobile transfer chamber docks to at least one of the process modules, and the substrate is conveyed from the mobile transverse chamber to the at least one process modules. | 06-23-2011 |
20110217469 | Methods and Systems of Transferring, Docking and Processing Substrates - In accordance with some embodiments described herein, a method for transferring a substrate is provided. The method includes loading one or more substrates into a respective mobile chamber of one or more mobile chambers. The mobile chambers are movable on a first rail positioned adjacent to two or more process modules. Each mobile chamber is configured to maintain a specified gas condition. The respective mobile chamber is moved along the first rail. The respective mobile chamber is docked to a respective process module of the two or more process modules. At least one of the one or more substrates is conveyed from the respective mobile chamber to the respective process module. | 09-08-2011 |
20130260034 | Scanning Injector Assembly Module for Processing Substrate - An injection module assembly (IMA) that moves along a predetermined path to inject gas onto a substrate and discharge excess gas is described. The IMA may be used for processing a substrate that is difficult to move for various reasons such as a large size and weight of the substrate. The IMA is connected to one or more sets of jointed arms with structures to provide one or more paths for injecting the gas or discharging the excess gas. The IMA is moved by a first driving mechanism (e.g., linear motor) and the jointed arms are separately operated by a second driving mechanism (e.g., pulleys and cables) to reduce force or torque caused by the weight of the jointed arms. The movement of the first driving mechanism and the second driving mechanism is synchronized to move the IMA and the jointed arms. | 10-03-2013 |
20140366804 | Performing Atomic Layer Deposition on Large Substrate Using Scanning Reactors - Embodiments relate to a deposition device for depositing one or more layers of material on a substrate using scanning modules that move across the substrate in a chamber filled with reactant precursor. The substrate remains stationary during the process of depositing the one or more layers of material. A chamber enclosing the substrate is filled with reactant precursor to expose the substrate to the reactant precursor. As the scanning modules move across the substrate, the scanning modules remove the reactant precursor in their path and/or revert the reactant precursor to an inactive state. The scanning modules also inject source precursor onto the substrate as the scanning modules move across the substrate. | 12-18-2014 |
20150125627 | RADICAL REACTOR WITH INVERTED ORIENTATION - A radical reactor including an elongated structure received within a chamber of a body of the radical reactor. Radicals are generated within a radical chamber formed in the elongated structure by applying a voltage signal across the elongated structure and an electrode extending within the radical chamber. The radicals generated in the radical chamber are routed via a discharge port of the elongated structure and a conduit formed in the body of the radical reactor onto the substrate. The discharge port and the conduit are not aligned so that irradiation generated in the radical chamber is not directed to the substrate | 05-07-2015 |
20150218698 | SPATIAL DEPOSITION OF MATERIAL USING SHORT-DISTANCE RECIPROCATING MOTIONS - Embodiments relate to performing deposition of material on a substrate by causing short-distance reciprocating motions of the substrate. A series of reactors for injecting material onto the substrate is arranged along the length of the substrate in a repeating manner. During each reciprocating motion, the susceptor moves a distance shorter than an entire length of the substrate. Portions of the substrate are injected with materials by a subset of reactors. Since the movement of the substrate is smaller, a linear deposition device including the susceptor may be made smaller. | 08-06-2015 |
20150259793 | CLEANING OF DEPOSITION DEVICE BY INJECTING CLEANING GAS INTO DEPOSITION DEVICE - Embodiments relate to a deposition device that operates in two modes: a deposition mode, and a cleaning mode. In the deposition mode, modular injectors inject materials onto a substrate to form a layer. In the cleaning mode, the deposition device is cleaned without disassembly by injecting a cleaning gas. The injector module assembly may be cleaned in the cleaning mode by injecting cleaning gas through an exhaust for removing reactant precursor and routing the cleaning gas from the exhaust to another exhaust for removing source precursor. Alternatively, the injector module assembly is cleaned by injecting cleaning gas into a passage between an injector for injecting a source precursor and another injector for injecting a reactant precursor, and routing the cleaning gas to one of the exhausts in the cleaning mode. | 09-17-2015 |
20150275365 | Atomic Layer Deposition Using Injector Module Arrays - An atomic layer deposition (ALD) device includes an array of a plurality of injector modules configured in a plane parallel to a substrate. The plurality of injector modules that form the array are, in some embodiments, configured in a regular array such as in a matrix of columns and/or rows of injector modules. In other embodiments of the array, the injector modules are configured in a periodic pattern. Each of the injector modules of the array injects both source precursor and reactant precursor onto the substrate. | 10-01-2015 |
20150360242 | Linear Deposition Apparatus with Modular Assembly - Embodiments relate to an injection module assembly (IMA) including a body and replaceable injectors installed in a module block. Each of the injectors includes a protruding leg that is received in a support hole formed in the module block. The protruding leg provides support for the injector while an end block at an opposite end of the injector is secured to the module block. The end block and the protruding leg enable convenient mounting or removal of the module. | 12-17-2015 |
20150361548 | Injection Assembly in Linear Deposition Apparatus with Bulging Ridges Extending along Bottom Openings - Embodiments relate to an injection module assembly (IMA) including a body and injectors installed in a module block. The body is formed with a plurality of openings defined by walls extending from the bottom surface to the top surface. Each of the walls includes bulging ridges at the bottom along bottom portions of the injectors. The bulging ridges prevent gas or radicals injected by adjacent injectors from mixing at locations other than on the top surface of a substrate placed below the IMA. Accordingly, the injectors can be placed with closer proximity to each other despite the compact size of the IMA. | 12-17-2015 |
Patent application number | Description | Published |
20090062556 | CARRIER FOR OLEFIN OXIDE CATALYST - A carrier for a catalyst useful for the epoxidation of an olefin which comprises an inert, refractory solid carrier is provided. The carrier has no or little absolute volume from small pores, of less than 1 micrometer, and large pores, of above 5 micrometer. By “no or little absolute volume from small pores of less than 1 micron” it is meant that the pore volume of such pores is less than 0.20 ml/g. By “no or little absolute volume from large pores of above 5 micron” it is meant that the pore volume of such pores is less than 0.20 ml/g. The invention further provides a catalyst useful for the epoxidation of an olefin supported on such a carrier and a process for the oxidation of an olefin, especially ethylene, to an olefin oxide, especially ethylene oxide. | 03-05-2009 |
20090227820 | GEOMETRICALLY SIZED SOLID SHAPED CARRIER FOR OLEFIN EPOXIDATION CATALYST - A geometrically shaped solid carrier is provided that improves the performance and effectiveness of an olefin epoxidation catalyst for epoxidizing an olefin to an olefin oxide. In particular, improved performance and effectiveness of an olefin epoxidation catalyst is achieved by utilizing a geometrically shaped refractory solid carrier in which at least one wall thickness of said carrier is less than 2.5 mm. | 09-10-2009 |
20100016617 | MULLITE-CONTAINING CARRIER FOR ETHYLENE OXIDE CATALYSTS - The present invention relates to an improved carrier for an ethylene epoxidation catalyst, the carrier comprising alumina in combination with a stability-enhancing amount of mullite. The invention is also directed to an improved catalyst containing the improved carrier, as well as an improved process for the epoxidation of ethylene using the catalyst of the invention. | 01-21-2010 |
20100179336 | CARRIER FOR OLEFIN OXIDE CATALYST - A carrier for a catalyst useful for the epoxidation of an olefin which comprises an inert, refractory solid carrier is provided. The carrier has no or little absolute volume from small pores, of less than 1 micrometer, and large pores, of above 5 micrometer. By “no or little absolute volume from small pores of less than 1 micron” it is meant that the pore volume of such pores is less than 0.20 ml/g. By “no or little absolute volume from large pores of above 5 micron” it is meant that the pore volume of such pores is less than 0.20 ml/g. The invention further provides a catalyst useful for the epoxidation of an olefin supported on such a carrier and a process for the oxidation of an olefin, especially ethylene, to an olefin oxide, especially ethylene oxide. | 07-15-2010 |
20110301368 | Carrier for Ethylene Oxide Catalysts - An improved carrier for an ethylene epoxidation catalyst is provided. The carrier includes an alumina component containing a first portion of alumina particles having a particle size of, or greater than, 3 μm and up to 6 μm, and a second portion of alumina particles having a particle size of, or less than, 2 μm. An improved catalyst containing the above-described carrier, as well as an improved process for the epoxidation of ethylene using the catalyst are also provided. | 12-08-2011 |
20120226058 | Carrier for Ethylene Oxide Catalysts - An improved carrier for an ethylene epoxidation catalyst is provided. The carrier includes an alumina component containing a first portion of alumina particles having a mean primary particle size of, or greater than, 2 μm and up to 6 μm, and a second portion of alumina particles having a particle size less than 2 μm. An improved catalyst containing the above-described carrier, as well as an improved process for the epoxidation of ethylene using the catalyst are also provided. | 09-06-2012 |
20130116456 | MULLITE-CONTAINING CARRIER FOR ETHYLENE OXIDE CATALYSTS - The present invention relates to an improved carrier for an ethylene epoxidation catalyst, the carrier comprising alumina in combination with a stability-enhancing amount of mullite. The invention is also directed to an improved catalyst containing the improved carrier, as well as an improved process for the epoxidation of ethylene using the catalyst of the invention. | 05-09-2013 |
20140187417 | CALCINATION PROCESS FOR PRODUCING AN IMPROVED ETHYLENE OXIDE CATALYST - A method for producing a catalyst effective in the oxidative conversion of ethylene to ethylene oxide, the method comprising subjecting a refractory carrier impregnated with a liquid silver-containing solution to a calcination process, wherein the calcination process comprises a solvent removal step in which the silver-impregnated carrier is heated to a base temperature (T | 07-03-2014 |
20140187807 | START-UP PROCESS FOR HIGH SELECTIVITY ETHYLENE OXIDE CATALYSTS - A high selectivity catalyst start-up process is provided in which an excess level of chloride moderator (greater than 1 ppm) is present in the feed gas composition during each of the various stages of the start-up process. The excess level of chloride used in the start-up process maintains a low level of selectivity (less than 86%) during the entire start-up process. Despite the low selectivity values achieved during the start-up process of the present disclosure, high selectivity catalysts that are conditioned by such a start-up process exhibit improved catalyst performance during the normal operation of the catalyst. | 07-03-2014 |
Patent application number | Description | Published |
20110154510 | AUTOMATED HIGH-CONTENT LIVE ANIMAL DRUG SCREENING USING C. ELEGANS - The present invention relates to methods and compositions for high content drug screening in | 06-23-2011 |
20130024953 | Methods of Treating Disorders Associated with Protein Aggregation - The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a | 01-24-2013 |
20140047569 | Methods of Treating Disorders Associated with Protein Aggregation - The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a | 02-13-2014 |
20140331341 | AUTOMATED HIGH-CONTENT LIVE ANIMAL DRUG SCREENING USING C. ELEGANS - The present invention relates to methods and compositions for high content drug screening in | 11-06-2014 |
20150265626 | METHODS OF TREATING DISORDERS ASSOCIATED WITH PROTEIN AGGREGATION - The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a | 09-24-2015 |
Patent application number | Description | Published |
20090252320 | System and Method for Multi-Channel Communication Queuing - An apparatus and method for coordinating communication between one or more agents and a plurality of communication channels associated with different media formats such as telephone, email, and fax. A first request in a first media format can be received via a first communication channel and a second request in a second media format can be received via a second communication channel. Agents can be enabled to access requests in one or more of the media formats, and requests can be assigned to agents based on the types of media formats the agents can access, the subject matter of the requests, and/or the agents' skills. The requests can be placed in a queue until an agent is available to accept the request. Rules for assigning requests to agents can be included in a queuing engine. Agents can also decline a request routed to them, and route the request to another agent or return it back to the queue. | 10-08-2009 |
20120290671 | DYNAMIC SUPPORT OF MULTIPLE MESSAGE FORMATS - A method, system, computer system and computer program product to enable a single interface to be used to prepare and present messages in a variety of different formats. For example, the single interface can be used to prepare, receive or display messages in different languages, such as English or Japanese, which require different character sets. Furthermore, the single interface supports preparing, sending, and receiving messages in multiple text formats, such as plain text, rich text, and Multiple Internet Mail Extension (MIME) format. A message can be received in a native format, and a format for providing a response to the message can be dynamically selected. The response is provided in the dynamically-selected format. | 11-15-2012 |