Patent application number | Description | Published |
20130246275 | ENHANCED COMMUNICATION PLATFORM AND RELATED COMMUNICATION METHOD USING THE PLATFORM - Pre-authorized communication services and/or transactions are provided via a plurality of networks in response to a request received from a user to provide at least one of a communication service, a transaction and user account information via a plurality of networks of different types. Prior to processing the request, there is verification of the user's authorization to receive the at least one of the communication service, the transaction, and the user account information, and that an account associated with the user has a sufficient amount currently available for payment of the at least one of the communication service and the transaction. After verification, an authorized account associated with the user is charged in real time as the at least one of the communication service and the transaction is provided. | 09-19-2013 |
20150113609 | ENHANCED COMMUNICATION PLATFORM AND RELATED COMMUNICATION METHOD USING THE PLATFORM - Pre-authorized communication services and/or transactions are provided via a plurality of networks in response to a request received from a user to provide at least one of a communication service, a transaction and user account information via a plurality of networks of different types. Prior to processing the request, there is verification of the users authorization to receive the at least one of the communication service, the transaction, and the user account information, and that an account associated with the user has a sufficient amount currently available for payment of the at least one of the communication service and the transaction. After verification, an authorized account associated with the user is charged in real time as the at least one of the communication service and the transaction is provided. | 04-23-2015 |
20150213446 | ENHANCED COMMUNICATION PLATFORM AND RELATED COMMUNICATION METHOD USING THE PLATFORM - Pre-authorized communication services and/or transactions are provided via a plurality of networks in response to a request received from a user to provide at least one of a communication service, a transaction and user account information via a plurality of networks of different types. Prior to processing the request, there is verification of the user's authorization to receive the at least one of the communication service, the transaction, and the user account information, and that an account associated with the user has a sufficient amount currently available for payment of the at least one of the communication service and the transaction. After verification, an authorized account associated with the user is charged in real time as the at least one of the communication service and the transaction is provided. | 07-30-2015 |
Patent application number | Description | Published |
20120106727 | Data and Call Routing and Forwarding - One or more aspects of the disclosure relate to various functions and processes related to routing of calls originating from other service providers. For example, a method includes receiving a request to route a call or a call session, such as a session initiation request, from a second service provider and proceeding to route the requested call or session through a call routing facility of the first service provider to a requested destination of the call. Routing the call through the call routing facility may include determining a service provider type and/or an origination number type for the call, determining routing information for the call using the type information, and causing routing of the call to a destination of the call based on the routing information. Further aspects of the disclosure relate to various functions and processes related to accessing routing data and/or information from a routing database. | 05-03-2012 |
20120201368 | Origination and Destination Based Routing - One or more aspects of the disclosure relate to various functions and processes related to routing of calls based on origination and/or destination information. In one aspect, a method may comprise receiving a request for a call session, and the request may include an indicator that may indicate whether to route a call based on origination and/or destination information of the call session. Based on the indicator, a routing element may determine whether the call session should be routed based on origination information and/or destination information. | 08-09-2012 |
20130287201 | Data and Call Routing and Forwarding - One or more aspects of the disclosure relate to various functions and processes related to routing of calls originating from other service providers. For example, a method includes receiving a request to route a call or a call session, such as a session initiation request, from a second service provider and proceeding to route the requested call or session through a call routing facility of the first service provider to a requested destination of the call. Routing the call through the call routing facility may include determining a service provider type and/or an origination number type for the call, determining routing information for the call using the type information, and causing routing of the call to a destination of the call based on the routing information. Further aspects of the disclosure relate to various functions and processes related to accessing routing data and/or information from a routing database. | 10-31-2013 |
20140140198 | Fault Routing Of An Emergency Communication - Aspects of the disclosure relate to routing of an emergency communication under fault conditions. Routing can be implemented in a packet-switching (PS) network that provides voice service. For a network node of the PS network, availability to route the emergency communication through a specific emergency service routing number (ESRN) can be determined and, in response to the network node being unavailable, administrative data associated with the ESRN can be accessed. In addition, an identifier associated with the administrative data can be updated (e.g., created or modified) with data indicative of the device that originated the emergency communication. The administrative data and the resulting identifier can be delivered to a second network node that can route the emergency communication to an emergency service network. | 05-22-2014 |
20150103994 | Data and Call Routing and Forwarding - One or more aspects of the disclosure relate to various functions and processes related to routing of calls originating from other service providers. For example, a method includes receiving a request to route a call or a call session, such as a session initiation request, from a second service provider and proceeding to route the requested call or session through a call routing facility of the first service provider to a requested destination of the call. Routing the call through the call routing facility may include determining a service provider type and/or an origination number type for the call, determining routing information for the call using the type information, and causing routing of the call to a destination of the call based on the routing information. Further aspects of the disclosure relate to various functions and processes related to accessing routing data and/or information from a routing database. | 04-16-2015 |
Patent application number | Description | Published |
20090168049 | METHOD AND APPARATUS FOR MEASURING ANALYTES - A method for measuring the concentration of a compound in the blood of a part of a subject is provided. An invasive or non-invasive sample of blood may be used for this determination. Also provided is a device for measuring the concentration of a compound in the blood of a subject. The device comprises a source of electromagnetic radiation, a holder, a detector and a processing system. | 07-02-2009 |
20090221886 | METHOD AND APPARATUS FOR MEASURING ANALYTES - A method for measuring the concentration of various analytes in the blood of a part of a subject is provided An invasive or non-invasive sample of blood may be used for this determination Also provided is a device for measuring the concentration of a compound in the blood of a subject. The device comprises a source of electromagnetic radiation, a holder, a detector and a processing system. | 09-03-2009 |
20130215426 | METHOD AND APPARATUS FOR ANALYTE DETECTION - A photo-spectroscopic analytic device is given for detecting analytes in a sample. The analyte may be microbial pathogen, a food sample, a sample of a body fluid, water, or a combination thereof. The device comprises an electromagnetic radiation (EMR) source in operative communication with one or more optic inputs, one or more receptors for receiving one or more sample holders, each receptor comprising one or more of the optic inputs which are operatively coupled to one or more optic outputs thereby forming an optic input-optic output pair. Each of the receptors may comprise different cross-sectional profiles corresponding to cross-sectional profiles of the sample holders. | 08-22-2013 |
20130248695 | METHOD AND APPARATUS FOR ANALYTE DETECTION - Methods and apparatus for identifying an analyte in a sample are provided. The apparatus comprises an electromagnetic radiation (EMR) source in optical communication with a receptor. The receptor for receiving a sample and detecting if the sample has been presented to the receptor in a predefined manner. The receptor further directing the EMR received from the EMR source to the sample. The apparatus also comprises a detector in optical communication with the receptor, the detector for capturing transmitted, reflected, scattered EMR, or a combination thereof from the sample received from the receptor. The apparatus further comprises a user interface for presenting information obtained from the sample and the receptor, and the characteristics of one or more analytes in the sample, and a communications unit in operative association with the detector for transmitting the characteristics of one or more analytes in the sample to a processor or spectrograph. | 09-26-2013 |
Patent application number | Description | Published |
20130084355 | Melt Channel Geometries for an Injection Molding System - An injection molding system is disclosed that utilizes a melt channel wherein at least a portion of the melt channel has a noncircular cross-section for balancing shear in a melt stream of moldable material that flows therethrough. The noncircular cross-section of the melt channel portion may be, for e.g., capsule-shaped, extended egg-shaped, oval, teardrop-shaped, or peanut-shaped. A flow splitter is also disclosed that is positioned offset from a central axis of an upstream melt channel to protrude between inlets of respective downstream melt channels, where the upstream melt channel splits into the downstream melt channels, to thereby create a narrower inlet into one of the downstream melt channels and a wider inlet into the other of the downstream melt channels. | 04-04-2013 |
20140099397 | Melt Channel Geometries for an Injection Molding System - An injection molding system is disclosed that utilizes a melt channel wherein at least a portion of the melt channel has a noncircular cross-section for balancing shear in a melt stream of moldable material that flows therethrough. The noncircular cross-section of the melt channel portion may be, for e.g., capsule-shaped, extended egg-shaped, oval, teardrop-shaped, or peanut-shaped. A flow splitter is also disclosed that is positioned offset from a central axis of an upstream melt channel to protrude between inlets of respective downstream melt channels, where the upstream melt channel splits into the downstream melt channels, to thereby create a narrower inlet into one of the downstream melt channels and a wider inlet into the other of the downstream melt channels. | 04-10-2014 |
20150231809 | Melt Channel Geometries for an Injection Molding System - An injection molding system is disclosed that utilizes a melt channel wherein at least a portion of the melt channel has a noncircular cross-section for balancing shear in a melt stream of moldable material that flows therethrough. The noncircular cross-section of the melt channel portion may be, for e.g., capsule-shaped, extended egg-shaped, oval, teardrop-shaped, or peanut-shaped. A flow splitter is also disclosed that is positioned offset from a central axis of an upstream melt channel to protrude between inlets of respective downstream melt channels, where the upstream melt channel splits into the downstream melt channels, to thereby create a narrower inlet into one of the downstream melt channels and a wider inlet into the other of the downstream melt channels. | 08-20-2015 |
Patent application number | Description | Published |
20080317898 | EDGE-GATED NOZZLE - An injection molding apparatus includes a manifold having a manifold melt channel for receiving a melt stream of moldable material under pressure and at least one nozzle having a nozzle melt channel in fluid communication with the manifold melt channel. The nozzle has an opening that intersects with the nozzle melt channel, the opening having a central axis that is at an angle with respect to a central axis of the nozzle. A nozzle tip is coupled to the nozzle at one end of the opening. A valve pin bushing is coupled to the nozzle at an end of the opening opposite the nozzle tip. A valve pin extends through the opening. A primary actuator is connected to the valve pin. A nozzle locator piece is connected to the nozzle for mating with a side plate to locate the nozzle with respect to the mold gate. | 12-25-2008 |
20100227019 | Injection Molding Nozzle Wedge Seal - An injection molding apparatus includes an injection molding nozzle having a nozzle body defining a channel for flow of molding material and a nozzle tip coupled to the nozzle body. The nozzle tip is shaped to define a converging gap with a mold component into which the nozzle tip is inserted during use. A seal piece having a wedge or wedge-like portion is disposed between the nozzle tip and the mold component Pressure of molding material acting on a surface of the wedge portion wedges the wedge portion into the converging gap. | 09-09-2010 |
20100272849 | Melt Channel Geometries for an Injection Molding System - An injection molding system is disclosed that utilizes a melt channel wherein at least a portion of the melt channel has a noncircular cross-section for balancing shear in a melt stream of moldable material that flows therethrough. The noncircular cross-section of the melt channel portion may be, for e.g., capsule-shaped, extended egg-shaped, oval, teardrop-shaped, or peanut-shaped. A flow splitter is also disclosed that is positioned offset from a central axis of an upstream melt channel to protrude between inlets of respective downstream melt channels, where the upstream melt channel splits into the downstream melt channels, to thereby create a narrower inlet into one of the downstream melt channels and a wider inlet into the other of the downstream melt channels. | 10-28-2010 |
20100278962 | Injection Molding Runner Apparatus Having Pressure Seal - An upstream runner component defines an upstream channel for flow of molding material. A downstream runner component defines a downstream channel for flow of molding material. A wedge seal is disposed in a converging gap defined surface of the upstream runner component and the downstream runner component. The wedge seal defines a seal channel connecting the upstream channel to the downstream channel. Pressure of molding material acting on an inside surface of the wedge seal defining the seal channel pushes the wedge seal into sealing contact with the surfaces of the upstream runner component and the downstream runner component defining the converging gap. | 11-04-2010 |
Patent application number | Description | Published |
20140264341 | BIPOLAR JUNCTION TRANSISTORS WITH REDUCED EPITAXIAL BASE FACETS EFFECT FOR LOW PARASITIC COLLECTOR-BASE CAPACITANCE - Fabrication methods, device structures, and design structures for a bipolar junction transistor. A dielectric structure is formed that is coextensive with a single crystal semiconductor material of a substrate in an active device region. A semiconductor layer is formed that includes a single crystal section coupled with the active device region. The semiconductor layer has an edge that overlaps with a top surface of the dielectric structure. An intrinsic base layer is formed on the semiconductor layer. | 09-18-2014 |
20140361300 | BIPOLAR DEVICE HAVING A MONOCRYSTALLINE SEMICONDUCTOR INTRINSIC BASE TO EXTRINSIC BASE LINK-UP REGION - Disclosed are bipolar devices, which incorporate an entirely monocrystalline link-up region between the intrinsic and extrinsic base layers, and methods of forming the devices. In the methods, a selective epitaxial deposition process grows monocrystalline semiconductor material for the extrinsic base layer on an exposed edge portion of a monocrystalline section of an intrinsic base layer. This deposition process is continued to intentionally overgrow the monocrystalline semiconductor material until it grows laterally and essentially covers a dielectric landing pad on a center portion of that same monocrystalline section of the intrinsic base layer. Subsequently, an opening is formed through the extrinsic base layer to the dielectric landing pad and the dielectric landing pad is selectively removed, thereby exposing monocrystalline surfaces only of the intrinsic and extrinsic base layers. A semiconductor layer is then formed by epitaxial deposition on the exposed monocrystalline surfaces, thereby forming the entirely monocrystalline link-up region. | 12-11-2014 |
20140374802 | BIPOLAR TRANSISTOR WITH MASKLESS SELF-ALIGNED EMITTER - Embodiments of the present invention include a method for forming a semiconductor emitter and the resulting structure. The invention comprises forming an epitaxial base layer on a semiconductor substrate. A dielectric layer is deposited over the epitaxial base layer. An opening is etched in a portion of the dielectric layer exposing a portion of the epitaxial base layer and a spacer is deposited along the sidewall of the opening. The emitter is grown from the epitaxial base layer to overlap the top surface of the spacer and a portion of the dielectric layer. The single crystal emitter is formed without a mask and without the requirement of subsequent patterning processes. | 12-25-2014 |
20150021738 | BIPOLAR JUNCTION TRANSISTORS WITH AN AIR GAP IN THE SHALLOW TRENCH ISOLATION - Device structures, fabrication methods, and design structures for a bipolar junction transistor. A trench isolation region is formed in a substrate. The trench isolation region is coextensive with a collector in the substrate. A base layer is formed on the collector and on a first portion of the trench isolation region. A dielectric layer is formed on the base layer and on a second portion of the trench isolation region peripheral to the base layer. After the dielectric layer is formed, the trench isolation region is at least partially removed to define an air gap beneath the dielectric layer and the base layer. | 01-22-2015 |
20150035011 | HETEROJUNCTION BIPOLAR TRANSISTORS WITH REDUCED PARASITIC CAPACITANCE - Fabrication methods, device structures, and design structures for a heterojunction bipolar transistor. A trench isolation region and a collector are formed in a semiconductor substrate. The collector is coextensive with the trench isolation region. A first semiconductor layer is formed that includes a of single crystal section disposed on the collector and on the trench isolation region. A second semiconductor layer is formed that includes a single crystal section disposed on the single crystal section of the first semiconductor layer and that has an outer edge that overlies the trench isolation region. The section of the first semiconductor layer has a second width greater than a first width of the collector. The section of the second semiconductor layer has a third width greater than the second width. A cavity extends laterally from the outer edge of section of the second semiconductor layer to the section of the first semiconductor layer. | 02-05-2015 |
20150053982 | HETEROJUNCTION BIPOLAR TRANSISTORS WITH REDUCED PARASITIC CAPACITANCE - Fabrication methods, device structures, and design structures for a heterojunction bipolar transistor. A trench isolation region and a collector are formed in a semiconductor substrate. The collector is coextensive with the trench isolation region. A first semiconductor layer is formed that includes a of single crystal section disposed on the collector and on the trench isolation region. A second semiconductor layer is formed that includes a single crystal section disposed on the single crystal section of the first semiconductor layer and that has an outer edge that overlies the trench isolation region. The section of the first semiconductor layer has a second width greater than a first width of the collector. The section of the second semiconductor layer has a third width greater than the second width. A cavity extends laterally from the outer edge of section of the second semiconductor layer to the section of the first semiconductor layer. | 02-26-2015 |
20150137185 | HETEROJUNCTION BIPOLAR TRANSISTORS WITH AN AIRGAP BETWEEN THE EXTRINSIC BASE AND COLLECTOR - Fabrication methods, device structures, and design structures for a heterojunction bipolar transistor. A collector is formed in a semiconductor substrate, an intrinsic base is formed on the semiconductor substrate, and an extrinsic base is formed on the intrinsic base. An airgap is located vertically between the extrinsic base and the collector. A contact surface is located adjacent to the airgap. The contact surface is coupled with the collector. A spacer is located laterally between the airgap and the subcollector contact surface. | 05-21-2015 |
20160049503 | BIPOLAR JUNCTION TRANSISTORS WITH REDUCED EPITAXIAL BASE FACETS EFFECT FOR LOW PARASITIC COLLECTOR-BASE CAPACITANCE - Fabrication methods, device structures, and design structures for a bipolar junction transistor. A dielectric structure is formed that is coextensive with a single crystal semiconductor material of a substrate in an active device region. A semiconductor layer is formed that includes a single crystal section coupled with the active device region. The semiconductor layer has an edge that overlaps with a top surface of the dielectric structure. An intrinsic base layer is formed on the semiconductor layer. | 02-18-2016 |
20160087073 | BIPOLAR JUNCTION TRANSISTORS WITH AN AIR GAP IN THE SHALLOW TRENCH ISOLATION - Device structures, fabrication methods, and design structures for a bipolar junction transistor. A trench isolation region is formed in a substrate. The trench isolation region is coextensive with a collector in the substrate. A base layer is formed on the collector and on a first portion of the trench isolation region. A dielectric layer is formed on the base layer and on a second portion of the trench isolation region peripheral to the base layer. After the dielectric layer is formed, the trench isolation region is at least partially removed to define an air gap beneath the dielectric layer and the base layer. | 03-24-2016 |
20160104770 | PROFILE CONTROL OVER A COLLECTOR OF A BIPOLAR JUNCTION TRANSISTOR - Device structures for a bipolar junction transistor. A layer is formed on a top surface of a substrate. A trench is formed in the layer and has a plurality of sidewalls with a width between an opposite pair of the sidewalls that varies with increasing distance from the top surface of the substrate. A collector pedestal of the bipolar junction transistor is formed in the trench. | 04-14-2016 |