Patent application number | Description | Published |
20100301502 | METHOD OF DIRECTLY MOLDING FERRULE ON FIBER OPTIC CABLE - A method of directly molding a fiber optic ferrule on an end of a fiber optic cable is disclosed. The method preferably includes stripping a cable jacket and/or a buffer layer from optical fibers of the fiber optic cable and trimming the optical fibers with a laser thereby creating trimmed ends on the optical fibers. The optical fibers and preferably a pin assembly are held near the end of the fiber optic cable by an optical fiber and pin locator. The optical fiber and pin locator can statically or dynamically hold and position the optical fibers and pin assembly. After the optical fibers and/or the pin assembly are positioned, a fixture is attached to the trimmed ends of the optical fibers and/or the pin assembly thereby preserving their relative position to each other. After the fixture is attached, the optical fiber and pin locator is removed, and the end of the fiber optic cable with the attached fixture is placed into a mold cavity. A molding material is injected into the mold cavity thereby overmolding a substantial portion of the end of the fiber optic cable and thereby creating a molded body of the fiber optic ferrule. After molding, the fixture is removed. The fixture preferably includes a thin film that is hardened on the trimmed ends of the optical fibers while the optical fiber and pin locator is attached. | 12-02-2010 |
20110026886 | Multi-Fiber Loop Back Plug - The present disclosure relates to a loop back plug including a ferrule having a distal side and a proximal side. The ferrule defines a plurality of openings that extend through the ferrule from the distal side to the proximal side. The openings are arranged in first and second parallel rows. The loop back plug also includes a plurality of loop back optical fibers each having first and second end portions secured within the openings of the ferrule. At least some of the loop back optical fibers are looped between the openings of the first and second rows with their first end portions secured within the openings of the first row and their second end portions secured within the openings of the second row. | 02-03-2011 |
20110103748 | FIBER OPTIC FERRULE ASSEMBLY WITH TRANSITIONING INSERT - A fiber optic ferrule assembly includes a ferrule with an axial passage, an insert with an axial passage, and a hub with an axial passage. The axial passage of the ferrule includes a first diameter portion having a diameter of at least 125 microns, and the axial passage of the insert includes a second diameter portion having a diameter of at least 250 microns. The axial passage of the hub holds at least a portion of the ferrule and the insert. The fiber optic ferrule assembly terminates a fiber optic cable including an inner fiber, an outer coating around the inner fiber, and a buffer layer around the outer coating. The first diameter portion only receives the inner fiber and no outer coating, and the second diameter portion receives at least a portion of an exposed portion of the outer coating and no buffer layer. Minimal epoxy is applied around a transition area near an end of the outer coating. A method of assembling a terminated fiber optic cable is also provided. | 05-05-2011 |
20110262084 | FIBER OPTIC CABLE ASSEMBLY AND METHOD OF MAKING THE SAME - A fiber optic cable assembly includes a main fiber optic cable and a pre-connectorized fiber optic cable assembly. Optical fibers of the main fiber optic cable are mass fusion spliced to optical fibers of the pre-connectorized fiber optic cable assembly thereby forming a mass fusion splice. The mass fusion splice is positioned within an outer jacket of the main fiber optic cable. A reinforcing member and a protective transition member are applied to make the fiber optic cable assembly. A method of making the fiber optic cable assembly is also disclosed. | 10-27-2011 |
Patent application number | Description | Published |
20080243867 | Reliable and scalable multi-tenant asynchronous processing - In a multi-tenant environment, synchronous processing requests from clients associated with tenants are handled by middle tier servers, which forward requests for asynchronous processing to queues associated with organizational databases for each tenant directed by a locator service. A group of independent asynchronous processing servers are used to perform the asynchronous processing interacting with the databases in a distributed manner. The allocation of the requests among the asynchronous servers is managed by an exponential back off for organizations with no waiting requests algorithm combined with a quota system based on historic load for organizations that have requests. The independence of the synchronous and asynchronous processing servers, as well as the distributed interaction between the asynchronous processing servers and the databases enables scalability of the system based on request types and implementation of reliable recovery mechanisms. | 10-02-2008 |
20080244184 | In-memory caching of shared customizable multi-tenant data - In a multi-tenant data sharing environment with shared, customizable data attributes are assigned to requested data and stored in a cache store along with the requested data. For non-customized data designated as system data, one copy is stored in the cache store for use by multiple tenants allowing optimization of memory and performance for each data request/retrieval operation. A “delete sentinel” attribute may be assigned to non-existing data in the cache store enabling notification of requesting tenant(s) without a need to access the tenant data store each time a request for the non-existing data is received. | 10-02-2008 |
20080256607 | Extensible and programmable multi-tenant service architecture - An extensible, multi-tenant software-as-a-service business application platform is provided for hosting multiple organizations. Organization services are provided by virtual or physical servers with dedicated data stores assembled in scalable groups. Distributed interaction between components of the scalable groups may enable extensibility and reliability, while changes in locations of organization services are provided to the client(s) for seamless continuation of the client's access to the services. Customizable and dynamic APIs for accessing each organization's data and applications isolated from the others and pluggable third party authentication services may also be integrated into the platform. | 10-16-2008 |
20080271059 | Executing business logic extensions on a client computing system - Technologies are described herein for executing business logic extensions on a client computing system. A server platform exposes server-hosted application services to client applications. Calls to the server-hosted application services may be executed along with custom business logic extensions. A client platform is also provided that exposes client-hosted application services to a client application. The same business logic extensions that execute on the server platform can be utilized by the client platform. When a client application is online and connected to the server platform, the client application utilizes the server-hosted application services in the manner described above. When the client application is offline, the client application utilizes the client-hosted application services. The server platform synchronizes the business logic extensions to the client platform. | 10-30-2008 |
20090049056 | Multi-tenant hosted application system - Technologies are described herein for implementing a hosted multi-tenant application system. The server computers utilized to provide the hosted application are organized into logical groupings of server computers called scale groups. One or more tenants are assigned to each scale group. When a new tenant is provisioned, the tenant is assigned to a scale group and a database server in the assigned scale group creates a database for the tenant. An association between the tenant and the scale group is also created in a shared configuration database. When a request is received from a tenant to access the hosted application, the shared configuration database is consulted to locate the scale group hosting the tenant. Once the appropriate scale group has been located, the request is redirected to the appropriate scale group for processing. | 02-19-2009 |
20090327139 | Loosely coupled hosted application system - Technologies are described herein for loosely coupling a hosted application system with other computing systems that provide related functionality. A hosted application system is provided in one embodiment that is loosely coupled to a marketing system, a sign-up system, a billing system, and a support system. The loose coupling of the systems allows the hosted application system to be easily configured to restrict the software to which a particular customer can subscribe based upon the capacity of the hosted application system, the qualifications of a customer, or other factors. The computing systems may be configured to communicate via idempotent network APIs, thereby permitting multiple retries to ensure successful completion of requests. | 12-31-2009 |
20100211548 | TENANT MANAGEMENT OF A HOSTED MULTI-TENANT APPLICATION - A hosted multi-tenant application is provided that permits a tenant to self-manage aspects of the operation of the application. A tenant may be permitted to upgrade the multi-tenant application on-demand or according to a schedule, to place the multi-tenant application into a read-only mode of operation, to create a shadow copy of their unshared organization database, to merge changes to a shadow copy into a master version of the unshared organization database, to create and revert to snapshots of an unshared organization database, and to perform other functions. A computing architecture that utilizes site-wide server computers and scale groups may be utilized to implement this functionality. | 08-19-2010 |
20110252089 | Extensible and Programmable Multi-Tenant Service Architecture - An extensible, multi-tenant software-as-a-service business application platform is provided for hosting multiple organizations. Organization services are provided by virtual or physical servers with dedicated data stores assembled in scalable groups. Distributed interaction between components of the scalable groups may enable extensibility and reliability, while changes in locations of organization services are provided to the client(s) for seamless continuation of the client's access to the services. Customizable and dynamic APIs for accessing each organization's data and applications isolated from the others and pluggable third party authentication services may also be integrated into the platform. | 10-13-2011 |
20120023162 | Executing Business Logic Extensions on a Client Computing System - A server platform exposes server-hosted application services to client applications. Calls to the server-hosted application services may be executed along with custom business logic extensions. A client platform is also provided that exposes client-hosted application services to a client application. The same business logic extensions that execute on the server platform can be utilized by the client platform. When a client application is online and connected to the server platform, the client application utilizes the server-hosted application services in the manner described above. When the client application is offline, the client application utilizes the client-hosted application services. The server platform synchronizes the business logic extensions to the client platform. | 01-26-2012 |
20120210390 | Extensible and Programmable Multi-Tenant Service Architecture - An extensible, multi-tenant software-as-a-service business application platform is provided for hosting multiple organizations. Organization services are provided by virtual or physical servers with dedicated data stores assembled in scalable groups. Distributed interaction between components of the scalable groups may enable extensibility and reliability, while changes in locations of organization services are provided to the client(s) for seamless continuation of the client's access to the services. Customizable and dynamic APIs for accessing each organization's data and applications isolated from the others and pluggable third party authentication services may also be integrated into the platform. | 08-16-2012 |
20140012900 | Extensible and Programmable Multi-Tenant Service Architecture - An extensible, multi-tenant software-as-a-service business application platform is provided for hosting multiple organizations. Organization services are provided by virtual or physical servers with dedicated data stores assembled in scalable groups. Distributed interaction between components of the scalable groups may enable extensibility and reliability, while changes in locations of organization services are provided to the client(s) for seamless continuation of the client's access to the services. Customizable and dynamic APIs for accessing each organization's data and applications isolated from the others and pluggable third party authentication services may also be integrated into the platform. | 01-09-2014 |
Patent application number | Description | Published |
20120170896 | LC Connector and Method of Assembly - A fiber optic connector includes a front housing having sidewalls each defining a slot and a rear insert with a pair of locking flanges extending radially away, the locking flanges configured to snap-fit into the slots, each locking flange defining a front face and a rear face, the radially outermost portion of the rear face defining an edge, the edge being the rearmost extending portion of the locking flange. Another fiber optic connector includes a front housing defining a front opening at a front end, a circular rear opening at a rear end, and an internal cavity extending therebetween. A rear insert including a generally cylindrical front portion is inserted into the front housing through the circular rear opening, the front portion defining at least one longitudinal flat configured to reduce the overall diameter of the generally cylindrical front portion configured to be inserted into the front housing. | 07-05-2012 |
20120176607 | Testing of Optical Cable Using Optical Time Domain Reflectometry - Methods for testing optical equipment are disclosed. One method includes connecting an optical time domain reflectometer to optical equipment to be tested, the optical equipment including at least one optical connector. The method includes injecting an optical signal onto the optical equipment from the optical time domain reflectometer, and observing an amount of reflected light at the connector. Based on the observed reflected light, an amount of loss attributable to the optical equipment is determined. | 07-12-2012 |
20130089292 | FIBER OPTIC CASSETTE, SYSTEM, AND METHOD - A fiber optic cassette including a body defining a front and an opposite rear and an enclosed interior. A cable entry location is defined in the body for a cable to enter the interior of the cassette. The cable which enters at the cable entry location is attached to the cassette body and the fibers are extended into the cassette body and form terminations at connectors. The connectors are connected to adapters located at the front of the cassette. A front side of the adapters defines termination locations for cables to be connected to the fibers connected at the rear of the adapters. A cable including a jacket, a strength member, and fibers enters the cassette. The strength member is crimped to a crimp tube and is mounted to the cassette body, allowing the fibers to extend past the crimp tube into the interior of the cassette body. A strain relief boot is provided at the cable entry location. | 04-11-2013 |
20130156379 | Tools and Methods for Preparing a Ferrule-Less Optical Fiber Connector - A tool set for terminating an optical fiber with a fiber optic connector includes a crimping tool and a polishing tool. The crimping tool includes a locating feature for locating a housing of the fiber optic connector, a stop for locating an end of an optical fiber relative to the housing, and at least one anvil for crimping a crimp of the fiber optic connector to secure a position of the optical fiber relative to the housing. The polishing tool includes a locating feature for locating the housing and thereby locating the end of the optical fiber and a seat for activating a compression member of the fiber optic connector thereby securing the end of the optical fiber to the polishing tool. | 06-20-2013 |
20130183001 | OPTICAL FIBER ALIGNMENT DEVICE AND METHOD - A fiber optic alignment device includes two alignment blocks and two gel blocks. A fiber passage is adapted to receive a first optical fiber through the first end and a second optical fiber through the second end. An intermediate portion is adapted to align the first and the second optical fibers between the first and the second alignment blocks. A first portion of the fiber passage extends between the first alignment block and the first gel block. A second portion of the fiber passage extends between the second alignment block and the second gel block. End portions of the first and the second optical fibers may be cleaned when slid between the alignment blocks and the gel blocks. The fiber passage may include an undulating portion. | 07-18-2013 |
20140061356 | CABLE PACKING SYSTEMS AND METHODS - A method of packing a plurality of lengths of cable includes routing a first length of cable around a first guide that extends from a first half of a packing system base. A second length of cable is routed around a second guide that extends from a second half of the packing system base. A third length of the cable is routed around the first guide such that the third length of cable is located on the first length. The second half of the packing system base is then folded onto the first half, such that the second length of cable is deposited on top of the third length of cable, around the first guide. The second half is then unfolded from the first half such that the first length of cable, the second length of cable, and the third length of cable form a first cable loop. | 03-06-2014 |
20140064665 | Fiber Optic Connector, Fiber Optic Connector and Cable Assembly, and Methods for Manufacturing - A fiber optic cable and connector assembly including a fiber optic connector mounted at the end of a fiber optic cable. The fiber optic connector includes a ferrule assembly including a stub fiber supported within a ferrule. The stub fiber is fusion spliced to an optical fiber of the fiber optic cable at a location within the fiber optic connector. | 03-06-2014 |
20140068913 | Tuned Fiber Optic Connectors - A method of tuning a fiber optic connector includes: assembling the fiber optic connector to a partially assembled state; tuning the fiber optic connector in the partially assembled state; assembling the fiber optic connector to an assembled state; and tuning the fiber optic connector in the assembled state. | 03-13-2014 |
20140072265 | MANUFACTURING AND USING FERRULE-LESS MULTI-FIBER CONNECTORS - A connection system includes an optical connector assembly; and an optical plug. The connector assembly includes a stack of gel-groove assemblies and a spring assembly mounted within a housing. Each of the gel-groove assemblies includes a first gel block at a first axial end, a second gel block at a second axial end, and a fiber mating region between the first and second gel blocks. The optical plug including sub-modules over-molded over arrays (e.g., ribbons) of the optical fibers. Each sub-module defines notches for receiving latches of the spring assembly when the optical plug is coupled to the first axial end of the optical adapter. Bare optical fibers extend from the plug, pass through the first axial gel block, and enter the fiber mating region when the plug is coupled to the adapter. | 03-13-2014 |
Patent application number | Description | Published |
20140091169 | Rapid Deployment Packaging for Optical Fiber - A packaging arrangement for telecommunications cabling is disclosed herein. The packaging arrangement includes a modular spool assembly defined by a first flange, an opposing second flange, and a spool hub separating the first flange from the second flange, wherein a telecommunications cable may be wound between the first and second flanges. Each flange defines a first cable contact side, a second cable-end storage side, and an opening allowing the telecommunications cable to pass from the first side to the second side, the second side defining a storage compartment for storing an end of the telecommunications cable passing through the opening in the flange. | 04-03-2014 |
20140093212 | MOLDED FERRULES FOR OPTICAL FIBERS - A method of manufacturing fiber optic connectors includes precision molding optical ferrule assemblies around optical fibers for use in the connectors. The optical ferrule assemblies are over-molded in two-parts: a ferrule and a hub. The ferrule is molded around a coated section of fiber and a fiber tip is formed (e.g., using a laser) at a stripped section of the optical fiber at a location axially spaced from the ferrule. The fiber is pulled into the ferrule to align the tip and the hub is formed to complete the ferrule assembly. | 04-03-2014 |
20140270676 | MODULAR HIGH DENSITY TELECOMMUNICATIONS FRAME AND CHASSIS SYSTEM - A fiber optic telecommunications device includes a frame defining a right vertical support and a left vertical support. A chassis is mounted to the right and left vertical supports, wherein the chassis is configured to pivot about a pivot axis that is defined by one of the right and left vertical supports. A plurality of modules are mounted on the chassis, each of the modules slidable on the chassis along a direction extending between the right and left vertical supports, wherein the chassis is configured to pivot about a plane parallel to the sliding direction of the modules, each module defining fiber optic connection locations. | 09-18-2014 |
20150016780 | LC Connector and Method of Assembly - A fiber optic connector includes a front housing having sidewalls each defining a slot and a rear insert with a pair of locking flanges extending radially away, the locking flanges configured to snap-fit into the slots, each locking flange defining a front face and a rear face, the radially outermost portion of the rear face defining an edge, the edge being the rearmost extending portion of the locking flange. Another fiber optic connector includes a front housing defining a front opening at a front end, a circular rear opening at a rear end, and an internal cavity extending therebetween. A rear insert including a generally cylindrical front portion is inserted into the front housing through the circular rear opening, the front portion defining at least one longitudinal flat configured to reduce the overall diameter of the generally cylindrical front portion configured to be inserted into the front housing. | 01-15-2015 |
20150253519 | TOOLS AND METHODS FOR PREPARING A FERRULE-LESS OPTICAL FIBER CONNECTOR - A tool set for terminating an optical fiber with a fiber optic connector includes a crimping tool and a polishing tool. The crimping tool includes a locating feature for locating a housing of the fiber optic connector, a stop for locating an end of an optical fiber relative to the housing, and at least one anvil for crimping a crimp of the fiber optic connector to secure a position of the optical fiber relative to the housing. The polishing tool includes a locating feature for locating the housing and thereby locating the end of the optical fiber and a seat for activating a compression member of the fiber optic connector thereby securing the end of the optical fiber to the polishing tool. | 09-10-2015 |
20150260922 | OPTICAL FIBER CONNECTOR - An optical fiber connection system includes a first and a second optical fiber, each with end portions that are terminated by a first and a second fiber optic connector, respectively. A fiber optic adapter connects the first and the second fiber optic connectors. The fiber optic adapter includes a housing and a fiber alignment apparatus. The fiber alignment apparatus includes V-blocks and gel blocks. Each of the fiber optic connectors includes a connector housing and a sheath. The end portions of the optical fibers are positioned beyond distal ends of the respective connector housings. The sheath is slidably connected to the connector housing and slides between an extended configuration and a retracted configuration. The sheath covers the end portion of the respective optical fiber when the sheath is at the extended configuration and exposes the end portion when at the retracted configuration. The end portions of the optical fibers are cleaned when slid between the V-blocks and the gel blocks. | 09-17-2015 |
20150260925 | OPTICAL FIBER ALIGNMENT DEVICE AND METHOD - A fiber optic alignment device includes a first and a second alignment block and a first and a second gel block. A fiber passage extends from a first end to a second end of the fiber optic alignment device. The fiber passage is adapted to receive a first optical fiber through the first end and a second optical fiber through the second end. An intermediate portion of the fiber passage is positioned between the first and the second ends. The intermediate portion is adapted to align the first and the second optical fibers between the first and the second alignment blocks. A first portion of the fiber passage is positioned between the first end and the intermediate portion of the fiber passage. The first portion extends between the first alignment block and the first gel block. A second portion of the fiber passage is positioned between the second end and the intermediate portion of the fiber passage. The second portion extends between the second alignment block and the second gel block. End portions of the first and the second optical fibers may be cleaned when slid between the alignment blocks and the gel blocks. The fiber passage may include an undulating portion. | 09-17-2015 |
20150293313 | FIBER OPTIC CONNECTOR, FIBER OPTIC CONNECTOR AND CABLE ASSEMBLY, AND METHODS FOR MANUFACTURING - A fiber optic cable and connector assembly including a fiber optic connector mounted at the end of a fiber optic cable. The fiber optic connector includes a ferrule assembly including a stub fiber supported within a ferrule. The stub fiber is fusion spliced to an optical fiber of the fiber optic cable at a location within the fiber optic connector. | 10-15-2015 |
20150338582 | SYSTEMS AND METHOD FOR PROCESSING OPTICAL CABLE ASSEMBLIES - A processing system to connectorize optical cables includes processing stations on a table arrangement; and a track arrangement. The processing stations include: a strip-clean-cleave station that creates prepared ends of cable fibers and stub fibers; a splice station that fusion splices the prepared ends of cable and stub fibers; an overmold station that injection molds hubs around the splices; a UV cure station and a heat cure station for the injection molding; and a connector assembly station at which an optical connector is assembled at an end of each optical cable. | 11-26-2015 |