Tyco Electronics Nederland BV Patent applications |
Patent application number | Title | Published |
20150310988 | Contactless Connector - A contactless connector is provided and includes an inductive coupling element, a first contact lead, a second contact lead, a base plate, and an outer ferrite element. The inductive coupling element includes a plurality of windings, and the first contact lead and the second contact lead are connected to the plurality of windings and carry electric currents in opposing directions. The base plate includes a lead receiving passageway receiving both the first contact lead and the second contact lead, and the outer ferrite element is magnetically coupled to the base plate and partially surrounds the inductive coupling element. | 10-29-2015 |
20150212267 | Optical Assembly - An optical assembly comprising: (a) a substrate having a first planar surface; (b) an optical component connected to the substrate and having a second planar surface parallel to the first surface and at least one first optical axis; (c) a plurality of optical fiber stubs having a certain diameter and being disposed at least partially between the substrate and the optical component; (d) at least one of the substrate or the optical component having one or more grooves on the first or second surfaces, respectively, such that each groove is configured to receive one of the plurality of fiber stubs such that each of the fiber stubs protrudes a first distance from the first or second surface to space the first surface the first distance from the second surface; and (e) a least one optical conduit having a second optical axis, the optical conduit being disposed on the first or second surface such that the second optical axis is optically aligned with the first optical axis. | 07-30-2015 |
20140209762 | Guiding Support And Kit For Terminating A Transmission Cable - A guiding support for guiding a transmission line is disclosed having a holding structure positioned on a rear end and engageable with a fixation member of an end cap. A seat is positioned on a front end of the guiding support, and is engageable with an adapter member of a terminal. A first transmission line receiving channel is positioned along a longitudinal axis of the guiding support from the rear end to the front end. | 07-31-2014 |
20140118219 | Printed Antenna - An antenna is provided, having a foil sheet, an antenna structure and a connector. The foil sheet includes a front side and a back side, while the antenna structure is printed on the front side using a conductive ink. The antenna structure includes a contact pad. The connector is connected to the contact pad and includes a metallic blade extending through the foil sheet and the contact pad. | 05-01-2014 |
20140064672 | End Cap, Arrangement and Kit for Terminating a Transmission Cable - The present invention relates to an end cap for terminating a transmission cable containing at least one transmission line, the end cap comprising at least one lead-through opening for guiding the at least one line from a rear side to a front side of the end cap. Further, the invention relates to a terminating arrangement terminating a transmission cable containing at least one transmission line. Moreover, the invention relates to a kit for a terminating arrangement for terminating a transmission cable. In order to facilitate the termination of a transmission cable, the present invention provides that a passage extending from the rear side to the front side is formed at the end cap, the passage being adapted for accommodating a central strength member of the cable. | 03-06-2014 |
20140054085 | Cable Assembly Comprising A Flexible Support Made From A Textile Material - A cable assembly is provided that includes a plurality of conductor strands and a flexible support having a textile material into which the plurality of conductor strands are integrated and secured. | 02-27-2014 |
20140051288 | High Speed Input/Output Connection Interface Element, Cable Assembly and Interconnection System With Reduced Cross-Talk - A high speed input/output plug assembly is disclosed having a plug body. A plurality of conductive traces are disposed on a surface of the plug body and connectable to an input/output cable. An electrically conductive grounding layer is positioned within the plug body and electrically insulated from the conductive traces, and has an opening extending through the grounding layer and below the conductive traces. | 02-20-2014 |
20140037253 | SEALING ENCLOSURE FOR A CONNECTOR ON A CABLE, SUCH AS A STANDARDIZED FIBER-OPTIC CONNECTOR - The invention relates to a sealing enclosure and a sealing assembly comprising the sealing enclosure and a mating enclosure as well as a method to connect both. The sealing enclosure loosely receives a connector within a connector volume so that the connector, which may be of a standard type used in electronic or optic data transmission, may be displaced within a plug face at the forward end of the connector volume. Thus, the connector may compensate variations in the position of a mating connector with respect to the mating enclosure. Moreover, the sealing enclosure allows to seal off the connector volume and engage the sealing enclosure with a mating enclosure in a single motion. This is affected by having a cable seal interposed between an inner body and an outer body. If the outer body is moved forward to engage the mating connector, the cable seal is squeezed between the cable and the inner body sealing off the connector volume at the rearward end of the inner body. | 02-06-2014 |
20130272655 | WAVELENGTH INSENSITIVE EXPANDED BEAM WITH GRIN FIBER - A GRIN fiber lens connection system particularly suited for high-power laser applications is disclosed. In one aspect, a GRIN fiber lens expanded beam system that is efficient over a wide spectral region, e.g., a range of about 200 nm, 300 nm or 400 nm, is disclosed for coupling one optical fiber (such as a single-mode fiber) to another. For example, a GRIN fiber lens expanded beam system is efficient over a range of wavelengths from about 400 nm to about 800 nm, from about 190 nm to about 390 nm, or from about 1270 nm to about 1650 nm. A method for designing such a coupling system is also disclosed. In another example, the cores of the GRIN fiber lenses are substantially devoid of germanium, and the cladding is doped with an element, such as fluorine, that lowers the refractive index of the cladding. | 10-17-2013 |
20130244511 | TERMINAL ASSEMBLY AND METHOD FOR CONNECTING AN ELECTRIC WIRE TO A TERMINAL ELEMENT - The present invention related to a method for mechanically and electrically connecting an electric wire to a terminal element and to a terminal assembly comprising a terminal element and at least one electric wire that is mechanically and electrically connected to the terminal element. For improving such method and terminal assembly, the method comprises the steps of arranging a connecting portion of the electric wire substantially parallel to the an entrance surface of the contact opening; and connecting a joining section of the connecting portion with the contact opening by plastically deforming a lateral cut of the joining section. The terminal assembly includes a terminal element having at least one contact opening, and at least one electric wire that is mechanically and electrically connected to the contact opening, wherein a connecting portion of the electric wire that is located outside the contact opening runs substantially parallel to an entrance surface of the contact opening, and wherein a joining section of the connecting portion is plastically deformed into and thereby non-positively connected to the contact opening. | 09-19-2013 |
20130183030 | SYSTEM FOR TESTING OF OPTICAL NETWORK - A network comprising: (a) a fiber having first and second ends; (b) a transmitter connected to the first end of the fiber and configured to launch a test signal having a first wavelength down the fiber; and (c) a thin-film selective reflector configured to reflect the first wavelength, the thin-film selective reflector optically connected to the second end of the first fiber. | 07-18-2013 |
20130164979 | RESILIENT BUSHING AND CONNECTOR COMPRISING SAME - The present invention relates to a bushing for contacting a braid of a line within a connector, the bushing is essentially tapering in an insertion direction in which the bushing is adapted to be inserted into the braid in order to be encompassed thereby. Further, the invention relates to a connector comprising a bushing. In order to provide a bushing which allows for being inserted into the braid in a gentle manner and at the same time allows the braid to be evenly contacted with the bushing for establishing a reliable mechanical and/or electrical connection therewith, the present invention provides that the bushing has a radial elasticity allowing a spring tensioned widening and/or compression of the bushing. | 06-27-2013 |
20130094864 | OPTICAL INTERFACE FOR BIDIRECTIONAL COMMUNICATIONS - An optical interface comprising a first portion having at least one optical conduit interface with a first axis for optically coupling with at least one optical conduit, a second portion having at least one transmitter interface with a second axis for optically coupling with a transmitting optical device, and at least one receiver interface with a third axis for optical coupling with a receiving optical device, the first, second and third axes being essentially parallel; and a wavelength filter element (WFE) disposed between the first and second portions, the WFE defining a first optical path between the transmitter interface and the optical conduit interface, and a second optical path between the optical conduit interface and the receiver interface. | 04-18-2013 |
20130084747 | Shielded Enclosure Assembly For At Least One In Particular Standardized Connector On A Cable - The invention relates to an enclosure assembly for at least of a variety of in particular standardized connectors on a cable, such as RJ45, HDMI and others. The enclosure assembly has a connector volume located within an inner body of the enclosure assembly. The connector volume is adapted to moveably accommodate the connector. The inner body is open to an outer environment and a forward and a rearward end. The enclosure assembly further includes an outer body adapted to slide over the inner body in a forward direction. The outer body is provided with at least one locking element for securing the enclosure assembly to a mating enclosure. As a further improvement to the known connector assemblies, the connector volume is located within an electromagnetic shielding structure and the electromagnetic shielding structure is located within the inner body. According to a further embodiment, the electromagnetic shielding structure comprises a fixed shielding substructure and a moveable shielding substructure, which may be automatically connected to each other upon movement of the inner body in the forward direction. | 04-04-2013 |
20130077978 | MULTI-CHANNEL TRANSCEIVER - A transceiver comprising at least one chip comprising at least a first array of long-wavelength VCSELs and at least a second array of receiving optical devices, an optical interface optically coupled to the VCSELs and the receiving optical devices and configured to optically couple with an optical connector, transmitting and receiving circuitry electrically connected the VCSELs and the receiving optical devices, and adapted for connecting to an electrical connector, and a frame for holding the chip, the optical interface, and the transmitting and receiving circuitry. | 03-28-2013 |
20130077913 | FLEXIBLE OPTICAL CIRCUIT - A process of manufacturing an optical flexible circuit comprising: (a) disposing an adhesive layer on at least a portion of a carrier film, said adhesive layer having a downward adhesive face and an upward adhesive face, said downward adhesive face and said carrier film being configured such that said carrier film is removable from said downward adhesive face without disruption of said downward adhesive face; (b) routing one or more fibers on said upward adhesive layer; (c) coating said fibers to define an optical circuit; and (d) optionally parting said carrier film to separate said optical circuit from other optical circuits on said carrier film. | 03-28-2013 |
20130052873 | BACKWARD COMPATIBLE CONTACTLESS SOCKET CONNECTOR, AND BACKWARD COMPATIBLE CONTACTLESS SOCKET CONNECTOR SYSTEM - The invention relates to socket connectors and socket connector systems for electrically connecting a first corresponding plug connector and for capacitively connecting a second corresponding plug connector. Further, the invention relates to a plug connector for capacitively connecting a corresponding socket connector. In order to allow for an electrical connection or a capacitive connection, the invention suggest providing a connecting element, arranged within the housing of the socket connector, including contact portion for contacting a connection area of the first plug connector, and a non-contact portion arranged such that, in the mated state, the surface thereof covers at least parts of a connection area of the second plug connector. | 02-28-2013 |
20130029519 | CONNECTING TERMINAL WITH CUTTING MEANS FOR AN ELECTRIC LINE - The invention relates to a connecting terminal ( | 01-31-2013 |
20120201499 | FERRULE WITH ALIGNMENT PIN CHANNELS - An optical ferrule comprising: (a) a body defining an end face; (b) one or more channels extending from said end face through said body, each channel adapted to receive an optical fiber; and (c) first and second alignment pin channels defined in said end face, each alignment pin channel having a center point, said center points being disposed along a first axis, said first alignment pin channel having a first cross section essentially the same as that of an alignment pin and being adapted to receive said alignment pin, said second alignment pin channel having a second cross section elongated along said first axis. | 08-09-2012 |
20120074954 | ELECTRICAL CONNECTOR WITH CORROSION PREVENTION - The present invention relates to an electrical connector with at least one electrical contact for electrically contacting a corresponding mating connector. In particular, the present invention deals with connectors having a plug detecting unit for detecting a mated state of the connector and the mating connector. The present invention further relates to a corresponding method for detecting a mated state. Said connector comprises a plug detecting unit for detecting a mated state of the connector and the mating connector, wherein said plug detecting unit is operable to check the mated state by means of an intermittent test signal. Alternatively or additionally, the surfaces of first and second electrical contacts are covered with materials having a different oxidation potential, wherein a positive voltage of the test signal is applied to the electrical contact having the higher oxidation potential compared to the other electrical contact. | 03-29-2012 |
20120014650 | Apparatus and Method for Aligning Optical Transports in a Ferrule - Method and apparatus for aligning optical transports in a ferrule. The ferrule has an open side through which optical transports may be laterally placed in a transport cavity. The transports are aligned in the ferrule by mounting the ferrule on a jig having grooves into which the ends of the optical transports are inserted for transversely aligning the fibers in the ferrule. A row of transports is placed in the ferrule cavity with the front ends of the transports extending past the ferrule and into the grooves of the jig, thereby laterally aligning the transports with the grooves. The fibers are affixed to the ferrule. The ferrule can then be removed from the jig and the front ends of the transports that extended into the grooves of the jig cleaved flush with the front face of the ferrule. Additional rows of transports may be aligned in the ferrule in the same manner using different jigs. C-shaped grooves can be employed to separate the horizontal alignment from the vertical alignment. Specifically, horizontal alignment is effectuated by the opposing edges of the groove at the mouth of the C shape engaging the transports and vertical alignment is effectuated by the cladding layer of the row of transports resting on the tops of the grooves. It also is possible to create effective grooves of a smaller size than might otherwise be manufacturable in a single jig piece by, instead, fabricating two jig pieces, each with larger grooves and longitudinally aligning the two jig pieces with their respective grooves laterally offset from each other so that each jig piece effectively provides half of the groove. | 01-19-2012 |
20120014649 | METHOD AND APPARATUS FOR ALIGNING OPTICAL TRANSPORTS IN A FERRULE - Methods and apparatus for aligning optical transports, such as waveguides and optical fibers, in a ferrule of an optical connector. The ferrule has an open side through which optical transports may be inserted into a transport cavity in the ferrule from a direction transverse the longitudinal direction of the optical transports and ferrule. To assemble the optical transports in the ferrule, the ferrule is positioned with its front face abutting and aligned with a jig that has an opening substantially identical to the ferrule cavity. The jig has grooves in a bottom surface of the cavity into which the optical transports will be inserted for transversely aligning the optical transports. The optical transports are then dropped into the aligned cavities of the ferrule and jig through the open sides of the ferrule and jig so that the front ends of the optical transports sit at least partially in the V-shaped grooves of the jig, thereby aligning the transports in the transverse dimension. A press cures adhesive in the cavity to cure the adhesive and fix the transports in the ferrule. The optical transports are then cleaved or otherwise cut flush with the front face of the ferrule. The process is repeated for each row of optical transports with the height of the bottom of the cavity in the jig adjusted for each subsequent row by an amount equal to the thickness of a row of the optical transports. | 01-19-2012 |
20120008900 | METHOD AND APPARATUS FOR ROUTING OPTICAL FIBERS IN FLEXIBLE CIRCUITS - The invention concerns a technique for routing an optical fiber through a bend so that it can traverse a hinge or other mechanical connector having a bend radius smaller than the minimum bend radius of the fiber. Particularly, the radius of curvature of an optical fiber traversing a bend can be maximized by routing the fiber so as to have a route component parallel to the axis about which the fiber must bend. For instance, in a hinged connection in which the optical fiber must bend around the axis of the hinge, the optical fiber may be routed over the arc around the hinge with a route component parallel to the axis of the hinge. | 01-12-2012 |
20110228259 | OPTICAL FIBER ALIGNMENT MEASUREMENT METHOD AND APPARATUS - A measurement system comprising an analog position sensitive device is provided that can measure the XY position of a plurality of light beams at very high resolution. In accordance with one exemplary associated method, a connector bearing one or more optical fibers is fixedly positioned before a position sensing detector so that light emanating from the ends of the optical fibers will strike the position sensing detector. A light beam is passed through at least one opening in the connector, such as a guide pin hole onto the detecting surface of the PSD to establish the position of the connector. Next, each optical fiber in the connector is individually illuminated sequentially so that the light emanating from the fiber falls on the position sensing detector. The locations of all of these light beams striking the PSD are compared to position of the light beam passed through the guide pins and/or to each other to determine if all the fibers are in the correct positions relative to the connector. In addition, it is possible to simultaneously measure the magnitude of the light emanating from each fiber in order to measure the quality of the light transmission through the connector/cable assembly. | 09-22-2011 |
20110189902 | Contact member for electrical connectors - The invention relates to an electrically conductive contact member for an electrical connector, comprising a terminal portion adapted to be mechanically and electrically connected to at least one conductor, a contact portion adapted to contact a mating contact portion of a mating connector, a spring portion that electrically connects the terminal portion to the contact portion, the contact portion being supported by the spring portion elastically displaceable from a resting position to a displacement position, and a holding portion that comprises a picking platform for attachment of a pick-up head, wherein the holding portion provides a stop against which, in the resting position, the spring portion is pressed. To improve the mechanical and electrical performance, the spring portion is spaced apart from the picking platform in the displacement position. | 08-04-2011 |
20110189876 | Enclosure assembly for a connector, strain relief element and method - The invention relates to a enclosure assembly for at least one connector, including an enclosure, the enclosure having a connector volume configured to receive the connector and an opening at least at a rearward end, a strain relief element being adapted to receive a cable, the strain relief element being provided with a relief portion at one end, the relief portion being configured to support the cable elastically, and with a fastening portion, the fastening portion in a mounted state being arranged at least partially within the opening and affixing the strain relief element to the enclosure. To create an enclosure which is easy to mount and assures a reliable anchorage of the cable within the enclosure, in a pre-mounted state, the enclosure and the strain relief element are adapted to be slid relative to each other in a forward direction (F) up to a forward position, and in that in the forward position the enclosure is automatically engaged in a friction lock with the fastening portion. | 08-04-2011 |
20110169707 | Antenna - Antenna with a ground plane and an antenna plane, whereby the antenna plane is arranged on the ground plane by at least one bar, whereby a feed line is guided sideways between the ground plane and the antenna plane to a feed contact of the antenna plane. | 07-14-2011 |
20110165796 | Electrical connector with shell and status switch - The invention relates to a female electrical connector having a contact volume for receiving a jack, a shell for securing the position of the connector relative to a substrate and a status switch, which is adapted to be operated by inserting the jack into the contact volume. In order to provide for a smaller connector, the present invention provides that the switch is at least partially integrated into the shell. | 07-07-2011 |
20110162886 | Electrical component comprising a hotmelt element, method and tool for manufacturing such an electrical component - The invention relates to an electrical component having at least one cable element, at least one solder joint, at least one hotmelt element and at least one substrate element. The cable element is connected with the substrate element by the solder joint. To improve the data transmission rate, the at least one solder joint is not embedded in the hotmelt element. Preferably, the solder joint is free from the hotmelt material of the hotmelt element. The invention is also concerned with a method of manufacturing such an electrical component. According to the inventive method, a flow of hotmelt material is stopped before it reaches the solder joint. Finally, the invention is concerned with providing a tool for manufacturing the electrical component. Here, a hotmelt cavity for forming the hotmelt element from hotmelt material is separated from a substrate cavity adapted to receive the substrate element by a compressible solder sealing. | 07-07-2011 |
20110162882 | Electrical component comprising a hotmelt element - The invention relates to an electrical component comprising at least one cable element, at least one solder joint, at least one hotmelt element and at least one substrate element. The cable element is connected with the substrate element by the solder joint. To improve the data transmission rate, the at least one solder joint is not embedded in the hotmelt element. Preferably, the solder joint is not covered the hotmelt material of the hotmelt element. | 07-07-2011 |
20110091169 | FIBER OPTIC FURCATION ASSEMBLY - The invention relates to a fiber optic furcation assembly ( | 04-21-2011 |
20100304589 | Miniature switch connector - The invention relates to a Switch connector for mounting on a printed circuit board, adapted to receive a mating connector in an insertion direction along an insertion axis. The switch connector comprises a shield, a contact element, and a contact spring having at least one fixed leg, at least one elastically deflectable switching leg, and at least one spring bend, the fixed leg and the switching leg extending from the spring bend in a common direction and passing the insertion axis. The switching leg is adapted to be moved by insertion of the mating connector from a rest position, at which the switching leg exerts a spring force onto the contact element, to a switching position, at which the switching leg is spaced apart from the contact element, at least one spring force flux that in the rest position is generated by the switching leg and guided in a closed loop to the fixed leg. To increase the reliability of the switching function, the shield is arranged in the closed loop of the spring force flux. | 12-02-2010 |
20100178811 | Electrical Connector - An electrical connector includes a male electrical connector and a female electrical connector. The male electrical connector includes an electrical connector housing that receives a plurality of contact modules provided with first mating contacts. The female electrical connector includes an electrical connector housing that receives a plurality of contact modules provided with second mating contacts that mate with the first mating contacts. Each of the electrical connector housings has a plurality of electrically insulating plates. The electrically insulating plates extend in a plane substantially perpendicular to a plane of insertion of the contact modules into the electrical connector housings. The electrically insulating plates support at least the first mating contacts. | 07-15-2010 |
20090285535 | OPTICAL INTERFACE - An optical interface for interfacing a first optical component and a second optical component, said optical interface comprising an optical clear material having at least the following features: (a) a first lens for interfacing with said first optical component; (b) a second lens for interfacing with said second optical component; (c) a reflective surface optically coupling said first and second lenses; and (d) wherein at least said first lens is eccentric, said second lens is eccentric, or said reflective surface is curved. | 11-19-2009 |