In accordance with an example embodiment of the present invention, an apparatus is disclosed. The apparatus includes a substrate and a signal trace at the substrate. The signal trace has a first trace portion with a first trace width and a second trace portion with a second trace width. The second trace width is greater than the first trace width.
H01L 23/48 - Dispositions pour conduire le courant électrique vers le ou hors du corps à l'état solide pendant son fonctionnement, p. ex. fils de connexion ou bornes
In accordance with one embodiment, a connector assembly, for instance a connector assembly for an optical waveguide, includes a dielectric connector housing including a housing body that defines a mating end configured to mate with a complementary connector along a mating direction. The connector assembly further includes at least one latch arm supported by the housing body. The at least one latch arm can define outer surface and an opposed inner surface that faces an outer surface of the housing body. The connector assembly further includes an unlocking element supported by the housing body. The unlocking element can define an inner surface that faces the outer surface of the at least one latch arm. Movement of the unlocking element from a first position to a second position can cause the at least latch arm to deflect from a locked position to an unlocked position.
An optoelectrical connector system can include an optical coupler that is configured to be positioned over a photonic device on the PCB. The optoelectrical connector system can further include a connector housing that is configured to be attached to the optical coupler after the optical coupler is positioned over the photonic device, so that the coupler can be aligned and fixed without the housing attached thereto.
A mounting frame system is disclosed that facilitates the mounting of optical connector modules to printed circuit boards. The mounting frame system can include a mounting frame that is configured to attach to a printed circuit board, and is adapted to attach to a connector module. Thus, the mounting frame system can further allow releasable mounting of optical connector modules to the printed circuit board, such that the mounting is achieved in a safe and reliable manner.
H01R 12/00 - Association structurelle de plusieurs éléments de connexion électrique isolés les uns des autres, spécialement conçue pour des circuits imprimés, p. ex. des cartes de circuit imprimé [PCB], des câbles plats ou à ruban ou des structures similaires généralement planes, p. ex. barrettes de raccordement, blocs de connexionDispositifs de couplage spécialement conçus pour des circuits imprimés, des câbles plats ou à ruban ou des structures similaires généralement planesBornes spécialement conçues pour établir le contact avec, ou pour être insérées dans des circuits imprimés, des câbles plats ou à ruban ou des structures similaires généralement planes
An electrical cable connector includes a housing and a terminal element disposed in the housing. The housing has a front side, a back side, a top side and a bottom side, defining a cavity into which the terminal element is disposed. The housing has a connection opening at the back side and an operation opening at the top side. The terminal element has a base and a pair of sidewalls each extending upwardly from the base. A cantilevered spring arm extends forwardly from each sidewall. The tip of spring arms extend to converge toward each other. A cover piece is connected to one of the pair of spring arms, and bent transversely from said spring arm. The base, the pair of sidewalls and the cover piece form a channel for receiving an end of an electrical cable, for connecting the electrical cable to the terminal element.
H01R 4/48 - Connexions par serrageConnexions par ressort utilisant un ressort, un clip, ou un autre organe élastique
H01R 13/633 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p. ex. moyens pour aligner ou guider, leviers, pression de gaz pour la séparation uniquement
A connector assembly including a first connector, a second connector and a latch for connecting the first and second connectors. A securing lock is rotatable between a release position and a securing position securing the latch in a latching position. Optionally, the assembly includes a sliding guide and a resilient element forcing the securing lock to slide via the sliding guide into the securing position.
H01R 13/629 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p. ex. moyens pour aligner ou guider, leviers, pression de gaz
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
H01R 12/71 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires
A connector assembly including a first connector and a second connector connectable by a latch. The latch has a snap end for engaging a snap section and an opposite lock end. The latch includes a pivot section between the snap end and the lock end enabling a pivoting movement between a snap position and a release position. A lock is provided immobilizing the lock end of the latch to secure the latch in the snap position by blocking the pivoting movement.
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
H01R 13/641 - Moyens pour empêcher, bloquer ou éviter le couplage incorrect par l'indication du couplage incorrectMoyens pour empêcher, bloquer ou éviter le couplage incorrect par l'indication d'un engagement complet ou correct
G02B 6/38 - Moyens de couplage mécaniques ayant des moyens d'assemblage fibre à fibre
The present invention relates to an opto-electrical communication system, comprising an opto-electrical transmitter module. Said module in turn comprises an integrated circuit and an opto-electrical converter, each featuring at least a pair of contacts provided thereon. The integrated circuit is connected to the opto-electrical converter by means of two bonding wires.
H04B 10/00 - Systèmes de transmission utilisant des ondes électromagnétiques autres que les ondes hertziennes, p. ex. les infrarouges, la lumière visible ou ultraviolette, ou utilisant des radiations corpusculaires, p. ex. les communications quantiques
An electrical component assembly includes a substrate and first and second electrical components attached to the substrate and operably connected with each other via the substrate. In use the first electrical component generates a first amount of heat and the second component generates a second amount of heat. The first component is thermally connected with a heat sink along a first heat path and the second component is connected with the heat sink along a second, different, heat path, such that the thermal conductivity between the first and second components is lower than the thermal conductivity of the first heat path and of the second heat path.
H01S 5/183 - Lasers à émission de surface [lasers SE], p. ex. comportant à la fois des cavités horizontales et verticales comportant uniquement des cavités verticales, p. ex. lasers à émission de surface à cavité verticale [VCSEL]
G02B 6/42 - Couplage de guides de lumière avec des éléments opto-électroniques
H01L 31/16 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails structurellement associés, p.ex. formés dans ou sur un substrat commun, avec une ou plusieurs sources lumineuses électriques, p.ex. avec des sources lumineuses électroluminescentes, et en outre électriquement ou optiquement couplés avec lesdites sour le dispositif à semi-conducteur sensible au rayonnement étant commandé par la ou les sources lumineuses
H01S 5/024 - Dispositions pour la gestion thermique
Ferrule for an optical connector, an optical connector containing such a ferrule, and a method for assembling such a ferrule. The ferrule includes a base, at least one cover, at least one fiber section running through a channel between the base and the cover from a cable connection side to an opposite contact face exposing distal ends of the fiber sections. The fibers are adhered to the base and/or to the cover at a bonding section at a distance from the contact face.
An electrical connector includes a housing, contact elements and locking members attached to the housing. The housing has a front end, a back end, a top side, a bottom side and a cavity between the top side and the bottom side. The cavity is to partially receive a circuit board therein. Each contact element is insertable into the housing along a direction from the bottom side towards the top side. Each locking member is insertable into the housing along a direction from the bottom side towards the top side. The upper and lower contact arms and the lock arm are resiliently deflectable away from the cavity to allow insertion of the circuit board into the cavity, and spring back when the circuit board is inserted into the cavity to make electrical connection to the circuit board and to lock the circuit board in the housing.
H01R 12/00 - Association structurelle de plusieurs éléments de connexion électrique isolés les uns des autres, spécialement conçue pour des circuits imprimés, p. ex. des cartes de circuit imprimé [PCB], des câbles plats ou à ruban ou des structures similaires généralement planes, p. ex. barrettes de raccordement, blocs de connexionDispositifs de couplage spécialement conçus pour des circuits imprimés, des câbles plats ou à ruban ou des structures similaires généralement planesBornes spécialement conçues pour établir le contact avec, ou pour être insérées dans des circuits imprimés, des câbles plats ou à ruban ou des structures similaires généralement planes
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 12/77 - Dispositifs de couplage pour circuits imprimés flexibles, câbles plats ou à rubans ou structures similaires
H01R 12/79 - Dispositifs de couplage pour circuits imprimés flexibles, câbles plats ou à rubans ou structures similaires se raccordant à des circuits imprimés rigides ou à des structures similaires
In accordance with one embodiment, an electrical connecter system can include an electrical signal connector and an electrical power connector. The electrical signal connector and the electrical power connector can be mounted on opposed surfaces of a printed circuit board. The electrical power connector can be constructed as a hermaphroditic power connector that includes at least one header power contact supported by a connector housing, and at least one receptacle power contact supported by the connector housing.
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 12/73 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires se raccordant à d'autres circuits imprimés rigides ou à des structures similaires
H05K 3/36 - Assemblage de circuits imprimés avec d'autres circuits imprimés
H01R 24/84 - Dispositifs de couplage hermaphrodite
H01R 43/20 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour assembler les pièces de contact avec le socle isolant, le boîtier ou le manchon ou pour les en désassembler
H05K 7/14 - Montage de la structure de support dans l'enveloppe, sur cadre ou sur bâti
A high speed flexible printed circuit (FPC) connector includes a housing with ground and signal contact terminal pairs arranged in the housing in a staggered manner along a lateral direction. The housing has a cavity for receiving an FPC board therein. Each ground contact terminal has an upper arm positioned adjacent to a top wall of the cavity and a lower arm positioned adjacent to a bottom wall of the cavity. Each signal contact terminal has only a lower arm positioned adjacent to the bottom wall of the cavity. Signal contact terminals with the only lower arm provide the connector with better signal integrity. An actuator is coupled to the housing for fixing the FPC board in the cavity to establish electrical connections. The actuator has recesses corresponding to the positions of the signal pairs to provide a dielectric constant different from that of the other parts of the actuator.
H01R 13/62 - Moyens pour faciliter l'engagement ou la séparation des pièces de couplage ou pour les maintenir engagées
H01R 12/77 - Dispositifs de couplage pour circuits imprimés flexibles, câbles plats ou à rubans ou structures similaires
H01R 12/88 - Dispositifs de couplage raccordés avec une force d'insertion faible ou nulle moyens produisant une pression de contact, contacts activés après insertion des circuits imprimés ou des structures similaires agissant manuellement par rotation ou pivotement des pièces du boîtier du connecteur
H01R 13/6471 - Moyens pour empêcher la diaphonie par agencement particulier des conducteurs de mise à la masse et de signaux, p. ex. GSGS [mise à la masse - signal - mise à la masse - signal]
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 12/79 - Dispositifs de couplage pour circuits imprimés flexibles, câbles plats ou à rubans ou structures similaires se raccordant à des circuits imprimés rigides ou à des structures similaires
H01R 13/6477 - Adaptation d'impédance par variation des propriétés diélectriques
H01R 13/6597 - Caractéristiques ou dispositions spécifiques de raccordement du blindage aux organes conducteurs l'organe conducteur étant un contact du connecteur
14.
PRECOMPENSATION TECHNIQUE FOR IMPROVED VCSEL-BASED DATA TRANSMISSION
The present disclosure relates to an apparatus for precompensating a VCSEL-signal, comprising a FIR-filter, wherein the FIR-filter is adapted to precompensate a signal by adjusting a portion of the signal in the first bit after a signal transition, and wherein the precompensated signal is injected into a VCSEL.
An electrical cable connector is provided that can be configured to be mounted to a printed circuit board. The electrical connector includes a connector housing, and a pair of electrical terminals (38,40) that are configured to be mounted to electrical cables (22,30). The electrical terminals (38,40) can be identical to each other in one example.
H01R 12/58 - Connexions fixes pour circuits imprimés rigides ou structures similaires caractérisées par les bornes bornes pour insertion dans des trous
H01R 12/53 - Connexions fixes pour circuits imprimés rigides ou structures similaires se raccordant à des câbles à l'exclusion des câbles plats ou à rubans
H01R 27/02 - Pièces de couplage adaptées à la coopération avec plusieurs pièces complémentaires dissemblables pour coopération simultanée avec plusieurs pièces complémentaires
H01R 43/20 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour assembler les pièces de contact avec le socle isolant, le boîtier ou le manchon ou pour les en désassembler
H01R 11/03 - Éléments de connexion individuels assurant plusieurs emplacements de connexion espacés pour des organes conducteurs qui sont ou qui peuvent être interconnectés de cette façon, p. ex. pièces d'extrémité pour fils ou câbles supportées par le fil ou par le câble et possédant des moyens pour faciliter la connexion électrique avec quelqu'autre fil, borne, ou organe conducteur, répartiteurs caractérisés par le type des emplacements de connexion sur l'élément individuel ou par le type des connexions entre les emplacements de connexion et les organes conducteurs
An opto-electrical transceiver module and an active optical cable comprising such a module are disclosed. The module includes a first printed circuit board and a second printed circuit board. The first printed circuit board carries 1) a light sources with driver circuitry that converts incoming electrical signals to optical signals, 2) optical receiver components with amplifier circuitry that converts optical signals to electrical signals, 3) a single optical coupling unit configured to optically coupling waveguides of an optical cable to the light sources as well as to the optical receiver components, and (4) one or more electrical contacts configured to connect to a host device. The second printed circuit board includes electrical contacts connected to the driver circuitry or to the amplifier circuitry on the first printed circuit board.
An electrical connector assembly comprises a first connector having an outer housing having an activatable latch flexibly attached thereto, the latch having a lock tab located thereon; an inner housing mounted in the outer housing, the inner housing having first and second prongs integrally formed with the inner housing and configured to continuously bias the latch; and a second connector comprising a cavity formed on a surface thereof. Continuously biasing the latch by the first and second prongs causes the engagement of the lock tab of the first connector with the cavity of the second connector to lock the first connector to the second connector.
H01R 4/48 - Connexions par serrageConnexions par ressort utilisant un ressort, un clip, ou un autre organe élastique
H01R 13/641 - Moyens pour empêcher, bloquer ou éviter le couplage incorrect par l'indication du couplage incorrectMoyens pour empêcher, bloquer ou éviter le couplage incorrect par l'indication d'un engagement complet ou correct
A latch assembly for an electrical connector module is configured to releasably secure an electrically conductive housing to an electrically conductive cage. The electrically conductive housing defines a first end that supports an electrical connector, and a second end opposite the first end. A plurality of electrical cables are mounted to a plurality of electrical contacts of the electrical connector, and the cables can extend out a second end of the electrically conductive housing opposite the first end. The latch assembly is configured to secure the electrically conductive housing to the cage when the electrical connector is mated to a complementary electrical component in the cage. The latch assembly can release the electrically conductive housing from the cage when the electrical connector is to be removed from the complementary electrical component in the cage.
H01R 13/633 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p. ex. moyens pour aligner ou guider, leviers, pression de gaz pour la séparation uniquement
H01R 13/6582 - Structure du blindage avec des moyens élastiques destinés à venir en contact avec le connecteur correspondant
19.
Electrical contact including corrosion-resistant coating
In accordance with one embodiment, an electrical contact has a mating end and a mounting end. The electrical contact includes an electrically conductive base, and a multi-layered coating disposed on an outer surface of the base at the mating end. The multi-layered coating can include a metallic layer of a noble metal or alloy thereof, a layer of anti-tarnish material disposed on the metallic layer, and a lubricant layer disposed on the layer of anti-tarnish material, the lubricant effective to seal at least some wear regions created in the layer of anti-tarnish material due to micromotion of the mating end in use.
A connector assembly (1) comprises an outer housing (300); and a latch (330), which is carried by the outer housing (300), to allow a coupling of the connector assembly to a corresponding counter connector. Further, the outer housing (300) is configured to receive at least one of two different types of cables (100) through a first end and at least one of two different module mating interfaces (430, 432, 434) at a second end. In another embodiment the outer housing (300) is arranged movable on an inner housing (200), and the latch (330) is rotatably arranged on the outer housing (300).
When electrical connectors are mated with each other, friction can cause anti-corrosion material, such as gold for example, to wipe away from electrical terminals of the electrical connectors. Embodiments of electrical connectors and electrical terminals including selectively plated electrical terminals are disclosed.
H01R 13/422 - Fixation de manière démontable sur un socle ou dans un boîtier flexible en une seule pièceSocle ou boîtier en une seule pièce comportant des moyens de verrouillage élastiques
First and second electrical connectors are configured to be supported by each other prior to being mated to at least one complementary electrical connector. The at least one complementary electrical connector can be a common third electrical connector. The first electrical connector can be configured to be mounted onto a first electrical component of a first type. The second electrical connector can be configured to be mounted onto a second electrical component of a second type that is different than the first type. For instance, one of the first and second electrical components can be a printed circuit board, and the other of the first and second electrical components can include a plurality of electrical cables.
An optical coupling device including a housing, a first optical port provided on the housing, a second optical port provided on the housing and configured to couple to an optical fiber cable, an optical signal path guiding optical signals between the first and second optical port, a monitoring device provided on the housing, and an decoupling element optically coupled to the optical signal path and the monitoring device for coupling an optical monitoring signal coupled out from the optical signals guided between the first and second optical port onto the monitoring device. Furthermore, an optical communication system is provided, the system including an optical module with an optical signal processing device, the optical signal processing device being configured for at least one of receiving optical signals by a receiving device and transmitting optical signals by an optical signal source, and an optical coupling device guiding the optical signals.
A connector with a transceiver and a socket on a substrate receiving the transceiver. The transceiver is movable within the socket into a locked position in a direction parallel to the substrate. The socket and transceiver include complementary locking sections cooperating when the transceiver is in the locked position. During the movement the transceiver wipes over contacts, e.g., on the substrate or on an interposer.
G02B 6/42 - Couplage de guides de lumière avec des éléments opto-électroniques
H01R 12/52 - Connexions fixes pour circuits imprimés rigides ou structures similaires se raccordant à d'autres circuits imprimés rigides ou à des structures similaires
Electrical cables are described having strands of fibers of wire that are fused together at their ends to facilitate attachment to a respective mating member and mounting member.
A pin receiving terminal contact and a connector comprising one or more of such terminal contacts. The terminal contacts (1) comprise a base (13) comprising a folded strip and at least a first contact beam (3, 5) having a root end extending from said base (13) and a contact face (11, 12) bent sideward under an angle with said root end.
H01R 43/16 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour la fabrication des pièces de contact, p. ex. par découpage et pliage
An electrical connector include a movable hold down member that is configured to receive a fastener so as to secure the electrical connector to an underlying substrate to which the electrical connector is mounted.
An electrical power connector can include an electrically insulative connector housing, a first plurality of electrical contacts supported by the connector housing, and a second plurality of electrical contacts supported by the connector housing. The first plurality of electrical contacts can be of a first type, and the second plurality of electrical contacts are of a second type and positioned adjacent to the first plurality of electrical contacts. The arrangment of the electrical contact can provide creepage protection for the electrical connector. Further, the electrical contacts can include mating portions that are touch proof.
H01R 13/648 - Dispositions de protection par mise à la terre ou par blindage sur les dispositifs de couplage
H01R 12/73 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires se raccordant à d'autres circuits imprimés rigides ou à des structures similaires
A connector assembly of a first connector and a second connector. The connector assembly includes at least one latch biased to a locking position to lock the assembly in cooperation with a complementary locking section. The connector assembly includes a release member movable in a direction towards a top face of one of the connectors from a rest position to a release position. The release member pushes the latch away from the locking position when the release member is moved to the release position.
A connector including a housing with a cable entry and a contact face presenting one or more conductors for signal transfer to associated conductors of a complementary connector. The connector includes a cable entry shield of an electro-conductive material gripping around the cable at the cable entry. The cable entry shield can for example be formed by a pin holder for holding alignment pins and the base of a locking device, jointly gripping around the cable.
H01R 13/6582 - Structure du blindage avec des moyens élastiques destinés à venir en contact avec le connecteur correspondant
H01R 13/6593 - Caractéristiques ou dispositions spécifiques de raccordement du blindage aux organes conducteurs l'organe conducteur étant un câble blindé le blindage étant composé de différentes pièces
Embodiments of an electrical connector assembly are disclosed. The electrical connector assembly can include an electrical connector having a connector housing and a leadframe supported by the connector housing. The leadframe includes an electrically conductive ground plate that includes a drain wire connection tabs that can attach to drain wires of respective electrical cables. The electrical connector assembly can further include a cable clip that supports the plurality of cables. The electrical connector assembly can further include a cable guide that directs the plurality of cables of cables through the cable clip along a desired direction.
H01R 24/38 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
33.
BEAM SPLITTING FOR LASER POWER MONITORING IN MOLDED OPTICAL COUPLING UNITS
An optical module can include a beam steering portion and a first side defining an inner surface that faces the beam steering portion. The optical module can further include a second side that defines an inner surface adjacent to the inner surface of the first side. The inner surface of the second side can face the beam steering portion. The optical module can be configured to direct an initial light beam from the first side to the beam steering portion along a first direction. The optical module, and in particular the beam steering portion that can include a beam splitter, can divide the initial beam into a signal light beam and a fractional light beam.
G02B 27/10 - Systèmes divisant ou combinant des faisceaux
H01S 3/10 - Commande de l'intensité, de la fréquence, de la phase, de la polarisation ou de la direction du rayonnement, p. ex. commutation, ouverture de porte, modulation ou démodulation
A photodiode, in particular photodiode for data transmission applications, can include a semiconductor substrate, which can also be referred to as a substrate layer, and a first semiconductor layer supported by, for instance arranged on, the semiconductor substrate. The photodiode can further include a second semiconductor layer supported by, for instance arranged on, the first semiconductor layer. The photodiode can further include an optical semiconductor mirror arranged between the semiconductor substrate and the first semiconductor layer such that when incident light passes through the second semiconductor layer and the first semiconductor layer along a first direction a first time, the incident light is reflected by the optical semiconductor mirror so as to pass through the first semiconductor layer a second time, which can also be referred to as a second pass. Thus, the photodiode can also be referred to as a double-pass photodiode.
H01L 31/10 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails dans lesquels le rayonnement commande le flux de courant à travers le dispositif, p.ex. photo-résistances caractérisés par au moins une barrière de potentiel ou une barrière de surface, p.ex. photo-transistors
In accordance with one embodiment, a connector assembly, for instance a connector assembly for an optical waveguide, includes a dielectric connector housing including a housing body that defines a mating end configured to mate with a complementary connector along a mating direction. The connector assembly further includes at least one latch arm supported by the housing body. The at least one latch arm can define outer surface and an opposed inner surface that faces an outer surface of the housing body. The connector assembly further includes an unlocking element supported by the housing body. The unlocking element can define an inner surface that faces the outer surface of the at least one latch arm. Movement of the unlocking element from a first position to a second position can cause the at least latch arm to deflect from a locked position to an unlocked position.
An electrical connector assembly can include a polarization member that is configured to prevent first and second electrical connectors from being mated to each other in an incorrect orientation. The polarization member abuts the first electrical connector such that the first electrical connector provides structural support to the polarization member when the second electrical contacts the polarization member. The polarization member is received by the second electrical connector when the second electrical connector is mated to the first electrical connector in a predetermined orientation.
An optoelectrical connector system can include an optical coupler that is configured to be positioned over a photonic device on the PCB. The optoelectrical connector system can further include a connector housing that is configured to be attached to the optical coupler after the optical coupler is positioned over the photonic device, so that the coupler can be aligned and fixed without the housing attached thereto.
A header connector includes a housing and first and second sets of terminals disposed in the housing. The housing has a front side, a rear side, mating face at the front side, a mounting face perpendicular to the mating face first, and first and second sets of slots in which one of the first and second sets of terminals is disposed. Each one of the first set of slots has a shoulder portion at a back end thereof. Each one of the first set of terminals has a front end disposed adjacent to the mating face, a bottom end disposed adjacent to the mounting face and a locating end engaged to the shoulder portion to prevent said one of the first set of terminals from moving backwards relative to the housing.
H01R 12/58 - Connexions fixes pour circuits imprimés rigides ou structures similaires caractérisées par les bornes bornes pour insertion dans des trous
H01R 43/20 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour assembler les pièces de contact avec le socle isolant, le boîtier ou le manchon ou pour les en désassembler
In accordance with one embodiment, an electrical connector can be mounted to a first printed circuit board to obtain a first current capacity, and the electrical connector can be mounted to a second printed circuit board to obtain a second current capacity that is lower than the first current capacity.
An electrical connector can be configured to mate with at least one complementary electrical connector. The electrical connector includes a dielectric connector housing including a housing body that defines a mounting interface configured to be mounted onto a substrate and a mating interface configured to receive at least one complementary electrical connector along a mating direction. A plurality of electrical contacts are supported by the connector housing and spaced apart from each other along a lateral direction that is substantially perpendicular to the mating direction. The electrical contacts include 1) a mating portion that is configured to mate with a complementary electrical contact of the complementary electrical connector, and 2) a mounting portion configured to electrically connect to the substrate. The electrical connector can further include at least one electrically insulative fin supported by the housing body.
An electrical connector can be configured to mate with at least one complementary electrical connector. The electrical connector includes a dielectric connector housing including a housing body that defines a mounting interface configured to be mounted onto a substrate and a mating interface configured to receive at least one complementary electrical connector along a mating direction. A plurality of electrical contacts are supported by the connector housing and spaced apart from each other along a lateral direction that is substantially perpendicular to the mating direction. The electrical contacts include 1) a mating portion that is configured to mate with a complementary electrical contact of the complementary electrical connector, and 2) a mounting portion configured to electrically connect to the substrate. The electrical connector can further include at least one electrically insulative fin supported by the housing body.
H01R 13/73 - Moyens de montage des pièces de couplage sur les appareils ou structures, p. ex. sur un mur
H01R 43/26 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour engager ou séparer les deux pièces d'un dispositif de couplage
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
An electrical terminal includes an electrically conductive monolithic body including a mating end having a base, a contact beam spaced from the base in an upward direction, a side wall that extends from the base to the contact beam, and a spring assist member. The contact beam can be elastically flexible from an initial position whereby the spring assist member is spaced from the contact beam in the upward direction, to a deflected position whereby the contact beam abuts the spring assist member. The electrical is suited for assembly into a connector assembly which includes and inner core and an outer housing.
H01R 13/15 - Broches, lames ou alvéoles ayant un ressort indépendant pour produire ou améliorer la pression de contact
H01R 4/18 - Connexions conductrices de l'électricité entre plusieurs organes conducteurs en contact direct, c.-à-d. se touchant l'un l'autreMoyens pour réaliser ou maintenir de tels contactsConnexions conductrices de l'électricité ayant plusieurs emplacements espacés de connexion pour les conducteurs et utilisant des organes de contact pénétrant dans l'isolation effectuées uniquement par torsion, enroulage, pliage, sertissage ou autre déformation permanente par sertissage
An electrical terminal includes an electrically conductive monolithic body including a mating end having a base, a contact beam spaced from the base in an upward direction, a side wall that extends from the base to the contact beam, and a spring assist member. The contact beam can be elastically flexible from an initial position whereby the spring assist member is spaced from the contact beam in the upward direction, to a deflected position whereby the contact beam abuts the spring assist member. The electrical is suited for assembly into a connector assembly which includes and inner core and an outer housing.
H01R 4/18 - Connexions conductrices de l'électricité entre plusieurs organes conducteurs en contact direct, c.-à-d. se touchant l'un l'autreMoyens pour réaliser ou maintenir de tels contactsConnexions conductrices de l'électricité ayant plusieurs emplacements espacés de connexion pour les conducteurs et utilisant des organes de contact pénétrant dans l'isolation effectuées uniquement par torsion, enroulage, pliage, sertissage ou autre déformation permanente par sertissage
H01R 13/422 - Fixation de manière démontable sur un socle ou dans un boîtier flexible en une seule pièceSocle ou boîtier en une seule pièce comportant des moyens de verrouillage élastiques
A mounting frame system is disclosed that facilitates the mounting of optical connector modules to printed circuit boards. The mounting frame system can include a mounting frame that is configured to attach to a printed circuit board, and is adapted to attach to a connector module. Thus, the mounting frame system can further allow releasable mounting of optical connector modules to the printed circuit board, such that the mounting is achieved in a safe and reliable manner.
H01R 13/514 - SoclesBoîtiers formés comme un bloc ou un assemblage modulaire, c.-à-d. composés de parties coopérantes pourvues de pièces de contact ou maintenant entre elles des pièces de contact
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
45.
OPTO-ELECTRICAL TRANSCEIVER MODULE AND ACTIVE OPTICAL CABLE
An opto-electrical transceiver module and an active optical cable comprising such a module are disclosed. The module includes a first printed circuit board and a second printed circuit board. The first printed circuit board carries 1) a light sources with driver circuitry that converts incoming electrical signals to optical signals, 2) optical receiver components with amplifier circuitry that converts optical signals to electrical signals, 3) a single optical coupling unit configured to optically coupling waveguides of an optical cable to the light sources as well as to the optical receiver components, and (4) one or more electrical contacts configured to connect to a host device. The second printed circuit board includes electrical contacts connected to the driver circuitry or to the amplifier circuitry on the first printed circuit board.
An insulation displacement contact includes a monolithic electrically conductive contact body that includes mating portion and a mounting portion. The mating portion defines a pair of insulation displacement slots configured to receive an electrical cable delivered by a connector housing.
A modular jack connector includes a housing defining a first direction and a second direction perpendicular to the first direction. A plurality of terminals are disposed in the housing. Each terminal having a body portion and a contact end portion connected to the body portion. Each contact end has a contact surface facing the first direction for connecting to a counterpart connector. The contact surface is a rolled surface of a metal sheet from which the contact terminals are formed. Plating process becomes more efficient and plating quality is improved, resulting in terminals with high contact surface quality being made for better electrical connectivity when connected to counterpart connectors.
H01R 13/514 - SoclesBoîtiers formés comme un bloc ou un assemblage modulaire, c.-à-d. composés de parties coopérantes pourvues de pièces de contact ou maintenant entre elles des pièces de contact
An electrical connector can include a connector housing including a housing body that can define an opening that is configured to receive a complementary electrically conductive component along a mating direction. The electrical connector can further include at least one contact member that is supported by the connector housing and is configured to contact the complementary electrically conductive component when the complementary electrically conductive component is received in the opening. The at least one contact member can include an arm having a proximate portion, a distal portion, and an intermediate portion between the proximal and distal portions. The intermediate portion can be spaced outward with respect to each of the proximate and distal portions, and the intermediate portion can bear against the retention rib so as to retain the at least one contact member with respect to the connector housing.
H01R 25/14 - Rails ou barres omnibus réalisés de telle sorte que les pièces complémentaires puissent leur être connectées en tout point de leur longueur
H01R 12/71 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires
A connector assembly (1) comprising a first connector (3) and a second connector (2) connectable by a latch (86, 126). The latch has a snap end (91) for engaging a snap section (30) and an opposite lock end (105, 124). The latch comprises a pivot section (A) between the snap end and the lock end enabling a pivoting movement between a snap position and a release position. A lock (38, 121) is provided immobilizing the lock end of the latch to secure the latch in the snap position by blocking the pivoting movement.
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
H01R 13/641 - Moyens pour empêcher, bloquer ou éviter le couplage incorrect par l'indication du couplage incorrectMoyens pour empêcher, bloquer ou éviter le couplage incorrect par l'indication d'un engagement complet ou correct
H01R 13/436 - Fixation de plusieurs pièces de contact par une seule pièce de verrouillage
H01R 13/506 - SoclesBoîtiers composés de différentes pièces assemblées par enclenchement réciproque des pièces
A connector assembly (1) comprising a first connector (2), a second connector (3) and a latch (86) for connecting the first and second connectors. A securing lock (29) is rotatable between a release position and a securing position securing the latch in a latching position. Optionally, the assembly (1) comprises a sliding guide (32, 64) and a resilient element (65) forcing the securing lock to slide via the sliding guide into the securing position.
H01R 13/629 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p. ex. moyens pour aligner ou guider, leviers, pression de gaz
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
H01R 12/71 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires
A connector (3), such as a cable connector, with terminal contacts (41) comprising two parallel resilient contact beams (44, 45) and a third resilient beam. Tips of the two parallel resilient beams are forced apart by the third resilient beam (48). The third beam can also be a resilient contact beam (48), e.g., extending into a direction opposite to the direction of the other two contact beams (44, 45).
A connector (3) comprising a latch (86) hingeable about a hinging section. The latch has a latch end (91) at one side of the hinging section and a rear end (92) at the opposite side of the hinging section. The connector comprises one or more resilient spring elements (94) engaging the rear end to bias the latch end to a latching position.
An electrical component assembly comprises a substrate and first and second electrical components attached to the substrate and operably connected with each other via the substrate. In use the first electrical component generates a first amount of heat and the second component generates a second amount of heat. The first component is thermally connected with a heat sink along a first heat path and the second component is connected with the heat sink along a second, different, heat path, such that the thermal conductivity between the first and second components is lower than the thermal conductivity of the first heat path and of the second heat path.
An electrical connector system can include a first electrically conductive contact having a first contact body, a first contact mating end that extends from the first contact body, and a first contact mounting end that extends from the first contact body. The first contact mounting end can be configured to be electrically connected to a first complementary electrical component. The system can further include an interposer having a first interposer mating end and a second interposer end opposite the first interposer mating end. The second interposer end can be configured to be placed in electrical communication with a second complementary electrical component. The first electrically conductive contact can be configured to mate at its first mating contact end to the first interposer mating end so as to place the first electrically conductive contact in electrical communication with the interposer.
An insulation displacement contact comprises an electrically conductive contact body including a mounting portion that is configured to receive a complementary electrical component so as to contact an electrical terminal of the complementary electrical component, and a mating portion configured to attach to an electrical cable, the mating portion including a slot that extends into the contact body, and at least one piercing member that at least partially defines the slot such that, when the slot receives an electrical cable, the piercing member pierces an outer electrically insulative layer of the electrical cable and contacts an electrical conductor of the electrical cable that is disposed inside the electrically insulative layer.
An electrical connector comprises a housing, contact elements and locking members attached to the housing. The housing has a front end, a back end, a top side, a bottom side and a cavity between the top side and the bottom side. The cavity is to partially receive a circuit board therein. Each contact element is insertable into the housing along a direction from the bottom side towards the top side. Each locking member is insertable into the housing along a direction from the bottom side towards the top side. The upper and lower contact arms and the lock arm are resiliently deflectable away from the cavity to allow insertion of the circuit board into the cavity, and spring back when the circuit board is inserted into the cavity to make electrical connection to the circuit board and to lock the circuit board in the housing.
H01R 12/79 - Dispositifs de couplage pour circuits imprimés flexibles, câbles plats ou à rubans ou structures similaires se raccordant à des circuits imprimés rigides ou à des structures similaires
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
A power connector can include a dielectric connector housing and electrical contacts that are supported by the housing. The electrical contacts can each include first and second contact bodies. The first contact body can include a first contact blade and the second contact body can include a second contact blade that can define a mating portion of the electrical contact. The mating portion can be configured to mate with a complementary power connector along a mating direction so as to establish an electrical connection between the power connector and the complementary power connector. The contact blades can be configured to slide with respect to each other along the mating direction.
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
Electrical connectors provide signal connections between electronic devices using electrically-conductive contacts, or electrical contacts. In some applications, a connector including a solid substrate body may facilitate the connection of cables with a complementary connector.
An interposer is configured to receive signal conductors of a cable, and align the received signal conductors with contact pads of an electrical connector. The interposer can be dielectric, or electrically insulative, so as to reduce electrical signal reflections and help to prevent electrical shorting between the signal conductors.
In accordance with the various embodiments disclosed herein, electrical connector footprints, such as printed circuit boards, is described comprising one or more of signal traces that each include a first section that extends parallel to the linear array direction and a second section extends in a direction that is different than the linear array direction.
H05K 1/14 - Association structurale de plusieurs circuits imprimés
H01R 12/73 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires se raccordant à d'autres circuits imprimés rigides ou à des structures similaires
In accordance with the various embodiments disclosed herein, an improved electrical connector footprints, such as printed circuit boards (printed circuit board), is described comprising one or more of, for example, a first linear array containing at least a first anti-pad extending along a first direction, a first electrical signal trace extending along the first direction and spaced from the first linear array along a second direction that is perpendicular to the first direction, a group of ground isolation vias containing at least one electrically conductive ground via arranged along a line extending parallel to the first direction and spaced from the first electrical signal trace along the second direction, and a second linear array containing at least a second anti-pad extending along the first direction spaced from the group of ground isolation vias along the second direction.
A connector (103) is provided having a plurality of leads generally arranged in columns extending substantially parallel each other in a column direction (C) and being adjacent each other in a row direction (R). At least one first column comprises at least one first pair of signal leads (S) substantially parallel each other in a first pair direction (P) to form a first differential pair. In at least a portion of the connector the first pair direction extends at an acute angle (a) to the column direction. Further, an assembly, and a circuit board are provided.
H01R 13/6471 - Moyens pour empêcher la diaphonie par agencement particulier des conducteurs de mise à la masse et de signaux, p. ex. GSGS [mise à la masse - signal - mise à la masse - signal]
H01R 13/6587 - Matériau de blindage entourant individuellement des contacts espacés les uns des autres ou interposé entre ces derniers pour séparer des modules de connecteurs multibroches pour montage sur des cartes de circuits imprimés
63.
GEOMETRICS FOR IMPROVING PERFORMANCE OF CONNECTOR FOOTPRINTS
In accordance with the various embodiments disclosed herein, an improved electrical connector footprint, such as on printed circuit boards (PCB), is described. For example, antipads can have a variety of sizes and pairs of differential signal traces can define centerlines that are spaced apart from each other.
In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the signal conductors and a second surface that is opposite the first surface. The drain wire can define a width that is greater than 0.12 mm as measured from the first surface to the second surface along a straight line. At least one auxiliary wire can be attached to at least one drain wire. The auxiliary wire can be configured to attach to the substrate.
An electrical connector footprint on a printed circuit board (PCB) can include vias and antipads surrounding those vias. While conventional antipads surrounding vias are large in order to improve impedance of the PCB, the presence of the antipads can compromise the integrity of the ground plane and can permit cross talk to arise between differential pairs on different layers in the PCB. Antipads can be constructed and arranged so as to limit cross talk between layers in a PCB, while also maximizing impedance.
In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the substrate and a second surface that is opposite the first surface. The drain wire can define a height that is greater than 0.2 mm as measured from the first surface to the second surface along a straight line.
Opto-eIectric on -board connector (2) comprising opto- electronic elements (91) on a substrate (63) and an optical coupling, device (71) tor transferring optical signals between the opto-electronic elements and a complementary optical cable connector. The optical coupling device comprises a prism (81) with a contact face (82) and a lower face (88) and two or more supports (79) spacing each the lower face from the oppositely arranged opto-electronic elements. Each support comprises one or more feet (72) attached to the substrate.
A connector (2) mounted on a board (63). The connector comprises one or more elements (71) mounted on the board by means of a cured adhesive (74), which is at least partly present between the element and at least one anchoring element (76), E.g., the board -mounted element (71) may comprise one or more holes (73) filled, with the cured adhesive (74) embedding one or more of the at least one anchoring elements (76). The board mounted element may for instance be an optical coupler (71).
An electrical connector module including a housing and an array of electrical contacts within the housing. The electrical contacts include a plurality of signal conductors and a plurality of ground conductors. Ground coupling bars are used with at least two contact portions for contacting ground conductors. The connector includes slots enabling insertion of the ground coupling bar in a longitudinal direction of the ground coupling bar.
H01R 13/6471 - Moyens pour empêcher la diaphonie par agencement particulier des conducteurs de mise à la masse et de signaux, p. ex. GSGS [mise à la masse - signal - mise à la masse - signal]
H01R 13/7197 - Association structurelle avec des composants électriques incorporés spécialement adaptée à la haute fréquence, p. ex. avec des filtres avec des filtres solidaires des contacts ou montés sur ces derniers, p. ex. filtres tubulaires
A connector assembly (1) of a first (2) and a complementary second connector (3). The assembly comprises latches (9) cooperative with respective matching locking sections (19) at opposite sides (18) of the assembly to hold the connectors (2, 3) in an assembled state. One of the connectors (3) comprises a main body (16) and a release member (23) which is slideable relative to the main body (16) between a rest position and a release position. In the release position the release member (23) disengages the latches (9) from the respective locking sections (29). At least one resilient member (32) biases the release member (29) to the rest position.
H01R 13/633 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p. ex. moyens pour aligner ou guider, leviers, pression de gaz pour la séparation uniquement
An electrical connector assembly includes a first electrical connector and a second electrical connector. Each electrical connector can include a plurality of electrical ground shields that at least partially surround respective differential signal pairs. The electrical connectors can be constructed so as to reduce cross-talk between adjacent signal pairs. For example, the first electrical connector can include a connector housing defining an end that is configured to be mounted to a substrate. The ground shields can define a body that extends through the connector housing, such that the ground shields extend through the end so as to be disposed between the end and the substrate when the connector is mounted to the substrate.
H01R 13/648 - Dispositions de protection par mise à la terre ou par blindage sur les dispositifs de couplage
H01R 24/00 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 13/6594 - Caractéristiques ou dispositions spécifiques de raccordement du blindage aux organes conducteurs le blindage étant monté sur une carte de circuits imprimés et raccordé à des organes conducteurs
H01R 13/6585 - Matériau de blindage entourant individuellement des contacts espacés les uns des autres ou interposé entre ces derniers
H01R 13/6471 - Moyens pour empêcher la diaphonie par agencement particulier des conducteurs de mise à la masse et de signaux, p. ex. GSGS [mise à la masse - signal - mise à la masse - signal]
H01R 12/73 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires se raccordant à d'autres circuits imprimés rigides ou à des structures similaires
H01R 13/6597 - Caractéristiques ou dispositions spécifiques de raccordement du blindage aux organes conducteurs l'organe conducteur étant un contact du connecteur
H01R 12/58 - Connexions fixes pour circuits imprimés rigides ou structures similaires caractérisées par les bornes bornes pour insertion dans des trous
An electrical connector for connecting to a flexible/flat circuit board includes a housing having a cavity, contacts disposed in the cavity of the housing, and a metal shield mounted to the housing. Locking members are attached to the housing and having resilient locking projections disposed in the cavity. When a flexible/flat circuit is inserted into the cavity, openings/notches formed on the flexible/flat circuit are engaged with the locking projections such that the flexible/flat circuit is secured to the housing. The shield is rotatable relative to the housing and engaging to the locking members. When at an open position, the shield presses against the locking members to deflect and push the locking projections away from the cavity such that the flexible/flat circuit is disengaged from the locking projections and can be detached from the connector.
A cable guide boot assembly for attachment to a connector and guiding a cable is provided, including a boot portion and a connector portion. The connector portion is configured to be non-rotary fixed to the connector and to extend from the connector in a first direction relative to a mating direction of the connector, and includes a first connection portion having a non-circular circumferential shape relative to the first direction. The boot portion a second connection portion mated to the first connection portion. The second connection portion is configured to receive the first connection portion, such that the boot portion is attachable to the connector portion in a discrete number of twisting angles with respect to the first relative direction.
A high speed flexible printed circuit (FPC) connector includes a housing with ground and signal contact terminal pairs arranged in the housing in a staggered manner along a lateral direction. The housing has a cavity for receiving an FPC board therein. Each ground contact terminal has an upper arm positioned adjacent to a top wall of the cavity and a lower arm positioned adjacent to a bottom wall of the cavity. Each signal contact terminal has only a lower arm positioned adjacent to the bottom wall of the cavity. Signal contact terminals with the only lower arm provide the connector with better signal integrity. An actuator is coupled to the housing for fixing the FPC board in the cavity to establish electrical connections. The actuator has recesses corresponding to the positions of the signal pairs to provide a dielectric constant different from that of the other parts of the actuator.
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 12/88 - Dispositifs de couplage raccordés avec une force d'insertion faible ou nulle moyens produisant une pression de contact, contacts activés après insertion des circuits imprimés ou des structures similaires agissant manuellement par rotation ou pivotement des pièces du boîtier du connecteur
H01R 13/6471 - Moyens pour empêcher la diaphonie par agencement particulier des conducteurs de mise à la masse et de signaux, p. ex. GSGS [mise à la masse - signal - mise à la masse - signal]
H01R 12/79 - Dispositifs de couplage pour circuits imprimés flexibles, câbles plats ou à rubans ou structures similaires se raccordant à des circuits imprimés rigides ou à des structures similaires
H01R 13/6477 - Adaptation d'impédance par variation des propriétés diélectriques
H01R 13/6597 - Caractéristiques ou dispositions spécifiques de raccordement du blindage aux organes conducteurs l'organe conducteur étant un contact du connecteur
The present invention pertains to a connector, having a rear side and a mating side and including a housing having at least one contact receiving space and at least one non-contact receiving space, the spaces extending in a direction from the mating side towards the rear side. The non-contact receiving space is adapted for receiving a portion of a mating connector housing and has a substantially rounded cross sectional shape substantially perpendicular to the direction from the mating side towards the rear side.
The present invention pertains to a connector, having a rear side and a mating side and including a housing having at least one contact receiving space and at least one non-contact receiving space, the spaces extending in a direction from the mating side towards the rear side. The non-contact receiving space is adapted for receiving a portion of a mating connector housing and has a substantially rounded cross sectional shape substantially perpendicular to the direction from the mating side towards the rear side.
In accordance with one embodiment, an electrical connector includes a connector housing, and at least one electrical terminal supported by the connector housing. The electrical terminal defines a mating portion and a mounting portion, the mounting portion carrying a crimp member having crimp teeth configured to pierce through a flex cable when crimped so as to mount the flat flex cable to the mounting portion of the electrical terminal.
A connector assembly includes a substrate and a connector. The substrate includes a ground layer and a trace layer. The substrate defines a substrate edge, and the ground layer defines a ground edge. The connector is mounted on the substrate such that a portion of the connector overhangs the substrate edge of the substrate. The connector includes a first signal contact that defines a mating portion, a mounting portion, a first transition portion connected to the mating portion, and a second transition portion connected to the first transition portion and the mounting portion. The first transition portion of the signal contact at least partially crosses the ground edge such that a gap is defined between the ground edge and the first transition portion and a substantial portion of the second transition portion extends over the gap when the electrical connector is mounted on the substrate.
Latch assembly for latching two mating connectors. The latch assembly includes a main body and a resilient latch finger extending from the main body. The latch finger includes a locking section, such as a locking cam. A release member, e.g., a slider, is moveable between a locking position and a release position. The release member a pressure surface profiled to flex the latch finger away when the release member is moved to the release position. The pressure surface is positioned between the locking section and the connected end of the latch finger, when the release member is in the locking position. The main body can, e.g., include a surface with a sunk section, the latch finger forming an extension of the sunk section, while the release member is a slider slideable in the sunk section.
The present invention relates to a contact and an electrical connector having such contacts. The contact is formed as a single piece of elastic metal sheet and includes a base frame and a spring arm restrained by the base frame in a preload state. The base frame includes two side walls each having a stopper projection formed in a plane within which a corresponding side wall is disposed. The spring arm is formed with opposite projections which are pressed down and constrained in position by the stopper projections respectively. The contact can be manufactured in a simple way and presents a high reliability.
H01R 12/00 - Association structurelle de plusieurs éléments de connexion électrique isolés les uns des autres, spécialement conçue pour des circuits imprimés, p. ex. des cartes de circuit imprimé [PCB], des câbles plats ou à ruban ou des structures similaires généralement planes, p. ex. barrettes de raccordement, blocs de connexionDispositifs de couplage spécialement conçus pour des circuits imprimés, des câbles plats ou à ruban ou des structures similaires généralement planesBornes spécialement conçues pour établir le contact avec, ou pour être insérées dans des circuits imprimés, des câbles plats ou à ruban ou des structures similaires généralement planes
87.
Connector, connector assembling system and method of assembling a connector
An electrical connector is presented, including a plurality of connector wafers coupled by a coupling piece, each wafer including a housing accommodating a plurality of contact elements, said housing having opposite side edges, an insertion side exposing the contact elements, a back side and opposite main faces. The connector wafers are provided with first coupling means extending along at least a portion of a side edge thereof. The coupling piece is provided with second coupling means extending along at least a portion thereof. The first and second coupling means are arranged for engaging each other, in a coupled situation, on a plurality of distinct engagement positions along the respective coupling means.
A cage for shielding and handling electrical connectors, the cage has a pair of sidewalls each having a first and second longitudinal portions. A transverse link pierce joins the first longitudinal portions to form a single piece. Support members extend from the sidewalls and disposed in the space between the second longitudinal portions. A portion of the electrical connector is seated onto the support members, with the mounting portions of the contact terminals of the connector exposed. The electrical connector can be carried and positioned onto a PCB during the assembling process, by handling the cage only. The electrical connector is movable relative to the cage along vertical direction when contact terminals are brought into contact with the PCB to ensure the coplanary of contact terminals and PCB circuits. The present invention ensures the positioning accuracy of the connector onto the PCB and eases handling and assembling process.
A connector system includes a first connector and a mating second connector. The first connector includes a housing, at least a first terminal and a plurality of further terminals. The second connector includes a housing, at least a second terminal configured for mating at least with the first terminal of the first connector. The second connector further includes at least one shorting member configured for interconnecting at least one set of at least two further terminals of the first connector.
An FPC connector has a main body and an actuator movably attached thereto. When at an opened position, the actuator and the main body form a space therebetween into which an FPC can be inserted. The actuator can then be rotated towards the main body to close the space, such that the FPC is sandwiched and hold between the main body and the actuator. The actuator has a pair of pivots which are received by a pair of slots formed by the pair of support plates fixed to the main body. The actuator has a pair of latches which, when the actuator rotates to the locked position, act against a lock portion of the support plates and cause the lock portions to deform resiliently outwardly. When the latches pass over the lock portions, the lock portions resumes to the original position and lock the latches.
Cable connector including a connector housing and a cable clamp for clamping a cable to the housing. The cable clamp having an intermediate portion between a first and a second mounting portion. At least one of the two mounting portions of the cable clamp is provided with locking means selectively cooperative with at least two matching locking means, such as slots, of the connector housing to hold the cable clamp in respective different positions corresponding to different cable diameters.
An electrical connector includes at least two parts: a housing having a mating side (MS) and a rear side (RS) and a terminal module having a mating side and a rear side. One part includes a mounting structure and the other part includes a corresponding receiving structure for receiving the mounting structure of the other part. The mounting structure extends in a direction from the mating side to the rear side of the part and includes a cross-section perpendicular to that direction, which cross-section has an asymmetric profile.
A novel electrical connector that is thin and can hold a belt-like body. The electrical connector has two kinds of contact elements. When an actuator is rotated, an operation section of the actuator presses one connector element downward, and force from the one connector element causes the rotation shaft of the actuator to move upward. As a result, a portion near one end of a bar-like section, supported in air, of the other contact element is elastically deformed upward. By the principle of leverage, a portion near the other end of a bar-like section of the other contact element is moved downward.
The invention concerns a Cable clamp for a cable connector, the cable clamp being arranged for receiving and capturing a portion of at least one cable extending along an extension direction from the connector. The cable clamp includes a first section and a plurality of second sections which are movably attached or attachable to the first section; the first section includes at least one through-hole extending in the direction of extension, which through-hole is configured for receiving a first portion of at least one cable penetrating through the hole and at least a portion of the second sections is arranged for capturing between them a second portion of the at least one cable penetrating through the hole and extending therefrom.
The present invention pertains to a connector, having a rear side and a mating side and including a housing having at least one contact receiving space and at least one non-contact receiving space, the spaces extending in a direction from the mating side towards the rear side. The non-contact receiving space is adapted for receiving a portion of a mating connector housing and has a substantially rounded cross sectional shape substantially perpendicular to the direction from the mating side towards the rear side.
The present invention relates to contact, including a mating end for mating to two or more contacts and a conductive section. The conductive section includes a crimping end which is adapted to receive an electrical conductor and for being crimped thereto and a shaft section which extends between the crimping end and the mating end and includes two legs.
An electric connector has a housing, signal and ground contacts disposed in the housing and a metal shell surrounding the housing. The metal shell has a support segment covering a top surface of the housing and with a first edge positioned adjacent to a back surface of the housing, and a second edge positioned adjacent to a front surface of the housing. The ground contacts are formed integral with and extend forwardly from the second edge of the support segment by a one-step stamping process.
An edge connector for transmitting signals at a high frequency, for example in a system environment with a frequency higher than 2.0 GHz or 3.0 GHz, is provided. The connector includes a housing and at least a first and a second conductors disposed in the housing. Each conductor has a contact portion and a terminal portion, and each contact portion form a contact surface. The at least first and second conductors are disposed in the housing in such a manner that, both the contact surfaces face a first direction, the terminal portion of the first conductor is offset from the contact portion of the first conductor along the first direction, and the terminal portion of the second conductor is offset from the contact portion of the second conductor along a second direction which is opposite to the first direction.
Disclosed are methodologies for defining matched-impedance footprints on a substrate such as a printed circuit board, for example, that is adapted to receive an electrical component having an arrangement of terminal leads. Such a footprint may include an arrangement of electrically-conductive pads and an arrangement of electrically-conductive vias. The via arrangement may differ from the pad arrangement. The vias may be arranged to increase routing density, while limiting cross-talk and providing for matched impedance between the component and the substrate. The via arrangement may be altered to achieve a desired routing density on a layer of the board. Increasing the routing density may decrease the number of board layers, which tends to decrease capacitance and thereby increase impedance. Ground vias and signal vias may be arranged with respect to one another in such a manner as to affect impedance. Thus, the via arrangement may be altered to achieve an impedance that matches the impedance of the component. The via arrangement may be also be altered to limit cross-talk among neighboring signal conductors. Thus, the via arrangement may be defined to balance the impedance, cross-talk, and routing density requirements of the system.
Disclosed are methodologies for defining matched-impedance footprints on a substrate such as a printed circuit board, for example, that is adapted to receive an electrical component having an arrangement of terminal leads. Such a footprint may include an arrangement of electrically-conductive pads and an arrangement of electrically-conductive vias. The via arrangement may differ from the pad arrangement. The vias may be arranged to increase routing density, while limiting cross-talk and providing for matched impedance between the component and the substrate. The via arrangement may be altered to achieve a desired routing density on a layer of the board. Increasing the routing density may decrease the number of board layers, which tends to decrease capacitance and thereby increase impedance. Ground vias and signal vias may be arranged with respect to one another in such a manner as to affect impedance. Thus, the via arrangement may be altered to achieve an impedance that matches the impedance of the component. The via arrangement may be also be altered to limit cross-talk among neighboring signal conductors. Thus, the via arrangement may be defined to balance the impedance, cross-talk, and routing density requirements of the system.
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