Abstract: A connector providing both an electrical and mechanical connection and an electronic device utilizing the connector. The connector includes a rigid body, a head connected to the rigid body, and a flexible conductor coupled to the body. The rigid body and the flexible conductor define an electrically conductive path to the head. An electronic device includes a housing defining at least one sidewall, an interior component, and a connector passing through at least one sidewall and mechanically contacting the interior component. The connector defines an electrically conductive path from the interior component to an exterior of the housing.

Abstract: A metal plate contact has two slits running from an upper end towards a bottom wall. First and second trench for receiving trunk and branching cables, respectively, and a recess for mounting a contact that crosses these trenches are created in a middle portion in a lateral direction of a housing. Left and right movable ends are connected to the middle portion on the two sides in a longitudinal direction via a connection band. The movable ends can be folded towards the top of the middle portion. First and second upper side trenches for covering the top of the first trench and covering the top of the second trench, respectively, are created in these movable ends. A wire lid for positioning a cable end is formed in one end or in the two ends of the second trench or of the second upper side trench.

Abstract: An electrical connector for electrically connecting a central processing unit (CPU) to a printed circuit board (PCB) includes a housing, a number of contacts, and a number of solder balls. The housing has a number of passageways extending passing through the housing and a number of protrusions located outside the passageways and corresponding the passageways one-to-one. A number of contacts partially are disposed in the passageways and each has a hole to match with the protrusion and secure the contacts on the housing. A number of solder balls are connected with corresponding contacts.

Abstract: A terminal includes a terminal body, and a press-fitting protrusion protruding from the terminal body in an orthogonal direction orthogonal to a longitudinal direction of the terminal to be press-fitted in the terminal holding hole. The press-fitting protrusion includes a first protrusion portion, and a second protrusion portion disposed rearward of the first protrusion in an insertion direction and protruding father in the orthogonal direction than the first protrusion portion. The terminal has, between the first protrusion portion and the second protrusion portion, a first connection portion having a width larger than a width of the terminal body.

Abstract: An electric connector includes a base adapted to receive a plug, which is able to be plugged into the base along a longitudinal direction in the plugged position. The base and the plug define together an interstitial space. The connector also includes a contact member adapted to radially extend into the interstitial space when the plug is in the plugged position. The contact member is able to ensure electric contact between the plug and the base and includes a metal wire folded back on itself so as to form turns around the longitudinal direction. The turns are in a number of less than or equal to five. A set of electric connectors can include the electric connector and the plug.

Abstract: A connector terminal comprised of a single bent metal sheet, including a contact portion including a first sheet portion and a second sheet portion, the first and second sheet portions being folded to overlap one on another, a terminal body, and a connector portion connecting the terminal body and the contact portion to each other, the connector portion including a reinforcement portion covering therewith an end surface of the first sheet portion, an end surface of the second sheet portion, and at least a part of a surface of the second sheet portion in a part of the contact portion.

Abstract: Provided is a connector comprising a plurality of rows of contacts and minimized in a front-rear direction. A first contact 30 positioned in an upper-row has a special shape constituted by a held portion 32 held by a housing 20, a connection portion 33 extending in a width direction from a rear end of the held portion 32, a first bent portion 35 extending from a front end of the connection portion 33 and being bent downward, and a first contact portion 36 extending downward from the first bent portion 35. A second contact 40 positioned in a lower-row has an L-shape. A second contact portion 44 of the second contact 40 is positioned obliquely rearward of the first contact portion 36 of the first contact 30.

Abstract: A socket terminal includes front and rear terminals. The front terminal includes a front contact-point portion that wipes off foreign material adhered to a terminal surface of a plug terminal. The rear terminal includes a rear contact-point portion that contacts the terminal surface wiped by the front contact-point portion. The socket terminal also includes a movable portion between a circuit-board connection portion and circuit board. The movable portion cancels a reduction in impedance of at least the front terminal and rear terminal for a transmission signal flowing from the circuit-board connection portion connected to the circuit board. This can provide a socket terminal allowing the rear contact-point portion to contact the terminal surface from which foreign material has been wiped off, and allowing impedance mismatching at a terminal transmission path to be eliminated; and to provide an electric connector including the socket terminal.

Abstract: A terminal of a connector includes two contact points, that is, a front contact point and a rear contact point. An angle formed by a line extending from an upper end of a rear terminal portion to the rear contact point and a direction in which the connector is inserted and removed is smaller than an angle formed by a line extending from an upper end of a front terminal portion to the front contact point and the direction in which the connector is inserted and removed. Thus, the insertion force used to insert the rear contact point can be reduced.

Abstract: The invention relates to a contact pin with a first and a second end portion and a bending portion located between the end portions, wherein the cross section of at least one end portion has a preferred bending direction (V1) and at least one bending resistance direction (R1) and wherein the moment of inertia of the cross section of the at least one end portion is smaller in the preferred bending direction (V1) than in the bending resistance direction (R1). If such contact pins are bent perpendicular to their longitudinal extension (Z) by a bending force in one direction (F), then the direction of the actual bending (X) deviates from the direction of the bending force (F). In order to eliminate or reduce this deviation it is provided according to the invention that the difference between the moments of inertia in the preferred bending direction (V1) and in the bending resistance direction (R1) in the cross section of the bending portion is smaller than in the at least one end portion.

Abstract: A connector comprises a housing and a plurality of contacts. Each of the contacts has one or more first sets and one or more second sets. The first set includes two first press-fit portions which protrude oppositely to each other in a first direction. The second set includes two second press-fit portions which protrude oppositely to each other in a second direction perpendicular to the first direction. The first press-fit portions and the second press-fit portions are press-fit in the housing.

Abstract: A terminal set of an electrical connector includes signal terminal duos and ground terminal duos. The signal terminal duos have two signal terminals. The signal terminals are spaced apart transversely. The ground terminal duos have two ground terminals. The signal terminal duos are disposed between the ground terminals. The ground terminals are each spaced apart transversely from an adjacent one of the signal terminals. The ground terminals are each larger than and hide transversely an adjacent one of the signal terminals. The terminal set functions as a shield for precluding crosstalk from taking place between terminals and precluding resonance from taking place between terminals.

Abstract: A female connector (F) includes a retainer (30) to be housed into a mounting hole (14) and selectively mounted, in a housing (10), at a partial locking position for allowing insertion of terminal fittings (50) and a full locking position for locking already inserted terminal fittings (50). A base (33) is at a rear end of the retainer (30) in a mounting direction into the housing (10) and is located outside a mounting hole (14) when the retainer (30) is at the partial locking position. Backlash eliminating portions (21, 22, 41, 42) are formed on the base (33) and in the housing (10) and are configured to restrict a relative displacement of the retainer (30) with respect to the housing (10) when the retainer (30) is at the partial locking position.

Abstract: A power contact includes a fixing portion, an engaging arm extending backwardly from a front end of the fixing portion along a first direction and a support member extending towards the engaging arm. The support member is positioned between the engaging arm and the fixing portion along a second direction perpendicular to the first direction. The support member is adapted for abutting against the engaging arm so as to increase insertion/withdraw force and avoid over deformation of the engaging arm.

Abstract: Provided is a connector in which a decrease in contact pressure due to the shape degradation of the pressing portions does not occur even if the operation of rotating the pressing member is repeated. Since the connector main body has, at the rear end, supporting portions that rotatably support the pressing portion, the pressing portion rotates while butting the rear ends of the movable pieces and the supporting portions so that the rear ends of the movable pieces are pushed up by the pressing portion, the butting of the pressing portion and the supporting portions is contact between synthetic-resin components, this eliminates the pressing portion being cut off due to contact with the supporting portions even if the rotation of the pressing member is repeated, and hence the shape degradation of the pressing portion can be prevented.

Abstract: A card connector is provided having a housing and a contact. The housing includes a card receiving space. The contact is supported by the housing and includes a contact arm and an extended portion. The contact arm includes a free end and the extended portion includes a first end positioned below the contact arm on which the free end of the contact arm may slide.

Abstract: Connectors and interconnects for high power connectors which may operate at frequencies up to approximately 110 GHz and fabrication methods thereof are provided.

Abstract: Provided is a connector in which a decrease in contact pressure due to the shape degradation of the pressing portions does not occur even if the operation of rotating the pressing member is repeated. Since the connector main body has, at the rear end, supporting portions that rotatably support the pressing portion, the pressing portion rotates while butting the rear ends of the movable pieces and the supporting portions so that the rear ends of the movable pieces are pushed up by the pressing portion, the butting of the pressing portion and the supporting portions is contact between synthetic-resin components, this eliminates the pressing portion being cut off due to contact with the supporting portions even if the rotation of the pressing member is repeated, and hence the shape degradation of the pressing portion can be prevented.

Abstract: A connector for electrically connecting implantable components. The connector comprises first and second connector halves configured to be electrically coupled to first and second components, respectively, and one or more readily severable unitary contacts electrically connecting the first and second connector halves to one another.

Abstract: A connector includes a housing and contacts. Each of the contacts includes a leading end, a connecting part, a held part, and a flange part. The housing has a holding part having a contact insertion hole into which the held part is inserted. The contact insertion hole includes: a first insertion hole in which a side surface of the held part of the contact is held; a second insertion hole formed in a size that holds one opposite side surface of the held part of the contact, and having a space on the other opposite side surface side, the second insertion hole being formed to be longer than the first insertion hole; and a flange holding part. The held part of the contact is made longer than the leading end of the contact. This configuration can improve alignment accuracy of the contacts without using a compensation plate.

Abstract: A connector element includes: at least two contact elements; and at least one latching element which has two diametrically opposed detents, which latching element is situated between the at least two contact elements. The at least one latching element is configured to be pivotable or bendable, and the two contact elements each have a recess for establishing a form-fit connection to one of the detents of the latching element. The recess is further configured to enable the latching element to be pivoted or bent in the direction of one of the two contact elements, so that the form-fit connection between the other contact element and the associated detent is able to be released.

Abstract: The invention relates to a spring-cage terminal block, having a bus bar and a leg spring for connecting a stripped conductor end piece of an electrical conductor, wherein the conductor end piece is inserted into a material passage of the bus bar and is clamped by means of the leg spring. According to the invention, the contact surface on the metal collar inner wall surface of the material passage has contact ribs extending along the insertion direction in order to form a linear contact pattern which extends in the insertion direction.

Abstract: An object is to provide a connector which prevents formation of air hole in a filler to improve airtightness in a terminal receiving chamber and increases injection speed of the molten filler to improve manufacturing efficiency. The connector includes a terminal clamp connected with an electric wire and a housing receiving the terminal clamp and the electric wire and having a box-like terminal receiving chamber filled with a filler and having an opening, a bottom face facing the opening and a first side face continued from the bottom face toward the opening. A slanted face is provided at intersection of the bottom face and the first side face and slanted away from the first side face toward the bottom face, and a gap is formed between the terminal clamp and the first side face, the slanted face and the bottom face.

Abstract: An electrical connector adapted for connection to a bus bar includes a dielectric housing, a conductive insert, and a cable interface. The cable interface may include a cable crimp lug and clinch nut, a combined cable crimp and crimp nut, or an integral cable crimp.

Abstract: A terminal platform is provided that can be stably supported by a bracket, and that avoids electrical contact between the bracket and a terminal fitting. Terminal fittings that form an L shape by wire connection portions and terminal main bodies are supported on a terminal platform. A platform main body of the terminal platform has (i) support-receiving portions that are supported by a support portion formed on a metal bracket, (ii) a terminal fixing portion that is positioned at a side opposite to the support-receiving portions and fixes the terminal main bodies, and (iii) a surface portion that is arranged to intersect the terminal fixing portion and the support-receiving portions, and that is along the wire connection portions. Additionally, a partition wall of the terminal platform extends to the surface portion and is arranged facing a tip end of the support portion, and separates the wire connection portions.

Abstract: The subject matter of the invention is a plug-type connector, comprising a contact carrier element (10), wherein a contact element (16) for receiving a conductor (12) of a cable is arranged in the contact carrier element (10), wherein the contact element (16) is fixed in the contact carrier element (10), wherein, in the event of a force being exerted on the contact element (16) which is greater than the holding force of the fixing, the fixing can be released and the contact element (16) becomes movably mounted in the contact carrier element (10).

Abstract: An electrical connector comprising an insulative housing, a plurality of terminals retained in the insulative housing, and a metal package enclosing the insulative housing, said metal package comprising a first metallic shell and a second metallic shell covering the first metallic shell, said first metallic shell having an upper wall, a bottom wall and a pair of side walls, said second metallic shell having a top board, a floor board and a pair of side boards. Said second metallic shell is formed with a plurality of first soldering legs extending downwardly from a back-end of the top board, second soldering legs extending outwardly from the side boards, and said first metallic shell is formed with a plurality of fixed legs extending outwardly from a rear-end of the side walls; wherein said fixed legs are located between the first soldering legs and the second soldering legs along a front-to-back direction.

Abstract: The present invention relates to an electronic device which has a male connection portion for connection with a female snap. The male connection portion comprises a conductive stud which is or can be screwed in to a portion of the electronic device via threading on the stud. Furthermore, an adhesive can be added to the stud or an opening of the electronic device in order to provide a secure and water tight seal between the stud and the electronic device. The stud generally makes an electrical connection between a conductive portion of the female snap and an electronic component within the electronic device. The male portion of the stud may also comprise a cavity or opening for receiving a tool for screwing the stud in to the electronic device and/or for receiving a guiding pin of the female snap portion.

Abstract: A cable connector is to be connected to a cable and having a fitting surface to be fitted to a mating connector along an axial direction of the cable. The cable connector includes a housing; and contact members secured in the housing. Each contact member includes a basal section extending along the axial direction; a connecting section provided on one side and connected to one end of the cable; a contact section provided on the other side in the axial direction relative to the basal section; and a section to be locked and provided between the basal section and the connecting section along the axial direction. When the contact member is placed in the housing by the sliding movement, a part of each section to be locked on a side opposite the moving destination side in the sliding direction will be locked by a predetermined part of the housing.

Abstract: The present invention provides a polybutylene terephthalate resin composition which satisfies performances such as high durability in an environment of heating and cooling cycles and adhesion properties to an addition-reaction type silicone rubber. Specifically, provided is the polybutylene terephthalate resin composition, exhibiting excellent adhesion properties to the addition-reaction type silicone rubber, including: (A) 100 parts by weight of polybutylene terephthalate resin; (B) 5 to 30 parts by weight of a styrene-based thermoplastic elastomer containing 40% by weight or less of styrene component; and (C) 20 to 100 parts by weight of glass fiber.

Abstract: First and second terminals project from a circuit board and lie adjacent to each other with an interspace formed between the first and second terminals. An electronic apparatus further includes a projecting member projecting along a neighboring terminal which is one of the first and second terminals at such a position that the neighboring terminal is located between the projecting member and the interspace. The projecting member is located at an adjacent position adjacent to the neighboring terminal, to attract molten solder from the interspace toward the projecting member during soldering to join the first and second terminals to the circuit board.

Abstract: Electrical connection systems, electrical apparatuses, and electrical connection members are described.

Abstract: An electrical contact including an elongated contact body that has a compliant tail, a mating beam, and a channel section extending between the compliant tail and the mating beam. The channel section has a base wall and sidewalls that extend from the base wall. The base wall and the sidewalls extend around a central longitudinal axis to define a flow channel. The channel section includes a flow-limiting feature that is configured to impede capillary flow of a plating solution along the channel section from the compliant tail to the mating beam.

Abstract: A connector is provided to press-fit terminals in terminal-press-fitting holes of a housing, and electric contact parts of contacts are aligned in respective terminal-alignment grooves in the housing. A pair of concave pressed parts and a pair of curved convex parts are formed on opposite surfaces of the press-fit fixing part, respectively. The pair of concave pressed parts and the pair of curved convex parts are provided on opposite lateral ends of the press-fit fixing part with a predetermined gap to each remain a non-deformed part between the pair of concave pressed parts and between the pair of curved convex parts to be flat so that a first area of the second surface on which the non-deformed part is remained is flush with a second area continuous to the first area in the longitudinal direction of the press-fit fixing part.

Abstract: The invention relates to an electrical connector for accommodating an electrical conductor or mating connector, having a first plastic section having a first degree of hardness or elasticity, and a second plastic section having a second degree of hardness or elasticity, wherein the first degree of hardness or elasticity and the second degree of hardness or elasticity are different, and the first plastic section cooperates with the second plastic section in order to accommodate the electrical conductor.

Abstract: An F-connector for a coaxial cable has a substantially flush, coplanar face comprising a first insulator, locking ring, and connector body with a swaged leading edge. Within the connector body a connecting lead is attached to and spans between the first insulator and a second insulator. The F-connector may be constructed by a process that permits front-loading of the connecting lead and insulators, or by a process that permits back-loading of the connecting lead and insulators, or by a process that permits partial back-loading and partial front-loading of the connecting lead and insulators.

Abstract: A connection terminal includes a movable contact portion protruding out of a contact hole of a housing of the connection terminal, and is adapted to be pressed; a first curved portion continuously formed, the first curved portion including a free end portion having a fixed portion; a second curved portion continuously formed, the second curved portion including a free end portion having the movable contact portion; a rigid coupling portion interposed between the first curved portion and the second curved portion, and an abutment portion disposed on an opposite side to the second curved portion with respect to the movable contact portion, and adapted to be displaced toward the rigid coupling portion

Abstract: A connector system includes a substrate having a front side and a rear side with an opening therethrough, and a connector assembly coupled to the substrate. The connector assembly includes a housing having a body at a bottom and a head at a top that extends along the front side with the body extending through the opening to the rear side. The housing has a contact channel extending therethrough. A poke-in contact is received in the contact channel through the top of the housing. The poke-in contact has a wire trap configured to receive a wire therein in a wire loading direction through the bottom of the housing. The poke-in contact has a mounting leg extending from the head and mounted to the front side of the substrate.

Abstract: An electrical connector includes a metal body and an insulation body received in the metal body and having therein first terminals and second terminals. Each first and second terminal has a connecting segment extending outward and a bent formed on a distal end of the connecting segment.

Abstract: A bevel portion extends from a front end of a plate-like electrical contact of the terminals to a lengthwise intermediate portion of the electrical contact, the bevel portion residing at an intersection of a width surface of the electrical contact with a thickness surface of the electrical contact. A step portion resides at an end of the bevel portion at the lengthwise intermediate portion of the electrical contact, the thickness surface extending in the thickness direction having one portion with reduced width defined by the bevel portion in the thickness direction. The other portion of the thickness surface continuing to an end of the step portion has an increased width in the thickness direction to define a press-fit portion. The electrical contact is inserted in a hole of a housing to the extent defined by the step portion and thereby provisionally locked with the press-fit portion press-fitted in the hole.

Abstract: Various embodiments provide an interconnect system for power applications. The interconnect system includes a receptacle comprising a first conductive wall. At least a second conductive wall is situated opposite the first conductive wall. The receptacle further includes a first end and a second end situated opposite the first end. A first sacrificial contact area is situated on the first conductive wall. At least a second sacrificial contact area is situated on the second conductive wall. A first conductive contact area is situated on the first conductive wall. At least a second conductive contact area is situated on the second conductive wall. The conductive contact areas are situated closer to the first end than the sacrificial contact areas. The sacrificial contact areas are configured to contact a sacrificial portion of the header prior to a conductive portion of the header contacting the conductive contact areas of the receptacle.

Abstract: The present invention provides a socket, which includes an insulation housing, conductive silicone rubber received in the insulation housing, and a conductive plate mounted to the insulation housing. The conductive plate has an end electrically connected to the conductive silicone rubber and an opposite end extending outside the insulation housing for external electrical connection. The present invention provides a socket that comprises an insulation housing in which a block of flexible conductive silicone rubber is received and retained to allow a lead pin of a light tube to be easily inserted into the conductive silicone rubber for realizing mounting the light tube to socket to be in electrical connection with the socket. Further, the conductive silicone rubber used in the present invention shows a cushioning capability that provides protection to the light tube.

Abstract: A terminal holding part of a terminal protection cover includes a pair of lateral shaking-preventing wall parts which stands from a terminal-attachment surface of the terminal protection cover, and has surfaces facing lateral end edge surfaces, respectively, of the bent plate-type terminal which is held therein. The terminal holding part further includes a first vertical shaking-preventing wall part and a second vertical shaking-preventing wall part provided at a position upwards from the first vertical shaking-preventing wall part. The second vertical shaking-preventing wall part has a surface which is on the same side as the tip end edge surface of the lateral shaking-preventing wall part, and which is formed to be recessed relative to the tip end edge surface at a certain position at least upwards from an end edge surface of the second vertical shaking-preventing wall part.

Abstract: A holding metal fitting 40 includes: a substantially L-shaped body portion that has a side plate portion 41 and a bottom plate portion 42; an anchor portion 45 that bent from the side plate portion 41 in a direction (longitudinal direction) Y intersecting a height direction (vertical direction Z) of the housing 21 and bites into the housing 21; and a hook portion 48 that is bent from the anchor portion 45 in a direction (vertical direction) Z intersecting an extended direction (longitudinal direction) Y of the anchor portion 45.

Abstract: A luminous element holder for fastening to at least one body, includes a slot-like interior chamber, wherein, by means of at least one web protruding laterally into the interior chamber, the interior chamber is divided into a slot-like insertion chamber for receiving the at least one body and a receiving chamber, openly adjoining the insertion chamber, for at least one luminous element.

Abstract: A solar cell module terminal box includes a contact electrically connectable to an external terminal of a solar cell module, a connector member electrically connected to the contact, and a box main body. The box main body has an accommodating portion for accommodating the contact, an attaching portion accommodating the connector member and a wall member which partitions the accommodating portion and the attaching portion from each other. The wall member includes a connector insertion hole. The connector member is inserted in the connector insertion hole in tight/gapless contact therewith along the entire perimeter thereof.

Abstract: A low-insertion force electrical connector for implantable medical devices includes a housing with a pair of opposing sidewalls each with center openings oriented generally concentrically around a center axis. An inner coil is located in a recess with a coil axis generally co-linear with the center axis of the center openings. The inner coil includes an outer diameter less than a recess diameter, and an inner diameter greater than a center opening diameter. An outer coil is threaded onto the inner coil. The outer coil has an outer diameter less than the recess diameter, and an inner diameter less than the center opening diameter. The outer coil is radially expanded within the recess in response to engagement with contact rings on the implantable medical device, such that the outer diameter of the outer coil is at least equal to the recess diameter.

Abstract: A cable for the transmission of signals, includes a plurality of leads, on whose inner conductors an electrically conductive end piece is affixed. At least one of the end pieces includes a first latching element. The cable includes a coupler element, and the coupler element has a body having a longitudinal axis. In addition, the body has parallel feed-throughs, electrically insulated from each other, to accommodate the end pieces. At least one of the feed-throughs includes a second latching element. The end piece is inserted into the feed-through such that the first latching element locks into place with the second latching element. The body furthermore has a first surface and a second surface to guide a mating piece of the coupler element, the first surface having a radially outwardly directed normal vector, and the second surface having a radially inwardly directed normal vector.

Abstract: A connector includes a housing and contacts. Each of the contacts includes a leading end, a connecting part, a held part, and a flange part. The housing has a holding part having a contact insertion hole into which the held part is inserted. The contact insertion hole includes: a first insertion hole in which a side surface of the held part of the contact is held; a second insertion hole formed in a size that holds one opposite side surface of the held part of the contact, and having a space on the other opposite side surface side, the second insertion hole being formed to be longer than the first insertion hole; and a flange holding part. The held part of the contact is made longer than the leading end of the contact. This configuration can improve alignment accuracy of the contacts without using a compensation plate.

Abstract: Electrical connectors for attachment to electrical contacts of light emitting devices as well as light emitting device packages and lamp assemblies that use such connectors are provided. Further, methods for assembling light emitting device packages that use such connectors are provided. The electrical connector, for example, can have a plug housing with an electrically conductive socket engaging connection for engaging a socket. The electrical connector can also have an electrically conductive member extending from the plug housing and connected to the socket engaging connection. The electrically conductive member can have an end distal from the plug housing that forms a contact base configured to attach to an electrical contact on a light emitting device.