Abstract: An electrical connector includes: a housing having a base, a front tongue, and a rear mount; an upper and lower rows of contacts arranged in the housing and exposed respectively to two opposite surfaces of the tongue; an insulative shell mounted to the base and including a pair of mounting lugs, each mounting lug having a hole; and a metallic shell shielding the rear mount, wherein the metallic shell has a pair of securing arms fastened to the pair of mounting lugs.

Abstract: An electrical connector includes: an insulative housing having a base and a tongue, the base having a front face for abutting a front end face of a mating connector; and plural contacts arranged in an upper and lower rows and exposed respectively to an upper and lower surfaces of the tongue, wherein the insulative housing is devoid of a step between the base and the tongue, and a length measured from a front end face of the tongue to the front face of the base is about 2.85 mm A complementary electrical connector is devoid of a grounding piece in front of plural contacts thereof, and a length measured from a front end face of a shell thereof to mating points of the contacts is about 1.05 mm.

Abstract: An electrical assembly includes a system board and a power board closely arranged with each other in a parallel relation. An electronic package and a system connector are mounted upon an upper surface of the system board. A power connector and a set of connector units are mounted on an undersurface of the power board. Another set of connector units are formed on an upper surface of the electronic package. A heat sink is positioned upon the power board and contacts the electronic package via a center opening in the power board. After assembled, the power supply is provide through connection between the two sets of the connector units and that between the system connector and the power connector.

Abstract: An electrical connector includes an insulative housing, a plurality of passageways, a plurality of blade type contacts retained to the retaining grooves in the corresponding passageways, a spacer located in a rear receiving space of the housing with corresponding slits through which tails of the contacts rearwardly extend, and a plurality of wires having the inner conductors soldered upon the tails of the contacts behind the spacer. A waterproof glue plate fills the receiving space of the housing to enclose the exposed inner conductors and the corresponding tails. A plurality of passages are formed in one side of the peripheral wall, through which the wires extend in a vertical direction perpendicular to the horizontal direction along which the contacts extend. The spacer forms a recess to receive a protrusion of the glue plate, and the protrusion is located adjacent to the passages for assuring sealing around said passages.

Abstract: An electrical connector includes: an insulative housing having a base and a tongue; and plural contacts arranged in an upper and lower rows and exposed respectively to an upper and lower surfaces of the tongue, wherein the upper and lower rows of contacts include a first and second power contacts in the same row, the second power contact being shorter than the first power contact so as to be prevented from making an electrical contact with an ordinary connector.

Abstract: An electrical connector assembly includes an insulative housing, a plurality of terminals mounted on the insulative housing, a cable electrically connected with the terminals, a magnet disposed on the insulative housing, and an inner mold integrally formed on the insulative housing and the cable, wherein the electrical connector assembly also includes a heat insulation member disposed between the magnet and the inner mold to prevent the magnet from heat of the inner mold during molding.

Abstract: An electrical connector includes: an insulative housing having a rear base and a front tongue with two opposite surfaces, plural contacts secured to the insulative housing and exposed to the two opposite surfaces of the tongue, and a deep drawn sleeve having a front part of a first transverse dimension and a rear part of a second transverse dimension less than the first transverse dimension, wherein the rear part of the sleeve is mounted to the base of the insulative housing and has a notch, and the base of the insulative housing has a restraining rib engaging the notch.

Abstract: An electrical connector includes an insulative housing with a rear base and a mating tongue extending forwardly from the base. Two rows of contacts are retained in the housing. A metallic shielding plate is embedded within the housing and between the two rows of contacts. Each row of contacts defines positions from one to twelve in the transverse direction wherein positions 2&3 and 10&11 are designated for high frequency signal transmission. In the shielding plate the space between corresponding positions 4 and 6, and that between corresponding positions 7 and 9, are of a complete or enlarged hole being essentially fully empty along the front-to-back direction for achieving the high frequency transmission without undesired crosstalk among the corresponding contacts.

Abstract: An electrical connector includes: an insulative housing having a front tongue with two opposite surfaces; and a first and second rows of contacts with contacting portions exposed to the two opposite surfaces of the tongue; wherein the first row of contacts include a row of contacts from a first contact carrier of a first thickness and a row of contacts from a second contact carrier of a second thickness less than the first thickness; and the row of contacts from the first contact carrier and the row of contacts from the second contact carrier are molded to form the first row of contacts. A method of making a contact module of the electrical connector is characterized by molding the row of contacts from the first thicker contact carrier and the row of contacts from the second thinner contact carrier to form the first row of contacts.

Abstract: A hermetic electrical adaptor including a first insulative body, a second insulative body, a plurality of contacts, a first glue body and a second glue body. The contact has a main body and first and second contacting sections located at two opposite ends of the main body. The first insulative body has a first base and a first tongue, and the second insulative body has a second base and a second tongue. The second base forms a receiving cavity to receive the first base. The first contacting section is disposed upon the first tongue, and the second contacting section is disposed upon the second tongue. The first insulative body is integrally formed with the contacts as a contact module before assembled with the second insulative body. The first base forms in a back side a receiving space to receive the first glue body.

Abstract: An electrical connector includes an insulative housing forming a mating cavity, a plurality of passageways located by two sides of the mating cavity, a bottom cover attached upon a bottom side of the housing to shield the mating cavity in a vertical direction. A plurality of contacts are disposed in the corresponding passageways, respectively. Each contact includes a retaining section retained in the corresponding passageway, a resilient contacting section extending from the retaining section and into the mating cavity, and a leg extending from the retaining section and downwardly through the bottom cover. A waterproofing glue plate is attached upon the bottom cover, and the legs of the contacts extend through the glue plate. The leg forms a transverse groove located in at least one surface and embedded within the glue plate so as to enhance securement between the glue plate and the leg.

Abstract: An optical communications module performs automatic recovery from a system hard fault that occurs when a controller of the module detects a particular error. The controller outputs a heart beep signal having a preselected attribute from a first port thereof if an error check operation performed by the controller determines that an error has not occurred. A second port of the controller receives a chip reset signal from automatic control logic that is external to the controller. The automatic recovery logic monitors a first port thereof to determine whether the heart beep signal having the preselected attribute is present at or absent from the first port of the automatic recovery logic and outputs a chip reset signal from a second port of the automatic recovery logic to the second port of the controller.

Abstract: An electrical connector (100) includes an insulative housing (1), a plurality of contacts received in the insulative housing, and a first conductive member (24). The contacts include a pair of first grounding contacts (212) for transmitting grounding signal, and a pair of first signal contacts (211) for transmitting a differential signal. The pair of first grounding contacts and the pair of first signal contacts are arranged in a first row. The pair of first signal contacts is disposed between the pair of first grounding contacts. The first conductive member is electrically connected with both of the first grounding contacts in at least two different locations.

Abstract: An electrical connector includes an insulative base and an insulative cover moveable relative to the base along the front-to-back direction. A lever includes an actuating bar sandwiched between the base and the cover and is rotated to move the cover relative to the base. A metallic reinforcement piece is embedded within the base adjacent to the actuating bar. The metallic reinforcement piece includes a main part in compliance with a receiving groove of the base receiving the actuating bar therein, and a pair of wings at two opposite transverse side edge of the receiving groove.

Abstract: An electrical connector includes: a housing; a locking mechanism held on the housing and including a holding portion secured to the housing, a locking portion for locking with a mating connector, and an operation portion for unlocking the locking portion from the mating connector; a plug portion including a wide surface and being connected with the mating connector in a first direction; and a cable electrically connected to the plug portion and extending out of the housing; wherein the cable extends out of the housing in a second direction that is parallel to the wide surface and perpendicular to the first direction, and the operation portion extends to an edge of the housing in a third direction opposite to the first direction.

Abstract: A plug connector includes: a housing module having a mating end and including a first housing and a second housing assembled with the first housing to define a cavity therebetween; and a mating board received in the cavity and exposed to an exterior at a position close to the mating end; wherein the first housing has a main portion and a tongue extending from the main portion, the second housing has a receiving space receiving the tongue, and the tongue is deformed to latch within the receiving space.

Abstract: A card connector assembly includes: an electrical connector including an insulative housing, a plurality of terminals secured to the insulative housing, a shell covering the insulative housing to form a receiving cavity, and an ejector having a pivot; and a card tray removably received in the receiving cavity, the card tray having a front surface, wherein the card tray has a protrusion at the front surface, and the pivot has an engaging portion for ejecting the card tray, the engaging portion having a recess for receiving the protrusion and an ejecting end for riding onto the protrusion.

Abstract: An electrical connector for inserting along a mating direction into a receiving space of a complementary connector through an insertion hole of an electronic device that has a dimension greater than that of the receiving space includes: an insulative housing; plural contacts secured to the insulative housing; and an outer shell enclosing the insulative housing, the outer shell including a front portion and a rear portion each having a respective lateral dimension measured along a transverse direction perpendicular to the mating direction, wherein the lateral dimension of the rear portion is greater than the lateral dimension of the front portion, the front portion is adapted to match the receiving space of the complementary connector and the rear portion is adapted to match the insertion hole of the electronic device, and the lateral dimension of the rear portion is less than the electronic device insertion hole dimension.