Abstract: A cable connector assembly (100) includes an insulated housing (2), a plurality of contacts (3) received in the insulated housing, a spacer (4) assembled to the insulated housing and a metallic shell (1) enclosing the insulated housing. The insulated housing (2) comprises a main portion (21) and two arms (22) extending from both sides of the main portion backwards, and at least one of the two arms defines a latching hole (2213), the spacer has a projecting portion (4203) locked with the latching hole (2213) in the arm.

Abstract: An electrical connector mating with a mating connector has an insulating housing. The insulating housing defines a ring-shaped insertion recess in a front surface thereof and a mating portion surrounded by the insertion recess. The mating portion has a plurality of insertion holes passing through the insulating housing. A plurality of terminals is received in the insulating housing. The terminal defines a fixing plate. One end of the fixing plate extends frontward to form two spaced apart connection arms. A soldering portion extending from the other end of the fixing plate extends out of the insulating housing. The connection arms and the fixing plate are restricted in a rear of the insertion hole.

Abstract: An electrical connector (100) includes an insulative housing (10), a number of first contacts (20), a contact module (30) and a metallic shell (40). The insulative housing has a mating face (14), a first receiving cavity (15) and a second receiving cavity (16) recessed from the mating face. The first contacts are disposed in the insulative housing. The contact module is received in the second receiving cavity and has an insulative base (31), a number of second contacts (32) and a shielding plate (33). The metallic shell is attached to the mating face of the insulative housing and having a plate section (41) defining a central opening (410) in alignment with the first receiving cavity, and a pair of opposite ends (42) extending from the plate section and inserted in the insulative housing. The metallic shell has electrical connection with the shielding plate of the contact module.

Abstract: A combination desk accessory and USB device includes an electric motor or mechanism in a housing, and USB ports on the housing. A least one of the USB ports is electrically linked to the electric motor or mechanism for providing power to the motor or mechanism. Batteries may optionally be provided in a battery compartment in the housing, with the battery compartment electrically linked to the electric motor or mechanism and to one or more of the USB ports. A power supply circuit electrically connected to at least one of the USB ports, the battery compartment and motor or mechanism, may be provided to control electrical power. The desk accessory may be an electric stapler, pencil sharpener, letter opener, fan, or similar electrically powered device.

Abstract: A cable connector assembly includes an insulative housing(1) with a number of passages(101), a shell(3) covering the insulative housing, a number of contacts(2) received in the passages of the insulative housing, and a spacer(5) assembled to the insulative housing. The contact includes a retaining portion(22), an extending portion(25) extending form the retaining portion and a soldering portion(23) bending from the end of the extending portion, and the all soldering portions are coplanar. The spacer includes a pressing portion(52) and a vertical wall(53). The pressing portion presses on the retaining portion of the contact, and the vertical wall engages with the soldering portion of the contact.

Abstract: A stacked electrical connector includes a first insulator and a second insulator mounted together. The first insulator includes a first connector and a receiving opening under a bottom wall of the first connector. The second insulator includes a second connector and a top wall. The bottom wall of the first connector includes a first retention member and the top wall of the second insulator defines a second retention member for mating with the first retention member. The first retention member is a protrusion or a dovetail shaped recess, and the second retention member is a rest of the protrusion or the dovetail shaped recess. The protrusion has an upper narrow section and a lower wide section under a condition that when the protrusion is received in the dovetail shaped recess, a movement therebetween can be prevented.

Abstract: An electrical connector (100) comprises a first insulative housing (10), a second insulative housing (30) engaging with the first insulative housing (10), and a plurality of contacts. Said second insulative housing (30) has a first platform (321) and a second platform (322) arranged at different levels. Each of the contacts (20) includes a mating portion (21) supported by the first insulative housing and a tail portion (23) supported by the second insulative housing, the tail portions (23) of the contacts are spaced into two rows and located on the first and second platforms; another contact has a tail portion disposed inside the second insulative housing.

Abstract: An electrical connector receptacle that includes receptacle-side electrical contacts, a socket, and a receptacle shield. The socket is configured such that a connector may be inserted therein allowing the electrical contacts of the connector to interface with the receptacle-side electrical contacts. The receptacle shield is placed in the back of the receptacle, and is composed of an Electro-Magnetic Interference barrier material. In one embodiment, the receptacle shield is configured to interface with an EMI barrier of the connector, and includes separate slots through which electrical connections may pass.

Abstract: An electrical connector comprises an insertion side and a shielding shell. The shielding shell comprises a frame, and further comprises a first mounting portion and a second mounting portion which may be respectively located on two opposing sides of the frame. Each of the first mounting portion and the second mounting portion has a fixing hole, and each has a front surface and a rear surface opposite the front surface. The rear surface of the second mounting portion and the front surface of the first mounting portion are substantially on the same plane.

Abstract: A shield connector includes plural female terminals 2, a connector housing 3, and a shield shell 8. The connector housing 3 includes a terminal holder 6 that holds the plural female terminals 2 and an inner housing 5 into which the terminal holder 6 is inserted. The shield shell 8 includes an upper shield shell 25 and a lower shield shell that are attached to each other so as to cover the outer periphery of the inner housing 5.

Abstract: An electrical connector (100) in accordance with the present invention includes an insulative housing (10) and a terminal module (20) received in the insulative housing. The terminal module includes a daughter board (21), a choke group, a number of mating terminals (24) mounted on a first side of the daughter board, and a connecting module (22) mounted on a second side the daughter board and having a number of connecting terminals (221). The choke group has a number of transformer chokes (23) mounted to the second side of the daughter board, and a number of surface mount device chokes (25) adapted for being applied in automatic manufacture and mounted the second side of the daughter board.

Abstract: A high speed jack capable of handling Category 7 communications. The jack comprises a shield and a housing inside the shield. The housing defines four distinct chambers for holding at least a first, second third, and fourth contact block, each contact block including at least two contacts. The contact blocks may be disposed symmetrically about a central axis of the housing. A horizontal shield and a vertical shield are disposed in the housing and shield the contacts from one another.

Abstract: An electrical connector includes an insulating body, a plurality of terminals, a plurality of shielding layers, and a plurality of insulating layers. The insulating body has a plurality of terminal-receiving holes. The shielding layers are mounted on the terminal-receiving holes. The insulating layers are mounted on the shielding layers, and the terminals are disposed in the terminal-receiving holes. Thereby, the insulating layers prevent EMI between terminals and ensure the terminals do not contact the shielding layers.