Abstract:
An electrical connector includes a first insulating housing having an erect base board and an erect tongue board extending forwards from a front of the base board, flat terminals molded in the first insulating housing and having a contact portion and a first soldering tail which vertically projects under the base board, a second insulating housing assembled to a right side of the base board, and spring terminals molded in the second insulating housing and having a contact arm and a second soldering tail which vertically projects under the second insulating housing. The contact portions are exposed in a front of a right side of the tongue board and arranged at regular intervals along a vertical direction. The contact arms elastically project sideward out of the right side of the tongue board and are arranged at regular intervals along the vertical direction behind the contact portions.
Abstract:
An object of the present invention is to provide an electrical connector. The electrical connector includes an insulating housing having a base body and a tongue portion protruding forwards from a front of the base body. A substantial middle of a rear of the base body is concaved forward to form a receiving space. A fixing body is assembled in the receiving space of the insulating housing. A plurality of terminals is molded in the fixing body. A metal shell sheathes rearward the insulating housing together with the fixing body and the terminals. The metal shell has a rear plate curved downward by an external jig to cover a rear side of the fixing body after the metal shell sheathes the insulating housing.
Abstract:
A magnetic thermal device is provided. The magnetic thermal device includes a shaft, having an axis direction; a rotator, supported by the shaft, having a working material and a utility material; a magnetic assembly, adjacent to the rotator, for generating a magnetic flux passing through the rotator in a flux direction, wherein the flux direction is substantially perpendicular to the axis direction.
Abstract:
A cable-to-board connector includes a plug connector and a receptacle connector. The plug connector includes a plug housing, a plurality of plug terminals disposed in the plug housing, and a plug shielding shell surrounding the plug housing. At least two buckling blocks protrude oppositely from two outer surfaces of two opposite sides of the plug shielding shell. The receptacle connector includes a receptacle housing, a plurality of receptacle terminals disposed in the receptacle housing, and a receptacle shielding shell defining a receptacle accommodating space therein. The receptacle housing is inserted in a front of the receptacle accommodating space. Each side of the receptacle shielding shell defines at least one second buckling hole. A rear inner periphery of the receptacle shielding shell is attached to a front outer periphery of the plug shielding shell with the buckling blocks being buckled in the second buckling holes.
Abstract:
A cable connector connecting between a cable and a mated connector includes an insulating housing, a plurality of terminals disposed in the insulating housing, an inner shielding shell and an outer shielding shell surrounding the inner shielding shell. The insulating housing has a base portion and a tongue portion protruded forward from a front of the base portion. The insulating housing defines a plurality of passages concaved inward in periphery outer sides thereof and each extending along a front-to-rear direction. The inner shielding shell has a top plate, two end plates and a bottom plate which are interconnected to form an accommodating space thereamong for receiving the base portion therein. A plurality of contact strips are distributed along a front periphery of the inner shielding shell and restrained in the corresponding passages to electrically connect with the mated connector.
Abstract:
An electrical connector includes an insulating body, a plurality of terminals disposed in top and bottom surfaces of the insulating body, a holding body mounted to a rear of the insulating body and defining a plurality of positioning apertures penetrating vertically therethrough, and an insulating housing having a base body and a tongue board extending forward from a front of the base body. Each terminal has a soldering tail stretching downward beyond a bottom of the rear of the holding body to be positioned in the positioning aperture. A bottom of the tongue board defines a receiving recess extending longitudinally to penetrate through the base body. A rear end of the receiving recess penetrates downward through the base body to define an opening. The insulating body with the terminals and the holding body is inserted forward in the receiving recess, and the holding body is secured in the opening.
Abstract:
An electrical connector includes an insulating housing having a front surface concaved rearward to define a receiving chamber with a tongue board therein. Electrical terminals are disposed in the tongue board and elastically stretch into the receiving chamber. A frame-shaped holding shell is mounted in the receiving chamber. A shielding cover adapted for being connected to ground and punched from a metal board has a base board with a window being opened therein and a plurality of contact strips being formed and apart arranged to periphery edges of the base board. The base board is covered onto the front surface of the insulating housing with the window being communicated with the receiving chamber. The contact strips stretch freely outside the insulating housing. A shielding shell is put around the insulating housing and electrically connected with the shielding cover.