An edge connector is configured to connect to a circuit board. The edge connector includes a base wall, a first terminal mount extending upwardly from the base wall, the first terminal mount having a plurality of passageways, terminals mounted in the passageways, a second terminal mount extending upwardly from the base wall, the second terminal being spaced from the first terminal mount, the second terminal mount having a plurality of passageways extending therethrough, terminals mounted in the passageways of the second terminal mount, and a moveable latch extending from the upper surface of the base wall, the latch positioned between the first and second terminal mounts. Each terminal mount extends along part of the length of the base wall such that a platform is formed by the upper surface of the base wall rearwardly of the terminal mounts. A latch protection wall extends from each terminal mount to the rear end of the base wall, and the latch protection walls are proximate to the latch.

An electronic device includes a fork structure having a pair of arms disposed in spaced relation and defining an open-ended channel therebetween. A surface of channel defines a seat opposite the open end. The channel has a width W.sub.1 at its narrowest section. A rigid wire of an electrical component is disposed in the channel generally adjacent to the seat. The wire has a width W.sub.2 that is greater than the width W.sub.1 so surfaces of the channel at the narrowest section defined by width W.sub.1 interfere with the wire, preventing the wire from moving towards the open end of the channel. The pair of arms are constructed and arranged to be moved toward each other so as to crimp the wire to the fork structure.

A contact assembly for a connector housing includes an adapter element and a contact element. The adapter element has a sleeve with a lead-through opening extending in an axial direction of the sleeve and with a threaded bore extending perpendicularly to the lead-through opening through the sleeve. The contact element is adapted to be inserted into the lead-through opening and latched to the sleeve. The contact element may exhibit varying types of a cable connection section and/or a contact section. The adapter element is receivable within the connector housing and may accept the contact element regardless of the type of cable connection section and/or contact section.

A terminal assembly structure according to an embodiment of the present invention includes: a crimp terminal having a crimp portion configured to crimp and connect a core wire of an electric wire and a fastening portion configured to be fastened by a fastening member; and a holder having a base portion configured to place the crimp terminal when fastening the crimp terminal to the holder. The holder has a detection rib at a position on the base portion to be oppose to the crimp portion of the crimp terminal, the detection rib being configured to interfere with the crimp portion when misassembly of front and back sides of the crimp terminal to the holder occurs.

A terminal comprises an insert sheet connecting part and a cable connecting part. The insert sheet connecting part defines a slot sized to receive an insert sheet. The slot is delimited by a bottom wall, a top wall and two side walls. The two side walls are formed by upwardly bent extensions of left and right sides of the bottom wall. The top wall defines two top wall portions formed by inwardly bent portions of the two side walls respectively. The top wall includes a protrusion extending toward the bottom wall, and a reinforcing rib extending from one side wall to the corresponding top wall portion formed by bending the one side wall.

A terminal assembly structure according to one or more embodiments includes: a terminal having a crimp portion configured to crimp and connect to a core wire of an electric wire and a fastening portion configured to be fastened by a fastening member; and a holder having a base configured to mount the terminal when fastening the terminal to the holder. The holder has a plurality of ribs extending in a fastening direction of the fastening member and arranged around the fastening portion of the terminal when the fastening portion is set and positioned onto the base.

A terminal-wire bonding method includes: arranging a first core at a second end of a first terminal-wire having a first terminal connected with the first core exposed from an insulating sheath at a first end, onto a side of an anvil and a second core at a second end of a second terminal-wire having a second terminal connected with the second core exposed, at a first end, from an insulating sheath longer than the insulating sheath of the first terminal-wire, onto a side of a horn; and bonding the first core at the second end and the second core at the second end together by ultrasonic bonding between the horn and the anvil.

Provided are a fully-shielded high-frequency connector and a connector assembly. The fully-shielded high-frequency connector includes an insulating base, a shell, a signal terminal and a shielding conductive stiffener. The insulating base includes an insulating body, a fitting portion and a gland portion, a first through hole structure and a second through hole structure. The signal terminal includes a contact portion, a connection portion and a mounting portion. The shielding conductive stiffener includes a tube structure, a fixing connection structure and a cover plate structure. The shell includes a main body portion, a bonding portion, a fixing portion and a snap portion. The fixing portion is electrically connected to the cover plate structure and an outer conductor of the coaxial cable. The bonding portion and the snap portion cooperate to assemble and fix the insulating base and the shell.

A connector is provided with a flexible wire, a terminal to be connected to the wire, and a housing for accommodating the wire and the terminal. The housing includes a housing body for accommodating the wire and a holder for accommodating and holding the terminal. The holder is configured to be swingable in a plane direction together with the terminal with respect to the housing body by being attached to the housing body with a play between the housing body and the holder. The wire extends to the outside of the housing body in an extending direction intersecting a Z-axis direction and is slidable in the extending direction with respect to the housing body, following a swinging motion of the terminal. A gap for allowing the wire to be bent, following a swinging motion of the terminal, is provided between the housing body and the wire.

A crimp terminal includes a crimping segment having a base, a first side wall extending from the base, and a second side wall extending from the base opposite the first side wall. The crimping segment has a first surface adapted for arranging a wire thereon along a longitudinal axis and a second surface opposite the first surface. The first side wall has a first serration on the second surface. The second side wall has a pair of second serrations on the second surface. The first serration is displaced from the second serrations along the longitudinal axis and, in a crimped state, a portion of the first serration is positioned between a pair of portions of the second serrations along the longitudinal axis.