A cable assembly includes a flat flexible cable having a plurality of conductors embedded within an insulation material. A portion of each of the conductors is exposed via openings selectively formed in the insulation material, allowing for a crimping portion of an electrically conductive terminal to engage with the conductor within the opening. The crimping portion of the terminal includes a base defining at least one protrusion extending therefrom, and first and second sidewalls extending from the base. The base and the first and second sidewalls define an opening configured to receive the conductor therein. The first sidewall includes a first section attached to the base and a second section attached to the first section on an end opposite the base. In a crimped state of the terminal, the first sidewall rotated into the opening such that the first section at least partially surrounds the second section, and the second sidewall is rotated in a direction opposite the first section such that the first section at least partially surrounds the second section, for crimping the conductor within the opening and against the protrusion.

This disclosure provides a method and apparatus for a single pair Ethernet (SPE) wire-to-board connector. The SPE connector may include a female connector portion and a male connector portion. The female connector portion may include a first electrical contact having a first press-fit pin and a first female portion, a second electrical contact having a second press-fit pin and a second female portion, and a first outer shield, the first outer shield mechanically secured to the first insulative housing. The first and second electrical contacts may be positioned partially within the first insulative housing. The male connector portion includes a third electrical contact comprising a first insulation displacement contact (IDC) portion and a first male portion, a fourth electrical contact comprising a second DC portion and a second male portion, and a second outer shield, the second outer shield mechanically secured to a second insulative housing.

The wearable device for sensing a motion parameter of a user includes a first protection cover, a module connector, a wire connecting member, a circuit board and a plurality of spring connectors. The wire connecting member has a plurality of first electrical contacts. The first protection cover is connected to the module connector. The circuit board has a plurality of second electrical contacts corresponding to the plurality of first electrical contacts. The plurality of spring connectors are electrically connected to the plurality of first electrical contacts and the plurality of second electrical contacts correspondingly to form a plurality of first electrical connections and a plurality of second electrical connections respectively, and are configured between the module connector and the circuit board to form a plurality of first pre-deformations.

Provided is a connector that can enhance the waterproof performance without reducing a pressure of a contact surface between fillers in a fitted state. A connector (10) according to the present disclosure includes a pair of fitting objects to be fitted to each other and a filler (70), a contact (50) and a wall (42) provided in the fitting objects. The wall (42) separates the filler (70) and the contact (50) after the fitting objects are fitted to each other.

An electrical connector and an electrical connector assembly are provided. The electrical connector assembly includes: a mating assembly including a support plate and multiple insertion portions provided on the support plate and protruding downward out of the support plate; and an electrical connector. The electrical connector includes: a substrate, provided with multiple accommodating holes running through the substrate vertically; and multiple terminals accommodated in the accommodating holes. Each terminal has a base and two clamping portions configured to clamp a corresponding insertion portion. The two clamping portions are located in front of the base. A top end of the base is lower than top ends of the two clamping portions. When the two clamping portions jointly clamp the corresponding insertion portion, a portion of the corresponding insertion portion lower than the top ends of the clamping portions is located right above the base of an adjacent terminal.

A connecting assembly for electrically connecting a ribbon cable in an aircraft. The assembly has a housing with a slot-shaped opening through which an end section of a ribbon cable can be inserted into a housing interior into a predetermined insertion position. The assembly has a first and a second engagement section which are arranged in the interior. The first engagement section is mounted such that it can be optionally moved between a first and a second position, such that by moving the first engagement section into its second position, the end section can be clamped tight optionally between the first second engagement sections and conductor tracks of the ribbon cable are then in contact with a corresponding number of electrical contacts provided on the first engagement section. In the second position, the first engagement section is releasably secured by a latching device.

An electrical connector includes an insulating body having a mating slot and multiple accommodating slots are in communication with the mating slot. Multiple terminals are accommodated in the accommodating slots. The terminals include ground terminals. Each terminal includes a connecting portion, an elastic arm, a tail portion, and an extending portion located between the connecting portion and the tail portion. The extending portion of each terminal extends obliquely downward and backward from the connecting portion. A grounding member is provided on the insulating body. The grounding member has a multiple upper and lower extending arms. A length of each upper extending arm is shorter than a length of each lower extending arm in the front-rear direction. The upper and lower extending arms respectively abut the ground terminals, thus shortening the transmission paths of the terminals. The grounding member and the ground terminals are in stable connection, thus reducing the resonance.

A bonding device for a wearable device includes a first bonding structure and a second bonding structure. The first bonding structure includes a first wire connecting member, a first bonding member and an elastic member, and has a plurality of first mechanical structures configured to form a first mechanical bond and a plurality of first electrical contacts configured to form a first electrical bond, and the second bonding structure includes a first signal connecting line, wherein the first wire connecting member, the first bonding member, and the elastic member form the first mechanical bond through the plurality of first mechanical structures; the first wire connecting member, the first bonding member, and the elastic member form the first electrical bond through the plurality of first electrical contacts; and the elastic member is electrically connected to the first signal connecting line to combine the first bonding structure and the second bonding structure.

An electrically-insulating wire container is a wire container including one or more pipe-shaped main bodies for containing a plurality of conductors, and within which a plurality of separate, substantially parallel tubular cavities are defined. Each of the tubular cavities includes a forward open end in a forward end portion of the wire container, and a rear open or closed end in a rear end portion on an opposite side of the wire container. The wire container has an integrated structure. The wire container is flexible enough that when the conductors are inserted into the tubular cavities from the long, narrow, and hollow forward open ends, and the wire container is combined with a connector having a plurality of piercing contacts, the piercing contacts penetrate at least one pipe-shaped main body of the wire container and make contact with the conductors.

A connector for receiving a ribbon cable is provided. The connector includes a housing including an open top and a guide wall including a track and a cable organizer configured to be positioned within an interior of the housing and the open top and to receive the ribbon cable along a surface thereof. The connector also includes a cover configured to selectively cover the open top of the housing to enclose the cable organizer within the interior of the housing. The cover includes a rib configured to slide along the track so that the cover moves relative to the housing along a linear trajectory.