An electrical connector assembly provides a hinge between two parts, such as an eye-piece part and an arm-piece part of augmented eyewear. The assembly includes first and second hermaphroditic connectors which are rotatable relative to each other. Each connector includes a conductive electrical terminal disposed on a non-conductive support. Each electrical terminal includes a main body and a flexible contact arm extending therefrom, and a contacting protrusion protruding from the contact arm. The contact arm can be flexed into a slot in the support. The contacting protrusion on each arm maintains engagement with the main body of the other connector during rotation.

The purpose of the invention is to provide a motor in which it is possible to efficiently construct a structure wherein a terminal part of a motor body is covered by a terminal cover. This terminal cover (7) is a resin molded article integrally including a first member (8) fixed to a motor body (40), a second member (9) that covers the first member (8), and a hinge part (70). Thus, the first member (8) and the second member (9) can be engaged with one another by first fixing the first member (8) to the motor body (40), and then rotating the second member (9) at the hinge part (70) and covering the first member (8) with the second member (9). Thus, the number of components can be reduced compared to cases where the first member (8) and the second member (9) are constructed as separate members, and the task of attaching the second member (9) to the first member (8) can be performed efficiently.

A cover assembly (100) is disclosed that can be installed onto and removed from a telecommunications connector (200) without requiring the connector (200) from being removed from its mounted position and without requiring an associated cover plate (120) from being removed from its mounted position. The cover assembly (100) can include a base portion (150) that defines an opening that entirely surrounds a cover portion (110). In one example, the cover portion (110) is attached to the base portion (150) via a living hinge (118). In one aspect, the base portion (150) acts as a color cap while the cover portion (110) acts as a dust cover. In one example, the base portion (150) is provided without a cover portion (110) such that the cover assembly (100) simply acts as a color cap.

A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.

A connector for a coaxial cable includes a coupler portion configured to engage an interface port, a housing portion having a forward end configured to be disposed at least partially within the coupler portion, and an outer conductor engager portion made of a conductive material disposed within the housing portion. The housing portion includes a rearward end configured to receive the coaxial cable and is configured to move axially relative to a post that engages the outer conductor of the cable. An interior surface of the housing portion is configured to compress an insert of the post when the housing portion is moved axially relative to the post such that the outer conductor is compressed radially inward against an exterior surface of the insert of the post.

A wire cover (30) is to be mounted on a housing (10) having wires (W) drawn out from a wire draw-out surface (12) on a rear end and including a cut portion (25) open in an outer peripheral surface and includes a tubular holding portion (31) configured to surround an outer periphery of the housing (10), and a projection (38) formed on an inner surface of the tubular holding portion (31) and configured to restrict forward separation of the housing (10) from the tubular holding portion (31) by being fit into the cut portion (25). Since a front stop wall to which a front surface of the housing (10) is to be locked need not be formed on a front end of the tubular holding portion (31), miniaturization in a front-rear direction can be realized.

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.

A connector, to which an end portion of a cable including a plurality of core wires is to be connected, comprises a housing including an arrangement surface section defining an arrangement space in which the cable is arranged through an opening, and an engagement member arranged in the arrangement space to hold the cable in the arrangement space together with the housing. The housing includes a first engagement portion for locking the cable by being displaced upward to project into the arrangement space, thereby pressing an outer surface of the cable arranged in the arrangement space. The engagement member includes a pair of second engagement portions arranged opposite to each other in a left-to-right direction through contact with the arrangement surface section, when the engagement member is arranged in the arrangement space, so as to lock the cable by pressing and sandwiching the outer surface of the cable.

Apparatuses, systems, and associated methods of manufacturing are described that provide a retention clip for securing a cable connection to a printed circuit board (PCB). An example retention clip includes a bottom support member, a top support member, and a hinge element attached to the top support member and the bottom support member. The hinge element allows movement of the retention clip between a locked position and an unlocked position. The retention clip further defines an opening configured to receive one or more cable connections therethrough. In the locked position, the top support member is folded about the hinge element so as to engage the bottom support member and secure the cable connection disposed within the opening to the PCB.

Provided is a motor in which the positional misalignment of a terminal cover provided to a motor body can be suppressed. In a terminal cover (7) fixed to a motor body (40), an engagement plate part (75) extends from a cover part (71), which covers a terminal part (25) on a lateral surface of the motor body (40), to a position overlapping an end surface (12) on a counter-output side (L2) of the motor body (40). The engagement plate part (75) is provided with an engagement recess (750) in which a projection (17) on the end surface (12) on the counter-output side (L2) of the motor body (40) is fitted. Thus, even when external force is applied to the terminal cover (7), the terminal cover (7) is less likely to be subjected to positional misalignment. The engagement recess (750) is groove shaped, and the projection (17) is fitted to an end part, in the extending direction, of the engagement recess (750) formed in a groove shape.