A connector assembly includes a first connector having a first insulator and a first contact, a second connector having a second insulator and a second contact and being fitted to the first connector along a fitting direction; a lever member held by one of the first insulator and the second insulator in a rotatable manner about a rotational axis, a rotational shaft member extending along the rotational axis and rotating in accordance with rotation of the lever member, the rotational shaft member having a cam surface for pressing the first contact and the second contact against each other, and a cam mechanism moving the first insulator and the second insulator relatively along the fitting direction in conjunction with rotation of the lever member.

A connector assembly includes a first connector having a first insulator and a first contact, a second connector having a second insulator and a second contact and fitted to the first connector along a fitting direction, a lever member rotatably held by one of the first insulator and the second insulator, a push member used to press the first contact and the second contact against each other, a first cam mechanism moving the first insulator and the second insulator relatively along the fitting direction in conjunction with rotation of the lever member, and a second cam mechanism moving the push member in conjunction with rotation of the lever member.

The shield member includes a plurality of first elastic portions made of a conductive material and arranged annularly in a plate shape at an inner circumferential part of the shield member; a plurality of second elastic portions arranged annularly at an outer circumferential part of the shield member; and an intermediate portion between the plurality of first elastic portions and the plurality of second elastic portions. The plurality of first elastic portions are defined by a plurality of first slits each extending from an inner circumferential edge of the shield member in a radial direction of the shield member. The plurality of second elastic portions are defined by a plurality of second slits each extending from an outer circumferential edge of the shield member in the radial direction.

An electrical connector cage assembly includes a connector casing, a heat sink, and an attaching part. The heat sink includes a base and a plurality of fins extending from a top surface of the base. The fins extend above a marginal area of the top surface to form an open slot with the marginal area. The open slot has two end openings and a side opening extending to the end openings. The attaching part passes through the open slot and protrudes from the end openings to be detachably engaged with the connector casing to detachably fix the base onto the connector casing. Therein, the attaching part is separable from the heat sink from the side opening. An electrical connector includes a circuit board, an electrical connector base, and the electrical connector cage assembly. The electrical connector base is electrically connected onto the circuit board and exposed from the connector casing.

A terminal includes a spine extending along a longitudinal axis from a first end to a second end and extending along a lateral axis, which is perpendicular to the longitudinal axis, from a first edge to a second edge. An attachment portion at the first end provides fixation to an electrical conductor. A contact portion extends from the second end and cantilevers over the spine such that the contact portion is spaced apart from the spine in a direction along a vertical axis which is perpendicular to both the longitudinal axis and the lateral axis. A locking tab extends from the first edge and has a locking tab attachment end which is fixed to first edge and which extends toward, and is aligned with, the contact portion in a direction parallel to the vertical axis. The locking tab also has a free end which flares outward beyond contact portion.

One or more techniques and/or systems are disclosed for a vibration mitigation device. The vibration mitigation device can comprise a shell forming a hollow body that is configured to house a coupled wiring connector and a connector block. The shell can comprise first shell section and second shell section that are operably engaged with each other, and engaged with a vehicle component to which the connector block is engaged. The shape and sizing of the shell and its hollow body allow for a compressive force to be applied to the coupled connectors, to mitigate vibration between the two connectors during use.

One or more techniques and/or systems are disclosed for a vibration mitigation device. The vibration mitigation device can comprise a shell forming a hollow body that is configured to house a coupled wiring connector and a connector block. The shell can comprise first shell section and second shell section that are operably engaged with each other, and engaged with a vehicle component to which the connector block is engaged. The shape and sizing of the shell and its hollow body allow for a compressive force to be applied to the coupled connectors, to mitigate vibration between the two connectors during use.

One or more techniques and/or systems are disclosed for a vibration mitigation device. The vibration mitigation device can comprise a shell forming a hollow body that is configured to house a coupled wiring connector and a connector block. The shell can comprise first shell section and second shell section that are operably engaged with each other, and engaged with a vehicle component to which the connector block is engaged. The shape and sizing of the shell and its hollow body allow for a compressive force to be applied to the coupled connectors, to mitigate vibration between the two connectors during use.

An electrical connector for charging has a connector base, a first conductive terminal, a second conductive terminal, and an insulation base. The first conductive terminal is mounted in the connector base and has an upper chamber and a lower chamber. The second conductive terminal is located in and coaxial with the first conductive terminal and is electrically isolated from the first conductive terminal. The insulation base is mounted between the first and the second conductive terminals. An end of the second conductive terminal is located in the upper chamber and another end protrudes out of a bottom of the insulation base. The insulation base has at least one first groove lower than an imaginary datum plan and at least one platform higher than the imaginary datum plane and coaxial with the first groove. By the first groove and the platform, the creepage distance is increased.

A high-performance, cost- effective cable-to-cable connector assembly is described for use in harsh environment applications, where reliable signal circuits are critical to operating performance. With thermoplastic housings and elastic seals, the connectors allow use over a wide operating temperature range and enhanced sealing performance to withstand conditions of extreme temperature and moisture for demanding interconnect architectures.