The present invention relates to a board mating connector including a first body part having a first hollow portion formed therein, a signal contact part inserted into the first hollow portion, a dielectric part positioned between the first body part and the signal contact part, a second body part which has a second hollow portion formed therein, is positioned between the dielectric part and the first body part, and is formed of a metal plate, and a ground contact part which extends upward from an upper side of the second body part and is separated into a plurality of portions by a plurality of slits to have elasticity.

A vehicle side electrical connector. The vehicle side electrical connector comprises a first mounting seat, a first high-voltage assembly and a first low-voltage assembly; wherein the first high-voltage assembly comprises of a first high-voltage pole, wherein the first high-voltage pole includes an electrical contact end and a wiring end, wherein the first high-voltage assembly comprises a flexible electrical connector and a high-voltage plug, one end of the flexible electrical connector is in a floating electrical connection with the wiring end of the first high-voltage pole, and the other end of the flexible electrical connector is in a floating electrical connection with the high-voltage plug; the flexible electrical connector adapts the relative displacement change in axial, radial and all directions between the first high-voltage pole and the high-voltage plug through a flexible cavity. By means of the vehicle side electrical connector, the first high-voltage assembly can be prevented from hard damage.

An electrical feedthrough assembly has a lower assembly having a first end and a second end. The lower assembly includes an outer body with a lower housing and an upper housing disposed within a bore of the outer body and a first conductor extending from the lower housing to the upper housing. Additionally, the lower housing extends axial outward from the outer body to form the first end and the upper housing extends axial outward from the outer body to form the second end. Further, the electrical feedthrough assembly has an upper assembly having body extending from a first end to a second end. The second body includes a pin end at the first end inserted into an opening of the second end of the lower assembly. A second conductor is disposed within the body. A piston is disposed within the body configured to move the second conductor.

A contact terminal includes a tubular body extending in an axial direction parallel to a central axis of the contact terminal and a bar-shaped conductor having conductivity. The conductor includes a protrusion protruding toward one side in the axial direction from the tubular body, and an insertion portion disposed inside from an outer periphery of the tubular body. The tubular body includes an end side notch provided along the axial direction on a peripheral surface of the one end portion in the axial direction of the tubular body, and a first circumferential notch connected to another side in the axial direction of the end side notch and provided along a circumferential direction away from the end side notch with respect to a first end portion in a circumferential direction of the end side notch.

Provided is a socket for inspection that can correct inclination of a terminal in contact with a device under inspection to stabilize the terminal-to-electrode contact. The socket includes: a contact terminal having a barrel with a flange, a device side terminal, a test board side terminal, and a spring; a housing having a stepped hole through which the contact terminal is inserted and in which a step that abuts against the flange is axially formed; and a movable pedestal provided so as to move closer to and away from the housing and having a receiving hole through which a distal end side of the device side terminal projecting from the barrel is inserted and which receives an electrode of the device. A guide part whose inner diameter is substantially the same as the outer diameter of a projecting portion of the device side terminal is formed in the receiving hole.

Antenna units and system that has an antenna with at least one docking station, at least one radio unit; and at least one interconnect that includes first and second mating connectors. The first connector is configured to be electrically and mechanically coupled to the antenna and the second connector is configured to be electrically and mechanically coupled to the at least one radio unit. The interconnect has radial and axial float for blind mating of the first and second mating connectors. The first connector is mounted on the at least one docking station via a mounting body such that space for the radial float is provided between the mounting body and a housing of the first connector.

A contact probe includes a first plunger, a second plunger, a coil spring, and a pipe; the first plunger includes a first slide portion that slides along the inner periphery of the pipe; the second plunger includes a second slide portion that slides along the inner periphery of the pipe; and the coil spring includes: a first attachment portion that is attached to the first plunger and tightly wound; a second attachment portion that is attached to the second plunger and tightly wound; a coarsely wound portion; a first contact portion including one end connected to the first attachment portion and another end connected to the coarsely wound portion and contacting the pipe; and a second contact portion including one end connected to the coarsely wound portion and another end connected to the second attachment portion and contacting to the pipe.

A vehicle side electrical connector. The vehicle side electrical connector comprises a first mounting seat, a first high-voltage assembly and a first low-voltage assembly; wherein the first high-voltage assembly comprises of a first high-voltage pole, wherein the first high-voltage pole includes an electrical contact end and a wiring end, wherein the first high-voltage assembly comprises a flexible electrical connector and a high-voltage plug, one end of the flexible electrical connector is in a floating electrical connection with the wiring end of the first high-voltage pole, and the other end of the flexible electrical connector is in a floating electrical connection with the high-voltage plug; the flexible electrical connector adapts the relative displacement change in axial, radial and all directions between the first high-voltage pole and the high-voltage plug through a flexible cavity. By means of the vehicle side electrical connector, the first high-voltage assembly can be prevented from hard damage.

An aerosol-generating system includes a main body, a cartridge, and a connecting component. The main body includes a main body housing enclosing a power supply. The cartridge includes a cartridge housing enclosing a reservoir of liquid aerosol-forming substrate. The cartridge is releasably connectable to the main body by the connecting component. The connecting component is fixed to the main body housing and is less stiff in at least one direction than the main body housing. The connecting component that is less stiff the main body housing and the cartridge housing can act as a shock absorber when the aerosol-generating system experiences a significant impact, such as when dropped on a surface. This reduces damage to other components of the system and, in particular, may prevent leaks of liquid resulting from damage to the liquid reservoir.

An assembly includes: first and second printed circuit boards (PCBs), the PCBs being disposed generally parallel to each other; a first coaxial connector mounted to the first PCB, the first coaxial connector comprising a first inner contact and a first outer connector body, the first outer connector body having a first thickness; and a second coaxial connector mounted to the second PCB, the second axial connector comprising, a second inner contact and a second outer connector body. The second outer connector body includes an engagement surface, the engagement surface being flexible in a direction normal to the second PCB, the engagement surface having a second thickness that is greater than the first thickness.