An assembly for passing controlled impedance electrical signals between two different environments via feedthroughs in an electrically-conductive feedthrough block. The feedthrough has a signal coupling, a dielectric spacer surrounding the signal coupling, and a ground coupling surrounding the dielectric. The feedthrough is sealed to hermetically separate the two environments. One or both ends of the dielectric are recessed from the face of the block forming a gap. The gaps is filled with a potting material to form the hermetic seal.

A spindle arrangement for a machine tool comprising a spindle housing, which can be inserted and fixed in the machine tool, a spindle shaft being accommodated in the spindle housing, and a spindle head projecting from the spindle housing. At least one optical element is located on or near the spindle head, the optical element emits light in the region of the spindle head and/or to optically capture the region near the spindle head. At least one recess is provided on or near the spindle head, the optical element being insertable into the recess. The optical element is provided with at least two contacts arranged on the front face on different radial levels or in different axial regions relative to the screw axis on the end of the optical element which is screwed into the recess.

A dummy insert (20) for a plug (12) of a connector assembly (11), the dummy insert (20) comprises a forward end (45) and a rearward end (46), an insert body (22), an array of shuttle pin assemblies (24), a retention plate (26). The insert body (22) has an internal wall (42) and a plurality of guide tubes (36). The plurality of guide tubes (36) extends generally forwardly from the internal wall (42). The retention plate (26) is located rearwardly of the internal wall (42). Each shuttle pin assembly (24) is located at least partly in one guide tube (36) and is retained by the retention plate (26). The insert body (22), the internal wall (42) and the plurality of guide tubes (36) is a monolithic structure. [FIG. 2]

An electric socket for a mains plug with two contact pins includes a base with a front face having two holes with two contacts arranged behind the holes for electrical contacting a contact pin inserted through. A collar is mounted on the base to be movable from a rear end position into a front end position where the collar protrudes further forwards beyond the front face of the base than in the rear end position and surrounds the front face of the base. An extending mechanism acts at least in the rear end position of the collar and engages between the front face and the contacts in the path of motion of at least one of the two contact pins and is designed to extend the collar out of the rear end position into the front end position by means of the at least one inserted contact pin.

An electrode connection structure includes a first electrode unit that includes first electrodes formed concentrically, and a second electrode unit that includes a second electrode formed into a needle shape axially movable forward and rearward and is electrically connectable to the first electrode unit, and in the electrode connection structure, the second electrode unit includes a plurality of the second electrodes that is arranged in a circumferential direction and arranged at different radial positions, and the plurality of the second electrodes is electrically connected to the first electrodes arranged at different radial positions, respectively.

A cavity filter comprising: a resonance element including a coupling block; a first case and a second case housing the resonance element; a terminal unit penetrating the first case to be connected to an electrode pad of a PCB provided on the outside of the first case and the other end thereof is electrically connected to the coupling block of the resonance element; and an assembly unit provided on either one side or both sides of the case, and having a terminal insertion hole in which the terminal unit is insertedly provided, wherein the assembly unit is formed to protrude to the outside from a lower surface of the first case. the assembly unit provide a height between the first casing and PCB so the cavity filter avoid interference with the devices mounted on the PCB.

An electrical connection device. The electrical connection device comprises a vehicle side electrical connector comprising a first mounting seat, a first high-voltage assembly and a first low-voltage assembly; and a battery side electrical connector comprising a second mounting seat, a second high-voltage assembly and a second low-voltage assembly. The first high-voltage assembly comprises a first high-voltage pole, a flexible electrical connector and a high-voltage plug, wherein the first high-voltage pole includes an electrical contact end and a wiring end; wherein one end of the flexible electrical connector is in a floating electrical connection with the wiring end of the first high-voltage pole, the high-voltage plug is in a floating electrical connection with the other end of the flexible electrical connector. By means of the electrical connection device, the first high-voltage assembly and the second high-voltage assembly can be prevented from hard damage, the stability of the electrical contact between the first high-voltage assembly and the second high-voltage assembly can be ensured.

A battery side electrical connector. The battery side electrical connector including a second mounting seat, a second high-voltage assembly and a second low-voltage assembly, wherein the second high-voltage assembly and the second low-voltage assembly are configured to be inserted through the second mounting seat, the second high-voltage assembly includes a second high-voltage pole, the second mounting seat is provided with a high-voltage mounting hole, wherein the second high-voltage pole is configured to be inserted through the high-voltage mounting hole, wherein outer wall surface of the second high-voltage pole is provided with a positioning section which is used to limit the movement of the second high-voltage pole relative to the second mounting seat along axial direction of the high-voltage mounting hole. By means of the battery side electrical connector, the second high-voltage assembly can be prevented from hard damage.

A contacting device for resiliently contacting a printed circuit board with a contact element for a solenoid or a sensor for a vehicle system, including a contacting apparatus, including: a helical spring element, which is formed such that it can be clamped in between the printed circuit board and the contact element; and a printed-circuit-board fastening element with a fastening surface and a centering surface opposite the fastening surface, wherein the fastening surface is formed such that it is fastened or can be fastened on the printed circuit board and, in an operating state of the contacting device, at least one portion of the centering surface is arranged so as to protrude into an interior-space portion of an interior space of the spring element in order to guide and/or to center the spring element. Also described are a related vehicle system, a method, a device, and a storage medium.

The present invention includes a battery harvesting adapter configured to connect to a plurality of batteries operable to power a plurality of radios. The plurality of radios includes a PRC-148, a PRC-152, and a PRC-163 radio. The battery harvesting adapter is further configured to capture power from a battery and transfer the power to a radio, a battery, a portable power case, a DC-DC converter, and other equipment.