A power supply connector has a first part and a second part that are connected to each other such that they can turn relative each other within a predefined and/or restricted turning angle. The first part includes a first set of plurality of conductors and the second part includes a corresponding second set of plurality of conductors, wherein the pairs of conductors are electrically connected by electrical connections including a connection tip on one of the first and the second part and a contact surface on the other one, wherein the electrical connections are provided in at least one circular shape around a turn axis of the power supply connector The turning angle between the first part and the second part is limited to the shortest angular extension of the contact surfaces and the contact surfaces are distributed such that the pair of conductors are permanently electrically connected.

A cable assembly (100) having a first cable (20) having a first conductor (22), a second cable (40) having a second conductor (42) and an electrically conducting joining element (60). The joining element (60) has a first opening (61) and a second opening (63). The cable assembly (100) comprises a number of canted coil springs (70). A terminal portion of the first conductor (22) is secured to the first opening (61) by means of a first canted coil spring (70). A terminal portion of the second conductor (42) is secured to the second opening (63) by means of a second canted coiled spring (70).

In one embodiment, an interconnect apparatus (e.g., an interposer apparatus) includes a plurality of interconnect probes that each include a wave spring structure that includes a plurality of stacked wave spring discs. The wave spring discs may be formed in a sinusoidal wave form shape, or in another wave form shape.

Various connector and sensor assemblies are described. In some embodiments, the connector and sensor assembly comprises a connector and a sensor assembly. The connector can have an opening that has a first surface and second surface that are opposite each other. The connector can have a plurality of retractable electrical connectors that extend from the first surface and a lock structure that is located on the second surface. The sensor assembly is comprised of a body portion and a proximal end. The proximal end has a top side and a bottom side. The top side includes a plurality of electrical contacts that is configured to interact with the plurality of retractable electrical connectors. The bottom side includes a key structure that is configured to interact with the lock structure in the connector.

According to various embodiments, there is provided a user input device including: a chassis including a socket configured to releasably receive a panel; a memory storing a plurality of button maps, wherein each button map of the plurality of button maps defines functions of at least one button of a respective panel of a plurality of panels, each of which being receivable in the socket; and a processor configured to read an identity code of the received panel, and further configured to identify a matching button map from the plurality of button maps based on the identity code, wherein the matching button map defines the functions of the at least one button of the received panel.

A contacting device for electrical contacting of a printed circuit board with a coil body for a solenoid valve for a brake device for a vehicle, including: a helical electrically conductive contact spring which is configured to be contacted or being contactable with the printed circuit board at a first spring end and configured to be contacted or being contactable with the coil body at a second spring end, situated opposite the first spring end, to enable a resilient electrical contacting of the printed circuit board with the coil body; and a pin which is receivable or has been received in an interior space of the contact spring, the pin being configured to support the contact spring from the interior space in a received state received in the interior space. Also described are a related solenoid valve, method, and computer readable storage medium.

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.

A bulkhead may include a fixed body having a first contact surface and an exterior fixed body surface, a first electrical contact, and a first spring having a first spring end in contact with the first contact surface and a second spring end in contact with the first electrical contact.

A vapor cartridge for a non-combustible vaping device may be configured to receive a flavor cartridge, generate a vapor, and direct the generated vapor through the flavor cartridge to provide a flavored vapor. The flavor cartridge may include an instance of electrically conductive material extending at least partially around the flavor cartridge. The vapor cartridge may include an authentication assembly including a set of electrically conductive instruments may independently and directly contact the instance of electrically conductive material of the flavor cartridge inserted into the vapor cartridge, such that the electrically conductive instruments are electrically connected to each other through the instance of electrically conductive material of the flavor cartridge. The vapor cartridge may be coupled with a base that includes a control circuitry configured to control vapor generation by the vapor generator, based on the electrically conductive instruments being electrically connected to each other through the flavor cartridge.

An electrical connection structure includes a body-end connection apparatus and a band-end connection apparatus. A first metal connection terminal included in the body-end connection apparatus is disposed on a first frame; a first sealing apparatus is configured to perform sealing between the first frame and the wearable device; a second frame included in the band-end connection apparatus is configured to connect to a band of the wearable device; and a second metal connection terminal is disposed on a frame and electrically connected to the band of the wearable device. When the band of the wearable device is connected to a body, the first metal connection terminal is electrically connected to the second metal connection terminal, the first frame clutches the second frame, and the second sealing apparatus is configured to perform sealing between the first frame and the second frame.