The present disclosure provides a battery product and an assembling method of the battery product, the battery product comprises a box and a heating connector. The box comprises a mounting panel. The mounting panel has a first receptacle portion and a second receptacle portion, and the second receptacle portion and the first receptacle portion are provided opposite to each other and communicating with each other. The heating connector comprises: a first plug assembly being mounted on the first receptacle portion; and a second plug assembly being mounted on the second receptacle portion. Compared with the technology related to the background, the battery product is equivalent to directly integrating the receptacle of the heating connector on the mounting panel, which not only eliminates the manner of fixing by the bolt, but also improves the integration of the battery product, thereby improving the space utilization and energy density.

An electrical contact element includes a common base and a plurality of spring arms extending away from the common base along a longitudinal direction. The spring arms are arranged around an opening in a circumferential direction and are spaced from one another in a contactless relaxed initial state. An end of at least two of the spring arms facing away from the common base forms an annular segment projecting in the circumferential direction on at least one side of the end. The annular segments form a support ring and mutually support each other in a fully compressed state.

An interface (30) between a battery and an electrical device, the interface (30) comprising: a male terminal (24) and a female terminal (26) configured to receive the male terminal (24); the female terminal (26) having a female contact (36) of conductive material and the male terminal (24) having a male contact (32) of conductive material; wherein, at least one of the female contact (36) and the male contact (32) are resiliently deformable such that insertion of the male terminal (24) in the female terminal (26) provides an area (40) of face to face contact in which the male contact (32) and the female contact (36) conform to each other.

A system and method for an electrically enhanced surgical implant comprising: an implant body that includes an inner frame, wherein the inner frame includes a set electrode sites, and an over-coating that is formed over the inner frame, leaving the electrode sites exposed on the surface of the implant body; a circuitry casing, electrically and mechanically connected to the implant body, implant circuitry, situated at least partially within the implant casing, comprising receiver circuitry, effective to convert an electromagnetic field to electric current, control circuitry, and a power source; a set of conductive paths, wherein each conductive path has a first portion, electrode, situated on an electrode site, and a second portion, electrical conduit, that extends on and through the inner frame and electrically connects the electrode to the implant circuitry in the circuitry casing. The system functions as an electrically enabled surgical implant, such that the surgical implant can provide precisely determined and localized electrical stimulus as part of the implant operation.

The invention relates to an electrical connector (2) including a connector body (20), which includes at least one accommodation (21), and at least two electrical connecting organs (22, 22′), which each include at least one internal section (220, 220′) extending inside said at least one accommodation (21). This electrical connector (2) is characterized in that it includes electrical insulating means (23), which have a tracking resistance index, CTI, higher than 600, which are located at least inside said at least one accommodation (21), which surround at least the internal section (220, 220′) of the at least two electrical connecting organs (22, 22′), and which extend at least over the internal section (220, 220′) of the at least two electrical connecting organs (22, 22′).

A connector that enables electronic assemblies to be efficiently configured for any of multiple power requirements. The connector may have a mating interface, which may mate with a power supply, a mounting interface for attaching the connector to a PCB and a power tap off interface. The power tap off interface enables distribution of a portion of the power received through the mating interface to remote locations on the PCB. Terminals with portions at each of the mating interface, mounting interface and power tap off interface may be formed from subassemblies, with conductors of one terminal subassembly engaging conductors of another subassembly. One subassembly may have conductors with mating contact portions at one end and a body portion with holes at the other end. Another subassembly may have conductors with tails passing through and engaging the holes in the body portion of the other.

A self-lubricating connector with a housing having a contact receiving cavity with a contact provided therein. A lubricating device is positioned in the housing proximate the contact. The lubricating device extends into the contact receiving cavity and has lubricant provided therein. The lubricant from the lubricating device is deposited or on the outside surface of the contact as the contact is moved between the first position and the second position, reducing wear on the contacts as the contacts are moved between the first position and the second position.

A plug for use in an electrical connector system includes a handle body assembly comprising a handle body and a flange disposed on an end of the handle body. The flange defines a plurality of openings. A sleeve assembly includes a sleeve and a flange disposed on an end of the sleeve. The flange on the sleeve defines a plurality of openings. The openings in the flange on the handle body are aligned with the openings in the flange on the sleeve. A contact assembly is disposed, at least partially, in the sleeve of the sleeve assembly. The contact assembly includes a contact holder and a plurality of contacts coupled to the contact holder. Fasteners extend through the aligned openings in the flanges to secure the handle body assembly to the sleeve assembly.

A sliding power contact and method includes a mobile load device connector and a socket. The mobile load device connector includes a non-current power pin having a first length, a current power pin having a second length less than the first length, a neutral pin, and a ground pin. The socket includes a non-current power contact configured to electrically couple with the non-current power pin, a current power contact configured to electrically couple with the current power pin, a neutral contact configured to electrically couple with the neutral pin, and a ground pin configured to electrically couple with the ground pin. An arc suppressor is directly coupled to at least one of the non-current power pin and the non-current power contact, wherein the arc suppressor, the non-current power pin and the non-current power contact form a current path between the current power pin and the current power contact.

Various crimpless electrical connector assemblies are disclosed. The crimpless connector can include a crimpless contact configured to join two electrical conductors. A portion of the crimpless contact can be received in an outer housing that comprises a tapered lumen. The crimpless contact can be coupled to an activation unit, such as with a threaded connection. Rotation of the activation unit can cause the crimpless contact to translate within the outer housing and the tines to be compressed against the first conductor, thereby physically securing the first conductor in the crimpless connector.