A flat-conductor connection element for an electrically conductive structure applied to a pane, includes at least one conductor, containing a flat conductor, having a first connection region at a first end and a second connection region at a second end, the first connection region having a connection surface for electrically connecting to the electrically conductive structure and having a contact surface opposite the connection surface for contact with a soldering tool; an encapsulation layer made of an electrically insulating material, which encapsulation layer surrounds the conductor at least in a conductor portion containing the first connection region, the encapsulation layer having a through-hole, through which the connection surface and the contact surface of the first connection region are accessible, the first connection region of the conductor being within the through-hole in a view perpendicularly through the plane of the encapsulation layer.

A flat-conductor connection element for an electrically conductive structure applied to a pane, includes at least one conductor, containing a flat conductor, having a first connection region at a first end and a second connection region at a second end, the first connection region having a connection surface for electrically connecting to the electrically conductive structure and having a contact surface opposite the connection surface for contact with a soldering tool; an encapsulation layer made of an electrically insulating material, which encapsulation layer surrounds the conductor at least in a conductor portion containing the first connection region, the encapsulation layer having a through-hole, through which the connection surface and the contact surface of the first connection region are accessible, the first connection region of the conductor being within the through-hole in a view perpendicularly through the plane of the encapsulation layer.

A method for connecting a ground wire of cable comprises the steps of: receiving a ground wire of the cable, over one or more core signal conductors of the cable, in an open, connection slot or notch of a respective grounding section of a grounding structure; and restraining the ground wire so that the ground wire physically contacts a body of the respective grounding section and forms an electrical ground path with the body of the section.

An electrical connector and a manufacturing method for the same. The electrical connector comprises a housing member and a plugging module. One end of the housing member is provided with a mating interface. An accommodating space communicating with the mating interface is provided in the housing member. The plugging module comprises a first circuit board, a plurality of electrical conductors and a plurality of first soldering pads. The first circuit board is disposed in the accommodating space. The first circuit board comprises a first surface and a second surface opposite to the first surface. The plurality of electrical conductors are disposed on the first surface and/or the second surface and is close to the mating interface. The plurality of first soldering pads are disposed on the second surface and are electrically connected with the plurality of electrical conductors.

A first component, such as an electrical connector, can be mechanically connected to a second component, such as a surface, and separately electrically bonded to the second component using a third component, such as foil. The third component can be ultrasonically welded to the first component and separately ultrasonically welded to the second component. In some cases, multiple third components can be utilized to cover a seam between the first and second components.

A method of manufacturing an electrical connector includes: providing a metal plate, and cutting the metal plate to form multiple base portions and pre-soldering areas; providing multiple conductive members, and soldering the conductive members to the pre-soldering areas; cutting and forming multiple elastic arms correspondingly according to locations of the conductive members in the pre-soldering areas as references, where a conductive terminal includes a base portion, at least one elastic arm and at least one conductive member; forming an insulating body on the conductive terminals by insert-molding, where the elastic arms and the conductive members are exposed from the insulating body; and forming the conductive terminals by cutting, where at least some of the conductive terminals are separated from each other and are not in contact with each other. The first electronic component and the second electronic component abut the elastic arms and the conductive members to deform and move.

A method of manufacturing an electrical connector includes: providing a metal plate, and cutting the metal plate to form multiple base portions and pre-soldering areas; providing multiple conductive members, and soldering the conductive members to the pre-soldering areas; cutting and forming multiple elastic arms correspondingly according to locations of the conductive members in the pre-soldering areas as references, where a conductive terminal includes a base portion, at least one elastic arm and at least one conductive member; forming an insulating body on the conductive terminals by insert-molding, where the elastic arms and the conductive members are exposed from the insulating body; and forming the conductive terminals by cutting, where at least some of the conductive terminals are separated from each other and are not in contact with each other. The first electronic component and the second electronic component abut the elastic arms and the conductive members to deform and move.

A connector-soldering aid (1) for soldering single and/or cable wires to a connector comprises a connector mount (5) with a first stand (9) and a cable mount (7) with a second stand (31). The connector mount (5) has a base body (17), which is arranged on the first stand (9) and is rotatable relative to the latter about a fixed axis of rotation (19). The connector mount (5) further comprises a replaceable attachment (21) with a connector receiver and a centring device (23) for centring the attachment (21). The centring device (23) is arranged on the base body (17) and is further formed to centre the attachment (21) such that the connector receiver is positioned centrally in relation to the axis of rotation (19) of the base body (17).

An electrical connector includes a housing defining a base portion and a tongue portion, two rows of terminals and a shielding shell. The tongue portion defines a thickened step at a root to the base portion, the base portion defines a front and a rear side, and an upper and a lower retaining slots. The shell is retained on the base portion and surrounding the tongue portion so as to define a mating cavity between the shell and the tongue portion. The shell defines an upper and a lower-front stopping portions inwardly received in corresponding retaining slots to prevent a forward movement of the housing. The upper and lower front stopping portions extend forwardly into the mating cavity across the front side of the base portion so as to prevent a mating connector from damaging the housing during the mating connector is inserted into the mating cavity.

An element-side connection terminal (40) extending from a power conversion circuit unit (16) includes a first connection terminal portion (40A) that extends in a direction intersecting a direction of extension of a counterpart-side connection terminal (38); and a second connection terminal portion (40B) that is bent at a point before the first connection terminal portion (40A) reaches the counterpart-side connection terminal (38) in a direction to intersect the direction of extension of the counterpart-side connection terminal (38) such that the second connection terminal portion (40B) is provided with elasticity and is in an elastic contact with the counterpart-side connection terminal (38) at an angle. A tip end side (38T) of the counterpart-side connection terminal (38) and a tip end side (40T) of the second connection terminal portion (40B) are electrically joined.