According to one embodiment, a connector includes an insulator and a contact terminal in which an end side is pressed into a counter-press-fit portion of the insulator, and the other end side comprises a soldered portion attached to a substrate with soldering. The contact terminal comprises a flux accumulation portion inside the counter-press-fit portion and/or in an extended end portion of the soldered portion.

A functional contactor is provided. The functional contactor according to one embodiment of the present invention includes: a conductive elastic portion configured to be in electrical contact with a conductor of an electronic device and have elasticity; and a functional device including a first electrode electrically connected to a circuit board or the conductor of the electronic device and a second electrode on which the conductive elastic portion is laminated through solder. Here, the second electrode includes a stopper in which no electrode is formed to prevent the solder from being introduced into a periphery of a lamination region on which the conductive elastic portion is laminated.

A connector 10 according to the present disclosure comprises a contact 30; and an insulator 20 having an attaching groove 22 on an outer surface into which the contact 30 is inserted and attached, wherein the insulator 20 has a bottom wall 23 formed to be continuous with a bottom surface of the attaching groove 22 in a downward direction; and at least a part of the attaching groove 22 has a wide portion 24 wider in at least one direction than a groove width on the outer surface along a direction parallel to the bottom wall 23.

A connector is provided that can be mounted on a surface of a substrate by reflow soldering while ensuring waterproofness due to a seal member. A cylindrical external terminal extends in an axis direction with an outer bush in close contact with an outer circumferential face of the external terminal. An inner bush is in close contact with an inner circumferential face of the external terminal. A contact pin is inserted in the inner bush along the axis direction inside the external terminal, and the outer bush and the inner bush have heat resistance durable against a temperature of reflow soldering performed when the connector is mounted on the substrate. A connector assembly, a camera module and an assembly method are also provided.

An electrical connector for a glazing comprising a connector portion for connection to an electrical supply, and a button for soldering to a surface of the glazing, the button comprising a base portion adjacent, in use, to the surface of the glazing and an upper portion remote, in use, from the surface of the glazing, wherein the button comprises at least one solder-contacting surface, at least a portion of the solder-contacting surface curving from the base portion to the upper portion and defining a tapering solder cavity. A glazing comprising the electrical connector is also disclosed as is a method of soldering the electrical connector to a glazing.

An electrical connector includes a barrel type terminal, having a first connecting area and a second connecting area. The first connecting area has a first non-soldering surface and a first soldering surface. The second connecting area has a second non-soldering surface and a second soldering surface. Each of the first and second soldering surfaces and the first and second non-soldering surfaces has a first solder layer. A sleeve sheathes outside the barrel type terminal, and has a first fixing area and a second fixing area. Two second solder layers are provided between the first fixing area and the first soldering surface and between the second fixing area and the second soldering surface. The amount of solder provided between the first fixing area and the first soldering surface and between the second fixing area and the second soldering surface is greater than that provided on the first and second non-soldering surfaces.

The present disclosure relates to components, such as base bodies, for feed-through elements including a metallic base body, at least one through-opening for receiving a functional element in a fixing material, such as an electrically insulating fixing material, and at least one conductor, which is connected electrically conductively to the base body by a soldered connection. The soldered connection includes a metallic solder material that covers a surface region of the base body and thus forms a soldering region on a surface of the base body. The base body has, at least in the soldering region, a microstructuring that includes at least depressions in the surface of the base body. The present disclosure similarly relates to methods for producing such base bodies and to applications thereof.

An electrical connector for soldering to a printed circuit board includes an insulative housing, a number of conductive terminals affixed to the insulative housing, and a metal shell surrounding the base portion. The insulative housing includes a base portion. Each conductive terminal includes a soldering portion extending laterally and outwardly from a lateral edge of the base portion. The metal shell includes a pair of longitudinal wall. The electrical connector includes an isolation block isolating the soldering portion from the longitudinal wall of the metal shell in a vertical direction.

A card edge connector forms a plurality of passageways in the elongated housing to receive the corresponding contacts. Each contact has a retaining section secured to the housing, a resilient arm extending from an upper part of the retaining section with a contacting section exposed in the central slot, a soldering section extending from a lower part of the retaining section and out of the housing. A width of the passageway around the contacting section in the longitudinal direction is smaller than that around the soldering section.

The invention relates to a solderable electric connection element including a crimping portion for receiving a connection cable and a soldering portion for bonding to the surface of an electrically conductive structure. The soldering portion directly adjoins the crimping portion or is offset therefrom by means of a transition portion, and a solder deposit is provided or can be placed on the solder region. According to the invention, an angled section is formed in the section between the crimping and soldering region or in the transition region such that the crimping and soldering region are arranged in a back-to-back position, wherein the free face of the soldering region receives the solder deposit.