A sensor module according to an embodiment of the present technology includes a housing, a sensor board, an external connector, a flexible printed circuit, and a metallic shield case. The flexible printed circuit electrically connects the sensor board and the external connector, the flexible printed circuit including a signal line and a ground line. The shield case includes a bottom portion that is arranged between the flexible printed circuit and the external connector. The external connector includes a first connection pin that is connected to the signal line, a second connection pin that is connected to the ground line, and a third connection pin that is connected to the bottom portion of the shield case. The bottom portion includes a first hole, a second hole, a third hole, and a thermal storage, the first hole being a hole through which the first connection pin passes, the second hole being a hole through which the second connection pin passes, the third hole being a hole through which the third connection pin passes, the thermal storage being provided around the third hole and covered with a solder material used to join the third connection pin to the bottom portion.

An electrical connector includes an insulative housing having a mating cavity and a plurality of power contact pairs. Each power contact pair defines an upper contact set and a lower contact set, each one of the upper contact set and the lower contact set comprises a first contact unit and a second contact unit, each one of the first contact unit and the second contact unit has a retaining portion and at least one contacting portion extending from the retaining portion into the mating cavity. The retaining portions of the upper contact set are arranged in a height direction of the insulative housing with the contacting portions thereof arranged in a transverse direction of the insulative housing, the retaining portions of the lower contact set are arranged in the height direction with the contacting portions thereof arranged in the transverse direction.

A component for a vehicle electric drive is described, which includes at least one connecting lug pair projecting from the component for electrically connecting the component. Here, a first connecting lug and a second connecting lug of the connecting lug pair each have a joining zone for electrically connecting the component. Furthermore, an assembly for a vehicle electric drive is presented, which has at least two such components. Further presented is a method of electrically conductively connecting two components.

A vehicle window glass with a metal terminal includes a glass plate, a conductor disposed on at least one of principal surfaces of the glass plate, and a metal terminal electrically connected to the conductor via solders. The metal terminal includes a connection portion; a first leg portion connected to the connection portion; a first base potion connected to the first leg portion; a second leg portion connected to the connection portion; a second base portion connected to the second leg portion; and a lead wire connection portion connected to the connection portion and including a rising portion and a bent portion connected to the rising portion, and a fixing portion connected to the bent portion and configured to be connected to a lead wire.

A component for a vehicle electric drive is described, which includes at least one connecting lug pair projecting from the component for electrically connecting the component. Here, a first connecting lug and a second connecting lug of the connecting lug pair each have a joining zone for electrically connecting the component. Furthermore, an assembly for a vehicle electric drive is presented, which has at least two such components. Further presented is a method of electrically conductively connecting two components.

A glass plate module according to the present invention includes a glass plate, an electrically conductive layer laminated on the glass plate, at least one connection terminal fixed to the electrically conductive layer and made of an electrically conductive material, and lead-free solder for fixing the connection terminal to the electrically conductive layer. The connection terminal includes an installation portion that is fixed to the electrically conductive layer via the lead-free solder, a standing portion that extends from an end portion of the installation portion in a direction away from the glass plate, and a connection portion that is coupled to an end portion of the standing portion on the opposite side to the installation portion and extends in a direction away from the installation portion along a surface direction of the glass plate.

An electrical connector includes an insulative housing having a mating cavity and a plurality of power contact pairs. Each power contact pair defines an upper contact set and a lower contact set, each one of the upper contact set and the lower contact set comprises a first contact unit and a second contact unit, each one of the first contact unit and the second contact unit has a retaining portion and at least one contacting portion extending from the retaining portion into the mating cavity. The retaining portions of the upper contact set are arranged in a height direction of the insulative housing with the contacting portions thereof arranged in a transverse direction of the insulative housing, the retaining portions of the lower contact set are arranged in the height direction with the contacting portions thereof arranged in the transverse direction.

An electrical connector includes an insulative housing and a plurality of power contact pairs. The insulative housing has a plurality of contact-receiving passageways extending along a front-and-back direction. The power contact pairs are mounted in the corresponding contact-receiving passageways and divided into two opposite rows in a height direction according to contacting portions. Each power contact pair in each row has a first power contact and a second power contact, each one of the first power contact and the second power contact defines a flaky retaining portion held in the relative contact-receiving passageway and a number of contacting portions extending forwards from a front end of the retaining portion. A gap is formed between two adjacent contacting portions of the first power contact, and at least a part of one contacting portion of the second power contact extends through the gap of the first power contact.

The invention relates to a press-in pin (10) for an electrical contacting assembly (1), having an elastic press-in region (12) and an electrically conductive coating (14). The invention further relates to a corresponding contacting assembly (1), and to a method for joining a press-in pin (10) and a metallized via (7). The coating (14) comprises a reactive multi-layer applied to the press-in pin (10) and a first contact layer applied to the reactive multi-layer.

An electrical connector includes an insulative housing and a plurality of power contact pairs. The insulative housing has a plurality of contact-receiving passageways extending along a front-and-back direction. The power contact pairs are mounted in the corresponding contact-receiving passageways and divided into two opposite rows in a height direction according to contacting portions. Each power contact pair in each row has a first power contact and a second power contact, each one of the first power contact and the second power contact defines a flaky retaining portion held in the relative contact-receiving passageway and a number of contacting portions extending forwards from a front end of the retaining portion. A gap is formed between two adjacent contacting portions of the first power contact, and at least a part of one contacting portion of the second power contact extends through the gap of the first power contact.