An electrical connector includes a substrate and multiple terminals. The substrate is provided with multiple accommodating holes running through the substrate vertically. A shielding member is provided on a lower surface of the substrate. The terminals are correspondingly accommodated in the accommodating holes respectively. The terminals include multiple signal terminals and at least one ground terminal. An interval exists between the ground terminal and the shielding member. The ground terminal has a conducting portion extending downward out of a corresponding accommodating hole. The conducting portion is soldered to a main circuit board through a solder, and the solder is in contact with the conducting portion and the shielding member. According to the present invention, the conducting portion of the ground terminal is connected with the shielding member through the solder, thereby reducing a spurious charge, reducing the capacitance, and improving a high frequency.

A connector includes a housing, a terminal attached to the housing, and a bending member that connects the housing and a substrate. The bending member can electrically connect to wiring of the substrate. The housing can be inserted in an opening of a panel positioned above the substrate. A guide cap can be attached to a tip end part of the housing.

An electric connection box includes: the housing, or a plurality of communication connectors provided therein; a communication switch circuit, which is provided inside the housing, has a communication relay function and controls a communication path between the plurality of communication connectors; and a common power supply circuit, which is provided inside the housing and capable of supplying common power generated based on the power from the input side power supply line to a plurality of electric circuits including the communication switch circuit.

A shielded connector includes a shielding shell, a connector housing, and an annular sealing member. The shielding shell has a tube portion and a flange portion formed at an end of the tube portion. The flange portion is fastened to a wall portion having a hole of a target object to which the shielded connector is fastened. The connector housing is covered with the tube portion and has an end portion projecting in an axial direction beyond the flange portion and inserted in the hole. The sealing member is sandwiched between the flange portion and the wall portion. The sealing member closely contacts with the wall portion by being compressed toward the wall portion and closely contacts with an outer surface of the connector housing by being compressed toward the outer surface.

The invention relates to a casing element of an electric equipment, said casing element being configured to house at least one electrical conductor configured to form an external terminal of the electric equipment and at least one electronic power component, adapted to be electrically connected to said electrical conductor and to convert a direct current into an alternating current, said casing element being characterised in that it comprises reception members adapted to receive, by sliding, the electrical conductor.

A connection to which a mating connector, moving from one side to another side in a first direction, may be able to be inserted, and may include an inner housing, an outer housing surrounding the inner housing, and a plurality of terminals connecting these housings. The terminals may each include an inner fixed portion fixed to the inner housing, an outer fixed portion fixed to the outer housing, and an elastic portion that is connected to both the inner fixed portion and the outer fixed portion and is elastically deformable. The outer fixed portion may include a first base portion connected to the elastic portion and a first engaging portion that extends in a direction crossing the first direction from the first base portion and is engaged with the outer housing.

A plug connection arrangement for mechanically and electromagnetically coupling a radiation source to a dielectric waveguide and a system for transmitting data by electromagnetic radiation. The plug connection arrangement has a housing which can be mounted on a printed circuit board. The radiation source generates electromagnetic waves. The radiation source is enclosed, in a mounted state, on the printed circuit board, at least in sections, by the housing and the receiving unit for receiving and aligning the dielectric waveguide is connected to the housing. The dielectric waveguide, which can be received by the receiving unit, in the received state, can be electromagnetically coupled to the radiation source.

A plug connection arrangement for mechanically and electromagnetically coupling a radiation source to a dielectric waveguide and a system for transmitting data by electromagnetic radiation. The plug connection arrangement has a housing which can be mounted on a printed circuit board. The radiation source generates electromagnetic waves. The radiation source is enclosed, in a mounted state, on the printed circuit board, at least in sections, by the housing and the receiving unit for receiving and aligning the dielectric waveguide is connected to the housing. The dielectric waveguide, which can be received by the receiving unit, in the received state, can be electromagnetically coupled to the radiation source.

An electrical connector for electrically connecting at least two electrical conductors featuring first and second electrical cables. The connector features at least one first conductor plate allocated to the first cable and at least one second conductor plate allocated to the second cable. Each conductor plate features in total a number of conducting structures with first contact sections which corresponds to at least the number of the conductors for electrical contacting of the allocated conductors and also second contact sections. Furthermore, the connector features a number of coupling elements corresponding to the number of conductors which are designed for electrically contacting the second contact sections of the respective conductor plate allocated to the respective conductor by bridging of a spatial gap between the first and second conductor plate.

A stacked I/O connector with surface mountable tails and a printed circuit board (PCB) configured to receive the connector. The connector may avoid terminal deformations or scratches when the connector is mounted to the PCB. The PCB may include solder pads on a single surface or both surfaces. The sold pads may be configured for the tails of the connector to be attached with a surface mount soldering technique. As a result, the connector has high density and high speed, requires, requires a smaller mounting area on a PCB, relaxes the limitations in routing PCB traces, and reduces the electrical performance deterioration caused by PCB trace routing limitations. The connector may have row-oriented terminal subassemblies, holes in the connector housing and other features to facilitate reliable manufacture and operation of the connector.