An electrical connector includes: an insulating body and multiple terminals retained in the insulating body. Each terminal has a base portion. An elastic arm bends upward and extends from the base portion. The elastic arm bends to form a contact portion. A first urging portion includes a first elastic portion bending from the contact portion and obliquely extending downward and away from the base portion, and a second elastic portion obliquely extending downward from the first elastic portion. A slot runs through the contact portion, the first elastic portion and the second elastic portion. A bending arm bends and extends from a lower end of the base portion. The bending arm bends to form a conductive portion. The conductive portion bends upward and extends to form a second urging portion. The first urging portion urges against the second urging portion.

A sliding element for electrically contacting conductor paths on two facing printed circuit boards is provided. The sliding element comprises a main body, at least one electrical contact element, and a through-going opening provided for accepting a threaded stud. An internal thread in the through-going opening allows the sliding element to move linearly along the threaded stud when the threaded stud is rotated. By moving the sliding element along the threaded stud, different conductor paths on the printed circuit boards are brought into electrical contact with one another.

The connector includes an insulative housing having a frame configuration, and a plurality of contacts disposed in the housing. The electronic package includes an upper part and a lower part extending downwardly from the upper part. The upper part includes on a peripheral region a flange extending beyond the lower part laterally. The housing include a bar unit with an opening, and a receiving space defined in the bar unit. The bar unit forms opposite upper surface and lower surface thereof. The contacts includes a first contacting section extending upwardly above the upper surface and a second contacting section extending downwardly below the lower surface. The lower part is restrained in the receiving space while he flange is seated upon the housing.

An electrical connector and an electronic device including the electrical connector. The electrical connector comprises a housing and an electrical contact. The housing includes a first wall oriented in a first direction, a second wall oriented in a second direction that is transverse to the first direction, and an aperture defined by the first wall and the second wall. The electrical contact is disposed within the aperture and has a singular structure with a first end and a second end opposite from the first end. A first portion of the electrical contact extends from the aperture in the second direction and is configured to deflect toward the first wall along the second direction. A second portion of the electrical contact extends from the aperture in the first direction and is configured to deflect toward the second wall along the first direction.

An electrical connector comprises an insulative housing and a plurality of conductive terminals. The terminals are respectively provided in grooves of the housing. Each terminal has a portion fixed to the housing, an upper elastic portion extending from a top end of the fixed portion and a lower elastic portion extending from a bottom end of the fixed portion. The upper portion has a first arm extending from the fixed portion, a first contact section extending from the first arm, extending out of a top surface of the housing and bending, and a second arm extending from the first section, and a distal end of the second arm abuts against abutted structures in the corresponding groove when the first section is pressed down.

The pressure contacting connection type contact has a base portion, a connecting terminal for a mating side contact, and a pressure contacting terminal. The pressure contacting terminal is provided with a base end section opposing an other end side of the base portion, where an extending piece extending from second both side portions of an other side of the base portion is folded such that mutual piece thickness faces are opposed, and a pair of pressure contacting pieces having spring characteristics where, from the base end section, the extending piece extends away from the base portion to the tip portion side such that the piece thickness faces are opposed, and in addition rises obliquely at an opposite side of the protrusion direction connecting terminal, and an open angle portion of the tip side of the pressure contacting pieces in which the central conductor can be inserted from an outer direction.

An electrical connector comprises an insulative housing extending in a horizontal direction and a plurality of conductive terminals retained in the insulative housing. The electrical connector is provided with a first receiving cavity and a second receiving cavity which are arranged in an up-and-down arrangement in a vertical direction perpendicular to the horizontal direction. Each conductive terminals comprises a first contact portion extending upwardly into the first receiving cavity and a second contact portion extending downwardly into the second receiving cavity. The conductive terminals are used to electrically connect a pair of first and second electrical components which are respectively inserted into the first and second receiving cavity via the first and second contact portions. The electrical connector is provided with the receiving cavity for inserting the second electrical component, thereby facilitating the assembly of the second electrical component and the electrical connector.

An electric component socket in which a first electric component is housed in a first plate, a second plate is disposed to face the second electric component, a third plate is disposed at a middle position between the first and the second plates, and a plurality of electric contacts are used to electrically connect the first and second electric components, the electric contact includes: a spring part that is inserted into an insertion hole in the third plate; first and second contact parts extending from both terminals of the spring part, and inserted into insertion holes in the first and second plates to be in contact with electrodes of the first and second electric components.

Switchable grounded terminal loads are built into, or otherwise coupled to, connectors on motherboards and control devices. The terminal loads are coupled to the bus termination at the connector when the connector is stuffed (connected to a mating connector). The switchable grounded terminal loads replace dummy connectors in preventing empty unstuffed connectors from increasing error risks on active channels.

A contact system for electrically connecting a high current power supply system, in particular a battery unit, is provided. The contact system comprises a busbar, an electrode and a clamp. The clamp has at least two clamp legs, and at least one clamp leg is elastically moveable so as to vary an interspace between the clamp legs, the busbar, and the electrode. At least one of the clamp legs has a respective contact surface contacting a further one of the contact surfaces.

At least one of the clamp leg contact surface, the busbar contact surface, and the electrode contact surface has a protrusion. The protrusion contacts one of the respective other contact surfaces. The protrusion is convex in two mutually vertical sectional planes.