PROBLEM

Enabling a high degree of freedom of displacement of movable housing, reliably maintaining a mated state, size reduction, simple configuration, a small number of components, simplified manufacturing, low cost, and high reliability.

RESOLUTION MEANS

The fixed housing includes a long wall portion extending in the longitudinal direction of the connector and a short wall portion extending in the width direction of the connector and connected to the long wall portion. The movable housing includes a long wall portion extending in the longitudinal direction of the connector and a short wall portion extending in the width direction of the connector and connected to the long wall portion. The power supply terminal includes a fixed-side retained portion retained on the short wall portion of the fixed housing, a movable-side retained portion retained on the movable housing, and a bent portion connected to the fixed-side retained portion and the movable-side retained portion. The movable-side retained portion includes a first retained portion retained on the short wall portion and a second retained portion retained on the long wall portion.

PROBLEM

Enabling a high degree of freedom of displacement of movable housing, reliably maintaining a mated state, size reduction, simple configuration, a small number of components, simplified manufacturing, low cost, and high reliability.

RESOLUTION MEANS

The fixed housing includes a long wall portion extending in the longitudinal direction of the connector and a short wall portion extending in the width direction of the connector and connected to the long wall portion. The movable housing includes a long wall portion extending in the longitudinal direction of the connector and a short wall portion extending in the width direction of the connector and connected to the long wall portion. The power supply terminal includes a fixed-side retained portion retained on the short wall portion of the fixed housing, a movable-side retained portion retained on the movable housing, and a bent portion connected to the fixed-side retained portion and the movable-side retained portion. The movable-side retained portion includes a first retained portion retained on the short wall portion and a second retained portion retained on the long wall portion.

Devices and methods for a sealed electrical connector are described herein. Some embodiments include a spring connecting a first PCB to a second PCB, wherein the spring includes a first end portion in contact with the first PCB, a second end portion in contact with the second PCB, and a middle portion extending between the first end portion and the second end portion, a spacer surrounding the middle portion of the spring, a first seal seated in a first groove of the spacer and in contact with the first PCB, and a second seal seated in a second groove of the spacer and in contact with the second PCB.

A controlled impedance compressible electrical connector having a housing with at least one terminal receiving cavity which extends from a first surface of the housing to a second surface of the housing. A terminal assembly is positioned in each of the at least one terminal receiving cavities of the housing. The terminal assembly has a first fixed center terminal, a second movable center terminal, a fixed outer shell, a movable outer shell, and a resilient member. The terminal assembly is configured to allow impedance of the electrical connector to be maintained as the second movable center terminal and the movable outer shell are moved relative to the first fixed center terminal, the fixed outer shell and the housing.

The present invention discloses a press-fit connector and a wireless charging coil module, the press-fit connector is connected to a package module, the package module can be inserted and matched with an external module, wherein the press-fit connector comprises: a connector housing having at least one press-fit terminal disposed thereon, the press-fit terminal being formed with a plug end protruding from the connector housing; and a flexible adjustment member connected between the connector housing and the package module, the flexible adjusting member being capable of adjusting an interface position of each plug end and each inserting slot of the external module in a state that the package module is interfaced with the external module. With the press-fit connector and the wireless charging coil module of the present invention, it is possible to save the welding process cost of at client side and facilitate plug and play by the client.

A floating connector comprises a movable housing, a plurality of contacts and at least one ground member. Each of the contacts has a fixed portion, a first held portion, a coupling portion, an extending portion and a contact portion. The coupling portion is resiliently deformable. The movable housing is movable within a predetermined range in a plane perpendicular to an up-down direction by the resilient deformation. The contacts include a plurality of ground contacts and a signal contact. The ground member has a plurality of ground contact portions, a plurality of supporting portions, a ground coupling portion and a second held portion. The ground contact portions correspond to the ground contacts, respectively. Each of the ground contact portions is brought into contact with the corresponding ground contact even when the movable housing is moved within the predetermined range. The ground coupling portion couples the supporting portions with each other.

A floating connector comprises a movable housing, a plurality of contacts and at least one ground member. Each of the contacts has a fixed portion, a first held portion, a coupling portion, an extending portion and a contact portion. The coupling portion is resiliently deformable. The movable housing is movable within a predetermined range in a plane perpendicular to an up-down direction by the resilient deformation. The contacts include a plurality of ground contacts and a signal contact. The ground member has a plurality of ground contact portions, a plurality of supporting portions, a ground coupling portion and a second held portion. The ground contact portions correspond to the ground contacts, respectively. Each of the ground contact portions is brought into contact with the corresponding ground contact even when the movable housing is moved within the predetermined range. The ground coupling portion couples the supporting portions with each other.

A connector with a tolerance module includes a socket and a plug adapted to the socket, wherein the socket includes a first housing, the plug includes a tolerance module and a third housing, the tolerance module includes a second housing, the second housing includes second contact members, the second housing is movably arranged on the third housing in a direction perpendicular to the axial direction of the connector, and the second contact members are floatingly assembled in the second housing to enable displacement in the direction perpendicular to the axial direction of the connector. The second housing only generates translational motion without displacement when the connector is inserted. The tolerance of the plug and the socket is realized by the floating assembly of the second contact members in the second housing.

An electrical circuit board plug contact device includes an electrical circuit board contact element and an electrical plug contact element formed separately from the electrical circuit board contact element. The electrical plug contact element is laterally offset with respect to the electrical circuit board contact element and an electrically conductive connection is provided between the electrical circuit board contact element and the electrical plug contact element.

A connector device is provided with a first connector to be mounted on a first circuit board and a second connector to be mounted on a second circuit board. The first connector includes a plurality of first terminal unit each formed such that a first inner conductor is surrounded by a first outer conductor. The second connector includes a plurality of second terminal units facing the plurality of first terminal units and a plurality of movable terminal units. The second terminal unit is formed such that a second inner conductor is surrounded by a second outer conductor. The movable terminal unit is swingable with the second terminal unit as a fulcrum. A tip part of the movable terminal unit is connectable to the first terminal unit. The plurality of movable terminal units are coupled to swing integrally by an alignment member.