A socket connector is configured to mount to a component, such as a printed circuit board. The socket connector includes a base having a passageway and a channel extending outwardly from the passageway, a barrel including a wall having a flange extending outwardly therefrom, at least one biasing member engaging the flange and surrounding the wall, and a contact seated within the barrel. The wall is seated within the passageway and the flange is seated within the channel. The barrel is configured for movement within the base to align a centerline of a pin inserted into the socket connector with a centerline of the hole of the component.

A socket connector is configured to mount to a component, such as a printed circuit board. The socket connector includes a base having a passageway and a channel extending outwardly from the passageway, a barrel including a wall having a flange extending outwardly therefrom, at least one biasing member engaging the flange and surrounding the wall, and a contact seated within the barrel. The wall is seated within the passageway and the flange is seated within the channel. The barrel is configured for movement within the base to align a centerline of a pin inserted into the socket connector with a centerline of the hole of the component.

It is aimed to improve workability at the time of assembling. A connector device is provided with a first connector including a first terminal unit and to be mounted on a first circuit board, a second connector including a second terminal unit and to be mounted on a second circuit board, and an adaptor including a pair of connecting end parts. The pair of connecting end parts are connected to the first terminal unit and the second terminal unit with the first terminal unit and the second terminal unit facing each other, and symmetrical with respect to a facing direction of the first terminal unit and the second terminal unit.

The present invention improves workability during assembly. A connector device (A) comprises: a pair of connectors (10, 30) that each have a terminal part (16, 43), and that are individually mounted on a pair of opposing circuit substrates (B, C); and an adapter (50) that has a pair of connecting ends (50P, 50T) which are capable of pivotably connecting to the terminal part (16, 43). The connecting ends (50P, 50T) have a hooking part (83) formed therein, protruding in a radial direction from the connecting ends (50P, 50T). The terminal part (43) has formed therein a receiving part (78) that holds the adapter (50) to the connector (30) as being engaged by the hooking part (83).

The present invention relates to a cavity filter and, in particular, provides an advantage of preventing performance deterioration of an antenna device by efficiently absorbing an assembly tolerance which may occur due to assembly design and preventing an interruption of an electrical flow, by comprising: an RF signal connecting part provided to be spaced apart at a predetermined distance from an external member having an electrode pad formed on one surface thereof; a terminal part which electrically connects the electrode pad of the external member to the RF signal connecting part, while absorbing an assembly tolerance existing within the predetermined distance and simultaneously preventing an interruption of an electrical flow between the electrode pad and the RF signal connecting part; a dielectric body which is inserted into a terminal insertion hole so as to surround the outside of the terminal part; and an elastic member which has a portion of the edge supported by the dielectric body and which elastically supports the terminal part by means of an operation in which a hollow part is deformed in the vertical direction when an assembly force is transmitted to the terminal part supported to pass through the hollow part, wherein the terminal part comprises one terminal brought into contact with the electrode pad and the other terminal connected to the RF signal connecting part.

An electrical connector having a first housing and a second housing. The first housing have a first mating face and a first cable receiving face with at least one first terminal receiving cavity which extends from the first cable receiving face to the first mating face. The second housing has a second mating face and a second cable receiving face with at least one second terminal receiving cavity which extends from the second cable receiving face to the second mating face. The second housing is spaced from the first housing. A flexible joining member extends from the first housing to the second housing. The flexible joining member is configured to allow the first housing to move independently of the second housing as the electrical connector is mounted to an electrical component. The first housing can be mated independently to the electrical component from the second housing.

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.

An electrical connector includes: an insulative base having a top surface, a bottom surface, and plural holes extending through the top surface and the bottom surface; a group of contacts mounted to corresponding holes, each contact having an upper contacting arm and a side portion; and a standoff secured to the side portion.

A connector assembly includes an outer conductive body having a first end configured to mate with a corresponding electrical connector, and a conductive center contact arranged within the outer conductive body. The center contact comprises a first end configured to mate with the corresponding electrical connector and a second end electrically connecting with a first electrical contact of a circuit board. An outer contact is slidably attached to a second end of the outer conductive body and electrically connects with a second electrical contact of the circuit board. An elastic element is provided for biasing the outer contact in a direction away from the outer conductive body and toward the circuit board.

Provided is a connector module that is highly durable and that also allows easy position alignment with a connection target instrument while maintaining high shielding performance. The connector module includes a connector case and a connector inserted in the connector case. The connector includes a contact, a holder, a conductive tubular shell, a housing and a conductive shield case. The shield case includes a first member having an elastic portion and a second member in the form of a bottomed tube. The first member forms an elastic piece contactable with the second member. Fixing of the connector case to a main body case via a fastener member causes, in the connector, elastic deformation of the elastic piece, resulting in decrease in a gap between the first member and the second member, consequently in establishment of electrical connection between the first member and the second member.