A card edge connector for transmitting signal and power simultaneously. The connector has two or more types of conductors held by a housing. First and second types of conductors are configured for transmitting signal and power, respectively. The housing has a slot for receiving a mating component. The housing has first and second types of grooves for holding the first and second types of conductors, respectively, such that the conductors can sustain a similar amount of force generated when mating with the mating component. The conductors have mating ends with contact portions curving into the slot and mounting ends opposite the mating ends and extending out of the housing. The mating and mounting ends of the first and second types of conductors are configured such that they can be deflected by the mating component simultaneously and mounted to a printed circuit board using a same process.

The connector 10 includes a movable housing 40 that is displaceable with respect to an attachment object 90 in an X direction, which is a direction perpendicular to a connection direction, and a terminal 20 configured to electrically connect the attachment object 90 and a connection object 80. The terminal 20 includes the displacement portion 24 that is displaceable in the X direction with respect to the attachment object 90. The contact portions 24c1 and 24f1 configured to contact the connection object 80 are formed in the displacement portion 24. Here, the displacement portion 24 is displaceable with respect to the movable housing 40.

A second component (electronic component) includes a second housing, an inner conductor, an outer conductor, and an internal shell. The second housing forms the storage space together with the first housing by being attached to the first housing. The outer conductor has a cylindrical shape and annularly surrounds the inner conductor and extends in the first direction. The internal shell is disposed inside the storage space and electrically connected to the outer conductor. The internal shell has a spring piece that makes elastic contact with the outer conductor.

An electrical connector includes an insulating housing, at least one flexible printed circuit board mounted in the insulating housing, at least one location block disposed to a middle of an outer surface of the at least one flexible printed circuit board, at least one elastic structure disposed on an outer surface of the at least one location block, and a shell. The at least one flexible printed circuit board includes an outer ground layer, a signal layer and an inner ground layer. The signal layer has a plurality of traces. Each trace has a main portion, at least one contact portion and a soldering portion. The shell surrounds the insulating housing, the at least one flexible printed circuit board, the at least one location block and the at least one elastic structure.

A fan frame electrical connector structure is configured for assembling to a motherboard of an electronic device and includes a fan having a frame. The frame is provided with at least one pogo pin connector, which is located at one side of the frame to project into an outer side of the frame. The motherboard of the electronic device is provided at a position corresponding to the pogo pin connector with at least one metal contact, and the pogo pin connector is electrically connected to the metal contact. With the above fan frame electrical connector structure, it is possible to realize automated assembling of the fan to the electronic device motherboard.

A connector terminal includes a terminal body. An elastic arm structure is arranged on one end of the terminal body, and includes a support part and a contact part. The support part is a bending structure formed by sequentially connecting multiple extension sections, a first end of the support part is an operation end and a second end of the support part is a connection end, from the connection end to the operation end, an included angle between a first direction and each of extension directions of the multiple extension sections is gradually reduced, and the first direction is parallel to a length direction of the terminal body. The contact part is arranged at the operation end and is bent towards an inner side of the bending structure.

When an upper contact part is not in contact with a signal pad, a lower contact part is not in contact with a short-circuiting pad, and when the upper contact part comes into contact with the signal pad and an elastic deformation part is elastically deformed, the lower contact part comes into contact with the short-circuiting pad. The current path length from the upper contact part to the lower contact part is shorter than the current path length from the upper contact part to a soldering part.

The present invention makes it possible to provide a connector comprising a contact that forms an electric connection with a counterpart contact, having a first contact piece and a second contact piece branched by a bifurcated branching part, as well as a first contact point element provided to the first contact piece and a second contact point element provided to the second contact piece in contact with the surface of the counterpart contact when the counterpart contact is inserted between the first contact piece and the second contact piece. At least one of the contact pieces has a first elastic part that has elasticity and is capable of being displaced in a direction orthogonal to the plate thickness. Providing a part curved in the plate thickness direction between the branching part of the contact pieces and the contact point elements allows the connector to adapt to the space allowed to the connector while maintaining a sufficient elastic force. The contact may have first and second contact pieces that differ in length and shape, but maintaining the contact points at the same position makes it possible to prevent a rotational moment received by the counterpart contact at the time of fitting.

A power adapter assembly structure is disclosed and includes a circuit board, a socket and at least one elastic element. The socket is disposed adjacent to the circuit board. The circuit board and the socket are configured to collaboratively form at least one abutting surface and at least one fixing surface. The elastic element is connected between the circuit board and the socket, and includes a main body, a fixed portion and a hanging arm. The fixed portion and the hanging arm are disposed at two opposite ends of the main body, the fixed portion spatially corresponds to the fixing surface, and the hanging arm constantly abuts the abutting surface. A height is formed between the main body of the at least one elastic element and the at least one abutting surface, and less than a length of the hanging arm extended from the main body.

A connector set includes a right angle type inner connector and a relay connector. First external-side contact portions and second external-side contact portions are disposed at different positions in a substrate perpendicular direction. However, first inner-side contact portions and second inner-side contact portions are disposed at the same position in the substrate perpendicular direction.