A wire-clamping connector assembly includes a wire-clamping connector and a mating connector that are mated with each other. The wire-clamping connector includes a casing and a conductive cable. The casing includes a first wire-fixing portion, a second wire-fixing portion, and a third wire-fixing portion that is located therebetween. A first gap is formed between the first wire-fixing portion and the third wire-fixing portion, and a second gap is formed between the second wire-fixing portion and the third wire-fixing portion. The conductive cable includes a conductive cable body and insulating bodies that cover the conductive cable body. The conductive cable passes through the first gap and the second gap, such that a third extension section is surroundingly arranged below the third wire-fixing portion. An extension direction of the conductive cable is perpendicular to a mating direction of the mating connector and the wire-clamping connector.

A board-to-board connector assembly includes a receptacle connector and a plug connector mated with each other. The receptacle connector includes a first body, first terminals and a pair of first metal members. The first body includes an island structure and a first receiving slot surrounding the island structure. The first terminals are respectively disposed on a first side and a second side of the first receiving slot, the first and second sides being opposite to each other. The first metal members are respectively disposed on a third side and a fourth side of the first receiving slot, the third and fourth sides being opposite to each other. The first metal member includes a base extending to a bottom on the third side or a bottom on the fourth side, and a pair of first elastic arms extending from the base and facing away from each other.

Methods and apparatuses to provide a pin, a pin combination structure and a package body are described. A baffle structure is sleeved on the pin. The baffle structure is used to prevent a plastic packaging material from overflowing from a cavity that accommodates the plastic packaging material. The cavity is in a mold for packaging the package body.

A method of making an electrical connector includes steps of providing an insulative housing with a plurality of passageways; providing a plurality of contacts associated with corresponding carriers unitarily formed thereon, respectively; providing an external fixture discrete from the carriers; retaining the carriers on the external fixture; downwardly moving the external fixture to insert the contacts into the corresponding passageways to reach their final positions in the vertical direction, simultaneously; and removing the carriers from the corresponding contacts, respectively.

A high voltage side hold-down includes a flat-plate shaped reinforcing plate part, a solder leg projecting downward from the reinforcing plate part, and a hold-down elastic piece supported like a cantilever beam by the reinforcing plate part. The hold-down elastic piece includes an elastic piece body, a contact part projecting upward beyond a CPU board opposed surface, and a displacement restriction part for restricting upward displacement of the contact part, sequentially from the base to the end of the hold-down elastic piece. A housing is formed in such a way that the contact part does not come into contact with the housing when the contact part is displaced downward and no longer projects upward beyond the CPU board opposed surface.

A wire-clamping connector assembly includes a wire-clamping connector and a mating connector. The wire-clamping connector includes a first main body that has a retaining groove, a cover, a conductive cable, and multiple first and second conductive terminals that are embedded in the first main body. The second and the first conductive terminals are opposite to each other and are in a staggered arrangement. Each of the first conductive terminals has one of multiple first upper contact portions, and each of the second conductive terminals has one of multiple second upper contact portions. The conductive cable is disposed on the first main body. The cover is disposed on the conductive cable, and is detachably fixed to the first main body. Each conductor in the conductive cable is in electrical contact with one of the first upper contact portions or one of the second upper contact portions.

A USB Type-C male connector includes a first terminal assembly including a plurality of first pins and a second terminal assembly including a plurality of second pins. The first pins of the first terminal assembly having an SMD structure are electrically connected to a substrate in the SMT process. The second pins of the second terminal assembly having a DIP structure are electrically connected to the substrate in the SMT process. More pins of the second terminal assembly are used for transmitting data signals, control signals and power signals, thereby improving the signal quality of the USB drive.

To provide a connector for which cost can be reduced. A first connector 1 includes first metal members 10A that function as terminals and second metal members 10B that function as reinforcing brackets. Each first metal member 10A and second metal member 10B include a main body part 11, a first edge part 15, a second edge part 16, and a third edge part 17. A first edge part 15 of the first metal member 10A is positioned on the upper side of the main body part 11 that is the side that receives the mating connector. The second metal member 10B is retained in a different orientation from the first metal member 10A. The first edge part 15 of the second metal member 10B is positioned below the main body part 11 of the second metal member 10B and can be attached to a first circuit board B1 arranged on the lower side of the first connector 1. The third edge part 17 of the second metal member 10B is positioned more in the Y1 direction than the main body part 11 of the second metal member 10B and can be attached to the second circuit board B2 arranged in the Y1 direction with respect to the first connector 1.

The present application relates to a coaxial connector, intended to transmit radio frequency RF signals, of longitudinal axis X, including: - an outer contact forming a body/casing, which at least one of its ends is slotted defining contact petals, a central contact and, - at least one electrical insulating solid structure coaxially interposed between the central contact and the outer contact, which is mechanically retained in the outer contact and in which the central contact is mechanically retained, at least one of the free end of the electrical insulating solid structure having an elasticity of its periphery, at the level of the petals of the outer contact, which is increased compared to the rest of the electrical insulating solid structure.

A removable device for retaining electrical contacts, having: a rigid element for holding electrical contacts including a plurality of housings that are configured to accept the electrical contacts, the lateral walls of the holding element that are adjacent to the housings having a plurality of openings that each lead into one housing of the plurality of housings of the holding element; and an elastic element for retaining the electrical contacts in the holding element including a plurality of sprung blades that are arranged facing the openings leading into the housings of the rigid holding element so as to retain the electrical contacts in the housings of the holding element. The invention further relates to a soldering method implementing such a device.