A separable high-voltage connector assembly which can miniaturize a size by individually separating each first pin of a connector mounted on a board to form multiple small connectors and simplify a process and prevent an error that connectors are incorrectly inserted into each other by forming an inserting connector through fastening and assembling each of individually separated second pins.

The present disclosure proposes a board-to-board connector terminal and a connector. The board-to-board connector terminal comprises: a male connector terminal including a first part; and a female connector terminal including a second part, wherein in the case of the male connector terminal and the female connector terminal adaptively installed, the male connector terminal is in contact with the female connector terminal; when the male connector terminal is detached from the female connector terminal, the second part abuts against the first part to prevent the male connector terminal being detached from the female connector terminal; in the case of the male connector terminal forcibly detached from the female connector terminal, the first part pushes the second part to cause the second part to be peeled off, such that the female connector terminal is damaged and does not work properly. With the above-mentioned technical solution, the first part cooperates with the second part to enable the female connector to be damaged after the male connector is detached from the female connector, thereby preventing multiple times of plugging of the connector.

The present disclosure proposes a board-to-board connector terminal and a connector. The board-to-board connector terminal comprises: a male connector terminal including a first part; and a female connector terminal including a second part, wherein in the case of the male connector terminal and the female connector terminal adaptively installed, the male connector terminal is in contact with the female connector terminal; when the male connector terminal is detached from the female connector terminal, the second part abuts against the first part to prevent the male connector terminal being detached from the female connector terminal; in the case of the male connector terminal forcibly detached from the female connector terminal, the first part pushes the second part to cause the second part to be peeled off, such that the female connector terminal is damaged and does not work properly. With the above-mentioned technical solution, the first part cooperates with the second part to enable the female connector to be damaged after the male connector is detached from the female connector, thereby preventing multiple times of plugging of the connector.

A quick-locking piston-type floating power supply connector includes a housing assembly, a contact assembly, and a base assembly, wherein the housing assembly is sleeved on an outer wall of one end of the base assembly, one end of the contact assembly is fixed in the base assembly, the other end of the contact assembly extends from the base assembly, the other end of the contact assembly extends outwards to be partially embedded into a cover plate assembly, a floating contact member of a piston-type structure is vertically arranged at the terminal of the other end of the contact assembly, the floating contact member is mounted in the cover plate assembly, a mounting opening of the floating contact member extends outwards to the cover plate assembly, and the floating contact member is used for meeting the electrical assembly requirements of PCBs with different heights.

The present disclosure relates to an external device-to-external device connector for wireless communication devices, which is configured to electrically connect two spaced external devices together, and comprises two interface members and a coupling member. The inner conductor part and the insulation part of the coupling member are held together by the concave-convex fitting parts opposite to each other, and there is a first gap between the concave-convex fitting part of the inner conductor part and that of the insulation part, which allows the inner conductor part to have radial displacement relative to the insulation part; or, the outer conductor part and the insulating part of the coupling member are held together by the concave-convex fitting parts opposite to each other, and there is a second gap between the concave-convex fitting part of the outer conductor part and that of the insulating part, which allows radial displacement of the insulating part relative to the outer conductor part. The external device-to-external device connector can achieve satisfactory RL and PIM performance.

The present disclosure relates to an external device-to-external device connector for wireless communication devices, which is configured to electrically connect two spaced external devices together, and comprises two interface members and a coupling member. The inner conductor part and the insulation part of the coupling member are held together by the concave-convex fitting parts opposite to each other, and there is a first gap between the concave-convex fitting part of the inner conductor part and that of the insulation part, which allows the inner conductor part to have radial displacement relative to the insulation part; or, the outer conductor part and the insulating part of the coupling member are held together by the concave-convex fitting parts opposite to each other, and there is a second gap between the concave-convex fitting part of the outer conductor part and that of the insulating part, which allows radial displacement of the insulating part relative to the outer conductor part. The external device-to-external device connector can achieve satisfactory RL and PIM performance.

Components and systems include devices for implementing downhole splice connections within a wellbore. In some embodiments, a downhole splice connector includes at least one connector body having an inner diameter defining a cavity within which at least one connector receptacle is disposed, and at least one conductive center pin disposed within the at least one connector receptacle. The downhole splice connector further includes at least one pressure sleeve annularly disposed between an inner diameter of the connector body and an outer diameter of the center pin, such that a pressure barrier is formed between an outer diameter of the pressure sleeve and an inner diameter of the connector body and a pressure barrier is formed between an inner diameter of the pressure sleeve and an outer diameter of the center pin.

A terminal 1 is made of a rectangular wire material, extends in a front-rear direction and is provided with a terminal body 2, a pair of first projections 3 provided to project toward both left and right sides from both side surfaces 2A of the terminal body 22, and a pair of second projections 4 provided to project toward both left and right sides from the both side surfaces 2. A of the terminal body 2 and disposed behind the pair of first projections 3. The pair of second projections 4 are continuously and integrally formed with the pair of first projections 3. A maximum projecting dimension X2max of the second projection 4 from the side surface 2A of the terminal body 2 is larger than a maximum projecting dimension X1max of the first projection 3 from the side surface 2A of the terminal body 2.

A terminal 1 is made of a rectangular wire material, extends in a front-rear direction and is provided with a terminal body 2, a pair of first projections 3 provided to project toward both left and right sides from both side surfaces 2A of the terminal body 22, and a pair of second projections 4 provided to project toward both left and right sides from the both side surfaces 2. A of the terminal body 2 and disposed behind the pair of first projections 3. The pair of second projections 4 are continuously and integrally formed with the pair of first projections 3. A maximum projecting dimension X2max of the second projection 4 from the side surface 2A of the terminal body 2 is larger than a maximum projecting dimension X1max of the first projection 3 from the side surface 2A of the terminal body 2.

Plug and receptacle connectors for improving crosstalk are provided. The plug connector includes a first set of plug terminals, a second set of plug terminals, a first plate-shaped shielding member, and a second plate-shaped shielding member. The first set of plug terminals include first ground terminals and first signal terminals, where the first plate-shaped shielding member is provided below the first set of plug terminals. The first plate-shaped shielding member is welded to the first ground terminals and transversely crosses and covers the first signal terminals without contacting the first signal terminals. The second set of plug terminals include second ground terminals and second signal terminals, where the second plate-shaped shielding member is provided above the second set of plug terminals. The second plate-shaped shielding member is welded to the second ground terminals and transversely crosses and covers the second signal terminals without contacting the second signal terminals.