Each of a first connector and a second connector of a connector assembly includes at least two high frequency signal terminals. When viewed from a first direction, each periphery of the high frequency signal terminals is surrounded by an outer shell and an inner shell. The outer shell has a substantially quadrilateral shape. The high frequency signal terminals, the outer shells surrounding peripheries of the high frequency signal terminals, and the inner shells, which are disposed on a second symmetry axis form a linearly symmetrical shape with the second symmetry axis as a center line of the outer shells along a second direction orthogonal to the first direction in which the high frequency signal terminals are arranged.

In one embodiment, an interconnect apparatus (e.g., an interposer apparatus) includes a plurality of interconnect probes that each include a wave spring structure that includes a plurality of stacked wave spring discs. The wave spring discs may be formed in a sinusoidal wave form shape, or in another wave form shape.

An electrical connector assembly includes a first connector. The first connector has a main body. The main body has a first end wall and a second end wall opposite to each other. Multiple first terminals are provided on the main body. The first connector is used to be mated with a circuit board. The circuit board has multiple first conductive portions, multiple second conductive portions and multiple first wires electrically connecting the first conductive portions and the second conductive portions correspondingly. The second conductive portion is correspondingly electrically connected to the first terminal. The first end wall is located closer to the first conductive portion relative to the second end wall. A top surface of the first end wall is lower than a corresponding first conductive portion adjacent to the first end wall.

A modular electrical connector with modular components suitable for assembly into a right angle connector may also be used in forming an orthogonal connector or connector in other desired configurations. The connector modules may be configured through the user of extender modules. Those connector modules may be held together as a right angle connector with a front housing portion, which, in some embodiments, may be shaped differently depending on whether the connector modules are used to form a right angle connector or an orthogonal connector. When designed to form an orthogonal connector, the extender modules may interlock into subarrays, which may be held to other connector components through the use of an extender shell. The mating contact portions on the extender modules may be such that a right angle connector, similarly made with connector modules, may directly mate with the orthogonal connector.

A modular electrical connector with modular components suitable for assembly into a right angle connector may also be used in forming an orthogonal connector or connector in other desired configurations. The connector modules may be configured through the user of extender modules. Those connector modules may be held together as a right angle connector with a front housing portion, which, in some embodiments, may be shaped differently depending on whether the connector modules are used to form a right angle connector or an orthogonal connector. When designed to form an orthogonal connector, the extender modules may interlock into subarrays, which may be held to other connector components through the use of an extender shell. The mating contact portions on the extender modules may be such that a right angle connector, similarly made with connector modules, may directly mate with the orthogonal connector.

A connector includes a connector core and ant outer shell. The connector core includes a plurality of contacts for coupling a device to a PCB, The connector core exhibits a first impedance for signals provided on the contacts. The outer shell is configured to be rigidly attached to the connector core. When the outer shell has a first configuration and is attached to the connector core, the connector exhibits a second impedance for signals provided on the contacts, the second impedance being different from the first impedance. When the outer shell has a second configuration and is attached to the connector core, the connector exhibits a third impedance for signals provided on the contacts, the third impedance being different from the first and second impedances.

A connector includes a connector core and ant outer shell. The connector core includes a plurality of contacts for coupling a device to a PCB, The connector core exhibits a first impedance for signals provided on the contacts. The outer shell is configured to be rigidly attached to the connector core. When the outer shell has a first configuration and is attached to the connector core, the connector exhibits a second impedance for signals provided on the contacts, the second impedance being different from the first impedance. When the outer shell has a second configuration and is attached to the connector core, the connector exhibits a third impedance for signals provided on the contacts, the third impedance being different from the first and second impedances.

A backplane connector includes a housing, a number of terminal modules assembled to the housing, and a mounting block. The housing includes a base, a first side wall and a second side wall. Each terminal module includes a first signal terminal and a second signal terminal. The first signal terminal has a first mounting foot, and the second signal terminal has a second mounting foot. The housing includes a receiving groove at a bottom end of the base. The mounting block is received in the receiving groove. The mounting block is made of electroplated plastic. The mounting block has an opening for the first mounting foot and the second mounting foot to extend through. As a result, the backplane connector has a better shielding effect.

A backplane connector includes a number of first conductive terminals, an insulating bracket, a first metal shield and a second metal shield. The first conductive terminal includes a first mating portion, a first tail portion and a first connection portion. The first conductive terminals include first differential signal terminals, a first ground terminal and a second ground terminal. The first mating portion, the first connection portion and the first tail portion extend along a mating direction so that the structural design of the conductive terminal is simplified. The first metal shield, the second metal shield, the first mating portion of the first grounding terminal and the first mating portion of the second grounding terminal are enclosed to form a shielding space. The first mating portions of the first differential signal terminals are located in the shielding space.

The present disclosure provides a terminal assembly and an electrical connector. The terminal assembly comprises a plurality of terminals and an insulating body. The plurality of terminals comprises a plurality of signal terminals and a plurality of ground terminals. The plurality of signal terminals and the plurality of ground terminals are disposed at intervals. The plurality of signal terminals are disposed between two adjacent ground terminals. The plurality of signal terminals of two adjacent ground terminals form a signal pair. The distance between a centerline of each of the signal terminals and a centerline of an adjacent ground terminal is greater than the distance between the centerline of each of the signal terminals and a centerline of an adjacent signal terminal. The insulating body is disposed at the plurality of terminals.