A connector keying system includes at least one keying device including a flange portion and a keying portion. The flange portion includes a front surface and a back surface. Each of the front surface and the back surface extend substantially parallel to a flange plane. The flange portion further includes a connector aperture extending through the flange portion. The keying portion extends around an aperture perimeter of the connector aperture and projects outward from the flange portion. The keying portion includes and extends between a first key end located at the front surface and a second key end opposite the first key end. The second key end defines a keying perimeter about the connector aperture. The keying portion has a height between the first key end and the second key end and the height is inconsistent between the first key end and the second key end along the keying perimeter.

A long body winding structure is provided with a long body and a reel. The long body includes a plurality of terminal modules arranged in parallel in a first direction, a first member, a second member and a third member. Each terminal module includes a plurality of first terminals arranged in parallel in the first direction and a dielectric member covering the plurality of first terminals. Each first terminal is an L-shaped rod-like piece including a first end part, a second end part and a first bent portion. The dielectric member covers the plurality of first terminals such that the first and second end parts of each first terminal are exposed. The first member is a strip-like member coupling adjacent ones of the first end parts to link the plurality of terminal modules.

A long body winding structure is provided with a long body and a reel. The long body includes a plurality of terminal modules arranged in parallel in a first direction, a first member, a second member and a third member. Each terminal module includes a plurality of first terminals arranged in parallel in the first direction and a dielectric member covering the plurality of first terminals. Each first terminal is an L-shaped rod-like piece including a first end part, a second end part and a first bent portion. The dielectric member covers the plurality of first terminals such that the first and second end parts of each first terminal are exposed. The first member is a strip-like member coupling adjacent ones of the first end parts to link the plurality of terminal modules.

The seal spring of the present invention has a dual functionality. The seal spring provides both a sealing property and spring function in use within an electrical connector system, which is accomplished by its elastomeric qualities, The seal spring is preferably comprised of Silicone, EPDM rubber or materials and compositions that provide similar performance during use, or the like. The seal spring of the present invention is not limited or defined into a spring section or a seal section by its geometry. Shown is an implementation of the seal spring within a conductive female housing and connector assembly. The seal spring compresses and provides adequate spring force against a disk ferrule assembly, pressing the disk ferrule assembly, with a wire shield, against a conductive female outer housing, providing a grounding scheme for the connector assembly. The seal spring also seals against the female outer housing and a wire.

In a connector having a housing and a plurality of terminals, the plurality of terminals is configured as surface mount terminals, and each surface mount terminal includes a terminal portion arranged inside the housing, a fixed portion fixed to the housing, and a mount portion soldered to a mount surface of a board. The surface mount terminals are arranged side by side from one side to the other side in a Y-direction when the connector mounted on the mount surface is viewed in an X-direction, and a surface mount terminal having the smallest length dimension from the mount portion to the fixed portion is arranged at the leftmost end in the Y-direction, and the length dimension from the mount portion to the fixed portion is larger or the same dimension according to the arrangement order from the left side to the right side in the Y-direction.

In a connector having a housing and a plurality of terminals, the plurality of terminals is configured as surface mount terminals, and each surface mount terminal includes a terminal portion arranged inside the housing, a fixed portion fixed to the housing, and a mount portion soldered to a mount surface of a board. The surface mount terminals are arranged side by side from one side to the other side in a Y-direction when the connector mounted on the mount surface is viewed in an X-direction, and a surface mount terminal having the smallest length dimension from the mount portion to the fixed portion is arranged at the leftmost end in the Y-direction, and the length dimension from the mount portion to the fixed portion is larger or the same dimension according to the arrangement order from the left side to the right side in the Y-direction.

A connector for use with high-speed signals. The connector includes conductors held in a housing having a slot for receiving a mating component. Each conductor has a mating end curving into the slot and a mounting end extending out of the housing. The connector has a conductive shell at least partially enclosing the housing. The conductive shell covers one or more sides of the slot and substantially overlaps the mounting ends viewing from a top of the mounting interface to provide shielding to the mating and mounting interfaces. The conductive shell is coupled to ground through ground conductors of the connector. The connector has a lossy member disposed adjacent the mounting interface and coupled to the ground conductors. Such a configuration meets signal integrity requirements in connectors designed for 32 Gbps and beyond, while conforming to a standard that constrains mating and mounting interfaces.

A connector for use with high-speed signals. The connector includes conductors held in a housing having a slot for receiving a mating component. Each conductor has a mating end curving into the slot and a mounting end extending out of the housing. The connector has a conductive shell at least partially enclosing the housing. The conductive shell covers one or more sides of the slot and substantially overlaps the mounting ends viewing from a top of the mounting interface to provide shielding to the mating and mounting interfaces. The conductive shell is coupled to ground through ground conductors of the connector. The connector has a lossy member disposed adjacent the mounting interface and coupled to the ground conductors. Such a configuration meets signal integrity requirements in connectors designed for 32 Gbps and beyond, while conforming to a standard that constrains mating and mounting interfaces.

An electrical connector including a housing and electrical conductor plating. The housing includes a first member and a second member. The first member is made of plastic and forms at least one first contact receiving channel therein. The second member is attached around the first member, and the first and second members form at least one second contact receiving channel therebetween. The electrical conductor plating is on the first member. The electrical conductor plating includes at least one first section along the at least one first contact receiving channel and at least one second section along an exterior side of the first member at the at least one second contact receiving channel. The first and second sections of the electrical conductor plating are electrically separate from one another.

An electrical connector including a housing and electrical conductor plating. The housing includes a first member and a second member. The first member is made of plastic and forms at least one first contact receiving channel therein. The second member is attached around the first member, and the first and second members form at least one second contact receiving channel therebetween. The electrical conductor plating is on the first member. The electrical conductor plating includes at least one first section along the at least one first contact receiving channel and at least one second section along an exterior side of the first member at the at least one second contact receiving channel. The first and second sections of the electrical conductor plating are electrically separate from one another.