A connector for use with high speed signals. The connector may include lead frame assemblies in a connector housing. A lead frame assembly may include signal conductive elements and ground conductive elements disposed in a repeating pattern, and one or more corrugated sheets attached to the ground conductive elements. The corrugated sheets may extend more than half of the length of the signal conductive elements. Valleys of the corrugated sheets may be welded to the ground conductive elements with line welds. The line welds may extend over a large percentage of the length of the conductive elements. Such a configuration enables accurately and repeatedly establishing signal to ground spacing and therefore promotes high signal integrity, even for miniaturized connectors. Such a connector may be used to meet signal integrity requirements in connectors designed for 112 GBps and beyond.

The signal transmission paths are transmission path pairs 22, 24 located spaced apart in the arrangement direction of the signal transmission paths 22, 24, the transmission path pairs 22, 24 have two types of pairs, straight pairs 22 and cross pairs 24, the straight pairs 22 and the cross pairs 24 are alternately disposed in the arrangement direction, the signal transmission paths arranged in the arrangement direction form signal transmission path rows, a plurality of the signal transmission path rows are provided, and of two adjacent signal transmission path rows, at least a part of the transmission path pairs 22, 24 of one signal transmission path row in the height direction is offset in the arrangement direction with respect to the transmission path pairs 22, 24 of the other signal transmission path row.

An electrical connector system includes a receptacle connector assembly and a header connector assembly mated with the receptacle connector assembly. The receptacle connector assembly includes a receptacle connector housing holding receptacle contacts in a plurality of rows. The header connector includes a header connector housing holding header contacts in a plurality of rows. The contacts are laterally offset and longitudinally staggered in the rows to provide spacing between the contacts.

A socket includes a housing and a plurality of contacts. The housing is formed in a box-shape with an opening and is provided with a matrix of through holes at a bottom portion. The plurality of contacts includes ground contacts and signal contacts which are arranged so as to be aligned alternately in a predetermined array direction by one or a plurality of them and are passed through the through holes. The ground contacts adjacent to each other in the array direction are short-circuited.

In a connector assembly in which a connector that includes a first terminal, a second terminal, a ground terminal including a shielding portion (plate portion) positioned between the first terminal and the second terminal, and a shell having conductivity and a frame-like shape and a mating connector that includes a first mating terminal and a second mating terminal that are connected with the first terminal and the second terminal respectively, a mating ground terminal including a mating shielding portion (mating plate portion) positioned between the first mating terminal and the second mating terminal, and a mating shell having conductivity and a frame-like shape are fitted to each other, the ground terminal and the shell are integrally formed through bending processing for metal plate. The ground terminal and the mating ground terminal are connected with each other through elastic contact between the shielding portion and the mating shielding portion.

In a connector assembly in which a connector that includes a first terminal, a second terminal, a ground terminal including a shielding portion (plate portion) positioned between the first terminal and the second terminal, and a shell having conductivity and a frame-like shape and a mating connector that includes a first mating terminal and a second mating terminal that are connected with the first terminal and the second terminal respectively, a mating ground terminal including a mating shielding portion (mating plate portion) positioned between the first mating terminal and the second mating terminal, and a mating shell having conductivity and a frame-like shape are fitted to each other, the ground terminal and the shell are integrally formed through bending processing for metal plate. The ground terminal and the mating ground terminal are connected with each other through elastic contact between the shielding portion and the mating shielding portion.

A charging system for a battery-operated machine is disclosed. The charging system includes a charging receptacle having a power connection and a signal connection, with the charging receptacle configured to receive electrical current via the power connection from a power supply plug. The charging system further includes a heat rejection element thermally coupled to the charging receptacle, a temperature sensor, and a charging controller operatively coupled to the temperature sensor and the charging receptacle. The charging controller is configured to receive a temperature signal from the temperature sensor, the temperature signal being indicative of a charging-receptacle temperature. The charging controller is further configured to transmit, via the signal connection to the connected plug, a control signal to adjust (e.g., raise or lower) the electrical current supplied to the power connection.

A charging system for a battery-operated machine is disclosed. The charging system includes a charging receptacle having a power connection and a signal connection, with the charging receptacle configured to receive electrical current via the power connection from a power supply plug. The charging system further includes a heat rejection element thermally coupled to the charging receptacle, a temperature sensor, and a charging controller operatively coupled to the temperature sensor and the charging receptacle. The charging controller is configured to receive a temperature signal from the temperature sensor, the temperature signal being indicative of a charging-receptacle temperature. The charging controller is further configured to transmit, via the signal connection to the connected plug, a control signal to adjust (e.g., raise or lower) the electrical current supplied to the power connection.

A staggered press-fit fish-eye connector for an information handling system includes multiple ground press-fit connectors and multiple signal press-fit connectors. The ground press-fit connectors include first, second, and third ground press-fit connectors. The signal press-fit connectors include first, second, third and fourth signal press-fit connectors. The ground press-fit connectors are substantially longer than the signal press-fit connectors. The first and second signal press-fit connectors are located between the first and second ground press-fit connectors, and the third and fourth signal press-fit connectors are located between the second and third ground press-fit connectors.

A staggered press-fit fish-eye connector for an information handling system includes multiple ground press-fit connectors and multiple signal press-fit connectors. The ground press-fit connectors include first, second, and third ground press-fit connectors. The signal press-fit connectors include first, second, third and fourth signal press-fit connectors. The ground press-fit connectors are substantially longer than the signal press-fit connectors. The first and second signal press-fit connectors are located between the first and second ground press-fit connectors, and the third and fourth signal press-fit connectors are located between the second and third ground press-fit connectors.