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.

Methods and apparatus for an assembly including a circuit card coupled to an alignment bracket having a bracket mounting hole with an interposer board having a front and back connectors and a mounting hole. The front connector is mated with the circuit card and the back connector is configured and positioned to mate with a test connector of a unit under test (UUT). An alignment plate has a plate mounting hole. First and second alignment pins may be rotatably engaged to position the connectors in relation to the alignment plate.

A high-speed connector includes an insulating housing, and a first terminal assembly mounted in the insulating housing. The first terminal assembly includes a plurality of first terminals including a plurality of first grounding terminals, a first base body, and a first shielding plate disposed under the first base body. The plurality of the first terminals are fastened to the first base body. The first shielding plate has a first base plate, a first metal layer and a plurality of first ribs. Several portions of a top surface of the first base plate extend upward to form the plurality of the first ribs. The first metal layer is a pattern with a plurality of pores. Several of the first grounding terminals contact with the first metal layer which is attached to top surfaces of the plurality of the first ribs to form a grounding structure.

A connector includes a plurality of contacts made of metal material and arranged in an arrangement direction orthogonal to a fitting direction, an insulator made of insulating resin material and holding the plurality of contacts, and a reinforcement terminal made of metal material and attached to an end portion of the insulator in the arrangement direction, the insulator including a fitting portion extending along the arrangement direction and projecting in the fitting direction for fitting to a portion to be fitted of the counter connector, the reinforcement terminal including a terminal accommodating portion of recess shape for accommodating a reinforcement terminal of the counter connector, and a wall portion facing an end portion of the fitting portion in the arrangement direction across the terminal accommodating portion, the reinforcement terminal including a resin material flow passage penetrating the wall portion and reaching the end portion of the fitting portion.

An RF connector is disclosed herein. An exemplary embodiment of the present disclosure provides an RF connector including: a first printed circuit board on which a plurality of devices is mounted; a first bridge assembly mounted on an area adjacent to at least one side of the first printed circuit board and including a plurality of first signal transmission pins; a second printed circuit board disposed to be spaced apart from the first printed circuit board; a plurality of connection terminals disposed at an area adjacent to at least one side of the second printed circuit board so as to be in contact with at least one surface of the plurality of first signal transmission pins; a first push bar configured to apply a force to at least one surface of the plurality of first signal transmission pins to keep the contact between the plurality of first signal transmission pins and the plurality of connection terminals; and a first metal shielding plate fixed to the first push bar and the second printed circuit board, and configured to shield at least some of the second printed circuit board and the first push bar.

An electrical connector includes an insulating body with multiple accommodating slots, and multiple terminals accommodated in the accommodating slots. Each terminal has an elastic arm, a floating contact portion and a conducting portion. The elastic arm and the floating contact portion are provided at an interval. One end of the elastic arm is connected with the floating contact portion through an insulating block. When each terminal is mated with a first electronic component and a second electronic component, the conducting portion is electrically connected to the first electronic component, the floating contact portion is electrically connected to the second electronic component, the elastic arm provides an elastic force such that the floating contact portion moves downward, and the floating contact portion and the conducting portion are directly electrically connected.

A backplane connector includes a housing and a number of wafers assembled to the housing. Each wafer includes a number of conductive terminals, an insulating frame and a metal shield. The housing includes an insulating housing and a metal shell fixed to the insulating housing. The insulating housing includes a number of slots for positioning the wafers. The metal shell is provided with a mating surface and a number of terminal receiving grooves. The contact portions of the conductive terminals are exposed in the corresponding terminal receiving grooves. The present disclosure improves the structural strength of the backplane connector and reduces the risk of damage the mating surface due to the push or collision of a mating connector.

An electrical connector includes an insulating body, a number of first conductive terminals, a number of second conductive terminals, and a number of cables. The first conductive terminals include a number of first signal terminals and a number of first ground terminals. The second conductive terminals include a number of second signal terminals and a number of second ground terminals. The cables include a number of first cables electrically connected with the first signal terminals and a number of second cables electrically connected with the second signal terminals. The first ground terminals and the second ground terminals are connected to each other and are adapted to be electrically connected to a circuit board. With this arrangement, the present disclosure avoids ground return through cables, thereby simplifying the grounding method and improving the stability of signal transmission. The present disclosure also discloses an electrical connector assembly having the electrical connector.

The connector 10 includes a movable housing 40 that is displaceable with respect to an attachment object 90 in an X direction, which is a direction perpendicular to a connection direction, and a terminal 20 configured to electrically connect the attachment object 90 and a connection object 80. The terminal 20 includes the displacement portion 24 that is displaceable in the X direction with respect to the attachment object 90. The contact portions 24c1 and 24f1 configured to contact the connection object 80 are formed in the displacement portion 24. Here, the displacement portion 24 is displaceable with respect to the movable housing 40.

Provided is a connector assembly including a first connector including a first terminal on a bottom surface thereof, and a first contact portion being a part of the first terminal and a projection portion on a surface opposite to the bottom surface; and a second connector including a second terminal on a bottom surface thereof, and a second contact portion being a part of the second terminal, the second contact portion being configured to be electrically connected to the first contact portion, and a groove portion configured to receive the projection portion, on a surface opposite to the bottom surface, wherein at least a part of a surface of the projection portion is in intimate contact with a part of a surface of the groove portion, and each of the first and second connectors is an integrally-molded product including an insulating member and a conductive member.