A medical sensor patch connector assembly can include a medical patch having a first side, a second side opposite the first side, and a hole connecting the first side and the second side. The medical sensor patch connector assembly can include a connector including a first clamping member having a first contact surface in contact with the first side of the medial patch and a tab protruding through the hole in the medical patch. The connector can include a second clamping member having a second contact surface in contact with the second side of the medical patch.

An edge connector for coplanar coupling of two printed circuit boards (PCBs) comprises an elongated body and two end structures. The elongated body has a compression contact space and two PCB contact surfaces, each PCB contact surface having a plurality of contact positions. Portions of compression contacts positioned in the compression contact space extend through contact positions on both PCB contact surfaces. When a PCB edge surface contacts a PCB contact surface of the elongated body, an edge connection on the PCB edge surface contacts a compression contact, forming an electrical connection. Each end structure has two contact pairs, wherein each contact pair has attaching features that couple the edge connector to a PCB to maintain the electrical connection. When two PCBs are coupled to the edge connector, the compression contacts form electric paths for conducting power and/or communication between the two PCBs.

A terminal block includes an insulative seat, a flexible arm latch and a slider. The insulative seat has a slot and a sliding trough. A longitudinal direction of the sliding trough is parallel to a depth direction of the slot. The flexible arm latch is disposed on the insulative seat. A longitudinal direction of the flexible arm latch is parallel to the depth direction of the slot. The flexible arm latch has a first interfering portion and a hook. The slider is disposed in the sliding trough and longitudinally movable along the sliding trough. The slider has a second interfering portion. Either the first interfering portion or the second interfering portion is a slope. The first and second interfering portions abut against each other to push the slope to deflect the flexible arm latch to make the hook retract when the slider is traveling toward the slot.

A socket connector includes a housing having a top, a bottom, a first side wall and a second side wall forming cavities that receive power sockets. The housing includes pin access openings through the bottom that receive power pins mated to the power sockets. Each power socket includes a cable socket receiving a power cable and a pin socket that receives the power pin. The power socket electrically connects the power cable and the power pin. The socket connector includes latches each having a latch release and a latch arm operably coupled to the latch release. The latch arm extends along the corresponding pin access opening and includes a latching surface aligned with the pin access opening configured to engage the power pin to retain the power pin in the housing. The release button is actuated to release the latch arm from the power pin and allow removal of the power pin from the housing.

An edge connector for coplanar coupling of two printed circuit boards (PCBs) comprises an elongated body and two end structures. The elongated body has a compression contact space and two PCB contact surfaces, each PCB contact surface having a plurality of contact positions. Portions of compression contacts positioned in the compression contact space extend through contact positions on both PCB contact surfaces. When a PCB edge surface contacts a PCB contact surface of the elongated body, an edge connection on the PCB edge surface contacts a compression contact, forming an electrical connection. Each end structure has two contact pairs, wherein each contact pair has attaching features that couple the edge connector to a PCB to maintain the electrical connection. When two PCBs are coupled to the edge connector, the compression contacts form electric paths for conducting power and/or communication between the two PCBs.

A connector 10 includes a housing 11 to be installed on a circuit board 80. The housing 11 includes a first locking portion 21 and a second locking portion 22. Each of the first and second locking portions 21, 22 includes a resiliently deformable leg portion 27, 28 projecting from a front side to a back side of the circuit board 80 and a locking body 31, 32 protruding from the leg portion 27, 28 in a direction intersecting a projecting direction of the leg portion 27, 28. The locking body 31, 32 has a locking surface 33, 34 lockable to the circuit board 80. The locking surfaces 33, 34 of the first and second locking portions 21, 22 are at different heights in the projecting direction.

A connector comprises a housing having at least a pair of legs extending from a bottom thereof, and at least one conductive terminal arranged in the housing. Each of the legs includes a body connected to the bottom of the housing and extending downward in a height direction of the housing. A conical guide is connected to a lower end of the body of each leg for guiding the leg into a hole formed in a circuit board. A positioning end is connected to a lower end of the conical guide of each leg and includes a positioning surface extending in the height direction for contacting an inner wall of the hole.

A low insertion force contact terminal which has a conductor mating portion, a securing portion and a substrate mating portion. The conductor mating portion is configured to terminate a conductor therein. The securing portion is configured to secure the terminal in a terminal receiving cavity of a housing. The substrate mating portion extends from the securing portion. The substrate mating portion has at least two sections which have curved portions thereon. The at least two sections move independently, which allows the curved portions to exert a normal force on walls of through holes of a substrate to which the contact terminal is mated which is sufficient to provide a stable electrical connection while allowing for a low insertion force.

A cable connector includes an insulator, an electrical connection portion, a cable and a latch, wherein the electrical connection portion is disposed in the insulator, and one end of the cable is electrically connected to the electrical connection portion; a front end of the insulator is provided with a projecting portion extending toward a bottom end of the insulator, the latch is disposed on the projecting portion, and a latch projection is disposed on a surface of the latch; a rear end of the insulator is provided with a first positioning post projecting toward the bottom end of the insulator; and the projecting portion and the first positioning post of the cable connector are respectively cooperated with a docking connector. The cable connector can implement forward and reverse plug of the cable connector; thereby facilitating wiring of the customer on the mainboard.

An electrical connector assembly (1) comprising a connector housing (5), a ceiling holder (3) and a cooling body (4), which ceiling holder (3) is provided between the connector housing (5) and the cooling body (4). The connector housing (5) comprises at least one clip lock mechanism (13, 14) with a resilient locking arm 15 which is provided with a first and a second clip (18, 19). Further the at least one clip lock mechanism (13, 14) comprises at least a first clip arm (21) which is provided with a first abutment protrusion (25) and a second abutment protrusion (26), respectively. The ceiling holder (3) may be manufactured of a number of materials, and depending of the chosen material, the thickness of the ceiling holder may differ. The connector housing (5) is adapted to be able to attach to ceiling holders of two different material thicknesses, in the first event, when the ceiling holder is manufactured of a thicker material thickness, the first and second clips (18, 19) engage with the ceiling holder (3), and in the second event, when the ceiling holder (3) is manufactured of a thicker material, at least one of the first and second abutment protrusions (25, 26) and the second clip (19) engage with the ceiling holder (3).