An insulated socket body and terminal assembly for an integrated chip includes upper and lower insulated socket body portions which are received together in mated relation to define a socket body having a plurality of lumens extending therethrough. The assembly further includes a like plurality of monolithic spring terminals received within the lumens, wherein the spring terminals include upper and lower contact ends connected by a central cantilever spring. The central cantilever springs are received within central recess portions of the lumens and the upper and lower contact ends are received in respective upper and lower guide portions of the lumens and project outwardly from respective upper and lower surfaces of the upper and lower insulated socket body portions. The central recess portions of the lumens are configured to retain the cantilever springs in a first uncompressed configuration and in a second compressed configuration.

A board-to-board connector includes electrical leads to bridge from one board to another board, to interconnect pads on one surface of the boards. The boards can interconnect while one board is vertically offset from the other board with a top mount connector. The connector includes a lead frame having the electrical leads and the connector includes an alignment frame to hold the lead frame. The lead frame includes leads that have contact arms that are vertically offset from each other. The connector includes a conductive case to secure over the alignment frame. The connector includes screw holes to allow screws to secure the connector in place against the boards and ensure electrical connection between the pads on the two boards through the electrical leads of the connector. The alignment frame includes posts to mate with alignment holes in the boards.

A power module comprising at least one module component is provided. The power module has a side surface. The side surface of the power module comprises positioning structures. At least one of the positioning structures has a geometrical form configured for receiving an alignment tool and further configured for vertically moving the power module when sliding the alignment tool along a lateral direction. Moreover, an alignment tool and a method using the alignment tool for positioning and aligning the power module are provided.

Disclosed is a connector for forming a high-current connection between two printed circuit boards that are arranged at right angles to one another. For this purpose, a slit pin contact is provided.

A pin-like printed circuit board connector is at least slightly reversibly deformable and has a pin axis. The printed circuit board connector has at least a first slit which starts at the insertion end and runs through the pin axis towards the printed circuit board connection region and by means of which at least two segments pointing in the insertion direction are formed. In particular, the printed circuit board connector can additionally have a second such slit which intersects the first slit in the pin axis, in particular at right angles, forming even four segments pointing in the insertion direction.

A system for interconnecting electronic boards, which is intended to be incorporated into a computer cabinet, and a computer cabinet including such a system, to be used for interconnecting electronic boards in computer cabinets placed particularly in data centres or computer rooms, where the system has a front wall and a rear wall each having an external face and an internal face, the external face of the front wall including at least one front connection intended to allow the connection of an electronic board, the front connection being linked to one or more front connection cables on the side of the internal face of the front wall, where the front and rear walls are temporarily rigidly connected via the respective internal faces thereof by a fixing means to form a casing inside which the connection cables are placed.

An electronics device is disclosed, including: a first printed circuit board having a plurality of through-holes; a second printed circuit board having a plurality of through-holes; a housing in which the first and second printed circuit boards are disposed, the first printed circuit board disposed above the second printed circuit board in the housing; and a connector attached to the housing and including a plurality of pins comprising first pins and a plurality of second pins, a length of the first pins being greater than a length of the second pins. Each of the first pins extends through one of the through-holes of the first printed circuit board and one of the through-holes of the second printed circuit board and thereby makes an electrical connection with the first and second printed circuit boards, and each of the second pins only extends through one of the through-holes of the second printed circuit board and thereby makes an electrical connection with the second printed circuit board.

A power distribution assembly includes a printed circuit board (PCB) having a power input and electrical components connected to PCB conductive trace. A power bus extends from the PCB and has a conductive core, a dielectric layer on an exterior surface of the conductive core, a conductive trace on the dielectric layer, and a power cut through the dielectric layer to the conductive core. The conductive core is connected to the power input by way of the power cut through and the at least one second conductive trace is connected to the PCB conductive trace.

In the case where as a communication means among two or more control circuit boards corresponding to an on-vehicle environment, a wire harness is mounted, space-saving efficiency and assembly efficiency pose problems. When a board-to-board connector is utilized, arrangement of the control circuit boards cannot freely be performed, due to restriction of predetermined specific dimensions. An electric-power conversion apparatus includes a cooling device having a first surface, a second surface opposite to the first surface, and a hole penetrating the first surface and the second surface, a first control circuit board provided at the first surface side, a second control circuit board provided at the second surface side, and a pin header having a mold portion that partially wraps a connection pin penetrating the hole so as to connect the first control circuit board with the second control circuit board and that is fixed to the cooling device.

A float connector for interconnecting printed circuit boards that has a contact assembly including a contacts and a holder and each of the contacts has opposite first and second contact ends for electrically connecting to the boards. A first guide member is slidably and flexibly coupled to the contact assembly and has openings corresponding to the first contact ends. A second guide member is slidably and flexibly coupled to the contact assembly and has openings corresponding to the second contact ends. A biasing member biases the guide members away from one another to an open position. Axial float of the contact assembly is provided between the first and second guide members to compensate for axial misalignment between the first and second printed circuit boards. Radial float of the contact assembly is provided between the first and second guide members to compensate for radial misalignment between the boards.