An electrical connector adapted to be electrically connected with a mating terminal includes an outer housing, an inner housing, and an elastic terminal. The outer housing includes an outer cylindrical body, and an upper blocking disc and a lower blocking disc radially extending inwardly from opposite ends of the outer cylindrical body, the upper blocking disc has an outer through hole. The inner housing includes an inner cylindrical body and a mounting portion surrounding an outer periphery of the inner cylindrical body. The inner housing is formed with an inner through hole. The mounting portion is movably mounted in a space defined by the outer cylindrical body, the upper blocking disc, and the lower blocking disc. The elastic terminal is mounted within the inner cylindrical body and adapted to be electrically connected with the mating terminal inserted into the inner cylindrical body through the outer through hole and the inner through hole.

Described herein are connector components for selectively connecting to a PCB or other type of secondary device. Such a connector component comprises a body, electrically conductive contact pins, and latching pins. The body includes opposing sides at which are located pinch tabs. The electrically conductive contact pins and the latching pins each includes a portion thereof also extending from the bottom of the body. The pinch tabs are configured to normally bias the latching pins in a first position where the latching pins are angled relative to a central axis of the connector component when the pinch tabs are not being pinched inwards towards one another. Additionally, the pinch tabs are configured to bias the latching pins in a second position where the latching pins are substantially parallel to the central axis of the connector component when the pinch tabs are being pinched inward towards one another.

A wiring board includes a wiring board body and a coaxial connector. The coaxial connector includes coaxial terminals and a housing. The coaxial terminals are arranged in row. Each of the coaxial terminals includes a signal terminal and a ground terminal. The ground terminal includes a tubular main body and first and second contact pieces that respectively extend from the main body and respectively include first and second contact portions in contact with the wiring board body, in a transparent plan view seen through the wiring board along a normal direction of the wiring board body. A part of the first contact piece of a first coaxial terminal overlaps with a part of the second contact piece of a second coaxial terminal adjacent to the first coaxial terminal.

Described herein are connector components for selectively connecting to a PCB or other type of secondary device. Such a connector component comprises a body, electrically conductive contact pins, and latching pins. The body includes opposing sides at which are located pinch tabs. The electrically conductive contact pins and the latching pins each includes a portion thereof also extending from the bottom of the body. The pinch tabs are configured to normally bias the latching pins in a first position where the latching pins are angled relative to a central axis of the connector component when the pinch tabs are not being pinched inwards towards one another. Additionally, the pinch tabs are configured to bias the latching pins in a second position where the latching pins are substantially parallel to the central axis of the connector component when the pinch tabs are being pinched inward towards one another.

A power semiconductor device includes: a power semiconductor element; a control circuit that controls the power semiconductor element; a control substrate having the control circuit mounted thereon; a lid arranged to overlap with at least a portion of the control substrate in a first direction; and at least one external connection terminal having a first portion connected with the control substrate, a second portion to be connected with an external apparatus, and a third portion located between the first portion and the second portion and fixed to the lid, the first portion being constituted as a press-fit portion.

A press-fit insertion method is provided. The press-fit insertion method includes loading press-fit pins into a connector, heating a printed circuit board (PCB) defining plated through holes (PTHs) into which the press-fit pins are insertable and pressing the connector onto the PCB to insert the press-fit pins into the PTHs with the PCB remaining heated.

An electrical connector includes a housing and a plurality of electrical conductors held within the housing. The housing includes a mating shroud protruding forward from a front wall of the housing and defining a port that receives a mating circuit card therein. Each of the electrical conductors includes a mating contact disposed within the mating shroud and a mounting contact that projects beyond a bottom end of the housing to electrically connect to a circuit board. The mounting contacts are located within a termination area of the electrical connector.

An apparatus for grounding a heatsink utilizing an EMC spring press-fit pin includes a printed circuit board, a logic chip, a heatsink, and a grounding member, where the grounding member includes an integrated spring and a first terminal pin at a first end of the grounding member. The logic chip is electrically coupled to the printed circuit board and the heatsink is disposed on a top surface of the logic chip. The first terminal pin at the first end of the grounding member is disposed in a plated-through hole of the printed circuit, where the grounding member is configured to electrically couple the heatsink to the printed circuit board.

An interconnection system that is safe, reliable and compact. Mating connectors include complementary projections. Terminals in each connector have opposed beams, with portions of the beams of each terminal embedded in adjacent projections. In mating connectors, the terminals are oriented 90 degrees with respect to each other, such that the terminals of one connector fit between beams of the other. Two beams of each terminal press on opposing sides of a mating terminal, creating four points of contact, for reliable operation. The projections extend beyond the distal tips of the terminals and preclude accidental contact between the terminals and a human finger. Contact force may be controlled by altering the shape of openings cut in the terminals near the base of the beams, enabling the terminals to be formed simply by stamping a sheet of metal and further enabling the beams to be short to provide a compact connector.

A housing for a pluggable module may include a first seating protrusion, a second seating protrusion, and a locking protrusion. The first seating protrusion may have a first seating surface facing a first direction. The second seating protrusion may have a second seating surface facing a second direction opposite the first direction. The second seating surface may be positioned parallel to the first seating surface. The second seating protrusion may be offset relative to the first seating surface in a direction parallel and a direction perpendicular to the first seating surface. The locking protrusion may have a locking surface facing the first direction. The locking surface may be positioned parallel to the first seating surface. The locking surface may be offset relative to the first seating surface in the direction perpendicular to the first seating surface.