An electronic unit includes a first case made of metal; a second case made of metal; a frame made of synthetic resin arranged inside an assembly of the first case and the second case; a relay member made of metal that is separate from the frame and includes a first connection portion electrically connected to the first case, a second connection portion electrically connected to the second case, and a coupling portion coupling the first connection portion and the second connection portion; a first screw that passes through the first case and the first connection portion from the outside of the first case and is fixed to the frame; and a second screw that passes through the second case and the second connection portion from the outside of the second case and is fixed to the frame.

An Insulation Displacement Contact Compliant connector system (IDCC) which includes a housing, header pins, and a Printed Circuit Board (PCB). Each header pin has at least a single barb to be retained into the housing. Each pin has a blade for contacting a wire. A compliant feature on the pin retains itself into holes in the PCB. The housing has a negative space similarly shaped to the pin. The housing includes a strain relief which provides a lead-in for a wire. When the system is fully assembled, the pins reside in the housing, and exit through the housing and into and through respective holes in the PCB. A wire can be inserted into the housing once the pins reside in the housing. There are several options for the assembly process including a) a pin-to-housing insertion process; b) a housing assembly-to-PCB process or a connector-to-PCB process; and c) a wired housing assembly-to-PCB assembly process or a wire harness-to-PCB assembly process.

A clamping spring of a conductor connection terminal for connecting an electrical conductor by means of spring-loaded clamping, wherein the clamping spring has a support leg to fix the clamping spring in the conductor connection terminal, a spring bend adjoining the support leg, and a clamping leg adjoining the spring bend, wherein the clamping leg is arranged to clamp the electrical conductor by means of its free end, wherein the clamping leg has at least one corrugation stamped into the material of the clamping leg. A conductor connection terminal with such a clamping spring is also provided.

The present disclosure provides a wire to board connector. The wire to board connector comprises a body, a plurality of sheet-shaped insulating bodies, a plurality of first covers, and a plurality of second covers. The body comprises an accommodating groove. The sheet insulating bodies are arranged in the accommodating groove in parallel along a first direction. Each of the sheet insulating bodies is provided with a plurality of terminal groups and a plurality of cables corresponding to the terminal groups. The plurality of terminal groups is disposed along a second direction. The first direction is perpendicular to the second direction. The plurality of first covers correspond to the plurality of second covers. The corresponding first cover and second cover respectively cover the opposite sides of the corresponding sheet-shaped insulating body in the first direction.

A relay includes a relay main body (10) including a base (20) having a first surface (21), and a relay substrate (30) extending, in a direction intersecting the first surface (21), from a second surface (22) on the opposite side of the base (20) from the first surface (21), the relay substrate (30) being united with the base (20), and a case (50) attached to the relay main body (10) to cover the relay substrate (30), and the case (50) being filled with sealant. The relay main body (10) includes a board connector (23) provided on the first surface (21) of the base (20), an electronic component mounting portion (33) provided on the relay substrate (30), a conducting portion (40) provided on respective surfaces of the base (20) and the relay substrate (30), and an electronic component (34) mounted on the electronic component mounting portion (33).

In a control unit having a press-fit structure, a substrate includes: a connected portion to which the press-fit terminal is connected; and a guide portion extending from the substrate around the connected portion. The press-fit terminal includes: a tip end portion; a contact portion adjacent to the tip end portion; and an enlarged portion. The guide portion includes: an opening portion; a guide hole extending from the opening portion to the substrate; a tapered surface formed on an inner side of the opening portion; and a reduced-hole portion formed continuous to the tapered surface. The tip end portion of the press-fit terminal is configured such that the contact portion is positioned with respect to the connected portion while the enlarged portion is guided by the tapered surface and an inner wall of the reduced-hole portion.

The present disclosure provides a patch electrical connector, which comprises a housing, a conductive clip and a second weld leg. The housing has at least one mounting cavity provided therein. The number of conductive clip matches the number of the mounting cavity, and the conductive clip is adapted to the mounting cavity. The conductive clip comprises a conductive seat provided in the mounting cavity, at least one pair of clamping pieces electrically connected to the conductive seat, and a first weld leg electrically connected to the conductive seat and welded to the PCB board. The second weld leg has one end welded to the PCB board and the other end disposed in the housing. A wire or male connector is insertable into the mounting cavity and clamped to one pair of the clamping pieces to enable electric communication with the PCB.

A stacked I/O connector with surface mountable tails and a printed circuit board (PCB) configured to receive the connector. The connector may avoid terminal deformations or scratches when the connector is mounted to the PCB. The PCB may include solder pads on a single surface or both surfaces. The sold pads may be configured for the tails of the connector to be attached with a surface mount soldering technique. As a result, the connector has high density and high speed, requires, requires a smaller mounting area on a PCB, relaxes the limitations in routing PCB traces, and reduces the electrical performance deterioration caused by PCB trace routing limitations. The connector may have row-oriented terminal subassemblies, holes in the connector housing and other features to facilitate reliable manufacture and operation of the connector.

An exemplary connection joint includes a wire constructed from a first conductive material having a first melting point and a pad constructed from a second conductive material different from the first conductive material and having a second melting point lower than the first melting point. The connection joint further includes a groove within the pad that partially surrounds the wire and a fixative covering the wire and the pad so as to fix the wire in place within the groove. The groove is formed by a displacement of the second conductive material that occurs when the wire is in contact with the pad at a contact area of the pad that is heated to a temperature between the first and second melting points so as to reflow the second conductive material from which the pad is constructed without reflowing the first conductive material from which the wire is constructed.

A terminal block includes a display-use moveable member which has a main body portion that can reciprocate in the direction intersecting a terminal connection surface and a contact moveable portion that extends along a guide surface, has a first end portion in an extension direction that is disposed so as to come into contact with a conductor portion in an electric wire passage portion and move in a first direction away from the terminal connection surface, and has a second end portion in the extension direction that is connected to the main body portion, and moves in an array direction in response to movement of the first end portion in the first direction to move the main body portion in a second direction toward the terminal connection surface.