A semiconductor module, including a plurality of semiconductor elements, each of which has a main electrode and a control electrode, an enclosure that encloses the plurality of semiconductor elements, a plurality of first connection terminals, each of which is electrically connected to the control electrode of one of the semiconductor elements and extends from the enclosure, and a plurality of second connection terminals, each of which is electrically connected to the main electrode of one of the semiconductor elements and extends from the enclosure. Each of the second connection terminals includes a press-fit part formed in substantially a plate shape having two plate surfaces. For a portion of the press-fit part, the two plate surfaces thereof are separated from each other in a thickness direction of the press-fit part, at least one of the plate surfaces thereof having elasticity, to thereby form an elastic part of the press-fit part.

The invention relates to a press-in pin (10) for an electrical contacting assembly (1), having an elastic press-in region (12) and an electrically conductive coating (14). The invention further relates to a corresponding contacting assembly (1), and to a method for joining a press-in pin (10) and a metallized via (7). The coating (14) comprises a reactive multi-layer applied to the press-in pin (10) and a first contact layer applied to the reactive multi-layer.

A base of an electrical connector includes a fixing pin and a base body. The fixing pin includes a pin body, a stopping element and one or more latches. The pin body includes a lower end and an upper end, the stopping element is disposed at the upper end, and the latch is disposed on the pin body in a protruding manner. One or more installation troughs are formed on a rear surface of the base body and the installation trough is in communication with a front surface of the base body through an insertion hole. The base body further includes a pin hole formed on an outer peripheral surface of the base body, and the pin hole is intersected with and in communication with the installation trough. The latch is adapted to be engaged with a stopper block formed on an inner wall of the pin hole.

An electrical terminal includes a terminal body and a mounting portion. The terminal body has a front edge, a rear edge, and two opposite lateral edges. At least part of the terminal body is bent, and the two lateral edges are butt jointed to form a buttjoint portion. The buttjoint portion has a joint seam between the two lateral edges which are butt jointed, and the buttjoint portion further includes a stamped groove spanning the joint seam. The mounting portion extends from the terminal body. An electrical connector is also provided, which includes a base and the electrical terminal.

Implementations of semiconductor packages may include: one or more die electrically coupled to a lead frame. The lead frame may be included within a housing. The semiconductor package may also include a set of signal leads extending from the housing, a set of power leads extending from the housing, and a plurality of press fit pins each fixedly coupled to the set of signal leads and the set of power leads. The set of signal leads and the set of power leads may be configured to couple with a substrate.

The present disclosure describes a non-welded leaf spring battery cell connector which allows for unrestricted outgassing during Lithium-Ion thermal runaway. The connector also has a low-resistance electrical connection surface for applications with rough, uneven contact surfaces such as those on refurbished Lithium-Ion battery cells. The connector is compatible with both protected and unprotected Lithium-Ion cells, as it allows for up to about 5 mm of vertical travel to support varying battery cell lengths caused by battery protection circuits. The leaf spring connector for Lithium-Ion battery cells is made of a conductive sheet of metal, cut and folded into a leaf-spring connector for a removable, non-welded battery cell. The leaf spring connector has one or more areas of material removed, as to not block the flow of caustic gasses during emergency outgassing.

An electronic assembly contains a circuit board having a current-conducting current path with two mutually spaced-apart current path ends that form an interruption point and a contact clip bridging the interruption point. The contact clip is manufactured without a preload, as a thermal fuse. The contact clip has a multiple bent, open clip loop and a contact limb making contact with both mutually spaced-apart current path ends using solder. The contact clip further has a fixing limb with a limb end seated in a circuit board opening. The limb end of the fixing limb is oversized relative to a circuit board opening, and a deformation being imparted to the contact clip, with an internal preload being generated.

Encapsulated electronic modules having complex contact structures may be formed by encapsulating panels containing a substrate comprising pluralities of electronic modules delineated by cut lines and having conductive interconnects buried within terminal holes and other holes drilled in the panel within the boundaries of the cut lines. Slots may be cut in the panel along the cut lines. The interior of the holes, as well as surfaces within the slots and on the surfaces of the panel may be metallized, e.g. by a series of processes including plating. Terminals may be inserted into the terminal holes and connected to conductive features or plating within the holes. A conductive element may be provided on the substrate to connect to a terminal. Alternatively solder may be dispensed into the holes for surface mounting.

A compliant pin system includes a pin having a compliant section including a first leg and an opposing second leg. A first plurality of contact members extend along the first leg. A second plurality of contact members extend along the second leg. A pin validation system is operatively connected to the first plurality of contact members and the second plurality of contact members. The pin validation system detects a presence of an electrical signal passing between corresponding pairs of the first plurality of contact members and the second plurality of contact members to determine an integrity of the compliant pin.

An interposer comprises a metal-plated via that spans the depth of a printed circuit board. The interposer also comprises a metal plug inserted into a first end of the metal-plated via. The metal plug is attached to the metal-plated via. The metal plug may take the form of a solid plug or a sintered via plug. The interposer also comprises a solder ball soldered to the metal plug.