A semiconductor package includes a support frame, and including a cavity, a semiconductor chip disposed in the cavity and having an active surface on which contact pads are arranged, and a connection member on the support frame and on the active surface of the semiconductor chip. The semiconductor chip includes a first insulating film disposed on the active surface and exposing the contact pads, a second insulating film disposed on the first insulating film and including a first opening exposing connection regions of the contact pads, and a conductive crack preventing layer disposed on the connection regions and having an outer peripheral region extending to a portion of the second insulating film around the first opening. The connection member includes an insulating layer including a second opening exposing the connection regions; and a redistribution layer connected to the contact pads through the second opening.

A semiconductor device includes a conductive can include a flat portion and at least one peripheral rim portion extending from an edge of the flat portion, a semiconductor die comprising a first main face and a second main face opposite to the first main face, a first contact pad disposed on the first main face and a second contact pad disposed on the second main face, wherein the first contact pad is electrically connected to the flat portion of the can, an electrical interconnector connected with the second contact pad, and an encapsulant disposed under the semiconductor die so as to surround the electrical interconnector, wherein an external surface of the electrical interconnector is recessed from an external surface of the encapsulant.

A semiconductor package includes a support frame, and including a cavity, a semiconductor chip disposed in the cavity and having an active surface on which contact pads are arranged, and a connection member on the support frame and on the active surface of the semiconductor chip. The semiconductor chip includes a first insulating film disposed on the active surface and exposing the contact pads, a second insulating film disposed on the first insulating film and including a first opening exposing connection regions of the contact pads, and a conductive crack preventing layer disposed on the connection regions and having an outer peripheral region extending to a portion of the second insulating film around the first opening. The connection member includes an insulating layer including a second opening exposing the connection regions; and a redistribution layer connected to the contact pads through the second opening.

This disclosure describes an electronic component with a package body which comprises a set of sidewalls and a bottom wall. One or more chip mounting elements extend into the space within the package from the inner surface of at least one sidewall, and at least one electronic chip is attached to the chip mounting elements. The electronic component also comprises one or more stiffening elements which extend inside the space within the package from the inner surface of one of the sidewalls to the outer surface of the bottom wall. These stiffening elements are separated from the one or more chip mounting elements inside the enclosed inner space.

A semiconductor package includes a frame having a through-opening, a first semiconductor chip disposed in the through-opening and having a first active surface on which a first connection pad is disposed and a first inactive surface opposing the first active surface, a second semiconductor chip disposed on the first semiconductor chip and having a second active surface on which a second connection pad is disposed and a second inactive surface opposing the second active surface, first and second bumps electrically connected to the first and second connection pads, respectively, first and second dummy bumps disposed on a same level as levels of the first and second bumps, respectively, first and second posts electrically connected to the first and second bumps, respectively, a connection member including a redistribution layer electrically connected to each of the first and second posts, and a dummy post disposed between the frame and the connection member.

A method of manufacturing a package includes mounting an electronic component on an electrically conductive carrier, encapsulating part of the carrier and the electronic component by an encapsulant, covering an exposed surface portion of the carrier with an electrically insulating and thermally conductive interface structure, and covering at least part of the interface structure by a protection cap.

A semiconductor device according to an embodiment includes: an insulating substrate having a first metal layer and a second metal layer on a surface of the insulating substrate; a semiconductor chip including an upper electrode and a lower electrode, the upper electrode being electrically connected to the first metal layer, the lower electrode being electrically connected to the second metal layer; a first main terminal including a first end and a second end, the first end being electrically connected to the first metal layer; a second main terminal including a third end and a fourth end, the third end being electrically connected to the second metal layer; a first detection terminal being electrically connected between the first end and the second end of the first main terminal; and a second detection terminal being electrically connected to the first metal layer.

The present invention relates to a three-dimensional integrated package device for a high-voltage silicon carbide power module, comprising a source substrate, first chip submodules, a first driving terminal, a first driving substrate, a ceramic housing, a metal substrate, a water inlet, a water outlet, second chip submodules, a second driving terminal, a second driving substrate and a drain substrate from top to bottom; and each first chip submodule is composed of a driving connection substrate, a power source metal block, a first driving gate metal post, second driving gate metal posts, a silicon carbide bare chip, an insulation structure and the like. A three-dimensional integrated half-bridge structure is adopted to greatly reduce corresponding parasitic parameters.

A circuit structure includes a plurality of semiconductor elements arranged side by side, and each semiconductor element includes source terminals and at least one gate terminal arranged side by side with the source terminals. The circuit structure includes: a first bus bar connected to the source terminals of the semiconductor elements; connection portions that connect the source terminals and the first bus bar and are arranged side by side along the arrangement direction of the semiconductor elements and whose one ends are connected to the source terminals of the respective semiconductor elements; an insulating portion provided so as to be present between each adjacent pairs of the connection portions; and conductive portions provided in the insulating portion and connected to the gate terminals.

A semiconductor device according to an embodiment includes: an insulating substrate having a first metal layer and a second metal layer on a surface of the insulating substrate; a semiconductor chip including an upper electrode and a lower electrode, the upper electrode being electrically connected to the first metal layer, the lower electrode being electrically connected to the second metal layer; a first main terminal including a first end and a second end, the first end being electrically connected to the first metal layer; a second main terminal including a third end and a fourth end, the third end being electrically connected to the second metal layer; a first detection terminal being electrically connected between the first end and the second end of the first main terminal; and a second detection terminal being electrically connected to the first metal layer.