A method for attaching a semiconductor die to a substrate includes providing a substrate that includes an attachment layer at a surface of the substrate. The attachment layer is covered by a protective flash plating layer. The protective flash plating layer has a reflow temperature less than or equal to a reflow temperature of the attachment layer. The method further includes preheating the substrate to a temperature greater than or equal to a reflow temperature of the attachment layer, attaching a semiconductor die to the attachment layer, and cooling the substrate and semiconductor die.

A method for attaching a semiconductor die to a substrate includes providing a substrate that includes an attachment layer at a surface of the substrate. The attachment layer is covered by a protective flash plating layer. The protective flash plating layer has a reflow temperature less than or equal to a reflow temperature of the attachment layer. The method further includes preheating the substrate to a temperature greater than or equal to a reflow temperature of the attachment layer, attaching a semiconductor die to the attachment layer, and cooling the substrate and semiconductor die.

Illustrative embodiments of anisotropic conductive adhesive (ACA) and associated methods are disclosed. In one illustrative embodiment, the ACA may comprise a binder curable using UV light and a plurality of particles suspended in the binder. Each of the plurality of particles may comprise a ferromagnetic material coated with a layer of electrically conductive material. The electrically conducting material may form electrically conductive and isolated parallel paths when the ACA is cured using UV light after being subjected to a magnetic field.

[Problem] To provide a multi-layer sheet for mold underfill encapsulation, which exhibits good infiltrability between electrodes. [Solution] In order to solve the aforementioned problem, the present invention provides a multi-layer sheet for mold underfill encapsulation, which is characterized by having provided as an outermost layer thereof an (A) layer that comprises a resin composition having a local maximum loss tangent (tan δ) value of 3 or more at a measurement temperature of 125° C. for a measurement time of 0-100 seconds.

A semiconductor device includes a conductive frame comprising a die attach surface that is substantially planar, a semiconductor die comprising a first load on a rear surface and a second terminal disposed on a main surface, a first conductive contact structure disposed on the die attach surface, and a second conductive contact structure on the main surface. The first conductive contact structure vertically extends past a plane of the main surface of the semiconductor die. The first conductive contact structure is electrically isolated from the main surface of the semiconductor die by an electrical isolation structure. An upper surface of the electrical isolation structure is below the main surface of the semiconductor die.

A semiconductor device includes a conductive frame comprising a die attach surface that is substantially planar, a semiconductor die comprising a first load on a rear surface and a second terminal disposed on a main surface, a first conductive contact structure disposed on the die attach surface, and a second conductive contact structure on the main surface. The first conductive contact structure vertically extends past a plane of the main surface of the semiconductor die. The first conductive contact structure is electrically isolated from the main surface of the semiconductor die by an electrical isolation structure. An upper surface of the electrical isolation structure is below the main surface of the semiconductor die.

A method for attaching a semiconductor die to a substrate includes providing a substrate that includes an attachment layer at a surface of the substrate. The attachment layer is covered by a protective flash plating layer. The protective flash plating layer has a reflow temperature less than or equal to a reflow temperature of the attachment layer. The method further includes preheating the substrate to a temperature greater than or equal to a reflow temperature of the attachment layer, attaching a semiconductor die to the attachment layer, and cooling the substrate and semiconductor die.

[Problem] To provide a multi-layer sheet for mold underfill encapsulation, which exhibits good infiltrability between electrodes. [Solution] In order to solve the aforementioned problem, the present invention provides a multi-layer sheet for mold underfill encapsulation, which is characterized by having provided as an outermost layer thereof an (A) layer that comprises a resin composition having a local maximum loss tangent (tan ) value of 3 or more at a measurement temperature of 125 C. for a measurement time of 0-100 seconds.