A multi-step conductive interconnect (MSI) may comprise a first step of the MSI comprising a first end and a second end opposite the first end, a first height (Ha) and a first diameter (Da). A second step of the MSI may comprise a first end and a second end opposite the first end. The first end of the second step contacts the second end of the first step. The second step may comprise a second height (Hb) and a second diameter (Db). The MSI may comprise a height (H) and a height to width aspect ratio (H:Da) greater than or equal to 1.5:1. A sidewall of the first step may comprise an offset (O) with respect to a sidewall of the second step to form a disjointed sidewall profile. The offset O may be in a range of 0.1 μm-20 μm.

A packaged electronic device includes a stacked configuration of a first semiconductor die in a first recess in a first side of a first conductive plate, a second semiconductor die in a second recess in a first side of a second conductive plate, a third conductive plate electrically coupled to a second side of the second semiconductor die, and a package structure that encloses the first semiconductor die, and the second semiconductor die, where the package structure includes a side that exposes a portion of a second side of the first conductive plate.

A packaged electronic device includes a stacked configuration of a first semiconductor die in a first recess in a first side of a first conductive plate, a second semiconductor die in a second recess in a first side of a second conductive plate, a third conductive plate electrically coupled to a second side of the second semiconductor die, and a package structure that encloses the first semiconductor die, and the second semiconductor die, where the package structure includes a side that exposes a portion of a second side of the first conductive plate.

The present invention provides a die bonding material containing the following component (A) and a solvent and having a refractive index (nD) at 25° C. of 1.41 to 1.43 and a thixotropic index of 2 or more, a light-emitting device including an adhesive member derived from the die bonding material, and a method for producing the light-emitting device. The die bonding material of the present invention is preferably used for fixing a light emitting element at a predetermined position. Component (A): a curable polysilsesquioxane compound having a repeating unit represented by the following formula (a-1) and satisfying predetermined requirements related to .sup.29Si-NMR and mass average molecular weight (Mw)
R.sup.1-D-SiO.sub.3/2  (a-1) [wherein R.sup.1 represents a fluoroalkyl group represented by a compositional formula: C.sub.mH.sub.(2m−n+1)F.sub.n; m represents an integer of 1 to 10, and n represents an integer of 2 to (2m+1); and D represents a linking group (excluding an alkylene group) for connecting R.sup.1 and Si, or a single bond].

A multi-clip structure includes a first clip for die bonding and a second clip for die bonding. The multi-clip structure further includes a retaining tape fixed to the first clip and to the second clip to hold the first clip and the second clip together.

A multi-clip structure includes a first clip for die bonding and a second clip for die bonding. The multi-clip structure further includes a retaining tape fixed to the first clip and to the second clip to hold the first clip and the second clip together.

A packaged electronic device includes a stacked configuration of a first semiconductor die in a first recess in a first side of a first conductive plate, a second semiconductor die in a second recess in a first side of a second conductive plate, a third conductive plate electrically coupled to a second side of the second semiconductor die, and a package structure that encloses the first semiconductor die, and the second semiconductor die, where the package structure includes a side that exposes a portion of a second side of the first conductive plate.

A packaged electronic device includes a stacked configuration of a first semiconductor die in a first recess in a first side of a first conductive plate, a second semiconductor die in a second recess in a first side of a second conductive plate, a third conductive plate electrically coupled to a second side of the second semiconductor die, and a package structure that encloses the first semiconductor die, and the second semiconductor die, where the package structure includes a side that exposes a portion of a second side of the first conductive plate.

A multi-step conductive interconnect (MSI) may comprise a first step of the MSI comprising a first end and a second end opposite the first end, a first height (Ha) and a first diameter (Da). A second step of the MSI may comprise a first end and a second end opposite the first end. The first end of the second step contacts the second end of the first step. The second step may comprise a second height (Hb) and a second diameter (Db). The MSI may comprise a height (H) and a height to width aspect ratio (H:Da) greater than or equal to 1.5:1. A sidewall of the first step may comprise an offset (O) with respect to a sidewall of the second step to form a disjointed sidewall profile. The offset O may be in a range of 0.1 μm-20 μm.

A packaged electronic device includes a stacked configuration of a first semiconductor die in a first recess in a first side of a first conductive plate, a second semiconductor die in a second recess in a first side of a second conductive plate, a third conductive plate electrically coupled to a second side of the second semiconductor die, and a package structure that encloses the first semiconductor die, and the second semiconductor die, where the package structure includes a side that exposes a portion of a second side of the first conductive plate.