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.

Methods for bonding substrates used, for example, in substrate-level packaging, are provided herein. In some embodiments, a method for bonding substrates includes: performing electrochemical deposition (ECD) to deposit at least one material on each of a first substrate and a second substrate, performing chemical mechanical polishing (CMP) on the first substrate and the second substrate to form a bonding interface on each of the first substrate and the second substrate, positioning the first substrate on the second substrate so that the bonding interface on the first substrate aligns with the bonding interface on the second substrate, and bonding the first substrate to the second substrate using the bonding interface on the first substrate and the bonding interface on the second substrate.

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.

Methods for bonding substrates used, for example, in substrate-level packaging, are provided herein. In some embodiments, a method for bonding substrates includes: performing electrochemical deposition (ECD) to deposit at least one material on each of a first substrate and a second substrate, performing chemical mechanical polishing (CMP) on the first substrate and the second substrate to form a bonding interface on each of the first substrate and the second substrate, positioning the first substrate on the second substrate so that the bonding interface on the first substrate aligns with the bonding interface on the second substrate, and bonding the first substrate to the second substrate using the bonding interface on the first substrate and the bonding interface on the second substrate.