A semiconductor package including: a first wiring structure; a semiconductor chip disposed on the first wiring structure; a second wiring structure disposed on the semiconductor chip and including a cavity; and a filling member between the first wiring structure and the second wiring structure and in the cavity, wherein an uppermost end of the filling member and an uppermost end of the second wiring structure are located at the same level.

A semiconductor package including: a first wiring structure; a semiconductor chip disposed on the first wiring structure; a second wiring structure disposed on the semiconductor chip and including a cavity; and a filling member between the first wiring structure and the second wiring structure and in the cavity, wherein an uppermost end of the filling member and an uppermost end of the second wiring structure are located at the same level.

A semiconductor package includes a first semiconductor die, a second semiconductor die and a plurality of bumps. The first semiconductor die has a front side and a backside opposite to each other. The second semiconductor die is disposed at the backside of the first semiconductor die and electrically connected to first semiconductor die. The plurality of bumps is disposed at the front side of the first semiconductor die and physically connects first die pads of the first semiconductor die. A total width of the first semiconductor die may be less than a total width of the second semiconductor die.

A semiconductor package includes a first semiconductor die, a second semiconductor die and a plurality of bumps. The first semiconductor die has a front side and a backside opposite to each other. The second semiconductor die is disposed at the backside of the first semiconductor die and electrically connected to first semiconductor die. The plurality of bumps is disposed at the front side of the first semiconductor die and physically connects first die pads of the first semiconductor die. A total width of the first semiconductor die may be less than a total width of the second semiconductor die.

A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.

A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.

The present application provides a method for fabricating a semiconductor device. The method includes providing a carrier substrate, forming through semiconductor vias in the carrier substrate for thermally conducting heat, forming a bonding layer on the carrier substrate, providing a first die structure including through semiconductor vias, forming an intervening bonding layer on the first die structure, bonding the first die structure onto the bonding layer through the intervening bonding layer, and bonding a second die structure onto the first die structure. The carrier substrate, the through semiconductor vias, and the bonding layer together configure a carrier structure. The second die structure and the first die structure are electrically coupled by the through semiconductor vias.

The present application provides a method for fabricating a semiconductor device. The method includes providing a carrier substrate, forming through semiconductor vias in the carrier substrate for thermally conducting heat, forming a bonding layer on the carrier substrate, providing a first die structure including through semiconductor vias, forming an intervening bonding layer on the first die structure, bonding the first die structure onto the bonding layer through the intervening bonding layer, and bonding a second die structure onto the first die structure. The carrier substrate, the through semiconductor vias, and the bonding layer together configure a carrier structure. The second die structure and the first die structure are electrically coupled by the through semiconductor vias.

A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.

A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.