A stack package includes a supporting substrate that supports first and second semiconductor dies. The supporting substrate is disposed on a package substrate and is supported by first and second connection bumps. Redistributed line (RDL) patterns are disposed on the supporting substrate to electrically connect the first semiconductor die to the first and second connection bumps. The second semiconductor dies are connected to the package substrate by bonding wires.

In an embodiment, a device includes: an integrated circuit die having a first side and a second side opposite the first side; a die stack on the first side of the integrated circuit die; a dummy semiconductor feature on the first side of the integrated circuit die, the dummy semiconductor feature laterally surrounding the die stack, the dummy semiconductor feature electrically isolated from the die stack and the integrated circuit die; a first adhesive disposed between the die stack and the dummy semiconductor feature; and a plurality of conductive connectors on the second side of the integrated circuit die.

In an embodiment, a device includes: an integrated circuit die having a first side and a second side opposite the first side; a die stack on the first side of the integrated circuit die; a dummy semiconductor feature on the first side of the integrated circuit die, the dummy semiconductor feature laterally surrounding the die stack, the dummy semiconductor feature electrically isolated from the die stack and the integrated circuit die; a first adhesive disposed between the die stack and the dummy semiconductor feature; and a plurality of conductive connectors on the second side of the integrated circuit die.

Semiconductor devices including stacked semiconductor dies and associated systems and methods are disclosed herein. In one embodiment, a semiconductor device includes a first semiconductor die coupled to a package substrate and a second semiconductor die stacked over the first semiconductor die and laterally offset from the first semiconductor die. The second semiconductor die can accordingly include an overhang portion that extends beyond a side of the first semiconductor die and faces the package substrate. In some embodiments, the second semiconductor die includes bond pads at the overhang portion that are electrically coupled to the package substrate via conductive features disposed therebetween. In certain embodiments, the first semiconductor die can include second bond pads electrically coupled to the package substrate via wire bonds.

A flip chip package includes a substrate, a chip body bonding on the substrate and bumps connected between the chip body and the substrate. The substrate includes input wires and output wires. The chip body includes a first package unit including a first seal ring and first pads and a second package unit including a second seal ring and second pads. The chip body extends continuously between the first seal ring and the second seal ring. Each of the input wires has one end overlapping the chip body and the other end positioned at a first bonding region of the substrate. Each of the output wires has one end overlapping the chip body and the other end positioned at a second bonding region of the substrate. The first bonding region and the second bonding region are located at opposite sides of the chip body.

A flip chip package includes a substrate, a chip body bonding on the substrate and bumps connected between the chip body and the substrate. The substrate includes input wires and output wires. The chip body includes a first package unit including a first seal ring and first pads and a second package unit including a second seal ring and second pads. The chip body extends continuously between the first seal ring and the second seal ring. Each of the input wires has one end overlapping the chip body and the other end positioned at a first bonding region of the substrate. Each of the output wires has one end overlapping the chip body and the other end positioned at a second bonding region of the substrate. The first bonding region and the second bonding region are located at opposite sides of the chip body.

An integrated circuit device includes a first temperature sensor, a second temperature sensor, an A/D conversion circuit that performs A/D conversion on first and second temperature detection voltages from the first and second temperature sensors and outputs first and second temperature detection data, a digital signal processing circuit that generates frequency control data by performing a temperature compensation process by a neural network calculation process based on the first and second temperature detection data, and an oscillation signal generation circuit that generates an oscillation signal of a frequency set by the frequency control data using a resonator.

The present invention provides an image capturing module and a portable electronic device. An image capturing module includes a circuit substrate, an image sensing chip, a filter element, and a lens assembly. The circuit substrate has an upper surface, a lower surface, and a through opening. The image sensing chip is placed on the lower surface of the circuit substrate and below the through opening. The filter element is placed on the upper surface of the circuit substrate and above the through opening. The lens assembly includes a holding structure and a lens structure. The lower surface of the circuit substrate includes a first solder area, a second solder area, and a first solderless area. The upper surface of the image sensing chip includes an image sensing area, a first conductive area, a second conductive area, and a first non-conductive area.

In an embodiment, a device includes: an integrated circuit die having a first side and a second side opposite the first side; a die stack on the first side of the integrated circuit die; a dummy semiconductor feature on the first side of the integrated circuit die, the dummy semiconductor feature laterally surrounding the die stack, the dummy semiconductor feature electrically isolated from the die stack and the integrated circuit die; a first adhesive disposed between the die stack and the dummy semiconductor feature; and a plurality of conductive connectors on the second side of the integrated circuit die.

In an embodiment, a device includes: an integrated circuit die having a first side and a second side opposite the first side; a die stack on the first side of the integrated circuit die; a dummy semiconductor feature on the first side of the integrated circuit die, the dummy semiconductor feature laterally surrounding the die stack, the dummy semiconductor feature electrically isolated from the die stack and the integrated circuit die; a first adhesive disposed between the die stack and the dummy semiconductor feature; and a plurality of conductive connectors on the second side of the integrated circuit die.