The present disclosure provides a semiconductor packaging method and a semiconductor package device. The semiconductor packaging method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface, where the front surface includes a photosensitive region; soldering pads disposed at the front surface of the chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate, where a first end of the metal part is exposed by protruding over a surface of the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part, such that the chip is electrically connected to the circuit board.

The present disclosure provides a semiconductor packaging method and a semiconductor package device. The semiconductor packaging method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface, where the front surface includes a photosensitive region; soldering pads disposed at the front surface of the chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate, where a first end of the metal part is exposed by protruding over a surface of the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part, such that the chip is electrically connected to the circuit board.

Disclosed is a method for transient liquid-phase bonding between metal materials using a magnetic force. In particular, in the method, a magnetic force is applied to a transient liquid-phase bonding process, thereby shortening a transient liquid-phase bonding time between the metal materials, and obtaining high bonding strength. To this end, an attractive magnetic force is applied to a ferromagnetic base while a repulsive magnetic force is applied to a diamagnetic base, thereby to accelerate diffusion. This may reduce a bonding time during a transient liquid-phase bonding process between two bases and suppress formation of Kirkendall voids and voids and suppress a layered structure of an intermetallic compound, thereby to increase a bonding strength.

Disclosed is a method for transient liquid-phase bonding between metal materials using a magnetic force. In particular, in the method, a magnetic force is applied to a transient liquid-phase bonding process, thereby shortening a transient liquid-phase bonding time between the metal materials, and obtaining high bonding strength. To this end, an attractive magnetic force is applied to a ferromagnetic base while a repulsive magnetic force is applied to a diamagnetic base, thereby to accelerate diffusion. This may reduce a bonding time during a transient liquid-phase bonding process between two bases and suppress formation of Kirkendall voids and voids and suppress a layered structure of an intermetallic compound, thereby to increase a bonding strength.

A semiconductor package and a method of manufacturing the same are provided. The semiconductor package includes a semiconductor die, a cap layer, a conductive terminal, and a dam structure. The semiconductor die has a first surface. The cap layer is over the semiconductor die and has a second surface facing the first surface of the semiconductor die. The conductive terminal penetrates the cap layer and electrically connects to the semiconductor die. The dam structure is between the semiconductor die and the cap layer and surrounds a portion of the conductive terminal between the first surface and the second surface, thereby forming a gap between the cap layer and the semiconductor die.

A semiconductor package and a method of manufacturing the same are provided. The semiconductor package includes a semiconductor die, a cap layer, a conductive terminal, and a dam structure. The semiconductor die has a first surface. The cap layer is over the semiconductor die and has a second surface facing the first surface of the semiconductor die. The conductive terminal penetrates the cap layer and electrically connects to the semiconductor die. The dam structure is between the semiconductor die and the cap layer and surrounds a portion of the conductive terminal between the first surface and the second surface, thereby forming a gap between the cap layer and the semiconductor die.

Connection pads are formed in interlayer films provided respectively in interconnection layers of a sensor substrate on which a sensor surface having pixels is formed and a signal processing substrate configured to perform signal processing on the sensor substrate to make an electrical connection between the sensor substrate and the signal processing substrate. Then, a metal oxide film is formed between the interlayer films of the sensor substrate and the signal processing substrate, between the connection pad formed on a side toward the sensor substrate and the interlayer film on a side toward the signal processing substrate, and between the connection pad formed on the side toward the signal processing substrate and the interlayer film on the side toward the sensor substrate. The present technology can be applied to a laminated-type CMOS image sensor, for example.

Connection pads are formed in interlayer films provided respectively in interconnection layers of a sensor substrate on which a sensor surface having pixels is formed and a signal processing substrate configured to perform signal processing on the sensor substrate to make an electrical connection between the sensor substrate and the signal processing substrate. Then, a metal oxide film is formed between the interlayer films of the sensor substrate and the signal processing substrate, between the connection pad formed on a side toward the sensor substrate and the interlayer film on a side toward the signal processing substrate, and between the connection pad formed on the side toward the signal processing substrate and the interlayer film on the side toward the sensor substrate. The present technology can be applied to a laminated-type CMOS image sensor, for example.

Connection pads are formed in interlayer films provided respectively in interconnection layers of a sensor substrate on which a sensor surface having pixels is formed and a signal processing substrate configured to perform signal processing on the sensor substrate to make an electrical connection between the sensor substrate and the signal processing substrate. Then, a metal oxide film is formed between the interlayer films of the sensor substrate and the signal processing substrate, between the connection pad formed on a side toward the sensor substrate and the interlayer film on a side toward the signal processing substrate, and between the connection pad formed on the side toward the signal processing substrate and the interlayer film on the side toward the sensor substrate. The present technology can be applied to a laminated-type CMOS image sensor, for example.

The present disclosure provides a semiconductor packaging method and a semiconductor package device. The method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface; soldering pads disposed at the front surface of a chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate. A first end of the metal part away from a corresponding soldering pad is in coplanar with the transparent protective layer; and the first end of the metal part is not covered by the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part to electrically connect the chip with the circuit board.