A semiconductor package structure includes an electronic device having a first surface and an exposed region adjacent to the first surface; a dam disposed on the first surface and surrounding the exposed region of the electronic device; and a filter structure disposed on the dam.

Described are transducer assemblies and imaging devices comprising: a microelectromechanical systems (MEMS) die including a plurality of piezoelectric elements; a complementary metal-oxide-semiconductor (CMOS) die electrically coupled to the MEMS die by a first plurality of bumps and including at least one circuit for controlling the plurality of piezoelectric elements; and a package secured to the CMOS die by an adhesive layer and electrically connected to the CMOS die.

A transducer assembly includes: a microelectromechanical systems (MEMS) die including a plurality of piezoelectric elements; a complementary metal-oxide-semiconductor (CMOS) die electrically coupled to the MEMS die by a first plurality of bumps and including at least one circuit for controlling the plurality of piezoelectric elements; and a package secured to the CMOS die by an adhesive layer and electrically connected to the CMOS die.

A semiconductor device package includes a redistribution layer structure, a lid, a sensing component and an encapsulant. The lid is disposed on the redistribution layer structure and defines a cavity together with the redistribution layer structure. The sensing component is disposed in the cavity. The encapsulant surrounds the lid.

A semiconductor device package includes a redistribution layer structure, a semiconductor component, an encapsulant and a sensing component. The semiconductor component is disposed on a top surface of the RDL structure. The encapsulant covers the semiconductor component, the RDL structure, and an electrical connection member. The sensing component is disposed on a top surface of the encapsulant. The electrical connection member is in contact with a pad of the semiconductor component and has a first surface exposed from the top surface of the encapsulant, and the semiconductor component package includes a wire connecting the sensing component and the first surface of the electrical connection member.

Various embodiments of the present disclosure are directed towards a method for forming a microelectromechanical systems (MEMS) structure including an epitaxial layer overlying a MEMS substrate. The method includes bonding a MEMS substrate to a carrier substrate. The epitaxial layer is formed over the MEMS substrate, where the epitaxial layer has a higher doping concentration than the MEMS substrate. A plurality of contacts is formed over the epitaxial layer.

Various embodiments of the present disclosure are directed towards a microelectromechanical systems (MEMS) structure including an epitaxial layer overlying a MEMS substrate. The MEMS substrate comprises a moveable element arranged over a carrier substrate. The epitaxial layer has a higher doping concentration than the MEMS substrate. A plurality of contacts overlies the epitaxial layer. A first subset of the plurality of contacts overlies the moveable element. The plurality of contacts respectively has an ohmic contact with the epitaxial layer.

A semiconductor package structure includes a die paddle, a plurality of leads, an electronic component and a package body. Each of the plurality of leads is separated from the die paddle and has an inner side surface facing the die paddle. The electronic component is disposed on the die paddle. The package body covers the die paddle, the plurality of leads and the electronic component. The package body is in direct contact with a bottom surface of the die paddle and the inner side surface of the plurality of leads.

A semiconductor package structure includes an electronic device having an exposed region adjacent to a first surface, a dam surrounding the exposed region of the semiconductor die and disposed on the first surface, the dam having a top surface away from the first surface, an encapsulant encapsulating the first surface of the electronic device, exposing the exposed region of the electronic device. A surface of the dam is retracted from a top surface of the encapsulant. A method for manufacturing the semiconductor package structure is also provided.

A MEMS device package comprising a first die of semiconductor material including a contact pad and a second die of semiconductor material stacked on the first die. The second die is smaller than the first die. The second die includes a contact pad, and a conductive wire is coupled between the contact pad of the first die and a contact pad of the second die. A mold compound is on the second die and the first die. A vertical connection structure is on the contact pad of the second die. The vertical connection structure extends through the mold compound.