A system and method. The system may include an integrated circuit (IC) die. The IC die may have two faces and sides. The system may further include mold material. The mold material may surround at least the sides of the IC die. The IC die may be mechanically interlocked with the mold material.

A system and method. The system may include an integrated circuit (IC) die having two faces and sides. The system may further include mold material surrounding at least the sides of the IC die. The system may further include a redistribution layer and signal pads. The redistribution layer may be positioned between (a) the signal pads and (b) the mold material and the IC die. The redistribution layer may have conductive paths at least connecting the IC die and at least some of the signal pads. A a surface of the mold material may abut the redistribution layer. The surface of the mold material may include at least one recessed area having at least one conductive feature connected to at least one of the conductive paths or the IC die.

A semiconductor device has a semiconductor die with a sensor and a cavity formed into a first surface of the semiconductor die to provide access to the sensor. A protective layer is formed on the first surface of the semiconductor die around the cavity. An encapsulant is deposited around the semiconductor die. The protective layer blocks the encapsulant from entering the cavity. With the cavity clear of encapsulant, liquid or gas has unobstructed entry into cavity during operation of the semiconductor die. The clear entry for the cavity provides reliable sensor detection and measurement. The semiconductor die is disposed over a leadframe. The semiconductor die has a sensor. The protective layer can be a film. The protective layer can have a beveled surface. A surface of the leadframe can be exposed from the encapsulant. A second surface of the semiconductor die can be exposed from the encapsulant.

A package includes a first die, a second die, a semiconductor frame, and a reinforcement structure. The first die has a first surface and a second surface opposite to the first surface. The first die includes grooves on the first surface. The second die and the semiconductor frame are disposed side by side over the first surface of the first die. The semiconductor frame has at least one notch exposing the grooves of the first die. The reinforcement structure is disposed on the second surface of the first die. The reinforcement structure includes a first portion aligned with the grooves.

In a manufacturing method of a semiconductor device including a substrate having a front surface and a rear surface, and a film attached to the rear surface, the film is attached on the rear surface, a rear surface side groove is provided by half-cutting the substrate from the rear surface together with the film, a protective member is attached to the film after the rear surface side groove is provided, and a front surface side groove connected to the rear surface side groove is provided by dicing the substrate from the front surface after the protective member is attached.

A circuit module 2 comprises: a wiring structure 4; at least one electronic component 6a, 6b arranged on the upper surface of the wiring structure 4; an insulating resin layer 8 which is provided on the upper surface of the wiring structure 4 and in which at least one electronic component 6a, 6b is embedded; and a metal layer 10 provided on the upper surface of the insulating resin layer 8. The surface roughness of the portion 51 directly above each electronic component on the upper surface of the insulating resin layer 8 is expressed as R1. The surface roughness of the portion S2 other than the portion directly above all the electronic components on the upper surface of the insulating resin layer 8 is expressed as R2. At least one R1 satisfies the condition: R1>R2.

A first integrated circuit chip is assembled to a second integrated circuit chip with a back-to-back surface relationship. The back surfaces of the integrated circuit chips are attached to each other using one or more of an adhesive, solder or molecular bonding. The back surface of at least one the integrated circuit chips is processed to include at least one of a trench, a cavity or a saw cut.

In an embodiment, a device includes: a die stack over and electrically connected to an interposer, the die stack including a topmost integrated circuit die including: a substrate having a front side and a back side opposite the front side, the front side of the substrate including an active surface; a dummy through substrate via (TSV) extending from the back side of the substrate at least partially into the substrate, the dummy TSV electrically isolated from the active surface; a thermal interface material over the topmost integrated circuit die; and a dummy connector in the thermal interface material, the thermal interface material surrounding the dummy connector, the dummy connector electrically isolated from the active surface of the topmost integrated circuit die.

A semiconductor device is provided that has high electromagnetic wave shielding properties while exhibiting good heat dissipation. The semiconductor device includes a semiconductor package bonded onto a circuit board, an electromagnetic wave absorbing layer covering surfaces of the semiconductor package other than a surface bonded to the circuit board, and an electromagnetic wave reflecting layer covering the electromagnetic wave absorbing layer on a side remote from the semiconductor package, in which the electromagnetic wave absorbing layer is made of resin containing magnetic particles or carbon, and the electromagnetic wave reflecting layer is made of resin containing conductive particles.

A MEMS microphone including a carrier board and a MEMS chip mounted thereon over a sound opening. A filter chip includes a bulk material with an aperture covered and closed by a mesh. The mesh includes a layer of the filter chip with parallel through-going first holes structured in the layer. The filter chip is arranged in or on the carrier board such that the mesh covers the sound opening.