A package structure in accordance with some embodiments may include an RFIC chip, a redistribution circuit structure, a backside redistribution circuit structure, an isolation film, a die attach film, and an insulating encapsulation. The redistribution circuit structure and the backside redistribution circuit structure are disposed at two opposite sides of the RFIC chip and electrically connected to the RFIC chip. The isolation film is disposed between the backside redistribution circuit structure and the RFIC chip. The die attach film is disposed between the RFIC chip and the isolation film. The insulating encapsulation encapsulates the RFIC chip and the isolation film between the redistribution circuit structure and the backside redistribution circuit structure. The isolation film may have a coefficient of thermal expansion lower than the insulating encapsulation and the die attach film.

A compound and method of use thereof consisting of an A-staged thermoplastic-polyimide (TPI) adhesive, a viscous uncured liquid of polyamic-acid polymer (PAA), the TPI precursor, synthesized and dissolved in a polar aprotic organic solvent, and including, as appropriate, combinations of flat particulate inorganic ceramic and/or metallic electrically insulating, and/or electrically conducting, and/or thermally conducting fillers for interface-bonding to create a robust joint between surfaces with conventional lamination processes that utilize relatively moderate temperatures and applied pressures, such particles resulting in the reduction of the occurrence and size of gas voids within the adhesive bondline.

A compound and method of use thereof consisting of an A-staged thermoplastic-polyimide (TPI) adhesive, a viscous uncured liquid of polyamic-acid polymer (PAA), the TPI precursor, synthesized and dissolved in a polar aprotic organic solvent, and including, as appropriate, combinations of flat particulate inorganic ceramic and/or metallic electrically insulating, and/or electrically conducting, and/or thermally conducting fillers for interface-bonding to create a robust joint between surfaces with conventional lamination processes that utilize relatively moderate temperatures and applied pressures, such particles resulting in the reduction of the occurrence and size of gas voids within the adhesive bondline.

A method is provided to supply power to wafer-scale ICs. The method includes receiving a wafer containing ICs placed on the top of the wafer. The wafer has through-silicon vias to provide power from the bottom to the ICs. The method also includes a printed circuit board, which has power rails in a pattern on the top of the printed circuit board, where the rails provide voltage and ground. The method continues with placing metal solder spheres between the bottom of the wafer and the top of the printed circuit board, where the spheres provide connections between the two, and where the spheres are free to move and operate as mechanical springs to resist clamping forces. The method also includes applying clamping pressure to the structure to establish connections by compressing the spheres, where no soldering is required.

A method is provided to supply power to wafer-scale ICs. The method includes receiving a wafer containing ICs placed on the top of the wafer. The wafer has through-silicon vias to provide power from the bottom to the ICs. The method also includes a printed circuit board, which has power rails in a pattern on the top of the printed circuit board, where the rails provide voltage and ground. The method continues with placing metal solder spheres between the bottom of the wafer and the top of the printed circuit board, where the spheres provide connections between the two, and where the spheres are free to move and operate as mechanical springs to resist clamping forces. The method also includes applying clamping pressure to the structure to establish connections by compressing the spheres, where no soldering is required.

A method of manufacturing a semiconductor device includes a step of preparing a semiconductor element including a functional surface on which a bump is formed and an adhesive layer of a film shape including a flux component, a step of positioning the semiconductor element above a board including an electrode, a step of activating a flux component by applying ultrasonic vibration to the semiconductor element, a step of bringing the bump into contact with the electrode by pressing the semiconductor element to the board, and a step of bonding the bump to the electrode by continuing the application of the ultrasonic vibration and the pressing of the semiconductor element.

A semiconductor device comprises a semiconductor die, comprising a stacking structure, a first bonding pad, and a second bonding pad on a top surface of the stacking structure, wherein a shortest distance between the first bonding pad and the second bonding pad is less than 150 m; a carrier comprising a connecting surface; a third bonding pad and a fourth bonding pad on the connecting surface of the carrier; and a conductive connecting layer comprising a current conductive area between the first bonding pad and the third bonding pad and between the second bonding pad and the fourth bonding pad.

Method for packaging a semiconductor die assemblies. In one embodiment, a method is directed to packaging a semiconductor die assembly having a first die and a plurality of second dies arranged in a stack over the first die, wherein the first die has a peripheral region extending laterally outward from the stack of second dies. The method can comprise coupling a thermal transfer structure to the peripheral region of the first die and flowing an underfill material between the second dies. The underfill material is flowed after coupling the thermal transfer structure to the peripheral region of the first die such that the thermal transfer structure limits lateral flow of the underfill material.

An inventive composition and process for formation of a conductive bonding film are disclosed. The invention combines adhesive bonding sheet technologies (e.g. die attach films, or DAFs) with the electrical and thermal conductivity performance of transient liquid phase sintered paste compositions. The invention films are characterized by high bulk thermal and electrical conductivity within the film as well as low and stable thermal and electrical resistance at the interfaces between the inventive film and metallized adherends.

An inventive composition and process for formation of a conductive bonding film are disclosed. The invention combines adhesive bonding sheet technologies (e.g. die attach films, or DAFs) with the electrical and thermal conductivity performance of transient liquid phase sintered paste compositions. The invention films are characterized by high bulk thermal and electrical conductivity within the film as well as low and stable thermal and electrical resistance at the interfaces between the inventive film and metallized adherends.