The present invention discloses small-size battery protection packages and provides a process of fabricating small-size battery protection packages. A battery protection package includes a first common-drain metal oxide semiconductor field effect transistor (MOSFET), a second common-drain MOSFET, a power control integrated circuit (IC), a plurality of solder balls, a plurality of conductive bumps, and a packaging layer. The power control IC is vertically stacked on top of the first and second common-drain MOSFETs. At least a majority portion of the power control IC and at least majority portions of the plurality of solder balls are embedded into the packaging layer. The process of fabricating battery protection packages includes steps of fabricating power control ICs; fabricating common-drain MOSFET wafer; integrating the power control ICs with the common-drain MOSFET wafer and connecting pinouts; forming a packaging layer; applying grinding processes; forming a metal layer; and singulating battery protection packages.

According to various embodiments, a method for processing a substrate may include: processing a plurality of device regions in a substrate separated from each other by dicing regions, each device region including at least one electronic component; wherein processing each device region of the plurality of device regions includes: forming a recess into the substrate in the device region, wherein the recess is defined by recess sidewalls of the substrate, wherein the recess sidewalls are arranged in the device region; forming a contact pad in the recess to electrically connect the at least one electronic component, wherein the contact pad has a greater porosity than the recess sidewalls; and singulating the plurality of device regions from each other by dicing the substrate in the dicing region.

There is provided a flexible electronic structure for bonding with an external circuit. The flexible electronic structure comprising: a flexible body having a first surface, the flexible body comprising at least one electronic component; at least one contact element configured to bond with the external circuit, the at least one contact element operatively coupled with the at least one electronic component and provided at the first surface of the flexible body, and arranged to operably interface with the external circuit after bonding, and at least one support element provided at the first surface of the flexible body, each support element arranged to contact a corresponding surface element disposed on a first surface of an external structure comprising the external circuit.

The present invention discloses small-size battery protection packages and provides a process of fabricating small-size battery protection packages. A battery protection package includes a first common-drain metal oxide semiconductor field effect transistor (MOSFET), a second common-drain MOSFET, a power control integrated circuit (IC), a plurality of solder balls, a plurality of conductive bumps, and a packaging layer. The power control IC is vertically stacked on top of the first and second common-drain MOSFETs. At least a majority portion of the power control IC and at least majority portions of the plurality of solder balls are embedded into the packaging layer. The process of fabricating battery protection packages includes steps of fabricating power control ICs; fabricating common-drain MOSFET wafer; integrating the power control ICs with the common-drain MOSFET wafer and connecting pinouts; forming a packaging layer; applying grinding processes; forming a metal layer; and singulating battery protection packages.

In some examples, a semiconductor device comprises a substrate, a trench, and a layer of a dielectric material. The substrate includes a semiconductor material and has opposing first and second surfaces. The trench extends between the first surface and the second surface, the trench having the dielectric material. The layer of the dielectric material is on the second surface of the substrate and is contiguous with the dielectric material in the trench.

The present invention discloses small-size battery protection packages and provides a process of fabricating small-size battery protection packages. A battery protection package includes a first common-drain metal oxide semiconductor field effect transistor (MOSFET), a second common-drain MOSFET, a power control integrated circuit (IC), a plurality of solder balls, a plurality of conductive bumps, and a packaging layer. The power control IC is vertically stacked on top of the first and second common-drain MOSFETs. At least a majority portion of the power control IC and at least majority portions of the plurality of solder balls are embedded into the packaging layer. The process of fabricating battery protection packages includes steps of fabricating power control ICs; fabricating common-drain MOSFET wafer; integrating the power control ICs with the common-drain MOSFET wafer and connecting pinouts; forming a packaging layer; applying grinding processes; forming a metal layer; and singulating battery protection packages.

The present invention discloses small-size battery protection packages and provides a process of fabricating small-size battery protection packages. A battery protection package includes a first common-drain metal oxide semiconductor field effect transistor (MOSFET), a second common-drain MOSFET, a power control integrated circuit (IC), a plurality of solder balls, a plurality of conductive bumps, and a packaging layer. The power control IC is vertically stacked on top of the first and second common-drain MOSFETs. At least a majority portion of the power control IC and at least majority portions of the plurality of solder balls are embedded into the packaging layer. The process of fabricating battery protection packages includes steps of fabricating power control ICs; fabricating common-drain MOSFET wafer; integrating the power control ICs with the common-drain MOSFET wafer and connecting pinouts; forming a packaging layer; applying grinding processes; forming a metal layer; and singulating battery protection packages.

There is provided a flexible electronic structure for bonding with an external circuit, comprising a flexible substrate, having a first surface, configured for bonding with the external circuit, and an opposing second surface, configured for engagement with a bonding tool, comprising at least one electronic component; at least one contact member, operatively coupled with said at least one electronic component and provided at said first surface of said flexible substrate, and adapted to operably interface with the external circuit after bonding, and at least one shield member, provided at said first surface so as to shieldingly overlap at least a portion of said at least one electronic component, adapted to withstand a predetermined pressure applied to said first surface and/or said opposing second surface during bonding with the external circuit.

A method for fabricating a thin-film integrated circuit, IC, including a plurality of electronic components, the method comprising: forming, using a first fabrication technique, the plurality of electronic components, and forming, using a second fabrication technique, a conductive layer on the plurality of electronic components to form a redistribution layer, RDL, wherein the first fabrication technique includes photolithographic patterning, and the first fabrication technique is different to the second fabrication technique.

A method of producing a semiconductor device includes providing a semiconductor die, providing a metal joining partner, forming a diffusion solderable region by an inkjet metal printing process, forming an assembly to include the diffusion solderable region in between the metal joining partner and the semiconductor die, and performing a diffusion soldering process that forms a soldered joint from the diffusion solderable region in between the semiconductor die and the metal joining partner.