A method for use with multiple chips, each respectively having a bonding surface including electrical contacts and a surface on a side opposite the bonding surface involves bringing a hardenable material located on a body into contact with the multiple chips, hardening the hardenable material so as to constrain at least a portion of each of the multiple chips, moving the multiple chips from a first location to a second location, applying a force to the body such that the hardened, hardenable material will uniformly transfer a vertical force, applied to the body, to the chips so as to bring, under pressure, a bonding surface of each individual chip into contact with a bonding surface of an element to which the individual chips will be bonded, at the second location, without causing damage to the individual chips, element, or bonding surface.

A method for use with multiple chips, each respectively having a bonding surface including electrical contacts and a surface on a side opposite the bonding surface involves bringing a hardenable material located on a body into contact with the multiple chips, hardening the hardenable material so as to constrain at least a portion of each of the multiple chips, moving the multiple chips from a first location to a second location, applying a force to the body such that the hardened, hardenable material will uniformly transfer a vertical force, applied to the body, to the chips so as to bring, under pressure, a bonding surface of each individual chip into contact with a bonding surface of an element to which the individual chips will be bonded, at the second location, without causing damage to the individual chips, element, or bonding surface.

A semiconductor device package includes an electronic component, a first substrate, a first bonding wire and a second substrate. The electronic component has a first surface. The first substrate is disposed on the first surface of the electronic component. The first bonding wire electrically connects the first substrate to the electronic component. The second substrate is disposed on the first surface of the electronic component. The second substrate defines an opening accommodating the first substrate and the first bonding wire.

A semiconductor device package includes an electronic component, a first substrate, a first bonding wire and a second substrate. The electronic component has a first surface. The first substrate is disposed on the first surface of the electronic component. The first bonding wire electrically connects the first substrate to the electronic component. The second substrate is disposed on the first surface of the electronic component. The second substrate defines an opening accommodating the first substrate and the first bonding wire.

The instant disclosure provides an integrated circuit device including a transmission line which includes a first ground line and a signal line. The first ground line includes a first pad, a second pad and a first bonding wire that is a bond wire structure connecting the first pad and the second pad. The first signal line includes a third pad, a fourth pad and a second bonding wire that is a bond wire structure connecting the third pad and the fourth pad.

The instant disclosure provides an integrated circuit device including a transmission line which includes a first ground line and a signal line. The first ground line includes a first pad, a second pad and a first bonding wire that is a bond wire structure connecting the first pad and the second pad. The first signal line includes a third pad, a fourth pad and a second bonding wire that is a bond wire structure connecting the third pad and the fourth pad.

A system and method for bonding an electrically conductive mechanical interconnector (e.g., a bonding wire, solder, etc.) to an electrical contact (e.g., contact pad, termination on a printed circuit board (PCB), etc.) made from an electrically conductive metal (e.g., aluminum) on an electronic device (e.g., integrated circuit (IC), die, wafer, PCB, etc.) is provided. The electrical contact is chemically coated with a metal (e.g., cobalt) that provides a protective barrier between the mechanical interconnector and the electrical contact. The protective barrier provides a diffusion barrier to inhibit galvanic corrosion (i.e. ion diffusion) between the mechanical interconnector and the electrical contact.

A method for preparing a semiconductor structure includes the steps of providing a substrate; forming a recess over the substrate; disposing a conductive layer over the substrate; and disposing a passivation over the substrate to at least partially cover the conductive layer.

A method for preparing a semiconductor structure includes the steps of providing a substrate; forming a recess over the substrate; disposing a conductive layer over the substrate; and disposing a passivation over the substrate to at least partially cover the conductive layer.

A semiconductor device 10 includes a pair of electrodes 16 and a conductive connection member 21 electrically bonded to the pair of electrodes 16. At least a portion of a perimeter of a bonding surface 24 of at least one of the pair of electrodes 16 and the conductive connection member 21 includes an electromigration reducing area 22.