A manufacturing method of an electronic apparatus is provided, and the manufacturing method includes following steps. A substrate is provided. A plurality of first bonding pads are formed on the substrate. A plurality of electronic devices are provided, and each of the electronic devices includes at least one second bonding pad. The second bonding pads of the electronic devices corresponding to the first bonding pads are laminated onto the corresponding first bonding pads on the substrate, so as to bond the electronic devices to the substrate. The corresponding first and second bonding pads respectively have bonding surfaces with different surface topographies. The manufacturing method of the electronic apparatus is capable of reducing short circuit during a bonding process or improving a bonding yield.

A manufacturing method of an electronic apparatus is provided, and the manufacturing method includes following steps. A substrate is provided. A plurality of first bonding pads are formed on the substrate. A plurality of electronic devices are provided, and each of the electronic devices includes at least one second bonding pad. The second bonding pads of the electronic devices corresponding to the first bonding pads are laminated onto the corresponding first bonding pads on the substrate, so as to bond the electronic devices to the substrate. The corresponding first and second bonding pads respectively have bonding surfaces with different surface topographies. The manufacturing method of the electronic apparatus is capable of reducing short circuit during a bonding process or improving a bonding yield.

A package substrate film including a film substrate including upper and lower surfaces; a test pattern including an upper test line pattern extending on the upper surface of the film substrate; a lower test line pattern extending on the lower surface of the film substrate; a first test via pattern penetrating the film substrate and connecting the upper test line pattern to the lower test line pattern; a second test via pattern penetrating the film substrate outside the first test via pattern and connecting the upper test line pattern to the lower test line pattern; and a test pad between the first test via pattern and the second test via pattern, the test pad including first test pad at an outer side of the first test via pattern; and second test pad at an inner side of the second test via pattern and facing the first test pad.

A package substrate film including a film substrate including upper and lower surfaces; a test pattern including an upper test line pattern extending on the upper surface of the film substrate; a lower test line pattern extending on the lower surface of the film substrate; a first test via pattern penetrating the film substrate and connecting the upper test line pattern to the lower test line pattern; a second test via pattern penetrating the film substrate outside the first test via pattern and connecting the upper test line pattern to the lower test line pattern; and a test pad between the first test via pattern and the second test via pattern, the test pad including first test pad at an outer side of the first test via pattern; and second test pad at an inner side of the second test via pattern and facing the first test pad.

Solder-pinning metal pads for electronic components and techniques for use thereof to mitigate de-wetting are provided. In one aspect, a structure includes: a substrate; and a solder pad on the substrate, wherein the solder pad has sidewalls extending up from a surface thereof. For instance, the sidewalls can be present at edges of the solder pad, or inset from the edges of the solder pad. The sidewalls can be vertical or extend up from the solder pad at an angle. The sidewalls can be formed from the same material or a different material as the solder pad. A method is also provided that includes forming a solder pad on a substrate, the solder pad comprising sidewalls extending up from a surface thereof.

Solder-pinning metal pads for electronic components and techniques for use thereof to mitigate de-wetting are provided. In one aspect, a structure includes: a substrate; and a solder pad on the substrate, wherein the solder pad has sidewalls extending up from a surface thereof. For instance, the sidewalls can be present at edges of the solder pad, or inset from the edges of the solder pad. The sidewalls can be vertical or extend up from the solder pad at an angle. The sidewalls can be formed from the same material or a different material as the solder pad. A method is also provided that includes forming a solder pad on a substrate, the solder pad comprising sidewalls extending up from a surface thereof.

Solder-pinning metal pads for electronic components and techniques for use thereof to mitigate de-wetting are provided. In one aspect, a structure includes: a substrate; and a solder pad on the substrate, wherein the solder pad has sidewalls extending up from a surface thereof. For instance, the sidewalls can be present at edges of the solder pad, or inset from the edges of the solder pad. The sidewalls can be vertical or extend up from the solder pad at an angle. The sidewalls can be formed from the same material or a different material as the solder pad. A method is also provided that includes forming a solder pad on a substrate, the solder pad comprising sidewalls extending up from a surface thereof.

Solder-pinning metal pads for electronic components and techniques for use thereof to mitigate de-wetting are provided. In one aspect, a structure includes: a substrate; and a solder pad on the substrate, wherein the solder pad has sidewalls extending up from a surface thereof. For instance, the sidewalls can be present at edges of the solder pad, or inset from the edges of the solder pad. The sidewalls can be vertical or extend up from the solder pad at an angle. The sidewalls can be formed from the same material or a different material as the solder pad. A method is also provided that includes forming a solder pad on a substrate, the solder pad comprising sidewalls extending up from a surface thereof.

A semiconductor device assembly including a semiconductor device having a plurality of pillars disposed on a backside surface of the semiconductor device; and a substrate, including: a solder mask layer disposed on a front side surface of the substrate, a plurality of extended bond pads disposed on the frontside surface of the substrate and surrounded by the solder mask layer, the plurality of extended bond pads each having a top surface higher than a top surface of the solder mask layer, and wherein the semiconductor device is directly attached to the substrate by bonding each of the plurality of pillars of the semiconductor device to the top surface of a corresponding one of the plurality of extended bond pads with a solder connection.