A fingerprint sensor device and a method of making a fingerprint sensor device. As non-limiting examples, various aspects of this disclosure provide various fingerprint sensor devices, and methods of manufacturing thereof, that comprise a sensing area on a bottom side of a die without top side electrodes that senses fingerprints from the top side, and/or that comprise a sensor die directly electrically connected to conductive elements of a plate through which fingerprints are sensed.

A fingerprint sensor device and a method of making a fingerprint sensor device. As non-limiting examples, various aspects of this disclosure provide various fingerprint sensor devices, and methods of manufacturing thereof, that comprise a sensing area on a bottom side of a die without top side electrodes that senses fingerprints from the top side, and/or that comprise a sensor die directly electrically connected to conductive elements of a plate through which fingerprints are sensed.

A wiring (3) comprising electrical conductors (4, 5, 6, 7) is formed in a dielectric layer (2) on or above a semiconductor substrate (1), an opening is formed in the dielectric layer to uncover a contact pad (8), which is formed by one of the conductors, and a further opening is formed in the dielectric layer to uncover an area of a further conductor (5), separate from the contact pad. The further opening is filled with an electrically conductive material (9), and the dielectric layer is thinned from a side opposite the substrate, so that the electrically conductive material protrudes from the dielectric layer.

A wiring (3) comprising electrical conductors (4, 5, 6, 7) is formed in a dielectric layer (2) on or above a semiconductor substrate (1), an opening is formed in the dielectric layer to uncover a contact pad (8), which is formed by one of the conductors, and a further opening is formed in the dielectric layer to uncover an area of a further conductor (5), separate from the contact pad. The further opening is filled with an electrically conductive material (9), and the dielectric layer is thinned from a side opposite the substrate, so that the electrically conductive material protrudes from the dielectric layer.

Various embodiments of the present disclosure are directed towards a semiconductor device structure including a bump structure overlying a bond pad. The bond pad is disposed over a semiconductor substrate. An etch stop layer overlies the bond pad. A buffer layer is disposed over the bond pad and separates the etch stop layer and the bond pad. The bump structure includes a base portion contacting an upper surface of the bond pad and an upper portion extending through the etch stop layer and the buffer layer. The base portion of the bump structure has a first width or diameter and the upper portion of the bump structure has a second width or diameter. The first width or diameter being greater than the second width or diameter.

Various embodiments of the present disclosure are directed towards a semiconductor device structure including a bump structure overlying a bond pad. The bond pad is disposed over a semiconductor substrate. An etch stop layer overlies the bond pad. A buffer layer is disposed over the bond pad and separates the etch stop layer and the bond pad. The bump structure includes a base portion contacting an upper surface of the bond pad and an upper portion extending through the etch stop layer and the buffer layer. The base portion of the bump structure has a first width or diameter and the upper portion of the bump structure has a second width or diameter. The first width or diameter being greater than the second width or diameter.

Various embodiments of the present disclosure are directed towards a semiconductor structure including a bond bump disposed on an upper surface of an upper conductive structure. The upper conductive structure overlies a substrate. A buffer layer is disposed along the upper surface of the upper conductive structure. The bond bump comprises a sidewall having a straight sidewall segment overlying a curved sidewall segment.

Various embodiments of the present disclosure are directed towards a semiconductor structure including a bond bump disposed on an upper surface of an upper conductive structure. The upper conductive structure overlies a substrate. A buffer layer is disposed along the upper surface of the upper conductive structure. The bond bump comprises a sidewall having a straight sidewall segment overlying a curved sidewall segment.

A package comprising a substrate, a first integrated device coupled to the substrate, a second integrated device coupled to the substrate, an interconnect integrated device coupled to the first integrated device and the second integrated device, and an underfill. The substrate includes a cavity. The interconnect integrated device is located over the cavity of the substrate. The underfill is located (i) between the first integrated device and the substrate, (ii) between the second integrated device and the substrate, (iii) between the interconnect integrated device and the first integrated device, and (iv) between the interconnect integrated device and the second integrated device.

A package comprising a substrate, a first integrated device coupled to the substrate, a second integrated device coupled to the substrate, an interconnect integrated device coupled to the first integrated device and the second integrated device, and an underfill. The substrate includes a cavity. The interconnect integrated device is located over the cavity of the substrate. The underfill is located (i) between the first integrated device and the substrate, (ii) between the second integrated device and the substrate, (iii) between the interconnect integrated device and the first integrated device, and (iv) between the interconnect integrated device and the second integrated device.