An exemplary hearing device includes a housing and a chip package disposed within the housing. The chip package may comprise a printed circuit board, an integrated circuit configured to perform an electronic function associated with the hearing device, and a plurality of solder bumps on a bottom surface of the integrated circuit. The plurality of solder bumps may provide conductive connectivity between the integrated circuit and the printed circuit board. The plurality of solder bumps may comprise a first group of solder bumps located within a center region of the bottom surface of the integrated circuit and a second group of solder bumps located within a peripheral region of the bottom surface, the peripheral region surrounding the center region. All signals required for the integrated circuit to perform the electronic function may be provided by way of the first group of solder bumps.

A semiconductor package includes a package base substrate including a potential plate. An interposer is arranged on the package base substrate and comprises at least one interposer through electrode, at least one first connection bump, and at least one second connection bump. A first stacked chip unit is arranged on the interposer and comprises a first semiconductor chip and at least one second semiconductor chips arranged on the first semiconductor chip. At least one passive device unit is arranged on the package base substrate. The at least one passive device unit is spaced apart from the interposer in a horizontal direction parallel to an upper surface of the package base substrate. The at least one first connection bump is a dummy bump. The potential plate electrically connects the at least one first connection bump and a power terminal of the at least one passive device unit to each other.

An electronic device, includes: (i) a processing chiplet configured to process data and having a first side and a second side, (ii) one or more first static random-access memory (SRAM) chiplets disposed on the first side of the processing chiplet and configured to store a first portion of the data, (iii) one or more second SRAM chiplets disposed on the second side of the processing chiplet and configured to store a second portion of the data, (iv) one or more first electrical terminals disposed on the first side of the processing chiplet and configured to electrically connect between the first side of the processing chiplet and the first SRAM chiplets, and (v) one or more second electrical terminals disposed on the second side of the processing chiplet and configured to electrically connect between the second side of the processing chiplet and the second SRAM chiplets.

A packaging device including bumps and a method of manufacturing the packaging device are presented. In the method of manufacturing a packaging device, a dielectric layer that covers a packaging base is formed and a lower layer is formed over a packaging base including first and second connecting pads. A plurality of dummy bumps that overlaps with the dielectric layer is formed. A sealing pattern that covers the dummy bumps, filling areas between the dummy bumps, is formed. A lower layer pattern in which the plurality of dummy bumps have been disposed is formed by removing portions of the lower layer that are exposed and do not overlap with the sealing pattern.

A semiconductor package and a manufacturing method thereof are described. The semiconductor package includes a package having dies encapsulated by an encapsulant, a redistribution circuit structure, first and second modules and affixing blocks. The redistribution circuit structure is disposed on the package. The first and second modules are disposed on and respectively electrically connected to the redistribution circuit structure by first and second connectors disposed there-between. The first and second modules are adjacent to each other and disposed side by side on the redistribution circuit structure. The affixing blocks are disposed on the redistribution circuit structure and between the first and second modules and the redistribution circuit structure. The affixing blocks include first footing portions located below the first module, second footing portions located below the second module, and exposed portions exposed from the first and second modules. The affixing blocks join the first and second modules to the redistribution circuit structure.