In examples, a semiconductor package comprises a substrate having multiple conductive layers coupled to bond pads at a surface of the substrate. The package includes a semiconductor die including a device side facing the substrate, the device side having first and second circuitry regions, the first circuitry region having greater sensitivity to at least one of mechanical or thermal stress than the second circuitry region. The package also includes conductive members coupled to the bond pads of the substrate, in direct physical contact with the second circuitry region, and not in direct physical contact with the first circuitry region. The package further comprises a first support member coupled to the device side of the semiconductor die and extending toward the substrate and not touching the substrate or a second support member coupled to the substrate. The package also includes a ring on the substrate and encircling the bond pads and a glob top member covering the semiconductor die and a portion of the substrate circumscribed by the ring. The package also includes a mold compound covering the glob top member and the substrate.

A semiconductor device and method of manufacturing is provided, whereby a support structure is utilized to provide additional support for a conductive element in order to eliminate or reduce the formation of a defective surface such that the conductive element may be formed to have a thinner structure without suffering deleterious structures.

The present disclosure provides a driving chip, a display substrate, a display device and a method for manufacturing a display device. The driving chip according to the present disclosure includes a substrate; and a plurality of connecting bumps and a plurality of supporting bumps disposed on the substrate. The plurality of connecting bumps include at least one set of connecting bumps arranged along a first direction, and the plurality of supporting bumps include the supporting bump that is located between the adjacent connecting bumps arranged along the first direction.

A package structure is provided. The package structure includes a first under bump metallurgy (UBM) layer formed over a first substrate, a first protrusion structure formed over the first UBM layer, wherein the first protrusion structure extends upward away from the first UBM layer. The package structure includes a first electrical connector formed over the first protrusion structure. The first electrical connector is surrounded by the first protrusion structure, and the first protrusion structure has an outer sidewall surface, and the outer sidewall surface of the first protrusion structure is aligned with an outer surface of the first UBM layer.

Semiconductor devices having a through-silicon-via and methods of forming the same are described herein. As an example, a semiconductor device may include a substrate material, a through-silicon-via protrusion extending from the substrate material, a first dielectric material formed on the substrate material, a second dielectric material formed on the first dielectric material, and an interconnect formed on the through-silicon-via protrusion, where the interconnect formed is in an opening in the second dielectric material.

Semiconductor devices having a through-silicon-via and methods of forming the same are described herein. As an example, a semiconductor device may include a substrate material, a through-silicon-via protrusion extending from the substrate material, a first dielectric material formed on the substrate material, a second dielectric material formed on the first dielectric material, and an interconnect formed on the through-silicon-via protrusion, where the interconnect formed is in an opening in the second dielectric material.

A display device includes: a flexible substrate having a display area for displaying an image and a peripheral area outside the display area; a first pad electrode in the peripheral area of the flexible substrate; and a driver connected to the first pad electrode. The driver includes: a circuit board including a driving circuit; a second pad electrode on one side of the circuit board and facing the first pad electrode; a convex structure on one side of the second pad electrode and having an oval cross-section; and a bump electrode on one side of the convex structure and connected to the first pad electrode. The bump electrode includes a column covering the convex structure and a convex portion extending from one side of the column and protruding to the first pad electrode.

A semiconductor package includes a substrate, through-electrodes penetrating the substrate, first bumps spaced apart from each other in a first direction parallel to a top surface of the substrate and electrically connected to the through-electrodes, respectively, and at least one second bump disposed between the first bumps and electrically insulated from the through-electrodes. The first bumps and the at least one second bump constitute one row in the first direction. A level of a bottom surface of the at least one second bump from the top surface of the substrate is a substantially same as levels of bottom surfaces of the first bumps from the top surface of the substrate.

Presented herein are an interconnect structure and method for forming the same. The interconnect structure includes a contact pad disposed over a substrate and a connector disposed over the substrate and spaced apart from the contact pad. A passivation layer is disposed over the contact pad and over connector, the passivation layer having a contact pad opening, a connector opening, and a mounting pad opening. A post passivation layer including a trace and a mounting pad is disposed over the passivation layer. The trace may be disposed in the contact pad opening and contacting the mounting pad, and further disposed in the connector opening and contacting the connector. The mounting pad may be disposed in the mounting pad opening and contacting the opening. The mounting pad may be separated from the trace by a trace gap, which may optionally be at least 10 m.

A package structure is provided. The package structure includes a dielectric layer formed over a first substrate and a conductive layer formed in the dielectric layer. The package structure includes an under bump metallurgy (UBM) layer formed over the dielectric layer, and the UBM layer is electrically connected to the conductive layer. The package structure also includes a first protrusion structure formed over the UBM layer, and the first protrusion structure extends upward away from the UBM layer. The package structure further includes a second protrusion structure formed over the UBM layer, and the second protrusion structure extends upward away from the UBM layer. The package structure includes a first conductive connector formed over the first protrusion structure; and a second conductive connector formed over the second protrusion structure. An air gap is formed between the first protrusion structure and the second protrusion structure.