摘要:
A semiconductor device and a fabrication method thereof are provided. A semiconductor substrate having a plurality of bonding pads is prepared, and a first passivation layer, a second passivation layer and a metallic layer are successively formed on the semiconductor substrate. A third passivation layer is further applied on the semiconductor substrate and has a plurality of openings for exposing a portion of the metallic layer, wherein each of the openings is shifted in position from a corresponding one of the bonding pads by a distance not exceeding a radius of the bonding pad. A plurality of solder bumps are bonded to the exposed portion of the metallic layer and have a larger contact area with the third passivation layer. This provides better buffer to reduce stress exerted on the solder bumps, thereby preventing problems of cracking and delamination as in the prior art.
摘要:
A semiconductor element with conductive bumps and a fabrication method thereof are provided. The fabrication method includes providing a semiconductor element having a plurality of bond pads formed on an active surface thereof, wherein each of the bond pads has a predetermined bonding area; applying a passivation layer on the active surface, with a plurality of openings formed for exposing the predetermined bonding areas; applying a buffer layer on the passivation layer to cover the predetermined bonding areas; allowing the buffer layer with a plurality of openings to be formed for exposing a portion of the predetermined bonding areas; forming a under bump metallurgy (UBM) layer on the bond pads, allowing the predetermined bonding areas to be completely covered by the UBM layer; and implanting conductive bumps on the UBM layer. The buffer layer advantageously absorbs stresses exerted to the conductive bumps, thereby preventing the conducting bumps from cracking.
摘要:
A semiconductor device and a fabrication method thereof are provided. A semiconductor substrate having a plurality of bonding pads is prepared, and a first passivation layer, a second passivation layer and a metallic layer are successively formed on the semiconductor substrate. A third passivation layer is further applied on the semiconductor substrate and has a plurality of openings for exposing a portion of the metallic layer, wherein each of the openings is shifted in position from a corresponding one of the bonding pads by a distance not exceeding a radius of the bonding pad. A plurality of solder bumps are bonded to the exposed portion of the metallic layer and have a larger contact area with the third passivation layer. This provides better buffer to reduce stress exerted on the solder bumps, thereby preventing problems of cracking and delamination as in the prior art.
摘要:
A semiconductor device and a fabrication method thereof are provided. A semiconductor substrate having a plurality of bonding pads is prepared, and a first passivation layer, a second passivation layer and a metallic layer are successively formed on the semiconductor substrate. A third passivation layer is further applied on the semiconductor substrate and has a plurality of openings for exposing a portion of the metallic layer, wherein each of the openings is shifted in position from a corresponding one of the bonding pads by a distance not exceeding a radius of the bonding pad. A plurality of solder bumps are bonded to the exposed portion of the metallic layer and have a larger contact area with the third passivation layer. This provides better buffer to reduce stress exerted on the solder bumps, thereby preventing problems of cracking and delamination as in the prior art.
摘要:
A semiconductor device and a fabrication method thereof are provided. A first passivation layer and a second passivation layer are applied on a semiconductor substrate having at least one bond pad, with the bond pad being exposed. A first metallic layer is formed on the second passivation layer and electrically connected to the bond pad. A third passivation layer is applied on the first metallic layer and exposes a portion of the first metallic layer. A second metallic layer is formed on the third passivation layer and electrically connected to the exposed portion of the first metallic layer. A fourth passivation layer is applied on the second metallic layer and has an opening corresponding in position to the bond pad, allowing a portion of the second metallic layer to be exposed via the opening, such that a solder bump is formed on the exposed portion of the second metallic layer.
摘要:
A semiconductor device and a fabrication method thereof ate provided. A semiconductor substrate having a plurality of bonding pads is prepared, and a first passivation layer, a second passivation layer and a metallic layer are successively formed on the semiconductor substrate. A third passivation layer is further applied on the semiconductor substrate and has a plurality of openings for exposing a portion of the metallic layer, wherein each of the openings is shifted in position from a corresponding one of the bonding pads by a distance not exceeding a radius of the bonding pad. A plurality of solder bumps are bonded to the exposed portion of the metallic layer and have a larger contact area with the third passivation layer. This provides better buffer to reduce stress exerted on the solder bumps, thereby preventing problems of cracking and delamination as in the prior art.
摘要:
Proposed is a package structure having a micro-electromechanical (MEMS) element, including a chip having a plurality of electrical connecting pads and a MEMS element formed thereon; a lid disposed on the chip for covering the MEMS element; a stud bump disposed on each of the electrical connecting pads; an encapsulant formed on the chip with part of the stud bumps being exposed from the encapsulant; and a metal conductive layer formed on the encapsulant and connected to the stud bumps. The invention is characterized by completing the packaging process on the wafer directly to enable thinner and cheaper package structures to be fabricated within less time. This invention further provides a method for fabricating the package structure as described above.
摘要:
A semiconductor device having conductive bumps and a fabrication method thereof are provided. The fabrication method mainly including steps of: providing a semiconductor substrate having a solder pad and a passivation layer formed thereon with a portion of the solder pads exposed from the passivation layer; disposing a first metal layer on the solder pad and a portion of the passivation layer around the solder pad; disposing a covering layer on the first metal layer and the passivation layer, and forming an aperture in the covering layer to expose a portion of the first metal layer, wherein a center of the aperture is deviated from that of the solder pad; deposing a metal pillar on the portion of the first metal layer; and deposing a solder material on an outer surface of the metal pillar for providing a better buffering effect.
摘要:
A semiconductor package structure includes: a dielectric layer; a metal layer disposed on the dielectric layer and having a die pad and traces, the traces each including a trace body, a bond pad extending to the periphery of the die pad, and an opposite trace end; metal pillars penetrating the dielectric layer with one ends thereof connecting to the die pad and the trace ends while the other ends thereof protruding from the dielectric layer; a semiconductor chip mounted on the die pad and electrically connected to the bond pads through bonding wires; and an encapsulant covering the semiconductor chip, the bonding wires, the metal layer, and the dielectric layer. The invention is characterized by disposing traces with bond pads close to the die pad to shorten bonding wires and forming metal pillars protruding from the dielectric layer to avoid solder bridging encountered in prior techniques.
摘要:
A fabrication method of under bump metallurgy (UBM) structure is provided. A blocking layer is applied over a surface of a semiconductor element formed with at least one bond pad and a passivation layer thereon. The passivation layer covers the semiconductor element and exposes the bond pad, and the blocking layer covers the bond pad and the passivation layer. The blocking layer is formed with at least one opening at a position corresponding to the bond pad. Metallic layers are formed on a surface of the blocking layer and at the opening. The metallic layers are patterned to form a UBM structure at the opening corresponding to the bond pad. Then the blocking layer is removed. The blocking layer can separate the metallic layers for forming the UBM structure from the passivation layer to prevent metallic residues of the UBM structure from being left on the passivation layer.