A semiconductor device has a first semiconductor die with a shielding layer formed over its back surface. The first semiconductor die is mounted to a carrier. A first insulating layer is formed over the shielding layer. A second semiconductor die is mounted over the first semiconductor die separated by the shielding layer and first insulating layer. A second insulating layer is deposited over the first and second semiconductor die. A first interconnect structure is formed over the second semiconductor die and second insulating layer. A second interconnect structure is formed over the first semiconductor die and second insulating layer. The shielding layer is electrically connected to a low-impedance ground point through a bond wire, RDL, or TSV. The second semiconductor die may also have a shielding layer formed on its back surface. The semiconductor die are bonded through the metal-to-metal shielding layers.

A packaged IC chip includes a testing pad, wherein the testing pad is electrically connected to devices in the packaged integrated circuit chip. The packaged IC chip further includes a first passivation layer over a portion of the testing pad, and a second passivation layer covering a surface of the testing pad and a portion of the first passivation layer surrounding the testing region of the testing pad. A distance between edges of the second passivation layer covering the surface of the testing pad to edges of the testing pad is in a range from about 2 mm to about 15 mm.

It is an object to provide a wireless chip which can increase a mechanical strength, and a wireless chip with a high durability. A wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, and a conductive layer connecting the chip and the antenna. Further, a wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, a sensor device, a conductive layer connecting the chip and the antenna, and a conductive layer connecting the chip and the sensor device. Moreover, a wireless chip includes a transistor including a field-effect transistor, an antenna including a dielectric layer sandwiched between conductive layers, a battery, a conductive layer connecting the chip and the antenna, and a conductive layer connecting the chip and the battery.

A thin stacked semiconductor device has a plurality of circuits that are laminated and formed sequentially in a specified pattern to form a multilayer wiring part. At the stage for forming the multilayer wiring part, a filling electrode is formed on the semiconductor substrate such that the surface is covered with an insulating film, a post electrode is formed on specified wiring at the multilayer wiring part, a first insulating layer is formed on one surface of the semiconductor substrate, the surface of the first insulating layer is removed by a specified thickness to expose the post electrode, and the other surface of the semiconductor substrate is ground to expose the filling electrode and to form a through-type electrode. A second insulating layer if formed on one surface of the semiconductor substrate while exposing the forward end of the through-type electrode, and bump electrodes are formed on both electrodes.

Embodiments of mechanisms for forming a package structure are provided. The package structure includes a semiconductor die and a substrate. The package structure includes a pillar bump and an elongated solder bump bonded to the semiconductor die and the substrate. A height of the elongated solder bump is substantially equal to a height of the pillar bump. The elongated solder bump has a first width, at a first horizontal plane passing through an upper end of a sidewall surface of the elongated solder bump, and a second width, at a second horizontal plane passing through a midpoint of the sidewall surface. A ratio of the second width to the first width is in a range from about 0.5 to about 1.1.

Embodiments of mechanisms for forming a package structure are provided. The package structure includes a semiconductor die and a substrate. The package structure includes a pillar bump and an elongated solder bump bonded to the semiconductor die and the substrate. A height of the elongated solder bump is substantially equal to a height of the pillar bump. The elongated solder bump has a first width, at a first horizontal plane passing through an upper end of a sidewall surface of the elongated solder bump, and a second width, at a second horizontal plane passing through a midpoint of the sidewall surface. A ratio of the second width to the first width is in a range from about 0.5 to about 1.1.

This disclosure relates to embodiments that include an apparatus that may comprise an integrated circuit including a plurality of switched-capacitor partitions configured to be coupled to a plurality of pump capacitors. The plurality of switched-capacitor partitions includes a first partition and a second partition. The first partition includes a first switch and a second switch. The second partition includes a third switch and a fourth switch. The first partition and the second partition are disposed substantially symmetric with respect to an axis.

A semiconductor package includes: a package substrate including first and second sides that are opposite to each other, and including an insulating member and a plurality of redistribution layers; a semiconductor chip disposed on the first side and including a plurality of contact pads that are connected to a first redistribution layer of the plurality of redistribution layers; a protective layer disposed on the second side and exposing a portion of a second redistribution layer of the plurality of redistribution layers; a plurality of under bump metallurgy (UBM) pads disposed on the second side and connected to the exposed portion of the second redistribution layer; a dummy pattern formed on the protective layer; an insulating pattern covering the dummy pattern; and a passive element disposed on the insulating pattern and a first set of UBM pads of the plurality of UBM pads.