A heat radiation device includes a semiconductor substrate. A first electrode is disposed on the semiconductor substrate. A second electrode is disposed on the semiconductor substrate and is spaced apart from the first electrode. A first through electrode is disposed in the semiconductor substrate. The first through electrode is electrically connected to the first electrode.

A semiconductor device is disclosed including semiconductor dies stacked with an offset in two orthogonal directions. TSVs may then be formed connecting corresponding die bond pads on respective dies in the stack. By offsetting the dies in two orthogonal directions, the overall stepped offset, and consequently the size of the unused keep-out area of the stack, is reduced.

The semiconductor device has the CSP structure, and may include a plurality of electrode pads formed on a semiconductor integrated circuit in order to input/output signals from/to exterior; solder bumps for making external lead electrodes; and rewiring. The solder bumps may be arranged in two rows along the periphery of the semiconductor device. The electrode pads may be arranged inside the outermost solder bumps so as to be interposed between the two rows of solder bumps. Each trace of the rewiring may be extended from an electrode pad, and may be connected to any one of the outermost solder bumps or any one of the inner solder bumps.

A chip structure including a chip body and a plurality of conductive bumps. The chip body includes an active surface and a plurality of bump pads disposed on the active surface. The conductive bumps are disposed on the active surface of the chip body and connected to the bump pads respectively, and at least one of the conductive bumps has a trapezoid shape having one pair of parallel sides and one pair of non-parallel sides.

The semiconductor device has the CSP structure, and may include a plurality of electrode pads formed on a semiconductor integrated circuit in order to input/output signals from/to exterior; solder bumps for making external lead electrodes; and rewiring. The solder bumps may be arranged in two rows along the periphery of the semiconductor device. The electrode pads may be arranged inside the outermost solder bumps so as to be interposed between the two rows of solder bumps. Each trace of the rewiring may be extended from an electrode pad, and may be connected to any one of the outermost solder bumps or any one of the inner solder bumps.

An image pickup module includes a plurality of semiconductor devices laminated via a sealing layer a signal is transmitted via a signal cable connected to a rear surface of the image pickup module, a first semiconductor device has a semiconductor circuit portion in a central area on a first principal plane, through wires in an intermediate area and first electrodes connected to the through wires in the central area on a second principal plane, the second semiconductor device has second electrodes in the central area on a third principal plane, and an external connection terminal to which the signal cable is connected, on a rear surface, and the sealing layer includes a first sealing layer arranged in the central area and a second sealing layer disposed in an outer circumferential area surrounding the intermediate area and with a Young's modulus smaller than a Young's modulus of the first sealing layer.

A semiconductor device includes a first substrate, a pad array, a conductive bump, a first via and a dielectric. The pad array, formed on a surface of the first substrate, includes a first type pad and a second type pad at a same level. The conductive bump connects one of the first type pad of the second type pad to a second substrate. The first via, connected to a conductive feature at a different level to the first type pad, is located within a projection area of the first type pad and directly contacts the first type pad. The second type pad is laterally connected with a conductive trace on the same level. The conductive trace is connected to a second via at a same level with the first via. The dielectric in the first substrate contacts the second type pad. The second type pad is floated on the dielectric.

Various semiconductor chip devices with stacked chips are disclosed. In one aspect, a semiconductor chip device is provided. The semiconductor chip device includes a first semiconductor chip that has a front side and a back side and plural through chip vias. The through chip vias have a first footprint. The back side is configured to have a second semiconductor chip stacked thereon. The second semiconductor chip includes plural interconnects that have a second footprint larger than the first footprint. The back side includes a backside interconnect structure configured to connect to the interconnects and provide fanned-in pathways to the through chip vias.

The semiconductor device has the CSP structure and may include a plurality of electrode pads formed on a semiconductor integrated circuit in order to input/output signals from/to exterior; solder bumps for making external lead electrodes; and rewiring. The solder bumps may be arranged in two rows along the periphery of the semiconductor device. The electrode pads may be arranged inside the outermost solder bumps so as to be interposed between the two rows of solder bumps. Each trace of the rewiring may be extended from an electrode pad and may be connected to any one of the outermost solder bumps or any one of the inner solder bumps.

A semiconductor package includes a first device, a second device and a solder region. The first device includes a first conductive pillar, wherein the first conductive pillar has a first sidewall, a second sidewall opposite to the first sidewall, a first surface and a second surface physically connected to the first surface, the first surface and the second surface are disposed between the first sidewall and the second sidewall, and an included angle is formed between the first surface and the second surface. The solder region is disposed between the first conductive pillar and the second device to bond the first device and the second device.