Disclosed are a device conducive to reduction of parasitic inductance and a method for circuit design and assembly; the device and method cause less parasitic inductance and are good for circuit performance. The device includes an integrated circuit of ball grid array packaging (BGA IC), a printed circuit board (PCB), and an electronic component. The BGA IC includes solder balls including at least one target ball. The PCB is electrically connected to the BGA IC via the solder balls. The electronic component is set between the BGA IC and the PCB and electrically connected to the at least one target ball, in which the height of the electronic component is lower than the stand-off height of each of the solder balls.

According to an aspect, a display device includes: a substrate including a display region and a non-display region surrounding the display region; at least one driver IC including connecting terminals with a first surface fixed to face the non-display region; first wires supplying a signal to the display region; first bumps connected with the first wires; second wires transferring a signal to and from outside; second bumps connected with the second wires; and inspection wires. The connecting terminals of the driver IC include first connecting terminals overlapping the first or second bumps in plan view, and a second connecting terminal not overlapping the first or second bumps in plan view. At least one inspection wire includes a connecting conductor between itself and the second connecting terminal, and at least one fuse portion, a narrower width part of the inspection wire in plan view.

A control device and a circuit board are provided. The control device can operate with the circuit board, and includes a ball pad array. The ball pad array includes a plurality of power ball pads and a plurality of ground ball pads, which are arranged in the same pad arrangement region. At least a portion of the power ball pads and at least a portion of the ground ball pads are arranged in an alternate manner. The circuit board includes a solder pad array corresponding to the ball pad array of the control device so as to be disposed with the control device.

An exemplary semiconductor device can comprise (a) a substrate comprising a substrate dielectric structure between the substrate top side and the substrate bottom side, conductive pads at the substrate bottom side, and a substrate cavity through the substrate dielectric structure, (b) a base electronic component comprising inner short bumps; outer short bumps bounding a perimeter around the inner short bumps, and tall bumps between the outer short bumps and an edge of the base component top side, and (c) a mounted electronic component coupled to the inner short bumps of the base electronic component. The tall bumps of the base component can be coupled to the conductive pads of the substrate. The mounted electronic component can be located in the substrate cavity. The substrate bottom side can cover at least a portion of the outer short bumps of the base electronic component. Other examples and related methods are disclosed herein.

Provided is a connection structure for a semiconductor package which includes: a first passivation layer having an opening; a first conductive pattern that penetrates the first passivation layer and protrudes upwardly from the first passivation layer; a second passivation layer on the first passivation layer and covering the first conductive pattern; a second conductive pattern on the second passivation layer and electrically connected to the first conductive pattern; a third passivation layer on the second passivation layer and covering the second conductive pattern; and an external terminal in the opening and electrically connected to the first conductive pattern, wherein the first conductive pattern is thicker than the second conductive pattern.

The electronic device includes a first semiconductor device having a logic circuit, a second semiconductor device having a memory circuit, and a wiring substrate to which the first and second semiconductor devices are mounted. The first semiconductor device has a plurality of terminals arranged on a main surface. The plurality of terminals includes a plurality of differential pair terminals electrically connected to the second semiconductor device and to which differential signals are transmitted. The plurality of differential pair terminals is arranged along a side of the main surface, that is extending in an X direction, and includes a first differential pair terminal constituted by a pair of terminals arranged along a Y direction orthogonal to the X direction, and a second differential pair terminal constituted by a pair of terminals arranged along the Y direction. The first and second differential pair terminals are arranged along the Y direction.

A chip package structure is provided. The chip package structure includes a chip. The chip package structure includes a conductive ring-like structure over and electrically insulated from the chip. The conductive ring-like structure surrounds a central region of the chip. The chip package structure includes a first solder structure over the conductive ring-like structure. The first solder structure and the conductive ring-like structure are made of different materials.

A ground isolation webbing structure package includes a top level with an upper interconnect layer having upper ground contacts, upper data signal contacts, and a conductive material upper ground webbing structure that is connected to the upper ground contacts and surrounds the upper data signal contacts. The upper contacts may be formed over and connected to via contacts or traces of a lower layer of the same interconnect level. The via contacts of the lower layer may be connected to upper contacts of a second interconnect level which may also have such webbing. There may also be at least a third interconnect level having such webbing. The webbing structure electrically isolates and reduces cross talk between the signal contacts, thus providing higher frequency and more accurate data signal transfer between devices such as integrated circuit (IC) chips attached to a package.

Proximity coupling interconnect packaging systems and methods. A semiconductor package assembly comprises a substrate, a first semiconductor die disposed adjacent the substrate, and a second semiconductor die stacked over the first semiconductor die. There is at least one proximity coupling interconnect between the first semiconductor die and the second semiconductor die, the proximity coupling interconnect comprising a first conductive pad on the first coupling face on the first semiconductor die and a second conductive pad on a second coupling face of the second semiconductor die, the second conductive pad spaced apart from the first conductive pad by a gap distance and aligned with the first conductive pad. An electrical connector is positioned laterally apart from the proximity coupling interconnect and extends between the second semiconductor die and the substrate, the position of the electrical connector defining the alignment of the first conductive pad and the second conductive pad.

Proximity coupling interconnect packaging systems and methods. A semiconductor package assembly comprises a substrate, a first semiconductor die disposed adjacent the substrate, and a second semiconductor die stacked over the first semiconductor die. There is at least one proximity coupling interconnect between the first semiconductor die and the second semiconductor die, the proximity coupling interconnect comprising a first conductive pad on the first coupling face on the first semiconductor die and a second conductive pad on a second coupling face of the second semiconductor die, the second conductive pad spaced apart from the first conductive pad by a gap distance and aligned with the first conductive pad. An electrical connector is positioned laterally apart from the proximity coupling interconnect and extends between the second semiconductor die and the substrate, the position of the electrical connector defining the alignment of the first conductive pad and the second conductive pad.