摘要:
A mounting structure is provided which includes an electronic component; a circuit board; a first insulating resin and a second insulating resin which are placed between the electronic component and the circuit board, for sealing; a plurality of bumps are formed on the electronic component or the circuit board; a plurality of counter electrodes of the circuit board or the electronic component, connected to the plurality of bumps; and a plurality of joining regions. The plurality of joining regions are formed by the second insulating resin, a plurality of first insulating resin regions are disposed around the joining regions so that the joining regions are sandwiched by the plurality of first insulating resin regions, the first insulating resin and the second insulating resin each contain filler, and the second insulating resin has a higher curing temperature than the curing temperature of the first insulating resin.
摘要:
A flip-chip mounting apparatus has a shield film (18) on the side of a pressurizing film (10b) of a tool protection sheet (10). When a semiconductor chip (1) is heated and pressurized via the tool protection sheet (10), the pressurizing film (10b) is released from a mold by a sheet fixing jig (9), and is expanded by a pressurizing/heating tool (11) to abut against an insulating resin film (5) protruding from the periphery of the semiconductor chip (1) and cure the insulating resin film (5) with an external pressure being applied.
摘要:
A recess portion is formed on a board surface at a position facing a peripheral end portion of a semiconductor device so as to place a sealing-bonding resin partially inside the recess portion. Thereby, increases of a placement area for a fillet portion (foot spreading portion) of the sealing-bonding resin are suppressed while its inclination angle is increased. Thus, stress loads that occur to peripheral portions of the semiconductor device due to thermal expansion differences and thermal contraction differences among individual members caused by heating and cooling processes during a mounting operation are relaxed, by which internal breakdown of the semiconductor device mounted structure is avoided.
摘要:
The present invention provides a semiconductor device of a double-side mounting structure including a circuit board and a plurality of semiconductor chips arranged and joined together on the opposite surfaces of the circuit board, wherein in an area in which the semiconductor chip 31 mounted on the top surface of the circuit board 2 overlaps with the semiconductor chip 32 mounted on the bottom surface of the circuit board 2, a recess portion 21 (or a protruding portion 22) is formed in the surfaces of the circuit board 2.
摘要:
In this semiconductor chip 3, a table electrode 13 is interposed between a bump electrode 14 and an electrode pad 6. The table electrode 13 is formed by forming a plurality of cores 15 having a smaller Young's modulus than the bump electrode 14, on the electrode pad 6, and then covering the surfaces of the cores 15 with a conductive electrode 16. When the semiconductor chip 3 is flip-chip mounted, the bump electrode 14 is plastically deformed and the table electrode 13 is elastically deformed appropriately, thereby obtaining a good conductive state.
摘要:
A semiconductor device includes a semiconductor element having a plurality of element electrodes formed thereon, a circuit board having board electrodes respectively corresponding to the element electrodes formed thereon and having the semiconductor element mounted thereon, and bumps each of which is provided on at least one of the element electrode and the board electrode, and connects together the element electrode and the board electrode corresponding to each other when the semiconductor element is mounted on the circuit board. Furthermore, at least one of a dielectric layer and a resistive layer is provided between at least one of the bumps and the element or board electrode on which the at least one of the bumps is provided, so that the element or board electrode, the dielectric layer or the resistive layer, and the bump form a parallel-plate capacitor or electrical resistance.
摘要:
A first circuit board (1) mounted with an electronic component (16) and a second circuit board (2) are vertically connected three-dimensionally through an interconnecting board (3) wherein the terminal portion (6) of the land electrode (5) on the interconnecting board (3) is buried in the termination material (9) of the interconnecting board (3). Consequently, the chance of peeling or cracking due to peeling stress or shearing stress acting between the upper/lower circuit boards and the land electrode by high density mounting, thermal shock or falling impact can be suppressed or buffered resulting in high reliability.
摘要:
An electronic component, in which the outer perimeter portion of a component (2) is surrounded with a first sealing resin (4), a second sealing resin (3) is filled within the periphery of the first sealing resin (4), the component (2) and a board (1) are electrically connected by a wire (5), the edge, in the vicinity of which the wire (5) passes, of the outer perimeter edge portions of the component (2) is formed to be a chamfered oblique surface (31), and the wire (5) is provided to extend to the board (1) along the oblique surface (31). By this means, the overall height of the electronic component can be kept low.
摘要:
A protruding electrodes is formed on a lead electrode of an electronic component, and the protruding electrodes comprises a first conductor formed on the lead electrode of the electronic component, and a second conductor overlaid on the first conductor by using a transfer mold having a concavity. By virtue of this structure, protruding electrodes of any configuration can be formed in fine pitches.
摘要:
A semiconductor unit including a circuit board having terminal electrodes on a surface thereof and a semiconductor device having an electrode pad on a first surface, where the semiconductor device is mounted face down on the surface of the circuit board. The semiconductor device has a plurality of bumps formed on the electrode pad, for electrically connecting the electrode pad to the terminal electrodes of the circuit board. Each bump includes a first bump portion and a smaller second bump portion formed on the first bump portion, and each second bump portion has a plurality of irregularities having concave portions extending in various directions. The bonding layer is formed between the second bump portion and the terminal electrode, and includes conductive particles which along with a portion of the bonding layer enter the concave portions of the plurality of irregularities of the bumps. The terminal electrodes may also have a plurality of irregularities having concave portions extending in various directions.