| 主权项 |
1. A method of manufacturing a semiconductor device, comprising the steps of:
(a) providing a base material including an upper surface having four sides, a plurality of first bonding leads formed on the upper surface and arranged along a first-substrate side of the four sides of the upper surface, a plurality of second bonding leads formed on the upper surface and arranged along a second-substrate side of the four sides of the upper surface facing to the first-substrate side, and a lower surface opposite to the upper surface; (b) after the step (a), arranging a first semiconductor chip over the upper surface of the base material via a first adhesive layer such that a first-chip-main side is closer than a first-chip-opposition side facing the first-chip-main side to the first-substrate side, and such that the first semiconductor chip is spaced from the first and second bonding leads, wherein the first semiconductor chip includes:
a first front surface having four sides,a plurality of first bonding pads formed on the first front surface and arranged along the first-chip-main side of the four sides of the first front surface, anda first rear surface opposite to the first front surface, wherein the first bonding pads are located closer than the first-chip-opposition side to the first-chip-main side; (c) after the step (b), arranging a second semiconductor chip over the first front surface of the first semiconductor chip via a second adhesive layer such that a second-chip-main side is closer than a second-chip-opposition side facing the second-chip-main side to the first-substrate side, such that the second semiconductor chip exposes the first bonding pads, and such that the second-chip-main and second-chip-opposition sides are respectively closer than the first-chip-main and first-chip-opposition sides to the second-substrate side, wherein the second semiconductor chip includes:
a second front surface having four sides,a plurality of second bonding pads formed on the second front surface and arranged along the second-chip-main side of the four sides of the second front surface, anda second rear surface opposite to the second front surface, wherein the second bonding pads are located closer than the second-chip-opposition side to the second-chip-main side; (d) after the step (c), arranging a third semiconductor chip over the second front surface of the second semiconductor chip via a third adhesive layer such that a third-chip-main side is closer than a third-chip-opposition side facing the third-chip-main side to the first-substrate side, such that the third semiconductor chip exposes the second bonding pads, and such that the third-chip-main and third-chip-opposition sides are respectively closer than the second-chip-main and second-chip-opposition sides to the second-substrate side, wherein the third semiconductor chip includes:
a third front surface having four sides,a plurality of third bonding pads formed on the third front surface and arranged along the third-chip-opposition side of the four sides of the third front surface, anda third rear surface opposite to the third front surface, wherein the third bonding pads are located closer than the third-chip-opposition side to the third-chip-main side; (e) after the step (d), arranging a fourth semiconductor chip over the third front surface of the third semiconductor chip via a fourth adhesive layer such that a fourth-chip-main side is closer than a fourth-chip-opposition side facing the fourth-chip-main side to the first-substrate side, such that the fourth semiconductor chip exposes th the third bonding pads, and such that the fourth-chip-main and fourth-chip-opposition sides are respectively closer that the third-chip-main and third-chip-opposition sides to the second-substrate side, wherein the fourth semiconductor chip includes:
a fourth front surface having four sides,a plurality of fourth bonding pads formed on the fourth front surface and arranged along the fourth-chip-main side of the four sides of the fourth front surface, anda fourth rear surface opposite to the fourth front surface, wherein the fourth bonding pads are located closer than the fourth-chip-opposition side to the fourth-chip-main side; (f) after the step (e), electrically connecting a plurality of first wires with the first bonding pads, respectively; (g) after the step (f), electrically connecting a plurality of second wires with the second bonding pads, respectively; (h) after the step (g), electrically connecting a plurality of third wires with the third bonding pads, respectively; (i) after the step (h), electrically connecting a plurality of fourth wires with the fourth bonding pads, respectively; (j) after the step (i), arranging a fifth semiconductor chip over the fourth front surface of the fourth semiconductor chip via a fifth adhesive layer such that a fifth-chip-main side is closer than a fifth-chip-opposition side facing the fifth-chip-main side to the second-substrate side, such that the fifth semiconductor chip exposes the fourth bonding pads, and such that the fifth-chip-main and fifth-chip-opposition sides are respectively closer than the fourth-chip-opposition and fourth-chip-main sides to the second-substrate side, wherein the fifth semiconductor chip includes:
a fifth front surface having four sides,a plurality of fifth bonding pads formed on the fifth front surface and arranged along the fifth-chip-main side of the four sides of the fifth front surface, anda fifth rear surface opposite to the fifth front surface, wherein the fifth bonding pads are located closer than the fifth-chip-opposition side to the fifth-chip-main side; (k) after the step (j), arranging a sixth semiconductor chip over the fifth front surface of the fifth semiconductor chip via a sixth adhesive layer such that a sixth-chip-main side is closer than a sixth-chip-opposition side facing the sixth-chip-main side to the second-substrate side, such that the sixth semiconductor chip overlaps with the fourth semiconductor chip, such that the sixth semiconductor chip exposes the fifth bonding pads, and such that the sixth-chip-main and sixth-chip-opposition sides are respectively closer than the fifth-chip-main and fifth-chip-opposition sides to the first-substrate side, wherein the sixth semiconductor chip includes
a sixth front surface having four sides,a plurality of sixth bonding pads formed on the sixth front surface and arranged along the sixth-chip-main side of the four sides of the sixth front surface, anda sixth rear surface opposite to the sixth front surface, wherein the sixth bonding pads are located closer than the sixth-chip-opposition side to the sixth-chip-main side; (l) after the step (k), arranging a seventh semiconductor chip over the sixth front surface of the sixth semiconductor chip via a seventh adhesive layer such that a seventh-chip-main side is closer than a seventh-chip-opposition side facing the seventh-chip-main side to the second-substrate side, such that the seventh semiconductor chip overlaps with the third semiconductor chip, such that the seventh semiconductor chip exposes the sixth bonding pads, and such that the seventh-chip-main and seventh-chip opposition sides are respectively closer than the sixth-chip-main and sixth-chip-opposition sides to the first-substrate side, wherein the seventh semiconductor chip includes:
a seventh front surface having four sides,a plurality of seventh bonding pads formed on the seventh front surface and arranged along the seventh-chip-main side of the four sides of the seventh front surface, anda seventh rear surface opposite to the seventh front surface, wherein the seventh bonding pads are located closer than the seventh-chip-opposition side to the seventh-chip-main side; (m) after the step (l), arranging an eighth semiconductor chip over the seventh front surface of the seventh semiconductor chip via an eighth adhesive layer such that an eighth-chip-main side is closer than an eighth-chip-opposition side facing the eighth-chip-main side to the second-substrate side, such that the eighth semiconductor chip overlaps with the second semiconductor chip, such that the eighth semiconductor chip exposes the seventh bonding pads, and such that the eighth-chip-main and eighth-chip-opposition sides are respectively closer than the seventh-chip-main and seventh-chip-opposition sides to the first-substrate side,
wherein the eighth semiconductor chip includes:an eighth front surface having four sides,a plurality of eighth bonding pads formed on the eighth front surface and arranged along the eighth-chip-main side of the four sides of the eighth front surface, andan eighth rear surface opposite to the eighth front surface, wherein the eighth bonding pads are located closer than the eighth-chip-opposition side to the eighth-chip-main side; (n) after the step (m), electrically connecting a plurality of fifth wires with the fifth bonding pads, respectively; (o) after the step (n), electrically connecting a plurality of sixth wires with the sixth bonding pads, respectively; (p) after the step (o), electrically connecting a plurality of seventh wires with the seventh bonding pads, respectively; (q) after the step (p), electrically connecting a plurality of eighth wires with the eighth bonding pads, respectively; and (r) after the step (q), sealing the first, second, third, fourth, fifth, sixth, seventh and eighth semiconductor chips and the first, second, third, fourth, fifth, sixth, seventh and eighth wires with resin, wherein the base material further includes:
a plurality of wirings formed on the upper surface, anda solder resist film covering the wirings, wherein the first semiconductor chip is a lowermost chip, wherein the eighth semiconductor chip is an uppermost chip, wherein a thickness of each of the first, fifth and eighth semiconductor chips is larger than a thickness of each of the second, third, fourth, sixth and seventh semiconductor chips, and wherein the thicknesses of the first, fifth and eighth semiconductor chips are the same. |
