| 主权项 |
1. A method for preparing a wafer level packaging structure with a large contact area, wherein a plurality of first metal bonding pads are formed at front surfaces of semiconductor chips formed in a semiconductor wafer, the method comprising the steps of:
etching a respective front surface of each semiconductor chip to form at least a respective bottom through hole with a depth shorter than a thickness of the semiconductor wafer and filling a conductive material in the respective bottom through hole to form a respective bottom metal interconnecting structure; forming a respective second metal bonding pad at the respective front surface of each semiconductor chip and above the respective bottom metal interconnecting structure, the respective second metal bonding pad being electrically connected to the respective bottom metal interconnecting structure; forming a first packaging layer covering the plurality of first metal bonding pads and the second metal bonding pads and a front surface of the semiconductor wafer; grinding at a back surface of the semiconductor wafer until the bottom metal interconnecting structures are exposed from the back surface of the semiconductor wafer; forming a metal layer covering the back surface of the semiconductor wafer, the metal layer being connected to the bottom metal interconnecting structures; cutting through the semiconductor wafer and the metal layer from the back surface of the semiconductor wafer to form a plurality of cutting grooves, wherein the plurality of cutting grooves extend into the first packaging layer and separate individual semiconductor chips from each other, wherein the metal layer is cut into a plurality of bottom metal layers, and wherein a respective bottom metal layer of the plurality of bottom metal layers covers a back surface of each semiconductor chip; depositing a packaging material to form a second packaging layer covering the plurality of bottom metal layers and filling into the plurality of cutting grooves; grinding at the first packaging layer until the packaging material filled in the plurality of cutting grooves is exposed, wherein the first packaging layer is cut into a plurality of top packaging layers, and wherein a respective top packaging layer of the plurality of top packaging layers covers the front surface of each semiconductor chip; etching the plurality of top packaging layers to expose the plurality of first metal bonding pads and the second metal bonding pads so as to form a plurality of top through holes above the plurality of first metal bonding pads and the second metal bonding pads, and filling another conductive material into the plurality of top through holes to form a plurality of top metal interconnecting structures, the plurality of top metal interconnecting structures being connected to the plurality of first metal bonding pads and the second metal bonding pads; forming a plurality of contact bonding pads atop the plurality of top packaging layers, wherein each contact bonding pad is electrically connected to one first metal bonding pad of the plurality of first metal bonding pads or one second metal bonding pad of the second metal bonding pads through at least one top metal interconnecting structure of the plurality of top metal interconnecting structures; and cutting through the second packaging layer and the packaging material filled in the plurality of cutting grooves along the plurality of cutting grooves to separate individual wafer level packaging structures from each other, wherein the second packaging layer is cut into a plurality of bottom packaging layers, and wherein a respective bottom packaging layer of the plurality of bottom packaging layers covers the bottom metal layer of each semiconductor chip. |
