Wafer-level package and IC module assembly method for the wafer-level package
First Claim
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1. A wafer-level package and an IC module assembly method for the wafer-level package comprising:
- forming a metal bump on a wafer;
printing a conductive metal paste on an I/O pad of the wafer with a steel plate printing technique, then solidifying to form the metal bump;
applying a high polymer resin coating;
applying the high polymer resin coating to the surface of the wafer over the metal bump with a printing technique and solidifying the resin coating;
grinding a surface of the resin coating;
grinding the solidified resin coating on the surface of the wafer until the metal bump is exposed and a required thickness of the resin coating is reached;
printing an endpoint on the exposed metal bump;
an endpoint referring to a joint point of a wafer die part and an antenna or a substrate;
grinding and cutting;
grinding a back side of the wafer to a required thickness, then cutting the wafer into multiple chips to complete a package process; and
bonding the chips to an antenna or substrate with SMT (surface mounting technology).
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Abstract
A wafer-level package and an IC module assembly method for a wafer-level package are provided in the present invention. The method comprises forming a metal bump on a wafer, applying a high polymer resin coating to the wafer, grinding a surface of the resin coating, printing an endpoint on the wafer, a grinding and cutting step and bonding the chips to an antenna or substrate with SMT. The present invention can be used to manufacture high quality chips of low cost with mass production to significantly reduce cost and maintain high quality of the products.
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Citations
6 Claims
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1. A wafer-level package and an IC module assembly method for the wafer-level package comprising:
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forming a metal bump on a wafer;
printing a conductive metal paste on an I/O pad of the wafer with a steel plate printing technique, then solidifying to form the metal bump;applying a high polymer resin coating;
applying the high polymer resin coating to the surface of the wafer over the metal bump with a printing technique and solidifying the resin coating;grinding a surface of the resin coating;
grinding the solidified resin coating on the surface of the wafer until the metal bump is exposed and a required thickness of the resin coating is reached;printing an endpoint on the exposed metal bump;
an endpoint referring to a joint point of a wafer die part and an antenna or a substrate;grinding and cutting;
grinding a back side of the wafer to a required thickness, then cutting the wafer into multiple chips to complete a package process; andbonding the chips to an antenna or substrate with SMT (surface mounting technology). - View Dependent Claims (2, 3, 4, 5, 6)
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Specification