METHOD OF MAKING A SEMICONDUCTOR CHIP ASSEMBLY WITH A POST/BASE HEAT SPREADER AND A CONDUCTIVE TRACE
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Abstract
A method of making a semiconductor chip assembly includes providing a post and a base, mounting an adhesive on the base including inserting the post into an opening in the adhesive, mounting a conductive layer on the adhesive including aligning the post with an aperture in the conductive layer, then flowing the adhesive into and upward in a gap located in the aperture between the post and the conductive layer, solidifying the adhesive, then providing a conductive trace that includes a pad, a terminal and a selected portion of the conductive layer, mounting a semiconductor device on a heat spreader that includes the post and the base, electrically connecting the semiconductor device to the conductive trace and thermally connecting the semiconductor device to the heat spreader.
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Citations
50 Claims
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1-25. -25. (canceled)
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26. A method of making a semiconductor chip assembly, comprising:
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providing a post, a base, an adhesive and a conductive layer, wherein the post is adjacent to the base, extends above the base in an upward direction, extends into an opening in the adhesive and is aligned with an aperture in the conductive layer, the base extends below the post in a downward direction opposite the upward direction and extends laterally from the post in lateral directions orthogonal to the upward and downward directions, the adhesive is mounted on and extends above the base, is sandwiched between the base and the conductive layer and is non-solidified, and the conductive layer is mounted on and extends above the adhesive;
then flowing the adhesive into and upward in a gap located in the aperture between the post and the conductive layer;solidifying the adhesive;
thenproviding a conductive trace that includes a pad, a terminal and a selected portion of the conductive layer; mounting a semiconductor device on a heat spreader that includes the post and the base, wherein the semiconductor device overlaps the post; electrically connecting the semiconductor device to the pad, thereby electrically connecting the semiconductor device to the terminal; and thermally connecting the semiconductor device to the post, thereby thermally connecting the semiconductor device to the base. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34, 35)
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36. A method of making a semiconductor chip assembly, comprising:
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providing a post and a base, wherein the post is adjacent to and integral with the base and extends above the base in an upward direction, and the base extends below the post in a downward direction opposite the upward direction and extends laterally from the post in lateral directions orthogonal to the upward and downward directions; providing an adhesive, wherein an opening extends through the adhesive; providing a conductive layer, wherein an aperture extends through the conductive layer; mounting the adhesive on the base, including inserting the post into the opening, wherein the adhesive extends above the base and the post extends into the opening; mounting the conductive layer on the adhesive, including aligning the post with the aperture, wherein the conductive layer extends above the adhesive and the adhesive is sandwiched between the base and the conductive layer and is non-solidified;
thenapplying heat to melt the adhesive; moving the base and the conductive layer towards one another, thereby moving the post upward in the aperture and applying pressure to the molten adhesive between the base and the conductive layer, wherein the pressure forces the molten adhesive to flow into and upward in a gap located in the aperture between the post and the conductive layer; applying heat to solidify the molten adhesive, thereby mechanically attaching the post and the base to the conductive layer;
thenproviding a conductive trace that includes a pad, a terminal and a routing line, wherein the pad, the terminal and the routing line include selected portions of the conductive layer and an electrically conductive path between the pad and the terminal includes the routing line; mounting a semiconductor device on a heat spreader that includes the post and the base, wherein the semiconductor device overlaps the post; electrically connecting the semiconductor device to the pad, thereby electrically connecting the semiconductor device to the terminal; and thermally connecting the semiconductor device to the post, thereby thermally connecting the semiconductor device to the base. - View Dependent Claims (37, 38, 39, 40, 41, 42, 43, 44, 45)
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46. A method of making a semiconductor chip assembly, comprising:
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providing a post and a base, wherein the post is adjacent to and integral with the base and extends above the base in an upward direction, and the base extends below the post in a downward direction opposite the upward direction and extends laterally from the post in lateral directions orthogonal to the upward and downward directions; providing an adhesive, wherein an opening extends through the adhesive; providing a conductive layer, wherein an aperture extends through the conductive layer; mounting the adhesive on the base, including inserting the post through the opening, wherein the adhesive extends above the base and the post extends through the opening; mounting the conductive layer alone on the adhesive, including inserting the post into the aperture, wherein the conductive layer extends above the adhesive, the post extends through the opening into the aperture, the adhesive is sandwiched between the base and the conductive layer and is non-solidified, and a gap is located in the aperture between the post and the conductive layer;
thenapplying heat to melt the adhesive; moving the base and the conductive layer towards one another, thereby moving the post upward in the aperture and applying pressure to the molten adhesive between the base and the conductive layer, wherein the pressure forces the molten adhesive to flow into and upward in the gap; applying heat to solidify the molten adhesive, thereby mechanically attaching the post and the base to the conductive layer;
thenproviding a conductive trace that includes a pad, a terminal and a routing line, including removing selected portions of the conductive layer using an etch mask that defines the pad, the terminal and the routing line, wherein the pad, the terminal and the routing line include selected portions of the conductive layer and an electrically conductive path between the pad and the terminal includes the routing line;
thenmounting a semiconductor device on a heat spreader that includes the post and the base, wherein the semiconductor device overlaps the post; electrically connecting the semiconductor device to the pad, thereby electrically connecting the semiconductor device to the terminal; and thermally connecting the semiconductor device to the post, thereby thermally connecting the semiconductor device to the base. - View Dependent Claims (47, 48, 49, 50)
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Specification