A bump structure that may be used for stacked die configurations is provided. Through-silicon vias are formed in a semiconductor substrate. A backside of the semiconductor substrate is thinned to expose the through-silicon vias. An isolation film is formed over the backside of the semiconductor subs
A bump structure that may be used for stacked die configurations is provided. Through-silicon vias are formed in a semiconductor substrate. A backside of the semiconductor substrate is thinned to expose the through-silicon vias. An isolation film is formed over the backside of the semiconductor substrate and the exposed portion of the through-silicon vias. The isolation film is thinned to re-expose the through-silicon vias. Bump pads and redistribution lines are formed on the backside of the semiconductor substrate providing an electrical connection to the through-silicon vias. Another isolation film is deposited and patterned, and a barrier layer is formed to provide contact pads for connecting to an external device, e.g., another die/wafer or circuit board.
대표청구항▼
1. A semiconductor device comprising: a first semiconductor substrate;through-silicon vias extending through the first semiconductor substrate, the through-silicon vias protruding from a backside of the first semiconductor substrate;a first isolation film on the backside of the first semiconductor s
1. A semiconductor device comprising: a first semiconductor substrate;through-silicon vias extending through the first semiconductor substrate, the through-silicon vias protruding from a backside of the first semiconductor substrate;a first isolation film on the backside of the first semiconductor substrate between adjacent ones of the through-silicon vias, the first isolation film not extending beyond the protruding through-silicon vias;a conductive element having a tapered sidewall and a top surface and being electrically coupled to at least one of the through-silicon vias;a second isolation film on the first isolation film and at least a portion of the tapered sidewall and top surface of the conductive element, the second isolation film being a conformal film; anda solder connection element on the conductive element. 2. The semiconductor device of claim 1, wherein the conductive element includes a redistribution line, wherein the conductive element and the redistribution line is a single continuous material. 3. The semiconductor device of claim 2, wherein the second isolation film overlies at least part of the redistribution line. 4. The semiconductor device of claim 1, wherein the first isolation film is a different material than the second isolation film. 5. The semiconductor device of claim 1, further comprising a contact barrier layer overlying at least a portion of the conductive element, at least a portion of the contact barrier layer being interposed between the conductive element and the solder connection element. 6. The semiconductor device of claim 1, further comprising a liner along sidewalls of the through-silicon vias. 7. The semiconductor device of claim 6, wherein the liner does not extend beyond a top surface of the first isolation film. 8. The semiconductor device of claim 1, further comprising: a contact barrier layer overlying the conductive element; anda second semiconductor substrate, the second semiconductor substrate having an external metal contact, wherein the solder connection element is interposed between the contact barrier layer and the external metal contact. 9. The semiconductor device of claim 8, wherein the solder connection element extends down the tapered sidewall of the conductive element. 10. A semiconductor device comprising: a substrate;through vias extending through the substrate, the through vias comprising a conductive region extending through the substrate and a dielectric liner between the conductive region and the substrate, the conductive region and the dielectric liner protruding from a backside of the substrate;a first isolation film on the backside of the substrate between adjacent ones of the through vias, the conductive region of the through vias protruding from the first isolation film;a conductive element having a tapered sidewall and contacting at least one of the through vias, the conductive element being directly on the first isolation film and having a wider dimension along an interface between the conductive element and the first isolation film than at a location farther away from the interface between the conductive element and the first isolation film;a conductive conformal layer interposed between the protruding portion of the conductive region of the at least one through via and the conductive element, the conductive conformal layer having a different material composition than both the conductive region of the at least one through via and the conductive element;a second isolation film on the first isolation film and at least a portion of the conductive element;a contact barrier layer partially covering the conductive element; anda solder connection element on the contact barrier layer. 11. The semiconductor device of claim 10, wherein the conductive element includes a redistribution line, wherein the conductive element and the redistribution line is a single continuous material. 12. The semiconductor device of claim 11, wherein the second isolation film overlies at least part of the redistribution line. 13. The semiconductor device of claim 11, wherein the first isolation film is a different material than the second isolation film. 14. The semiconductor device of claim 10, wherein the dielectric liner does not extend beyond a top surface of the first isolation film. 15. A semiconductor device comprising: a first substrate;a first isolation film over a first side of the first substrate;a conductive element having a tapered sidewall and a top surface over the first isolation film, the conductive element having a wider dimension along an interface between the conductive element and the first isolation film than at a location farther away from the interface between the conductive element and the first isolation film, the conductive element having a first thickness from the top surface of the conductive element to the first isolation film;a through via extending from a second side of the first substrate to the first side of the first substrate, the through via having a conductive region extending into the conductive element, the conductive element being wider than the through via at the interface between the conductive element and the first isolation film;a second isolation film on the first isolation film, the second isolation film being in direct contact with at least a portion of the top surface and the tapered sidewall of the conductive element, the second isolation film being a conformal film with a second thickness, the second thickness being less than the first thickness; anda contact barrier layer in direct contact with the conductive element. 16. The semiconductor device of claim 15, further comprising: a second substrate, the second substrate having an external conductive contact; anda conductive connection element interposed between the contact barrier layer and the external conductive contact, the conductive connection element being in direct contact with the contact barrier layer. 17. The semiconductor device of claim 16, wherein the conductive connection element extends down the tapered sidewall of the conductive element. 18. The semiconductor device of claim 15, wherein the conductive element includes a redistribution line. 19. The semiconductor device of claim 18, wherein the second isolation film overlies at least part of the redistribution line. 20. The semiconductor device of claim 15, wherein the through via comprises a liner between the conductive region and the first substrate, the liner terminating at a top surface of the first isolation film. 21. The semiconductor device of claim 1 further comprising: a conductive conformal layer interposed between the protruding portion of the at least one of the through-silicon vias and the conductive element, the conductive conformal layer having a different material composition than both the at least one of the through-silicon vias and the conductive element.
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