A method and apparatus for assembling semiconductor die-carrying interposer substrates in a stacked configuration. Each interposer substrate bears at least one die mounted by its active surface to a surface of the interposer substrate and wire bonded to terminals on the opposing substrate surface through an opening in the interposer substrate. Two interposer substrates are placed together with die-carrying sides outward and electrically connected with conductive elements extending transversely therebetween to form an interposer assembly, the interposer assembly bearing conductive elements extending transversely from one of the interposer substrates for connection to a carrier substrate. The space between the interposer substrates may be filled with a dielectric underfill material, as may the space between the interposer assembly and the carrier substrate to which the former is mounted.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a divisional of application Ser. No. 09/874,671, filed Jun. 5, 2001, now U.S. Pat. No. 6,583,502, issued Jun. 24, 2003.
A semiconductor system having a substrate (101) including a rigid insulating interposer (110) with a high modulus and a top (140) and a bottom (150) low-modulus tape with flip-attached semiconductor chips (120, 130). The assembled chips, with the passive surfaces facing each other, are located in an opening (114) of the interposer, which has a thickness (111) equal to or smaller than the sum of the assembled two chips. Adhesive material (160) holds the tapes parallel to the interposer and the chip surfaces together. Solder balls (180) and discrete components (170) may be attached to the outside surfaces of the tapes.
