Patent ID: 6396143
Filing Date: 2002-05-28
Classification: H01L,H05K

Abstract:
A metal-plate-inserted printed wiring board having wire bonding pads formed at two levels, for use in a ball grid array type semiconductor plastic package, the printed wiring board having a structure in which the metal plate is placed in a region located as part of the thickness direction of a printed wiring board, the metal plate has a flat region in one surface, a plurality of metal protrusions having the form of frustum of a cone each are formed in the other surface of the metal plate so as to be connected to a copper foil forming a reverse surface, the metal plate has a size nearly equivalent to the size of the printed wiring board, a semiconductor is fixed on the flat region located at a level lower than the level of a signal propagation circuit and circumferential bonding pads of two levels on one surface of the printed wiring board, the metal plate and a signal propagation circuit conductor on the front surface of the printed wiring board are insulated from each other with a thermosetting resin composition, the signal propagation circuit conductor and the semiconductor chip are connected through the bonding pads of two levels by wire bonding, and at least the signal propagation circuit conductor on the front surface of the printed wiring board and a circuit conductor formed on an opposite surface of the printed wiring board or circuit conductor pads formed on the opposite surface of the printed wiring board for connecting the package to an outside with solder balls are connected with a through hole conductor insulated from the metal plate with a resin composition,the printed wiring board being produced by providing a metal plate, one surface of the metal plate having a flat region where the semiconductor is to be mounted, the other surface of the metal plate having a plurality of metal protrusions having the form of frustum of a cone each, the metal plate having a clearance hole or a slit in a region which is neither a semiconductor-chip-mounting portion nor a region of the metal protrusions having the form of frustum of a cone each, placing a glass fabric base material/thermosetting resin prepreg on one surface of the metal plate, placing a glass fabric base material/thermosetting resin prepreg on the other surface of the metal plate, placing a double-side copper-clad laminate having a bonding pad of the second level and an inner layer circuit on the prepreg on one surface such that the circuit faces inward, placing a glass fabric prepreg sheet on the prepreg on the other surface, the glass fabric prepreg sheet having a hole made so as to correspond to the region of the metal protrusions and so as to have an area a little larger than the region of the metal protrusions, placing a copper foil on the glass fabric prepreg, forming the resultant set into a laminate under heat and pressure to obtain a double-side copper-clad multi-layered board, making a through hole nearly in the center of the clearance hole or the slit so as not be in contact with the metal plate, plating the through hole with copper, removing copper foil, glass fabric base and resin layer on a semiconductor-chip-mounting portion and a bonding pad portion of the second level on a front surface, to expose the bonding pad of the second level, exposing part of the metal plate for mounting a semiconductor chip, forming the bonding pad of the first level and a circuit on the front surface, forming solder ball pads for connecting the protrusions of the metal plate to heat-diffusing solder balls and a circuit in a copper foil to which the protrusions of the metal plate are in contact, and plating at least the semiconductor-chip-mounting portion side, a wire bonding pad portion and a solder ball portion with a noble metal.