摘要:
A novel semiconductor device high in both heat dissipating property and connection reliability in mounting is to be provided. The semiconductor device comprises a semiconductor chip, a resin sealing member for sealing the semiconductor chip, a first conductive member connected to a first electrode formed on a first main surface of the semiconductor chip, and a second conductive member connected to a second electrode formed on a second main surface opposite to the first main surface of the semiconductor chip, the first conductive member being exposed from a first main surface of the resin sealing member, and the second conductive member being exposed from a second main surface opposite to the first main surface of the resin sealing member and also from side faces of the resin sealing member.
摘要:
A QFP adapted to lowering the heat resistance and increasing the number of pins, and a method of producing the same. The QFP includes a heat-radiating metal plate having bumpers formed at the four corners thereof as a unitary structure, a semiconductor chip mounted on the heat-radiating metal plate, leads provided on the heat-radiating metal plate and surrounding the peripheries of the semiconductor chip, bonding wires for connecting the leads to the semiconductor chip, and a sealing resin member for sealing part of the semiconductor chip, inner leads of the leads, bonding wires and part of the heat-radiating metal plate. The tips of the bumpers integrally formed with the heat-radiating metal plate are positioned outside the tips of the outer leads that are protruding from the sealing resin member. In the QFP producing method, the heat-radiating metal plate having the bumpers and the lead frame having the leads are secured outside the sealing resin member.
摘要:
A QFP adapted to lowering the heat resistance and increasing the number of pins, and a method of producing the same. The QFP includes a heat-radiating metal plate having bumpers formed at the four corners thereof as a unitary structure, a semiconductor chip mounted on the heat-radiating metal plate, leads provided on the heat-radiating metal plate and surrounding the peripheries of the semiconductor chip, bonding wires for connecting the leads to the semiconductor chip, and a sealing resin member for sealing part of the semiconductor chip, inner leads of the leads, bonding wires and part of the heat-radiating metal plate. The tips of the bumpers integrally formed with the heat-radiating metal plate are positioned outside the tips of the outer leads that are protruding from the sealing resin member. In the QFP producing method, the heat-radiating metal plate having the bumpers and the lead frame having the leads are secured outside the sealing resin member.
摘要:
A lead frame and a semiconductor device wherein a through hole is formed in the center of a semiconductor chip-mounting surface of a chip pad at the center of the lead frame, the through hole being tapered or being one which corresponds to a surface area that is greater on the surface of the chip-mounting surface of the chip pad than on the surface of the side opposite to the chip-mounting surface thereof. This prevents the occurrence of cracks in the sealing plastic portion in the step of reflow soldering of the lead frame to the substrate.
摘要:
The plastic encapsulated semiconductor device according to the present invention has a semiconductor chip, leads, and members for electrically connecting these parts to each other. A part of leads, the semiconductor chip and the connecting members are encapsulated with a plastic to form a package. The plate type plastic fins formed on the surface of and integrally with the package are divided in two directions perpendicular to each other thereby forming, for example, rows and columns of fins or fin segments, on the package surface. Therefore, the semiconductor device according to the present invention can be molded easily by a transfer molding. It has a high reliability with respect to the prevention of cracks in the plastic, and a low thermal resistance, and is most suitably used to obtain a high-density package mounting structure.
摘要:
A lead frame having a plurality of inner leads and outer leads, said outer leads being subjected to surface treatment for improving solder wettability at an end portion and to sruface treatment for suppressing solder wettability at least at a portion neighboring to the end portion, or said outer leads being bent 4 times or more, is effective for improving thermal fatigue life and reliability when applied to a semi-conductor device.
摘要:
A lead frame and an electronic device incorporating the lead frame wherein the lead frame includes a chip support and a plurality of leads arranged around the chip support with each of the plurality of leads having one end disposed proximate to the chip support. The one end of at least one of the plurality of leads includes a first lead portion extending in a direction toward the chip support and a second lead portion contiguous with the first lead portion. The second lead portion extends in a direction away from the chip support so that the one of the lead has a bent shape.