Abstract: A chip scale package mainly comprises a substrate attached to the active surface of a semiconductor chip through an anisotropic conductive adhesive film (ACF). The substrate is provided with a plurality of contact pads on the lower surface thereof and a plurality of solder pads on the upper surface thereof wherein the contact pads are electrically coupled to corresponding solder pads. A plurality of metal bumps provided on the contact pads of the substrate. The metal bumps on the substrate are electrically coupled to corresponding bonding pads on the chip through the ACF. The side portions of the substrate and the ACF are sealed in a package body. The present invention further provides a method of making the chip scale package at the wafer level. The method is characterized by attaching substrates onto the chips of a wafer one by one so as to greatly reduce the problems associated with CTE mismatch between the wafer and the substrate thereby significantly enhancing the product yield.

Abstract: A chip scale package mainly comprises a substrate attached to the active surface of a semiconductor chip through an anisotropic conductive adhesive film (ACF). The substrate is provided with a plurality of contact pads on the lower surface thereof and a plurality of solder pads on the upper surface thereof wherein the contact pads are electrically coupled to corresponding solder pads. A plurality of metal bumps provided on the contact pads of the substrate. The metal bumps on the substrate are electrically coupled to corresponding bonding pads on the chip through the ACF. The side portions of the substrate and the ACF are sealed in a package body. The present invention further provides a method of making the chip scale package at the wafer level. The method is characterized by attaching substrates onto the chips of a wafer one by one so as to greatly reduce the problems associated with CTE mismatch between the wafer and the substrate thereby significantly enhancing the product yield.

Abstract: A chip scale package comprises a film substrate attached to the active surface of a semiconductor chip by an adhesive layer. The adhesive layer has a plurality of apertures formed corresponding to bonding pads on the chip. The film substrate includes a film and a plurality of conductive leads formed thereon. The film has a plurality of first openings formed corresponding to the apertures of the adhesive layer and a plurality of second openings. Each lead on the film has a first end portion projecting into one of the first openings of the film and a second end portion exposed from one of the second openings of the film. Each aperture and corresponding first opening are filled with a conductive paste embedding the first end portion of one lead therein so as to electrically connect the bonding pads of the chip and the conductive leads of the film substrate. A plurality of solder bumps formed on the second end portions of leads through the second openings of the film.

Abstract: A chip scale package mainly comprises a substrate attached to the active surface of a semiconductor chip through an anisotropic conductive adhesive film (ACF). The substrate is provided with a plurality of contact pads on the lower surface thereof and a plurality of solder pads on the upper surface thereof wherein the contact pads are electrically coupled to corresponding solder pads. A plurality of metal bumps provided on the contact pads of the substrate. The metal bumps on the substrate are electrically coupled to corresponding bonding pads on the chip through the ACF. The side portions of the substrate and the ACF are sealed in a package body. The present invention further provides a method of making the chip scale package at the wafer level. The method is characterized by attaching substrates onto the chips of a wafer one by one so as to greatly reduce the problems associated with CTE mismatch between the wafer and the substrate thereby significantly enhancing the product yield.

Abstract: A chip scale package comprises a film substrate attached to the active surface of a semiconductor chip by an adhesive layer. The adhesive layer has a plurality of apertures formed corresponding to bonding pads on the chip. The film substrate includes a film and a plurality of conductive leads formed thereon. The film has a plurality of first openings formed corresponding to the apertures of the adhesive layer and a plurality of second openings. Each lead on the film has a first end portion projecting into one of the first openings of the film and a second end portion exposed from one of the second openings of the film. Each aperture and corresponding first opening are filled with a conductive paste embedding the first end portion of one lead therein so as to electrically connect the bonding pads of the chip and the conductive leads of the film substrate. A plurality of solder bumps formed on the second end portions of leads through the second openings of the film.