摘要:
To provide a flip-chip mounting method and a bump formation method applicable to flip-chip mounting of a next generation LSI and having high productivity and high reliability.A semiconductor chip 20 having a plurality of electrode terminals 12 is held to oppose a circuit board 21 having a plurality of connection terminals 11 with a given gap provided therebetween, and the semiconductor chip 20 and the circuit board 21 in this state are dipped in a dipping bath 40 containing a melted resin 14 including melted solder particles for a given period of time. In this dipping process, the melted solder particles self-assemble between the connection terminals 11 of the circuit board 21 and the electrode terminals 12 of the semiconductor chip 20, so as to form connectors 22 between these terminals. Thereafter, the semiconductor chip 20 and the circuit board 21 are taken out of the dipping bath 40, and the melted resin 14 having permeated into the gap between the semiconductor chip 20 and the circuit board 21 is cured, so as to complete a flip-chip mounting body.
摘要:
A flip chip mounting process or a bump-forming process according to the present invention is characterized in that electrically-conductive particles are fixed on electrodes formed on an electronic component. A composition comprising solder powder, a convection additive and a resin component is supplied onto a surface of the electronic component, the surface is provided with the electrodes. The supplied composition is heated up to a temperature enabling the solder powder to melt. As a result, the convection additive boils or is decomposed so as to generate a gas. The generated gas produces a convection phenomenon within the supplied composition. Since the convection phenomenon promotes the movement of the solder powder, the solder powder can move freely within the composition. The electrically-conductive particles serve as nuclei for the solder powder to self-assemble and grow. As a result, the molten solder powder is allowed to self-assemble and grow in the vicinity of the electrically-conductive particles, which leads to a formation of connections or bumps.
摘要:
A flip chip mounting process or a bump-forming process according to the present invention is characterized in that electrically-conductive particles are fixed on electrodes formed on an electronic component. A composition comprising solder powder, a convection additive and a resin component is supplied onto a surface of the electronic component, the surface is provided with the electrodes. The supplied composition is heated up to a temperature enabling the solder powder to melt. As a result, the convection additive boils or is decomposed so as to generate a gas. The generated gas produces a convection phenomenon within the supplied composition. Since the convection phenomenon promotes the movement of the solder powder, the solder powder can move freely within the composition. The electrically-conductive particles serve as nuclei for the solder powder to self-assemble and grow. As a result, the molten solder powder is allowed to self-assemble and grow in the vicinity of the electrically-conductive particles, which leads to a formation of connections or bumps.
摘要:
[Problem] To provide a flip-chip mounting method and a bump formation method applicable to flip-chip mounting of a next generation LSI and having high productivity and high reliability.[Means for Solving Problem] A semiconductor chip 20 having a plurality of electrode terminals 12 is held to oppose a circuit board 21 having a plurality of connection terminals 11 with a given gap provided therebetween, and the semiconductor chip 20 and the circuit board 21 in this state are dipped in a dipping bath 40 containing a melted resin 14 including melted solder particles for a given period of time. In this dipping process, the melted solder particles self-assemble between the connection terminals 11 of the circuit board 21 and the electrode terminals 12 of the semiconductor chip 20, so as to form connectors 22 between these terminals. Thereafter, the semiconductor chip 20 and the circuit board 21 are taken out of the dipping bath 40, and the melted resin 14 having permeated into the gap between the semiconductor chip 20 and the circuit board 21 is cured, so as to complete a flip-chip mounting body.
摘要:
A flip chip mounting process wherein a semiconductor chip and a circuit substrate are electrically interconnected. The process includes the steps of preparing a semiconductor chip on which a first plurality of electrodes are formed and a circuit substrate on which a second plurality of electrodes are formed; supplying a composition onto a surface of the circuit substrate, such surface being provided with second plurality of electrodes; bringing the semiconductor chip into contact with a surface of said composition such that the first plurality of electrodes are opposed to the second plurality of electrodes; and heating the circuit substrate, and thereby electrical connections including a metal component constituting the metal particles dispersed in the composition are formed between the first plurality of electrodes and the second plurality of electrodes. Also, a thermoset resin layer is formed between the semiconductor chip and the circuit substrate.
摘要:
[Problem] To provide a flip-chip mounting method and a bump formation method applicable to flip-chip mounting of a next generation LSI and having high productivity and high reliability. [Means for Solving Problem] A semiconductor chip 20 having a plurality of electrode terminals 12 is held to oppose a circuit board 21 having a plurality of connection terminals 11 with a given gap provided therebetween, and the semiconductor chip 20 and the circuit board 21 in this state are dipped in a dipping bath 40 containing a melted resin 14 including melted solder particles for a given period of time. In this dipping process, the melted solder particles self-assemble between the connection terminals 11 of the circuit board 21 and the electrode terminals 12 of the semiconductor chip 20, so as to form connectors 22 between these terminals. Thereafter, the semiconductor chip 20 and the circuit board 21 are taken out of the dipping bath 40, and the melted resin 14 having permeated into the gap between the semiconductor chip 20 and the circuit board 21 is cured, so as to complete a flip-chip mounting body.
摘要:
[Means for Solving Problem] A semiconductor chip 20 having a plurality of electrode terminals 12 is held to oppose a circuit board 21 having a plurality of connection terminals 11 with a given gap provided therebetween, and the semiconductor chip 20 and the circuit board 21 in this state are dipped in a dipping bath 40 containing a melted resin 14 including melted solder particles for a given period of time. In this dipping process, the melted solder particles self-assemble between the connection terminals 11 of the circuit board 21 and the electrode terminals 12 of the semiconductor chip 20, so as to form connectors 22 between these terminals. Thereafter, the semiconductor chip 20 and the circuit board 21 are taken out of the dipping bath 40, and the melted resin 14 having permeated into the gap between the semiconductor chip 20 and the circuit board 21 is cured, so as to complete a flip-chip mounting body.
摘要:
A flip chip mounting process wherein a semiconductor chip and a circuit substrate are electrically interconnected. The process includes the steps of preparing a semiconductor chip on which a first plurality of electrodes are formed and a circuit substrate on which a second plurality of electrodes are formed; supplying a composition onto a surface of the circuit substrate, such surface being provided with second plurality of electrodes; bringing the semiconductor chip into contact with a surface of said composition such that the first plurality of electrodes are opposed to the second plurality of electrodes; and heating the circuit substrate, and thereby electrical connections including a metal component constituting the metal particles dispersed in the composition are formed between the first plurality of electrodes and the second plurality of electrodes. Also, a thermoset resin layer is formed between the semiconductor chip and the circuit substrate.
摘要:
In a flip chip mounted body in which a semiconductor chip (20) having a plurality of electrode terminals (21) is disposed so as to be opposed to a wiring board (10) having a plurality of connection terminals (11), with the connection terminals (11) and the electrode terminals (21) being connected electrically, a resin (13) containing electrically conductive particles (12) is supplied between the connection terminals (11) and the electrode terminals (21), the electrically conductive particles (12) and the resin (13) are heated and melted, and vibrations are applied so as to make them flow. The molten electrically conductive particles (12) are allowed to self-assemble between the connection terminals (11) and the electrode terminals (21), thereby forming connectors (22) that connect them electrically. It becomes more likely that the molten electrically conductive particles in the resin contact the connection terminals or the electrode terminals, whereby the molten electrically conductive particles self-assemble between the electrode terminals and the connection terminals that have a high wettability, making it possible to form connectors for establishing an electric connection between these terminals in a uniform manner.
摘要:
In a flip chip mounted body in which a semiconductor chip (20) having a plurality of electrode terminals (21) is disposed so as to be opposed to a wiring board (10) having a plurality of connection terminals (11), with the connection terminals (11) and the electrode terminals (21) being connected electrically, a resin (13) containing electrically conductive particles (12) is supplied between the connection terminals (11) and the electrode terminals (21), the electrically conductive particles (12) and the resin (13) are heated and melted, and vibrations are applied so as to make them flow. The molten electrically conductive particles (12) are allowed to self-assemble between the connection terminals (11) and the electrode terminals (21), thereby forming connectors (22) that connect them electrically. It becomes more likely that the molten electrically conductive particles in the resin contact the connection terminals or the electrode terminals, whereby the molten electrically conductive particles self-assemble between the electrode terminals and the connection terminals that have a high wettability, making it possible to form connectors for establishing an electric connection between these terminals in a uniform manner.