摘要:
A method for wafer to wafer bonding in semiconductor packaging provides for roughening the bonding surfaces in one embodiment. Also provided is a method for passivating the bonding surfaces with a lower melting point material that becomes forced away from the bonding interface during bonding. Also provided is a method for forming an eutectic at the bonding interface to reduce the impact of any native oxide formation at the bonding interface.
摘要:
A method for the assembly of a semiconductor package that includes cleaning a surface of a chip and a surface of a heat removal device by reverse sputtering is given. The method includes sequentially coating the surface of the chip and the surface of the heat removal device with an adhesive layer, a barrier layer, and a protective layer over a target joining area. The chip and the heat removal device are placed into carrier fixtures and preheated to a target temperature. Then a metallic thermal interface material (TIM) preform is mechanically rolled onto the surface of the chip and the first and the second carrier fixtures are attached together such that the metallic TIM layer on the surface of the chip is joined to the coated surface of the heat removal device through a fluxless process. The method includes heating the joined carrier fixtures in a reflow oven.
摘要:
A method for wafer to wafer bonding in semiconductor packaging provides for roughening the bonding surfaces in one embodiment. Also provided is a method for passivating the bonding surfaces with a lower melting point material that becomes forced away from the bonding interface during bonding. Also provided is a method for forming an eutectic at the bonding interface to reduce the impact of any native oxide formation at the bonding interface.
摘要:
A semiconductor device includes, an alloy layer sandwiched between a first Ag layer formed on a mounting board or circuit board and a second Ag layer formed on a semiconductor element, wherein the alloy layer contains an intermetallic compound of Ag3Sn formed by Ag components of the first Ag layer and the second Ag layer and Sn, and wherein a plurality of wires containing Ag are arranged extended from an outside-facing periphery of the alloy layer.
摘要:
The invention relates to a process for assembling a first element that includes at least one first wafer, substrate or at least one chip, and a second element of at least one second wafer or substrate, involving the formation of a surface layer, known as the bonding layer, on each substrate, at least one of these bonding layers being formed at a temperature less than or equal to 300° C.; conducting a first annealing, known as degassing annealing, of the bonding layers, before assembly, at least partly at a temperature at least equal to the subsequent bonding interface strengthening temperature but below 450° C.; forming an assembling of the substrates by bringing into contact the exposed surfaces of the bonding layers, and conducting an annealing of the assembled structure at a bonding interface strengthening temperature below 450° C.
摘要:
The invention relates to a process for assembling a first element that includes at least one first wafer, substrate or at least one chip, and a second element of at least one second wafer or substrate, involving the formation of a surface layer, known as the bonding layer, on each substrate, at least one of these bonding layers being formed at a temperature less than or equal to 300° C.; conducting a first annealing, known as degassing annealing, of the bonding layers, before assembly, at least partly at a temperature at least equal to the subsequent bonding interface strengthening temperature but below 450° C.; forming an assembling of the substrates by bringing into contact the exposed surfaces of the bonding layers, and conducting an annealing of the assembled structure at a bonding interface strengthening temperature below 450° C.
摘要:
A semiconductor device includes, an alloy layer sandwiched between a first Ag layer formed on a mounting board or circuit board and a second Ag layer formed on a semiconductor element, wherein the alloy layer contains an intermetallic compound of Ag3Sn formed by Ag components of the first Ag layer and the second Ag layer and Sn, and wherein a plurality of wires containing Ag are arranged extended from an outside-facing periphery of the alloy layer.
摘要:
The invention relates to a process for assembling a first element that includes at least one first wafer, substrate or at least one chip, and a second element of at least one second wafer or substrate, involving the formation of a surface layer, known as a bonding layer, on each substrate, at least one of the bonding layers being formed at a temperature less than or equal to 300° C.; conducting a first annealing, known as degassing annealing, of the bonding layers, before assembly, at least partly at a temperature at least equal to the subsequent bonding interface strengthening temperature but below 450° C.; forming an assembling of the substrates by bringing into contact the exposed surfaces of the bonding layers, and conducting an annealing of the assembled structure at a bonding interface strengthening temperature below 450° C.
摘要:
The invention relates to a process for assembling a first element that includes at least one first wafer, substrate or at least one chip, and a second element of at least one second wafer or substrate, involving the formation of a surface layer, known as a bonding layer, on each substrate, at least one of the bonding layers being formed at a temperature less than or equal to 300° C.; conducting a first annealing, known as degassing annealing, of the bonding layers, before assembly, at least partly at a temperature at least equal to the subsequent bonding interface strengthening temperature but below 450° C.; forming an assembling of the substrates by bringing into contact the exposed surfaces of the bonding layers, and conducting an annealing of the assembled structure at a bonding interface strengthening temperature below 450° C.
摘要:
A method for the assembly of a semiconductor package that includes cleaning a surface of a chip and a surface of a heat removal device by reverse sputtering is given. The method includes sequentially coating the surface of the chip and the surface of the heat removal device with an adhesive layer, a barrier layer, and a protective layer over a target joining area. The chip and the heat removal device are placed into carrier fixtures and preheated to a target temperature. Then a metallic thermal interface material (TIM) preform is mechanically rolled onto the surface of the chip and the first and the second carrier fixtures are attached together such that the metallic TIM layer on the surface of the chip is joined to the coated surface of the heat removal device through a fluxless process. The method includes heating the joined carrier fixtures in a reflow oven.