Electrolysis: processes – compositions used therein – and methods – Electrolytic coating – Depositing predominantly single metal or alloy coating on...
Reexamination Certificate
2000-05-05
2002-11-12
Nguyen, Nam (Department: 1741)
Electrolysis: processes, compositions used therein, and methods
Electrolytic coating
Depositing predominantly single metal or alloy coating on...
C205S104000, C205S252000, C205S123000
Reexamination Certificate
active
06478944
ABSTRACT:
DETAILED DESCRIPTION OF THE INVENTION
Field of Utilization in Industry
The present invention relates to a to-be-mounted electronic component to which functional alloy plating using a bonding material for mounting is applied with a substitute bonding material for solder (tin-lead alloy), and aims at providing alloy plating which has been put to a practical use in such a way that the function of existing alloy plating of this type has been significantly improved to eliminate toxic plating from various kinds of electronic components for use in electronic devices so that it is useful in protecting the environment.
Background of the Invention
As solder which does not use lead (Pb) (Pb-free solder), various new bonding agents have been developed and their properties become apparent. And, the stage is proceeding to the development of their manufacturing methods. Tin (Sn)-bismuth (Bi), Sn-indium alloy-(In), Sn-zinc alloy (Zn), Sn plating etc. are considered as Pb-free solder to devices. The cost for the Sn—In alloy among them is extremely high, about 25 times the cost for Sn—Bi The Sn—Zn alloy has a problem on the solderability after heat resistance because Zn is prone to be oxidized. This leaves Sn—Ag, Sn—Bi and Sn.
Bi on copper may be thermally diffused at the time of reflow and may be peeled, so that Sn—Bi for devices should have nickel applied as a base in order to avoid the peeling.
If a coat offset (melt-originated offset) occurs when a surface-mounting device is melted, tho bonding surface has a rough surface, so that the bonding surface becomes smaller, thus lowering the bonding strength. Prevention of a melt-originated offset which makes organic eutectoid in a coat extremely small is attempted by applying plating according to this invention.
Prior Art
Conventionally, solder (tin-lead alloy) has been used for a long time as a bonding material for mounting electronic device components. Recently, the harmfulness of lead has been noticed mainly in America and Europe and removal of lead from electronic devices has progressed rapidly.
Meanwhile, in Japan has already started a movement of voluntary removal mainly by the electronics industry.
Electroplating is applied to most of materials for to-be-mounted electronic components as tinning. Therefore, there is a pressing need to industrialize plating of substitute alloys for the industrial growth.
Problem to be Solved by the Invention
As solder which is an essential bonding material for the aforementioned electronic components contain lead (Pb), however, when electronic devices are disposed of, lead would be melted and seep into groundwater from a junk yard, raising a problem of environmental pollution, unless electronic components having to-be-mounted parts containing solder's lead are removed.
Means for Solving the Problem
Accordingly, it is an object of this invention to overcome the problem of the prior art and to provide electronic components to be on which very practical alloy plating for bonding that is the existing alloy plating of this type which has been improved significantly is applied using a substitute metal for lead in solder alloy plating.
The first of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that with Sn as a base, one of Bi, Ag and Cu is selected, a Bi content to the Sn is set to 1.0% or less, the Bi content to the Sn is set to 2.0 to 10.0%, an Ag content to the Sn is set to 1.0 to 3.0%, the Ag content to the Sn is set to 3.0 to 5.0%, the Ag content to the Sn is set to 8.0 to 10.0%, or a Cu content to the Sn is set to 5 to 1.0%, and an electrolytic process is performed with a special waveform.
The second of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an IC chip is wire-bonded to a lead frame and outer leads exposed outside a molded IC package are subjected to an electrolytic process with a Bi content to Sn whose content is 99.0% or greater being set to 1.0% or less and with a special waveform.
The third of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an IC chip is wire-bonded to a lead frame and outer leads exposed outside a molded IC package are subjected to an electrolytic process with a Si content to Sn whose content is 98.0 to 90.0% being set to 2.0 to 10.0% and with a special waveform.
The fourth of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an IC chip is wire-bonded to a lead frame and outer leads exposed outside a molded IC package are subjected to an electrolytic process with an Ag content to Sn whose content is 99.0 to 97.0% being set to 1.0 to 3.0% and with a special waveform.
The fifth of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an IC chip is wire-bonded to a lead frame and outer leads exposed outside a molded IC package are subjected to an electrolytic process with an Ag content to Sn whose content is 97.0 to 95.0% being set to 3.0 to 5.0% and with a special waveform.
The sixth of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an IC chip is wire-bonded to a lead frame and outer leads exposed outside a molded IC package are subjected to an electrolytic process with an Ag content to Sn whose content is 92.0 to 90.0% being set to 8.0 to 10.0% and with a special waveform.
The seventh of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an IC chip is wire-bonded to a lead frame and outer leads exposed outside a molded IC package are subjected to an electrolytic process with a Cu content to Sn whose content is 99.5 to 99.0% being set to 0.5 to 1.0% and with a special waveform.
The eighth of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an electrode pattern of a printed circuit board is subjected to an electrolytic process with a Bi content to Sn whose content is 99.0% or greater being set to 1.0% or less and with a special waveform.
The ninth of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an electrode pattern of a printed circuit board is subjected to an electrolytic process with a Bi content to Sn whose content is 98.0 to 90.0% being set to 2.0 to 10.0% and with a special waveform.
The tenth of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an-electrode pattern of a printed circuit board is subjected to an electrolytic process with an Ag content to Sn whose content is 99.0 to 97.0% being set to 1.0 to 3.0% and with a special waveform.
The eleventh of this invention is functional alloy plating using substitute bonding material for Pb and electronic component to be mounted to which the functional alloy plating is applied, characterized in that an electrode pattern of a printed circuit board is subjected to an electrolytic process with an Ag content to a content of 97.0 to 95.0% being set to 3.0 to 5.0% and with a special waveform.
The twe
Greenblum & Bernstein P.L.C.
Nguyen Nam
Nicolas Wesley A.
Nishihara Rikoh Corporation
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