Claims
- 1. An apparatus for plating tin onto a workpiece, the apparatus comprising:a) a process cell including a process anode and a workpiece cathode electrically connected to each other by a process rectifier and a process electrolyte, wherein the process electrolyte includes at least one salt of a platable tin; b) a secondary cell including a secondary soluble anode of the platable metal and a secondary cathode electrically connected to each other by a secondary rectifier and a secondary electrolyte; c) a permeability-selective ion exchange membrane dividing the secondary cell into an anolyte compartment containing the secondary soluble anode and a catholyte compartment containing the secondary cathode; d) a first conduit in fluid flow communication from the anolyte compartment to the process cell; e) a second conduit in fluid flow communication from the process cell to the anolyte compartment; and f) a controller connected between the process rectifier and the secondary rectifier.
- 2. The apparatus of claim 1 wherein the process anode is an insoluble anode selected from the group consisting of titanium coated with iridium oxide, titanium coated with ruthenium oxide and platinum plated titanium, and mixtures thereof.
- 3. The apparatus of claim 1 wherein the secondary cathode is selected from the group consisting of tin, titanium, stainless steel, copper, copper alloys, steel, ferrous alloys and nickel alloys.
- 4. The apparatus of claim 1 wherein the permeability-selective ion exchange membrane is of the cationic or anionic type.
- 5. The apparatus of claim 1 wherein the process electrolyte includes a soluble salt selected from the group consisting of tin methane sulfonic acid, tin fluoroborate and tin sulfate, and mixtures thereof.
- 6. The apparatus of claim 1 wherein the process anode is of titanium coated with either iridium oxide or ruthenium oxide and the secondary rectifier is set to a current chosen to compensate for the difference between the anode current efficiency and the cathode current efficiency in the process cell, and the current required to plate tin on the secondary cathode.
- 7. An apparatus for plating tin into a workpiece, the apparatus comprising:a) a process cell including a process anode and a workpiece cathode electrically connected to each other by a process rectifier and a process electrolyte, wherein the process electrolyte includes at least one salt of a platable tin, and wherein the process anode is of titanium coated with ruthenium oxide; b) a secondary cell including a secondary soluble anode of the platable metal and a secondary cathode electrically connected to each other by a secondary rectifier and a secondary electrolyte; c) a permeability-selective ion exchange membrane dividing the secondary cell into an anolyte compartment containing the secondary soluble anode and a catholyte compartment containing the secondary cathode; d) a first conduit in fluid flow communication from the anolyte compartment to the process cell; and e) a second conduit in fluid flow communication from the process cell to the anolyte compartment.
- 8. The apparatus of claim 7 further including a controller connected between the process rectifier and the secondary rectifier.
- 9. A method for plating tin onto a workpiece, comprising the steps of:a) providing an apparatus comprising: i) a process cell including a process anode and a workpiece cathode electrically connected to each other by a process rectifier and a process electrolyte, wherein the process electrolyte includes at least one platable salt of tin; ii) a secondary cell including a secondary soluble anode of the platable metal and a secondary cathode electrically connected to each other by a secondary rectifier and a secondary electrolyte; iii) a permeability-selective ion exchange membrane dividing the secondary cell into an anolyte compartment containing the secondary soluble anode and a catholyte compartment containing the secondary cathode; iv) a first conduit in fluid flow communication from the anolyte compartment to the process cell; and v) a second conduit in fluid flow communication from the process cell to the anolyte compartment; b) operating the process cell by passing a first current controlled by the process rectifier from the process anode to the workpiece to thereby plate the platable tin on the workpiece; c) operating the secondary cell by passing a second current controlled by the secondary rectifier from the secondary soluble anode to the secondary cathode to thereby provide a tin enriched anolyte in the anolyte compartment of the secondary cell; d) moving the tin enriched anolyte from the secondary cell to the process cell through the first conduit as the process cell is being operated; e) removing electrolyte from the process cell to the secondary cell through the second conduit; and f) a controller connected between the process rectifier and the secondary rectifier.
- 10. The method of claim 9 including providing the process anode selected from the group consisting of titanium coated with iridium oxide, titanium coated with ruthenium oxide and platinum coated titanium, and mixtures thereof.
- 11. The method of claim 9 wherein the secondary cathode is selected from the group consisting of tin, titanium, stainless steel, copper, copper alloys, steel, ferrous alloys and nickel alloys.
- 12. The method of claim 9 wherein the permeability-selective ion exchange membrane is of the cationic or anionic type.
- 13. The method of claim 9 wherein the process electrolyte includes a soluble salt selected from the group consisting of tin methane sulfonic acid, tin fluoroborate and tin sulfate, and mixtures thereof.
- 14. The method of claim 9 including providing the process anode of tin and setting the secondary rectifier at a current to compensate for the difference between the anode current efficiency and the cathode current efficiency in the process cell, and the amount of current required to plate tin on the secondary cathode.
- 15. A method for plating tin onto a workpiece, comprising the steps of:a) providing an apparatus comprising: i) a process cell including a process anode of tin and a workpiece cathode electrically connected to each other by a process rectifier and a process electrolyte, wherein the process electrolyte includes at least one platable salt of tin; ii) a secondary cell including a secondary soluble anode of the platable metal and a secondary cathode electrically connected to each other by a secondary rectifier and a secondary electrolyte; iii) a permeability-selective ion exchange membrane dividing the secondary cell into an anolyte compartment containing the secondary soluble anode and a catholyte compartment containing the secondary cathode; iv) a first conduit in fluid flow communication from the anolyte compartment to the process cell; and v) a second conduit in fluid flow communication from the process cell to the anolyte compartment; b) operating the process cell by passing a first current controlled by the process rectifier from the process anode to the workpiece to thereby plate the platable tin on the workpiece; c) operating the secondary cell by passing a second current controlled by the secondary rectifier from the secondary soluble anode to the secondary cathode to thereby provide a tin enriched anolyte in the anolyte compartment of the secondary cell, wherein the second current compensates for the difference between the anode current efficiency and the cathode current efficiency in the process cell, and the amount of current required to plate tin on the secondary cathode; d) moving the tin enriched anolyte from the secondary cell to the process cell through the first conduit as the process cell is being operated; and e) removing electrolyte from the process cell to the secondary cell through the secondary conduit.
- 16. The method of claim 15 including providing a controller connected between the process rectifier and the secondary rectifier.
CROSS-REFERENCE TO RELATED APPLICATION
The present application claims priority on provisional application Ser. No. 60/113,322, filed Dec. 22, 1998.
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Provisional Applications (1)
|
Number |
Date |
Country |
|
60/113322 |
Dec 1998 |
US |