Chemistry: electrical and wave energy – Apparatus – Coating – forming or etching by sputtering
Reexamination Certificate
2001-02-17
2002-04-23
McDonald, Rodney G. (Department: 1753)
Chemistry: electrical and wave energy
Apparatus
Coating, forming or etching by sputtering
C204S298210
Reexamination Certificate
active
06375815
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to equipment employed for the coating of substrate articles by magnetron sputtering and, more specifically, to the design of rotatable targets and target mounting spindles used by such equipment, as well as methods and apparatus for affixing such targets to a target mounting spindle.
2. Description of the Prior Art
For at least several decades, sputtering has been the dominant process for the deposition of thin coatings on large-surface-area substrates, such as architectural glass panels, automobile windshields, and the like. The coating materials are deposited with a magnetron in a vacuum chamber containing a reactive gas. Although planar magnetrons were used initially for sputtering processes, rotating cylindrical magnetrons have now come into wide use. This is because cylindrical magnetrons, though more complex than their planar counterparts, typically feature higher deposition rates, higher material utilization per cathode target, lower maintenance frequency, and greater cost efficiency. Another major advantage of using a rotating cylindrical target, as opposed to a planar target, is that dielectric silicon compounds, such as silicon nitride and silicon dioxide, can be sputtered with ease. Such compounds are extremely difficult to sputter using a planar target.
Various mechanisms for supporting, rotating, cooling and energizing a cylindrical target structure in a magnetron, are described in U.S. Pat. No. 5,096,562 to Boozenny, et al. The structure employs a removable support spindle at each end of the cylindrical target structure. A first support spindle at one end supplies and withdraws cooling fluid from within the cylinder and contains a driving mechanism to rotate it, while a second support spindle at the other end contains the electrical power connection to the target surface.
An improved apparatus to releasably affix a rotatable cylindrical magnetron target to a support spindle is disclosed in U.S. Pat. No. 5,591,314 to Morgan, et al. The inventors claim that a primary disadvantage of the Boozenny, et al. design is frequent breakdowns caused by coolant leaks at the interface between the first support spindle and the cylindrical target structure. The leaks are due to the fact that one side of any seal at the spindle-to-target interface is subjected to the low pressure present within the deposition chamber, while the other side of the seal is subjected to high coolant pressure. The Morgan, et al. apparatus supposedly improves on the Boozenny, et al. apparatus by providing a removable coiled wire thread connection system, by employing a single coolant seal ring, to which uniform pressure is applied as the target is attached to the support spindle. For a preferred embodiment, the target, the spindle, and the coiled wire thread are made from dissimilar materials.
Though the Morgan, et al. apparatus seems to be a significant improvement over the Boozenny, et al. apparatus, there are several disadvantages associated with the design of the former. Firstly, the use of the coiled wire thread requires that a spiral groove be machined in the cylindrical target body, thereby weakening the structure. The thickness of the target cylinder at the deepest point of the groove is only about 1.0 millimeter (0.030 inch). Secondly, the target body sealing surface is on a circumferential edge thereof. As the edge has little surface area, it is easily nicked. Nicks in the sealing surface may well cause coolant leaks. Thirdly, the coupling arrangement between target and spindle does not permit the transfer of large torque loads. Fourthly, the threaded coupling arrangement does not lend itself to evenly distributed clamping forces between the target and the spindle.
What is needed is are new cylindrical target and spindle designs which eliminate the disadvantages of the prior art targets and spindles.
SUMMARY OF THE INVENTION
The present invention includes a method and apparatus for attaching a rotating cylindrical magnetron target to an existing, rotatable flanged support spindle. Several design improvements have been incorporated into the magnetron target, and the attachment apparatus is specifically designed to couple the improved magnetron target to the support spindle. The objectives in creating the improved magnetron target and attachment apparatus were to improve the reliability of a rotating cylindrical magnetron cathode, decrease the time required to change out an installed target, decrease the likelihood of coolant leaks by providing a target that is less likely to become marred or nicked on the sealing surface, improve the structural integrity of the target, and provide a target-spindle unifying clamp system which provides more even distribution of clamping pressure, thereby permitting the transfer of much larger torque loads from the spindle to the target.
The improved target includes a circumferential lip, which fits over the spindle's outer mating circumferential edge. This lip affords additional protection to a circumferential sealing surface on the target, so that it is less likely to become mechanically damaged. The circumferential lip extends from a circumferential shoulder that terminates in a circumferential, inwardly-angled, overhanging step. The target and spindle are coupled together with an generally annular retainer ring having external, outwardly-facing circumferential threads, and a split clamping collar having an inwardly-angled clamping ledge at one end thereof that mates with the overhanging circumferential step on the target, and internal, inwardly-facing circumferential threads at the other end, which mate with the external threads of the retainer ring. The retainer ring is rotated with a spanner wrench so as to engage the threads of the split clamping collar. As the retainer ring engages the rear face of the spindle flange, the clamping collar and retainer ring act in concert to draw the target and spindle together as a unified assembly. As the target and spindle are drawn together, the circumferential sealing edge of the target compresses an O-ring seal set within an annular groove in the spindle.
REFERENCES:
patent: 5591314 (1997-01-01), Morgan et al.
Clarkson Melvin Marion
Lynn David Mark
Fox III Angus C.
Lynn David Mark
McDonald Rodney G.
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