Abrading – Precision device or process - or with condition responsive... – With feeding of tool or work holder
Reexamination Certificate
2003-04-25
2004-04-20
Nguyen, George (Department: 3723)
Abrading
Precision device or process - or with condition responsive...
With feeding of tool or work holder
C451S006000, C451S010000, C451S011000, C451S056000
Reexamination Certificate
active
06722948
ABSTRACT:
FIELD
This invention relates to the field of integrated circuit fabrication. More particularly, this invention relates to improving the uniformity and other process characteristics of chemical mechanical polishing.
BACKGROUND
As integrated circuits have become smaller, they have shrunk not only in the amount of surface area required, but also in the thicknesses of the various layers by which they are formed. As the thicknesses of the layers has decreased, it has become increasingly important to planarize a given layer prior to forming a subsequent overlying layer. One of the methods used for such planarization is called chemical mechanical polishing. During chemical mechanical polishing, the surface of the layer to be planarized, thinned, or both is brought into contact with the surface of a polishing pad. The pad and the substrate are rotated and translated relative to each other in the presence of a polishing fluid, which typically contains both physical erosion particles and chemical erosion compounds. Because of the thinness of the layers and the tight tolerances desired, it is important to have a relatively high degree of control over the chemical mechanical polishing process.
One method by which control of the chemical mechanical polishing process is maintained is called conditioning. During conditioning, an implement called a conditioner is brought into contact with the surface of the pad. The conditioner is intended to erode the surface of the pad, so as to expose a portion of the pad that is presumptively more uniform and clean. Conditioning the pad may be accomplished either between substrate polishing processes, or concurrently with the polishing process. Conditioning tends to generally improve important process characteristics such as substrate to substrate repeatability, polish rate stability, pad life, down time, and overall cost of system ownership.
Because the conditioner performs such an important function, it is commensurately important to ensure that the conditioner is functioning properly. Such methods have in the past included a visual inspection of the conditioner, a “fish scale” force monitor, removing the conditioner and performing a flatness test against a known flat standard, and regularly rebuilding or replacing the conditioner. If the conditioner is miss-aligned, worn out, or warped, then it might not make complete and uniform contact with the pad. Such poor pad conditioning might result in poor processing uniformity across a substrate or from substrate to substrate, shorter pad life, increased down time, and other expenses due to yield loss.
Unfortunately, it is very difficult to detect whether the pad conditioner is performing properly, except by the dramatic indicators given above, such as short pad life and wafer non uniformity. Thus, in an extreme condition, a pad conditioner may need to be removed and completely set up anew each day, to ensure that it is in good condition and operating properly. However, this is an expensive and time-consuming process, and opens the door for mistakes to be made during the frequently repeated set up process.
What is needed, therefore, is a system by which proper operation of the pad conditioner can be more readily determined.
SUMMARY
The above and other needs are met by a modification to a chemical mechanical polishing conditioner of a type having a member with a conditioning surface adapted to apply a force to and condition a polishing pad. The conditioner includes at least one sensor disposed within the member, where the at least one sensor is adapted to sense at least one of an amount of the force applied to the polishing pad and a uniformity across the member of the force applied to the polishing pad.
In this manner, the force applied by the conditioner to the pad, and the uniformity of the force applied by the conditioner to the pad, can be sensed. In various preferred embodiments these sensed forces can be monitored, reported, and controlled, thus providing a better controlled chemical mechanical polishing process.
Preferably a controller receives signals from the at least one sensor and reports at least one of the amount of the force applied to the polishing pad and the uniformity across the member of the force applied to the polishing pad in response to the signals received from the at least one sensor. At least one pressure adjustment zone is preferably disposed along a lower edge of the member, and a controller receives signals from the at least one sensor and sends signals to the at least one pressure adjustment zone to adjust at least one of the amount of the force applied to the polishing pad and the uniformity across the member of the force applied to the polishing pad.
The at least one sensor may include strain gauges disposed along an upper edge of the member and a pressure sensor disposed along a lower edge of the member. Further, the at least one sensor may be a multi-zone pressure sensor or a plurality of pressure sensors disposed along a lower edge of the member. The member preferably includes a rigid member and a conditioning pad wrapped around a lower edge of the rigid member, where the at least one sensor is disposed between the lower edge of the rigid member and the conditioning pad.
According to another aspect of the invention there is described a chemical mechanical polisher including the conditioner described herein.
REFERENCES:
patent: 5749772 (1998-05-01), Shimokawa
patent: 5827112 (1998-10-01), Ball
patent: 6343974 (2002-02-01), Fran.cedilla.a et al.
patent: 6402597 (2002-06-01), Sakurai et al.
patent: 6517414 (2003-02-01), Tobin et al.
patent: 2003/0013394 (2003-01-01), Choi et al.
LSI Logic Corporation
Luedeka Neely & Graham P.C.
Nguyen George
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