Integral machine for polishing, cleaning, rinsing and drying...

Abrading – Machine – Rotary tool

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C451S339000

Reexamination Certificate

active

06213853

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates, generally, to a self-contained machine for polishing, cleaning, rinsing, and spin-drying semiconductor wafer workpieces and, more particularly, to an improved system for receiving a cassette of wafers; CMP polishing, cleaning, rinsing and drying the wafers; and returning the polished and cleaned wafers to the same cassette and to the same slot from which they were taken.
BACKGROUND OF THE INVENTION
Machines for polishing and machines for cleaning wafers and disks in the electronics industry are generally well known. For example, semiconductor wafers, magnetic disks, and other workpieces often come in the form of flat, substantially planar, circular disks. In the manufacture of integrated circuits, semiconductor wafer disks are sliced from a silicon ingot and prepared for further processing. After each wafer is sliced from the ingot, it must be thoroughly polished and then cleaned, rinsed, and dried to remove debris from the surface of the wafer. Thereafter, a series of steps are performed on the wafer to build the integrated circuits on the wafer surface, including applying a layer of microelectronic structures and thereafter applying a dielectric layer. Typically, after the layers are fabricated on the wafer surfaces, the wafers must be planarized to remove excess material and imperfections.
After each processing step, it is often desirable to thoroughly clean, rinse, and dry the wafers to ensure that debris is removed from the wafers. Thus, a method and apparatus for quickly and efficiently cleaning, rinsing, and drying wafers is needed which facilitates high wafer throughput, while at the same time thoroughly cleaning and drying the wafers with a minimum of wafer breakage. For a discussion of existing wafer cleaning machines, see, for example, Lutz, U.S. Pat. No. 5,442,828, issued Aug. 22, 1995; Frank et al., U.S. Pat. No. 5,213,451, issued May 25, 1993; and Onodera, U.S. Pat. No. 5,357,645, issued Oct. 25, 1994.
Presently, CMP polishing and/or planarization is performed by one machine and wafer cleaning and drying is performed by another, separate machine. After a processing layer (i.e., oxide, tungsten or the like) has been deposited on the surface of the wafers, the dry wafers are placed in a cassette and hand carried to a CMP polishing machine. The CMP machine removes excess material by planarizing the wafers, and then typically rinses the wafers and places the wafers into a wet cassette. After polishing, residual particles still reside on the wafer's surface. If these particles dry on the wafer prior to cleaning, the microelectronic structures on the wafer may be corrupted. Therefore, it is extremely important to keep the wafers wet prior to cleaning and drying the wafers. From the CMP machine, the wet cassettes are hand carried to a separate wafer cleaning and drying machine which is typically located somewhere near the CMP machine.
This conventional practice of utilizing separate machines for wafer polishing and for wafer cleaning and drying has serious drawbacks. First, wafer manufacturers must have personnel, equipment and facilities on hand to transport wafers in a wet environment from a CMP machine to a cleaning and drying machine. Secondly, having separate machines for polishing wafers and for cleaning wafers consumes a significant amount of clean room space which, as one skilled in the art will appreciate, is very expensive.
SUMMARY OF THE INVENTION
The present invention overcomes the shortcomings of conventional prior art systems by integrating the polishing, cleaning and drying functions in one machine.
Accordingly, a primary object of the present invention is to provide a combined wafer CMP polishing, cleaning and drying machine in which wafers are removed from a dry cassette, polished, cleaned, dried and returned to the same cassette and slot from which they were removed.
Another object of the present invention is to maintain the load station, the cleaning stations and the drying stations of the combined polishing and cleaning machine at a class 1-10 clean room environment. Positive laminar air flow from the load and cleaning stations of the machine into the CMP station of the machine is utilized to maintain the clean environment within the load and cleaning stations. The positive air flow ensures that slurry and other particles that may be liberated from the wafers during polishing do not migrate into or otherwise contaminate the clean environment.
Another aspect of the present invention is utilization of a six-axis robot to remove wafers from a dry cassette and to transport the wafers to an index table within the CMP station of the machine. The robot is also configured to transport wet wafers from a rinse station in the cleaning station of the machine to a spin dryer station also located in the cleaning station. The robot also removes the dry wafers from the spin dryer station and places them back into the cassettes located in the load station of the machine. The robot has a wet end effector and a dry end effector to ensure that wet and dry wafers are isolated during transport. The dry end effector is used to unload and load dry cassettes, and the wet end effector is used to move wet wafers from the rinse station to the spin dryer station.
Another feature of the present invention is a wafer mapping system which determines which slots within a wafer cassette is occupied by wafers. The mapping system also determines whether wafers are properly aligned within the slots and whether more than one wafer is within a particular slot. The mapping system preferably comprises an optical scanning device, such as a video camera, mounted in a mounting bracket attached to a top portion of the robot and a system processor configured to interpret and process the signals from the scanning device. When a cassette is placed on the polishing and cleaning machine, the robot end-effector retrieves the scanning device (camera) from the mounting bracket and traverses up and down in front of the cassette, allowing the optical scanner to view the contents of the cassette. Additionally, a back lighting source behind the cassette may be utilized to increase the effectiveness of the optical scan vision system.
The CMP station is preferably configured to receive and polish five wafers at a time. After the wafers are loaded by the robot onto an index table, a multi-head transport apparatus lowers five wafer carrier heads into proximity with the index table and picks up the wafers. The transport apparatus then moves laterally until it is positioned above a polishing surface. The transport apparatus is then lowered such that the wafers are pressed against the polishing surface. To enhance the polishing process, a polishing slurry is preferably provided, and the individual carriers are rotated on and oscillated radially across the polishing surface. After polishing, the wafers are returned to unload cups in the index table. A flipper apparatus then transfers the wafer from the unload cups to the cleaning station of the machine.
The cleaning station of the machine preferably comprises a water track, cleaning stations, a rinse station, a spin dryer station and a plurality of wafer staging areas. More specifically, when a wafer is first loaded into the cleaning station from the CMP station of the machine, the wafer is held at a first staging area until the machine determines that it is clear to release the wafer. When cleared, water jets urge the wafer into a first cleaning station configured to wash and clean both surfaces of the wafer. From the first cleaning station, the wafer is transported down a water track into a second staging area. Again, the wafer is held at this position until the machine determines that the wafer in front of it has cleared to the next station. From the second staging area, water jets urge the wafer into a second cleaning station for a second cleaning of the wafer. The wafer then exits the second cleaning station into a third staging area. From the third staging area, the wafer is transported down a water

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Integral machine for polishing, cleaning, rinsing and drying... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Integral machine for polishing, cleaning, rinsing and drying..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Integral machine for polishing, cleaning, rinsing and drying... will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2499172

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.