Image analysis – Applications – Manufacturing or product inspection
Reexamination Certificate
1998-12-07
2002-11-05
Boudreau, Leo (Department: 2621)
Image analysis
Applications
Manufacturing or product inspection
C382S149000, C382S181000, C382S284000, C382S294000, C348S079000, C348S130000, C345S629000, C250S491100, C250S559200
Reexamination Certificate
active
06477265
ABSTRACT:
BACKGROUND OF THE INVENTION
(1) Field of the Invention
This invention relates to a system and method for the inspection of defect detection wafers and transferring the defect data to different production wafer types.
(2) Description of the Related Art
It is important to be able to identify defective portions of integrated circuit wafers during the processing of the wafers. Inspection systems, particularly automatic inspection systems which can identify and locate such defects are of considerable interest.
U.S. Pat. No. 5,649,169 to Berezin et al. describes a method and system for declustering defect data in cooperation with wafer scanning tools. This declustering allows the system to remove noise in defect data caused by wafer scratches and the like.
U.S. Pat. No. 5,479,252 to Worster et al. describes a laser imaging system used to analyze defects on semiconductor wafers that have been detected by defect detection systems.
U.S. Pat. No. 4,845,558 to Tsai et al. describes a method and apparatus for inspecting repeating pattern devices. Data is resolved from selected pixels and directly compared either to data obtained from corresponding pixels or a data base.
SUMMARY OF THE INVENTION
Defect identification systems are often used to monitor integrated circuit wafers for defects during the fabrication process.
FIG. 1
shows a schematic view of a projection system used to project mask patterns on a wafer being processed. The key elements of such a system are a light source
10
, a condenser lens
12
, a mask having the pattern to be projected
20
and held in place by a mask holder
14
, an objective lens
16
, and a wafer holder
18
holding the wafer
22
being processed. An objective lens holder
26
and a condenser lens holder
24
hold the objective lens
16
and the condenser lens
12
in place. It is possible for foreign particles to become attached to the wafer holder
18
, or wafer stage, resulting in defective wafers. To monitor for these types of defects defect detection wafers are periodically processed through the projection system and analyzed for defects. If the analysis of the detect detection wafer shows that defects have occurred, the production wafers processed between that defect detection wafer and the previous defect detection wafer must be carefully inspected for defects.
FIG. 2
shows a schematic view of a conventional system for inspecting the defect detection wafers for defects.
FIG. 2
shows a defect detection wafer under inspection
22
being held in place on a movable wafer holder
34
, a moveable objective lens
32
held in place by a movable lens holder
36
, and an image detector
30
, such as a CCD camera. The movable objective lens
32
and the movable wafer holder
34
are moved relative to each other so that the objective lens scans the entire surface of the defect detection wafer
22
. The output of the objective lens
32
is directed to the CCD camera
30
and a visual display
31
so that the image of the wafer surface can be observed for defects. If defects are found on the defect detection wafer then the production wafers processed between this defect detection wafer and the previous defect detection wafer must be carefully inspected for defects.
One of the problems that occur with this method of defect detection and inspection is that the defect detection wafer and the production wafers are usually quite different. Usually many different types of production wafers are processed between successive defect detection wafers. This problem can be better understood with reference to
FIGS. 3 and 4
.
FIG. 3
shows a top view of a defect detection wafer
22
a
showing a number of chip sites
50
and a defect
52
occurring on the wafer.
FIG. 4
shows a top view of a production wafer
22
b
showing chip sites
54
and the defect
52
occurring on the same location on the wafer. Although the defect
52
is in the same location on the production wafer
22
b
as on the defect detection wafer
22
a
, the locations do not appear the same because of the difference in the patterns on the defect detection wafers and on the production wafers. This difference in patterns make it difficult for operators to locate defects on production wafers based on information from defects on defect detection wafers, especially if the defects are subtle.
It is a primary objective of this invention to provide a system that translates defect information from defect detection wafers to production wafers so that the production wafers can easily be inspected for defects.
It is another primary objective of this invention to provide a method to translate defect information from defect detection wafers to production wafers so that the production wafers can easily be inspected for defects.
These objectives are achieved by providing an image memory in which image data of production wafers can be stored. The output of the image detector, such as a CCD camera or CCD scanner, is fed to an image processor unit which is connected to the image memory. The output of the image processor is fed to an image display. When the inspection of a defect detection wafer identifies a defect the image processor can select image data for a particular production wafer and superimpose the image data for the production wafer on the image data for the defect detection wafer. The image display will then display the image of the defect as it will appear on the production wafer. Operators or automatic inspection equipment can then easily inspect production wafers for the defect.
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Ackerman Stephen B.
Boudreau Leo
Chawan Sheela
Prescott Larry J
Saile George O.
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