KR101230203B1 - Detection device of surface defect of wafer polishing head - Google Patents

Abstract

The present invention is located in the lower portion of the rotating wafer polishing head but inclined upward to repeatedly photograph the lower edge inspection area inside the head, and the integrated lens and the scanning coupled with the lens in the waterproof case. A photographing unit equipped with a camera; An image processing board converting an image photographed by the scanning camera into a digital signal; And extracting an image of the defect portion from the digital signal obtained from the image processing board, determining a position of the defect portion, and determining whether the defect portion appears periodically, in which case it is determined as a surface defect of the wafer polishing pad. It provides a surface defect detection apparatus of a wafer polishing head comprising an image processor.

Description

DETECTION DEVICE OF SURFACE DEFECT OF WAFER POLISHING HEAD

The present invention relates to an apparatus for detecting a surface defect of a wafer polishing head, and more particularly, to a foreign matter temporarily buried in a minute scratch defect mainly occurring in the inner edge region of the polishing head during a wafer polishing process using the wafer polishing apparatus. The present invention relates to a device capable of automatically and accurately detecting the data accurately and quickly.

1 is a schematic view showing an example of a wafer polishing apparatus according to the present invention. The illustrated polishing apparatus 1 has a wafer polishing head 10 and one rotating table (not shown) respectively provided in four rotatable rotating holders 2, and generally, a polishing pad is fixed on the rotating table. have. Generally, the wafer polishing pad 10 is provided with a plurality of through holes (not shown) perpendicular to the wafer support surface, and these through holes are connected to a vacuum line (not shown) in the rotary holder 2. . The semiconductor wafer to be polished is vacuum-absorbed to the wafer support surface through the through-hole and the vacuum line and is supported by the polishing head 10. .

In the conventional general polishing apparatus as described above, scratches due to the collision of the wafer are generated in the inner lower edge area of the polishing pad during the polishing of the wafer. Such scratches cause many problems such as interrupting the wafer polishing process to produce defective products.

Conventionally, the work has been done by the naked eye by the operator for the detection of such scratches, but it is impossible to clearly diagnose the minute scratches or temporary defects through this process. Even in this situation, there is no known device and method capable of detecting these defects clearly and automatically and quickly.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and its purpose is to provide a temporary solution to fine scratchability defects that occur mainly in the inner edge region of the polishing head during the polishing of a wafer using a wafer polishing apparatus. It is to provide a device that can be detected accurately and quickly and automatically distinguished from foreign matter buried in.

The technical problem of the present invention as described above is achieved by the following means.

(1) Located in the lower part of the rotating wafer polishing head, and tilted upward, repeatedly photographing the lower edge inspection area inside the head over the entire circumference, and the integrated lens and the scanning coupled with the lens in the waterproof case. A photographing unit equipped with a camera; An image processing board converting an image photographed by the scanning camera into a digital signal; And extracting an image of the defect portion from the digital signal obtained from the image processing board, determining a position of the defect portion, and determining whether the defect portion appears periodically, in which case it is determined as a surface defect of the wafer polishing pad. Surface defect detection apparatus of the wafer polishing head comprising an image processor.

(2) The apparatus for detecting surface defects of a wafer polishing head according to claim 1, wherein the scanning camera is a line scan or an area scan camera.

According to the present invention, it is possible to detect accurately and quickly and automatically by distinguishing from the foreign matter temporarily buried in the minute scratch defect mainly occurring in the inner edge region of the polishing head during the wafer polishing process using the wafer polishing apparatus. .

1 is a block diagram of a conventional general wafer polishing apparatus.
2 is a layout view of an apparatus for detecting a surface defect of a wafer polishing head according to the present invention.
3 is a detailed layout view of an apparatus for detecting a surface defect of a wafer polishing head according to the present invention.
4 is a block diagram of an apparatus for detecting a surface defect of a wafer polishing head according to the present invention.
5 is an exemplary result of capture data obtained according to the present invention.
6 is an actual photograph measured by repeatedly measuring the inner edge of the polishing head using a defect detection device of the wafer polishing head according to the present invention.
Fig. 7 is a part of photographs obtained by measuring edges of wafer polishing heads covered with moisture;
8 is a procedure flow for detecting surface defects of a wafer polishing head in accordance with the present invention.

The present invention is located in the lower portion of the rotating wafer polishing head but inclined upward to repeatedly photograph the lower edge inspection area inside the head, and the integrated lens and the scanning coupled with the lens in the waterproof case. A photographing unit equipped with a camera; An image processing board converting an image photographed by the scanning camera into a digital signal; And extracting an image of the defect portion from the digital signal obtained from the image processing board, determining a position of the defect portion, and determining whether the defect portion appears periodically, in which case it is determined as a surface defect of the wafer polishing pad. It provides a surface defect detection apparatus of a wafer polishing head comprising an image processor.

Hereinafter, the content of the present invention will be described in more detail with reference to the accompanying drawings.

Fig. 2 shows an embodiment of a photographing section used for photographing the inner inspection area of the wafer polishing head used in the present invention.

The photographing unit 30 used in the present invention preferably has an integrated lens 31 having an illumination mounted in the waterproof case 33 for protecting the lens and the scanning camera from a large amount of water generated during the polishing process. The scanning camera 32 coupled with the lens is mounted.

As shown in FIG. 2, the photographing unit 30 is disposed under the wafer polishing head 10 to continuously photograph a predetermined area including the inner edge of the polishing head using the scanning camera 32. . As the scanning camera 32 that can be used in the present invention, both a line scan camera or an area scan camera can be used.

As shown in FIG. 3, the scanning camera 32 is positioned below the rotating polishing head 10 to be inclined upward to be adsorbed onto the inner edge region S of the head, that is, the polishing pad 10. (20) Provides an image obtained by photographing successively repeatedly the area around the edge. Reference numeral 11 denotes a rubber pad.

The image obtained as described above provides information for judging if defects due to temporary foreign matter adhesion and surface defects due to the occurrence of scratches. In other words, when foreign matter temporarily adheres to the inner edge region of the polishing head, it is often separated from the polishing head during the polishing process, and in this case, the surface defect should not be determined. On the other hand, in the case of scratches inside the polishing head generated during the polishing of the wafer, this remains as a permanent surface defect and is represented as a repetitive pattern on the image through continuous repetitive shooting.

As described above, in the present invention, the defect pattern does not repeatedly appear at the same position on the image obtained by photographing continuously in the case of a defect that is temporarily present. This makes it possible to finally determine whether there is a defect through a predetermined image processing process.

Figure 4 shows the device configuration and signal processing for performing the defect detection process in the polishing head as described above.

The photographing unit 30 repeatedly photographs the inner edge of the rotating polishing head 10, and the photographed image is transmitted to an image processing board 40 and converted into a digital signal. Image processing boards (Grabber Board) are currently available or any type of image processing board type modified by the user for some specific applications can be used. The image processing board transmits the converted image digital signal to the image processor 50 through a PCI bus or the like.

The image processor 50 may detect the presence of surface defects, process image data, calculate a result value, and display the detection result to the inspector through the monitor 60 through a graphic user interface that is easy for the user to see.

5 shows an imaginary experimental result that can be obtained by continuously photographing an inspection area including the inner edge of the polishing head using the camera 32 at the bottom while rotating the polishing head three times.

Referring to this, first, a specific pattern that is assumed to be a defect is observed at a rotation angle of 90 degrees and a 180 degree position from the data captured during the first rotation, and a pattern at the 90 degree position in the captured data during the second rotation. Is disappeared and again a specific pattern is observed at 0 degrees, 180 degrees and 270 degrees. In the third rotation, the pattern disappeared at 0 degrees, 270 degrees, and the specific patterns shown at 0 degrees, 90 degrees, and 270 degrees were obtained due to temporary attachment of foreign matter or temporary light interference. It is judged that there is no defect. On the other hand, the pattern observed at the 180-degree position appears periodically and can be seen as a surface defect due to permanent scratches.

6 is an actual photograph measured by repeatedly measuring the inner edge of the polishing head using the defect detection apparatus of the wafer polishing head according to the present invention, and it can be seen that three defect positions are clearly obtained. It can be seen that even in this inspection area, there is no effect on analyzing the image due to moisture.

7 is a part of a photograph of the edges of the wafer polishing head covered with moisture, and marks and marks obtained by the permanent adsorption of other substances generated during the polishing process and scratches caused by the wafer edges and the like. The analysis shows that it can be clearly distinguished.

8 shows in detail the entire flow of the defect detection process of the wafer polishing head according to the present invention.

If in step 901 the polishing head 10 is drawn into the inspection position where the camera 32 is disposed below, it is checked whether the polishing head 10 is in the correct position for inspection (step 902). This process may be performed by a separate controller 70.

When the polishing head 10 is fixed in the correct position for inspection, while rotating the polishing head at a constant speed (step 903), the camera 32 continuously captures an image by repeatedly photographing the inner edge region of the polishing head ( Step 904). The captured image obtained through the above steps is processed by the image processor 50 via the image processing board 40 (step 905). From the data obtained through the above process, a mark or pattern estimated as a defect is measured (step 906). If a mark or pattern that appears periodically and repeatedly is measured, it is determined as a surface defect, and otherwise, the mark or pattern is determined at a specific period. If the pattern is measured but disappears in the next cycle, it is determined that it is not a surface defect (step 907). If it is determined that the polishing pad 10 is defective according to the determination result, the result is stored as data and displayed on the inspector monitor screen (step 908), and the polishing head is switched to the standby mode for replacement or repair ( Step 909). On the other hand, if it is determined that the normal case, the result is stored as data (step 910).

According to the above process, the surface defects occurring at the inner edge of the wafer polishing pad can be automatically and clearly judged between the temporary case and the permanent case, so that a high quality wafer can be produced easily and economically without a large labor force. To be able.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

10: polishing head
20: wafer
30: filming unit
31: Lens
32: scanning camera
33: waterproof case
40: image processing board
50: image processor
60: monitor
70: controller

Claims (2)

Located in the lower part of the rotating wafer polishing head and tilted upward, the lower edge inspection area inside the head is repeatedly photographed for the entire circumference. An integrated lens equipped with a light in the waterproof case and a scanning camera combined with the lens are mounted. Photographing unit; An image processing board converting an image photographed by the scanning camera into a digital signal; And extracting an image of the defect portion from the digital signal obtained from the image processing board, determining a position of the defect portion, and determining whether the defect portion appears periodically, in which case it is determined as a surface defect of the wafer polishing pad. Surface defect detection apparatus of the wafer polishing head comprising an image processor. The surface defect detection apparatus of claim 1, wherein the scanning camera is a line scan or an area scan camera.

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