KR20110092163A - Apparatus for measuring angle critical dimension of mask - Google Patents

Abstract

PURPOSE: An apparatus for measuring the minute linewidth of a mask is provided to prevent the curve of an image by constantly maintaining an imaging unit and the angle of a lens in case of the rotation of an image. CONSTITUTION: An image pickup unit(210) outputs a critical dimension by photographing and calculating the critical dimension of a mask loaded at the focal position of a lens(215). A lighting unit(220) is separated from the upper or lower side of the image pickup unit. A rotation jig(230) includes a rotation plate which rotates the mask. An angle control unit(240) controls the rotation angle of the rotation plate. A display unit(250) displays the critical dimension outputted from the image pickup unit.

Description

Fine Linewidth Measuring Device for Masks {APPARATUS FOR MEASURING ANGLE CRITICAL DIMENSION OF MASK}

The present invention relates to an apparatus for measuring a fine line width (CD) of a mask, and more particularly, to measure the fine line width of one portion and then to measure the fine line width of another portion adjacent to the mask. The present invention relates to a device for measuring a fine line width of a mask capable of preventing occurrence of a fine line width measurement error according to a rotation angle when rotation is required in a predetermined angle unit.

In general, an apparatus for measuring a critical dimension (CD) of a mask includes a housing, an imaging unit disposed at the top of the housing, an illumination unit disposed at the bottom of the housing, and a mask support unit disposed at the middle of the housing. .

The imaging unit includes a lens to photograph the fine line width of the mask, the illumination unit provides light for imaging, and the mask supporter serves to support the mask.

1 shows an example of an apparatus for measuring the fine line width of a conventional mask.

Referring to FIG. 1, the apparatus for measuring a fine line width of a conventional mask includes an upper image capturing unit 110 and a lower lighting unit 120 having a lens 115 mounted on a front surface thereof.

The imaging unit 110 mounted with the upper lens 115 and the illumination unit 120 below have a principle similar to that of a microscope. The mask 101 is fixed to a mask supporter (not shown) between the imaging unit 110 and the illumination unit 120.

On the other hand, after measuring the fine line width of any one portion of the mask 101, in order to measure the fine line width of the other adjacent portion may need to rotate the image.

In order to rotate an image, a method of rotating an image capturing unit 110 such as a CCD (Charge Coupled Device) camera while rotating the mask 101 by a predetermined angle has been conventionally used.

For example, in the real life, the edge portion of the image photographed horizontally with the camera is taken more in the horizontal direction. On the other hand, the edge portion of the image taken vertically with the camera rotated 90 ° at the same position is taken more in the vertical direction. That is, a portion which has not been previously photographed may be newly photographed through the rotation of the camera.

When this is applied to the apparatus for measuring the fine line width of the mask illustrated in FIG. 1, the fine line width of one portion of the mask 101 is measured, and in the case of measuring the fine line width of another adjacent portion, the mask 101 is moved forward or backward or left and right. It is possible to measure the fine line width of the other part through rotation of the angle unit of the imaging unit 110 without moving to.

However, when the mask 101 is fixed and the image capturing unit 110 is rotated by a predetermined angle, the angle between the image capturing unit 110 and the lens 115 is not constant. According to the rotation angle of the unit 110, a fine line width measurement error occurred.

This is because the angle between the imaging unit 110 and the lens 115 is not constant when the imaging unit 110 is rotated because the lens 115 does not have a perfect symmetrical structure in all directions.

An object of the present invention is to measure the fine line width of the mask, when the fine line width of any one portion of the mask surface after the rotation in a certain angle unit in order to measure the fine line width of the other adjacent parts, the imaging unit and the lens It is to provide an apparatus for measuring a fine line width of a mask which can prevent the occurrence of a fine line width measurement error by matching the angles of.

The apparatus for measuring a fine line width of a mask according to an embodiment of the present invention for achieving the above object is a lens mounted on the front surface, and photographing and calculating a fine line width (Critical Dimension: CD) of a mask loaded at a focal position of the lens. An imaging unit for outputting a fine line width value; An illumination unit disposed at an upper portion or a lower portion of the imaging unit and configured to focus light at a focus position of the lens; A rotation jig disposed between the image capturing unit and the lighting unit, the rotation jig supporting the mask and having a rotating plate rotating the mask through its own rotation; An angle controller which controls the rotation angle of the rotating plate; And a display unit which displays the fine line width value output from the imaging unit.

In this case, it is preferable that the imaging unit is fixed so as not to rotate, and the rotating plate is preferably formed with a hollow or a transparent part in the center so that the mask is illuminated.

The imaging unit may be a charge-coupled device camera (CCD), the angle control unit may control the rotation angle of the rotating plate in 1 ° unit, the angle value is displayed on the portion surrounding the rotating plate in the rotation jig It may be.

On the other hand, when the lighting unit is disposed above, the mask may be mounted on the rotating plate so that the surface on which the fine line width is measured is directed downward, wherein the height of the surface on which the fine line width measurement of the mask is made is the thickness of the mask. Regardless, it matches the height of the focal point of the lens.

The image pickup unit captures the fine line width of the mask at 50 times magnification and 100 times magnification in order to improve the reliability of measuring the fine line width, and displays the average value of the fine line width values measured from the 50 times magnification and the 100 times magnification, respectively. Can be marked on.

The apparatus for measuring a fine line width of a mask according to the present invention fixes the image capturing unit to make the angles of the image capturing unit and the lens constant, and rotates the rotating plate of the rotation jig to which the mask is mounted in units of a predetermined angle.

Therefore, even when the image is rotated in order to measure the fine line width of one portion of the mask and to measure the fine line width of the other adjacent portion, the angles of the imaging unit and the lens can be kept constant, thereby preventing the image from bending. In this way, there is an advantage that can prevent the occurrence of a measurement error of the fine line width of the mask.

In addition, in the apparatus for measuring fine linewidth of a mask according to the present invention, when the imaging unit is disposed below and the illumination unit is disposed above, the height of the surface on which the fine linewidth measurement of the mask is performed coincides with the focus of the lens regardless of the thickness of the mask. Therefore, there is an advantage that can solve fine line width measurement error.

1 shows an example of an apparatus for measuring the fine line width of a conventional mask.
2 schematically shows an apparatus for measuring fine line width of a mask according to an embodiment of the present invention.
3 schematically shows an example of a rotation jig applied to the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and those skilled in the art to which the present invention pertains. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, an apparatus for measuring fine line width of a mask according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 schematically shows an apparatus for measuring fine line width of a mask according to an embodiment of the present invention.

Referring to FIG. 2, the apparatus for measuring fine line width of a mask according to the illustrated example includes an imaging unit 210, an illumination unit 220, a rotation jig 230, and an angle control unit 240 on which a lens 215 is mounted. .

Among these, the image capturing unit 210, the lighting unit 220, and the rotation jig 230 may be supported by a housing (not shown) constituting the appearance of the fine linewidth measuring equipment of the mask, similarly to the fine linewidth measuring apparatus of the general mask. Can be.

The imaging unit 210 has a lens 215 mounted on the front. The imaging unit 210 corresponds to a result value of the fine line width formed on the surface of the mask 201 by photographing and calculating a critical dimension (CD) of the mask 201 loaded at the focal position of the lens 215. A fine line width value is output.

At this time, the imaging unit 210 may be a charge-coupled device camera (CCD) device capable of accurate imaging.

The fine line width value of the mask photographed and calculated by the imaging unit 210 may be output through a printer connected to the imaging unit 210. In addition, the imaging unit 210 may be connected to the display unit 250 to display the fine line width value output from the imaging unit 210.

In order to increase the reliability of measuring the fine line width of the mask, the imaging unit 210 may pick up two or more magnifications within a magnification range of 50 to 100 times the magnification of the lens 215 to capture the fine line width of the mask.

For example, the imaging unit 210 may image the fine line width of the mask 201 at a 50x magnification and a 100x magnification, and output an average value of the fine linewidth values of the 50x magnification and the 100x magnification, respectively.

The lighting unit 220 is disposed at an upper portion or a lower portion of the image capturing unit 210, and performs light focusing on a focus position of the lens 215.

The rotation jig 230 is disposed between the imaging unit and the lighting unit to support the loaded mask 201.

3 schematically shows an example of the rotation jig 230 applied to the present invention.

Referring to FIG. 3, the rotation jig 230 includes a rotating plate 235 capable of rotating in a predetermined angle unit.

The rotating plate 235 substantially supports the mask 201 and rotates the mask 201 in the same direction as the rotation direction of the rotating plate 235 through its own rotation in a constant direction.

In this case, the imaging unit 210 may rotate in a direction opposite to the rotation of the rotating plate 235 of the rotation jig 230. However, in this case, since the angles of the image pickup unit 210 and the lens 215 do not coincide with each other, the image may be bent, so that the image pickup unit 210 is fixed to prevent rotation. desirable.

In addition, the angle value may be displayed on the portion surrounding the rotating plate 235 of the rotation jig 230 so that an inspector or the like can easily grasp the angle of the rotating plate 235 or the angle of the mask 201.

On the other hand, the rotation plate 235 of the rotation jig 230 is preferably formed in a hollow or a transparent portion in the center so that the mask 201 can be controlled. When the hollow is formed in the rotating plate 235 and the transparent portion is formed in the center of the rotating plate 235, the manner in which the mask 201 is supported is slightly different.

When the hollow is formed in the center of the rotating plate 235, the edge portion of the mask 201 on the opposite side of the surface where the fine line width is measured is supported by the rotating plate 235.

On the other hand, when the central portion of the rotating plate 235 is made of a transparent glass plate or the rotating plate 235 itself is made of a transparent glass material, the transparent portion is formed in the central portion of the rotating plate 235, the mask 201 is a fine line width is measured The entire opposite side of the surface may be supported by contact with the rotating plate 235.

The angle controller 240 controls the rotation angle of the rotating plate 235. For this purpose, although not shown in the drawing, the angle controller 240 may include a rotating plate driving device such as a motor or an electronic device such as a time switch.

The angle controller 240 rotates the rotating plate 235 in a predetermined unit. At this time, the angle control unit 240 may control the rotation angle of the rotating plate 235 in units of 1 ° to enable precise fine line width measurement.

As described above, in the apparatus for measuring the fine line width of the mask according to the present invention, the imaging unit is fixed in order to make the angle between the imaging unit and the lens constant. Instead, the rotation plate of the rotation jig on which the mask is mounted is rotated by a predetermined angle to enable image rotation.

Through this, the rotation of the image is possible, and the angles of the imaging unit and the lens can be kept constant, thereby preventing the bending of the image and the occurrence of the measurement error of the fine line width of the mask.

Meanwhile, in FIG. 2, the imaging unit 210 is disposed above and the lighting unit 220 is disposed below. However, the imaging unit 210 is disposed below and the lighting unit 220 is disposed above. May be arranged.

In this case, the mask 201 is loaded on the rotating plate 235 of the rotation jig 230 so that the surface on which the fine line width is measured is directed downward. In this case, the focal point of the lens 215 mounted on the front surface of the imaging unit 210 is formed upward.

When the focal height of the lens 215 corresponds to the height of the upper surface of the rotating plate 235, the height of the surface on which the fine line width measurement is performed in the mask 201 is the focal point of the lens 215 regardless of the thickness of the mask 201. To match.

When the image capturing unit 210 is disposed at the upper portion and the lighting unit 220 is disposed at the lower portion, only a mask having a specific thickness is provided when the focal point of the lens 215 mounted on the front surface of the image capturing unit 210 is adjusted to a predetermined height. The surface to be subjected to the fine line width measurement is brought into focus.

However, when the fine line width is measured for a mask that is thicker or thinner than the thickness of the mask coinciding with the focus of the lens 215, the focal point of the lens 215 does not coincide with the plane of the mask to be measured. As a result, a light focusing position error may occur, resulting in a measurement error of the fine line width of the mask.

In this case, in order to match the surface of the mask 201 to the focal point of the lens 215 with the focus of the lens 215, an auxiliary means such as a height correction spacer is provided to adjust the focus according to the mask thickness or for a relatively thin mask. Was required.

However, the image pickup unit 210 is disposed below, the illumination unit 220 is disposed above, and the rotating plate 235 of the rotation jig 230 so that the surface of the mask 201 to be subjected to the fine line width measurement is directed downward. ), It is possible to eliminate the light focusing position error without any additional equipment.

Therefore, in this case, regardless of the thickness of the mask 201, the surface to be subjected to the fine line width measurement can be located at the focal point of the lens, it is possible to additionally obtain the effect of eliminating the fine line width measurement error.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

201: mask
210: imaging unit
215 lens
220: lighting unit
230: rotation jig
235: rotating plate
240: angle control unit
250: display unit

Claims (9)

An image pickup unit having a lens mounted on a front surface thereof, which photographing and calculating a critical dimension (CD) of a mask loaded at a focal position of the lens and outputting a fine line width value;
An illumination unit disposed at an upper portion or a lower portion of the imaging unit and configured to focus light at a focus position of the lens;
A rotation jig disposed between the image capturing unit and the lighting unit, the rotation jig supporting the mask and having a rotating plate rotating the mask through its own rotation; And
An apparatus for measuring fine line width of a mask, comprising: an angle controller for controlling a rotation angle of the rotating plate.
The method of claim 1,
And the image pickup unit is fixed so as not to rotate.
The method of claim 1,
The rotating plate is a fine line width measuring apparatus of the mask, characterized in that the hollow is formed, or the transparent portion is formed in the center so that the light is adjusted to the mask.
The method of claim 1,
And the imaging unit is a charge-coupled device camera.
The method of claim 1,
The angle control unit is a fine line width measuring device of the mask, characterized in that for controlling the rotation angle of the rotating plate in units of 1 °.
The method of claim 1,
An apparatus for measuring a fine line width of a mask, wherein an angle value is displayed on a portion of the rotation jig surrounding the rotating plate.
The method of claim 1,
When the lighting unit is disposed above,
The mask is mounted on the rotating plate so that the surface on which the fine line width is measured is directed downward, so that the height of the surface on which the fine line width measurement of the mask is made coincides with the height of the focal point of the lens regardless of the thickness of the mask. An apparatus for measuring a fine line width of a mask, which is characterized by the above-mentioned.
The method of claim 1,
The image pickup unit selects at least two magnifications of 50 to 100 times magnification to capture the fine line width of the mask, and outputs an average value of the respective fine line width values according to the selected magnifications. Fine linewidth measuring device.
The method of claim 1,
And a display unit for displaying the fine linewidth value output from the image pickup unit.

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