KR19990077808A - Apparatus for bonding of pellicle liner - Google Patents

Abstract

According to the present invention, in order to increase the commercial value of a frame-type pellicle product, pressure-sensitive, protecting the adhesive side of the pressure-sensitive adhesive layer to minimize the change in the width of the edge protrusion protruding out the bottom surface of the pellicle frame An apparatus is provided for bonding a pellicle liner to the bottom surface of a pellicle frame of an adhesive coated frame pellicle. The joining apparatus includes a detecting means (A) for determining whether the relative position between the pellicle frame and the pellicle liner is out of the correct joining position, and the relative position of the pellicle frame or pellicle liner based on a signal for departure from the detecting means. By adjusting the, it comprises an operating means (B) for effectively bonding the pellicle frame and the pellicle liner through a pressure-sensitive adhesive layer.

Description

Pellicle liner bonding device {APPARATUS FOR BONDING OF PELLICLE LINER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for pellicle liner bonding to a lower surface of a pellicle frame, and more particularly, to dust protection of a photomask in photolithographic patterning processes for manufacturing various kinds of semiconductor devices and liquid crystal panels. And a pellicle liner used for bonding to the bottom surface of the pellicle frame of the framed pellicle.

It is known that in the manufacturing process of semiconductor devices such as high density integrated circuits (LSI) and ULSI, the photoresist layer is patterned by ultraviolet light passing through the pattern-bearing photomask with the development of a patterned latent image. By carrying out wise cleavage, it always includes a step of patterning a photoresist layer on a substrate such as a semiconductor silicon wafer or a master plate for a liquid crystal panel. Since the pattern formation on the photomask is precise and delicate, it is very important to prevent dust particles from accumulating on the photomask. If dust particles accumulate, irregular scattering or absorption of the ultraviolet light having a wavelength shorter than 500 nm results in deterioration of the patterned resist layer, including the sharpness of the patterning and the contrast of the patterned image. do.

In this regard, the patterning of the photoresist using a photomask is performed in a very clean clean room free of dust. However, no matter how clean a clean room is, it is very difficult to maintain a completely dust-free state on the photomask through the entire process of the patterning. Therefore, by providing a frame type pellicle on the photomask, it has been carried out by a conventional method to prevent dust particles from accumulating on the photomask.

Frame type pellicle is a combination of a square, rectangular or circular frame having a relatively small height like a pellicle frame described later, and a thin and transparent plastic film such as a pellicle film described below bonded to an upper surface of a non-relaxed pellicle frame. Device. When the frame type pellicle is installed on the bottom surface photomask of the pellicle frame, dust particles are not accumulated directly on the photomask, but are accumulated on the pellicle film. Since the dust particles accumulated on the pellicle film are placed out of focus by the height of the pellicle frame, the adverse effect is relatively small as compared with the case where the dust particles are directly stacked on the photomask.

In the following, with reference to Figs. 3A and 3B, the structure of a conventional frame-type pellicle useful in the market will be described in more detail. 3A is a plan view of the frame pellicle, and FIG. 3B is a sectional view taken along line IIIB-IIIB of FIG. 3A. As can be seen from these figures, the frame type pellicle is a thin, transparent plastic film 1 like a pellicle film, which is bonded to a rectangular, square or circular pellicle frame 2 and the top surface of the non-relaxed pellicle frame 2. Combination device consisting of In order to stably install the frame type pellicle installed on the photomask, the lower surface of the pellicle frame 2 is formed by attaching a pressure sensitive adhesive to form an adhesive layer 4, and the sticky adhesive surface of the adhesive layer 4 will be described later. Frame-type pellicle products that are configured to be temporarily protected by attaching a plastic resin film 5 surface-treated with a surface releasing agent such as a pellicle liner to be commonly used. The plastic resin for pellicle liner is not particularly limited, but polyethylene terephthalate is preferably used. Although not particularly limited, the pellicle liner 5 has a thickness of about 0.1 mm and has a shape slightly larger than the bottom surface of the pellicle frame 2, and has a lower end of the pellicle frame 2. It protrudes in a fin shape around the edge of the face. Prior to being installed on the photomask, the pellicle liner 5 must be removed immediately from the bottom surface of the pellicle frame 2 or from the pressure sensitive adhesive layer 4, and generally the pellicle liner 5 is directed to the pellicle liner tabs. A protrusion 5A is called, which has a dimension of, for example, 10 mm x 10 mm, and has a rectangular pellicle liner 5 in order to make it easy to detach the pellicle liner 5 from the adhesive layer 4. Located at the corner of.

Since the frame type pellicle is used for dustproofing of the photomask, the above-described structure in which the dust type is almost never accumulated in the manufacturing method of the frame type pellicle which requires the utmost care to prevent the accumulation of dust particles is necessary. You will have to. In the final step of bonding the pellicle liner 5 to the bottom surface of the pellicle frame 2 of the frame type pellicle of the above-described manufacturing method, in order to prevent the accumulation of dust particles above the allowable amount, for example, the frame type pellicle and pellicle liner ( 5) should be handled with great care while keeping the contact area between them as small as possible. In the method of joining the pellicle liner 5 to the bottom surface of the conventional pellicle frame 2, for example, the pellicle frame 2 is supported by a pair of arms of the pellicle handle portion directly contacting the fixed feet provided on the side surface thereof. And the pellicle liner 5 is placed on the joining table slightly in contact with the fixing reference surface, and the pellicle frame 2 is gradually lowered while lowering the pellicle handle to bring the pellicle frame 2 into contact with the pellicle liner 5. Move at low speed.

However, the conventional joining method of the pellicle liner described above is very unreliable, and since it is not identical due to variations in various factors, the fin-shaped edge protrusions of the pellicle liner 5 protruding around the bottom surface of the pellicle frame 2. The width is not always constant, which can adversely affect commercial value because the finished framed pellicle has an uneven appearance.

4 is a vertical cross-sectional view of a framed pellicle product where it is hardly acceptable, when the pellicle frame 2 and the pellicle liner 5 are covered with the pellicle liner 5 in the frame pellicle. Since the displacement is large and the adhesive layer 4 is not partially protected on the left side, the pellicle liner 5 is difficult to attach.

FIG. 6A shows that the pellicle liner 5 is improperly joined, including a box body 32 and a lid 3 and in a casing protected by a clamp 34 in contact with the stopper 32A at the swatch portion. Vertical cross-sectional view of a framed pellicle is shown. FIG. 6B is an enlarged view of the circle VIB shown in FIG. 6A, and FIG. 6C is an enlarged view of the circle VIC shown in FIG. 6A.

If the adhesive layer 4 is not partially protected by the pellicle liner 5 on the left side, as shown in Fig. 6B, the sticky surface of the adhesive layer 4 eventually becomes the casing box or specifically the fixed stopper 32A. Contact with the inner surface causes undesired adhesion or contamination therebetween.

If the fin-shaped edge protrusion of the pellicle liner 5 protruding around the bottom surface of the pellicle frame 2 is too large, as shown in FIG. 6C, the fixing stopper on the inner surface of the casing box and the protrusion of the pellicle liner 5 is shown. Large friction occurs between 32A), and when the frame type pellicle is taken out of the casing box, the friction due to the sliding between them can be increased to increase the amount of dust particles generated.

By varying the relative position between the casing box and the frame type pellicle contained therein, the pellicle liner 5 is removed or the casing box is provided to install the frame type pellicle on the photomask. The autoloading machine is no longer needed.

The first object according to the present invention is to protrude around the bottom surface of the pellicle frame in order to overcome the above-mentioned problems in the prior art when joining the pellicle liner to the bottom surface of the pellicle frame in the frame type pellicle. It is to provide an efficient and reliable means of uniformly bonding the pellicle liner to the bottom surface of the pellicle frame by making the fin-shaped edge protrusion of the pellicle liner uniform.

The object of the present invention described above is to form a frame type pellicle which is protected by bonding the pellicle liner to the bottom surface of the pellicle frame through a pressure sensitive adhesive layer, the pellicle frame and the pellicle liner coated with pressure sensitive adhesive on the bottom surface A pellicle liner or a detecting means (A) for determining whether the relative position therebetween deviates from the correct bonding position, and the position of the pellicle frame and the pellicle liner in the vertical direction by using the departure information by the detecting means (A); Moving the pellicle frame, to provide a pellicle liner bonding apparatus comprising an operating means (B) for effectively bonding the pellicle frame and the pellicle liner through a pressure-sensitive adhesive layer.

1A and 1B are schematic plan views and cross-sectional views of a pellicle liner bonding apparatus each holding a camera such as a position detecting means.

2A and 2B show a schematic plan view and a cross-sectional view of the pellicle liner bonding apparatus of the present invention each holding a laser displacement gauge as a position detecting means.

4 is a schematic vertical sectional view of a conventional framed pellicle in which a pellicle liner is bonded to an inappropriate position of the pellicle frame bottom surface.

5A and 5B are schematic plan views and cross-sectional views of frame-type pellicle and pellicle liners, each of which is distributed in several places for measuring the width of the edge protrusion of the pellicle liner projecting around the pellicle frame.

7 is a conceptual block diagram of a control system for a pellicle liner joining apparatus of the present invention having a camera as a position detecting means.

Fig. 8 is a conceptual block diagram of a control system for a pellicle liner joining apparatus of the present invention having a laser displacement gauge as a position detecting means.

As described above, the characteristic components of the pellicle liner bonding apparatus of the present invention for bonding the pellicle liner to the bottom surface of the pellicle frame through a pressure sensitive adhesive layer include a pellicle frame and a pellicle having a pressure sensitive adhesive layer on the bottom surface. A pellicle frame or pellicle on the basis of the output signal of the detection means so as to vertically align the position of the pellicle frame and the pellicle liner with the detecting means A for determining whether the relative position between the liner is out of the correct bonding position. An actuating means (B) for moving the liner to effectively bond the pellicle frame and the pellicle liner through a pressure sensitive adhesive layer.

The above-described position detecting means is not particularly limited, but an electronic camera, a laser displacement gauge, an ultrasonic displacement gauge, or an apparatus or apparatus capable of detecting a position without contacting an object which is not beneficial by causing dust generation by contact .

Next, the pellicle liner bonding apparatus of the present invention for bonding the pellicle liner to the bottom surface of the pellicle frame will be described in detail with reference to the drawings. As shown in the plan view of FIG. 1A and the cross-sectional view of FIG. 1B, the pellicle liner bonding apparatus of the present invention is a pellicle handle portion 13 supporting the camera 11, the reflector 12, and the pellicle frame 2 as position detection means. ), The XYZθ stage is included in the set as an operation means for adjusting the position of the pellicle handle portion 13.

The position detecting means includes a plurality of sets of cameras provided with the pellicle frame interposed therebetween in order to detect the outer circumferential position of the pellicle frame 2 and the pellicle liner 5 placed below the pellicle frame 2. 11) and a reflector 12. 1A and 1B, when the shape of the pellicle frame is square or rectangular, at least five sets of cameras 11 and reflectors 12 are provided, of which two sets are square or rectangular pellicle frames ( 2) is installed on one side, and the other three sets are installed one each on the remaining three sides of the pellicle frame (2). The reason for requiring at least two sets of position detecting means on one side is to adjust the angle between the pellicle frame 2 and the pellicle liner 5. When the shape of the pellicle frame 2 is circular, at least three sets of cameras 11 and reflecting mirrors 12 are provided at uniform intervals along the circumference of the circular pellicle frame 2. The detection power of the camera 11 and the reflection power of the reflecting mirror 12 are not particularly limited and depend on the accuracy of the bonding required. For example, about 10 μm or a fine degree of accuracy is generally required.

The pellicle handle 13 is structured to support the pellicle frame 2 between two parallel arms 13A and 13B which can change the distance. Each of the arms 13A, 13B has a plurality of connecting members 15 connected by pit contacts on the side of the pellicle frame 2 to protect the pellicle frame 2 therebetween. The pellicle handle 13 is made of a material having sufficient hardness to minimize misalignment of the joining position due to elastic twisting of the pellicle handle 13. Suitable materials for the pellicle handle 13 include, for example, metal materials such as aluminum alloy and stainless steel, plastic resins such as acrylic resin, polycarbonate resin and fluorocarbon resin, and ceramic materials such as silicon nitrite and alumina. Can be mentioned. The material of the connecting member 15 may be a plastic resin having a low dust generation such as polyimide resin, acrylic resin, polycarbonate resin, fluororesin, nylon resin, or the like in consideration of the generation of scratches and dust on the pellicle frame, or It is preferable to use ceramic materials such as silicon nitrite and alumina.

In the form of the actuation means 14, the pellicle handle 13 is connected to support the pellicle frame 2 between the arms 13A, 13B, and the pellicle frame 2 or pellicle liner 5 is It is not limited to the structure which can be moved to XYZ (theta) direction in order to adjust the relative position. The actuation mechanism of the actuation means 14 is also not particularly limited, but in general, it is desirable to be able to adjust the position with an accuracy of 10 탆 or more.

The pellicle liner 5 coupled to the bottom surface of the pellicle frame 2 is not particularly limited in its material and form. The transparent or translucent material for the pellicle liner is a good alternative between the circumference of the pellicle frame 2 and the circumference of the pellicle liner 5 when the pellicle frame 2 and the pellicle liner 5 are simultaneously viewed through the camera 11. Since the contrast can be obtained, the position detection of the pellicle frame 2 and the pellicle liner 5 is carried out at the same time, so that the edge protrusions projecting out of the lower surface of the pellicle frame 2 are effective.

The method of joining the pellicle liner 5 to the bottom surface of the pellicle frame 2 used in the pellicle liner bonding apparatus of the present invention described above is as follows.

The outer circumferential positions of the pellicle frame 2 and the pellicle liner 5 are simultaneously detected using the six cameras 11 of the pellicle frame outer circumference, and the result is transmitted to the XYZθ stage 14, which is the operating means, as an operation signal. By adjusting the position of the pellicle frame 2 supported between the arms 13A and 13B, the width of the edge protrusion of the pellicle liner 5 protruding out of the lower surface of the pellicle frame 2 over the entire outer circumference is fixed. Let's do it. Next, the pellicle frame 2 supported by the pellicle handle 13 connected to the XYZθ stage 14 is lowered in the Z direction so as to contact the pellicle liner 5.

FIG. 7 is a conceptual block diagram of a control system for a pellicle liner bonding apparatus of the present invention having a plurality of cameras 11 each coupled with a reflector 12 as position detection means. The image of the pellicle frame 2 and the pellicle liner 5 captured by the camera 11 is processed by the image processing measuring unit 16, and the signal is a pellicle liner projecting out of the bottom surface of the pellicle frame 2. 5) is processed in the data processing unit 17 which produces a correcting signal so that the width of the fin-shaped edge protrusion of 5) is as constant as possible over its outer circumference. This signal is introduced into the operating means 14 such as the XYZθ stage through the stage control unit 18.

2A and 2B show a plan view and a vertical sectional view of yet another embodiment of the pellicle liner bonding apparatus of the present invention for bonding the pellicle liner 5 to the bottom surface of the pellicle frame 2, respectively.

The apparatus comprises several sets of transmission laser displacement gauges comprising a beam emitter 21 and a beam receiver 22 for detecting the position of the pellicle frame 2 and the pellicle handle 23. And an XYZθ stage 24 including an XYZθ stage 24 as an operating means for the pellicle handle portion 23 and a beam emitter 25 and a beam receiver 26 for detecting the position of the pellicle liner 5. It includes several sets of transmission laser displacement gauges located at the rear. As shown in FIG. 2A, when the shape of the pellicle frame 2 is square or rectangular, at least five sets of the beam emitter 21 and the beam receiver 22 are disposed between the pellicle frame 2 and the pellicle frame 2. ), Two sets are installed on one side of the square or rectangular pellicle frame (2), and the other three sets are respectively installed on the remaining three sides of the pellicle frame (2). The reason why two sets of beam emitters 21 and beam receivers 22 must be provided is to adjust the relative angle between the pellicle frame 2 and the pellicle liner 5. When the shape of the pellicle frame 2 is circular, at least three sets of the beam emitter 21 and the beam receiver 22 are provided at uniform intervals along the circumference of the pellicle frame 2.

The laser beam emitted from the beam emitter 21 of the laser displacement gauge has the form of a belt having a linear cross section rather than a single beam. Since the belt-shaped laser beam is radiated to intersect the outer circumference of the pellicle frame 2, the beam having a linear cross section is partially received by the pellicle frame 2 so that the beam receiver 22 is partially received. . Thus, the position of the pellicle frame 2 will depend on the intensity of the belt-shaped laser beam that reaches the beam receiver 22.

On the other hand, the position of the pellicle liner 5 is detected by six sets of laser displacement gauges for the pellicle liner 5 composed of the beam emitter 25 and the beam receiver 26.

As such, the above-described laser displacement gauge system is provided for recognizing the relative positions of the pellicle frame 2 and the pellicle liner 5, and the information obtained by the displacement gauge system moves the pellicle frame 2 to the correct position. It is introduced into the XYZθ stage 24, which is the operating means of the pellicle handle portion 23. Here, when the pellicle frame 2 is rotated 180 ° in the θ direction to cover the pellicle liner 5, the width of the edge protrusion of the pellicle liner 5 protruding out of the lower surface of the pellicle frame 2 is defined on its outer periphery. Uniform over. Next, in order to adhesively bond the lower surface of the pellicle frame 2 coated with the pressure sensitive adhesive to the pellicle liner 5, the pellicle frame supported by the pellicle handle 23 is operated by operating the XYZθ stage 24 ( 2) is lowered in the Z direction.

8 is a conceptual block diagram of a control system for a pellicle liner bonding apparatus of the present invention having the laser displacement gauge shown in FIGS. 2A and 2B. The laser beam signal arriving at the laser beam receivers 22 and 26 is processed by the sensor control unit 27, and the data is fin-shaped of the pellicle liner 5 protruding out of the lower surface of the pellicle frame 2. Is introduced into the data processing unit 28 which generates a correction signal such that the width of the edge protrusion of the edge is as constant as possible over its outer circumference. This correction signal is introduced into the operating means 24 such as the XYZθ stage through the stage control unit 29.

Next, the pellicle liner bonding apparatus of this invention is demonstrated in detail based on an Example.

(Example 1)

For the bonding test between the pellicle frame 2 and the pellicle liner 5, ten pellicle frames respectively bonded to the pellicle liner by the bonding apparatus shown in Figs. 1A and 1B are prepared. Each camera 11 constituting the displacement gauge is made of an electronic camera (Hitachi Elec tronic Co.), model KP, in which a lens (made by Kenco Co., model KCM-Z2) is installed at the end of the camera. -M2). Light from the reflector (Kenko Corporation, model KTS-100RSV) is transmitted by a light guide (Kenko Corporation, model FG6S-4000F RB) and illuminates the outer circumference of the pellicle frame 2 and the pellicle liner 5 The light is collected by a light collecting lens (KLL-101, manufactured by Kenko Corporation) installed at the end of the guide.

By using the above-described device system, the bottom of the pellicle liner 2 of the frame-type pellicle (manufactured by Shin-Etsu Chemical Co.) coated with a pressure sensitive adhesive on the bottom surface of the pellicle frame 2 The pellicle liner 5 is bonded to the surface. The pellicle frame 2 is a rectangular aluminum frame having an outer area of 149 mm x 122 mm having a height of 6.3 mm and a frame width of 2 mm including a pressure-sensitive adhesive layer 4 having a thickness of 0.5 mm. The pellicle liner 5 is made of a 0.13 mm thick polyethylene terephthalate resin film, and generally rectangular pellicle liner 5 is a 149.2 mm x 122.2 mm rectangle with a wide liner tab of 10 mm x 10 mm at its corner. It is in size.

Next, a pellicle liner 5 protruding out of the outer periphery of the bottom surface of the pellicle frame 2 using an automatic dimensional gauge (manufactured by Shin-Etsu Engineering Co., Ltd.) having a detection force of 1 μm. The width | variety of the edge protrusion of is measured through the six measuring points a, b, c, d, e, f shown in FIG. 5A.

The change in the width of the edge protrusion projecting out of the lower surface of the pellicle frame 2 through the six measuring points shown in FIG. 5A (n = 6) was measured in 10 samples, and the value of 3σ, which is three times the standard deviation, was shown. , Did not exceed 0.030 mm in each sample. That is, due to the inadequate bonding position as shown in FIG. 4, the case where the lower surface of the pellicle frame 2 coated with the adhesive is not protected by the pellicle liner 5 does not occur.

(Example 2)

For the bonding test, the lower surface of the pellicle frame 2 is the same as in Example 1 except that the laser displacement gauge is used as a substitute in the bonding apparatus as shown in FIGS. 2A and 2B. Ten framed pellicles are prepared that are protected by bonding. As the laser displacement gauge, Keyence Co. Model LS-5040 equipped with a controller (Model LS-5000) was used.

The change in the width of the edge protrusion projecting out of the lower surface of the pellicle frame 2 through the six measuring points shown in FIG. 5A (n = 6) was measured in 10 samples, and the value of 3σ, which is three times the standard deviation, was shown. , Did not exceed 0.030 mm in each sample. That is, due to an incorrect engagement position as shown in FIG. 4, the case where the lower surface of the pellicle frame 2 coated with the adhesive is not protected by the pellicle liner 5 does not occur.

Advantageous Effects of Invention The present invention exhibits an effect of efficiently bonding the pellicle liner to the bottom surface of the pellicle frame by maintaining a high reproducibility and making the fin-shaped edge protrusions of the pellicle liner projecting around the bottom surface of the pellicle frame uniform. do.

Claims (3)

In order to bond the pellicle liner to the bottom surface of the pellicle frame through a pressure sensitive adhesive layer, the relative position between the pellicle frame and the pellicle liner coated with pressure sensitive adhesive on the bottom surface is correct. The pellicle liner or pellicle frame is moved to vertically coincide with the position of the pellicle frame and the pellicle liner by using the detection means A for determining whether it is disengaged from the detection means and the departure information by the detection means A. A pellicle liner bonding apparatus comprising an actuating means (B) for effectively bonding the pellicle frame and the pellicle liner through a sensitive adhesive layer. The pellicle liner bonding apparatus according to claim 1, wherein the detecting means for detecting deviation of the relative position of the pellicle frame and the pellicle liner is a combination of a camera and a reflector. The pellicle liner bonding apparatus according to claim 1, wherein the detecting means for detecting deviation of the relative position between the pellicle frame and the pellicle liner is a laser displacement gauge consisting of a laser beam emitter and a laser beam receiver.