JP3625724B2 - Polishing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a polishing apparatus used when polishing the surface of a thin disk-shaped workpiece such as a silicon wafer, and more particularly to a polishing head for adsorbing and holding a workpiece. Concerning structure.
[0002]
[Prior art]
In recent years, with the increase in the degree of integration of semiconductor devices, the miniaturization and multilayering of wiring have progressed, and the wavelength of the exposure beam of an exposure apparatus used for pattern formation has gradually become shorter. For this reason, the depth of focus at which resolution can be ensured in the photolithography process becomes gradually shallower, and in order to ensure processing at a shallow depth of focus, it is required to increase the flatness of the wafer surface.
[0003]
FIG. 5 shows a schematic configuration of a polishing apparatus used for polishing the wafer surface. In the figure, 1 is a wafer, 2 is a polishing cloth, 3 is a turntable, and 4 is a polishing head.
[0004]
The polishing cloth 2 is attached to the upper surface of the turntable 3 with a double-sided tape. The top plate 6 is attached to the tip of the polishing head 4 and is disposed above the turntable 3 so as to face the turntable 3. The wafer 1 to be polished is adsorbed and held on the lower surface of the top plate 6 via a backing pad 8. A guide ring 7 is attached to the lower surface of the top plate 6 along the peripheral edge. The wafer 1 is surrounded by a guide ring 7 and is restrained from moving in the radial direction.
[0005]
An abrasive (a slurry in which abrasive grains are suspended) is supplied from the abrasive supply nozzle 9 onto the polishing cloth 2, and the polishing head 4 rotates the wafer 1 in the same direction as the turntable 3. The wafer 1 is polished by pressing against the wafer 1.
[0006]
FIG. 6 shows an example of the structure of a conventional polishing head.
[0007]
A top block 5 is attached to the lower end of the drive shaft 4a, and a top plate 6 is attached to the lower surface of the top block 5. A guide ring 7 is attached to the periphery of the lower surface of the top block 5 so as to surround the outer periphery of the top plate 6. The wafer 1 is adsorbed and held on the lower surface of the top plate 6 via a backing pad 8. The wafer 1 is guided by the guide ring 7 on the outer peripheral side thereof.
[0008]
Ventilation holes 25 and 28 are formed inside the top block 5 and the top plate 6, respectively, and the suction of the wafer 1 is performed by reducing the pressure in the ventilation holes 25 and 28. On the other hand, the wafer 1 is released by pressurizing the air holes 25 and 28.
[0009]
(Problems of conventional polishing equipment)
When a wafer is polished using a conventional polishing head as shown in FIG. 6, the distribution of pressing pressure in the wafer surface, the distribution of relative speed with the polishing cloth, or the inflow state of the abrasive Due to the difference or the like, the distribution of the polishing amount in the wafer surface becomes non-uniform. In particular, non-uniformity along the radial direction tends to increase, and as a result, the flatness of the polished wafer is impaired.
[0010]
Various polishing head structures have been proposed for the purpose of improving the flatness of the polished wafer.
[0011]
Among these, in the polishing head described in Japanese Patent Application Laid-Open No. 10-34523, a plurality of through holes are arranged concentrically on the top plate, and the through holes constituting each concentric circle are grouped into one group. In summary, the processing shape of the wafer is improved by independently adjusting the air discharge pressure for each group.
[0012]
However, this method can control the processing shape inside the wafer, but cannot positively control the processing shape of the peripheral portion of the wafer.
[0013]
With the recent increase in wafer diameter, it has become an important issue especially to improve the yield of product chips taken from the vicinity of the peripheral edge of the wafer. For this reason, it is strongly required to improve the flatness after polishing at the peripheral edge of the wafer.
[0014]
[Problems to be solved by the invention]
The present invention has been made in view of the problems in the conventional polishing apparatus as described above, and an object of the present invention is to achieve high flatness by reducing non-uniformity in the polishing amount at the peripheral edge of the wafer. An object of the present invention is to provide a polishing apparatus that can be realized.
[0015]
[Means for Solving the Problems]
The polishing apparatus of the present invention is
A turntable with a polishing cloth on the top surface;
A top plate that is disposed above and facing the turntable, and on which the disk-shaped workpiece is adsorbed via a backing pad on the lower surface,
A top block disposed on the top surface of the top plate and holding the top plate;
It is attached to the peripheral part of the top block so as to surround the periphery of the top plate, and includes a guide ring for guiding the workpiece from the outer peripheral side,
In a polishing apparatus that performs polishing by pressing against a polishing cloth while rotating a workpiece,
A ring-shaped space is provided between the outer periphery of the top plate and the inner periphery of the guide ring, and the space is driven in the vertical direction along the inner peripheral surface of the guide ring using an electrostrictive element as a drive source. In addition, a ring-shaped piston that applies a pressing force to the peripheral edge of the workpiece via the backing pad is disposed at the front end surface thereof.
[0016]
According to the polishing apparatus of the present invention, the pressure applied to the peripheral edge of the workpiece is controlled by using the ring-shaped piston, so that the polishing cloth is disposed near the peripheral edge of the workpiece. It is possible to directly adjust the contact pressure distribution. In addition, by using an electrostrictive element as a drive source for the ring-shaped piston, it is possible to adjust the applied pressure with high accuracy. Thereby, the uniformity of the polishing rate in the vicinity of the peripheral portion of the workpiece can be improved, and the flatness after polishing can be increased.
[0017]
The ring-shaped piston can also function as a guide ring by providing a ring-shaped stepped portion projecting downward along the outer periphery on the tip surface of the ring-shaped piston. In that case, the workpiece is guided from the outer peripheral side by the inner side surface of the stepped portion, and the pressing force is applied to the peripheral portion of the workpiece through the backing pad at the front end surface which is inward of the stepped portion. .
[0018]
Further, the ring-shaped piston and the guide ring can be individually driven using electrostrictive elements. In that case, a ring-shaped frame is attached to the periphery of the top block so as to surround the outer periphery of the top plate with a radial interval, and is formed between the inner periphery of this frame and the outer periphery of the top plate. In the ring-shaped space, the ring-shaped piston and the guide ring are accommodated in order from the inside. If comprised in this way, while applying pressure to the peripheral part of a workpiece using a ring-shaped piston, a workpiece will be guided from an outer peripheral side using a guide ring, and a workpiece will be used using a guide ring. The shape of the polishing cloth can be adjusted by applying pressure to the polishing cloth around
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Next, some examples of the polishing apparatus according to the present invention will be described with reference to the drawings.
[0020]
(Example 1)
FIG. 1 shows an example of the structure of a polishing head constituting the main part of a polishing apparatus according to the present invention. The overall configuration of the polishing apparatus is the same as that previously described with reference to FIG. In FIG. 1, 1 is a wafer, 5 is a top block, 6 is a top plate, 7 is a guide ring, 8 is a backing pad, 11 is a ring-shaped piston, and 12 is an electrostrictive element.
[0021]
The top block 5 is attached to the lower end of the drive shaft 4a. Flange portions 5a and 5b are formed at the upper end portion and the lower end portion of the top block 5, respectively. The flange portion 5a on the upper end side is fixed to the lower end of the drive shaft 4a with a bolt. The diameter of the flange portion 5b on the lower end side is slightly larger than the wafer 1 to be polished.
[0022]
A top plate 6 is fixed with a bolt at the center of the lower surface of the flange portion 5b on the lower end side. Further, a guide ring 7 is fixed to the peripheral edge portion of the lower surface of the flange portion 5b on the lower end side with a bolt so as to surround the outer periphery of the top plate 6 with a gap in the radial direction.
[0023]
In the top plate 6, a circular recess 27 is formed in the center on the upper surface side, and a plurality of through holes 28 are formed between the bottom surface of the recess 27 and the lower surface of the top plate 6. An O-ring is attached to the upper surface of the top plate 6 along the outer periphery of the recess 27 to seal the interior of the recess 27.
[0024]
A backing pad 8 is bonded to the lower surface of the top plate 6 with a double-sided tape. In the backing pad 8, through holes 29 are formed at positions corresponding to the plurality of through holes 28 formed in the top plate 6. The wafer 1 is attracted to the lower surface of the top plate 6 through the backing pad 8. The wafer 1 is guided by the guide ring 7 on the outer peripheral side thereof.
[0025]
A ring-shaped piston 11 is accommodated in a ring-shaped space surrounded by the outer peripheral surface of the top plate 6, the inner peripheral surface of the guide ring 7 and the lower surface of the top block 5. A ring-shaped electrostrictive element 12 is inserted between the upper end portion of the piston 11 and the lower surface of the top block 5.
[0026]
In place of the ring-shaped electrostrictive element 12, a plurality of electrostrictive elements can be arranged concentrically along the upper end surface of the piston 11. In that case, the individual electrostrictive elements can be controlled independently of each other.
[0027]
The top plate 6 is provided with a flange portion 6a on its lower surface side so as to project radially from the outer peripheral surface. Correspondingly, a ring-shaped projecting portion 11a is provided at the tip of the ring-shaped piston 11 so as to project downward along the outer periphery thereof. The projecting portion 11 a passes through a gap formed between the outer periphery of the flange portion 6 a and the inner periphery of the guide ring 7. The flange portion 6 a serves as a stopper that determines the advance limit of the piston 11. In addition, the peripheral edge part of the upper surface of the backing pad 8 is bonded to the front end surface of the protruding part 11a with double-sided tape.
[0028]
A vent hole 23 is formed in the drive shaft 4a. A vent hole 25 is formed inside the top block 5. The vent hole 23 is connected to a vacuum source and a high-pressure air source via a rotary joint (not shown) with a slip ring. The tip of the vent hole 23 communicates with the vent hole 25, and the tip of the vent hole 25 opens on the lower surface of the top block 5 and communicates with the recess 27. By depressurizing the inside of the recess 27 through the vent hole 23 and the vent hole 25, the wafer 1 is adsorbed, and on the other hand, by pressurizing the inside of the recess 27, the wafer 1 is released.
[0029]
A wiring 13 for the electrostrictive element 12 passes through the drive shaft 4 a and the top block 5. The wiring 13 is connected to a drive power supply via a rotary joint with slip ring (not shown) and a control system. By controlling the expansion and contraction of the electrostrictive element 12, the pressure applied from the ring-shaped piston 11 to the back surface of the backing pad 8 is adjusted. Thereby, the control of the contact pressure distribution between the surface of the wafer 1 and the polishing cloth at the peripheral edge of the wafer 1 is performed.
[0030]
Note that the appropriate value of the pressure applied by the piston 11 varies depending on the type of polishing cloth and the like, and is determined in advance through experiments.
[0031]
(Example 2)
FIG. 2 shows another example of the polishing apparatus according to the present invention.
[0032]
In this example, a ring-shaped step portion projecting downward along the outer periphery is provided on the front end surface of the ring-shaped piston 31, whereby the ring-shaped piston 31 also serves as a guide ring.
[0033]
A top plate 6 is attached to the center of the lower surface of the top block 5. A ring-shaped frame 37 is attached to the peripheral portion of the lower surface of the top block 5 so as to surround the outer periphery of the top plate 6 with a gap in the radial direction. Thus, a ring-shaped space is formed between the outer periphery of the top plate 6 and the inner periphery of the frame 37, and the ring-shaped piston 31 is accommodated in this space. A ring-shaped electrostrictive element 12 is inserted between the upper end portion of the piston 31 and the lower surface of the top block 5.
[0034]
The top plate 6 is provided with a flange portion 6a on its lower surface side so as to project radially from the outer peripheral surface. In order to face this, the frame 37 is provided with a projecting portion 37a on the lower surface side so as to project from the inner peripheral surface in the radial direction. At the tip of the ring-shaped piston 31, there is provided a ring-shaped projecting portion 31a projecting downward near the center thereof. The protruding portion 31a passes through a gap formed between the outer periphery of the flange portion 6a and the inner periphery of the overhang portion 37a. The flange portion 6 a and the overhang portion 37 a serve as a stopper that determines the advance limit of the piston 31.
[0035]
A step is further formed on the tip surface of the protruding portion 31a, the outer peripheral side protrudes downward, and the inner peripheral side recedes upward. The step part 31b on the outer peripheral side has a role of a guide ring, and guides the wafer 1 from the outer peripheral side on the inner side surface thereof. The inner peripheral tip surface is in contact with the upper surface of the backing pad 8 and applies pressure to the peripheral edge of the wafer 1. Note that the peripheral edge of the upper surface of the backing pad 8 is bonded to the end surface on the inner peripheral side with a double-sided tape.
[0036]
(Example 3)
FIG. 3 shows another example of a polishing apparatus according to the present invention.
[0037]
This device is a further modification of the device shown in FIG. 2, wherein the ring-shaped piston (31) in FIG. 2 is divided into two parts in the radial direction, and the piston 41 on the inner peripheral side is formed. A piston for pressurizing the peripheral portion of the wafer 1 is used, and a piston 43 on the outer peripheral side is used as a piston for pressurizing the guide ring and polishing cloth (hereinafter referred to as a guide ring). The piston 41 and the guide ring 43 are individually driven using electrostrictive elements 51 and 53, respectively.
[0038]
A top plate 6 is attached to the center of the lower surface of the top block 5. A ring-shaped frame 47 is attached to the peripheral portion of the lower surface of the top block 5 so as to surround the outer periphery of the top plate 6 with a gap in the radial direction. As a result, a ring-shaped space is formed between the outer periphery of the top plate 6 and the inner periphery of the frame 47.
[0039]
In this space, a ring-shaped piston 41 and a guide ring 43 are accommodated in order from the inner diameter side. The piston 41 on the inner peripheral side is fitted inside the guide ring 43 on the outer peripheral side. An electrostrictive element 51 is disposed between the upper end portion of the piston 41 and the lower surface of the top block 5, and an electrostrictive element 53 is disposed between the upper end portion of the guide ring 43 and the lower surface of the top block 5. ing. The piston 41 can slide in the vertical direction along the inner peripheral surface of the guide ring 43 and the outer peripheral surface of the top plate 6. On the other hand, the guide ring 43 can slide in the vertical direction along the outer peripheral surface of the piston 41 and the inner peripheral surface of the frame 47.
[0040]
The top plate 6 is provided with a flange portion 6a on the lower surface side thereof so as to project radially from the outer peripheral surface. In order to face this, the frame 47 is provided with a protruding portion 47a on the lower surface side so as to protrude in the radial direction from the inner peripheral surface. At the tip of the piston 41, a ring-shaped protrusion 41a that protrudes downward is provided on the outer peripheral side. A ring-shaped projecting portion 43 a projecting downward is provided on the inner peripheral side of the distal end portion of the guide ring 43. The protrusion 41a is fitted inside the protrusion 43a. The protrusion 41a and the protrusion 43a pass through a gap formed between the outer periphery of the flange portion 6a and the inner periphery of the overhang portion 47a. The flange portion 6a serves as a stopper that determines the advance limit of the piston 41. The overhang portion 47 a serves as a stopper that determines the advance limit of the guide ring 43. The front end surface of the protrusion 43 a of the guide ring 43 protrudes below the front end surface of the protrusion 41 a of the piston 41.
[0041]
In the piston 41, the tip end surface of the projecting portion 41 a comes into contact with the upper surface of the backing pad 8 and applies pressure to the peripheral portion of the wafer 1 through the backing pad 8. Note that the peripheral edge portion of the upper surface of the backing pad 8 is bonded to the tip surface of the protruding portion 41a with double-sided tape. The guide ring 43 guides the wafer 1 from the outer peripheral side on the side surface on the inner peripheral side of the protruding portion 43a, and applies pressure to the polishing cloth around the wafer 1 on the front end surface of the protruding portion 43a. The surface shape can be adjusted to be flat.
[0042]
The vent hole 23 is connected to a vacuum source and a high-pressure air source via a rotary joint (not shown). The tip of the vent hole 23 communicates with the vent hole 25, and the tip of the vent hole 25 opens on the lower surface of the top block 5 and communicates with the recess 27. By depressurizing the inside of the recess 27 through the vent hole 23 and the vent hole 25, the wafer 1 is adsorbed, and on the other hand, by pressurizing the inside of the recess 27, the wafer 1 is released.
[0043]
Wirings 13 a and 13 b for the electrostrictive elements 51 and 53 pass through the drive shaft 4 a and the top block 5. The wires 13a and 13b are connected to a drive power source via a rotary joint with slip ring (not shown) and a control system, respectively. By controlling the expansion and contraction of the electrostrictive element 51, the pressure applied from the ring-shaped piston 41 to the back surface of the backing pad 8 is adjusted. Thereby, the control of the contact pressure distribution between the surface of the wafer 1 and the polishing cloth at the peripheral edge of the wafer 1 is performed. Similarly, by controlling the expansion and contraction of the electrostrictive element 53, the pressure applied to the surface of the polishing cloth from the guide ring 43 around the wafer 1 is adjusted. Thereby, the control of the contact pressure distribution between the surface of the wafer 1 and the polishing cloth at the peripheral edge of the wafer 1 is performed more precisely.
[0044]
In addition, since the value of the appropriate pressurizing force by the piston 41 and the guide ring 43 differs depending on the type of polishing cloth, it is obtained by conducting experiments in advance.
[0045]
(Example 4)
FIG. 4 shows another example of the polishing apparatus according to the present invention.
[0046]
This device is a further modification of the device shown in FIG. 3, in which the ring-shaped piston 41 in FIG. 3 is omitted. The guide ring 43 also serves as a pressure piston for the polishing cloth. The guide ring 43 is driven using the electrostrictive element 53.
[0047]
【The invention's effect】
According to the polishing apparatus of the present invention, since the ring-shaped piston is arranged along the outer periphery of the top plate, the contact pressure distribution with the polishing cloth is directly measured in the vicinity of the peripheral edge of the workpiece. Can be adjusted. Furthermore, since an electrostrictive element is used as a drive source for the ring-shaped piston, the protruding amount of the piston tip surface can be controlled on the order of microns, thereby precisely adjusting the above contact pressure distribution. Can be adjusted.
[0048]
In addition to the ring-shaped piston described above, the contact pressure distribution between the peripheral edge of the workpiece and the polishing cloth can be adjusted more precisely by controlling the protruding amount of the guide ring using an electrostrictive element. can do.
[0049]
As a result, the uniformity of the polishing rate in the vicinity of the peripheral edge of the workpiece can be improved, and the flatness after polishing can be increased.
[Brief description of the drawings]
FIG. 1 is an axial cross-sectional view showing an example of the structure of a polishing head constituting the main part of a polishing apparatus according to the present invention.
FIG. 2 is an axial sectional view showing another example of the structure of a polishing head constituting the main part of the polishing apparatus according to the present invention.
FIG. 3 is an axial sectional view showing another example of the structure of a polishing head constituting the main part of the polishing apparatus according to the present invention.
FIG. 4 is an axial sectional view showing another example of the structure of a polishing head constituting the main part of the polishing apparatus according to the present invention.
FIG. 5 is a diagram showing a schematic configuration of a polishing apparatus.
FIG. 6 is an axial sectional view showing an example of the structure of a conventional polishing head.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Wafer, 2 ... Polishing cloth, 3 ... Turntable, 4 ... Polishing head, 4a ... Drive shaft, 5 ... Top block, 6 ... Top plate, 6a ..Flange part, 7 ... guide ring, 8 ... backing pad, 9 ... abrasive supply nozzle, 11 ... ring-shaped piston, 11a ... protrusion, 12 ... electrostrictive Elements 13, 13 a, 13 b .. Electrostrictive element wiring, 23 .. vent, 25 .. vent, 27 .. recessed portion, 28 .. through-hole, 29 .. through-hole 31 ... Piston, 31a ... Projection, 31b ... Step, 37 ... Frame, 37a ... Overhang, 41 ... Piston, 41a ... Projection, 43 ...・ Guide ring, 43a ... Projection, 47 ... Frame, 47a Overhang, 51, 53 ... electrostrictive element.

Claims (4)

A turntable with a polishing cloth on the top surface;
A top plate that is disposed above and facing the turntable, and on which the disk-shaped workpiece is adsorbed via a backing pad on the lower surface,
A top block disposed on the top surface of the top plate and holding the top plate;
It is attached to the peripheral part of the top block so as to surround the periphery of the top plate, and includes a guide ring for guiding the workpiece from the outer peripheral side,
In a polishing apparatus that performs polishing by pressing against a polishing cloth while rotating a workpiece,
A ring-shaped space is provided between the outer periphery of the top plate and the inner periphery of the guide ring, and the space is driven in the vertical direction along the inner peripheral surface of the guide ring using an electrostrictive element as a drive source. A polishing apparatus, wherein a ring-shaped piston for applying a pressing force to a peripheral edge portion of the workpiece via the backing pad is disposed at the front end surface thereof. A turntable with a polishing cloth on the top surface;
A top plate that is disposed above and facing the turntable, and on which the disk-shaped workpiece is adsorbed via a backing pad on the lower surface,
A top block disposed on the top surface of the top plate and holding the top plate;
A ring-shaped frame attached to the periphery of the top block and arranged to surround the outer periphery of the top plate with an interval in the radial direction;
It is housed in a ring-shaped space formed between the inner periphery of this frame and the outer periphery of the top plate, and includes a ring-shaped piston that is driven in the vertical direction using an electrostrictive element as a drive source,
A ring-shaped stepped portion protruding downward along the outer periphery is formed on the tip surface of the ring-shaped piston, and the workpiece is guided from the outer peripheral side on the inner side surface of the stepped portion. A polishing apparatus characterized in that a pressing force is applied to the peripheral edge of the workpiece via the backing pad at the inner front end surface. A turntable with a polishing cloth on the top surface;
A top plate that is disposed above and facing the turntable, and on which the disk-shaped workpiece is adsorbed via a backing pad on the lower surface,
A top block disposed on the top surface of the top plate and holding the top plate;
A ring-shaped frame attached to the periphery of the top block and arranged to surround the outer periphery of the top plate with an interval in the radial direction;
Arranged on the inner periphery of the frame, driven in the vertical direction along the inner periphery of the frame using an electrostrictive element as a drive source, guides the workpiece from the outer periphery, and polishes around the workpiece A guide ring that applies pressure to the fabric;
It is accommodated in a ring-shaped space formed between the outer periphery of the top plate and the inner periphery of the guide ring, and is vertically moved along the inner peripheral surface of the guide ring using an electrostrictive element as a drive source. A ring-shaped piston that is driven and applies pressure to the peripheral edge of the workpiece through the backing pad at the tip surface;
A polishing apparatus characterized by comprising: A turntable with a polishing cloth on the top surface;
A top plate that is disposed above and facing the turntable, and on which the disk-shaped workpiece is adsorbed via a backing pad on the lower surface,
A top block disposed on the top surface of the top plate and holding the top plate;
A ring-shaped frame attached to the periphery of the top block and arranged to surround the outer periphery of the top plate with an interval in the radial direction;
Arranged on the inner periphery of the frame, driven in the vertical direction along the inner periphery of the frame using an electrostrictive element as a drive source, guides the workpiece from the outer periphery, and polishes around the workpiece A guide ring that applies pressure to the fabric;
A polishing apparatus characterized by comprising:

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