WO2022080013A1 - 基板洗浄装置および基板洗浄方法 - Google Patents
基板洗浄装置および基板洗浄方法 Download PDFInfo
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- WO2022080013A1 WO2022080013A1 PCT/JP2021/031127 JP2021031127W WO2022080013A1 WO 2022080013 A1 WO2022080013 A1 WO 2022080013A1 JP 2021031127 W JP2021031127 W JP 2021031127W WO 2022080013 A1 WO2022080013 A1 WO 2022080013A1
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- WIPO (PCT)
- Prior art keywords
- cleaning
- tape
- substrate
- wafer
- peripheral edge
- Prior art date
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- 238000004140 cleaning Methods 0.000 title claims abstract description 519
- 239000000758 substrate Substances 0.000 title claims abstract description 173
- 238000000034 method Methods 0.000 title claims abstract description 30
- 230000007246 mechanism Effects 0.000 claims abstract description 204
- 238000003825 pressing Methods 0.000 claims abstract description 168
- 230000002093 peripheral effect Effects 0.000 claims description 187
- 239000007788 liquid Substances 0.000 claims description 85
- 239000004065 semiconductor Substances 0.000 abstract description 6
- 238000005498 polishing Methods 0.000 description 114
- 239000012530 fluid Substances 0.000 description 26
- 238000011084 recovery Methods 0.000 description 26
- 238000010586 diagram Methods 0.000 description 18
- 238000012545 processing Methods 0.000 description 15
- 230000000712 assembly Effects 0.000 description 14
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- 238000012546 transfer Methods 0.000 description 14
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- IJGRMHOSHXDMSA-UHFFFAOYSA-N Atomic nitrogen Chemical compound N#N IJGRMHOSHXDMSA-UHFFFAOYSA-N 0.000 description 6
- 230000000694 effects Effects 0.000 description 6
- 238000005192 partition Methods 0.000 description 6
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 6
- 239000004372 Polyvinyl alcohol Substances 0.000 description 5
- 239000011162 core material Substances 0.000 description 5
- 230000003028 elevating effect Effects 0.000 description 5
- 229920002451 polyvinyl alcohol Polymers 0.000 description 5
- 238000003860 storage Methods 0.000 description 5
- 239000002245 particle Substances 0.000 description 4
- 238000007517 polishing process Methods 0.000 description 4
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 3
- 238000004891 communication Methods 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 3
- QGZKDVFQNNGYKY-UHFFFAOYSA-N Ammonia Chemical compound N QGZKDVFQNNGYKY-UHFFFAOYSA-N 0.000 description 2
- 239000006061 abrasive grain Substances 0.000 description 2
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- XUIMIQQOPSSXEZ-UHFFFAOYSA-N Silicon Chemical compound [Si] XUIMIQQOPSSXEZ-UHFFFAOYSA-N 0.000 description 1
- 229910021529 ammonia Inorganic materials 0.000 description 1
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Images
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67011—Apparatus for manufacture or treatment
- H01L21/67017—Apparatus for fluid treatment
- H01L21/67028—Apparatus for fluid treatment for cleaning followed by drying, rinsing, stripping, blasting or the like
- H01L21/6704—Apparatus for fluid treatment for cleaning followed by drying, rinsing, stripping, blasting or the like for wet cleaning or washing
- H01L21/67046—Apparatus for fluid treatment for cleaning followed by drying, rinsing, stripping, blasting or the like for wet cleaning or washing using mainly scrubbing means, e.g. brushes
-
- B08B1/10—
-
- B08B1/50—
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/02—Manufacture or treatment of semiconductor devices or of parts thereof
- H01L21/02041—Cleaning
- H01L21/02082—Cleaning product to be cleaned
- H01L21/02087—Cleaning of wafer edges
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/02—Manufacture or treatment of semiconductor devices or of parts thereof
- H01L21/04—Manufacture or treatment of semiconductor devices or of parts thereof the devices having at least one potential-jump barrier or surface barrier, e.g. PN junction, depletion layer or carrier concentration layer
- H01L21/18—Manufacture or treatment of semiconductor devices or of parts thereof the devices having at least one potential-jump barrier or surface barrier, e.g. PN junction, depletion layer or carrier concentration layer the devices having semiconductor bodies comprising elements of Group IV of the Periodic System or AIIIBV compounds with or without impurities, e.g. doping materials
- H01L21/30—Treatment of semiconductor bodies using processes or apparatus not provided for in groups H01L21/20 - H01L21/26
- H01L21/302—Treatment of semiconductor bodies using processes or apparatus not provided for in groups H01L21/20 - H01L21/26 to change their surface-physical characteristics or shape, e.g. etching, polishing, cutting
- H01L21/304—Mechanical treatment, e.g. grinding, polishing, cutting
Definitions
- the present invention relates to a substrate cleaning apparatus and a substrate cleaning method for cleaning a substrate such as a semiconductor wafer, and more particularly to a substrate cleaning apparatus and a substrate cleaning method for cleaning the peripheral edge of the substrate.
- the cleaning tool may be discolored due to the adhesion of particles, the contact portion may be broken, or the foreign matter adhering to the substrate may remain without being removed.
- the present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to provide a substrate cleaning apparatus and a substrate cleaning method capable of improving the cleaning effect of a peripheral portion of a substrate.
- the position of the substrate holding portion that holds and rotates the substrate, the pressing portion that has an internal space and presses the cleaning tape against the peripheral edge portion of the substrate, and the pressing portion in the radial direction of the substrate is controlled.
- the pressing portion includes a pressing portion moving mechanism and a pressure regulator for controlling the pressure in the internal space, and the pressing portion includes a hollow support member having an opening and an elastic body that supports the cleaning tape.
- a substrate cleaning device is provided in which the elastic body is arranged so as to close the opening.
- the pressing portion moving mechanism includes a ball screw mechanism connected to the pressing portion and a motor for operating the ball screw mechanism.
- the motor is a servomotor.
- the pressure regulator is an electropneumatic regulator.
- the substrate cleaning device further includes a vertical movement mechanism for moving the pressing portion up and down.
- the substrate cleaning device further comprises a tape cleaning mechanism for cleaning the cleaning tape, and the tape cleaning mechanism includes a cleaning liquid supply nozzle that supplies a cleaning liquid to the surface of the cleaning tape.
- the tape cleaning mechanism further comprises a cleaning brush that contacts the surface of the cleaning tape to clean the cleaning tape.
- the substrate cleaning device further comprises a first reel and a second reel that hold both ends of the cleaning tape, respectively, and the first reel and the second reel are such that the cleaning tape advances horizontally. It is arranged to do.
- the substrate is held and rotated by the substrate holding portion, and the cleaning tape is pressed against the peripheral edge portion of the substrate by a pressing portion having an internal space while advancing the cleaning tape in a certain direction.
- the steps of cleaning the peripheral edge of the substrate and cleaning the peripheral edge of the substrate include a step of controlling the position of the pressing portion in the radial direction of the substrate by a pressing portion moving mechanism and an internal space of the pressing portion by a pressure regulator.
- the pressing portion comprises a hollow support member having an opening and an elastic body for supporting the cleaning tape, and the elastic body is such that the opening is closed. A method of cleaning the substrate, which is located in, is provided.
- the pressing portion moving mechanism includes a ball screw mechanism connected to the pressing portion and a motor for operating the ball screw mechanism.
- the motor is a servomotor.
- the pressure regulator is an electropneumatic regulator.
- the step of cleaning the peripheral edge portion of the substrate further includes a step of moving the pressing portion up and down during cleaning of the peripheral edge portion of the substrate.
- the cleaning liquid is supplied to the cleaning tape after being brought into contact with the peripheral edge of the substrate by a tape cleaning mechanism to supply the peripheral edge of the substrate. Further includes a step of cleaning the cleaning tape after being brought into contact with the cleaning tape.
- the cleaning liquid is brought into contact with the peripheral portion of the substrate by a tape cleaning mechanism while feeding the cleaning tape in a certain direction.
- the step of cleaning the cleaning tape after supplying the cleaning tape to the cleaning tape and bringing it into contact with the peripheral edge of the substrate is further included.
- the cleaning tape is completely wound on either a first reel holding one end of the cleaning tape or a second reel holding the other end of the cleaning tape, and then the cleaning tape is rolled in the reverse direction.
- the step of advancing the cleaning tape in a certain direction is a step of advancing the cleaning tape in the horizontal direction.
- the substrate cleaning apparatus can always clean the peripheral portion of the substrate with a clean portion of the cleaning tape. Further, the cleaning position can be arbitrarily changed by controlling the moving distance of the pressing portion, and the pressure applied to the substrate from the pressing portion can be controlled by controlling the pressure in the internal space of the pressing portion. .. As a result, the cleaning effect of the peripheral portion of the substrate can be improved.
- FIG. 1A is an enlarged cross-sectional view showing a peripheral portion of a substrate.
- FIG. 1B is an enlarged cross-sectional view showing a peripheral portion of a substrate. It is a top view which shows one Embodiment of the substrate cleaning apparatus schematically. It is a perspective view of the substrate cleaning apparatus shown in FIG. It is a figure which looked at the peripheral part cleaning unit from the direction shown by the arrow A of FIG. It is a schematic diagram of the peripheral edge cleaning unit shown in FIGS. 2 to 4. It is a figure which looked at the pressing part from the direction indicated by the arrow B of FIG.
- FIG. 7A is a diagram showing a state in which the cleaning tape is separated from the peripheral edge of the wafer.
- FIG. 7A is a diagram showing a state in which the cleaning tape is separated from the peripheral edge of the wafer.
- FIG. 7B is a diagram showing a state in which the cleaning tape is pressed against the peripheral edge of the wafer by an elastic body.
- FIG. 7C is a diagram showing a state in which the pressing portion is further moved inward in the radial direction from the state shown in FIG. 7B.
- FIG. 8 is a view of the peripheral edge cleaning unit of FIG. 8 as viewed from the direction indicated by the arrow C of FIG.
- FIG. 10A is a diagram showing a state in which the center line in the thickness direction of the wafer is located at the center of the pressing portion.
- FIG. 10B is a diagram showing a state in which the pressing portion is lowered from the position shown in FIG. 10A.
- 10C is a diagram showing a state in which the pressing portion is raised from the position shown in FIG. 10A. It is a schematic diagram which shows still another embodiment of the peripheral part cleaning unit. 11 is a view of the peripheral edge cleaning unit of FIG. 11 as viewed from the direction indicated by the arrow D of FIG. It is a schematic diagram which shows one Embodiment of a tape cleaning mechanism. It is a schematic diagram which shows the other embodiment of the tape cleaning mechanism. It is a schematic diagram which shows still another embodiment of the peripheral part cleaning unit. It is a perspective view which shows the other embodiment of the substrate cleaning apparatus schematically. It is a top view schematically showing still another embodiment of a substrate cleaning apparatus. It is a vertical sectional view of the substrate cleaning apparatus shown in FIG.
- peripheral edge portion of the substrate is defined as a region including a bevel portion located on the outermost periphery of the substrate and a top edge portion and a bottom edge portion located on the inner side in the radial direction of the bevel portion.
- FIG. 1A and 1B are enlarged cross-sectional views showing a peripheral portion of a substrate. More specifically, FIG. 1A is a cross-sectional view of a so-called straight type substrate, and FIG. 1B is a cross-sectional view of a so-called round type substrate.
- the bevel portion is a wafer composed of an upper inclined portion (upper bevel portion) S, a lower inclined portion (lower bevel portion) U, and a side portion (apex) T. It is the outermost peripheral surface of W (indicated by reference numeral V).
- the bevel portion is a portion (indicated by reference numeral V) having a curved cross section constituting the outermost peripheral surface of the wafer W.
- the top edge portion is a flat portion Ed1 located inward in the radial direction with respect to the bevel portion V.
- the bottom edge portion is a flat portion Ed2 located on the side opposite to the top edge portion and located inward in the radial direction with respect to the bevel portion V.
- the top edge portion Ed1 may include a region in which the device is formed.
- FIG. 2 is a plan view schematically showing an embodiment of the substrate cleaning apparatus
- FIG. 3 is a perspective view of the substrate cleaning apparatus shown in FIG. 2.
- the substrate cleaning device 1 includes a substrate holding portion 10 that holds and rotates a wafer W, which is an example of a substrate, and an upper roll that is rotatably supported by a first roll holder (not shown).
- a cleaning member (roll sponge) 12, a lower roll cleaning member (roll sponge) 13 rotatably supported by a second roll holder (not shown), and two upper liquid supplies that supply a liquid as a cleaning liquid to the upper surface of the wafer W.
- peripheral edges of the wafer W are cleaned by contacting the nozzles 14 and 15, the two lower liquid supply nozzles 16 and 17 that supply the liquid as the cleaning liquid to the lower surface of the wafer W, and the cleaning tape 19 with the peripheral edges of the wafer W.
- a peripheral edge cleaning unit 20 and an operation control unit 9 for controlling the operation of each component of the substrate cleaning device 1 are provided.
- the upper surface of the wafer W is the front surface (device surface) of the wafer W
- the lower surface is the back surface of the wafer W.
- the substrate cleaning device 1 of the present embodiment can perform both cleaning of the upper and lower surfaces of the wafer W by the roll cleaning members 12 and 13 and cleaning of the peripheral portion of the wafer W by the peripheral edge cleaning unit 20.
- the substrate holding portion 10 includes a plurality of spindles 11 (four in this embodiment) that hold the peripheral edge portion of the wafer W and rotate the wafer W horizontally, a spindle drive mechanism (not shown), and a substrate rotation mechanism (not shown). I have.
- the plurality of spindles 11 can be moved in directions (horizontal direction) close to and away from the wafer W by a spindle drive mechanism (for example, an air cylinder) (not shown).
- the plurality of spindles 11 include a plurality of frames 11a.
- the substrate holding portion 10 holds the wafer W by locating the peripheral edge portion of the wafer W in a fitting groove formed on the outer peripheral side surface of the top 11a provided on the upper portion of each spindle 11 and pressing the wafer W inward.
- rotating (rotating) 11a the wafer W is rotated horizontally.
- two frames 11a out of the four frames 11a are connected to a substrate rotation mechanism (not shown), and these two frames 11a are rotated in the same direction by the substrate rotation mechanism. There is.
- the two frames 11a rotate while the four frames 11a hold the wafer W, the wafer W rotates around its axis Cr.
- two of the four pieces 11a give a rotational force to the wafer W, and the other two pieces 11a act as bearings that receive the rotation of the wafer W.
- all the frames 11a may be connected to the substrate rotation mechanism to apply a rotational force to the wafer W.
- the upper roll cleaning member 12 and the lower roll cleaning member 13 are columnar and extend in a long shape.
- the upper roll cleaning member 12 is composed of a cylindrical core material 12a and a tubular sponge member 12b fixed to the outer peripheral surface of the core material 12a
- the lower roll cleaning member 13 is composed of a cylindrical core material 13a and a cylindrical core material 13a. It is composed of a tubular sponge member 13b fixed to the outer peripheral surface of the core material 13a.
- the sponge members 12b and 13b are made of, for example, polyvinyl alcohol (PVA).
- the substrate cleaning device 1 has a first roll cleaning member rotation mechanism (not shown) that rotates the upper roll cleaning member 12 around its axis AX1, and a second roll cleaning member 13 that rotates around its axis AX2. It is further equipped with a roll cleaning member rotation mechanism (not shown).
- the roll cleaning members 12 and 13 are rotated in the direction of the arrow shown in FIG. 3 by the first and second roll cleaning member rotation mechanisms.
- the substrate cleaning device 1 includes a first elevating mechanism (not shown) that moves the upper roll cleaning member 12, the first roll holder, and the first roll cleaning member rotation mechanism in the vertical direction, and the lower roll cleaning member 13, the second roll holder. Further, a second elevating mechanism (not shown) for moving the second roll cleaning member rotation mechanism in the vertical direction is further provided. That is, the upper roll cleaning member 12 can be raised and lowered with respect to the upper surface of the wafer W, and the lower roll cleaning member 13 can be raised and lowered with respect to the lower surface of the wafer W.
- the upper liquid supply nozzles 14 and 15 are arranged above the wafer W held by the substrate holding portion 10, and the lower liquid supply nozzles 16 and 17 are below the wafer W held by the substrate holding portion 10. Have been placed.
- the upper liquid supply nozzle 14 and the lower liquid supply nozzle 16 are nozzles for supplying a rinse liquid (for example, ultrapure water) to the upper surface and the lower surface of the wafer W, respectively, and the upper liquid supply nozzle 15 and the lower liquid supply nozzle 17 Is a nozzle that supplies a chemical solution to the upper surface and the lower surface of the wafer W, respectively.
- the upper liquid supply nozzle 14 and the lower liquid supply nozzle 16 are connected to a rinse liquid supply source (not shown), and the upper liquid supply nozzle 15 and the lower liquid supply nozzle 17 are connected to a chemical liquid supply source (not shown). ..
- the operation control unit 9 supplies electricity to the substrate holding unit 10, the first and second roll cleaning member rotation mechanisms, the first and second elevating mechanisms, the lower liquid supply nozzles 16 and 17, and the upper liquid supply nozzles 14 and 15. Is connected.
- the operation of the substrate holding unit 10, the first and second roll cleaning member rotation mechanism, the first and second elevating mechanism, the lower liquid supply nozzles 16 and 17, and the upper liquid supply nozzles 14 and 15 is performed by the operation control unit 9. Be controlled.
- the operation control unit 9 includes a storage device 9a in which the program is stored and a processing device 9b that executes an operation according to an instruction included in the program.
- the processing device 9b includes a CPU (central processing unit) or a GPU (graphic processing unit) that performs operations according to instructions included in a program stored in the storage device 9a.
- the storage device 9a includes a main storage device (for example, a random access memory) accessible to the processing device 9b and an auxiliary storage device (for example, a hard disk drive or a solid state drive) for storing data and programs.
- the motion control unit 9 is composed of at least one computer. However, the specific configuration of the motion control unit 9 is not limited to this example.
- the substrate holding portion 10 holds the wafer W horizontally with the surface facing up, and rotates the wafer W around its axis Cr.
- the rinse liquid is supplied from the upper liquid supply nozzle 14 and the lower liquid supply nozzle 16 to the upper surface and the lower surface of the wafer W, respectively, and the upper surface and the lower surface of the wafer W are supplied from the upper liquid supply nozzle 15 and the lower liquid supply nozzle 17 respectively.
- the sponge member 12b is brought into contact with the upper surface of the rotating wafer W, and the lower roll cleaning member 13 is moved around the axis AX2.
- the sponge member 13b is brought into contact with the lower surface of the rotating wafer W.
- the upper and lower surfaces of the wafer W are scrubbed with the roll cleaning members 12 and 13 in the presence of the cleaning liquid (rinse liquid and chemical liquid).
- the roll cleaning members 12 and 13 are longer than the diameter of the wafer W and come into contact with the entire upper and lower surfaces of the wafer W.
- the above-mentioned cleaning step of the upper and lower surfaces of the wafer W is performed after the surface of the substrate is polished by chemical mechanical polishing (CMP) or the like.
- FIG. 4 is a view of the peripheral edge cleaning unit 20 as viewed from the direction indicated by the arrow A in FIG.
- the peripheral edge cleaning unit 20 has a pressing portion 22 for pressing a cleaning tape 19 as a cleaning tool against the peripheral edge portion of the wafer W to clean the peripheral edge portion of the wafer W, and a pressing portion 22. It is provided with a pressing portion moving mechanism 30 for moving the wafer W in the radial direction, and a tape feeding unit 40 for holding the cleaning tape 19 and advancing it in the longitudinal direction thereof.
- the fluid transfer line 42, the pressure regulator 44, the fluid supply source 46, and the on-off valves 48a and 48b which will be described later, are not shown.
- the tape feed unit 40 includes a first reel 50 and a second reel 51 that hold both ends of the cleaning tape 19, respectively, and a first reel rotation motor 52 and a second reel that rotate the first reel 50 and the second reel 51, respectively. It is equipped with a rotary motor 53. The first reel rotary motor 52 and the second reel rotary motor 53 are connected to the first reel 50 and the second reel 51, respectively.
- the peripheral edge cleaning unit 20 is arranged so that the pressing portion 22 is located between the two spindles 11 of the four spindles 11.
- the pressing portion 22 faces the peripheral edge portion of the wafer W when the wafer W is held by the substrate holding portion 10.
- the cleaning tape 19 extends from the first reel 50 to the second reel 51 via the pressing portion 22 so that the cleaning surface of the cleaning tape 19 faces the peripheral edge portion of the wafer W.
- the back surface of the cleaning tape 19 (the surface opposite to the cleaning surface) is supported by the pressing portion 22.
- a first guide roller 54 and a second guide roller 55 are arranged between the first and second reels 50 and 51 and the pressing portion 22, respectively.
- the guide rollers 54 and 55 support the cleaning tape 19 extending between the reels 50 and 51 and the pressing portion 22. By driving the tape feed unit 40, the cleaning tape 19 advances in a certain direction.
- the reel rotation motors 52 and 53 rotate the reels 50 and 51 in the direction of the arrow shown in FIG. 2, so that the cleaning tape 19 is pulled out from the first reel 50 and wound up on the second reel 51. Will be.
- the cleaning tape 19 advances from the first reel 50 to the second reel 51 via the first guide roller 54, the pressing portion 22, and the second guide roller 55 in this order under a predetermined tension.
- the reels 50, 51 and the reel rotation motors 52, 53 are arranged so that the cleaning tape 19 advances in the horizontal direction (tangential direction of the wafer W). As a result, the tape feed unit 40 can be compactly configured.
- the tape feed unit 40 is configured to be able to advance the cleaning tape 19 in the direction opposite to the direction in which the cleaning tape 19 is fed from the first reel 50 to the second reel 51. That is, when the reel rotation motors 52 and 53 rotate the reels 50 and 51 in the direction opposite to the direction of the arrow shown in FIG. 2, the cleaning tape 19 is pulled out from the second reel 51 and wound up on the first reel 50. Will be. In this case, the cleaning tape 19 passes through the second guide roller 55, the pressing portion 22, and the first guide roller 54 in this order from the second reel 51 to the first reel 50 in a state where a predetermined tension is applied. proceed.
- the tape feed unit 40 may include a tape feed mechanism that feeds the cleaning tape 19 from the first reel 50 to the second reel 51 (or from the second reel 51 to the first reel 50).
- the tape feed mechanism includes a tape feed roller, a tape gripping roller arranged next to the tape feed roller, and a motor connected to the tape feed roller.
- the cleaning tape 19 is sandwiched between the tape feed roller and the tape gripping roller.
- the tape feed unit 40 pushes the cleaning tape 19 from the first reel 50 (or the second reel 51) via the pressing portion 22 by rotating the tape feed roller by a motor connected to the tape feed roller.
- the cleaning tape 19 may be configured to be fed to the second reel 51 (or the first reel 50) by rotating the first reel 50 and the second reel 51 in opposite directions to apply a predetermined tension to the cleaning tape 19. May be given.
- the tape feed unit 40 is electrically connected to the operation control unit 9.
- the operation of the tape feed unit 40 is controlled by the operation control unit 9.
- the cleaning tape 19 include a tape made of a non-woven fabric and a tape made of a sponge.
- the cleaning tape 19 may have abrasive grains such as silica (SiO 2 ) on its surface (cleaning surface). As a result, the cleaning tape 19 can be given a light polishing force.
- FIG. 5 is a schematic view of the peripheral edge cleaning unit 20 shown in FIGS. 2 to 4, and FIG. 6 is a view of the pressing portion 22 as viewed from the direction indicated by the arrow B in FIG. In FIG. 5, the tape feed unit 40 and the guide rollers 54 and 55 are not shown.
- the pressing portion 22 includes a hollow support member 24 and an elastic body 27 that supports the cleaning tape 19.
- the pressing portion 22 has an internal space R, and the support member 24 has an opening 24a that opens in the direction toward the wafer W.
- the support member 24 has a base 25 and a plurality of protrusions 26a, 26b, 26c, 26d extending vertically from the base 25.
- the base 25 and the protrusions 26a, 26b, 26c, 26d are arranged so as to surround the internal space R, and the base 25 and the protrusions 26a, 26b, 26c, 26d are integrally formed.
- the elastic body 27 is arranged so as to close the opening 24a, and is in contact with the ends of the protrusions 26a, 26b, 26c, 26d. More specifically, the elastic body 27 is stretched between the ends of the protrusions 26a, 26b, 26c, and 26d.
- An internal space R is formed in the pressing portion 22 by the support member 24 and the elastic body 27.
- the support member 24 is a rigid body, and the elastic body 27 is made of elastic rubber or the like. In one embodiment, the surface of the elastic body 27 may be coated to ensure slipperiness with the cleaning tape 19.
- the pressing portion moving mechanism 30 is configured to be able to control the position of the pressing portion 22 (moving distance of the pressing portion 22 from a predetermined reference position) in the radial direction of the wafer W.
- the pressing unit moving mechanism 30 is electrically connected to the motion control unit 9, and the operation of the pressing unit moving mechanism 30 is controlled by the motion control unit 9.
- the operation control unit 9 is configured to issue a command to the pressing unit moving mechanism 30 to control the position of the pressing unit 22.
- the motion control unit 9 transmits a target value (target value of the moving distance) of the position of the pressing unit 22 to the pressing unit moving mechanism 30, and the pressing unit 22 is the target of the pressing unit moving mechanism 30.
- the position of the pressing portion 22 is controlled according to the above target value so as to be located at the position.
- the pressing portion 22 is connected to the pressing portion moving mechanism 30 via the fixing member 32.
- the pressing portion moving mechanism 30 includes a ball screw mechanism 34 and a motor 36 that operates the ball screw mechanism 34.
- the ball screw mechanism 34 includes a nut mechanism 34a fixed to the fixing member 32 and a screw shaft 34b screwed to the nut mechanism 34a.
- the screw shaft 34b is connected to the motor 36.
- the motor 36 is a servo motor. In one embodiment, a stepping motor may be used as the motor 36.
- the operation control unit 9 issues a command to the pressing unit moving mechanism 30 to rotate the motor 36, so that the screw shaft 34b rotates.
- the pressing portion 22 moves toward the wafer W or away from the wafer W via the nut mechanism 34a and the fixing member 32.
- the movement of the nut mechanism 34a is guided by the linear guide 38.
- the motor 36 controls the moving distance of the pressing portion 22 by rotating the screw shaft 34b so that the pressing portion 22 is located at the target position.
- the pressing portion moving mechanism 30 may be a combination of an air cylinder and a pressure regulator.
- the peripheral edge cleaning unit 20 further includes a fluid transfer line 42 and a pressure regulator 44 that controls the pressure in the internal space R.
- An internal passage 25a is formed inside the base 25 of the support member 24.
- One end of the fluid transfer line 42 is connected to the internal passage 25a and the other end is connected to the fluid supply source 46.
- the fluid transfer line 42 communicates with the internal space R through the internal passage 25a.
- a fluid such as a gas (air, nitrogen, etc.) or a liquid (water, etc.) is supplied from the fluid supply source 46 to the internal space R through the fluid transfer line 42 and the internal passage 25a.
- the pressure regulator 44 is connected to the fluid transfer line 42.
- On-off valves 48a and 48b are further connected to the fluid transfer line 42. By opening the on-off valves 48a and 48b, the fluid from the fluid supply source 46 is supplied to the internal space R through the pressure regulator 44 and the on-off valves 48a and 48b.
- the operation control unit 9 is electrically connected to the pressure regulator 44 and the on-off valves 48a and 48b, and the operation of the pressure regulator 44 and the on-off valves 48a and 48b is controlled by the operation control unit 9.
- the operation control unit 9 is configured to issue a command to the pressure regulator 44 to control the pressure in the internal space R. Specifically, the operation control unit 9 transmits a predetermined target pressure value to the pressure regulator 44, and the pressure regulator 44 controls the pressure of the fluid in the internal space R so that the pressure in the internal space R becomes the target pressure value. To adjust.
- the pressure regulator 44 controls the pressure in the internal space R by adjusting the pressure of the fluid in the internal space R.
- An example of the pressure regulator 44 is an electropneumatic regulator.
- 7A to 7C are views showing how the cleaning tape 19 is pressed against the peripheral edge of the wafer W by the pressing portion 22.
- 7A to 7C show an example of cleaning a so-called straight type wafer W (see FIG. 1A).
- the operation control unit 9 drives the pressing portion moving mechanism 30 from the state where the cleaning tape 19 is separated from the peripheral portion of the wafer W (see FIG. 7A) until the cleaning tape 19 comes into contact with the peripheral portion of the wafer W.
- the pressing portion 22 is moved toward the wafer W.
- the cleaning tape 19 is pressed against the peripheral edge of the wafer W by the elastic body 27 (see FIG. 7B).
- the elastic body 27 is deformed along the shape of the wafer W.
- the peripheral edge of the wafer W is cleaned by pressing the cleaning tape 19 against the peripheral edge of the wafer W while rotating the wafer W and advancing the cleaning tape 19 at a predetermined speed.
- the substrate cleaning device 1 can always clean the peripheral portion of the wafer W with a clean portion of the cleaning tape 19. Further, since the cleaning tape 19 is pressed against the peripheral edge portion of the wafer W so as to wrap around the peripheral edge portion of the wafer W, the peripheral edge portion of the wafer W can be cleaned without tilting the pressing portion 22 by a tilt mechanism or the like. can.
- the peripheral edge cleaning unit 20 can be compactly configured.
- the pressure regulator 44 can control the pressure applied to the wafer W by controlling the pressure in the internal space R. As a result, the pressure applied to the wafer W can be kept constant, and the variation in pressure due to the contact position between the cleaning tape 19 and the wafer W can be reduced.
- the elastic body 27 is further pushed by the wafer W, and the elastic body 27 and the cleaning tape 19 are attached to the wafer W. It further deforms along the shape.
- the pressing portion moving mechanism 30 controls the pushing amount L of the pressing portion 22 by controlling the position of the pressing portion 22 in the radial direction of the wafer W.
- the pushing amount L is applied from the surface of the elastic body 27 located on the innermost side in the radial direction of the wafer W to the outermost peripheral portion of the wafer W (the side portion of the bevel portion in the example shown in FIG. 7C) via the cleaning tape 19. The distance to the surface of the elastic body 27 being pushed.
- FIG. 7C shows an example in which the elastic body 27 is pushed in until the cleaning tape 19 comes into contact with the top edge portion and the bottom edge portion (see FIG. 1A).
- the contact position that is, the cleaning position
- the top edge portion and the bottom edge portion can be arbitrarily changed in addition to the entire bevel portion.
- the part can also be washed.
- the internal space R is pressurized during cleaning of the peripheral portion of the wafer W.
- a force is applied to the pressing portion 22 to push the base portion 25 outward in the radial direction from the internal space R.
- a motor that can control the rotation axis position or rotation angle of the rotation axis of the motor such as a servo motor or a stepping motor for the pressing unit moving mechanism 30, the pressing unit 22 is not affected by the pressure of the internal space R.
- the position of the can be precisely controlled.
- the cleaning tape 19 proceeds in the horizontal direction (tangential direction of the wafer W), but in one embodiment, the cleaning tape 19 supported by the pressing portion 22 is in the vertical direction (tangential direction of the wafer W).
- the tape feed unit 40 may be arranged so as to proceed in the orthogonal direction). In this case, the first reel 50 and the second reel 51 are arranged vertically.
- the substrate holding portion 10 holds the wafer W horizontally with the surface facing up, and rotates the wafer W around its axis Cr.
- the rinse liquid is supplied from the upper liquid supply nozzle 14 and the lower liquid supply nozzle 16 to the upper surface and the lower surface of the wafer W, respectively, and the upper surface and the lower surface of the wafer W are supplied from the upper liquid supply nozzle 15 and the lower liquid supply nozzle 17 respectively.
- the rinse solution and the chemical solution spread outside the wafer W by centrifugal force, and the rinse solution and the chemical solution are supplied to the peripheral edge portion of the wafer W.
- the peripheral edge of the wafer W is washed in the presence of the rinsing solution and the chemical solution.
- the operation control unit 9 drives the tape feed unit 40, applies a predetermined tension to the cleaning tape 19, and moves the cleaning tape 19 at a predetermined speed in a fixed direction (in the present embodiment, from the first reel 50). Proceed in the direction toward the second reel 51). More specifically, the tape feed unit 40 advances the cleaning tape 19 in the horizontal direction (tangential direction of the wafer W).
- the pressing portion moving mechanism 30 moves the pressing portion 22 toward the wafer W and brings the pressing portion 22 into contact with the wafer W.
- the operation control unit 9 transmits the target value of the position of the pressing unit 22 in the radial direction of the wafer W to the pressing unit moving mechanism 30, and the pressing unit moving mechanism 30 is the position where the pressing unit 22 is the target.
- the pressing portion 22 is moved according to the above target value so as to be located at.
- the pressing portion moving mechanism 30 controls the position of the pressing portion 22 in the radial direction of the wafer W according to the above target value.
- the pressing portion 22 presses the cleaning tape 19 against the peripheral edge portion of the wafer W to clean the peripheral edge portion of the wafer W.
- the operation control unit 9 issues a command to the pressure regulator 44 to control the pressure in the internal space R. Specifically, the operation control unit 9 opens the on-off valves 48a and 48b to supply a fluid such as a gas (air, nitrogen, etc.) or a liquid (water, etc.) from the fluid supply source 46 to the internal space R. Then, the operation control unit 9 issues a command to the pressure regulator 44 to adjust the pressure of the fluid in the internal space R so that the pressure in the internal space R becomes the target pressure value.
- a fluid such as a gas (air, nitrogen, etc.) or a liquid (water, etc.
- the above-mentioned cleaning step of the peripheral portion of the wafer W is performed after the peripheral portion of the substrate is polished.
- the cleaning step of the peripheral portion of the wafer W may be performed at the same time as the cleaning step of the upper and lower surfaces of the wafer W described above, or may be performed separately.
- the peripheral edge portion of the wafer W is cleaned while the cleaning tape 19 is advanced in a certain direction, the peripheral edge portion of the wafer W can always be cleaned with the clean portion of the cleaning tape 19.
- the cleaning position can be arbitrarily changed by controlling the moving distance of the pressing portion 22, and the pressure applied to the wafer W from the pressing portion 22 can be controlled by controlling the pressure in the internal space R of the pressing portion 22. Can be controlled. As a result, the cleaning effect of the peripheral portion of the wafer W can be improved.
- FIG. 8 is a schematic view showing another embodiment of the peripheral edge cleaning unit 20, and FIG. 9 is a view of the peripheral edge cleaning unit 20 of FIG. 8 as viewed from the direction indicated by the arrow C in FIG.
- the details of the present embodiment, which are not particularly described, are the same as those of the embodiments described with reference to FIGS. 1A to 7C, and thus the overlapping description thereof will be omitted.
- the fluid transfer line 42, the pressure regulator 44, the fluid supply source 46, and the on-off valves 48a and 48b are not shown.
- the peripheral edge cleaning unit 20 of the present embodiment further includes a vertical movement mechanism 60 that moves the pressing portion 22 up and down.
- the peripheral edge cleaning unit 20 of the present embodiment further includes a base plate 62, and the pressing portion moving mechanism 30, the tape feeding unit 40, and the guide rollers 54 and 55 are included in the base plate 62. It is fixed to the upper surface of.
- the vertical movement mechanism 60 is connected to the base plate 62. In the present embodiment, the vertical movement mechanism 60 is configured to integrally move the base plate 62, the pressing portion 22, the pressing portion moving mechanism 30, the tape feed unit 40, and the guide rollers 54, 55.
- the vertical movement mechanism 60 is configured to be able to control the position of the pressing portion 22 in the vertical direction (that is, the moving distance of the pressing portion 22 in the vertical direction).
- the vertical movement mechanism 60 is electrically connected to the motion control unit 9, and the motion of the vertical motion mechanism 60 is controlled by the motion control unit 9.
- the base plate 62 is connected to the vertical movement mechanism 60 via a plurality of fixing members 63.
- the vertical movement mechanism 60 includes a ball screw mechanism 64 and a motor 66 that operates the ball screw mechanism 64.
- the ball screw mechanism 64 includes a nut mechanism 64a fixed to a plurality of fixing members 63 and a screw shaft 64b screwed to the nut mechanism 64a.
- the screw shaft 64b is connected to the motor 66. Examples of the motor 66 include a servo motor and a stepping motor.
- the motion control unit 9 issues a command to the vertical movement mechanism 60 to rotate the motor 66, whereby the screw shaft 64b is rotated.
- the base plate 62, the pressing portion 22, the pressing portion moving mechanism 30, the tape feed unit 40, and the guide rollers 54, 55 move up and down via the nut mechanism 64a and the fixing member 63.
- the vertical movement of the nut mechanism 64a is guided by a linear guide (not shown).
- the motor 66 controls the vertical movement distance of the pressing portion 22 by rotating the ball screw shaft 64b so that the pressing portion 22 moves by a predetermined distance.
- the vertical movement mechanism 60 may be a combination of an air cylinder and a pressure regulator.
- the peripheral portion of the wafer W is cleaned while moving the base plate 62, the pressing portion 22, the pressing portion moving mechanism 30, the tape feed unit 40, and the guide rollers 54 and 55 up and down.
- FIGS. 10A to 10C are diagrams showing a contact state between the cleaning tape 19 and the wafer W when the pressing portion 22 is moved up and down.
- 10A to 10C show an example of cleaning a so-called straight type wafer W (see FIG. 1A).
- FIG. 10A is a diagram showing a state in which the center line CL in the thickness direction of the wafer W is located at the center portion of the pressing portion 22, and
- FIG. 10B shows the pressing portion 22 lowered from the position shown in FIG. 10A.
- FIG. 10C is a diagram showing a state in which the pressing portion 22 is raised from the position shown in FIG. 10A.
- the cleaning tape 19 is slidably contacted with the peripheral edge portion of the wafer W in the vertical direction, and more aggressive cleaning becomes possible.
- the cleaning effect can be further improved by cleaning the peripheral edge portion of the wafer W while moving the pressing portion 22 up and down.
- FIG. 11 is a schematic view showing still another embodiment of the peripheral edge cleaning unit 20, and FIG. 12 is a view of the peripheral edge cleaning unit 20 of FIG. 11 as viewed from the direction indicated by the arrow D in FIG.
- the details of the present embodiment, which are not particularly described, are the same as those of the embodiments described with reference to FIGS. 8 to 10C, and thus the overlapping description thereof will be omitted.
- the peripheral edge cleaning unit 20 of the present embodiment further includes a plurality of tape cleaning mechanisms 70A and 70B for cleaning the cleaning tape 19.
- the fluid transfer line 42, the pressure regulator 44, the fluid supply source 46, and the on-off valves 48a and 48b are not shown.
- the tape cleaning mechanisms 70A and 70B are arranged in the path of the cleaning tape 19 so as to surround the cleaning tape 19. Specifically, the tape cleaning mechanism 70A is arranged between the first reel 50 and the pressing portion 22, and the tape cleaning mechanism 70B is arranged between the second reel 51 and the pressing portion 22. ing.
- the tape cleaning mechanisms 70A and 70B are configured so that the cleaning tape 19 passes through the inside thereof.
- the tape cleaning mechanisms 70A and 70B are electrically connected to the operation control unit 9, and the operation of the tape cleaning mechanisms 70A and 70B is controlled by the operation control unit 9.
- FIG. 13 is a schematic view showing an embodiment of the tape cleaning mechanism 70B, and is a sectional view taken along line EE of FIG.
- the tape cleaning mechanisms 70A and 70B have the same configuration. The following description relates to the tape cleaning mechanism 70B, but is similarly applied to the tape cleaning mechanism 70A. In the following description, the tape cleaning mechanisms 70A and 70B may be collectively referred to as the tape cleaning mechanism 70.
- the tape cleaning mechanism 70B includes a tape support member 74 that supports the back surface of the cleaning tape 19, a cleaning liquid supply nozzle 76 that supplies cleaning liquid to the front surface (cleaning surface) of the cleaning tape 19, and a tape support member. It includes a casing 78 that houses the 74 and the cleaning liquid supply nozzle 76. The tape support member 74 and the cleaning liquid supply nozzle 76 are fixed to the inner surface of the casing 78. The casing 78 is formed with a plurality of openings (not shown) through which the cleaning tape 19 passes. The cleaning liquid supply nozzle 76 is arranged so as to face the surface of the cleaning tape 19. Pure water is mentioned as an example of the cleaning liquid. The cleaning liquid supply nozzle 76 is connected to a cleaning liquid supply source (not shown).
- the cleaning tape 19 (cleaning tape 19 used for cleaning the peripheral edge of the wafer W) after being brought into contact with the peripheral edge of the wafer W is cleaned by the tape cleaning mechanism 70.
- the cleaning step of the cleaning tape 19 is performed during the cleaning of the wafer W.
- the cleaning tape 19 uses the tape cleaning mechanism 70A and the first guide roller during cleaning of the peripheral edge of the wafer W. The process proceeds from the first reel 50 to the second reel 51 via the 54, the pressing portion 22, the second guide roller 55, and the tape cleaning mechanism 70B in this order.
- the operation control unit 9 issues a command to the tape cleaning mechanism 70B to supply the cleaning liquid to the cleaning tape 19 after contacting the peripheral portion of the wafer W.
- the cleaning tape 19 after being brought into contact with the peripheral edge portion of the wafer W is cleaned.
- the cleaning tape 19 cleaned by the tape cleaning mechanism 70B is collected on the second reel 51.
- the cleaning tape 19 is cleaned while its back surface is supported by the tape support member 74.
- the cleaning liquid washes away foreign substances (particles) such as polishing debris adhering to the surface of the cleaning tape 19 when it comes into contact with the wafer W.
- the cleaning tape 19 is cleaned at any time during cleaning of the peripheral portion of the wafer W.
- the cleaning tape 19 can be reused by cleaning the cleaning tape 19 after it is brought into contact with the peripheral edge portion of the wafer W.
- FIG. 14 is a schematic view showing another embodiment of the tape cleaning mechanism 70. Since the details of the present embodiment not particularly described are the same as those of the embodiment described with reference to FIG. 13, the duplicated description will be omitted.
- the tape cleaning mechanism 70 of the present embodiment further includes a plurality of cleaning liquid supply nozzles 76 and a cleaning brush 80 that comes into contact with the surface (cleaning surface) of the cleaning tape 19 to clean the cleaning tape 19. ing.
- the cleaning effect of the cleaning tape 19 can be improved by bringing the cleaning brush 80 into contact with the surface of the cleaning tape 19 while advancing the cleaning tape 19 in a certain direction and supplying the cleaning liquid to the surface of the cleaning tape 19. ..
- the peripheral portion of the wafer W may be cleaned while the cleaning tape 19 is advanced in the reverse direction by the tape feed unit 40.
- the cleaning tape 19 passes through the tape cleaning mechanism 70B, the second guide roller 55, the pressing portion 22, the first guide roller 54, and the tape cleaning mechanism 70A in this order.
- the process proceeds from the second reel 51 to the first reel 50.
- the details of the cleaning step of the peripheral portion of the wafer W of the present embodiment are the same as those described above except for the traveling direction of the cleaning tape 19.
- the cleaning step of the cleaning tape 19 may be performed while cleaning the peripheral portion of the wafer W.
- the operation control unit 9 issues a command to the tape cleaning mechanism 70A to supply the cleaning liquid to the cleaning tape 19 after contacting the peripheral portion of the wafer W.
- the cleaning tape 19 after being brought into contact with the peripheral edge portion of the wafer W is cleaned.
- the cleaning tape 19 cleaned by the tape cleaning mechanism 70A is collected on the first reel 50.
- the cleaning tape 19 is again advanced in the opposite direction (direction from the first reel 50 to the second reel 51) while advancing the wafer.
- the peripheral edge portion of the W may be cleaned, or the cleaning step of the cleaning tape 19 may be performed during the cleaning of the peripheral edge portion of the wafer W.
- the cleaning tape 19 is wound in the opposite direction, so that the cleaning tape 19 is repeated. It can be used, and the frequency of replacement of the cleaning tape 19 can be reduced. Further, by cleaning the peripheral edge portion of the wafer W while moving the pressing portion 22 up and down, the frequency of replacing the cleaning tape 19 can be further reduced.
- the cleaning step of the cleaning tape 19 may be performed after cleaning the peripheral edge portion of the wafer W by a predetermined number of sheets.
- the cleaning tape 19 is moved in a fixed direction (direction from the first reel 50 toward the second reel 51, or from the second reel 51) by the tape feed unit 40. While feeding in the direction toward the first reel 50), the operation control unit 9 issues a command to the tape cleaning mechanism 70A and / or the tape cleaning mechanism 70B so that the cleaning liquid supply nozzle 76 comes into contact with the peripheral edge of the wafer W. The cleaning liquid is supplied to the cleaning tape 19.
- the traveling direction of the cleaning tape 19 at the time of cleaning the cleaning tape 19 in the present embodiment is opposite to the traveling direction of the cleaning tape 19 at the time of the cleaning process of the peripheral portion of the wafer W performed before the cleaning process of the cleaning tape 19.
- the direction. As a result, the cleaning tape 19 after being brought into contact with the peripheral edge portion of the wafer W is cleaned. Also in the present embodiment, after the cleaning tape 19 is completely wound on the first reel 50 or the second reel 51, the peripheral portion of the wafer W is pressed while the cleaning tape 19 is advanced in the reverse direction by the tape feed unit 40. You may wash it.
- the substrate cleaning device 1 may include either the tape cleaning mechanism 70A or the tape cleaning mechanism 70B.
- FIG. 15 is a schematic view showing still another embodiment of the peripheral edge cleaning unit 20.
- the details of the present embodiment, which are not particularly described, are the same as those of the embodiments described with reference to FIGS. 1A to 7C, and thus the overlapping description thereof will be omitted.
- the peripheral edge cleaning unit 20 of the present embodiment further includes a sensor 82 that irradiates the cleaning tape 19 after contacting the peripheral edge of the wafer W after cleaning with light and receives the reflected light from the cleaning tape 19. There is.
- the fluid transfer line 42, the pressure regulator 44, the fluid supply source 46, and the on-off valves 48a and 48b are not shown.
- the sensor 82 is arranged so as to face the surface of the cleaning tape 19 after being brought into contact with the peripheral edge portion of the wafer W.
- the sensor 82 is configured to receive the reflected light from the cleaning tape 19 and measure the intensity of the reflected light.
- the sensor 82 comprises, for example, an RGB color sensor.
- the RGB color sensor irradiates white LED light, decomposes the reflected light into three primary colors of red, green, and blue with a filter, and uses a detection element to color based on the intensity of each of the red, green, and blue colors. The ratio is determined.
- the sensor 82 can also measure the intensity of the received light by using an LED capable of irradiating light in the UV (ultraviolet) region as a light source and using the phosphor detection UV sensor as a light receiving sensor.
- the sensor 82 is electrically connected to the motion control unit 9.
- the operation control unit 9 receives a signal from the sensor 82 during cleaning of the peripheral portion of the wafer W, and compares the intensity of the reflected light received by the sensor 82 with a preset predetermined value. When the intensity of the reflected light is lower than the predetermined value, the operation control unit 9 determines that the cleaning tape 19 is dirty, and determines that the peripheral edge portion of the wafer W is dirty. When the intensity of the reflected light exceeds a predetermined value, the operation control unit 9 determines that the cleaning tape 19 is not contaminated, and determines that the peripheral edge portion of the wafer W is not contaminated.
- the operation control unit 9 determines the end point of the cleaning step of the peripheral portion of the wafer W based on the time when it is determined that the peripheral portion of the wafer W is not dirty.
- the present embodiment can also be applied to the embodiments described with reference to FIGS. 8 to 14.
- FIG. 16 is a perspective view schematically showing another embodiment of the substrate cleaning device 1. Since the details of the present embodiment not particularly described are the same as those of the embodiments described with reference to FIGS. 1A to 15, the duplicated description thereof will be omitted.
- the substrate cleaning device 1 of the present embodiment also functions as a pen-type substrate cleaning device for cleaning the upper surface of the wafer W.
- the substrate holding portion 10 for holding and rotating the wafer W, the support column 92 extending in the vertical direction, and one end thereof are attached to the tip of the support column 92 and are horizontal.
- the upper surface of the wafer W is provided with two upper liquid supply nozzles 14 and 15 for supplying a liquid as a cleaning liquid, two lower liquid supply nozzles 16 and 17, a peripheral cleaning unit 20, and an operation control unit 9. ..
- the substrate cleaning device 1 of the present embodiment can perform both cleaning of the upper surface of the wafer W by the pencil cleaning member 96 and cleaning of the peripheral surface of the wafer W by the peripheral edge cleaning unit 20.
- the pencil cleaning member 96 is connected to a cleaning member rotation mechanism (not shown) arranged in the swing arm 94 so that the pencil cleaning member 96 is rotated around its central axis extending in the vertical direction. It has become.
- the swing arm 94 is arranged above the wafer W.
- the substrate holding portion 10 is provided with a plurality of spindles 90 (four in FIG. 16) that hold the peripheral edge portion of the wafer W with the surface facing up and are movable in the horizontal direction to rotate the wafer W horizontally.
- the plurality of spindles 90 include a plurality of spin chucks 90a for holding the peripheral edge portion of the wafer W.
- the spin chucks 90a are configured to rotate in the same direction and at the same speed. When the spin chuck 90a rotates while the spin chuck 90a holds the wafer W horizontally, the wafer W is rotated around its axis Cr in the direction indicated by the arrow.
- the peripheral edge cleaning unit 20 is arranged so that the pressing portion 22 is located between the two spindles 90 of the four spindles 90.
- the cleaning member moving mechanism 93 rotates the support column 92 by a predetermined angle so that the swing arm 94 can be swiveled in a plane parallel to the wafer W.
- the pencil cleaning member 96 moves on the wafer W in an arcuate trajectory. Since the tip of the swing arm 94 extends to the center O of the wafer W, the movement locus of the pencil cleaning member 96 passes through the center O of the wafer W. Further, the pencil cleaning member 96 is moved to the outer periphery of the wafer W.
- the movement locus of the pencil cleaning member 96 due to the rotation of the swing arm 94 has an arc shape having the length of the swing arm 94 as a radius, and the movement range is from the outer periphery of the wafer W to past the center O of the wafer W. Up to.
- the cleaning member moving mechanism 93 is configured to be able to move the support column 92 up and down, whereby the pencil cleaning member 96 can be pressed against the surface of the wafer W with a predetermined pressure.
- the pencil cleaning member 96 is made of, for example, foamed polyurethane or PVA.
- the operation control unit 9 is electrically connected to the cleaning member moving mechanism 93 and the cleaning member rotation mechanism (not shown). The operations of the cleaning member moving mechanism 93 and the cleaning member rotation mechanism are controlled by the operation control unit 9.
- the upper surface of the wafer W is cleaned as follows. First, the substrate holding portion 10 holds the wafer W horizontally with the surface facing up, and rotates the wafer W around its axis Cr. In a state where the wafer W is rotated horizontally, the pencil cleaning member 96 is rotated while supplying the rinse liquid from the liquid supply nozzle 14 to the surface of the wafer W and supplying the chemical liquid from the liquid supply nozzle 15 to the surface of the wafer W. The pencil cleaning member 96 is revolved by turning the oscillating arm 94 while rotating (rotating), and is brought into contact with the surface of the rotating wafer W. As a result, the surface of the wafer W is scrubbed with the pencil cleaning member 96 in the presence of the cleaning solution (rinse solution and chemical solution).
- the cleaning solution rinse solution and chemical solution
- the cleaning step of the surface of the wafer W according to the embodiment described with reference to FIG. 16 is executed after the surface of the substrate is polished by CMP or the like.
- the cleaning step of the surface of the wafer W according to the embodiment described with reference to FIG. 16 and the cleaning step of the peripheral portion of the wafer W described above may be performed simultaneously or separately.
- the substrate cleaning device 1 includes the peripheral edge cleaning unit 20 according to the embodiment described with reference to FIGS. 1A to 7C, whereas the substrate cleaning device 1 refers to FIGS. 8 to 15.
- the peripheral edge cleaning unit 20 according to the embodiment described above may be provided.
- FIG. 17 is a plan view schematically showing still another embodiment of the substrate cleaning device 1
- FIG. 18 is a vertical cross-sectional view of the substrate cleaning device 1 shown in FIG. Since the details of the present embodiment not particularly described are the same as those of the embodiments described with reference to FIGS. 1A to 15, the duplicated description thereof will be omitted.
- the substrate cleaning device 1 of the present embodiment also functions as a bevel polishing device for polishing the peripheral edge portion of the wafer W.
- the substrate cleaning device 1 of the present embodiment can perform both polishing of the peripheral edge portion of the wafer W and cleaning of the peripheral edge portion of the wafer W by the peripheral edge cleaning unit 20.
- the substrate cleaning apparatus 1 of the present embodiment has a substrate holding portion 10 arranged in the center thereof, a peripheral portion cleaning unit 20, and a wafer W held by the substrate holding portion 10.
- a substrate holding portion 10 arranged in the center thereof, a peripheral portion cleaning unit 20, and a wafer W held by the substrate holding portion 10.
- Four polishing head assemblies 101A, 101B, 101C, 101D arranged around the above, and tape supply / recovery mechanisms 102A, 102B, 102C, arranged radially outside the polishing head assemblies 101A, 101B, 101C, 101D.
- the 102D, two upper liquid supply nozzles 14 and 15 for supplying a liquid as a cleaning liquid to the upper surface of the wafer W, two lower liquid supply nozzles 16 and 17, and an operation control unit 9 are provided.
- the substrate holding portion 10 of the present embodiment rotates a dish-shaped holding stage 104 that holds the back surface of the wafer W by vacuum suction, a hollow shaft 105 connected to the central portion of the holding stage 104, and the hollow shaft 105. It is equipped with a motor M1.
- the wafer W is placed on the holding stage 104 by a transfer mechanism (not shown) so that the center O of the wafer W (shown in FIG. 16) coincides with the axis of the hollow shaft 105.
- the wafer W is held horizontally by the substrate holding portion 10.
- the hollow shaft 105 is supported by a plurality of ball spline bearings (linear motion bearings) 106 so as to be vertically movable.
- a groove 104a is formed on the upper surface of the holding stage 104, and the groove 104a is connected to a communication line 107 extending through the hollow shaft 105.
- the communication line 107 is connected to the vacuum line 109 via a rotary joint 108 attached to the lower end of the hollow shaft 105.
- the communication line 107 is also connected to a nitrogen gas supply line 110 for separating the processed wafer W from the holding stage 104. By switching between these vacuum lines 109 and the nitrogen gas supply line 110, the wafer W is vacuum-adsorbed to the upper surface of the holding stage 104 and detached.
- the hollow shaft 105 is rotated by the motor M1 via a pulley q1 connected to the hollow shaft 105, a pulley q2 attached to the rotation shaft of the motor M1, and a belt b1 hung on these pulleys q1 and q2. ..
- the rotation shaft of the motor M1 extends parallel to the hollow shaft 105. With such a configuration, the wafer W held on the upper surface of the holding stage 104 is rotated by the motor M1.
- the ball spline bearing 106 is fixed to the casing 112. Therefore, in the present embodiment, the hollow shaft 105 is configured to be able to operate linearly up and down with respect to the casing 112, and the hollow shaft 105 and the casing 112 rotate integrally.
- the hollow shaft 105 is connected to an air cylinder (elevating mechanism) 115, and the hollow shaft 105 and the holding stage 104 can be raised and lowered by the air cylinder 115.
- a radial bearing 118 is interposed between the casing 112 and the casing 114 concentrically arranged on the outside thereof, and the casing 112 is rotatably supported by the bearing 118.
- the substrate holding portion 10 can rotate the wafer W around the axis Cr and raise and lower the wafer W along the axis Cr.
- the polishing head assemblies 101A to 101D and the tape supply and recovery mechanisms 102A to 102D are separated by a partition wall 120.
- the internal space of the partition wall 120 constitutes the processing chamber 121, and the polishing head assemblies 101A to 101D and the holding stage 104 are arranged in the processing chamber 121.
- the tape supply / recovery mechanisms 102A to 102D are arranged outside the processing chamber 121.
- the partition wall 120 includes a plurality of openings 120a through which the polishing tape 123 described later passes, and a transport port 120b for loading and unloading the wafer W into and out of the processing chamber 121.
- the transport port 120b is closed by a shutter (not shown). Therefore, a downflow of clean air is formed inside the processing chamber 121 by exhausting with a fan mechanism (not shown).
- Each of the polishing head assemblies 101A, 101B, 101C, and 101D functions as a substrate processing unit for polishing the bevel portion of the wafer W.
- the polishing head assemblies 101A, 101B, 101C, 101D and the tape supply and recovery mechanisms 102A, 102B, 102C, 102D have the same configuration.
- the polishing head assembly 101A and the tape supply / recovery mechanism 102A will be described.
- the tape supply / recovery mechanism 102A includes a supply reel 124 that supplies the polishing tape 123, which is a polishing tool, to the polishing head assembly 101A, and a recovery reel 125 that collects the polishing tape 123 used for polishing the wafer W. ..
- the supply reel 124 and the recovery reel 125 are arranged one above the other.
- a motor M2 is connected to the supply reel 124 and the recovery reel 125, respectively (FIGS. 1A and 1B show only the motor M2 connected to the supply reel 124). Each motor M2 can apply a constant torque in a predetermined rotation direction to apply a predetermined tension to the polishing tape 123.
- the polishing tape 123 is a long tape-shaped polishing tool, and one side thereof constitutes a polishing surface.
- the polishing tape 123 is set in the tape supply and recovery mechanism 102A in a state of being wound around the supply reel 124.
- One end of the polishing tape 123 is attached to the recovery reel 125, and the recovery reel 125 winds up the polishing tape 123 supplied to the polishing head assembly 101A to collect the polishing tape 123.
- the polishing head assembly 101A includes a polishing head 130 for bringing the polishing tape 123 supplied from the tape supply / recovery mechanism 102A into contact with the peripheral edge of the wafer W.
- the polishing tape 123 is supplied to the polishing head 130 so that the polishing surface of the polishing tape 123 faces the wafer W.
- the tape supply and collection mechanism 102A has a plurality of guide rollers 131, 132, 133, 134.
- the polishing tape 123 is guided by guide rollers 131 to 134.
- the polishing tape 123 is supplied from the supply reel 124 to the polishing head 130 through the opening 120a, and the used polishing tape 123 is collected on the recovery reel 125 through the opening 120a.
- an upper supply nozzle 136 is arranged on the upper surface of the wafer W, and the polishing liquid is supplied toward the center of the upper surface of the wafer W held by the substrate holding portion 10. Further, the lower supply nozzle 137 for supplying the polishing liquid toward the boundary portion between the back surface of the wafer W and the holding stage 104 (the outer peripheral portion of the holding stage 104) is provided. Pure water is usually used as the polishing liquid, but ammonia can also be used when silica is used as the abrasive grains of the polishing tape 123.
- the substrate cleaning apparatus 1 is provided with a cleaning nozzle 138 for cleaning the polishing head 130 after the polishing process, and after the wafer W is raised by the substrate holding portion 10 after the polishing process, cleaning water is sprayed toward the polishing head 130.
- the polishing head 130 after the polishing process can be cleaned.
- the upper supply nozzle 136 and the lower supply nozzle 137 are connected to a polishing liquid supply source (not shown), and the cleaning nozzle 138 is connected to a cleaning water supply source (not shown).
- the polishing head 130 is fixed to one end of the arm 160, and the arm 160 is rotatably configured around an axis Ct parallel to the tangent of the wafer W.
- the other end of the arm 160 is connected to the motor M4 via the pulleys q3 and q4 and the belt b2.
- the motor M4 rotates clockwise and counterclockwise by a predetermined angle
- the arm 160 rotates about the axis Ct by a predetermined angle.
- a tilt mechanism for tilting the polishing head 130 is configured by a motor M4, an arm 160, pulleys q3 and q4, and a belt b2.
- the tilt mechanism is mounted on the plate-shaped moving table 161.
- the moving table 161 is movably connected to the base plate 165 via a guide 162 and a rail 163.
- the rail 163 extends linearly along the radial direction of the wafer W held by the substrate holding portion 10, and the moving table 161 is linearly movable along the radial direction of the wafer W.
- a connecting plate 166 penetrating the base plate 165 is attached to the moving table 161, and a linear actuator 167 is attached to the connecting plate 166 via a joint 168.
- the linear actuator 167 is directly or indirectly fixed to the base plate 165.
- the linear actuator 167 a combination of an air cylinder or a positioning motor and a ball screw can be adopted.
- the linear actuator 167, the rail 163, and the guide 162 constitute a moving mechanism for linearly moving the polishing head 130 along the radial direction of the wafer W. That is, the moving mechanism operates so as to move the polishing head 130 closer to and further from the wafer W along the rail 163.
- the tape supply / recovery mechanism 102A is fixed to the base plate 165.
- FIG. 19 is an enlarged view of the polishing head 130.
- the polishing head 130 has a pressing mechanism 141 that presses the polished surface of the polishing tape 123 against the wafer W with a predetermined force, and a tape feed that sends the polishing tape 123 from the supply reel 124 to the recovery reel 125. It is equipped with a mechanism 142.
- the polishing head 130 has a plurality of guide rollers 143,144,145,146,147,148,149 so that the polishing tape 123 advances in a direction perpendicular to the tangential direction of the wafer W. Guide the polishing tape 123.
- the tape feed mechanism 142 provided on the polishing head 130 includes a tape feed roller 142a, a tape gripping roller 142b, and a motor M3 for rotating the tape feed roller 142a.
- the motor M3 is provided on the side surface of the polishing head 130, and the tape feed roller 142a is connected to the rotating shaft of the motor M3.
- the polishing tape 123 is wound around the tape feed roller 142a only about half of the circumference thereof.
- a tape gripping roller 142b is provided next to the tape feed roller 142a, and the tape gripping roller 142b is not shown so as to generate a force in the direction indicated by the arrow NF in FIG. 19 (direction toward the tape feed roller 142a). It is supported by a mechanism and is configured to press the tape feed roller 142a.
- the polishing tape 123 is sandwiched between the tape feed roller 142a and the tape gripping roller 142b.
- the tape feed roller 142a rotates and the polishing tape 123 can be fed from the supply reel 124 to the recovery reel 125 via the polishing head 130.
- the tape gripping roller 142b is configured to rotate about its own axis and rotates as the polishing tape 123 is fed.
- the pressing mechanism 141 includes a pressing pad 141a that supports the back surface of the polishing tape 123, and an air cylinder (driving mechanism) 141b that moves the pressing pad 141a toward the peripheral edge of the wafer W.
- the polishing head 130 presses the polishing tape 123 from the back side thereof by the pressing mechanism 141, and the polishing surface of the polishing tape 123 is brought into contact with the peripheral edge portion of the substrate W to polish the peripheral edge portion of the substrate W.
- the air pressure supplied to the air cylinder 141b By controlling the air pressure supplied to the air cylinder 141b, the pressing force on the wafer W is adjusted.
- the supply nozzle 137, the cleaning nozzle 138, and the air cylinder 115 are electrically connected to the operation control unit 9.
- the operation of the components including the supply nozzle 137, the cleaning nozzle 138, and the air cylinder 115 is controlled by the operation control unit 9.
- the tilt mechanism, pressing mechanism 141, tape feeding mechanism 142, and moving mechanism for moving each polishing head assembly of the four polishing head assemblies 101A to 101D are configured to be able to operate independently.
- four sets of polishing head assemblies and tape supply / recovery mechanisms are provided, but the number of polishing head assemblies and tape supply / recovery mechanisms is not limited to this embodiment.
- FIG. 20 is a diagram showing a state in which the polishing head 130 is polishing the bevel portion of the wafer W.
- the peripheral edge of the wafer W is polished as follows. First, the wafer W is held by the substrate holding portion 10 and rotated. Specifically, when the wafer W is conveyed to a predetermined position above the holding stage 104, the holding stage 104 rises and the wafer W is adsorbed and held on the upper surface of the holding stage 104. After that, the holding stage 104 holding the wafer W is lowered to a predetermined polishing position, and the substrate holding portion 10 rotates the wafer W together with the holding stage 104. Further, the polishing liquid is supplied to the surface of the wafer W from the upper supply nozzle 136. The polishing liquid may be supplied to the peripheral edge of the wafer W from the lower supply nozzle 137.
- the polishing tape 123 is applied to the peripheral edge portion (for example, the bevel portion) of the wafer W by the pressing mechanism 141 while continuously changing the tilt angle of the polishing head 130 by the tilt mechanism described above. Push.
- the polishing tape 123 is fed at a predetermined speed by the tape feeding mechanism 142.
- the wafer W is raised to the transfer position together with the holding stage 104 and the hollow shaft 105 by the air cylinder 115, and the wafer W is separated from the holding stage 104 at this transfer position.
- both the peripheral portion of the wafer W and the peripheral portion of the wafer W can be cleaned without moving the wafer W.
- the cleaning step of the peripheral portion of the wafer W and the polishing step of the peripheral portion of the wafer W may be performed at the same time or separately.
- the peripheral edge cleaning unit 20 is arranged so that the pressing portion 22 is located between two polishing head assemblies among the four polishing head assemblies 101A to 101D.
- the peripheral edge cleaning unit 20 is arranged between the polishing head assembly 101B and the polishing head assembly 101C, but the arrangement of the peripheral edge cleaning unit 20 is not limited to this embodiment.
- the cleaning tape 19 is supplied to the pressing portion 22 through the opening 120a.
- the pressing portion 22, the pressing portion moving mechanism 30, the first guide roller 54, and the second guide roller 55 are arranged inside the processing chamber 121, and the tape feeding unit 40 is arranged outside the processing chamber 121. ing.
- the substrate cleaning device 1 includes the peripheral edge cleaning unit 20 according to the embodiment described with reference to FIGS. 1A to 7C, whereas the substrate cleaning device 1 refers to FIGS. 8 to 15.
- the peripheral edge cleaning unit 20 according to the embodiment described above may be provided.
- a new opening 120a for passing the base plate 62 may be provided in the partition wall 120, or the existing opening 120a may be widened for passing the base plate 62.
- the entire peripheral edge cleaning unit 20 may be arranged in the processing chamber 121.
- the polishing head 130 of at least one of the polishing head assemblies 101A to 101D may include a pressing portion 22 and a pressing portion moving mechanism 30 connected to the pressing portion 22. ..
- a pressing portion 22 and a pressing portion moving mechanism 30 are provided on the polishing head 130 instead of the pressing mechanism 141, and the reel 50 is provided instead of the supply reel 124, the recovery reel 125, and the motor M2.
- 51 and reel rotary motors 52, 53 are provided in at least one of the tape supply and recovery mechanisms 102A to 102D.
- the peripheral edge cleaning unit 20 is configured by the polishing head assembly and the tape supply / recovery mechanism.
- the cleaning tape 19 extends from the first reel 50 to the second reel 51 via the polishing head 130.
- the cleaning tape 19 is guided by guide rollers 143 to 149.
- the details of the present embodiment not particularly described are the same as those described with reference to FIGS. 1A to 7C.
- the tape feed unit 40 is configured by the tape feed mechanism 142, the reels 50, 51, and the reel rotation motors 52, 53.
- the pressing portion moving mechanism 30 provided on the polishing head 130 may be connected to the vertical moving mechanism 60, and the peripheral portion cleaning unit 20 may be connected to the tape cleaning mechanism 70A. , 70B may be provided.
- the vertical movement mechanism 60 is connected to the pressing portion moving mechanism 30 via the base plate 62.
- the vertical movement mechanism 60 is configured to integrally move the pressing portion 22 and the pressing portion moving mechanism 30.
- the tape cleaning mechanism 70A is arranged between the polishing head 130 and the first reel 50
- the tape cleaning mechanism 70B is arranged between the polishing head 130 and the second reel 51.
- the present invention can be used for a substrate cleaning device and a substrate cleaning method for cleaning the peripheral edge of a substrate such as a semiconductor wafer.
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Abstract
Description
一態様では、前記モータは、サーボモータである。
一態様では、前記圧力レギュレータは、電空レギュレータである。
一態様では、前記基板洗浄装置は、前記押圧部を上下動させる上下動機構をさらに備えている。
一態様では、前記基板洗浄装置は、前記クリーニングテープを洗浄するテープ洗浄機構をさらに備え、前記テープ洗浄機構は、前記クリーニングテープの表面に洗浄液を供給する洗浄液供給ノズルを備えている。
一態様では、前記テープ洗浄機構は、前記クリーニングテープの表面に接触して前記クリーニングテープを洗浄する洗浄ブラシをさらに備えている。
一態様では、前記基板洗浄装置は、前記クリーニングテープの両端部をそれぞれ保持する第1リールおよび第2リールをさらに備え、前記第1リールおよび前記第2リールは、前記クリーニングテープが水平方向に進行するように配置されている。
一態様では、前記モータは、サーボモータである。
一態様では、前記圧力レギュレータは、電空レギュレータである。
一態様では、前記基板の周縁部を洗浄する工程は、前記基板の周縁部の洗浄中、前記押圧部を上下動させる工程をさらに含む。
一態様では、前記基板洗浄方法は、前記基板の周縁部の洗浄中、テープ洗浄機構によって、洗浄液を、前記基板の周縁部に接触させた後の前記クリーニングテープに供給して前記基板の周縁部に接触させた後の前記クリーニングテープを洗浄する工程をさらに含む。
一態様では、前記基板洗浄方法は、前記基板の周縁部の洗浄を所定枚数実行した後、前記クリーニングテープを一定方向に送りながら、テープ洗浄機構によって、洗浄液を、前記基板の周縁部に接触させた後の前記クリーニングテープに供給して前記基板の周縁部に接触させた後の前記クリーニングテープを洗浄する工程をさらに含む。
一態様では、前記クリーニングテープを、前記クリーニングテープの一端を保持する第1リールまたは前記クリーニングテープの他端を保持する第2リールのいずれかに完全に巻き取った後、前記クリーニングテープを逆方向に進行させながら前記基板の周縁部を洗浄する工程をさらに含む。
一態様では、前記クリーニングテープを一定方向に進行させる工程は、前記クリーニングテープを水平方向に進行させる工程である。
本明細書では、基板の周縁部を、基板の最外周に位置するベベル部と、このベベル部の半径方向内側に位置するトップエッジ部およびボトムエッジ部とを含む領域として定義する。
9 動作制御部
10 基板保持部
11 スピンドル
11a コマ
12 上部ロール洗浄部材
13 下部ロール洗浄部材
14 上側液体供給ノズル
15 上側液体供給ノズル
16 下側液体供給ノズル
17 下側液体供給ノズル
19 クリーニングテープ
20 周縁部洗浄ユニット
22 押圧部
24 支持部材
24a 開口部
25 基部
26a,26b,26c,26d 突出部
27 弾性体
30 押圧部移動機構
34 ボールねじ機構
36 モータ
40 テープ送りユニット
42 流体移送ライン
44 圧力レギュレータ
46 流体供給源
50 第1リール
52 第1リール回転モータ
51 第2リール
53 第2リール回転モータ
54 第1ガイドローラ
55 第2ガイドローラ
60 上下動機構
62 ベースプレート
63 固定部材
64 ボールねじ機構
66 モータ
70A テープ洗浄機構
70B テープ洗浄機構
74 テープ支持部材
76 洗浄液供給ノズル
78 ケーシング
80 洗浄ブラシ
82 センサ
90 スピンドル
92 支柱
93 洗浄部材移動機構
94 揺動アーム
96 ペンシル洗浄部材
101A,101B,101C,101D 研磨ヘッド組立体
102A,102B,102C,102D テープ供給回収機構
104 保持ステージ
105 中空シャフト
112 ケーシング
114 ケーシング
115 エアシリンダ
120 隔壁
121 処理室
123 研磨テープ
124 供給リール
125 回収リール
130 研磨ヘッド
136 上供給ノズル
137 下供給ノズル
141 押圧機構
142 テープ送り機構
161 移動台
162 ガイド
163 レール
167 リニアアクチュエータ
Claims (17)
- 基板を保持して回転させる基板保持部と、
内部空間を有し、クリーニングテープを前記基板の周縁部に押し当てる押圧部と、
前記基板の半径方向における前記押圧部の位置を制御する押圧部移動機構と、
前記内部空間の圧力を制御する圧力レギュレータと、を備え、
前記押圧部は、
開口部を有する中空状の支持部材と、
前記クリーニングテープを支持する弾性体と、を備え、
前記弾性体は、前記開口部を閉じるように配置されている、基板洗浄装置。 - 前記押圧部移動機構は、前記押圧部に連結されたボールねじ機構と、前記ボールねじ機構を作動させるモータとを備えている、請求項1に記載の基板洗浄装置。
- 前記モータは、サーボモータである、請求項2に記載の基板洗浄装置。
- 前記圧力レギュレータは、電空レギュレータである、請求項1乃至3のいずれか一項に記載の基板洗浄装置。
- 前記押圧部を上下動させる上下動機構をさらに備えている、請求項1乃至4のいずれか一項に記載の基板洗浄装置。
- 前記クリーニングテープを洗浄するテープ洗浄機構をさらに備え、
前記テープ洗浄機構は、前記クリーニングテープの表面に洗浄液を供給する洗浄液供給ノズルを備えている、請求項1乃至5のいずれか一項に記載の基板洗浄装置。 - 前記テープ洗浄機構は、前記クリーニングテープの表面に接触して前記クリーニングテープを洗浄する洗浄ブラシをさらに備えている、請求項6に記載の基板洗浄装置。
- 前記クリーニングテープの両端部をそれぞれ保持する第1リールおよび第2リールをさらに備え、
前記第1リールおよび前記第2リールは、前記クリーニングテープが水平方向に進行するように配置されている、請求項1乃至7のいずれか一項に記載の基板洗浄装置。 - 基板保持部によって基板を保持して回転させ、
クリーニングテープを一定方向に進行させながら、前記クリーニングテープを、内部空間を有する押圧部によって前記基板の周縁部に押し当てることで、前記基板の周縁部を洗浄し、
前記基板の周縁部を洗浄する工程は、押圧部移動機構によって前記基板の半径方向における前記押圧部の位置を制御する工程と、圧力レギュレータによって前記押圧部の内部空間の圧力を制御する工程とを含み、
前記押圧部は、
開口部を有する中空状の支持部材と、
前記クリーニングテープを支持する弾性体と、を備え、
前記弾性体は、前記開口部を閉じるように配置されている、基板洗浄方法。 - 前記押圧部移動機構は、前記押圧部に連結されたボールねじ機構と、前記ボールねじ機構を作動させるモータとを備えている、請求項9に記載の基板洗浄方法。
- 前記モータは、サーボモータである、請求項10に記載の基板洗浄方法。
- 前記圧力レギュレータは、電空レギュレータである、請求項9乃至11のいずれか一項に記載の基板洗浄方法。
- 前記基板の周縁部を洗浄する工程は、前記基板の周縁部の洗浄中、前記押圧部を上下動させる工程をさらに含む、請求項9乃至12のいずれか一項に記載の基板洗浄方法。
- 前記基板の周縁部の洗浄中、テープ洗浄機構によって、洗浄液を、前記基板の周縁部に接触させた後の前記クリーニングテープに供給して前記基板の周縁部に接触させた後の前記クリーニングテープを洗浄する工程をさらに含む、請求項9乃至13のいずれか一項に記載の基板洗浄方法。
- 前記基板の周縁部の洗浄を所定枚数実行した後、前記クリーニングテープを一定方向に送りながら、テープ洗浄機構によって、洗浄液を、前記基板の周縁部に接触させた後の前記クリーニングテープに供給して前記基板の周縁部に接触させた後の前記クリーニングテープを洗浄する工程をさらに含む、請求項9乃至13のいずれか一項に記載の基板洗浄方法。
- 前記クリーニングテープを、前記クリーニングテープの一端を保持する第1リールまたは前記クリーニングテープの他端を保持する第2リールのいずれかに完全に巻き取った後、前記クリーニングテープを逆方向に進行させながら前記基板の周縁部を洗浄する工程をさらに含む、請求項14または15に記載の基板洗浄方法。
- 前記クリーニングテープを一定方向に進行させる工程は、前記クリーニングテープを水平方向に進行させる工程である、請求項9乃至16のいずれか一項に記載の基板洗浄方法。
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