WO2018003072A1 - 基板処理装置、半導体装置の製造方法および記録媒体 - Google Patents
基板処理装置、半導体装置の製造方法および記録媒体 Download PDFInfo
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- WO2018003072A1 WO2018003072A1 PCT/JP2016/069486 JP2016069486W WO2018003072A1 WO 2018003072 A1 WO2018003072 A1 WO 2018003072A1 JP 2016069486 W JP2016069486 W JP 2016069486W WO 2018003072 A1 WO2018003072 A1 WO 2018003072A1
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- processing
- transfer chamber
- processing module
- substrate
- box
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Images
Classifications
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- 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
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- 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
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- 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
- H01L21/67098—Apparatus for thermal treatment
- H01L21/67109—Apparatus for thermal treatment mainly by convection
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- 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
- H01L21/67155—Apparatus for manufacturing or treating in a plurality of work-stations
- H01L21/67161—Apparatus for manufacturing or treating in a plurality of work-stations characterized by the layout of the process chambers
- H01L21/67178—Apparatus for manufacturing or treating in a plurality of work-stations characterized by the layout of the process chambers vertical arrangement
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- 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
- H01L21/67155—Apparatus for manufacturing or treating in a plurality of work-stations
- H01L21/67184—Apparatus for manufacturing or treating in a plurality of work-stations characterized by the presence of more than one transfer chamber
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- 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
- H01L21/67155—Apparatus for manufacturing or treating in a plurality of work-stations
- H01L21/6719—Apparatus for manufacturing or treating in a plurality of work-stations characterized by the construction of the processing chambers, e.g. modular processing chambers
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- 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
- H01L21/67155—Apparatus for manufacturing or treating in a plurality of work-stations
- H01L21/67196—Apparatus for manufacturing or treating in a plurality of work-stations characterized by the construction of the transfer chamber
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- 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
- H01L21/677—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 for conveying, e.g. between different workstations
- H01L21/67739—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 for conveying, e.g. between different workstations into and out of processing chamber
- H01L21/67757—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 for conveying, e.g. between different workstations into and out of processing chamber vertical transfer of a batch of workpieces
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- C—CHEMISTRY; METALLURGY
- C23—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
- C23C—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
- C23C16/00—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes
- C23C16/44—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating
- C23C16/4412—Details relating to the exhausts, e.g. pumps, filters, scrubbers, particle traps
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- 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
- H01L21/67155—Apparatus for manufacturing or treating in a plurality of work-stations
- H01L21/67201—Apparatus for manufacturing or treating in a plurality of work-stations characterized by the construction of the load-lock chamber
Definitions
- the present invention relates to a substrate processing apparatus, a semiconductor device manufacturing method, and a recording medium.
- a vertical substrate processing apparatus that processes a plurality of substrates at once is used.
- a maintenance area around the substrate processing apparatus it is necessary to secure a maintenance area around the substrate processing apparatus, and the footprint of the substrate processing apparatus may become large in order to secure the maintenance area (for example, patents) Reference 1).
- the present invention has been made in view of such circumstances, and an object thereof is to provide a technique capable of reducing a footprint while ensuring a maintenance area.
- a first processing module having a first processing container for processing a substrate; A second processing module disposed adjacent to the first processing container and having a second processing container for processing the substrate; A first exhaust box disposed adjacent to the back surface of the first processing module and containing a first exhaust system for exhausting the interior of the first processing container; The first exhaust box is disposed adjacent to the side opposite to the side adjacent to the back side of the first processing module, and a first supply system for supplying a processing gas is accommodated in the first processing container.
- a second supply box, The first exhaust box is disposed at an outer corner located on the back side of the first processing module on the side opposite to the second processing module side, and the second exhaust box is located on the back side of the second processing module.
- a technique is provided that is arranged at an outer corner located on the side opposite to the first processing module side in the above.
- the same or corresponding components are denoted by the same or corresponding reference numerals, and redundant description is omitted.
- the storage chamber 9 side described later is referred to as a front side (front side), and the transfer chambers 6A and 6B described below are referred to as back sides (rear sides).
- the side which faces the boundary line (adjacent surface) of processing modules 3A and 3B, which will be described later be the inside, and the side away from the boundary line be the outside.
- the substrate processing apparatus is configured as a vertical substrate processing apparatus (hereinafter referred to as a processing apparatus) 2 that performs a substrate processing process such as a heat treatment as one process of the manufacturing process in the method of manufacturing a semiconductor device (device). Has been.
- a substrate processing process such as a heat treatment
- the processing apparatus 2 includes two processing modules 3A and 3B adjacent to each other.
- the processing module 3A includes a processing furnace 4A and a transfer chamber 6A.
- the processing module 3B includes a processing furnace 4B and a transfer chamber 6B. Transfer chambers 6A and 6B are respectively disposed below the processing furnaces 4A and 4B. Adjacent to the front side of the transfer chambers 6A and 6B, a transfer chamber 8 including a transfer machine 7 for transferring the wafer W is arranged.
- a storage chamber 9 for storing a pod (hoop) 5 for storing a plurality of wafers W is connected to the front side of the transfer chamber 8.
- An I / O port 22 is installed on the entire surface of the storage chamber 9, and the pod 5 is carried into and out of the processing apparatus 2 through the I / O port 22.
- Gate valves 90A and 90B are installed on the boundary walls (adjacent surfaces) between the transfer chambers 6A and 6B and the transfer chamber 8, respectively.
- Pressure detectors are installed in the transfer chamber 8 and the transfer chambers 6A and 6B, respectively, and the pressure in the transfer chamber 8 is set to be lower than the pressure in the transfer chambers 6A and 6B.
- oxygen concentration detectors are installed in the transfer chamber 8 and the transfer chambers 6A and 6B, respectively. The oxygen concentration in the transfer chamber 8A and the transfer chambers 6A and 6B is higher than the oxygen concentration in the atmosphere. Is also kept low.
- a clean unit 62C for supplying clean air into the transfer chamber 8 is installed on the ceiling of the transfer chamber 8, and for example, an inert gas is circulated in the transfer chamber 8 as clean air. It is configured. By circulating and purging the inside of the transfer chamber 8 with an inert gas, the inside of the transfer chamber 8 can be made a clean atmosphere. With such a configuration, it is possible to prevent particles and the like in the transfer chambers 6A and 6B from entering the transfer chamber 8, and to naturally move on the wafer W in the transfer chamber 8 and the transfer chambers 6A and 6B. Formation of an oxide film can be suppressed.
- processing module 3A and the processing module 3B have the same configuration, only the processing module 3A will be described below as a representative.
- the processing furnace 4A includes a cylindrical reaction tube 10A and a heater 12A as a heating means (heating mechanism) installed on the outer periphery of the reaction tube 10A.
- the reaction tube is made of, for example, quartz or SiC.
- a processing chamber 14A for processing the wafer W as a substrate is formed inside the reaction tube 10A.
- a temperature detector 16A as a temperature detector is installed in the reaction tube 10A. The temperature detector 16A is erected along the inner wall of the reaction tube 10A.
- the gas used for substrate processing is supplied into the processing chamber 14A by a gas supply mechanism 34A as a gas supply system.
- the gas supplied by the gas supply mechanism 34A is changed according to the type of film to be formed.
- the gas supply mechanism 34A includes a source gas supply unit, a reaction gas supply unit, and an inert gas supply unit.
- the gas supply mechanism 34A is housed in a supply box 72A described later.
- the raw material gas supply unit includes a gas supply pipe 36a.
- a gas flow controller (MFC) 38a which is a flow rate controller (flow rate control unit), and a valve 40a, which is an on-off valve, are provided in order from the upstream direction. It has been.
- the gas supply pipe 36 a is connected to a nozzle 44 a that penetrates the side wall of the manifold 18.
- the nozzle 44 a is erected in the vertical direction in the reaction tube 10 and has a plurality of supply holes that open toward the wafers W held by the boat 26.
- the source gas is supplied to the wafer W through the supply hole of the nozzle 44a.
- the reaction gas is supplied to the wafer W from the reaction gas supply unit through the supply pipe 36b, the MFC 38b, the valve 40b, and the nozzle 44b with the same configuration.
- an inert gas is supplied to the wafer W via supply pipes 36c and 36d, MFCs 38c and 38d, valves 40c and 40d, and nozzles 44a and 44b.
- a cylindrical manifold 18A is connected to the lower end opening of the reaction tube 10A via a seal member such as an O-ring to support the lower end of the reaction tube 10A.
- the lower end opening of the manifold 18A is opened and closed by a disc-shaped lid 22A.
- a sealing member such as an O-ring is installed on the upper surface of the lid portion 22A, whereby the inside of the reaction tube 10A and the outside air are hermetically sealed.
- 24 A of heat insulation parts are mounted on the cover part 22A.
- An exhaust pipe 46A is attached to the manifold 18A.
- the exhaust pipe 46A is provided with a pressure sensor 48A as a pressure detector (pressure detection unit) for detecting the pressure in the processing chamber 14A and an APC (Auto Pressure Controller) valve 40A as a pressure regulator (pressure adjustment unit).
- a vacuum pump 52A as an evacuation device is connected. With such a configuration, the pressure in the processing chamber 14A can be set to a processing pressure corresponding to the processing.
- An exhaust system A is mainly configured by the exhaust pipe 46A, the APC valve 40A, and the pressure sensor 48A. The exhaust system A is accommodated in an exhaust box 74A described later.
- the processing chamber 14A stores therein a boat 26A as a substrate holder for supporting a plurality of, for example, 25 to 150 wafers W vertically in a shelf shape.
- the boat 26A is supported above the heat insulating portion 24A by a rotating shaft 28A that penetrates the lid portion 22A and the heat insulating portion 24A.
- the rotation shaft 28A is connected to a rotation mechanism 30A installed below the lid portion 22A, and the rotation shaft 28A is configured to be rotatable in a state where the inside of the reaction tube 10A is hermetically sealed.
- the lid portion 22 is driven in the vertical direction by a boat elevator 32A as an elevating mechanism. Thereby, the boat 26A and the lid portion 22A are integrally moved up and down, and the boat 26A is carried into and out of the reaction tube 10A.
- Transfer of the wafer W to the boat 26A is performed in the transfer chamber 6A.
- a clean unit 60A is installed on one side of the transfer chamber 6A (the outer side of the transfer chamber 6A, the side opposite to the side facing the transfer chamber 6B), and the transfer chamber 6A.
- Clean air for example, inert gas
- the inert gas supplied into the transfer chamber 6A is exhausted from the transfer chamber 6A by the exhaust part 62A installed on the side surface (side surface facing the transfer chamber 6B) facing the clean unit 60A across the boat 26A. Re-supplied from the clean unit 60A into the transfer chamber 6A (circulation purge).
- the pressure in the transfer chamber 6 ⁇ / b> A is set to be lower than the pressure in the transfer chamber 8.
- the oxygen concentration in the transfer chamber 6A is set to be lower than the oxygen concentration in the atmosphere.
- the controller 100 for controlling these is connected to the MFCs 38a to d, the valves 40a to 40d, and the APC valve 50A of the rotation mechanism 30A, the boat elevator 32A, and the gas supply mechanism 34A.
- the controller 100 is composed of, for example, a microprocessor (computer) having a CPU, and is configured to control the operation of the processing device 2.
- an input / output device 102 configured as a touch panel or the like is connected to the controller 100.
- One controller 100 may be installed in each of the processing module 3A and the processing module 3B, or one controller 100 may be installed in common.
- the controller 100 is connected to a storage unit 104 as a storage medium.
- the storage unit 104 stores a control program for controlling the operation of the processing device 10 and a program (also referred to as a recipe) for causing each component unit of the processing device 2 to execute processing according to processing conditions in a readable manner.
- the control program for controlling the operation of the processing device 10
- a program also referred to as a recipe
- the storage unit 104 may be a storage device (hard disk or flash memory) built in the controller 100, or a portable external recording device (magnetic disk such as magnetic tape, flexible disk or hard disk, CD or DVD, etc. It may be an optical disk, a magneto-optical disk such as an MO, or a semiconductor memory such as a USB memory or a memory card. Further, the program may be provided to the computer using a communication means such as the Internet or a dedicated line. The program is read from the storage unit 104 according to an instruction from the input / output device 102 as necessary, and the controller 100 executes processing according to the read recipe, so that the processing device 2 Under the control of 100, a desired process is executed. The controller 100 is accommodated in the controller boxes 76A and 76B.
- the gate valve 90A is opened and the wafer W is transferred to the boat 20A.
- the gate valve 90A is closed.
- the boat 26A is carried into the processing chamber 14 by the boat elevator 32A (boat loading), and the lower opening of the reaction tube 10A is airtightly closed (sealed) by the lid portion 22A.
- the processing chamber 14A is evacuated (reduced pressure) by the vacuum pump 52A so that a predetermined pressure (vacuum degree) is obtained.
- the pressure in the processing chamber 14A is measured by the pressure sensor 48A, and the APC valve 50A is feedback-controlled based on the measured pressure information.
- the wafer W in the processing chamber 14A is heated by the heater 12A so as to reach a predetermined temperature.
- the power supply to the heater 12A is feedback-controlled based on the temperature information detected by the temperature detector 16A so that the processing chamber 14A has a predetermined temperature distribution. Further, the rotation of the boat 26A and the wafer W by the rotation mechanism 30A is started.
- O 2 gas is supplied to the wafer W in the processing chamber 14A.
- the O 2 gas is controlled to have a desired flow rate by the MFC 38b, and is supplied into the processing chamber 14A through the gas supply pipe 36b and the nozzle 44b.
- a SiO 2 film having a predetermined composition and a predetermined film thickness can be formed on the wafer W.
- the wafer W may be stored in the pod 5 and carried out of the processing apparatus 2, or may be transferred to the processing furnace 4B, and substrate processing such as annealing may be continuously performed.
- the gate valves 90A and 90B are opened, and the wafer W is directly transferred from the boat 26A to the boat 26B.
- the subsequent loading / unloading of the wafer W into / from the processing furnace 4B is performed in the same procedure as the substrate processing by the processing furnace 4A described above. Further, the substrate processing in the processing furnace 4B is performed, for example, in the same procedure as the substrate processing by the above-described processing furnace 4A.
- processing conditions for forming the SiO 2 film on the wafer W include the following. Processing temperature (wafer temperature): 300 ° C. to 700 ° C. Processing pressure (pressure in processing chamber) 1 Pa to 4000 Pa, DCS gas: 100 sccm to 10,000 sccm, O 2 gas: 100 sccm to 10,000 sccm, N 2 gas: 100 sccm to 10,000 sccm, By setting each processing condition to a value within the respective range, it is possible to appropriately progress the film forming process.
- the back configuration of the processing apparatus 2 will be described. For example, when the boat 26 is damaged, it is necessary to replace the boat 26. Further, when the reaction tube 10 is damaged or when the reaction tube 10 needs to be cleaned, it is necessary to remove the reaction tube 10. Thus, when performing maintenance in the transfer chamber 6 and the processing furnace 4, the maintenance is performed from the maintenance area on the back side of the processing apparatus 2.
- maintenance ports 78A and 78B are formed on the back sides of the transfer chambers 6A and 6B, respectively.
- the maintenance port 78A is formed on the transfer chamber 6B side of the transfer chamber 6A
- the maintenance port 78B is formed on the transfer chamber 6A side of the transfer chamber 6B.
- Maintenance ports 78A and 78B are opened and closed by maintenance doors 80A and 80B.
- the maintenance doors 80A and 80B are configured to be rotatable about the hinges 82A and 82B.
- the hinge 82A is installed on the transfer chamber 6B side of the transfer chamber 6A, and the hinge 82B is installed on the transfer chamber 6A side of the transfer chamber 6B.
- the hinges 82A and 82B are installed so as to be adjacent to each other in the vicinity of the inner corner located on the adjacent surface on the back side of the transfer chambers 6A and 6B.
- the maintenance area is formed on the processing module 3B side on the back side of the processing module 3A and on the processing module 3A side on the back side of the processing module 3B.
- the maintenance doors 80A and 80B are horizontally rotated around the hinges 82A and 82B toward the rear side of the transfer chambers 6A and 6B, thereby opening the rear maintenance ports 78A and 78B.
- the maintenance door 80A is configured to be able to open up to 180 ° to the left toward the transfer chamber 6A.
- the maintenance door 80B is configured to be able to open up to 180 ° to the right toward the transfer chamber 6B. That is, toward the transfer chamber 6A, the maintenance door 80A rotates clockwise, and the maintenance door 80B rotates counterclockwise. In other words, the maintenance doors 80A and 80B are rotated in opposite directions.
- the maintenance doors 80A and 80B are configured to be removable, and maintenance may be performed by removing them.
- Utility systems 70A and 70B are installed in the vicinity of the back surfaces of the transfer chambers 6A and 6B. Utility systems 70A and 70B are arranged to face each other with a maintenance rear interposed therebetween. When the maintenance of the utility systems 70A and 70B is performed, the maintenance is performed inside the utility systems 70A and 70B, that is, from the space (maintenance area) between the utility systems 70A and 70B.
- the utility systems 70A and 70B are configured by exhaust boxes 74A and 74B, supply boxes 72A and 72B, and controller boxes 76A and 76B in this order from the housing side (the transfer chambers 6A and 6B side).
- the maintenance ports of the utilities 70A and 70B are formed on the inner side (maintenance area side). That is, the maintenance ports of the utilities 70A and 70B are formed so as to face each other.
- the exhaust box 74A is disposed at an outer corner located on the opposite side of the transfer chamber 6A from the transfer chamber 6B.
- the exhaust box 74B is disposed at an outer corner located on the opposite side of the transfer chamber 6B from the transfer chamber 6A. That is, the exhaust boxes 74A and 74B are installed flat (smoothly) so that the outer side surfaces of the transfer chambers 6A and 6B and the outer side surfaces of the exhaust boxes 74A and 74B are connected to a plane.
- the supply box 72A is disposed adjacent to the side of the exhaust box 74A opposite to the side adjacent to the transfer chamber 6A.
- the supply box 72B is disposed adjacent to the side of the exhaust box 74B opposite to the side adjacent to the transfer chamber 6B.
- the thickness (width in the short side direction) of the exhaust boxes 74A and 74B is smaller than the thickness of the supply boxes 72A and 72B.
- the supply boxes 72A and 72B protrude toward the maintenance area side than the exhaust boxes 74A and 74B.
- a gas accumulation system and a large number of incidental facilities are arranged, so that the thickness may be larger than that of the exhaust boxes 72A and 72B. Therefore, by installing the exhaust boxes 72A and 72B on the housing side, a wide maintenance area in front of the maintenance doors 80A and 80B can be secured. That is, in the top view, the distance between the exhaust boxes 74A and 74B is larger than the distance between the supply boxes 72A and 72B. A wider maintenance space can be secured by installing 74A and 74B on the housing side.
- final valves (valves 40a and 40b located at the lowest stage of the gas supply system) of the gas supply mechanisms 34A and 34B are arranged above the exhaust boxes 74A and 74B.
- the exhaust boxes 74A and 74B are disposed directly above (directly above).
- the processing module 3A, 3B and utility system 70A each configuration of 70B, processing modules 3A, are disposed plane-symmetrically with respect to the adjacent surface S 1 of 3B.
- the reaction tubes 10A, 10B are installed so that the exhaust pipes 46A, 46B face the corner direction, that is, the exhaust pipes 46A, 46B face the exhaust box 74A, 74B direction.
- the pipes are arranged so that the pipe lengths from the final valve to the nozzles are substantially the same in the processing modules 3A and 3B.
- the rotation direction of the wafer W is also configured to be opposite to each other in the processing furnaces 4A and 4B.
- an interlock is set so that the maintenance door 80A cannot be opened. Further, the interlock is set so that the maintenance door 80A cannot be opened even when the oxygen concentration in the transfer chamber 6A is lower than the oxygen concentration at atmospheric pressure. The same applies to the maintenance door 80B. Further, when the maintenance doors 80A and 80B are opened, an interlock is set so that the gate valves 90A and 90B cannot be opened. When the gate valves 90A and 90B are opened while the maintenance doors 80A and 80B are open, the gate valve 90A and 90B is set to the maintenance mode and the maintenance switch installed separately is turned on. The interlocks related to 90A and 90B are released, and the gate valves 90A and 90B can be opened.
- an air atmosphere flows from the clean unit 62A into the transfer chamber 6A.
- the circulation purge in the transfer chamber 6A is canceled and the atmosphere in the transfer chamber 6A is exhausted outside the transfer chamber 6A so that the pressure in the transfer chamber 6A does not become higher than the pressure in the transfer chamber 8.
- the rotational speed of the fan of the clean unit 62A is reduced below the rotational speed at the time of the circulation purge, and the amount of air flowing into the transfer chamber 6A is controlled. By controlling in this way, the pressure in the transfer chamber 6A can be kept lower than the pressure in the transfer chamber 8 while increasing the oxygen concentration in the transfer chamber 6A.
- the interlock is released and the maintenance door 80A can be opened.
- the maintenance door 80A cannot be opened if the pressure in the transfer chamber 6A is higher than the pressure in the transfer chamber 8.
- the rotational speed of the fan of the clean unit 62A is made larger than at least the rotational speed during the circulation purge. More preferably, the rotational speed of the fan of the clean unit 62A is maximized.
- Maintenance in the transfer chamber 9 is performed from a maintenance port 78C formed in front of the transfer chamber 9 and where no pod opener is installed.
- the maintenance port 78C is configured to be opened and closed by a maintenance door.
- the gate valves 90A and 90B can be opened and maintenance can be performed from the gate valves 90A and 90B side. That is, the maintenance in the transfer chamber 8 can be performed from either the front of the apparatus or the back of the apparatus.
- the maintenance area on the back of the processing apparatus can be widened.
- the maintenance port on the back surface of the transfer chamber can be widely formed, and the maintainability can be improved.
- the space on the back of the apparatus can be used as a maintenance area common to the left and right processing modules.
- a supply box and an exhaust box may be installed so as to face each other at both ends on the back of the apparatus.
- one exhaust box and the other supply box are adjacent to each other at the boundary line between the two apparatuses.
- a utility system is not arranged at the boundary line between two processing modules, a wide maintenance area can be secured.
- the piping length from the final valve to the processing chamber can be shortened. That is, a gas delay or a flow rate fluctuation at the time of gas supply can be suppressed, and the film formation quality can be improved.
- the quality of film formation is affected by gas supply conditions such as gas flow rate and gas pressure, it is preferable to install a supply box near the casing in order to stably supply gas into the reaction tube.
- the final valve near the reaction tube it is possible to dispose the supply box at a position away from the housing without adversely affecting the quality of film formation.
- the exhaust box below the exhaust pipe extending from the processing vessel (reaction tube) and disposing the final valve immediately above it, the piping length to the processing chamber can be shortened. Further, by installing the final valve directly above the exhaust box, maintenance such as replacement of the final valve becomes easy.
- each configuration By disposing each configuration line-symmetrically with respect to the boundary between the processing modules, it is possible to suppress variations in film formation quality between the left and right processing modules. That is, by installing each configuration in the processing module, utility system, gas supply pipe arrangement and exhaust pipe arrangement symmetrically, the pipe length from the supply box to the reaction pipe and the pipe length from the reaction pipe to the exhaust box can be reduced.
- the left and right processing modules can be substantially the same. Accordingly, film formation can be performed under the same conditions in the left and right processing modules, and the quality of the film formation can be made uniform, so that productivity can be improved.
- the maintenance door can be opened 180 degrees by installing the maintenance door on the boundary between the two processing modules and rotating toward the other processing module. Since the maintenance port can be formed widely, the maintenance performance can be improved.
- the oxygen concentration in the transfer chamber is increased to the oxygen concentration at atmospheric pressure while maintaining the pressure in the transfer chamber lower than the pressure in the transfer chamber. Inflow of the atmosphere from the transfer chamber to the transfer chamber to the transfer chamber can be suppressed.
- the rotational speed of the clean unit fan in the transfer chamber is increased from that during the circulation purge, so that the atmosphere from the transfer chamber to the transfer chamber can be maintained even after the maintenance door is opened (after the transfer chamber is opened to the atmosphere). Can be prevented from flowing in. With such a configuration, even if the maintenance door is opened in one processing module, the other processing module can continue to operate.
- inorganic halosilane source materials such as DCS gas, HCD (Si 2 Cl 6 : hexachlorodisilane) gas, MCS (SiH 3 Cl: monochlorosilane) gas, TCS (SiHCl 3 : trichlorosilane) gas, etc.
- Halogen group-free such as gas, 3DMAS (Si [N (CH 3 ) 2 ] 3 H: trisdimethylaminosilane) gas, BTBAS (SiH 2 [NH (C 4 H 9 )] 2 : Bisthal butylaminosilane) gas, etc.
- Amino group (amine) silane source gas, MS (SiH 4 : monosilane) gas, DS (Si 2 H 6 : disilane) gas, and other inorganic group-free silane source gases can be used.
- N nitrogen (N) -containing gas (nitriding gas) such as ammonia (NH 3 ) gas, carbon (C) -containing gas such as propylene (C 3 H 6 ) gas, trichloride
- a boron (B) -containing gas such as boron (BCl 3 ) gas or the like can be used to form a SiN film, a SiON film, a SiOCN film, a SiOC film, a SiCN film, a SiBN film, a SiBCN film, or the like. Even in the case where these films are formed, the film formation can be performed under the same processing conditions as in the above-described embodiment, and the same effect as in the above-described embodiment can be obtained.
- the present invention provides titanium (Ti), zirconium (Zr), hafnium (Hf), tantalum (Ta), niobium (Nb), aluminum (Al), molybdenum (Mo), tungsten (W) on the wafer W.
- the present invention can also be suitably applied to the case of forming a film containing a metal element such as
- the present invention is not limited to such an aspect.
- the present invention can also be suitably applied to a case where a process such as an oxidation process, a diffusion process, an annealing process, or an etching process is performed on the wafer W or a film formed on the wafer W.
- processing conditions at this time can be set to the same processing conditions as in the above-described embodiment or modification, for example.
- Processing module 72 ... Supply box 74 . Exhaust box 76 . Controller box
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Abstract
Description
基板を処理する第1の処理容器を有する第1の処理モジュールと、
前記第1の処理容器に隣接して配置され、前記基板を処理する第2の処理容器を有する第2の処理モジュールと、
前記第1の処理モジュール背面に隣接して配置され、前記第1の処理容器内を排気する第1の排気系が収納された第1の排気ボックスと、
前記第1の排気ボックスの前記第1の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第1の処理容器内に処理ガスを供給する第1の供給系が収納された第1の供給ボックスと、
前記第2の処理モジュール背面に隣接して配置され、前記第2の処理容器内を排気する第2の排気系が収納された第2の排気ボックスと、
前記第2の排気ボックスの前記第2の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第2の処理容器内に処理ガスを供給する第2の供給系が収納された第2の供給ボックスと、を備え、
前記第1の排気ボックスは前記第1の処理モジュール背面における前記第2の処理モジュール側とは反対側に位置する外側角部に配置され、前記第2の排気ボックスは前記第2の処理モジュール背面における前記第1の処理モジュール側とは反対側に位置する外側角部に配置される技術が提供される。
ゲートバルブ90Aを開き、ボート20Aに対してウエハWを搬送する。複数枚のウエハWがボート26Aに装填(ウエハチャージ)されると、ゲートバルブ90Aが閉じられる。ボート26Aは、ボートエレベータ32Aによって処理室14内に搬入(ボートロード)され、反応管10Aの下部開口は蓋部22Aによって気密に閉塞(シール)された状態となる。
処理室14A内が所定の圧力(真空度)となるように、真空ポンプ52Aによって真空排気(減圧排気)される。処理室14A内の圧力は、圧力センサ48Aで測定され、この測定された圧力情報に基づきAPCバルブ50Aが、フィードバック制御される。また、処理室14A内のウエハWが所定の温度となるように、ヒータ12Aによって加熱される。この際、処理室14Aが所定の温度分布となるように、温度検出部16Aが検出した温度情報に基づきヒータ12Aへの通電具合がフィードバック制御される。また、回転機構30Aによるボート26AおよびウエハWの回転を開始する。
[原料ガス供給工程]
処理室14A内の温度が予め設定された処理温度に安定すると、処理室14A内のウエハWに対してDCSガスを供給する。DCSガスは、MFC38aにて所望の流量となるように制御され、ガス供給管36aおよびノズル44aを介して処理室14A内に供給される。
次に、DCSガスの供給を停止し、真空ポンプ52Aにより処理室14A内を真空排気する。この時、不活性ガス供給部から不活性ガスとしてN2ガスを処理室14A内に供給しても良い(不活性ガスパージ)。
次に、処理室14A内のウエハWに対してO2ガスを供給する。O2ガスは、MFC38bにて所望の流量となるように制御され、ガス供給管36bおよびノズル44bを介して処理室14A内に供給される。
次に、O2ガスの供給を停止し、真空ポンプ52Aにより処理室14A内を真空排気する。この時、不活性ガス供給部からN2ガスを処理室14A内に供給しても良い(不活性ガスパージ)。
所定膜厚の膜を形成した後、不活性ガス供給部からN2ガスが供給され、処理室14A内がN2ガスに置換されると共に、処理室14Aの圧力が常圧に復帰される。その後、ボートエレベータ32Aにより蓋部22Aが降下されて、ボート26Aが反応管10Aから搬出(ボートアンロード)される。その後、処理済ウエハWはボート26Aより取出される(ウエハディスチャージ)。
処理温度(ウエハ温度):300℃~700℃、
処理圧力(処理室内圧力)1Pa~4000Pa、
DCSガス:100sccm~10000sccm、
O2ガス:100sccm~10000sccm、
N2ガス:100sccm~10000sccm、
それぞれの処理条件を、それぞれの範囲内の値に設定することで、成膜処理を適正に進行させることが可能となる。
例えば、ボート26が破損した場合には、ボート26を交換する必要がある。また、反応管10が破損した場合や、反応管10のクリーニングが必要な場合は、反応管10を取り外す必要がある。このように、搬送室6や処理炉4におけるメンテナンスを実施する場合には、処理装置2の背面側のメンテナンスエリアからメンテナンスを行う。
搬送室6A内が不活性ガスで循環パージされている場合、メンテナンス扉80Aを開放できないようにインターロックが設定されている。また、搬送室6A内の酸素濃度が大気圧における酸素濃度よりも低い場合も、メンテナンス扉80Aを開放できないようにインターロックが設定されている。メンテナンス扉80Bに関しても同様である。さらに、メンテナンス扉80A、80Bを開いているときは、ゲートバルブ90A、90Bを開放できないようにインターロックが設定されている。メンテナンス扉80A、80Bが開の状態でゲートバルブ90A、90Bを開とする場合は、処理装置2全体をメンテナンスモードとした上で、別途設置されているメンテナンススイッチをオンとすることにより、ゲートバルブ90A、90Bに関するインターロックが解除され、ゲートバルブ90A、90Bを開とすることができる。
本実施形態によれば、以下に示す1つ又は複数の効果が得られる。
72・・・供給ボックス
74・・・排気ボックス
76・・・コントローラボックス
Claims (15)
- 基板を処理する第1の処理容器を有する第1の処理モジュールと、
前記第1の処理容器に隣接して配置され、前記基板を処理する第2の処理容器を有する第2の処理モジュールと、
前記第1の処理モジュール背面に隣接して配置され、前記第1の処理容器内を排気する第1の排気系が収納された第1の排気ボックスと、
前記第1の排気ボックスの前記第1の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第1の処理容器内に処理ガスを供給する第1の供給系が収納された第1の供給ボックスと、
前記第2の処理モジュール背面に隣接して配置され、前記第2の処理容器内を排気する第2の排気系が収納された第2の排気ボックスと、
前記第2の排気ボックスの前記第2の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第2の処理容器内に処理ガスを供給する第2の供給系が収納された第2の供給ボックスと、を備え、
前記第1の排気ボックスは前記第1の処理モジュール背面における前記第2の処理モジュール側とは反対側に位置する外側角部に配置され、前記第2の排気ボックスは前記第2の処理モジュール背面における前記第1の処理モジュール側とは反対側に位置する外側角部に配置される基板処理装置。 - 前記第1の排気ボックスと前記第2の排気ボックスとは前記第1の処理モジュール背面における前記第2の処理モジュール側と前記第2の処理モジュール背面における前記第1の処理モジュール側に位置するメンテナンスエリアを介在して対向して配置され、さらに、前記第1の供給ボックスと前記第2の供給ボックスとは前記メンテナンスエリアを介在して対向して配置される請求項1に記載の基板処理装置。
- 前記第1の処理モジュールは、前記第1の処理容器の下方に配置され、前記第1の処理容器内外へ前記基板を搬入出する第1の搬送室をさらに有し、
前記第2の処理モジュールは、前記第1の搬送室に隣接し、前記第2の処理容器内外へ前記基板を搬入出する第2の搬送室をさらに有し、
前記第1の排気ボックスは前記第1の搬送室に隣接して設置され、前記第2の排気ボックスは前記第2の搬送室に隣接して設置され、
前記第1の排気ボックスは前記第1の搬送室背面における前記第2の搬送室側とは反対側に位置する外側角部に配置され、前記第2の排気ボックスは前記第2の搬送室背面における前記第1の搬送室側とは反対側に位置する外側角部に配置される請求項1に記載の基板処理装置。 - 前記第1の排気ボックスと前記第2の排気ボックスとの間の距離の方が、前記第1の供給ボックスと前記第2の供給ボックスとの間の距離よりも大きい請求項1に記載の基板処理装置。
- 前記第1の排気ボックスよりも前記第2の供給ボックスの方が前記メンテナンスエリア側に突出し、前記第1の排気ボックスよりも前記第2の供給ボックスの方が前記メンテナンスエリア側に突出している請求項2に記載の基板処理装置。
- 前記第1の排気ボックスのメンテナンス口および前記第2の排気ボックスのメンテナンス口と、前記第1の排気ボックスのメンテナンス口および前記第2の供給ボックスのメンテナンス口とは、互いに向かい合うように前記メンテナンスエリア側に配置される請求項5に記載の基板処理装置。
- 前記第1の搬送室の背面における前記第2の搬送室側には第1のメンテナンス扉が設置され、前記第2の搬送室の背面における前記第1の搬送室側には第2のメンテナンス扉が設置される請求項3に記載の基板処理装置。
- 前記第1のメンテナンス扉は前記第2の搬送室側を基軸として回動可能に構成され、前記第2のメンテナンス扉は前記第1の搬送室側を基軸として回動可能に構成される請求項7に記載の基板処理装置。
- 前記第1の排気ボックスの上方(単に上方だけでなく直上とか真上とか限定できるように明細書に記載しておいたほうがよいです)に前記第1の供給系の最下流に位置するバルブが配置され、前記第2の排気ボックスの上方(単に上方だけでなく直上とか真上とか限定できるように明細書に記載しておいたほうがよいです)に前記第2の供給系の最下流に位置するバルブが配置される請求項8に記載の基板処理装置。
- 前記第1の収納容器内の構成および前記第1の搬送室内の構成と、前記第2の収納容器内の構成および前記第2の搬送室内の構成とは、前記第1の搬送室と前記第2の搬送室との隣接面に対して面対称に配置されている請求項9に記載の基板処理装置。
- 前記第1の搬送室の正面側および前記第2の搬送室の正面側に隣接し、前記第1の搬送室内の第1の基板保持具および前記第2の搬送室内の第2の基板保持具に前記基板を移載する移載室をさらに備え、
前記第1のメンテナンス扉は、
前記第1の搬送室内の圧力が前記移載室内の圧力よりも低く、かつ、前記第1の搬送室内の酸素濃度が大気中の酸素濃度以上のときに開放可能に構成される請求項10に記載の基板処理装置。 - 第1の処理モジュールの第1の処理容器内の基板に対して、前記第1の処理モジュール背面における前記第1の処理モジュールに隣接する第2の処理モジュール側とは反対側に位置する外側角部に前記第1の処理モジュールに隣接して配置された第1の排気ボックスの前記第1の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第1の処理容器内に処理ガスを供給する第1の供給ボックスに収納された第1の供給系からガスを供給しつつ、前記第1の排気ボックスに収納された第1の排気系によって前記第1の処理容器内を排気し、前記基板を処理する第1処理工程と、
前記第1の処理容器から前記第1の処理容器に隣接する第2の処理容器へ移載室を介して前記基板を搬送する工程と、
前記第2の処理モジュールの前記第2の処理容器内の前記基板に対して、前記第2の処理モジュール背面における前記第1の処理モジュール側とは反対側に位置する外側角部に前記第2の処理モジュールに隣接して配置された第2の排気ボックスの前記第2の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第2の処理容器内に処理ガスを供給する第2の供給ボックスに収納された第2の供給系からガスを供給しつつ、前記第2の排気ボックスに収納された第2の排気系によって前記第2の処理容器内を排気し、前記基板を処理する第2処理工程と、
を有する半導体装置の製造方法。 - 前記第1の処理容器の下方に配置される第1の搬送室内をメンテナンスする工程と、をさらに有し、
前記メンテナンスする工程と前記第2処理工程と、を同時に行う請求項12に記載の半導体装置の製造方法。 - 前記メンテナンスする工程は、
前記第1の搬送室内の圧力を前記移載室の圧力よりも低い圧力に維持しつつ、前記第1の搬送室内の酸素濃度を大気中の酸素濃度以上の酸素濃度に上昇させるステップと、
前記第1の搬送室の背面に形成されたメンテナンス扉を開放するステップと、を有する請求項13に記載の半導体装置の製造方法。 - 第1の処理モジュールの第1の処理容器内の基板に対して、前記第1の処理モジュール背面における前記第1の処理モジュールに隣接する第2の処理モジュール側とは反対側に位置する外側角部に前記第1の処理モジュールに隣接して配置された第1の排気ボックスの前記第1の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第1の処理容器内に処理ガスを供給する第1の供給ボックスに収納された第1の供給系からガスを供給しつつ、前記第1の排気ボックスに収納された第1の排気系によって前記第1の処理容器内を排気し、前記基板上に膜を形成する手順と、
前記第1の処理容器から前記第1の処理容器に隣接する第2の処理容器へ移載室を介して前記基板を搬送する手順と、
第2の処理モジュールの前記第2の処理容器内の前記基板に対して、前記第2の処理モジュール背面における前記第1の処理モジュール側とは反対側に位置する外側角部に前記第2の処理モジュールに隣接して配置された第2の排気ボックスの前記第2の処理モジュール背面と隣接する側と反対側に隣接して配置され、前記第2の処理容器内に処理ガスを供給する第2の供給ボックスに収納された第2の供給系からガスを供給しつつ、前記第2の排気ボックスに収納された第2の排気系によって前記第2の処理容器内を排気し、前記基板上に膜を形成する手順と、
コンピュータによって基板処理装置に実行させるプログラムを格納した記録媒体。
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