Abstract: Manufacturing cost or energy consumption of a substrate processing apparatus can be reduced. The substrate processing apparatus includes a substrate loading/unloading unit (a substrate transit chamber 12) that transfers a substrate 2 accommodated in a carrier 3; a substrate transfer chamber 14 (25) communicating with the substrate loading/unloading unit via a substrate loading/unloading port 37 (39); a plurality of substrate processing chambers 15 to 24 (26 to 35) arranged along the substrate transfer chamber 14 (25); a substrate transfer device 36 (38) provided in the substrate transfer chamber 14 (25) and configured to transfer the substrate 2 between the substrate loading/unloading unit and the substrate processing chambers 15 to 24 (26 to 35); and a clean air flowing unit 41 (42) that allows clean air to flow along the substrate transfer chamber 14 (25).

Abstract: Provided is a substrate processing apparatus wherein, even if a trouble occurs, it is bound to continue a process for the substrate without stopping the substrate processing apparatus entirely. The substrate processing apparatus according to the present disclosure includes first and second substrate conveying devices configured to convey wafers, and first and second processing blocks provided on the right and left sides of the substrate conveying device and having processing unit arrays each configured to perform the same process. Processing unit arrays on one side and processing unit arrays on the other side are respectively connected to a processing liquid supply system commonly provided with them. And, when any one of substrate conveying devices, processing liquid supply systems has a problem, the process for the wafer can be performed in the processing unit array to which the substrate conveying device and the processing liquid supply system under normal operation belong.

Abstract: A processing solution pressurized at a constant pressure is supplied to improve processing accuracy. A controller receives a pressure signal indicating a measured pressure exerted on a processing solution from a pressure sensor, and controls an electropneumatic regulator on the basis of the pressure signal so that pressure on the discharge side of the electropneumatic regulator is constant. The controller decides whether the processing solution contained in a processing solution tank has been depleted on the basis of a difference between a desired pressure and the pressure measured by the pressure sensor, and switches pressurizing shut-off valves accordingly.

Abstract: Leakage of an atmosphere of a solvent vapor used by a smoothing process for smoothing the surface of a resist pattern outside from a smoothing unit is prevented to facilitate incorporating the smoothing unit into a coating and developing system. A substrate processing system has a coating and developing block 20, a smoothing block 50, an airflow producing unit 60 for producing down airflow that flows down from above the coating and developing block 20 and the smoothing block 50, and a main controller 100 for controlling the airflow producing unit 60.

Abstract: A coating process method in which a coating liquid is discharged onto the surface of a target substrate to be processed while rotating the target substrate so as to expand the coating liquid radially outward on the target substrate and, thus, to form a coated film comprises the step of detecting that the actual discharging of a coating liquid from a coating liquid discharging nozzle is started, and the step of controlling based on a signal of the detection at least one of the driving timing of a pump for allowing the coating liquid to be discharged from the coating liquid discharging nozzle, the operation timing of a valve mounted to a pipe for supplying the coating liquid into the coating liquid discharging nozzle, and the rotation starting or stopping timing of the target substrate.

Abstract: A processing solution pressurized at a constant pressure is supplied to improve processing accuracy. A processing solution tank can be changed and the processing solution can be continuously supplied to continue a process without interrupting the process even if the processing solution contained in the processing solution tank is depleted. A pressure sensor 10 and a first shut-off valve V1 are placed in a first processing solution supply line interconnecting a processing solution tank 1 and a reservoir tank 5. An electropneumatic regulator 20 is placed in a main pressurizing line 2 connecting a nitrogen gas source 3 to the processing solution tank 1. A pressurizing shut-off valve V3 is placed in an auxiliary pressurizing line 9 connecting the nitrogen gas source 3 to the reservoir tank 5.

Abstract: A coating process method in which a coating liquid is discharged onto the surface of a target substrate to be processed while rotating the target substrate so as to expand the coating liquid radially outward on the target substrate and, thus, to form a coated film comprises the step of detecting that the actual discharging of a coating liquid from a coating liquid discharging nozzle is started, and the step of controlling based on a signal of the detection at least one of the driving timing of a pump for allowing the coating liquid to be discharged from the coating liquid discharging nozzle, the operation timing of a valve mounted to a pipe for supplying the coating liquid into the coating liquid discharging nozzle, and the rotation starting or stopping timing of the target substrate.

Abstract: A coating process method in which a coating liquid is discharged onto the surface of a target substrate to be processed while rotating the target substrate so as to expand the coating liquid radially outward on the target substrate and, thus, to form a coated film comprises the step of detecting that the actual discharging of a coating liquid from a coating liquid discharging nozzle is started, and the step of controlling based on a signal of the detection at least one of the driving timing of a pump for allowing the coating liquid to be discharged from the coating liquid discharging nozzle, the operation timing of a valve mounted to a pipe for supplying the coating liquid into the coating liquid discharging nozzle, and the rotation starting or stopping timing of the target substrate.