Provided is a FOUP transfer device for transferring FOUPs between load ports and which is capable of reducing remodeling work on a pre-installed conveyance device as much as possible. FOUP transfer devices 1-1, 1-2 are installed in the vicinity of the load ports of the conveyance device, comprising one or more load ports 18-1, 18-2, and transfer FOUPs 3 between the load ports 18-1, 18-2. The FOUP transfer devices 1-1, 1-2 have first optical I/O communication devices 31-3, 31-4 and are configured such that second optical I/O communication devices 31-1, 31-2 provided for the load ports 18-1, 18-2 are connected thereto, and so as to carry out, in place of the load ports 18-1, 18-2, the optical I/O communication carried out between the load ports 18-1, 18-2 and an OHT cart 11.

A substrate processing apparatus 1 includes a controller 61 configured to perform a first recipe and a second recipe in parallel. Each of the first recipe and the second recipe includes a first transfer processing of transferring a substrate from a transit unit 14 to a liquid processing unit 17, a liquid processing, a second transfer processing of transferring the substrate from the liquid processing unit 17 to a drying unit 18 and a drying processing. The controller 61 determines, while the first recipe on a first substrate in substrates is being performed, when the second recipe on a second substrate in the substrates is started, a start timing of the first transfer processing of the second substrate such that a time period of the second transfer processing of the first substrate does not overlap with a time period of the second transfer processing of the second substrate.

An elevator unit for transferring a tray includes a tray guide block on which a tray is seated, a wrapping connector driving member configured to elevate and lower the tray guide block, a fixed fastener connected to the tray guide block, and a corrective fastener connected to the wrapping connector driving member and configured to rotatably coupled to the fixed fastening member.

An elevator unit for transferring a tray includes a tray guide block on which a tray is seated, a wrapping connector driving member configured to elevate and lower the tray guide block, a fixed fastener connected to the tray guide block, and a corrective fastener connected to the wrapping connector driving member and configured to rotatably coupled to the fixed fastening member.

Disclosed herein are embodiments of a transfer chamber robot and methods of using the same. In one embodiment, a process tool for an electronic device manufacturing system comprises a transfer chamber, process chamber coupled to the transfer chamber, and a transfer chamber robot. The transfer chamber robot is configured to transfer substrates to and from the process chamber, and comprises a sensor configured to take measurements inside the process chamber.

A transfer apparatus includes a lower plate including a lower link arm and a lower support, the lower support being fixed to an upper surface of the lower plate, an upper plate on the lower plate and configured to support a wafer stacking box on an upper surface of the upper plate, the upper plate including an upper link arm, and an upper support that is fixed to the upper surface of the upper plate, and a fixing member that is connected to the upper link arm, the fixing member configured to selectively contact the wafer stacking box. The upper plate is aligned with the lower plate in a first horizontal direction, and is configured to perform linear movement on the lower plate in the first horizontal direction.

Disclosed is a substrate treating apparatus for performing a cleaning treatment on substrates. The apparatus includes an indexer block with an indexer robot, a treating block including a front face cleaning unit and a back face cleaning unit as treating units, and a reversing path block including a plurality of shelves on which substrates are placed, and having a reversing function. The indexer robot includes a guide rail, a base, an articulated arm, and a hand. The guide rail is positioned so as not to overlap a mount position of a substrate in the reversing path block.

A tower lift includes a main frame extending in a vertical direction, a carriage module configured to be movable in the vertical direction along the main frame, a weight module disposed behind the carriage module and configured to be movable in the vertical direction along the main frame, a driving module disposed on the main frame and configured to move the carriage module and the weight module in the vertical direction using at least one timing belt, an auto tensioner disposed on a lower portion of the main frame and connected with the carriage module and the weight module by a balance belt, and an upper alignment unit for aligning a horizontal position of the at least one timing belt.

A transportation method for transporting an object including a plurality of Fabry-Perot interference filters, the transportation method including a first step of accommodating the object in an accommodating container, wherein the Fabry-Perot interference filter includes a substrate, a first mirror portion and a second mirror portion provided on the substrate to face each other via a gap and in which a distance from each other is variable, and in the first step, the object is accommodated and supported in the accommodating container in a state where the plurality of Fabry-Perot interference filters is two-dimensionally arranged.

A transportation method for transporting an object including a plurality of Fabry-Perot interference filters, the transportation method including a first step of accommodating the object in an accommodating container, wherein the Fabry-Perot interference filter includes a substrate, a first mirror portion and a second mirror portion provided on the substrate to face each other via a gap and in which a distance from each other is variable, and in the first step, the object is accommodated and supported in the accommodating container in a state where the plurality of Fabry-Perot interference filters is two-dimensionally arranged.