There is provided a substrate processing apparatus, including: a mounting part on which a carrier having a plurality of slots capable of accommodating a plurality of substrates is mounted; a transfer part configured to load and unload the substrates to and from the plurality of slots based on a reference accommodation position set in the mounting part; a detection part configured to detect a position of each of the plurality of substrates accommodated in the plurality of slots; and a correction part configured to correct the reference accommodation position based on port accumulation information in which detection results obtained by the detection part from a plurality of carriers which has been mounted on the mounting part in the past are accumulated.

A load port includes a first pin projecting on a dock plate and provided on the dock plate so as to be pushed down, and a first detection unit provided on the base portion and configured to detect that the dock plate is located at a first position. The first detection unit includes a movable member capable of displacing in a moving direction of the dock plate, and a first sensor configured to detect the displacement of the movable member. The movable member is arranged at a position to abut against the first pin that is in a pushed down state in a process in which the dock plate moves from a second position to the first position.

Provided is a load port apparatus including: a mounting unit on which a pod housing a housed object is mounted; a frame portion provided to stand adjacent to the mounting unit and having a frame opening to which a main opening of the pod is connected; a door engageable with a lid for the main opening of the pod for opening and closing the frame opening and the main opening; a door drive mechanism which drives the door; an inner gas exhaust unit provided below an inner side of the frame opening to exhaust a gas from an inside of a mini environment connected to the pod through the main opening and the frame opening; and a corrosive gas detection sensor arranged between the frame opening and the inner gas exhaust unit or in an exhaust flow path of the inner gas exhaust unit.

Wafer boat handling device, configured to be positioned under a process chamber of a vertical batch furnace, and comprising a rotatable table comprising a first and a second wafer boat support surface. Each wafer boat support surface is configured for supporting a wafer boat. The rotatable table is rotatable by an actuator to rotate both the first and the second wafer support surfaces to a load/receive position in which the wafer boat handling device is configured to load a wafer boat vertically from the rotatable table into the process chamber and to receive the wafer boat from the process chamber onto the rotatable table, a cooldown position in which the wafer boat handling device is configured to cool down a wafer boat, and a transfer position for transferring wafers to and/or from the wafer boat.

Electronic device processing systems including an equipment front end module with at least one side storage pod are described. The side storage pod has a chamber including a top substrate holder and a bottom substrate holder. In some embodiments, an exhaust port is located at a midpoint between the top substrate holder and the bottom substrate holder. Methods and systems in accordance with these and other embodiments are also disclosed.

A substrate container system comprises a container body having a bottom face, a front opening that enables passage of a substrate, and a back opening opposing the front opening, the back opening having a width smaller than that of the front opening; and a back cover that covers the back opening and establishes sealing engagement with the container body, wherein the back cover comprises a first gas inlet structure that bendingly extends under the bottom face of the container body upon assembly; wherein the first gas inlet structure comprises a downward facing gas intake port opposing the bottom face of the container body.

Apparatus and methods for automatically handling die carriers are disclosed. In one example, a disclosed apparatus includes: at least one load port each configured for loading a die carrier operable to hold a plurality of dies; and an interface tool coupled to the at least one load port and a semiconductor processing unit. The interface tool comprises: a first robotic arm configured for transporting the die carrier from the at least one load port to the interface tool, and a second robotic arm configured for transporting the die carrier from the interface tool to the semiconductor processing unit for processing at least one die in the die carrier.

A purge controlling system includes a purge module and a control module. The purge module is arranged in the load port and is electrically connected with the control module. The purge module includes an air curtain unit, a flow control unit and a sensing unit. The control module controls the purge module to provide adequate gas flow of purge gas into the air curtain unit and form a gas curtain according to the displacement value of the door assembly.

A substrate transport apparatus includes: a support configured to support a substrate; a moving mechanism configured to move the support in a lateral direction in order to transport the substrate from a first placement portion to a second placement portion, each of the first placement portion and the second placement portion being configured to place thereon the substrate; and an ultrasonic sensor provided on the support and configured to detect the substrate placed on the first placement portion.

A processing apparatus includes a chuck table that holds a workpiece, a cutting unit that processes the workpiece held by the chuck table, a cassette placing region where a cassette is placed, a carrying unit that carries the workpiece between the cassette placed in the cassette placing region and the chuck table, and a surrounding wall that partitions a route for lifting the cassette upward and downward from an external space, in a space directly above the cassette placing region. A height of the surrounding wall is equal to or more than a height of a ceiling wall of the processing apparatus and is so as not to interfere with the cassette held by a carrier that travels.