Embodiments of equipment front end modules (EFEMs) are provided herein. In some embodiments, an EFEM includes: two or more loadports for receiving two or more types of substrates; an overhead storage unit having a plurality of storage shelves disposed above the two or more loadports and configured to hold two or more types of front opening unified pods (FOUPs) of different sizes that store the two or more types of substrates, respectively, wherein a horizontal alley is disposed between the plurality of storage shelves and the two or more loadports to provide a horizontal passageway for the FOUPs during transport to the two or more loadports; and an overhead transport system having a pair of vertical actuators disposed on opposite sides of the overhead storage unit and configured to transport FOUPs from the overhead storage unit to the two or more loadports.

Provided are a flow supply apparatus and supply method. The flow supply apparatus, comprising: a rail; a transport unit disposed on the rail, where an object is loaded; and a gas treatment unit provided on the transport unit and configured to purge the object. The object includes a FOUP with a substrate accommodated therein, and fume is removed from the substrate through the purging.

A load port for a processing tool includes a carrier, a carrier actuator, an input table, an input table actuator, and a controller. The carrier has a plurality of cassette buffering spaces. The carrier is movable relative to the processing tool. The carrier actuator is operably connected to the carrier. The input table is configured to receive at least one cassette. The input table is movable relative to the carrier. The input table actuator is operably connected to the input table. The controller is configured to control the carrier actuator to move the carrier, such that one of the cassette buffering spaces is aligned with the input table, configured to control the input table actuator to move the input table with the cassette into the aligned cassette buffering space, and configured to control the input table to load the cassette into the aligned cassette buffering space.

In a vacuum processing apparatus, a load lock module includes a housing and substrate holding sections, the housing having first substrate transfer ports formed on one of right and left sides thereof and a second substrate transfer port formed on a rear side thereof, and each substrate holding section being configured to hold a substrate on a right or left side in the housing. Further, a normal pressure transfer chamber extends over or under the housing from one of the right and left sides of the housing to the other one thereof so that each first substrate transfer port is opened. The normal pressure transfer chamber includes a stacked transfer region that is a region overlapping the housing. Further, a normal pressure transfer mechanism transfers the substrate between each substrate holding section and a transfer container carried into each of loading/unloading ports via the stacked transfer region.

A system includes a plurality of semiconductor processing tools; a carrier purge station; a carrier repair station; and an overhead transport (OHT) loop for transporting one or more substrate carriers among the plurality of semiconductor processing tools, the carrier purge station, and the carrier repair station. The carrier purge station is configured to receive a substrate carrier from one of the plurality of semiconductor processing tools, purge the substrate carrier with an inert gas, and determine if the substrate carrier needs repair. The carrier repair station is configured to receive a substrate carrier to be repaired and replace one or more parts in the substrate carrier.

A transport module for loading and unloading a process module of a semiconductor production device includes a housing, which has a chamber that can be evacuated. The chamber has an opening that can be closed in a gas-tight manner by a closure device, which opens out into a first coupling duct associated with the transport module. The first coupling duct is connected with a flange plate using an elastic intermediate element, wherein the flange plate can be seated in a plane parallel, sealing manner on a flange plate of a second coupling duct associated with the process module. After opening the closure device, an evacuated loading and unloading duct to the process module is created. An inner and outer mounting section of the intermediate element is spaced apart from one another in the radial direction, with respect to the axis of the first coupling duct, by a deformation zone.

A storage system and methods for operating a storage system are disclosed. The storage system includes a plurality of storage shelves, and each of storage shelves has a shelf plate for supporting a container. Each of the storage shelves is coupled to a chain to enable horizontal movement and each is further coupled to a rail to enable guiding to one or more positions. A motor is coupled to a drive sprocket for moving the chain. The rail has some sections that are linear and some sections that are nonlinear. The sections are arranged in a loop. Example configurations of the storage system include one or more of stationary shelves, extended horizontal tracks for a hoist, a conveyor at a level of the storage system, and a manual loading station. The hoist, with an extended horizontal track interfaces with the manual loading station.

Proposed are article storage equipment in a semiconductor fabrication facility, the article storage equipment being capable of power supply with a more simplified configuration, and a logistics system of a semiconductor fabrication facility including the same. Article storage equipment in a semiconductor fabrication facility according to one aspect includes a storage unit installed around a rail that provides a travel route of a transport vehicle and configured to store a transport container in which a wafer is accommodated, a purge unit configured to supply an inert gas into the transport container, a control unit configured to identify the transport container stored in the storage unit and control the purge unit to supply the inert gas into the transport container, and a power supply unit configured to supply a current induced from a power supply cable installed along the rail to the control unit.

Apparatus and methods for handling die carriers are disclosed. In one example, a disclosed apparatus includes: a load port configured to load a die carrier operable to hold a plurality of dies into a processing tool; and a lane changer coupled to the load port and configured to move at least one die in the die carrier to an input of the processing tool and transfer the at least one die into the processing tool for processing the at least one die.

A system for coupling a mask to a mask holder. The system includes a base, an aperture; mask holder cover supporting elements arranged to move between a first position and a third position while supporting the mask holder cover; mask supporting elements arranged to move between a fourth position and a sixth position while supporting the mask; mask holder base supporting elements arranged to support the mask holder base. When the mask holder cover supporting elements are at the first position and the mask supporting elements are at the third position the mask holder cover, the mask and the base are spaced apart from each other. When the mask holder cover supporting elements are at the third position and the mask supporting elements are at the sixth position the mask holder cover, the mask and the base are connected to each other.