A substrate processing apparatus includes: a process container where a substrate is processed; a process gas supply unit configured to supply a process gas into the process container; a substrate placing table installed in the process container; a shaft penetrating a hole at a bottom portion of the process container and coupled to the substrate placing table; a bellows surrounding the shaft and disposed outside of the process container wherein an inner space thereof is in communication with a space of the process container; an inert gas supply system configured to supply an inert gas into the inner space of the bellows disposed outside of the process container; and a component falling prevention unit including at least a first structure disposed along a first portion of the hole at the bottom of the process container and a second structure disposed along a second portion of the hole adjacent to the first structure.

A substrate processing apparatus includes: a process container where a substrate is processed; a process gas supply unit configured to supply a process gas into the process container; a substrate placing table installed in the process container; a shaft penetrating a hole at a bottom portion of the process container and coupled to the substrate placing table; a bellows surrounding the shaft and disposed outside of the process container wherein an inner space thereof is in communication with a space of the process container; an inert gas supply system configured to supply an inert gas into the inner space of the bellows disposed outside of the process container; and a component falling prevention unit including at least a first structure disposed along a first portion of the hole at the bottom of the process container and a second structure disposed along a second portion of the hole adjacent to the first structure.

A method and apparatus for substrate processing and a cluster tool including a transfer chamber assembly and a plurality of processing assemblies. Processing chamber volumes are sealed from the transfer chamber volume using a support chuck on which a substrate is disposed. A seal ring assembly is coupled to the support chuck. The seal ring assembly includes an inner assembly, an assembly bellows circumscribing the inner assembly, and a bellows disposed between the inner and outer platform. An inner ring is disposed between inner assembly of the seal ring assembly and the bottom surface of the support chuck. An outer ring disposed between the seal ring assembly and the lower sealing surface of the process chamber wall. The support chuck is raised to form an isolation seal between the processing chamber volume and the transfer chamber volume using the bellows, the inner ring, and the outer ring.

A method and apparatus for substrate processing and a cluster tool including a transfer chamber assembly and a plurality of processing assemblies. Processing chamber volumes are sealed from the transfer chamber volume using a support chuck on which a substrate is disposed. A seal ring assembly is coupled to the support chuck. The seal ring assembly includes an inner assembly, an assembly bellows circumscribing the inner assembly, and a bellows disposed between the inner and outer platform. An inner ring is disposed between inner assembly of the seal ring assembly and the bottom surface of the support chuck. An outer ring disposed between the seal ring assembly and the lower sealing surface of the process chamber wall. The support chuck is raised to form an isolation seal between the processing chamber volume and the transfer chamber volume using the bellows, the inner ring, and the outer ring.

Some implementations described herein provide a shutter disc for use during a conditioning process within a processing chamber of a deposition tool. The shutter disc described herein includes a material having a wave-shaped section to reduce heat transfer to the shutter disc and to provide relief from thermal stresses. Furthermore, the shutter disc includes a deposition of a thin-film material on a backside of the shutter disc, where a diameter of the shutter disc causes a spacing between an inner edge of the thin-film material and an outer edge of a substrate support component. The spacing prevents an accumulation of material between the thin film material and the substrate support component, reduces tilting of the shutter disc due to a placement error, and reduces heat transfer to the shutter disc.

Some implementations described herein provide a shutter disc for use during a conditioning process within a processing chamber of a deposition tool. The shutter disc described herein includes a material having a wave-shaped section to reduce heat transfer to the shutter disc and to provide relief from thermal stresses. Furthermore, the shutter disc includes a deposition of a thin-film material on a backside of the shutter disc, where a diameter of the shutter disc causes a spacing between an inner edge of the thin-film material and an outer edge of a substrate support component. The spacing prevents an accumulation of material between the thin film material and the substrate support component, reduces tilting of the shutter disc due to a placement error, and reduces heat transfer to the shutter disc.

A memory device includes a memory die package including a plurality of memory dies, an interface device including an interface circuit, and a memory controller configured to control the interface with control data received from at least one of the plurality of memory dies. The interface device of the memory device is configured to divide and multiplex an IO channel between the memory die package and the memory controller into more than one channel using the control data receive from the at least one of the plurality of memory dies. The interface device for a memory device includes a control input buffer configured to receive an enable signal through a control pad, a first input buffer configured to receive a first data through a first IO pad in response to a first state of the enable signal, and a second input buffer configured to receive a second data through a second IO pad in response to a second state of the enable signal. The interface device further includes an input multiplexer configured to multiplex the first data and the second data to provide an input data.

A memory device includes a memory die package including a plurality of memory dies, an interface device including an interface circuit, and a memory controller configured to control the interface with control data received from at least one of the plurality of memory dies. The interface device of the memory device is configured to divide and multiplex an IO channel between the memory die package and the memory controller into more than one channel using the control data receive from the at least one of the plurality of memory dies. The interface device for a memory device includes a control input buffer configured to receive an enable signal through a control pad, a first input buffer configured to receive a first data through a first IO pad in response to a first state of the enable signal, and a second input buffer configured to receive a second data through a second IO pad in response to a second state of the enable signal. The interface device further includes an input multiplexer configured to multiplex the first data and the second data to provide an input data.

A deposition system includes a system housing having a housing interior, a fixture transfer assembly having a generally sloped fixture transfer rail extending through the housing interior, a plurality of processing chambers connected by the fixture transfer rail, a controller interfacing with the processing chambers and at least one fixture carrier assembly carried by the fixture transfer rail and adapted to contain one substrate. The fixture carrier assembly travels along the fixture transfer rail under influence of gravity. A deposition method is also disclosed.

A deposition system includes a system housing having a housing interior, a fixture transfer assembly having a generally sloped fixture transfer rail extending through the housing interior, a plurality of processing chambers connected by the fixture transfer rail, a controller interfacing with the processing chambers and at least one fixture carrier assembly carried by the fixture transfer rail and adapted to contain one substrate. The fixture carrier assembly travels along the fixture transfer rail under influence of gravity. A deposition method is also disclosed.