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Cluster tool architecture for processing a substrate

a technology of clustering tools and substrates, applied in the field of integrated processing systems, can solve the problems of limiting the throughput of the processing sequence, wasting a large amount of time for clustering tool users and manufacturers, and consuming a large amount of tim

Inactive Publication Date: 2006-06-22
SOKUDO CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0014] Embodiments of the invention further provide a method of processing a substrate in a cluster tool comprising: positioning a substrate on a substrate exchanging device in a first processing chamber that is adjacently positioned to a second processing chamber; transferring the substrate from the substrate exchanging device in the first processing chamber to a substrate receiving surface of a chilled robot blade, wherein the substrate receiving surface is adapted to control the temperature of the substrate retained thereon; transferring the substrate to the second processing chamber using the chilled robot blade; and transferring the substrate to a third processing chamber using the chilled robot blade, wherein the third processing chamber is adjacent to the second processing chamber.
[0103] The present invention generally provides an apparatus and method for processing substrates using a multi-chamber processing system (e.g., a cluster tool) that has an increased system throughput, increased system reliability, more repeatable wafer processing history (or wafer history) within the cluster tool, and also a reduced footprint of the cluster tool. In one embodiment, the cluster tool is adapted to perform a track lithography process in which a substrate is coated with a photosensitive material, is then transferred to a stepper / scanner, which exposes the photosensitive material to some form of radiation to form a pattern in the photosensitive material, and then certain portions of the photosensitive material are removed in a developing process completed in the cluster tool.

Problems solved by technology

In an effort to reduce CoO, electronic device manufacturers often spend a large amount of time trying to optimize the process sequence and chamber processing time to achieve the greatest substrate throughput possible given the cluster tool architecture limitations and the chamber processing times. In track lithography type cluster tools, since the chamber processing times tend to be rather short, (e.g., about a minute to complete the process) and the number of processing steps required to complete a typical process sequence is large, a significant portion of the time it takes to complete the processing sequence is taken up transferring the substrates between the various processing chambers.
If the substrate throughput in a cluster tool is not robot limited, the longest process recipe step will generally limit the throughput of the processing sequence.
This is usually not the case in track lithography process sequences, due to the short processing times and large number of processing steps.
These factors are very important to a cluster tool's profitability and / or usefulness, since the longer the system is unable to process substrates the more money is lost by the user due to the lost opportunity to process substrates in the cluster tool.
Therefore, cluster tool users and manufacturers spend a large amount of time trying to develop reliable processes, reliable hardware and reliable systems that have increased uptime.
The push in the industry to shrink the size of semiconductor devices to improve device processing speed and reduce the generation of heat by the device, has caused the industry's tolerance to process variability to diminish.
Due to the shrinking size of semiconductor devices and the ever increasing device performance requirements, the allowable variability of the device fabrication process uniformity and repeatability has greatly decreased.
Lithography type device fabrication processes can be especially sensitive to variations in process recipe variables and the timing between the recipe steps, which directly affects process variability and ultimately device performance.

Method used

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Embodiment Construction

[0103] The present invention generally provides an apparatus and method for processing substrates using a multi-chamber processing system (e.g., a cluster tool) that has an increased system throughput, increased system reliability, more repeatable wafer processing history (or wafer history) within the cluster tool, and also a reduced footprint of the cluster tool. In one embodiment, the cluster tool is adapted to perform a track lithography process in which a substrate is coated with a photosensitive material, is then transferred to a stepper / scanner, which exposes the photosensitive material to some form of radiation to form a pattern in the photosensitive material, and then certain portions of the photosensitive material are removed in a developing process completed in the cluster tool.

[0104]FIGS. 1A and 1C are isometric views of one embodiment of a cluster tool 10 that illustrates a number of the aspects of the present invention that may be used to advantage. One embodiment of t...

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Abstract

Embodiments generally provide an apparatus and method for processing substrates using a multi-chamber processing system (e.g., a cluster tool) that has an increased system throughput, increased system reliability, substrates processed in the cluster tool have a more repeatable wafer history, and also the cluster tool has a smaller system footprint. In one embodiment, the cluster tool is adapted to perform a track lithography process in which a substrate is coated with a photosensitive material, is then transferred to a stepper / scanner, which exposes the photosensitive material to some form of radiation to form a pattern in the photosensitive material, which is then removed in a developing process completed in the cluster tool. In track lithography type cluster tools, since the chamber processing times tend to be rather short, and the number of processing steps required to complete a typical track system process is large, a significant portion of the time it takes to process a substrate is taken up by the processes of transferring the substrates in a cluster tool between the various processing chambers. In one embodiment of the cluster tool, the cost of ownership is reduced by grouping substrates together and transferring and processing the substrates in groups of two or more to improve system throughput, and reduces the number of moves a robot has to make to transfer a batch of substrates between the processing chambers, thus reducing wear on the robot and increasing system reliability. In one aspect of the invention, the substrate processing sequence and cluster tool are designed so that the substrate transferring steps performed during the processing sequence are only made to chambers that will perform the next processing step in the processing sequence. Embodiments also provide for a method and apparatus that are used to improve the coater chamber, the developer chamber, the post exposure bake chamber, the chill chamber, and the bake chamber process results. Embodiments also provide for a method and apparatus that are used to increase the reliability of the substrate transfer process to reduce system down time.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application claims benefit of U.S. provisional patent application Ser. No. 60 / 639,109 filed Dec. 22, 2004, which is herein incorporated by reference.BACKGROUND OF THE INVENTION [0002] 1. Field of the Invention [0003] Embodiments of the invention generally relate to an integrated processing system containing multiple processing stations and robots that are capable of processing multiple substrates in parallel. [0004] 2. Description of the Related Art [0005] The process of forming electronic devices is commonly done in a multi-chamber processing system (e.g., a cluster tool) that has the capability to sequentially process substrates, (e.g., semiconductor wafers) in a controlled processing environment. A typical cluster tool used to deposit (i.e., coat) and develop a photoresist material, commonly known as a track lithography tool, will include a mainframe that houses at least one substrate transfer robot which transports substrates b...

Claims

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Application Information

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IPC IPC(8): C23C16/00
CPCH01L21/67173H01L21/67745H01L22/26H01L21/67196H01L21/6831G03B27/32Y10S414/136H01L21/67109H01L21/68707H01L21/67742H01L21/6719G03F7/40Y10T29/53187H01L21/67161Y10S414/135H01L21/67754H01L21/67178G03D13/006H01L21/67748G05B2219/40476Y10T29/5323G05B19/41825H01L21/67184G05B2219/49137H01L21/6838H01L21/6715G05B2219/45031H01L21/67225Y02P90/02
Inventor ISHIKAWA, TETSUYAROBERTS, RICK J.ARMER, HELEN R.VOLFOVSKI, LEONPINSON, JAY D.RICE, MICHAELQUACH, DAVID H.SALEK, MOHSEN S.LOWRANCE, ROBERTWEAVER, WILLIAM TYLERCARLSON, CHARLESWANG, CHONGYANGHUDGENS, JEFFREYHERCHEN, HARALDLUE, BRIANBACKER, JOHN A.
Owner SOKUDO CO LTD
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