SAMPLE TRANSFER UNIT AND SAMPLE TRANSFERRING METHOD
원문보기
IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
G01B-015/00
H01L-021/677
H01L-021/67
출원번호
US-0038179
(2008-02-27)
공개번호
US-0203302
(2008-08-28)
우선권정보
JP-2007-049618(2007-02-28)
발명자
/ 주소
Gunji,Takashi
Sato,Hidetoshi
Kawakami,Katsuya
Yatabe,Hideki
출원인 / 주소
Hitachi High Technologies Corporation
대리인 / 주소
CROWELL & MORING LLP
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
There is provided a mini environment type transfer unit which can efficiently transfer a sample to a critical dimension scanning electron microscope (CD-SEM) even in the case of use of a SMIF pod which can store only one photomask. In addition to a load port, a stocker which can store a plurality of
There is provided a mini environment type transfer unit which can efficiently transfer a sample to a critical dimension scanning electron microscope (CD-SEM) even in the case of use of a SMIF pod which can store only one photomask. In addition to a load port, a stocker which can store a plurality of photomasks is provided in the mini environment type transfer unit. A mask storage slot in which a plurality of storage units are stacked is provided in the stocker, and one photomask is stored in each storage unit. A sensor is provided in each storage unit to determine whether or not the photomask is normally stored. Additionally, a sensor is provided in each storage unit to detect whether or not the photomask exists.
대표청구항▼
What is claimed is: 1. A sample transfer unit comprising: a load port for opening and closing a SMIF pod in an environment having predetermined cleanliness; a stocker for storing a plurality of samples in an environment having predetermined cleanliness; and a transfer robot for transferring a sampl
What is claimed is: 1. A sample transfer unit comprising: a load port for opening and closing a SMIF pod in an environment having predetermined cleanliness; a stocker for storing a plurality of samples in an environment having predetermined cleanliness; and a transfer robot for transferring a sample between said stocker and said SMIF pod retained by said load port in an environment having predetermined cleanliness wherein said stocker has a storage slot including a plurality of stacked storage units, and one sample is stored in each of said storage units. 2. The sample transfer unit according to claim 1, wherein said storage slot includes a top plate, a bottom plate, and a shaft which connects said top plate and said bottom plate, and said storage units are stacked between said top plate and said bottom plate. 3. The sample transfer unit according to claim 1, wherein each of said storage units includes a base plate, a base disposed on said base plate, a mask stage disposed on said base, and a sample disposed on said mask stage. 4. The sample transfer unit according to claim 1, wherein said base is attached onto said base plate by a screw, and said base, said mask stage disposed on said base, and the sample disposed on said mask stage can be taken out by unfastening said screw. 5. The sample transfer unit according to claim 1, wherein a cover is provided in said stocker, and the cover can be detached. 6. The sample transfer unit according to claim 5, wherein a desired sample can be removed from said storage slot by detaching said cover. 7. The sample transfer unit according to claim 5, wherein a desired storage unit can be removed from said storage slot by detaching said cover. 8. The sample transfer unit according to claim 1, wherein said stocker can be detached. 9. The sample transfer unit according to claim 1, wherein a window is provided in said stocker, and an inside of said stocker can be observed through said window. 10. The sample transfer unit according to claim 1, wherein a photosensor is provided in each of said storage units to detect whether or not a sample is normally disposed. 11. The sample transfer unit according to claim 1, wherein a photosensor is provided in each of said storage units to detect whether or not a sample exists. 12. A scanning electron microscope system comprising: a scanning electron microscope which has a function of measuring a pattern size of a sample; a load lock chamber which can be evacuated to a vacuum level to tentatively retain a sample to be transferred to the scanning electron microscope or a sample which has been transferred from the scanning electron microscope; and a sample transfer unit which includes a load port and a transfer robot, said load port opening and closing a SMIF pod in an environment having predetermined cleanliness, said transfer robot transferring a sample in an environment having predetermined cleanliness, wherein a stocker is provided to store a plurality of plate-shaped samples in an environment having a predetermined cleanliness, said transfer robot transfers the sample between said stocker and said SMIF pod retained by said load port, said transfer robot transfers the sample between said stocker and said load lock chamber, said stocker includes a plurality of storage slots containing a plurality of stacked storage units, and one sample is stored in each of said storage units. 13. The scanning electron microscope system according to claim 12, wherein a cover is provided in said stocker, and a desired sample or desired storage unit can be removed from said storage slot by detaching said cover. 14. The scanning electron microscope system according to claim 12, wherein said stocker can be detached. 15. The scanning electron microscope system according to claim 12, wherein a window is provided in said stocker, and an inside of said stocker can be observed through said window. 16. The scanning electron microscope system according to claim 12, wherein a photosensor is provided in each of said storage units, and said photosensor detects whether or not a sample is normally disposed or whether or not a sample exists. 17. A sample transferring method with a sample transfer unit including a load port and a transfer robot, said load port opening and closing a SMIF pod in an environment having predetermined cleanliness, said transfer robot transferring a sample in an environment having predetermined cleanliness, the sample transferring method comprising: providing a stocker for storing a plurality of samples, said stocker being adjacent to said load port of said sample transfer unit; disposing said SMIF pod which stores a sample on said load port; opening said SMIF pod by said load port; transferring a sample from said SMIF pod to said stocker using said transfer robot; transferring a sample from said stocker to a load lock chamber using said transfer robot; closing said load lock chamber to evacuate said load lock chamber to a vacuum level; transferring a sample from said load lock chamber to a sample stage of a scanning electron microscope; measuring said sample using said scanning electron microscope; transferring the sample from the sample stage of said scanning electron microscope to said load lock chamber; opening said load lock chamber to an atmospheric pressure; and transferring the sample from said load lock chamber to said stocker using said transfer robot. 18. The sample transferring method according to claim 17, wherein said stocker includes a plurality of storage slots containing a plurality of stacked storage units, and one sample is stored in each of said storage units. 19. The sample transferring method according to claim 17, comprising: detaching a cover provided in said stocker; and detaching a desired sample from said storage slot. 20. The sample transferring method according to claim 17, comprising detecting whether or not a sample stored in said stocker is normally disposed using a photosensor provided in said storage unit.
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