Source: http://www.google.com/patents/US5768125?dq=6,976,008
Timestamp: 2017-02-19 14:54:49
Document Index: 701315296

Matched Legal Cases: ['art 2', 'art 3', 'art 3', 'art 2', 'art 3', 'art 3']

Patent US5768125 - Apparatus for transferring a substantially circular article - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsAn apparatus for transferring a substantially circular article from a first unloading position to a second loading position compensates for misalignment of the article on a support arm. During movement of the support arm the periphery of the circular article is detected, and a correction of the movement...http://www.google.com/patents/US5768125?utm_source=gb-gplus-sharePatent US5768125 - Apparatus for transferring a substantially circular articleAdvanced Patent SearchTry the new Google Patents, with machine-classified Google Scholar results, and Japanese and South Korean patents.Publication numberUS5768125 APublication typeGrantApplication numberUS 08/569,303Publication dateJun 16, 1998Filing dateDec 8, 1995Priority dateDec 8, 1995Fee statusPaidAlso published asDE69622353D1, DE69622353T2, EP0778610A1, EP0778610B1Publication number08569303, 569303, US 5768125 A, US 5768125A, US-A-5768125, US5768125 A, US5768125AInventorsJan Zinger, Kornelius Haanstra, Rudi SchimmelOriginal AssigneeAsm International N.V.Export CitationBiBTeX, EndNote, RefManPatent Citations (4), Referenced by (36), Classifications (13), Legal Events (4) External Links: USPTO, USPTO Assignment, EspacenetApparatus for transferring a substantially circular article
US 5768125 AAbstract
An apparatus for transferring a substantially circular article from a first unloading position to a second loading position compensates for misalignment of the article on a support arm. During movement of the support arm the periphery of the circular article is detected, and a correction of the movement of the support arm is generated.
1. An apparatus for transferring a substantially circular article from a first loading position to a second unloading position, the apparatus comprising:displaceable transferring means for engaging the article at the first position, transferring it substantially horizontally along a linear path, and discharging it at the second position; means for determining a horizontal position of the article relative to said displaceable transferring means while the article is engaged by said displaceable transferring means and is being transferred along said linear path, said means for determining comprising a first generally linear array of light sensors in said linear path between the first and second positions in a direction not parallel to said linear path, and calculating means for determining the horizontal position of the article relative to said displaceable transferring means based on an output from said first array; and position control means connected to said calculating means for controlling movement of said displaceable transferring means. 2. The apparatus of claim 1, further comprising a U-shaped support member with two spaced-apart legs for passage of the article therethrough when the article is being transferred along said linear path, said two legs supporting said array of light sensors so that said array is disposed on both sides of the article during the article's passage through said legs.
3. An apparatus for transferring a substantially circular article from a first loading position to a second unloading position, the apparatus comprising:displaceable transferring means for engaging the article at the first position, transferring it substantially horizontally along a linear path, and discharging it at the second position; speed determining means for determining a speed of the article while the article is engaged by said displaceable transferring means and is being transferred along said linear path, said speed determining means comprising a first generally linear array of light sensors in said linear path between the first and second positions in a direction not parallel to said linear path and a multi-pronged reference on said displaceable transferring means, each prong of said multi-pronged reference for being detected by a light sensor in said first array during passage of the article along said linear path, and calculating means for determining the speed of the article based on an output from said first array; and position control means connected to said calculating means for controlling movement of said displaceable transferring means. 4. The apparatus of claim 3, wherein said speed determining means further comprises a second generally linear array of light sensors parallel to said linear path for detecting passage of each prong in said multi-pronged reference and for indicating the detected passages to said calculating means.
5. An apparatus for transferring a substantially circular article at least substantial horizontal from a first unloading position to a second loading position, comprising:displaceable transferring means for engaging said article, transferring it in a linear path and discharging it in said second position; means for determining the substantial horizontal position of said article relative to said displaceable transferring means; position control means for controlling movement of said displaceable transferring means; said means for determining the substantial horizontal position of said article comprising an array of light sensitive means positioned in said path of the article between said first and said second positions in a direction not parallel with said path; said transferring means being arranged such that said article is moved along said path along said array of light sensitive means; and calculating means for determining the position of said article relative to said transferring means based on the output of said array of light sensitive means and the linear speed of said transferring means along said linear path and which is connected to said position control means. 6. An apparatus according to claim 5, further comprising means for determining speed of said article during passage through said array of light sensitive means, wherein said speed determining means are connected to the calculating means.
7. An apparatus according to claim 6, wherein said speed determining means comprise further light sensitive means and cooperating reference means on said transferring means.
8. An apparatus according to claim 5, wherein a support arm portion of said transferring means is provided with reference means cooperating with further light sensitive means, said further light sensitive means being connected to speed determining means which are connected to the calculating means.
9. An apparatus according to claim 5, wherein said array of light sensitive means extends substantially perpendicular to said linear path.
10. An apparatus for transferring a substantially circular article at least substantial horizontal from a first unloading position to a second loading position, comprising:displaceable transferring means for engaging said article, transferring it in a linear path and discharging it in said second position; means for determining the substantial horizontal position of said article on said displaceable transferring means; position control means for controlling movement of said displaceable transferring means; said means for determining the substantial horizontal position of said article comprising an array of light sensitive means positioned in said path of the article from said first to said second position in a direction not parallel with said path; said transferring means being arranged such that said article is moved along said linear path along said array of light sensitive means; calculating means for determining the position of said article relative to said transferring means based on the output of said array light sensitive means and the linear speed of said transferring means along said linear path and which is connected to said position control means; and further light sensitive means for determining the linear speed of said article during passage of said array of light sensitive means which is connected to said calculating means. 11. An apparatus according to claim 10, wherein said further light sensitive means comprise a further array of spaced light sensitive means.
12. An apparatus according to claim 11, wherein both arrays of light sensitive means have at least one common light sensitive means.
During wafer processing in a reactor wafers are transferred from a processing station or feed station to a (further) processing station or discharge station. At this end a transferring apparatus is used.
U.S. Pat. No. 5,407,449 describes an apparatus being able to pick-up wafers from one station and to transfer them to another station. This apparatus is adjustable in vertical direction to be able to transfer wafers from a stack from one station to another. The transferring apparatus comprises an arm having three arms portions of which one portion is the support portion on which the wafer is loaded.
During loading, unloading and processing wafers will slightly move from their starting position. If no correction is effected this deviation from the original position will be transferred in the next stage, i.e. this deviation will also be present in a next station.
If several processing steps are undertaken this will mean that at the end of a series of processing steps a stack of wafers comprises a number of wafers having different positions. Because some processes are very critical with regard to the position of the wafer this is highly undesirable.
To prevent misalignment of the wafer with regard to the supporting arm portion it has been proposed to provide video cameras above or in the apparatus for transferring the wafers in order to obtain a correction. Such cameras are relatively complicated with regard to recognizing the wafers and determining the correction desired. Furthermore a reliable determination of the position of the several components can be made only if there is no movement of the arm.
instead of cameras it is also proposed to use a sensor array at the top of the system. Also this system functions best if the wafer is in a stationary position.
The invention aims to determine the position of the wafer with regard to the supporting arm position in a dynamic way i.e. during movement of the transfer robot to keep the time for transferral as short as possible. The invention furthermore aims to simplify the method for determining the position of the wafer on the supporting arm portion.
Furthermore the invention aims to obtain a correction for deviations in speed of the several arm portions of the arm of the apparatus for transfering the wafer.
The invention aims to provide a system for determing the position of the wafer with regard to the supporting arm position which is independent from the position of the supporting arm portion in a vertical direction.
This is realized with an apparatus for transferring a substantially circular article from a first unloading position to a second loading position, comprising displaceable transferring means for engaging said article, transferring it and discharging it in said second position, means for determining the position of said article on said displaceable transferring means, position control means for controlling movement of said displaceable transferring means, said position control means comprising an array of fixed light sensitive means positioned in the path of the article between said first and said second positions in a direction not parallel with the extension of said path and wherein calculating means are provided for determining the position of said article based on the output of said array light sensitive means and the speed of said displaceable transferring means and which is connected to said position control means.
According to a preferred embodiment the invention relates to an apparatus for transferring a substantially circular article from a first unloading position to a second loading position, comprising displaceable transferring means for engaging said article, transferring it and discharging it in said second position, means for determining the position of said article on said displaceable means, position control means for controlling movement of said displaceable transferring means, said position control means comprising an array of fixed light sensitive means positioned in the path of the article between said first and said second positions in a direction not parallel with the extension of said path and wherein calculating means are provided for determining the position of said article based on the output of said array light sensitive means and the speed of said displaceable transferring means and being connected to said controlling means, and having further light sensitive means for determining the speed of said article during passage of said array of light sensitive means and which is connected to calculating means.
The invention will be further elucidated referring to the drawings, in which:
FIG. 1 shows a side elevation of the device according to the invention;
FIG. 3 shows a detail in side view and partially exploded of a device according to the invention;
FIG. 4 shows a perspective view of the device according to FIGS. 1-3 incl. and
FIG. 5 shows a block diagram.
In FIG. 1 a robot 1 is shown comprising a lower fixed part 2 and an upper part 3. Upper part 3 can be moved with regard to lower fixed part 2 in a vertical direction by telescoping means which are not further shown. On upper part 3 an arm 4 is provided comprising a first, second and third support arm portions indicated by 5, 6, 7 respectively. Support arm portion 7 is embodied to receive a wafer 8. Wafer 8 has to be transferred from storage 9 to storage 10.
As shown in FIG. 2, supporting arm portion 7 is provided with a vacuum suction supporting face 26. With this vacuum suction support 26 it is possible to lock the water to the supporting arm portion during transversal and to release it at unloading.
Storages 9 and 10 can e.g. be processing stations of a device for treating micro circuit wafers. Reference is made to U.S. Pat. No. 5,407,449 which is incorporated by reference and wherein a robot is shown transferring wafers from one station to another.
Arm portion 7 is provided with comb reference means 11. These reference means are provided with a serrated extremity indicated by 12.
Upper part 3 is provided with an elongated member 13 in which a number of light reflective sensors 14 are provided.
Operation of first arm portion 5, second arm portion 6 and support arm portion 7 is such that the center of support arm portion 7 will follow dashed line 15. This means that the serrated extremity 12 will move over light sensitive diodes 14.
On elongated member 13 a U-shaped member 16 is provided which is shown more in detail in FIG. 3.
In this member opposed sets of light emitting and light sensitive diodes 17 respectively 18 are provided. The gap between the logs of the U-shaped member 16 are sized as to receive wafer 8 therebetween during Its movement along dashed line 15 without contacting the upper and the lower legs of U-shaped member 16.
For operating arm 4 three motors 19, 20 and 21 (for R, T and Z direction respectively) are provided as is schematically shown in FIG. 5. Operation of the several motors is through control means 23. Control means 23 receive input from a main processing unit 24 controlling the sequence of discharging, charging of storages 9, 10 respectively.
The signal from array of light sensitive means 17, 18 is input in calculating means 25. The same is true for the signal obtained from the light sensitive diodes 14. From this calculating means a correction signal is introduced in control 23.
The device described above functions as follows. During movement of a wafer from the position shown in FIG. 2 along dash line 15 the serrated extremity 12 of reference means 11 will pass one of the light sensitive means of U-shaped member 16 (the most right one in FIG. 3) and the light sensitive diodes 14 on elongated member 13. Based on the signals from these diodes the calculating means 25 are able to calculate the speed of serrated extremities 12 and from this the speed of support arm portion 7.
At the same time wafer 8 will move between the legs of U-shaped member 16. One or more of the light emitting diode/light sensitive diodes 17, 18 respectively will subsequently from the right to the left be activated, deactivated respectively.
From this array of light sensitive diodes information can be obtained the position of wafer 8 an support arm portion 7 in the direction of dashed line 15 as well as its position perpendicular thereto. This is calculated based on the output of the signal of U-shaped member 16 input to calculating means 25.
Through the provision of e.g. six dents of the serrated extremity 12 in combination with four sensors 14 it is possible to affect 48 measures for returning the speed of supporting arm portion 7. Knowing the speed is of importance for determining the shape of the circle of article 8.
Based on the speed of support arm portion 7 and the position of wafer 8 on support arm portion 7 it is possible to provide a correction signal to control means 23 to correct the position of support arm portion 7 by adjusting the control of the two motors 19, 21.
Although the invention has been described above relating to a preferred embodiment it has been understood that many variations can be introduced without leaving the scope of protection and being obvious for the person skilled in the art.
For example it is possible to omit measure of the speed of support arm portion 7 and calculate this speed based on the rotation of the several motors 19-21.
Except from using all light emitting diodes and light sensitive diodes 17, 18 for determining the position of wafer 8 it in also possible to only use for example the first and last set of calculating and to use the other one as a check.
Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4744713 *May 21, 1986May 17, 1988Texas Instruments IncorporatedMisalignment sensor for a wafer feeder assemblyUS4836733 *Dec 21, 1987Jun 6, 1989Varian Associates, Inc.Wafer transfer systemUS5239182 *Apr 16, 1992Aug 24, 1993Tokyo Electron Saga Kabushiki KaishaWafer conveyor apparatus and method for detecting inclination of wafer inside cassetteUS5483138 *Apr 21, 1994Jan 9, 1996Applied Materials, Inc.System and method for automated positioning of a substrate in a processing chamber* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6788991Oct 9, 2002Sep 7, 2004Asm International N.V.Devices and methods for detecting orientation and shape of an objectUS6798571Jan 11, 2001Sep 28, 2004Interscope Technologies, Inc.System for microscopic digital montage imaging using a pulse light illumination systemUS6816606Feb 21, 2001Nov 9, 2004Interscope Technologies, Inc.Method for maintaining high-quality focus during high-throughput, microscopic digital montage imagingUS6900877Jun 12, 2002May 31, 2005Asm American, Inc.Semiconductor wafer position shift measurement and correctionUS6950774Jan 16, 2003Sep 27, 2005Asm America, Inc.Out-of-pocket detection system using wafer rotation as an indicatorUS6993169Jan 11, 2001Jan 31, 2006Trestle CorporationSystem and method for finding regions of interest for microscopic digital montage imagingUS7008802May 29, 2001Mar 7, 2006Asm America, Inc.Method and apparatus to correct water driftUS7155049Jul 31, 2001Dec 26, 2006Trestle Acquisition Corp.System for creating microscopic digital montage imagesUS7212660Oct 26, 2005May 1, 2007Clarient, Inc.System and method for finding regions of interest for microscopic digital montage imagingUS7248931Jul 15, 2004Jul 24, 2007Asm America, Inc.Semiconductor wafer position shift measurement and correctionUS7421102Sep 6, 2005Sep 2, 2008Carl Zeiss Microimaging Ais, Inc.System and method for finding regions of interest for microscopic digital montage imagingUS7869641May 27, 2009Jan 11, 2011Carl Zeiss Microimaging GmbhSystem and method for finding regions of interest for microscopic digital montage imagingUS7876948Jul 24, 2009Jan 25, 2011Carl Zeiss Microimaging GmbhSystem for creating microscopic digital montage imagesUS7963736Apr 3, 2008Jun 21, 2011Asm Japan K.K.Wafer processing apparatus with wafer alignment deviceUS8041450Oct 4, 2007Oct 18, 2011Asm Japan K.K.Position sensor system for substrate transfer robotUS8099190Jun 22, 2007Jan 17, 2012Asm International N.V.Apparatus and method for transferring two or more wafers whereby the positions of the wafers can be measuredUS8273178Feb 26, 2009Sep 25, 2012Asm Genitech Korea Ltd.Thin film deposition apparatus and method of maintaining the sameUS8347813Dec 10, 2008Jan 8, 2013Asm Genitech Korea Ltd.Thin film deposition apparatus and method thereofUS8666551Dec 22, 2008Mar 4, 2014Asm Japan K.K.Semiconductor-processing apparatus equipped with robot diagnostic moduleUS20020090120 *Jan 11, 2001Jul 11, 2002Wetzel Arthur W.System and method for finding regions of interest for microscopic digital montage imagingUS20020090127 *Jul 31, 2001Jul 11, 2002Interscope Technologies, Inc.System for creating microscopic digital montage imagesUS20040143412 *Jan 16, 2003Jul 22, 2004Donald James J.Out-of-pocket detection system using wafer rotation as an indicatorUS20040151574 *May 29, 2001Aug 5, 2004Zhimin LuMethod and apparatus to correct wafer driftUS20040258514 *Jul 15, 2004Dec 23, 2004Ivo RaaijmakersSemiconductor wafer position shift measurement and correctionUS20060029266 *Sep 6, 2005Feb 9, 2006Trestle CorporationSystem and method for finding regions of interest for microscopic digital montage imagingUS20060045320 *Oct 26, 2005Mar 2, 2006Trestle CorporationSystem and method for finding regions of interest for microscopic digital montage imagingUS20060204072 *May 9, 2006Sep 14, 2006Wetzel Arthur WSystem for creating microscopic digital montage imagesUS20070169700 *Jan 26, 2006Jul 26, 2007Gert-Jan SnidersSensing system and method for determining the alignment of a substrate holder in a batch reactorUS20080319559 *Jun 22, 2007Dec 25, 2008De Ridder Christianus GerardusApparatus and method for transferring two or more wafers whereby the positions of the wafers can be measuredUS20090093906 *Oct 4, 2007Apr 9, 2009Asm Japan K.K.Position sensor system for substrate transfer robotUS20090155452 *Dec 10, 2008Jun 18, 2009Asm Genitech Korea Ltd.Thin film deposition apparatus and method thereofUS20090217871 *Feb 26, 2009Sep 3, 2009Asm Genitech Korea Ltd.Thin film deposition apparatus and method of maintaining the sameUS20100002918 *May 27, 2009Jan 7, 2010Wetzel Arthur WSystem and method for finding regions of interest for microscopic digital montage imagingUS20100060729 *Jul 24, 2009Mar 11, 2010Wetzel Arthur WSystem for creating microscopic digital montage imagesUS20100158644 *Dec 22, 2008Jun 24, 2010Asm Japan K.K.Semiconductor-processing apparatus equipped with robot diagnostic moduleUS20150300960 *Dec 5, 2013Oct 22, 2015Tokyo Electron LimitedSubstrate processing apparatus, method of operating substrate processing apparatus, and storage medium* Cited by examinerClassifications U.S. Classification700/56, 414/935, 414/275, 700/217International ClassificationB65G49/07, H01L21/677, B25J9/06, H01L21/68Cooperative ClassificationY10S414/135, H01L21/681, H01L21/67796European ClassificationH01L21/68L, H01L21/677KLegal EventsDateCodeEventDescriptionApr 23, 1996ASAssignmentOwner name: ASM INTERNATIONAL N.V., NETHERLANDSFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:ZINGER, JAN;HAANSTRA, KORNELIUS;SCHIMMEL, RUDI;REEL/FRAME:007912/0800Effective date: 19960307Nov 22, 2001FPAYFee paymentYear of fee payment: 4Nov 18, 2005FPAYFee paymentYear of fee payment: 8Nov 18, 2009FPAYFee paymentYear of fee payment: 12RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - 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