Intelligent hardstop for gap detection and control mechanism
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01D-005/34
C23C-016/52
G01B-011/14
H01L-021/67
H01L-021/68
C23C-016/455
H01L-021/687
출원번호
US-0608361
(2017-05-30)
등록번호
US-10197385
(2019-02-05)
발명자
/ 주소
Khandelwal, Somesh
Kwong, Garry K.
Griffin, Kevin
Yudovsky, Joseph
출원인 / 주소
Applied Materials, Inc.
대리인 / 주소
Servilla Whitney LLC
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
Apparatus and methods for measuring the proximity between two components using a hardstop, an actuator and an emitter/detector passing light through a passage in the actuator are disclosed. The passage provides attenuation to the light which changes as the gap between the components changes allowing
Apparatus and methods for measuring the proximity between two components using a hardstop, an actuator and an emitter/detector passing light through a passage in the actuator are disclosed. The passage provides attenuation to the light which changes as the gap between the components changes allowing the measurement and control of the gap. Methods of determining the topology of the components using the apparatus are also described.
대표청구항▼
1. A method of measuring a gap between a gas distribution assembly and a susceptor assembly, the method comprising: positioning an actuator within a hardstop body, the hardstop having a hardstop body with a top portion with a top end, a bottom portion with a bottom end and an opening extending from
1. A method of measuring a gap between a gas distribution assembly and a susceptor assembly, the method comprising: positioning an actuator within a hardstop body, the hardstop having a hardstop body with a top portion with a top end, a bottom portion with a bottom end and an opening extending from the top end to the bottom end, the top portion of the hardstop comprising a flange, the actuator having an actuator body with an upper portion with an upper end and a lower portion with a lower end, the upper portion having a passage extending through the actuator body, the passage having a first end and a second end, the actuator sized to be slidably positioned within the opening of the hardstop so that the lower end of the actuator protrudes from the bottom end of the hardstop a first distance when no force is applied to the lower end of the actuator;positioning an emitter in alignment with the first end of the passage of the actuator to direct light through the passage;positioning a detector in alignment with the second end of the passage of the actuator to detect light from the emitter;measuring a first amount of light transmitted through the passage;moving the actuator within the hardstop body; andmeasuring a second amount of light transmitted from the emitter to the detector. 2. The method of claim 1, wherein a spring positioned between the top end of the actuator and a plate and movement of the actuator within the hardstop causes the spring to be compressed. 3. The method of claim 1, further comprising moving the susceptor assembly toward the gas distribution assembly. 4. The method of claim 3, wherein the susceptor assembly is in contact with the lower end of the actuator and movement of the susceptor assembly moves the actuator. 5. The method of claim 1, wherein the first amount of light transmitted through the passage is greater before moving the actuator than after moving the actuator. 6. The method of claim 5, further comprising stopping movement of the actuator when the second amount of light is at a predetermined amount. 7. The method of claim 1, wherein measuring the first amount of light occurs before moving the actuator and measuring the second amount of light occurs repeatedly while moving the actuator until the second amount of light is at a predetermined amount. 8. A method of measuring a gap between a gas distribution assembly and a susceptor assembly, the method comprising: contacting a lower end of an actuator with the susceptor assembly, the actuator positioned within a hardstop, the hardstop having a hardstop body with a top portion with a top end, a bottom portion with a bottom end and an opening extending from the top end to the bottom end, the top portion of the hardstop comprising a flange, the actuator having an actuator body with an upper portion with an upper end and a lower portion with a lower end, the upper portion having a passage extending through the actuator body, the passage having a first end and a second end, the actuator sized to be slidably positioned within the opening of the hardstop so that the lower end of the actuator protrudes from the bottom end of the hardstop a first distance when no force is applied to the lower end of the actuator;measuring a first amount of light transmitted by an emitter through the passage using a detector;moving the susceptor assembly toward the gas distribution assembly to move the actuator and change the amount of light passing through the passage;repeatedly measuring a second amount of light transmitted from the emitter to the detector through the passage until the second amount of light is at a predetermined amount; andstopping the movement of the susceptor assembly toward the gas distribution assembly. 9. The method of claim 8, wherein movement of the actuator within the hardstop compresses a spring positioned between the actuator and a plate attached to the hardstop. 10. The method of claim 8, wherein before moving the susceptor assembly, the detector has a direct line of sight of the emitter through the passage. 11. The method of claim 10, wherein after stopping moving the susceptor assembly, the detector measures no light from the emitter through the passage. 12. The method of claim 8, wherein before moving the susceptor assembly, the detector measures no light from the emitter through the passage. 13. The method of claim 12, wherein after stopping moving the susceptor assembly, the detector has a direct line of sight of the emitter through the passage. 14. A method comprising: measuring a first amount of light transmitted from an emitter to a detector through a passage in a top portion of an actuator, the actuator extending through a gas distribution assembly into a gap between the gas distribution assembly and a susceptor assembly;decreasing the gap between the susceptor assembly and the gas distribution assembly; andmeasuring a second amount of light transmitted from the emitter to the detector after decreasing the gap; anddetermining the gap between the gas distribution assembly and the susceptor assembly based on the first amount of light and the second amount of light. 15. The method of claim 14, further comprising: positioning at least one camera adjacent the susceptor assembly and gas distribution assembly so that an edge of the susceptor assembly, an edge of the gas distribution assembly and the gap are visible in a field of view of the camera;taking an image of the field of view of the camera, the image including the edge of the susceptor assembly, the edge of the gas distribution assembly and the gap;determining the position on the image of a top surface of the susceptor assembly and a front surface of the gas distribution assembly; andmeasuring the gap between the top surface of the susceptor assembly and the front surface of the gas distribution assembly from the image. 16. The method of claim 15, further comprising rotating the susceptor assembly around an axis and taking additional images of the field of view of the camera. 17. The method of claim 16, further comprising determining a topology of the top surface of the susceptor assembly from the images from the field of view of the camera and the gap between the gas distribution assembly and the susceptor assembly.
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