Abstract: A control system for a wafer transport vehicle is provided. The control system includes a control apparatus, a database, an onboard interface of the wafer transport vehicle and an operation control center. The control apparatus is arranged in a container of the wafer transport vehicle and configured to detect a environmental parameters in a container of the wafer transport vehicle and regulate the internal environment of a container of the wafer transport vehicle. The database is in communication with the control apparatus and configured store the environmental parameters detected by the control apparatus. The onboard interface is in communication with the control apparatus and configured to remotely control the control apparatus. The operation control center is in communication with the control apparatus and the onboard interface of the wafer transport vehicle and configured to receive the environmental parameters detected by the control apparatus.

Abstract: An overhead transport vehicle is described for association with an Automated Material Handling System (AMHS). The overhead transport vehicle provides features to the AMHS by which the AMHS is able to reduce a number of manual urgent lot rescues by the fab operator when a logistic algorithm controlling traffic in the AMHS is unable to transport the front opening unified pods (FOUP) from one tool to the subsequent tool in the sequence of the process steps within the q-time due to unexpected problems. An indicator on the overhead transport vehicle which helps the fab operator with spotting a lot in trouble is described. A backup power source on the overhead transport vehicle used in case of a main power failure is also described.

Abstract: An overhead transport vehicle is described for association with an Automated Material Handling System (AMHS). The overhead transport vehicle provides features to the AMHS by which the AMHS is able to reduce a number of manual urgent lot rescues by the fab operator when a logistic algorithm controlling traffic in the AMHS is unable to transport the front opening unified pods (FOUP) from one tool to the subsequent tool in the sequence of the process steps within the q-time due to unexpected problems. An indicator on the overhead transport vehicle which helps the fab operator with spotting a lot in trouble is described. A backup power source on the overhead transport vehicle used in case of a main power failure is also described.

Abstract: A method of semiconductor overlay measuring includes following operations. Provide a test substrate. Conductive structures are located in the test substrate and exposed from a top surface of the test substrate. Positioning the test substrate to a standard position and capturing a first image of the top surface of the test substrate. Mark first marks corresponding to the exposed conductive structures on the first image. Form a test capping layer with capacitor openings on the top surface of the test substrate. Move the test substrate to the standard position and capturing a second image of a top surface of the test capping layer. Identify the capacitor openings on the second image with second marks. Compare the first marks with the second marks to determine a position offset between the test substrate and the test capping layer.

Abstract: A method of semiconductor overlay measuring includes following operations. Provide a test substrate. Conductive structures are located in the test substrate and exposed from a top surface of the test substrate. Positioning the test substrate to a standard position and capturing a first image of the top surface of the test substrate. Mark first marks corresponding to the exposed conductive structures on the first image. Form a test capping layer with capacitor openings on the top surface of the test substrate. Move the test substrate to the standard position and capturing a second image of a top surface of the test capping layer. Identify the capacitor openings on the second image with second marks. Compare the first marks with the second marks to determine a position offset between the test substrate and the test capping layer.

Abstract: A control system for a wafer transport vehicle is provided. The control system includes a control apparatus, a database, an onboard interface of the wafer transport vehicle and an operation control center. The control apparatus is arranged in a container of the wafer transport vehicle and configured to detect a environmental parameters in a container of the wafer transport vehicle and regulate the internal environment of a container of the wafer transport vehicle. The database is in communication with the control apparatus and configured store the environmental parameters detected by the control apparatus. The onboard interface is in communication with the control apparatus and configured to remotely control the control apparatus. The operation control center is in communication with the control apparatus and the onboard interface of the wafer transport vehicle and configured to receive the environmental parameters detected by the control apparatus.