A wafer lift pin system is capable of dynamically modulating or adjusting the flow of gas into and out of lift pins of the wafer lift pin system to achieve and maintain a consistent pressure in supply lines that supply the gas to the lift pins. This enables the wafer lift pin system to precisely con
A wafer lift pin system is capable of dynamically modulating or adjusting the flow of gas into and out of lift pins of the wafer lift pin system to achieve and maintain a consistent pressure in supply lines that supply the gas to the lift pins. This enables the wafer lift pin system to precisely control the speed, acceleration, and deceleration of the lift pins to achieve consistent and repeatable lift pin rise times and fall times. A controller and various sensors and valves may control the gas pressures in the wafer lift pin system based on various factors, such as historic rise times, historic fall times, and/or the condition of the lift pins. This enables smoother and more controlled automatic operation of the lift pins, which reduces and/or minimizes wafer shifting and wafer instability, which may reduce processing defects and maintain or improve processing yields.
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1. A method, comprising: providing, by a pressure sensor included in a wafer lift pin system, pressure sensor data to a controller included in the wafer lift pin system;determining, by the controller and based on the pressure sensor data, that a gas is being supplied to the wafer lift pin system;tra
1. A method, comprising: providing, by a pressure sensor included in a wafer lift pin system, pressure sensor data to a controller included in the wafer lift pin system;determining, by the controller and based on the pressure sensor data, that a gas is being supplied to the wafer lift pin system;transmitting, by the controller and based on determining that the gas is being supplied to the wafer lift pin system, an indication of a pressure setting to a proportional valve included in the wafer lift pin system; andproviding, by the proportional valve, a supply of the gas to one or more lift pins to cause the one or more lift pins to raise a semiconductor wafer that is supported on the one or more lift pins, wherein the proportional valve determines a pressure of the supply of the gas to the one or more lift pins and modulates the supply of the gas to the one or more lift pins such that the pressure of the gas is within a threshold of the pressure setting. 2. The method of claim 1, further comprising: maintaining, by the proportional valve, the pressure of the supply of the gas to the one or more lift pins at the pressure setting after the semiconductor wafer has been raised to an extended configuration. 3. The method of claim 1, wherein determining the pressure of the supply of the gas to the one or more lift pins comprises: determining the pressure of the supply of the gas to the one or more lift pins based on pressure sensor data generated by another pressure sensor associated with the proportional valve. 4. The method of claim 1, further comprising: determining the pressure setting to achieve a particular rise time for raising the semiconductor wafer. 5. The method of claim 4, wherein determining the pressure setting to achieve the particular rise time for raising the semiconductor wafer comprises: determining the pressure setting to compensate for elastic fatigue of springs included in the one or more lift pins. 6. The method of claim 1, further comprising: determining the pressure setting based on data associated with the one or more lift pins indicating historical rise times and associated pressures for the one or more lift pins. 7. The method of claim 1, further comprising: determining the pressure setting based on a condition of the one or more lift pins. 8. A method, comprising: generating, by a pressure sensor included in a wafer lift pin system, pressure sensor data associated with a gas in the wafer lift pin system;providing, by the pressure sensor, the pressure sensor data to a controller included in the wafer lift pin system;determining, by the controller and based on the pressure sensor data, that a first pressure of the gas satisfies a pressure threshold;transmitting, by the controller and based on determining that the first pressure of the gas satisfies the pressure threshold, an indication of a second pressure to a proportional valve included in the wafer lift pin system; andpurging, by the proportional valve, the gas from one or more lift pins approximately at the second pressure to cause the one or more lift pins to retract below a wafer stage, wherein purging the gas from the one or more lift pins comprises dynamically adjusting, by the proportional valve, a rate at which the gas is purged from the one or more lift pins to achieve the second pressure, andwherein the retracting the one or more lift pins causes a semiconductor wafer, supported on the one or more lift pins, to be lowered onto the wafer stage. 9. The method of claim 8, wherein dynamically adjusting the rate at which the gas is purged from the one or more lift pins comprises: dynamically adjusting the rate at which the gas is purged from the one or more lift pins based on pressure sensor data generated by another pressure sensor associated with the proportional valve. 10. The method of claim 8, further comprising: maintaining, by the proportional valve, a pressure of the gas in the one or more lift pins approximately at a third pressure prior to purging the gas from the one or more lift pins. 11. The method of claim 10, wherein maintaining the pressure of the gas in the one or more lift pins approximately at the third pressure comprises: providing a supply flow of the gas from a storage tank included in the wafer lift pin system to maintain the pressure of the gas in the one or more lift pins approximately at the third pressure. 12. The method of claim 8, further comprising: maintaining, by a check valve included in the wafer lift pin system, a third pressure of a gas in a storage tank included in the wafer lift pin system prior to purging the gas from the one or more lift pins. 13. The method of claim 8, further comprising: determining, by the controller, the second pressure based on data associated with the one or more lift pins indicating historical fall times for the one or more lift pins. 14. The method of claim 8, further comprising: determining the second pressure to achieve a particular fall time for lowering the semiconductor wafer. 15. A wafer lift pin system, comprising: one or more lift pins configured to support a semiconductor wafer;a pressure sensor configured to generate pressure sensor data and provide the pressure sensor data;a controller, configured to: receive the pressure sensor data from the pressure sensor;determine, based on the pressure sensor data, that a gas is being supplied to the wafer lift pin system; andtransmit, based on determining that the gas is being supplied to the wafer lift pin system, an indication of a pressure setting; anda proportional valve configured to: receive the indication of the pressure setting from the controller; andprovide a supply of the gas to the one or more lift pins to cause the one or more lift pins to raise the semiconductor wafer,wherein the proportional valve determines a pressure of the supply of the gas to the one or more lift pins and modulates the supply of the gas to the one or more lift pins such that the pressure of the gas is within a threshold of the pressure setting. 16. The wafer lift pin system of claim 15, wherein the proportional valve is further configured to: maintain a pressure of the supply of the gas to the one or more lift pins at the pressure setting after the semiconductor wafer has been raised to an extended configuration. 17. The wafer lift pin system of claim 15, wherein the proportional valve, to determine the pressure of the supply of the gas to the one or more lift pins, is configured to: determine the pressure of the supply of the gas to the one or more lift pins based on pressure sensor data generated by another pressure sensor associated with the proportional valve. 18. The wafer lift pin system of claim 15, wherein the controller is further configured to: determine the pressure setting to achieve a particular rise time for raising the semiconductor wafer. 19. The wafer lift pin system of claim 18, wherein the controller, to determine the pressure setting to achieve the particular rise time for raising the semiconductor wafer, is configured to: determine the pressure setting to compensate for elastic fatigue of springs included in the one or more lift pins. 20. The wafer lift pin system of claim 15, wherein the controller is further configured to: determine the pressure setting based on data associated with the one or more lift pins indicating historical rise times and associated pressures for the one or more lift pins.
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