A measurement system to measure at least one of a height and a thickness of an edge ring in a plasma processing chamber includes an ultrasound transducer configured to output an ultrasound signal into the edge ring and to receive a reflected signal from the edge ring. A controller is configured to cause the ultrasound transducer to generate the ultrasound signal and to determine a thickness of the edge ring based on timing of the ultrasound signal and the reflected signal.

A plasma ignition circuit includes a transformer having a primary coil configured to couple an RF power supply. A first secondary coil is configured to couple a remote plasma source (RPS), and a second secondary coil. The plasma ignition circuit further includes a control switch having an input configured to couple the second secondary coil and an output configured to capacitively couple the RPS and a switch controller. The switch controller is configured to upon sensing a secondary RF voltage applied to the second secondary coil in response to an RF voltage applied by RF power supply to the primary coil, enable the control switch to capacitively apply the secondary RF voltage to the RPS to ignite a plasma within the RPS. Upon sensing a drop in plasma impedance when the plasma is ignited, disable the control switch to discontinue applying the secondary RF voltage to the RPS.

A plasma processing apparatus includes: a plasma processing chamber; a radio frequency power source; a sample stage on which a sample is mounted; an electrode which is arranged inside the sample stage and electrostatically chucks the sample; a DC power source which applies a DC voltage to the electrode; and a control device which controls an output voltage of the DC power source so that an electric potential difference between an electric potential of the sample and an electric potential of an inner wall of the plasma processing chamber is reduced to an electric potential difference within a predetermined range during interruption of plasma discharge.

A recipe updating method of a plasma processing apparatus includes: performing a plasma processing on a substrate mounted on a stage using a first recipe including an application timing of a radio-frequency power for plasma generation; measuring a reference timing at which a temperature of the stage drops to a minimum value and a first maximum value of the temperature of the stage in association with the first recipe; performing the plasma processing on the substrate using a second recipe obtained by changing the application timing of the first recipe to the reference timing; measuring a second maximum value of the temperature of the stage in association with the second recipe; and updating the first recipe to the second recipe when the second maximum value is smaller than the first maximum value.

Embodiments disclosed herein include a substrate support having a sensor assembly, and processing chamber having the same. In one embodiment, a substrate support has a puck. The puck has a workpiece support surface and a gas hole exiting the workpiece support surface. A sensor assembly is disposed in the gas hole and configured to detect a metric indicative of a deflection of a workpiece disposed on the workpiece support surface, wherein the sensor assembly is configured to allow gas to flow past the sensor assembly when positioned in the gas hole.

A fabrication system for fabricating IC is provided. A processing tool includes at least one electrode and a RF sensor. The electrode is configured to receive a radio frequency (RF) signal from an RF signal generator during first and second semiconductor manufacturing processes. The RF sensor wirelessly detects intensity of the RF signal. A computation device extracts statistical characteristics with a sampling rate based on the detected intensity of the RF signal. A fault detection and classification (FDC) system includes a processor. The processor is configured to determine whether or not the detected intensity of the RF signal exceeds a threshold value or a threshold range according to the extracted statistical characteristics. When the detected intensity of the RF signal exceeds the threshold value or the threshold range, the processor notifies the processing tool to adjust the RF signal or stop tool to check parts damage.

Systems and methods are provided for positioning a wafer in relation to a datum structure. In one example, a system comprises a camera arrangement including at least two cameras, each of the at least two cameras including a field of view when positioned in the camera arrangement, each field of view including a peripheral edge of the wafer and a peripheral edge of the datum structure. A processor receives positional data from each of the at least two cameras and determines, in relation to each field of view, a gap size between the respective peripheral edges of the wafer and the datum location included in the respective field of view. A controller adjusts a position of the wafer relative to the datum structure based on the determined respective gap sizes.

Provided is a structure variable type of a plasma source coil and a method for controlling the same. The plasma source coil comprises a plurality of coil branches extending in a spiral shape based on a central part, wherein at least one coil branch has a structure in which the extending direction or a tilting level can be adjusted.

Broadly speaking, the present techniques provide a method and system for controlling a wafer production process in real-time using a trained machine learning, ML, model. Advantageously, the ML model uses multiple sensed parameters to determine a state of a plasma used in the wafer production process, and this can be used to adjust at least one control parameter of a plasma reactor used in the wafer production process to reduce process variability.

Systems and methods for controlling a plasma sheath characteristic are described. One of the methods includes determining a first value of the plasma sheath characteristic of a plasma sheath formed within a plasma chamber. The method further includes determining whether the first value of the plasma sheath characteristic is within a predetermined range from a preset value of the plasma sheath characteristic. The method also includes modifying a variable of a radio frequency (RF) generator coupled to the plasma chamber via an impedance matching circuit upon determining that the first value is not within the predetermined range from the preset value. The operation of modifying the variable of the RF generator is performed until it is determined that the first value of the plasma sheath characteristic is within the predetermined range from the preset value.