Abstract: Embodiments disclosed herein include a sensor assembly. In an embodiment, the sensor assembly comprises a sensor module and a housing assembly. In an embodiment, the sensor module comprises a substrate, a capacitor with a first electrode and a second electrode on the substrate, and a capacitive-to-digital converter (CDC) electrically coupled to the first electrode and the second electrode. In an embodiment, the housing assembly is attached to the sensor module and comprises a shaft, wherein the shaft is hollow, and a cap over a first end of the shaft, wherein the cap has an opening to expose the capacitor.

Abstract: The present disclosure generally relates to a method and apparatus for determining a metric related to erosion of a ring assembly used in an etching within a plasma processing chamber. In one example, the apparatus is configured to obtain a metric indicative of erosion on an edge ring disposed on a substrate support assembly in a plasma processing chamber. A sensor obtains the metric for the edge ring. The metric correlates to the quantity of erosion in the edge ring. In another example, the ring sensor may be arranged outside of a periphery of a substrate support assembly. The metric may be acquired by the ring sensor through a plasma screen.

Abstract: The present disclosure generally relates to a method and apparatus for determining a metric related to erosion of a ring assembly used in an etching within a plasma processing chamber. In one example, the apparatus is configured to obtain a metric indicative of erosion on an edge ring disposed on a substrate support assembly in a plasma processing chamber. A sensor obtains the metric for the edge ring. The metric correlates to the quantity of erosion in the edge ring. In another example, the ring sensor may be arranged outside of a periphery of a substrate support assembly. The metric may be acquired by the ring sensor through a plasma screen.

Abstract: Capacitive sensors and capacitive sensing data integration for plasma chamber condition monitoring are described. In an example, a plasma chamber monitoring system includes a plurality of capacitive sensors, a capacitance digital converter, and an applied process server coupled to the capacitance digital converter, the applied process server including a system software. The capacitance digital converter includes an isolation interface coupled to the plurality of capacitive sensors, a power supply coupled to the isolation interface, a field-programmable gate-array firmware coupled to the isolation interface, and an application-specific integrated circuit coupled to the field-programmable gate-array firmware.

Abstract: Capacitive sensors and capacitive sensing data integration for plasma chamber condition monitoring are described. In an example, a plasma chamber monitoring system includes a plurality of capacitive sensors, a capacitance digital converter, and an applied process server coupled to the capacitance digital converter, the applied process server including a system software. The capacitance digital converter includes an isolation interface coupled to the plurality of capacitive sensors, a power supply coupled to the isolation interface, a field-programmable gate-array firmware coupled to the isolation interface, and an application-specific integrated circuit coupled to the field-programmable gate-array firmware.

Abstract: Embodiments disclosed herein comprise a sensor. In an embodiment, the sensor comprises a substrate having a first surface and a second surface opposite from the first surface. In an embodiment, the sensor further comprises a first electrode over the first surface of the substrate, and a second electrode over the first surface of the substrate and adjacent to the first electrode. In an embodiment, the sensor further comprises a barrier layer over the first electrode and the second electrode.

Abstract: Embodiments described herein include a resonant process monitor and methods of forming such a resonant process monitor. In an embodiment, the resonant process monitor includes a frame that has a first opening and a second opening. In an embodiment, a resonant body seals the first opening of the frame. In an embodiment, a first electrode on a first surface of the resonant body contacts the frame and a second electrode is on a second surface of the resonant body. Embodiments also include a back plate that seals the second opening of the frame. In an embodiment the back plate is mechanically coupled to the frame, and the resonant body, the back plate, and interior surfaces of the frame define a cavity.

Abstract: Capacitive sensors and capacitive sensing data integration for plasma chamber condition monitoring are described. In an example, a plasma chamber monitoring system includes a plurality of capacitive sensors, a capacitance digital converter, and an applied process server coupled to the capacitance digital converter, the applied process server including a system software. The capacitance digital converter includes an isolation interface coupled to the plurality of capacitive sensors, a power supply coupled to the isolation interface, a field-programmable gate-array firmware coupled to the isolation interface, and an application-specific integrated circuit coupled to the field-programmable gate-array firmware.

Abstract: Embodiments disclosed herein include a sensor assembly. In an embodiment, the sensor assembly comprises a sensor module and a housing assembly. In an embodiment, the sensor module comprises a substrate, a capacitor with a first electrode and a second electrode on the substrate, and a capacitive-to-digital converter (CDC) electrically coupled to the first electrode and the second electrode. In an embodiment, the housing assembly is attached to the sensor module and comprises a shaft, wherein the shaft is hollow, and a cap over a first end of the shaft, wherein the cap has an opening to expose the capacitor.

Abstract: Embodiments disclosed herein include a sensor assembly. In an embodiment, the sensor assembly comprises a sensor module and a housing assembly. In an embodiment, the sensor module comprises a substrate, a capacitor with a first electrode and a second electrode on the substrate, and a capacitive-to-digital converter (CDC) electrically coupled to the first electrode and the second electrode. In an embodiment, the housing assembly is attached to the sensor module and comprises a shaft, wherein the shaft is hollow, and a cap over a first end of the shaft, wherein the cap has an opening to expose the capacitor.

Abstract: Capacitive sensors and capacitive sensing data integration for plasma chamber condition monitoring are described. In an example, a plasma chamber monitoring system includes a plurality of capacitive sensors, a capacitance digital converter, and an applied process server coupled to the capacitance digital converter, the applied process server including a system software. The capacitance digital converter includes an isolation interface coupled to the plurality of capacitive sensors, a power supply coupled to the isolation interface, a field-programmable gate-array firmware coupled to the isolation interface, and an application-specific integrated circuit coupled to the field-programmable gate-array firmware.

Abstract: Embodiments disclosed herein include a sensor assembly. In an embodiment, the sensor assembly comprises a sensor module and a housing assembly. In an embodiment, the sensor module comprises a substrate, a capacitor with a first electrode and a second electrode on the substrate, and a capacitive-to-digital converter (CDC) electrically coupled to the first electrode and the second electrode. In an embodiment, the housing assembly is attached to the sensor module and comprises a shaft, wherein the shaft is hollow, and a cap over a first end of the shaft, wherein the cap has an opening to expose the capacitor.

Abstract: Embodiments disclosed herein comprise a sensor. In an embodiment, the sensor comprises a substrate having a first surface and a second surface opposite from the first surface. In an embodiment, the sensor further comprises a first electrode over the first surface of the substrate, and a second electrode over the first surface of the substrate and adjacent to the first electrode. In an embodiment, the sensor further comprises a barrier layer over the first electrode and the second electrode.

Abstract: Capacitive sensors and capacitive sensing locations for plasma chamber condition monitoring are described. In an example, a plasma processing chamber includes a chamber wall surrounding a processing region. A chamber lid is over the chamber wall and above the processing region. A chamber floor is beneath the chamber wall and below the processing region. A support pedestal is in the processing region and below the chamber lid and above the chamber floor, and the support pedestal surrounded by the chamber wall. A capacitive sensor module can be in an opening of the chamber wall. The chamber lid can include a capacitive sensor module. The chamber floor can include an evacuation port and a capacitive sensor module within or adjacent to the evacuation port. The support pedestal can include a ring structure surrounding a substrate support region, and a capacitive sensor module in an opening of the ring structure.

Abstract: The present disclosure generally relates to a method and apparatus for determining a metric related to erosion of a ring assembly used in an etching within a plasma processing chamber. In one example, the apparatus is configured to obtain a metric indicative of erosion on an edge ring disposed on a substrate support assembly in a plasma processing chamber. A sensor obtains the metric for the edge ring. The metric correlates to the quantity of erosion in the edge ring. In another example, the ring sensor may be arranged outside of a periphery of a substrate support assembly. The metric may be acquired by the ring sensor through a plasma screen.

Abstract: Embodiments described herein include a resonant process monitor and methods of forming such a resonant process monitor. In an embodiment, the resonant process monitor includes a frame that has a first opening and a second opening. In an embodiment, a resonant body seals the first opening of the frame. In an embodiment, a first electrode on a first surface of the resonant body contacts the frame and a second electrode is on a second surface of the resonant body. Embodiments also include a back plate that seals the second opening of the frame. In an embodiment the back plate is mechanically coupled to the frame, and the resonant body, the back plate, and interior surfaces of the frame define a cavity.