Abstract: Plasma processing systems and power delivery methods are disclosed. A system may comprise at least one modulating supply that modulates plasma properties where the modulation of the plasma properties has a repetition period, T. Electrical characteristics of an output of the modulating supply are monitored and provided to a controller where the electrical characteristics are analyzed. Characteristics of a waveform with the repetition period T are communicated to at least one piece of equipment connected to plasma processing system to enable synchronization of pieces of equipment connected to the plasma processing system. And in addition, instructions are relayed to the modulating supply and a match network, based on the analyzing of the electrical characteristics, enabling simultaneous tuning of the modulating supply and the match network.

Abstract: Plasma processing systems and power delivery methods are disclosed. A system may comprise at least one modulating supply that modulates plasma properties where the modulation of the plasma properties has a repetition period, T. Electrical characteristics of an output of the modulating supply are monitored and provided to a controller where the electrical characteristics are analyzed. Characteristics of a waveform with the repetition period T are communicated to at least one piece of equipment connected to plasma processing system to enable synchronization of pieces of equipment connected to the plasma processing system. And in addition, instructions are relayed to the modulating supply and a match network, based on the analyzing of the electrical characteristics, enabling simultaneous tuning of the modulating supply and the match network.

Abstract: The present disclosure discusses a power delivery system, and methods of operation, configured to monitor characteristics of a generator, a match network, and a plasma load, via one or more sensors, and control these components via a local controller in order to improve power delivery accuracy and consistency to the plasma load. Control can be based on a unified monitoring of power characteristics in the power delivery system as well as variations between components and even non-electrical characteristics such as plasma density, end point, and spectral components of plasma light emission, to name a few.

Abstract: A sensor module may be formed including a core of ferromagnetic material associated with a wire coil forming a passive inductor resonant circuit, which may be used in temperature sensor modules and pressure sensor modules suitable for use in high temperature, high pressure, and corrosive environments. The passive inductor resonant circuits of the sensors may be tuned such that its resonant frequency is in a bounded frequency band interrogable with an electromagnetic energy signal having a frequency of less than or equal to about 10 MHz. Such sensors may be disposed in series in a sensor array, interrogable with an interrogation module, where the interrogation module may demultiplex, the frequencies of the multiple sensors to determine the environmental conditions sensed by the individual sensors.

Abstract: The present disclosure discusses a power delivery system, and methods of operation, configured to monitor characteristics of a generator, a match network, and a plasma load, via one or more sensors, and control these components via a local controller in order to improve power delivery accuracy and consistency to the plasma load. Control can be based on a unified monitoring of power characteristics in the power delivery system as well as variations between components and even non-electrical characteristics such as plasma density, end point, and spectral components of plasma light emission, to name a few.

Abstract: The present disclosure discusses a power delivery system, and methods of operation, configured to monitor characteristics of a generator, a match network, and a plasma load, via one or more sensors, and control these components via a local controller in order to improve power delivery accuracy and consistency to the plasma load. Control can be based on a unified monitoring of power characteristics in the power delivery system as well as variations between components and even non-electrical characteristics such as plasma density, end point, and spectral components of plasma light emission, to name a few.

Abstract: The present disclosure discusses a power delivery system, and methods of operation, configured to monitor characteristics of a generator, a match network, and a plasma load, via one or more sensors, and control these components via a local controller in order to improve power delivery accuracy and consistency to the plasma load. Control can be based on a unified monitoring of power characteristics in the power delivery system as well as variations between components and even non-electrical characteristics such as plasma density, end point, and spectral components of plasma light emission, to name a few.

Abstract: Methods and apparatuses are disclosed for measuring electrical characteristics of power that is applied to a plasma processing chamber when the electrical generator operates in a pulsing mode, when the electrical generator operates in a variable frequency mode, and when the electrical generator operates in both a pulsing mode and in a variable frequency mode concurrently.

Abstract: There is provided a secondary reactive termination circuit connected between the output of the RF power generator and the input of the plasma chamber to allow the tight regulation or limiting of the voltage and current components of the secondary frequencies within the process plasma. The secondary reactive circuit controls the impedance of the match network designed primarily to operate at the fundamental frequency of the RF power generator as seen by secondary frequencies in the system. Power delivery components are measured at the connection point of the termination circuit and used as feedback signals to control variable values of the termination circuit components.

Abstract: There is provided a secondary reactive termination circuit connected between the output of the RF power generator and the input of the plasma chamber to allow the tight regulation or limiting of the voltage and current components of the secondary frequencies within the process plasma. The secondary reactive circuit controls the impedance of the match network designed primarily to operate at the fundamental frequency of the RF power generator as seen by secondary frequencies in the system. A variable capacitor gives the operator the advantage of being able to tightly regulate the voltage, current, and power within a process at discrete frequencies without concern for impedance variability induced by other components in the system.