A power supply system for a plasma process includes two separate power supplies of essentially identical performance characteristics, including a first power supply and a second power supply, and a data transfer connection operably coupling the two power supplies for data communication between the two power supplies. The first power supply is configured to: receive, in a standby mode, data via the data transfer connection from the second power supply supplying power to a plasma process in a normal operating mode, and supply, in an active backup mode, power to the plasma process in place of the second power supply, as a function of the received data. The first power supply can supply in the active backup mode to the plasma process the power having one or more characteristics that are substantially the same as those of the power provided by the second power supply in the normal operating mode.

A method for monitoring at least one process parameter of a plasma process being performed on a semiconductor wafer, surface or surface and determine arc events occurring within the plasma tool chamber. The method comprises the steps of detecting the modulated light being generated from the plasma sheath during the plasma process; sampling RF voltage and current signals from the RF transmission line; processing the detected modulated light and the RF signals to produce at least one monitor statistic for the plasma process, and process the monitor signal to determine the occurrence of arcing events during the wafer processing.

Embodiments relate to a grid short clearing system is provided for gridded ion beam sources used in industrial applications for materials processing systems that reduces grid damage during operation. In various embodiments, the ion source is coupled to a process chamber and a grid short clearing system includes methods for supplying a gas to the process chamber and setting the gas pressure to a predetermined gas pressure in the range between 50 to 750 Torr, applying an electrical potential difference between each adjacent pair of grids using a current-limited power supply, and detecting whether or not the grid shorts are cleared. The electrical potential difference between the grids is at least 10% lower than the DC electrical breakdown voltage between the grids with no contaminants.

A method of detecting plasma asymmetry in a radio frequency plasma processing system, the method including providing a radio frequency power to a reaction chamber having an approximate chamber symmetry axis and receiving from a plurality of broadband electromagnetic sensors a radio frequency signal. The method also including processing the radio frequency signals using Fourier analysis and determining based on the Fourier analysis of the radio frequency signals that a plasma asymmetry has occurred within the reaction chamber.

An arc treatment device includes an arc detector operable to detect whether an arc is present in a plasma chamber, an arc energy determiner operable to determine an arc energy value based on an energy supplied to the plasma chamber while the arc is present in the plasma chamber, and a break time determiner operable to determine a break time based on the determined arc energy value.

Methods, apparatus and systems for detecting an arc during supplying a plasma process in a plasma chamber with a power are provided. An example plasma power supply includes: a DC source, an output signal generator, a first signal sequence measurement device for measuring a first signal sequence present between the DC source and the output signal generator, a second signal sequence measurement device for measuring a second signal sequence present at an output of the output signal generator, and a controller configured to generate a reference signal sequence based on one of the first and second signal sequences, to compare the reference signal sequence and the other of the first and second signal sequences that has not been used to determine the reference signal sequence, and to generate a detection signal if the reference signal sequence and the other of the first and second signal sequences cross.

In particular embodiments, anomalous plasma events, which may include formation of an electric arc in a semiconductor processing chamber, may be detected and mitigated. In certain embodiments, a method may include detecting an optical signal emitted by a plasma, converting the optical signal to a voltage signal, and forming an adjusted voltage signal. Responsive to determining that the changes associated with the adjusted voltage signal exceed a threshold, an output power of an RF signal coupled to the chamber may be adjusted. Such adjustment may mitigate formation of the anomalous plasma event occurring within the chamber.

An RF plasma generator configured to ignite and maintain a plasma from one or more processing gases is disclosed. A switch mode power supply is configured to convert a DC voltage from a DC power source to an RF voltage. A resonance circuit is configured to deliver an amount of power to an ignited plasma from the switch mode power supply. A plasma controller is configured to operate the power supply to apply an RF voltage corresponding to the amount of power to the one or more processing gases through the resonance circuit. The RF voltage increases in amplitude and decreases in frequency until the one or more processing gasses are ignited into a plasma. Responsive to detecting ignition of the plasma, the plasma controller is further configured to continuously adjust the frequency of the switch mode power supply to deliver the amount of power to the ignited plasma. The amount of power is a substantially constant amount of power.

An apparatus for generating sputtering of a target to produce a coating on a substrate is provided. The apparatus has a magnetron including a cathode and an anode. A power supply is operably connected to the magnetron and at least one capacitor is operably connected to the power supply. The apparatus also includes an inductance operably connected to the at least one capacitor. A first switch and a second switch are also provided. The first switch operably connects the power supply to the magnetron to charge the magnetron and the first switch is configured to charge the magnetron according to a first pulse. The second switch is operably connected to discharge the magnetron. The second switch is configured to discharge the magnetron according to a second pulse.

The present disclosure relates to plasma generation systems particularly applicable to systems which utilize plasma for semiconductor processing. A plasma generation system consistent with the present disclosure includes an arc suppression device coupled to the RF generator. The arc device includes switches that engage upon a triggering signal. In addition, the arc device includes a power dissipater to be engaged by the set of switches to dissipate both stored and delivered energy when the set of switches engage. The arc suppression device also includes an impedance transformer coupled to the power dissipater to perform an impedance transformation that, when the switches are engaged in conjunction with the power dissipater, reduces the reflection coefficient at the input of the device. The plasma generation system further includes a matching network coupled to the radio frequency generator and a plasma chamber coupled to the matching network.