Abstract: A matching module includes an input terminal connected to an input node, a variable load capacitor, and a plurality of RF signal delivery branches. The input terminal is connected to receive RF signals from one or more RF generators. The load capacitor is connected between the input node and a reference ground potential. Each of the plurality of RF signal delivery branches has a respective ingress terminal connected to the input node and a respective egress terminal connected to a respective one of a plurality of output terminals. Each of the plurality of output terminals of the matching module is connected to deliver RF signals to a different one of a plurality of plasma processing stations/chambers. Each of the plurality of RF signal delivery branches includes a corresponding inductor and a corresponding variable tuning capacitor electrically connected in a serial manner between its ingress terminal and its egress terminal.

Abstract: A pedestal for a substrate processing system includes a pedestal body including a substrate-facing surface. An annular band is arranged on the substrate-facing surface that is configured to support a radially outer edge of the substrate. A cavity is defined in the substrate-facing surface of the pedestal body and is located radially inside of the annular band. The cavity creates a volume between a bottom surface of the substrate and the substrate-facing surface of the pedestal body. A plurality of vents pass though the pedestal body and are in fluid communication with the cavity to equalize pressure on opposing faces of the substrate during processing.

Abstract: A substrate processing system includes a first chamber including a substrate support. A showerhead is arranged above the first chamber and is configured to filter ions and deliver radicals from a plasma source to the first chamber. The showerhead includes a heat transfer fluid plenum, a secondary gas plenum including an inlet to receive secondary gas and a plurality of secondary gas injectors to inject the secondary gas into the first chamber, and a plurality of through holes passing through the showerhead. The through holes are not in fluid communication with the heat transfer fluid plenum or the secondary gas plenum.

Abstract: A matching module includes an input terminal connected to an input node, a variable load capacitor, and a plurality of RF signal delivery branches. The input terminal is connected to receive RF signals from one or more RF generators. The load capacitor is connected between the input node and a reference ground potential. Each of the plurality of RF signal delivery branches has a respective ingress terminal connected to the input node and a respective egress terminal connected to a respective one of a plurality of output terminals. Each of the plurality of output terminals of the matching module is connected to deliver RF signals to a different one of a plurality of plasma processing stations/chambers. Each of the plurality of RF signal delivery branches includes a corresponding inductor and a corresponding variable tuning capacitor electrically connected in a serial manner between its ingress terminal and its egress terminal.

Abstract: A substrate processing system for depositing film on a substrate includes a processing chamber defining a reaction volume. A showerhead includes a stem portion having one end connected adjacent to an upper surface of the processing chamber. A base portion is connected to an opposite end of the stem portion and extends radially outwardly from the stem portion. The showerhead is configured to introduce at least one of process gas and purge gas into the reaction volume. A plasma generator is configured to selectively generate RF plasma in the reaction volume. An edge tuning system includes a collar and a parasitic plasma reducing element that is located around the stem portion between the collar and an upper surface of the showerhead. The parasitic plasma reducing element is configured to reduce parasitic plasma between the showerhead and the upper surface of the processing chamber.

Abstract: A mutually induced filter for filtering radio frequency (RF) power from signals supplied to a load is described. The mutually induced filter includes a first portion connected to a first load element of the load for filtering RF power from one of the signals supplied to the first load element. The load is associated with a pedestal of a plasma chamber. The mutually induced filter further includes a second portion connected to a second load element of the load for filtering RF power from another one of the signals supplied to the second load element. The first and second portions are twisted with each other to be mutually coupled with each other to further facilitate a coupling of a resonant frequency associated with the first portion to the second portion.

Abstract: An isolation system includes an input junction coupled to one or more RF power supplies via a match network for receiving radio frequency (RF) power. The isolation system further includes a plurality of channel paths connected to the input junction for distributing the RF power among the channel paths. The isolation system includes an output junction connected between each of the channel paths and to an electrode of a plasma chamber for receiving portions of the distributed RF power to output combined power and providing the combined RF power to the electrode. Each of the channel paths includes bottom and top capacitors for blocking a signal of the different type than that of the RF power. The isolation system avoids a risk of electrical arcing created by a voltage difference between an RF terminal and a non-RF terminal when the terminals are placed proximate to each other.

Abstract: A pedestal for a substrate processing system includes a pedestal body including a substrate-facing surface. An annular band is arranged on the substrate-facing surface that is configured to support a radially outer edge of the substrate. A cavity is defined in the substrate-facing surface of the pedestal body and is located radially inside of the annular band. The cavity creates a volume between a bottom surface of the substrate and the substrate-facing surface of the pedestal body. A plurality of vents pass through the pedestal body and are in fluid communication with the cavity to equalize pressure on opposing faces of the substrate during processing.

Abstract: A method for processing a substrate in a substrate processing system includes flowing reactant gases into a process chamber including a substrate and supplying a first power level sufficient to promote rearrangement of molecules adsorbed from the reactant gases onto a surface of the substrate. The first power level is supplied in a first predetermined period where the reactant gases are flowing into the process chamber and a second power level is not supplied to the process chamber. The method further includes waiting a second predetermined period subsequent to flowing the reactant gases and supplying the first power level and prior to supplying the second power level to the process chamber and, after the second predetermined period, performing plasma-enhanced, pulsed chemical vapor deposition of film on the substrate by supplying one or more precursors while supplying the second power level to the process chamber for a third predetermined period.

Abstract: An isolation system includes an input junction coupled to one or more RF power supplies via a match network for receiving radio frequency (RF) power. The isolation system further includes a plurality of channel paths connected to the input junction for distributing the RF power among the channel paths. The isolation system includes an output junction connected between each of the channel paths and to an electrode of a plasma chamber for receiving portions of the distributed RF power to output combined power and providing the combined RF power to the electrode. Each of the channel paths includes bottom and top capacitors for blocking a signal of the different type than that of the RF power. The isolation system avoids a risk of electrical arcing created by a voltage difference between an RF terminal and a non-RF terminal when the terminals are placed proximate to each other.

Abstract: A charge volume configuration for use in delivery of gas to a reactor for processing semiconductor wafers is provided. A charge volume includes a chamber that extends between a proximal end and a distal end. A base connected to the proximal end of the chamber, and the base includes an inlet port and an outlet port. A tube is disposed within the chamber. The tube has a tube diameter that is less than a chamber diameter. The tube has a connection end coupled to the inlet port at the proximal end of the chamber and an output end disposed at the distal end of the chamber.

Abstract: An isolation system includes an input junction coupled to one or more RF power supplies via a match network for receiving radio frequency (RF) power. The isolation system further includes a plurality of channel paths connected to the input junction for distributing the RF power among the channel paths. The isolation system includes an output junction connected between each of the channel paths and to an electrode of a plasma chamber for receiving portions of the distributed RF power to output combined power and providing the combined RF power to the electrode. Each of the channel paths includes bottom and top capacitors for blocking a signal of the different type than that of the RF power. The isolation system avoids a risk of electrical arcing created by a voltage difference between an RF terminal and a non-RF terminal when the terminals are placed proximate to each other.

Abstract: System and methods for processing a substrate using a reactor with multiple heating zones and control of said heating zones using a common terminal shared between two power supplies are provided. The reactor includes a heater assembly for supporting the substrate and a showerhead for supplying process gases into the reactor. An inner heater and an outer heater are integrated in the heater assembly. An inner power supply has a positive terminal connected to a first end of the inner heater and a negative terminal is connected to a second end of the inner heater that is coupled to a common terminal. An outer power supply has a positive terminal connected to a first end of the outer heater and a negative terminal connected to a second end of the outer heater that is coupled to the common terminal. A common-terminal heater module is configured to receive a measured temperature that is proximate to the inner heater.

Abstract: A line charge volume and methods for use in delivery of gas to a reactor for processing semiconductor wafers is provided. The line charge volume includes a chamber that extends between a first end and a second end, and the first end includes an inlet port and an outlet port. A pressure sensor is integrated with the chamber. The pressure sensor has a measurement side for measuring a deflection of a diaphragm. The diaphragm is directly exposed to an interior of the chamber so that pressure produced by a gas that is provided into the chamber via the inlet port produces a force upon the diaphragm. The measurement side includes electronics for measuring a capacitance value corresponding to the deflection of the diaphragm. The deflection is correlated to a pressure difference, and the pressure difference is equivalent to a pressure volume (Pv) of the chamber.

Abstract: A deposition apparatus for processing substrates includes a vacuum chamber including a processing zone in which a substrate may be processed. First and second gas sources are in fluid communication with the vacuum chamber. The first gas source is operable to supply a first gas into the vacuum chamber and the second gas source is operable to supply a second gas into the vacuum chamber. A showerhead assembly includes a face plate and back plate. The back plate includes a first gas inlet in fluid communication with the first gas source and a second gas inlet in fluid communication with the second gas source. The face plate includes a lower wall and an outer wall extending vertically upwardly from an outer periphery of the lower wall. The outer wall is sealed to an outer periphery of the back plate such that an inner plenum and an edge plenum are formed between the face plate and the back plate.

Abstract: A system for reducing parasitic plasma in a semiconductor process comprises a first surface and a plurality of dielectric layers that are arranged between an electrode and the first surface. The first surface and the electrode have substantially different electrical potentials. The plurality of dielectric layers defines a first gap between the electrode and one of the plurality of dielectric layers, a second gap between adjacent ones of the plurality of dielectric layers, and a third gap between a last one of the plurality of dielectric layers and the first surface. A number of the plurality of dielectric layers and sizes of the first gap, the second gap and the third gap are selected to prevent parasitic plasma between the first surface and the electrode during the semiconductor process.

Abstract: An apparatus includes a base having first and second inlets. Inner and outer cylinders are disposed on the base, with the outer cylinder being concentric with the inner cylinder. An inner surface of the inner cylinder defines an internal volume. An outer surface of the inner cylinder and an inner surface of the outer cylinder define a chamber space. An ultraviolet lamp is disposed within the internal volume. A top cover is positioned over the inner and outer cylinders and in a sealing relationship with the cylinders. The top cover has a first passageway in flow communication with the chamber space, and a second passageway in flow communication with the internal volume. The first inlet is in flow communication with the chamber space and the second inlet is in flow communication with the internal volume. A system including a process chamber and an ammonia radical generator also is described.

Abstract: A generator for processing gases to be delivered to a process chamber used to process a substrate includes a housing that encloses an internal volume. An ultraviolet (UV) bulb is disposed within the internal volume of the housing. The UV bulb has a bulb diameter that fits within the internal major dimension of the housing. A first region, which surrounds the UV bulb, channels a first gas around the UV bulb to cool the UV bulb. A second region, which surrounds the first region, channels a second gas between an input to and an output from the housing. The second region is oriented relative to the UV bulb such that UV energy therefrom interacts with the second gas as this gas flows through the second region. The interaction of the UV energy with the second gas results in the generation of a gas mix that is supplied from the output of the housing into the process chamber, where at least one component of the gas mix is to be used in processing of the semiconductor substrate.

Abstract: A mutually induced filter for filtering radio frequency (RF) power from signals supplied to a load is described. The mutually induced filter includes a first portion connected to a first load element of the load for filtering RF power from one of the signals supplied to the first load element. The load is associated with a pedestal of a plasma chamber. The mutually induced filter further includes a second portion connected to a second load element of the load for filtering RF power from another one of the signals supplied to the second load element. The first and second portions are twisted with each other to be mutually coupled with each other to further facilitate a coupling of a resonant frequency associated with the first portion to the second portion.

Abstract: An isolation system includes an input junction coupled to one or more RF power supplies via a match network for receiving radio frequency (RF) power. The isolation system further includes a plurality of channel paths connected to the input junction for distributing the RF power among the channel paths. The isolation system includes an output junction connected between each of the channel paths and to an electrode of a plasma chamber for receiving portions of the distributed RF power to output combined power and providing the combined RF power to the electrode. Each of the channel paths includes bottom and top capacitors for blocking a signal of the different type than that of the RF power. The isolation system avoids a risk of electrical arcing created by a voltage difference between an RF terminal and a non-RF terminal when the terminals are placed proximate to each other.