摘要:
A substrate heater comprising a ceramic substrate support having a substantially flat upper surface for supporting a substrate during substrate processing; a resistive heater embedded within the substrate support; a heater shaft coupled to a back surface of the substrate support, the heater having an interior cavity that extends along its longitudinal axis and ends at a bottom central surface of the substrate support; and a supplemental heater, separate from the ceramic substrate support, positioned within the interior cavity of the heater shaft in thermal contact with a portion of the bottom central surface of the substrate support such that the supplemental heater can alter the temperature of a central area of the upper surface of the substrate support.
摘要:
A substrate processing chamber for processing a plurality of wafers in batch mode. In one embodiment the chamber includes a vertically aligned housing having first and second processing areas separated by an internal divider, the first processing area positioned directly over the second processing area; a multi-zone heater operatively coupled to the housing to heat the first and second processing areas independent of each other; a wafer transport adapted to hold a plurality of wafers within the processing chamber and move vertically between the first and second processing areas; a gas distribution system adapted to introduce ozone into the second area and steam into the first processing area; and a gas exhaust system configured to exhaust gases introduced into the first and second processing areas.
摘要:
A substrate processing system that has a plurality of deposition chambers, and one or more robotic arms for moving a substrate between one or more of a deposition chamber, load lock holding area, and a curing and treatment module. The substrate curing and treatment module is attached to the load-lock substrate holding area, and may include: The curing chamber for curing a dielectric layer in an atmosphere comprising ozone, and a treatment chamber for treating the cured dielectric layer in an atmosphere comprising water vapor. The chambers may be vertically aligned, have one or more access doors, and may include a heating system to adjust the curing and/or heating chambers between two or more temperatures respectively.
摘要:
A substrate processing chamber for processing a plurality of wafers in batch mode. In one embodiment the chamber includes a vertically aligned housing having first and second processing areas separated by an internal divider, the first processing area positioned directly over the second processing area; a multi-zone heater operatively coupled to the housing to heat the first and second processing areas independent of each other; a wafer transport adapted to hold a plurality of wafers within the processing chamber and move vertically between the first and second processing areas; a gas distribution system adapted to introduce ozone into the second area and steam into the first processing area; and a gas exhaust system configured to exhaust gases introduced into the first and second processing areas.
摘要:
A substrate processing system that has a plurality of deposition chambers, and one or more robotic arms for moving a substrate between one or more of a deposition chamber, load lock holding area, and a curing and treatment module. The substrate curing and treatment module is attached to the load-lock substrate holding area, and may include: The curing chamber for curing a dielectric layer in an atmosphere comprising ozone, and a treatment chamber for treating the cured dielectric layer in an atmosphere comprising water vapor. The chambers may be vertically aligned, have one or more access doors, and may include a heating system to adjust the curing and/or heating chambers between two or more temperatures respectively.
摘要:
A semiconductor processing system is described. The system includes a processing chamber having an interior capable of holding an internal chamber pressure below ambient atmospheric pressure. The system also includes a pumping system coupled to the chamber and adapted to remove material from the processing chamber. The system further includes a substrate support pedestal, where the substrate support pedestal is rigidly coupled to a substrate support shaft extending through a wall of the processing chamber. A bracket located outside the processing chamber is provided which is rigidly and sometimes rotatably coupled to the substrate support shaft. A motor coupled to the bracket can be actuated to vertically translate the substrate support pedestal, shaft and bracket from a first position to a second position closer to a processing plate. A piston mounted on an end of the bracket provides a counter-balancing force to a tilting force, where the tilting force is generated by a change in the internal chamber pressure and causes a deflection in the position of the bracket and the substrate support. The counter-balancing force reduces the deflection of the bracket and the substrate support.
摘要:
Substrate processing systems are described. The systems may include a processing chamber, and a substrate support assembly at least partially disposed within the chamber. The substrate support assembly is rotatable by a motor yet still allows electricity, cooling fluids, gases and vacuum to be transferred from a non-rotating source outside the processing chamber to the rotatable substrate support assembly inside the processing chamber. Cooling fluids and electrical connections can be used to raise or lower the temperature of a substrate supported by the substrate support assembly. Electrical connections can also be used to electrostatically chuck the wafer to the support assembly. A rotary seal or seals (which may be low friction O-rings) are used to maintain a process pressure while still allowing substrate assembly rotation. Vacuum pumps can be connected to ports which are used to chuck the wafer. The pumps can also be used to differentially pump the region between a pair of rotary seals when two or more rotary seals are present.
摘要:
Substrate processing systems are described that have a capacitively coupled plasma (CCP) unit positioned inside a process chamber. The CCP unit may include a plasma excitation region formed between a first electrode and a second electrode. The first electrode may include a first plurality of openings to permit a first gas to enter the plasma excitation region, and the second electrode may include a second plurality of openings to permit an activated gas to exit the plasma excitation region. The system may further include a gas inlet for supplying the first gas to the first electrode of the CCP unit, and a pedestal that is operable to support a substrate. The pedestal is positioned below a gas reaction region into which the activated gas travels from the CCP unit.
摘要:
Substrate processing systems are described that have a capacitively coupled plasma (CCP) unit positioned inside a process chamber. The CCP unit may include a plasma excitation region formed between a first electrode and a second electrode. The first electrode may include a first plurality of openings to permit a first gas to enter the plasma excitation region, and the second electrode may include a second plurality of openings to permit an activated gas to exit the plasma excitation region. The system may further include a gas inlet for supplying the first gas to the first electrode of the CCP unit, and a pedestal that is operable to support a substrate. The pedestal is positioned below a gas reaction region into which the activated gas travels from the CCP unit.
摘要:
Apparatus and methods for gas distribution assemblies are provided. In one aspect, a gas distribution assembly is provided comprising an annular body comprising an annular ring having an inner annular wall, an outer wall, an upper surface, and a bottom surface, an upper recess formed into the upper surface, and a seat formed into the inner annular wall, an upper plate positioned in the upper recess, comprising a disk-shaped body having a plurality of first apertures formed therethrough, and a bottom plate positioned on the seat, comprising a disk-shaped body having a plurality of second apertures formed therethrough which align with the first apertures, and a plurality of third apertures formed between the second apertures and through the bottom plate, the bottom plate sealingly coupled to the upper plate to fluidly isolate the plurality of first and second apertures from the plurality of third apertures.