Abstract: A gas distribution system is disclosed in order to obtain better film uniformity on a substrate in a cross-flow reactor. The better film uniformity may be achieved by an asymmetric bias on individual injection ports of the gas distribution system. The gas distribution may allow for varied tunability of the film properties.

Abstract: A gas distribution system is disclosed in order to obtain better film uniformity on a substrate in a cross-flow reactor. The better film uniformity may be achieved by an asymmetric bias on individual injection ports of the gas distribution system. The gas distribution may allow for varied tunability of the film properties.

Abstract: A gas distribution system is disclosed in order to obtain better film uniformity on a substrate in a cross-flow reactor. The better film uniformity may be achieved by an asymmetric bias on individual injection ports of the gas distribution system. The gas distribution may allow for varied tunability of the film properties.

Abstract: A gas distribution system is disclosed in order to obtain better film uniformity on a substrate in a cross-flow reactor. The better film uniformity may be achieved by an asymmetric bias on individual injection ports of the gas distribution system. The gas distribution may allow for varied tunability of the film properties.

Abstract: A method and system are disclosed for verifying the flow rate of gas through a mass flow controller, such as a mass flow controller used with a tool for semiconductor or solar cell fabrication. To verify the mass flow rate measured by the mass flow controller, gas passing through the mass flow controller is also passed through a mass flow meter. The measured flow rate through the mass flow controller is compared to the measured flow rate through the mass flow meter and any difference between the two measured flow rates is determined. Depending upon the magnitude of any difference, the flow of gas to the mass flow controller may be altered.

Abstract: Methods and systems for calibrating a temperature control system in a vapor deposition chamber. A temperature sensor senses temperature within a semiconductor processing chamber and generates an output signal. A temperature control system controls a chamber temperature by controlling a heating apparatus based on the output signal. A method includes instructing the control system to target a setpoint temperature, and depositing a layer of material onto a surface in the chamber by a vapor deposition process. A variation of a property of the layer is measured while depositing the layer, the property known to vary cyclically as a thickness of the layer increases. The measured property is allowed to vary cyclically for one or more cycles. If there is a difference between a time period of one or more of the cycles and an expected time period associated with the setpoint temperature, the temperature control system is adjusted based on the difference.

Abstract: An electric implement lift system for mower cutting units may include an electric motor having a rotatable output shaft with a pivot bracket mounted thereto, a lift link or a pair of lift links, each lift link having a first end connected to the pivot bracket and a second end connected to a lift arm, the output shaft rotatable in a first direction to raise the mower cutting unit and in a second direction to lower the mower cutting unit. The output shaft may be rotatable in the first direction to move the cutting unit to a top/center position and rotatable further in the first direction to move the cutting unit to a raised/transport position.

Abstract: Methods and systems for calibrating a temperature control system in a vapor deposition chamber. A temperature sensor senses temperature within a semiconductor processing chamber and generates an output signal. A temperature control system controls a chamber temperature by controlling a heating apparatus based on the output signal. A method includes instructing the control system to target a setpoint temperature, and depositing a layer of material onto a surface in the chamber by a vapor deposition process. A variation of a property of the layer is measured while depositing the layer, the property known to vary cyclically as a thickness of the layer increases. The measured property is allowed to vary cyclically for one or more cycles. If there is a difference between a time period of one or more of the cycles and an expected time period associated with the setpoint temperature, the temperature control system is adjusted based on the difference.

Abstract: A substrate support system comprises a relatively thin circular substrate holder having a plurality of passages extending between top and bottom surfaces thereof. The substrate holder includes a single substrate support ledge or a plurality of substrate support spacer vanes configured to support a peripheral portion of the substrate backside so that a thin gap is formed between the substrate and the substrate holder. The vanes can be angled to resist backside deposition of reactant gases as the substrate holder is rotated. A hollow support member provides support to an underside of the substrate holder. The hollow support member is configured to convey gas (e.g., inert gas or cleaning gas) upward into one or more of the passages of the substrate holder. The upwardly conveyed gas flows into the gap between the substrate and the substrate holder.

Abstract: An annular housing extension for an engine starter housing which facilitates and assists in the installation of the engine starter onto an engine. The annular extension extends from a mounting flange and has an inner diameter to form a cylinder which substantially surrounds and is concentric with a pinion gear of an engine starter. The annular extension may be provided as an integral part of a starter housing or as a separate piece. The annular extension is provided with a leading edge which is rounded to form a chamfer and preferably has a radius of curvature which approaches, and most preferably, equals the diameter of a cylindrical outer wall of the annular extension.

Abstract: An engine starter having an internal liner which carries forward the motor and gear reducing assembly in unison to engage the engine simultaneously providing power to the engine starter. Movement of the liner performs the valving or switching function to permit starter function.

Abstract: An engine starter having an internal liner which carries forward the motor and gear reducing assembly in unison to engage the engine simultaneously providing a limited power rotation to the pinion and subsequently full power to the engine starter once engaged at movement of the liner performs the valving function to permit the so-called "soft" starter engagement.