Abstract: The present invention generally provides a vacuum system having a small-volume load-lock chamber for supporting a substrate set of only two rows of substrates, which provides for quick evacuation and venting of the load-lock chamber to provide a continuous feed load-lock chamber. More particularly, the present invention provides a transfer chamber; one or more processing chambers connected to the transfer chamber; a substrate handling robot disposed in the transfer chamber; and at least one load-lock chamber connected to the transfer chamber, and having one or more substrate support members for supporting one or more stacks of only two substrates per stack. Another aspect of the invention provides a staging, or storage rack associated with or integrated with the load-lock chamber. More particularly, the staging, or storage rack may be located outside the transfer chamber and accessible by a staging robot serving the load-lock chamber.

Abstract: A front end staging method and apparatus is provided to introduce and remove a set of wafers from a vacuum processing system. The system generally comprises a support platform, one or more wafer cassette turntables disposed on the platform, a wafer handler disposed adjacent the turntables, a wafer center finding device and a filter disposed to control particles in the vicinity of the wafers. The wafer cassette turntables are rotatably mounted to the support in the preferred embodiment. The processing system may also include one or more processing chambers, where each processing chamber defines a plurality of isolated processing regions therein. The wafer center finding device may include an optical sensor system including optimal emitters aligned with optical sensors.

Abstract: A vacuum loadlock is provided for housing a pair of wafers in proper alignment for concurrent processing. In one embodiment, a single chamber loadlock is provided with a gas diffuser disposed therein to decrease venting times within the loadlock. In another embodiment, a dual chamber loadlock is provided having first and second isolatable region disposed adjacent a transfer region to increase throughput of the system.

Abstract: The present invention generally provides a cassette-to-cassette vacuum processing system which concurrently processes multiple wafers and combines the advantages of single wafer process chambers and multiple wafer handling for high quality wafer processing, high wafer throughput and reduced footprint. In accordance with one aspect of the invention, the system is preferably a staged vacuum system which generally includes a loadlock chamber for introducing wafers into the system and which also provides wafer cooling following processing, a transfer chamber for housing a wafer handler, and one or more processing chambers each having two or more processing regions which are isolatable from each other and preferably share a common gas supply and a common exhaust pump. The processing regions also preferably include separate gas distribution assemblies and RF power sources to provide a uniform plasma density over a wafer surface in each processing region.

Abstract: A multi-blade wafer handling device is provided to concurrently move two or more wafers through a vacuum processing system. The wafer handling device includes two motors magnetically coupled into a transfer chamber to move an arm assembly connected to a dual blade assembly. The preferred wafer handling device includes a first rotating member operated by the first motor, a second rotating member operated by the second motor, a blade assembly having at least first and second wafer blades wherein the wafer blades are co-planar, and an arm assembly connecting the first and second rotating members to the blade assembly.