Patent Number: 047059516
Section: claims

1. A semiconductor wafer processing machine, comprising: a first loadlock means for receiving a cassette of semiconductor wafers for processing;  a second loadlock means for receiving processed wafers;  at least one processing chamber;  at least two wedge valves;  said first loadlock means being in communication with a wafer processing chamber through a first wedge valve when said first wedge valve is open;  said second loadlock means being in communication with a wafer processing chamber through a second wedge valve when said second wedge valve is open;  each said loadlock means, wedge valve and processing chamber being vacuum-tight and having means for attachment to an external vacuum pumping means;  computer means for controlling each said loadlock means, wedge valve and processing chamber;  each said wedge valve including;  a valve housing having input port and output port;  a valve wedge having surfaces sealing to said input and output ports, said valve wedge sealing surfaces being sloped relative to each other, said valve wedge having a storage notch between said sealing surfaces;  means for sliding said valve wedge within said housing from a sealing position to an open position so that said valve wedge is clear of a line sight through said input and output ports;  a workpiece handling arm capable of being stored in a folded position in said storage notch when said valve is closed.  a proximal support piece;  a proximal extensor piece;  a distal support piece, said distal support piece having means for bearing the workpiece on a distal end;  a distal extensor piece; and  a pair of concentric shafts rotating about a first axis for delivering power and control to said arm, said proximal support piece being fixedly attached at right angles to a first of said concentric shafts, said proximal extensor piece being fixedly attached at right angles to a second of said pair of concentric shafts, said proximal extensor piece being pivotally attached to said distal extensor piece at a second axis, said proximal support piece and said distal extensor piece being pivotally attached to said distal support piece at third and fourth axes, respectively, said first, second, third and fourth axes being parallel, spacings between said axes forming a parallelogram.  a vacuum chamber having a door;  transmitter means for sending a closely collimated beam of radiation;  receiver means for moving the cassette past the collimated beam of radiation at a constant rate of speed;  signal processing means for translating interruptions in the collimated beam of radiation as a function of time into position information;  computer means for receiving and storing information from said signal processing means;  a small vacuum cell within the walls of the vacuum chamber, said small vacuum chamber having an opening facing the door;  sealing means for sealing the door to the vacuum chamber; and  means for connecting said small vacuum cell to a vacuum pumping means.  a platform having upper surface means for supporting the workpiece;  a multiplicity of clamp means for centering and holding the workpiece on the platform, said clamp means being distributed around a perimeter of said platform, each said clamp means including a thin planar hook member and a spring member, each said thin planar hook member having an upper lip shaped to fit over the workpiece, a lower lip and a lifting slot;  a lifting ring arranged around and below said upper surface means, said lifting slot of each said thin planar hook engaging said lifting ring;  a spreading ring arranged around and below said upper surface means and above said lifting ring, said lower lip of each said thin planar hook engaging said spreading ring;  means for moving said lifting ring; and  means for moving said spreading ring. 2. The machine of claim 1 wherein said arm includes: 3. The machine of claim 2 wherein said distal support arm is a flat blade. 4. The machine of claim 3 wherein said proximal extensor piece is much shorter than said proximal support piece. 5. The machine of claim 4 wherein said first loadlock means for receiving a cassette of semiconductor wafers includes: 6. The machine of claim 4 wherein said transport means is an elevator which raises and lowers the cassette with the wafers in a horizontal plane. 7. The machine of claim 5 wherein said means for connecting includes a pumping isolation valve for isolating the vacuum pumping means from the small vacuum cell. 8. The machine of claim 7 wherein said means for connecting includes a venting valve for venting said small vacuum cell to atmosphere when said isolation valve is closed. 9. The machine of claim 8 wherein said isolation valves and venting valves are operated electrically from a switch means mounted in a handle on the door. 10. The machine of claim 9 wherein said computer means includes means for operating the machine from a task locator system. 11. The machine of claim 1 including a chuck means for centering and clamping the wafer, said chuck means including: 12. The device of claim 11 including lifting pin means for receiving a workpiece from a workpiece handling mechanism and lowering said workpiece to said platform. 13. The device of claim 12 including means for temperature control of said workpiece while said workpiece is held to said platform. 14. The device of claim 13 wherein said means for temperature control includes means for passing helium gas between said upper surface means of said platform and the back of the workpiece whereby to ensure thermal contact. 15. The device of claim 14 including means for removing said platform for servicing while leaving said clamp means in place. 16. The machine of claim 15 wherein said computer means includes means for operating the machine from a task locator system.