Patents by Inventor Evan E. Patton
Evan E. Patton has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6551487Abstract: The orientation of a wafer with respect to the surface of an electrolyte is controlled during an electroplating process. The wafer is delivered to an electrolyte bath along a trajectory normal to the surface of the electrolyte. Along this trajectory, the wafer is angled before entry into the electrolyte for angled immersion. A wafer can be plated in an angled orientation or not, depending on what is optimal for a given situation. Also, in some designs, the wafer's orientation can be adjusted actively during immersion or during electroplating, providing flexibility in various electroplating scenarios.Type: GrantFiled: May 31, 2001Date of Patent: April 22, 2003Assignee: Novellus Systems, Inc.Inventors: Jonathan D. Reid, Steven T. Mayer, Seshasayee Varadarajan, David C. Smith, Evan E. Patton, Dinesh S. Kalakkad, Gary Lind
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Patent number: 6527920Abstract: An electroplating apparatus prevents anode-mediated degradation of electrolyte additives by creating a mechanism for maintaining separate anolyte and catholyte and preventing mixing thereof within a plating chamber. The separation is accomplished by interposing a porous chemical transport barrier between the anode and cathode. The transport barrier limits the chemical transport (via diffusion and/or convection) of all species but allows migration of ionic species (and hence passage of current) during application of sufficiently large electric fields within electrolyte.Type: GrantFiled: November 3, 2000Date of Patent: March 4, 2003Assignee: Novellus Systems, Inc.Inventors: Steven T. Mayer, Evan E. Patton, Robert L. Jackson, Jonathan D. Reid
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Patent number: 6436249Abstract: An apparatus for electroplating a wafer surface includes a cup having a central aperture defined by an inner perimeter, a compliant seal adjacent the inner perimeter, contacts adjacent the compliant seal and a cone attached to a rotatable spindle. The compliant seal forms a seal with the perimeter region of the wafer surface preventing plating solution from contaminating the wafer edge, wafer backside and the contacts. As a further measure to prevent contamination, the region behind the compliant seal is pressurized. By rotating the wafer during electroplating, bubble entrapment on the wafer surface is prevented. Further, the contacts can be arranged into banks of contacts and the resistivity between banks can be tested to detect poor electrical connections between the contacts and the wafer surface.Type: GrantFiled: May 17, 2000Date of Patent: August 20, 2002Assignee: Novellus Systems, Inc.Inventors: Evan E. Patton, Wayne Fetters
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Patent number: 6343793Abstract: A rotary union for use with an electroplating apparatus includes a shaft having a first surface area and an extended surface area, the first surface area having a first aperture therein, the extended surface area having a second aperture therein. The rotary union further includes an outer face seal and an inner face seal. The outer face seal is pressed against, and forms a seal with, the first surface area. The inner face seal is pressed against, and forms a seal with, the extended surface area. A pressure passage coupled to the first aperture passes through the outer face seal and around the outside of the inner face seal. A pressure/vacuum passage coupled to the second aperture passes through the inner face seal.Type: GrantFiled: December 2, 1999Date of Patent: February 5, 2002Assignee: Novellus Systems, Inc.Inventors: Evan E. Patton, Wayne Fetters
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Patent number: 6214193Abstract: A plating cell has an inner plating bath container for performing electroplating on a work piece (e.g., a wafer) submerged in a solution contained by the inner plating bath container. A reclaim inlet funnels any solution overflowing the inner plating bath container back into a reservoir container to be circulated back into the inner plating bath container. A waste channel is also provided having an inlet at a different height than the inlet of the reclaim channel. After electroplating, the wafer is lifted to a position and spun. While spinning, the wafer is thoroughly rinse with, for example, ultra pure water. The spin rate and height of the wafer determine whether the water and solution are reclaimed through the reclaim channel or disposed through the waste channel.Type: GrantFiled: August 13, 1999Date of Patent: April 10, 2001Assignee: Novellus Systems, Inc.Inventors: Jonathan D. Reid, Steven W. Taatjes, Robert J. Contolini, Evan E. Patton
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Patent number: 6162344Abstract: In electroplating a metal layer on a semiconductor wafer, the resistive voltage drop between the edge of the wafer, where the electrical terminal is located, and center of the wafer causes the plating rate to be greater at the edge than at the center. As a result of this so-called "terminal effect", the plated layer tends to be concave. This problem is overcome by first setting the current at a relatively low level until the plated layer is sufficiently thick that the resistive drop is negligible, and then increasing the current to improve the plating rate. Alternatively, the portion of the layer produced at the higher current can be made slightly convex to compensate for the concave shape of the portion of the layer produced at the lower current. This is done by reducing the mass transfer of the electroplating solution near the edge of the wafer to the point that the electroplating process is mass transfer limited in that region.Type: GrantFiled: September 9, 1999Date of Patent: December 19, 2000Assignee: Novellus Systems, Inc.Inventors: Jonathan D. Reid, Robert J. Contolini, Edward C. Opocensky, Evan E. Patton, Eliot K. Broadbent
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Patent number: 6156167Abstract: An apparatus for electroplating a wafer surface includes a cup having a central aperture defined by an inner perimeter, a compliant seal adjacent the inner perimeter, contacts adjacent the compliant seal and a cone attached to a rotatable spindle. The compliant seal forms a seal with the perimeter region of the wafer surface preventing plating solution from contaminating the wafer edge, wafer backside and the contacts. As a further measure to prevent contamination, the region behind the compliant seal is pressurized. By rotating the wafer during electroplating, bubble entrapment on the wafer surface is prevented. Further, the contacts can be arranged into banks of contacts and the resistivity between banks can be tested to detect poor electrical connections between the contacts and the wafer surface.Type: GrantFiled: November 13, 1997Date of Patent: December 5, 2000Assignee: Novellus Systems, Inc.Inventors: Evan E. Patton, Wayne Fetters
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Patent number: 6139712Abstract: An apparatus for electroplating a wafer surface includes a cup having a central aperture defined by an inner perimeter, a compliant seal adjacent the inner perimeter, contacts adjacent the compliant seal and a cone attached to a rotatable spindle. The compliant seal forms a seal with the perimeter region of the wafer surface preventing plating solution from contaminating the wafer edge, wafer backside and the contacts. As a further measure to prevent contamination, the region behind the compliant seal is pressurized. By rotating the wafer during electroplating, bubble entrapment on the wafer surface is prevented. Further, the contacts can be arranged into banks of contacts and the resistivity between banks can be tested to detect poor electrical connections between the contacts and the wafer surface.Type: GrantFiled: December 14, 1999Date of Patent: October 31, 2000Assignee: Novellus Systems, Inc.Inventors: Evan E. Patton, Wayne Fetters
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Patent number: 6110346Abstract: In electroplating a metal layer on a semiconductor wafer, the resistive voltage drop between the edge of the wafer, where the electrical terminal is located, and center of the wafer causes the plating rate to be greater at the edge than at the center. As a result of this so-called "terminal effect", the plated layer tends to be concave. This problem is overcome by first setting the current at a relatively low level until the plated layer is sufficiently thick that the resistive drop is negligible, and then increasing the current to improve the plating rate. Alternatively, the portion of the layer produced at the higher current can be made slightly convex to compensate for the concave shape of the portion of the layer produced at the lower current. This is done by reducing the mass transfer of the electroplating solution near the edge of the wafer to the point that the electroplating process is mass transfer limited in that region.Type: GrantFiled: September 9, 1999Date of Patent: August 29, 2000Assignee: Novellus Systems, Inc.Inventors: Jonathan D. Reid, Robert J. Contolini, Edward C. Opocensky, Evan E. Patton, Eliot K. Broadbent
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Patent number: 6099702Abstract: A plating cell has an inner plating bath container for performing electroplating on a work piece (e.g., a wafer) submerged in a solution contained by the inner plating bath container. A reclaim inlet funnels any solution overflowing the inner plating bath container back into a reservoir container to be circulated back into the inner plating bath container. A waste channel is also provided having an inlet at a different height than the inlet of the reclaim channel. After electroplating, the wafer is lifted to a position and spun. While spinning, the wafer is thoroughly rinse with, for example, ultra pure water. The spin rate and height of the wafer determine whether the water and solution are reclaimed through the reclaim channel or disposed through the waste channel.Type: GrantFiled: June 10, 1998Date of Patent: August 8, 2000Assignee: Novellus Systems, Inc.Inventors: Jonathan D. Reid, Steven W. Taatjes, Robert J. Contolini, Evan E. Patton
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Patent number: 6074544Abstract: In electroplating a metal layer on a semiconductor wafer, the resistive voltage drop between the edge of the wafer, where the electrical terminal is located, and center of the wafer causes the plating rate to be greater at the edge than at the center. As a result of this so-called "terminal effect", the plated layer tends to be concave. This problem is overcome by first setting the current at a relatively low level until the plated layer is sufficiently thick that the resistive drop is negligible, and then increasing the current to improve the plating rate. Alternatively, the portion of the layer produced at the higher current can be made slightly convex to compensate for the concave shape of the portion of the layer produced at the lower current. This is done by reducing the mass transfer of the electroplating solution near the edge of the wafer to the point that the electroplating process is mass transfer limited in that region.Type: GrantFiled: July 22, 1998Date of Patent: June 13, 2000Assignee: Novellus Systems, Inc.Inventors: Jonathan D. Reid, Robert J. Contolini, Edward C. Opocensky, Evan E. Patton, Eliot K. Broadbent
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Patent number: 5029117Abstract: The present invention constitutes a pyrometer device and an associated method of operation for measuring temperature based on the radiation emitted by a heated body in which increased accuracy is achieved by actively ascertaining the emittance of the body whose temperature is being measured. The pyrometer device includes a light source for intermittently illuminating the heated body and a radiation sensing mechanism for measuring the amount of light reflected and radiated by the body. The pyrometer device further includes a signal processing unit for processing the information developed by the radiation sensing mechanism and deriving the temperature of the body based on a calculated emittance factor and the amount of light radiated by the body.Type: GrantFiled: April 24, 1989Date of Patent: July 2, 1991Assignee: Tektronix, Inc.Inventor: Evan E. Patton
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Patent number: 4994400Abstract: A semiconductor device is made from a body of semiconductor material having a layer of dielectric material and a first layer of conductive material over a main face of the body, the layers each having an opening therein through which an area of the main face of the body of semiconductor material is exposed. A second layer of conductive material is formed over the sides of the opening and the conductor material, whereby the second layer of conductive material is in conductive contact with the first layer of conductive material along the sides of the opening. Material of the second layer of conductive material is removed to a depth such that a portion of the main face of the body of semiconductor material is exposed but a sidewall of conductive material remains along a side of the opening and provides an electrically conductive connection between the first layer of conductive material and the body of the semiconductor material.Type: GrantFiled: January 27, 1989Date of Patent: February 19, 1991Assignee: Tektronix, Inc.Inventors: Tadanori Yamaguchi, Yeou-Chong S. Yu, Carol A. Hacherl, Evan E. Patton