Patents by Inventor Bryan L. Buckalew
Bryan L. Buckalew 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).
-
Patent number: 11214887Abstract: An electroplating apparatus includes an electrode at the bottom of a chamber, an ionically resistive element with through holes arranged horizontally at the top of the chamber, with a membrane in the middle. One or more panels extend vertically and parallelly from the membrane to the element and extend linearly across the chamber, forming a plurality of regions between the membrane and the element. A substrate with a protuberance extending along a chord of the substrate and contacting a top surface of the element is arranged above a first region. An electrolyte flowed between the substrate and the element descends into the first region via the through holes on a first side of the protuberance and ascends from the first region via the through holes on a second side of the protuberance, forcing air bubbles out from a portion of the element associated with the first region.Type: GrantFiled: May 8, 2020Date of Patent: January 4, 2022Assignee: LAM RESEARCH CORPORATIONInventors: Stephen J. Banik, Bryan L. Buckalew, Gabriel Hay Graham, Alfred Bostick, Sean Wilbur, John Floyd Ostrowski
-
Publication number: 20210395913Abstract: The embodiments herein relate to apparatuses and methods for electroplating one or more materials onto a substrate. Embodiments herein utilize a cross flow conduit in the electroplating cell to divert flow of fluid from a region between a substrate and a channeled ionically resistive plate positioned near the substrate down to a level lower than level of fluid in a fluid containment unit for collecting overflow fluid from the plating system for recirculation. The cross flow conduit can include channels cut into components of the plating cell to allow diverted flow, or can include an attachable diversion device mountable to an existing plating cell to divert flow downwards to the fluid containment unit. Embodiments also include a flow restrictor which may be a plate or a pressure relief valve for modulating flow of fluid in the cross flow conduit during plating.Type: ApplicationFiled: November 15, 2019Publication date: December 23, 2021Applicant: Lam Research CorporationInventors: Stephen J. Banik, II, Aaron Berke, Gabriel Hay Graham, Gregory J. Kearns, Lee Peng Chua, Bryan L. Buckalew
-
Patent number: 11168407Abstract: In one example, an electroplating system comprises a bath reservoir, a holding device, an anode, a direct current power supply, and a controller. The bath reservoir contains an electrolyte solution. The holding device holds a wafer submerged in the electrolyte solution. The wafer comprises features covered by a cobalt layer. The anode is opposite to the wafer and submerged in the electrolyte solution. The direct current power supply generates a direct current between the holding device and the anode. A combination of forward and reverse pulses is applied between the holding device and the anode to electroplate a copper layer on the cobalt layer of the wafer.Type: GrantFiled: February 6, 2020Date of Patent: November 9, 2021Assignee: Lam Research ComporationInventors: Jeyavel Velmurugan, Bryan L. Buckalew, Thomas A. Ponnuswamy
-
Publication number: 20210340687Abstract: In one example, an electroplating apparatus is provided for electroplating a wafer. The electroplating apparatus comprises a wafer holder for holding a wafer during an electroplating operation and a plating cell configured to contain an electrolyte during the electroplating operation. An anode chamber is disposed within the plating cell, and a charge plate is disposed within the anode chamber. An anode is positioned above the charge plate within the anode chamber. In some examples, the anode chamber is a membrane-less anode chamber.Type: ApplicationFiled: October 2, 2019Publication date: November 4, 2021Inventors: Gregory Kearns, Bryan L. Buckalew, Jacob Kurtis Blickensderfer
-
Patent number: 11047059Abstract: The embodiments herein relate to methods and apparatus for electroplating one or more materials onto a substrate. Typically, the embodiments herein utilize a channeled plate positioned near the substrate, creating a cross flow manifold between the channeled plate and substrate, and on the sides by a flow confinement ring. A seal may be provided between the bottom surface of a substrate holder and the top surface of an element below the substrate holder (e.g., the flow confinement ring). During plating, fluid enters the cross flow manifold through channels in the channeled plate, and through a cross flow inlet, then exits at the cross flow exit, positioned opposite the cross flow inlet. The apparatus may switch between a sealed state and an unsealed state during electroplating, for example by lowering and lifting the substrate and substrate holder as appropriate to engage and disengage the seal.Type: GrantFiled: June 5, 2019Date of Patent: June 29, 2021Assignee: Lam Research CorporationInventors: Kari Thorkelsson, Aaron Berke, Bryan L. Buckalew, Steven T. Mayer
-
Publication number: 20210193514Abstract: In one example, a method for redistribution layer (RDL) process is described. A substrate is provided. A dielectric layer is deposited on top of the substrate. The dielectric layer is patterned. A barrier and copper seed layer are deposited on top of the dielectric layer. A photoresist layer is applied on top of the barrier and copper seed layer. The photoresist layer is patterned to correspond with the dielectric layer pattern. Copper is electrodepositing in the patterned regions exposed by the photoresist layer. The photoresist layer is removed. The copper and seed barrier are etched.Type: ApplicationFiled: July 26, 2019Publication date: June 24, 2021Inventors: Justin Oberst, Bryan L. Buckalew, Stephen J. Banik
-
Publication number: 20210148001Abstract: An electroplating apparatus for electroplating metal on a substrate includes a plating chamber configured to contain an electrolyte, a substrate holder configured to hold and rotate the substrate during electroplating, an anode, and an azimuthally asymmetric auxiliary electrode configured to be biased both anodically and cathodically during electroplating. The azimuthally asymmetric auxiliary electrode (which may be, for example, C-shaped), can be used for controlling azimuthal uniformity of metal electrodeposition by donating and diverting ionic current at a selected azimuthal position.Type: ApplicationFiled: January 4, 2021Publication date: May 20, 2021Inventors: Steven T. Mayer, David W. Porter, Bryan L. Buckalew, Robert Rash
-
Publication number: 20210151322Abstract: In one example, an electroplating system comprises a first bath reservoir, a second bath reservoir, a clamp, a first anode in the first bath reservoir, a second anode in the second bath reservoir, and a direct current power supply. The first bath reservoir contains a first electrolyte solution that includes an alkaline copper-complexed solution. The second bath reservoir contains a second electrolyte solution that includes an acidic copper plating solution. The direct current power supply generates a first direct current between the clamp and the first anode to electroplate a first copper layer on the cobalt layer of the wafer submerged in the first electrolyte solution. The direct current power supply then generates a second direct current between the clamp and the second anode to electroplate a second copper layer on the first copper layer of the wafer submerged in the second electrolyte solution.Type: ApplicationFiled: January 26, 2021Publication date: May 20, 2021Inventors: Jeyavel Velmurugan, Bryan L. Buckalew, Thomas A. Ponnuswamy
-
Patent number: 11001934Abstract: Various embodiments described herein relate to methods and apparatus for electroplating material onto a semiconductor substrate. In some cases, one or more membrane may be provided in contact with an ionically resistive element to minimize the degree to which electrolyte passes backwards from a cross flow manifold, through the ionically resistive element, and into an ionically resistive element manifold during electroplating. The membrane may be designed to route electrolyte in a desired manner in some embodiments. In these or other cases, one or more baffles may be provided in the ionically resistive element manifold to reduce the degree to which electrolyte is able to bypass the cross flow manifold by flowing back through the ionically resistive element and across the electroplating cell within the ionically resistive element manifold. These techniques can be used to improve the uniformity of electroplating results.Type: GrantFiled: August 10, 2018Date of Patent: May 11, 2021Assignee: Lam Research CorporationInventors: Stephen J. Banik, II, Bryan L. Buckalew, Aaron Berke, James Isaac Fortner, Justin Oberst, Steven T. Mayer, Robert Rash
-
Patent number: 10968531Abstract: Methods described herein manage wafer entry into an electrolyte so that air entrapment due to initial impact of the wafer and/or wafer holder with the electrolyte is reduced and the wafer is moved in such a way that an electrolyte wetting wave front is maintained throughout immersion of the wafer also minimizing air entrapment.Type: GrantFiled: January 26, 2017Date of Patent: April 6, 2021Assignee: Novellus Systems, Inc.Inventors: Manish Ranjan, Shantinath Ghongadi, Frederick Dean Wilmot, Douglas Hill, Bryan L. Buckalew
-
Patent number: 10954604Abstract: Disclosed herein are systems and methods for electroplating nickel which employ substantially sulfur-free nickel anodes. The methods may include placing a semiconductor substrate in a cathode chamber of an electroplating cell having an anode chamber containing a substantially sulfur-free nickel anode, contacting an electrolyte solution having reduced oxygen concentration with the substantially sulfur-free nickel anode contained in the anode chamber, and electroplating nickel from the electrolyte solution onto the semiconductor substrate placed in the cathode chamber. The electroplating systems may include an electroplating cell having an anode chamber configured for holding a substantially sulfur-free nickel anode, a cathode chamber, and a substrate holder within the cathode chamber configured for holding a semiconductor substrate. The systems may also include an oxygen removal device arranged to reduce oxygen concentration in the electrolyte solution as it is flowed to the anode chamber.Type: GrantFiled: July 3, 2017Date of Patent: March 23, 2021Assignee: Lam Research CorporationInventor: Bryan L. Buckalew
-
Patent number: 10923340Abstract: An apparatus for electroplating metal on a semiconductor substrate with improved plating uniformity includes in one aspect: a plating chamber configured to contain an electrolyte and an anode; a substrate holder configured to hold the semiconductor substrate; and an ionically resistive ionically permeable element comprising a substantially planar substrate-facing surface and an opposing surface, wherein the element allows for flow of ionic current towards the substrate during electroplating, and wherein the element comprises a region having varied local resistivity. In one example the resistivity of the element is varied by varying the thickness of the element. In some embodiments the thickness of the element is gradually reduced in a radial direction from the edge of the element to the center of the element. The provided apparatus and methods are particularly useful for electroplating metal in WLP recessed features.Type: GrantFiled: June 1, 2018Date of Patent: February 16, 2021Assignee: Lam Research CorporationInventors: Burhanuddin Kagajwala, Bryan L. Buckalew, Lee Peng Chua, Aaron Berke, Robert Rash, Steven T. Mayer
-
Patent number: 10920335Abstract: Methods of electroplating metal on a substrate while controlling azimuthal uniformity, include, in one aspect, providing the substrate to the electroplating apparatus configured for rotating the substrate during electroplating, and electroplating the metal on the substrate while rotating the substrate relative to a shield such that a selected portion of the substrate at a selected azimuthal position dwells in a shielded area for a different amount of time than a second portion of the substrate having the same average arc length and the same average radial position and residing at a different angular (azimuthal) position. The shield is positioned in close proximity of the substrate (e.g., within a distance that is equal to 0.1 of the substrate's radius). The shield in some embodiments may be an ionically resistive ionically permeable element having an azimuthally asymmetric distribution of channels.Type: GrantFiled: June 13, 2018Date of Patent: February 16, 2021Assignee: Novellus Systems, Inc.Inventors: Steven T. Mayer, David W. Porter, Bryan L. Buckalew, Robert Rash
-
Patent number: 10781527Abstract: Various embodiments herein relate to methods and apparatus for electroplating material onto a semiconductor substrate. The apparatus includes an ionically resistive element that separates the plating chamber into a cross flow manifold (above the ionically resistive element) and an ionically resistive element manifold (below the ionically resistive element). Electrolyte is delivered to the cross flow manifold, where it shears over the surface of the substrate, and to the ionically resistive element manifold, where it passes through through-holes in the ionically resistive element to impinge upon the substrate as it enters the cross flow manifold. In certain embodiments, the flow of electrolyte into the cross flow manifold (e.g., through a side inlet) and the flow of electrolyte into the ionically resistive element manifold are actively controlled, e.g., using a three-way valve. In these or other cases, the ionically resistive element may include electrolyte jets.Type: GrantFiled: September 18, 2017Date of Patent: September 22, 2020Assignee: Lam Research CorporationInventors: Stephen J. Banik, II, Aaron Berke, Bryan L. Buckalew, Robert Rash
-
Patent number: 10760178Abstract: Electroplating results can be improved by dynamically controlling the pressure in different parts of an electroplating apparatus. For example, a number of plating problems can be avoided by ensuring that the pressure in an anode chamber always remains slightly above the pressure in an ionically resistive element manifold, both during electroplating and during non-electroplating operations. This pressure differential prevents the membrane from stretching downward into the anode chamber.Type: GrantFiled: July 12, 2018Date of Patent: September 1, 2020Assignee: Lam Research CorporationInventors: Stephen J. Banik, II, Bryan L. Buckalew, Frederick Dean Wilmot, Robert Rash
-
Publication number: 20200270759Abstract: An electroplating apparatus includes an electrode at the bottom of a chamber, an ionically resistive element with through holes arranged horizontally at the top of the chamber, with a membrane in the middle. One or more panels extend vertically and parallelly from the membrane to the element and extend linearly across the chamber, forming a plurality of regions between the membrane and the element. A substrate with a protuberance extending along a chord of the substrate and contacting a top surface of the element is arranged above a first region. An electrolyte flowed between the substrate and the element descends into the first region via the through holes on a first side of the protuberance and ascends from the first region via the through holes on a second side of the protuberance, forcing air bubbles out from a portion of the element associated with the first region.Type: ApplicationFiled: May 8, 2020Publication date: August 27, 2020Inventors: Stephen J. BANIK, Bryan L. BUCKALEW, Gabriel Hay GRAHAM, Alfred BOSTICK, Sean WILBUR, John Floyd OSTROWSKI
-
Publication number: 20200255964Abstract: In one example, an electroplating system comprises a bath reservoir, a holding device, an anode, a direct current power supply, and a controller. The bath reservoir contains an electrolyte solution. The holding device holds a wafer submerged in the electrolyte solution. The wafer comprises features covered by a cobalt layer. The anode is opposite to the wafer and submerged in the electrolyte solution. The direct current power supply generates a direct current between the holding device and the anode. A combination of forward and reverse pulses is applied between the holding device and the anode to electroplate a copper layer on the cobalt layer of the wafer.Type: ApplicationFiled: February 6, 2020Publication date: August 13, 2020Inventors: Jeyavel Velmurugan, Bryan L. Buckalew, Thomas A. Ponnuswamy
-
Patent number: 10714436Abstract: Systems and methods for achieving uniformity across a redistribution layer are described. One of the methods includes patterning a photoresist layer over a substrate. The patterning defines a region for a conductive line and a via disposed below the region for the conductive line. The method further includes depositing a conductive material in between the patterned photoresist layer, such that the conductive material fills the via and the region for the conductive line. The depositing causes an overgrowth of conductive material of the conductive line to form a bump of the conductive material over the via. The method also includes planarizing a top surface of the conductive line while maintaining the patterned photoresist layer present over the substrate. The planarizing is facilitated by exerting a horizontal shear force over the conductive line and the bump. The planarizing is performed to flatten the bump.Type: GrantFiled: March 14, 2017Date of Patent: July 14, 2020Assignee: Lam Research CorporationInventors: Bryan L. Buckalew, Thomas A. Ponnuswamy, Steven T. Mayer, Stephen J. Banik, II, Justin Oberst
-
Patent number: 10662545Abstract: Methods and apparatus for electroplating material onto a substrate are provided. In many cases the material is metal and the substrate is a semiconductor wafer, though the embodiments are no so limited. Typically, the embodiments herein utilize a porous ionically resistive plate positioned near the substrate, the plate having a plurality of interconnecting 3D channels and creating a cross flow manifold defined on the bottom by the plate, on the top by the substrate, and on the sides by a cross flow confinement ring. During plating, fluid enters the cross flow manifold both upward through channels in the plate, and laterally through a cross flow side inlet positioned on one side of the cross flow confinement ring. The flow paths combine in the cross flow manifold and exit at the cross flow exit, which is positioned opposite the cross flow inlet. These combined flow paths result in improved plating uniformity.Type: GrantFiled: October 31, 2017Date of Patent: May 26, 2020Assignee: Novellus Systems, Inc.Inventors: Steven T. Mayer, Bryan L. Buckalew, Haiying Fu, Thomas Ponnuswamy, Hilton Diaz Camilo, Robert Rash, David W. Porter
-
Patent number: 10655240Abstract: An electroplating apparatus includes an electrode at the bottom of a chamber, an ionically resistive element with through holes arranged horizontally at the top of the chamber, with a membrane in the middle. One or more panels extend vertically and parallelly from the membrane to the element and extend linearly across the chamber, forming a plurality of regions between the membrane and the element. A substrate with a protuberance extending along a chord of the substrate and contacting a top surface of the element is arranged above a first region. An electrolyte flowed between the substrate and the element descends into the first region via the through holes on a first side of the protuberance and ascends from the first region via the through holes on a second side of the protuberance, forcing air bubbles out from a portion of the element associated with the first region.Type: GrantFiled: May 1, 2018Date of Patent: May 19, 2020Assignee: LAM RESEARCH CORPORATIONInventors: Stephen J. Banik, Bryan L. Buckalew, Gabriel Hay Graham, Alfred Bostick, Sean Wilbur, John Floyd Ostrowski