Patents by Inventor Bon-Woong Koo
Bon-Woong Koo 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: 8604449Abstract: An ion implantation system and method are disclosed in which glitches in voltage are minimized by modifications to the power system of the implanter. These power supply modifications include faster response time, output filtering, improved glitch detection and removal of voltage blanking. By minimizing glitches, it is possible to produce solar cells with acceptable dose uniformity without having to pause the scan each time a voltage glitch is detected. For example, by shortening the duration of a voltage to about 20-40 milliseconds, dose uniformity within about 3% can be maintained.Type: GrantFiled: June 15, 2011Date of Patent: December 10, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Piotr R. Lubicki, Bon-Woong Koo
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Publication number: 20130313443Abstract: An ion source includes an ion chamber housing defining an ion source chamber, the ion chamber housing having a side with a plurality of apertures. The ion source also includes an antechamber housing defining an antechamber. The antechamber housing shares the side with the plurality of apertures with the ion chamber housing. The antechamber housing has an opening to receive a gas from a gas source. The antechamber is configured to transform the gas into an altered state having excited neutrals that is provided through the plurality of apertures into the ion source chamber.Type: ApplicationFiled: July 31, 2013Publication date: November 28, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Bon-Woong Koo, Victor Benveniste, Christopher A. Rowland, Craig R. Chaney, Frank Sinclair, Neil J. Bassom
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Publication number: 20130287964Abstract: An ion implantation system including a plasma source, a mask-slit, and a plasma chamber. The plasma source is configured to generate a plasma within the plasma chamber in response to the introduction of a gas therein. The mask-slit is electrically isolated from the plasma chamber. A positive voltage bias is applied to the plasma chamber above a bias potential used to generate the plasma. The positive voltage bias drives the plasma potential to accelerate the ions to a desired implant energy. The accelerated ions pass through an aperture in the mask-slit and are directed toward a substrate for implantation. The mask-slit is electrically isolated from the plasma chamber and is maintained at ground potential with respect to the plasma.Type: ApplicationFiled: April 26, 2012Publication date: October 31, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Svetlana B. Radovanov, Victor M. Benveniste, Bon-Woong Koo, Richard M. White, Kevin M. Daniels
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Publication number: 20130287963Abstract: An ion implantation apparatus including a first plasma chamber, a second plasma chamber and an extraction electrode disposed therebetween. The first and second plasma chambers configured to house respective plasmas in response to the introduction of a different feed gases therein. The extraction electrode is electrically isolated from the plasma chamber. An extraction voltage is applied to the first plasma chamber above a bias potential used to generate the plasma therein. The extraction voltage drives the plasma potential to accelerate the ions in the first plasma to a desired implant energy. The accelerated ions pass through an aperture in the extraction electrode and are directed toward a substrate housed within the second plasma chamber for implantation.Type: ApplicationFiled: April 26, 2012Publication date: October 31, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Svetlana B. Radovanov, Ludovic Godet, Bon-Woong Koo, Timothy J. Miller
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Patent number: 8501624Abstract: An ion source that utilizes exited and/or atomic gas injection is disclosed. In an ion beam application, the source gas can be used directly, as it is traditionally supplied. Alternatively or additionally, the source gas can be altered by passing it through a remote plasma source prior to being introduced to the ion source chamber. This can be used to create excited neutrals, heavy ions, metastable molecules or multiply charged ions. In another embodiment, multiple gasses are used, where one or more of the gasses are passed through a remote plasma generator. In certain embodiments, the gasses are combined in a single plasma generator before being supplied to the ion source chamber. In plasma immersion applications, plasma is injected into the process chamber through one or more additional gas injection locations. These injection locations allow the influx of additional plasma, produced by remote plasma sources external to the process chamber.Type: GrantFiled: December 4, 2008Date of Patent: August 6, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Bon-Woong Koo, Victor Benveniste, Christopher A. Rowland, Craig R. Chaney, Frank Sinclair, Neil J. Bassom
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Patent number: 8481960Abstract: A system and method are disclosed for controlling an ion beam. A deceleration lens is disclosed for use in an ion implanter. The lens may include a suppression electrode, first and second focus electrodes, and first and second shields. The shields may be positioned between upper and lower portions of the suppression electrode. The first and second shields are positioned between the first focus electrode and an end station of the ion implanter. Thus positioned, the first and second shields protect support surfaces of said first and second focus electrodes from deposition of back-streaming particles generated from said ion beam. In some embodiments, the first and second focus electrodes may be adjustable to enable the electrode surfaces to be adjusted with respect to a direction of the ion beam. By adjusting the angle of the focus electrodes, parallelism of the ion beam can be controlled. Other embodiments are described and claimed.Type: GrantFiled: June 23, 2011Date of Patent: July 9, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Svetlana Radovanov, Jason Schaller, Richard White, Kevin Verrier, James Blanchette, Bon-Woong Koo, Eric Hermanson, Kevin Daniels
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Patent number: 8466431Abstract: Techniques for improving extracted ion beam quality using high-transparency electrodes are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for ion implantation. The apparatus may comprise an ion source for generating an ion beam, wherein the ion source comprises a faceplate with an aperture for the ion beam to travel therethrough. The apparatus may also comprise a set of extraction electrodes comprising at least a suppression electrode and a high-transparency ground electrode, wherein the set of extraction electrodes may extract the ion beam from the ion source via the faceplate, and wherein the high-transparency ground electrode may be configured to optimize gas conductance between the suppression electrode and the high-transparency ground electrode for improved extracted ion beam quality.Type: GrantFiled: February 12, 2009Date of Patent: June 18, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: James S. Buff, Svetlana Radovanov, Bon-Woong Koo, Wilhelm Platow, Frank Sinclair, D. Jeffrey Lischer, Craig R. Chaney, Steven Borichevsky, Eric R. Cobb, Mayur Jagtap, Kenneth H. Purser, Victor Benveniste, Shardul S. Patel
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Patent number: 8461558Abstract: A system for implanting a substrate. The system includes a substrate holder disposed within a process chamber of the system and coupled to ground. The system also includes an electrode disposed within the process chamber and coupled to a power source, the power source configured to supply voltage to the electrode as an unbalanced voltage pulse train, wherein a negative peak voltage during a negative voltage pulse period of the unbalanced voltage pulse train is higher than a positive peak voltage during a positive voltage pulse period of the unbalanced pulse train. The system further includes a movable mask, wherein the movable mask is configured to move between a first position proximate the substrate holder, and a second position proximate the driven electrode.Type: GrantFiled: July 1, 2011Date of Patent: June 11, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Bon-Woong Koo, Richard M. White, Kevin M. Daniels
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Patent number: 8436318Abstract: An RF ion source utilizing a heating/RF-shielding element for controlling the temperature of an RF window and to act as an RF shielding element for the RF ion source. When the heating/RF shielding element is in a heating mode, it suppresses formation of unwanted deposits on the RF window which negatively impacts the transfer of RF energy from an RF antenna to a plasma chamber. When the heating/RF-shielding element is in a shielding mode, it provides an electrostatic shielding for the RF ion source.Type: GrantFiled: April 5, 2010Date of Patent: May 7, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Frank Sinclair, Costel Biloiu, Bon-Woong Koo, Victor Benveniste, Shardul Patel
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Patent number: 8357912Abstract: Techniques for providing a multimode ion source are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus for ion implantation, the apparatus including an ion source having a hot cathode and a high frequency plasma generator, wherein the ion source has multiple modes of operation.Type: GrantFiled: February 18, 2010Date of Patent: January 22, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Svetlana Radovanov, Bon-Woong Koo, Frank Sinclair, Victor Benveniste
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Publication number: 20130001414Abstract: A system for producing a mass analyzed ion beam for implanting into a workpiece, includes an extraction plate having a set of apertures having a longitudinal axis of the aperture. The set of apertures are configured to extract ions from an ion source to form a plurality of beamlets. The system also includes an analyzing magnet region configured to provide a magnetic field to deflect ions in the beamlets in a first direction that is generally perpendicular to the longitudinal axis of the apertures. The system further includes a mass analysis plate having a set of apertures configured to transmit first ion species having a first mass/charge ratio and to block second ion species having a second mass/charge ratio and a workpiece holder configured to move with respect to the mass analysis plate along the first direction.Type: ApplicationFiled: July 1, 2011Publication date: January 3, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Victor M. Benveniste, Frank Sinclair, Svetlana Radovanov, Bon-Woong Koo
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Publication number: 20130001440Abstract: A system for implanting a substrate. The system includes a substrate holder disposed within a process chamber of the system and coupled to ground. The system also includes an electrode disposed within the process chamber and coupled to a power source, the power source configured to supply voltage to the electrode as an unbalanced voltage pulse train, wherein a negative peak voltage during a negative voltage pulse period of the unbalanced voltage pulse train is higher than a positive peak voltage during a positive voltage pulse period of the unbalanced pulse train. The system further includes a movable mask, wherein the movable mask is configured to move between a first position proximate the substrate holder, and a second position proximate the driven electrode.Type: ApplicationFiled: July 1, 2011Publication date: January 3, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Bon-Woong Koo, Richard M. White, Kevin M. Daniels
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Patent number: 8329055Abstract: Apparatus and method for improving the plasma uniformity in a plasma based system are described. The apparatus may include a plurality of electrical conductors, to which one or more types of electrical potentials may be applied. The conductors may be arranged in an array and may preferably be positioned near the plasma. By applying the bias voltages to the various electrically conductors, the plasma can be manipulated. For example, the conductors may extract or confine the electrons in the plasma, thereby locally adjusting the plasma density near the conductors. In the process, uniformity of the plasma density or ion concentration in the plasma may be improved. In a further embodiment, a magnetic field is included in the same direction as the electric field created by the bias voltage so as to better confine the charged particles.Type: GrantFiled: October 2, 2008Date of Patent: December 11, 2012Assignee: Varian Semiconductor Equipment Associates, Inc.Inventor: Bon-Woong Koo
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Patent number: 8263944Abstract: In an ion implanter, an inert gas is directed at a cathode assembly near an ion source chamber via a supply tube. The inert gas is provided with a localized directional flow toward the cathode assembly to reduce unwanted concentrations of cleaning or dopant gases introduced into the ion source chamber, thereby reducing the effects of unwanted filament growth in the cathode assembly and extending the manufacturing life of the ion source.Type: GrantFiled: December 22, 2008Date of Patent: September 11, 2012Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: John Bon-Woong Koo, David J. Twiss, Chris Campbell, Frank Sinclair, Alexander S. Perel, Craig R. Chaney, Wilhelm P. Platow, Eric R. Cobb
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Publication number: 20120175518Abstract: A time-of-flight (TOF) ion sensor system for monitoring an angular distribution of ion species having an ion energy and incident on a substrate includes a drift tube wherein the ion sensor system is configured to vary an angle of the drift tube with respect to a plane of the substrate. The drift tube may have a first end configured to receive a pulse of ions from the ion species wherein heavier ions and lighter ions of the pulse of ions arrive in packets at a second end of the drift tube. An ion detector may be disposed at the second end of the ion sensor, wherein the ion detector is configured to detect the packets of ions derived from the pulse of ions and corresponding to respective different ion masses.Type: ApplicationFiled: January 10, 2011Publication date: July 12, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Ludovic Godet, Christopher J. Leavitt, Bon-Woong Koo, Anthony Renau
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Publication number: 20120168622Abstract: An implantation system includes an ion extraction plate having a set of apertures configured to extract ions from an ion source to form a plurality of beamlets. A magnetic analyzer is configured to provide a magnetic field to deflect ions in the beamlets in a first direction that is generally perpendicular to a principle axis of the beamlets. A mass analysis plate includes a set of apertures wherein first ion species having a first mass/charge ratio are transmitted through the mass analysis plate and second ion species having a second mass/charge ratio are blocked by the mass analysis plate. A workpiece holder is configured to move with respect to the mass analysis plate in a second direction perpendicular to the first direction, wherein a pattern of ions transmitted through the mass analysis plate forms a continuous ion beam current along the first direction at the substrate.Type: ApplicationFiled: December 29, 2010Publication date: July 5, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Victor M. Benveniste, Frank Sinclair, Svetlana Radovanov, Bon-Woong Koo
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Patent number: 8188448Abstract: An ion source is provided that utilizes the same dopant gas supplied to the chamber to generate the desired process plasma to also provide temperature control of the chamber walls during high throughput operations. The ion source includes a chamber having a wall that defines an interior surface. A liner is disposed within the chamber and has at least one orifice to supply the dopant gas to an inside of the chamber. A gap is defined between at least a portion of the interior surface of the chamber wall and the liner. A first conduit is configured to supply dopant gas to the gap where the dopant gas has a flow rate within the gap. A second conduit is configured to remove the dopant gas from the gap, wherein the flow rate of the dopant gas within the gap acts as a heat transfer media to regulate the temperature of the interior of the chamber.Type: GrantFiled: April 5, 2010Date of Patent: May 29, 2012Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Victor Benveniste, Bon-Woong Koo, Shardul Patel, Frank Sinclair
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Patent number: 8183542Abstract: An ion source is provided that utilizes a cooling plate and a gap interface to control the temperature of an ion source chamber. The gap interface is defined between the cooling plate and a wall of the chamber. A coolant gas is supplied to the interface at a given pressure where the pressure determines thermal conductivity from the cooling plate to the chamber to control the temperature of the interior of the chamber.Type: GrantFiled: April 5, 2010Date of Patent: May 22, 2012Assignee: Varion Semiconductor Equipment Associates, Inc.Inventors: Victor Benveniste, Bon-Woong Koo, Shardul Patel, Frank Sinclair
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Publication number: 20120101742Abstract: A method of controlling operation of an indirectly-heated cathode (IHC) ion source comprises a step of measuring a rate of loss of cathode weight of the IHC ion source that occurs during operation using a first cathode configuration and under a first set of operation conditions. A maximum weight loss for the first cathode configuration is determined, and a cathode lifetime is calculated based upon the rate of cathode weight loss and the maximum weight loss. A further method comprises receiving a minimum source bias power value for operation of a cathode in a first configuration, measuring a rate of decrease in source bias power for a cathode in the first configuration, and calculating a lifetime of the cathode based upon the minimum source bias power and rate of decrease in source bias power.Type: ApplicationFiled: October 26, 2010Publication date: April 26, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Russell J. Low, Kevin M. Daniels, Bon-Woong Koo, Richard M. White, James W. Blanchette
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Publication number: 20120001087Abstract: A system and method are disclosed for controlling an ion beam. A deceleration lens is disclosed for use in an ion implanter. The lens may include a suppression electrode, first and second focus electrodes, and first and second shields. The shields may be positioned between upper and lower portions of the suppression electrode. The first and second shields are positioned between the first focus electrode and an end station of the ion implanter. Thus positioned, the first and second shields protect support surfaces of said first and second focus electrodes from deposition of back-streaming particles generated from said ion beam. In some embodiments, the first and second focus electrodes may be adjustable to enable the electrode surfaces to be adjusted with respect to a direction of the ion beam. By adjusting the angle of the focus electrodes, parallelism of the ion beam can be controlled. Other embodiments are described and claimed.Type: ApplicationFiled: June 23, 2011Publication date: January 5, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Svetlana Radovanov, Jason Schaller, Richard M. White, Kevin R. Verrier, James Blanchette, Bon-Woong Koo, Eric d. Hermanson, Kevin Daniels