Patents by Inventor James Beasom
James Beasom 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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Publication number: 20080087983Abstract: Methods of forming and structures of a relatively large bipolar transistor is provided. The method includes forming a collector in a semiconductor region. Forming a base contiguous with a portion of the collector. Forming a plurality of emitters contiguous with portions of the base. Forming a common emitter interconnect and forming ballast emitter resistors for select emitters. Each ballast emitter resistor is coupled between an associated emitter and the common emitter interconnect. Each ballast resistor is further formed to have a selected resistance value. The selected resistance value of each ballast resistor is selected so the values of the ballast resistors vary in a two dimensional direction in relation to a working surface of the bipolar transistor.Type: ApplicationFiled: December 14, 2007Publication date: April 17, 2008Applicant: INTERSIL AMERICAS INC.Inventor: James Beasom
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Publication number: 20080026595Abstract: A method for forming a diffused, doped backside layer on a device wafer oxide bonded to a handle wafer in an integrated circuit is provided. The method comprises forming a thermal bond oxide layer on a backside surface of the device wafer of the integrated circuit. Implanting the bond oxide with a diffusing dopant. Diffusing dopant from the bond oxide into the backside surface of the device wafer. Depositing an oxide layer on the bond oxide and bonding the deposited oxide layer to the handle wafer of the integrated circuit.Type: ApplicationFiled: October 11, 2007Publication date: January 31, 2008Applicant: INTERSIL AMERICAS INC.Inventors: Joseph Czagas, Dustin Woodbury, James Beasom
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Publication number: 20080026536Abstract: The formation of devices in semiconductor material is provided using an HF/HCL cleaning process. In one embodiment, the method includes forming at least one hard mask overlaying at least one layer of resistive material. Forming at least one opening to a working surface of a silicon substrate of the semiconductor device. Cleaning the semiconductor device with a diluted HF/HCL process. The HF/HCL process including, applying a dilute of HF for a select amount of time and applying a dilute of HCL for a specific amount of time. After cleaning with the diluted HF/HCL process, forming a silicide contact junction in the at least one of the opening to the working surface of the silicon substrate and forming interconnect metal layers.Type: ApplicationFiled: October 11, 2007Publication date: January 31, 2008Applicant: INTERSIL AMERICAS INC.Inventors: John Gasner, John Stanton, Dustin Woodbury, James Beasom
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Publication number: 20070273006Abstract: In accordance with the invention, there are various methods of making an integrated circuit comprising a bipolar transistor. According to an embodiment of the invention, the bipolar transistor can comprise a substrate, a collector comprising a plurality of alternating doped regions, wherein the plurality of alternating doped regions alternate in a lateral direction from a net first conductivity to a net second conductivity, and a collector contact in electrical contact with the collector. The bipolar transistor can also comprise a heavily doped buried layer below the collector, a base in electrical contact with a base contact, wherein the base is doped to a net second conductivity type and wherein the base spans a portion of the plurality of alternating doped regions, and an emitter disposed within the base, the emitter doped to a net first conductivity, wherein a portion of the alternating doped region under the emitter is doped to a concentration of less than about 3×1012 cm?2.Type: ApplicationFiled: August 8, 2007Publication date: November 29, 2007Inventor: James Beasom
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Publication number: 20070052066Abstract: In accordance with the invention, there are various methods of making an integrated circuit comprising a bipolar transistor. According to an embodiment of the invention, the bipolar transistor can comprise a substrate, a collector comprising a plurality of alternating doped regions, wherein the plurality of alternating doped regions alternate in a lateral direction from a net first conductivity to a net second conductivity, and a collector contact in electrical contact with the collector. The bipolar transistor can also comprise a heavily doped buried layer below the collector, a base in electrical contact with a base contact, wherein the base is doped to a net second conductivity type and wherein the base spans a portion of the plurality of alternating doped regions, and an emitter disposed within the base, the emitter doped to a net first conductivity, wherein a portion of the alternating doped region under the emitter is doped to a concentration of less than about 3×1012 cm?2.Type: ApplicationFiled: September 2, 2005Publication date: March 8, 2007Inventor: James Beasom
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Publication number: 20070018208Abstract: An integrated circuit device comprising a diode and a method of making an integrated circuit device comprising a diode are provided. The diode can comprise an island of a first conductivity type, a first region of a second conductivity type formed in the island, and a cathode diffusion contact region doped to the second conductivity type disposed in the first region. The diode can also comprise a cathode contact electrically contacting the cathode diffusion contact region, an anode disposed in the island, an anode contact electrically contacting the anode, and a first extension region doped to the first conductivity type disposed at a surface junction between the first region and the island.Type: ApplicationFiled: January 6, 2006Publication date: January 25, 2007Inventor: James Beasom
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Publication number: 20060278939Abstract: In accordance with an embodiment of the invention, there is an integrated circuit device having a complementary integrated circuit structure comprising a first MOS device. The first MOS device comprises a source doped to a first conductivity type, a drain extension doped to the first conductivity type separated from the source by a gate, and an extension region doped to a second conductivity type underlying at least a portion of the drain extension adjacent to the gate. The integrated circuit structure also comprises a second complementary MOS device comprising a dual drain extension structure.Type: ApplicationFiled: February 24, 2006Publication date: December 14, 2006Inventor: James Beasom
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Publication number: 20060231864Abstract: The present invention relates to an integrated circuit. The integrated circuit includes a substrate, at least one device region formed in the substrate, a patterned layer of oxide, a first and second layer of nitride and at least one metal contact region. The patterned layer of oxide is formed over a surface of the substrate, wherein the patterned layer provides at least one opening to the surface of the substrate adjacent the at least one device region. The first layer of nitride is formed over the patterned oxide layer. The second nitride layer is formed along sidewalls to the at least one opening. The patterned oxide layer is sealed with the first and second nitride layers. The at least one metal contact region is formed in the at least one opening.Type: ApplicationFiled: May 18, 2006Publication date: October 19, 2006Applicant: Intersil Americas Inc.Inventor: James Beasom
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Publication number: 20060199350Abstract: A method of forming bipolar transistors by using the same mask to form the collector region in a substrate of an opposite conductivity type as to form the base in the collector region. More specifically, impurities of a first conductivity type are introduced into a region of a substrate of a second conductivity type through a first aperture in a first mask to form a collector region. Impurities of the second conductivity type are introduced in the collector through the first aperture in the first mask to form the base region. Impurities of the first conductivity type are then introduced into the base region through a second aperture in a second mask to form the emitter region. The minimum dimension of the first aperture of the first mask is selected for a desired collector to base breakdown voltage. This allows tuning of the breakdown voltage.Type: ApplicationFiled: May 17, 2006Publication date: September 7, 2006Applicant: INTERSIL AMERICAS, INC.Inventor: James Beasom
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Publication number: 20060166505Abstract: The formation of devices in semiconductor material. In one embodiment, a method of forming a semiconductor device is provided. The method comprises forming at least one hard mask overlaying at least one layer of resistive material. Forming at least one opening to a working surface of a silicon substrate of the semiconductor device. Cleaning the semiconductor device with a diluted HF/HCL process. After cleaning with the diluted HF/HCL process, forming a silicide contact junction in the at least one of the opening to the working surface of the silicon substrate and then forming interconnect metal layers.Type: ApplicationFiled: April 8, 2005Publication date: July 27, 2006Inventors: John Gasner, John Stanton, Dustin Woodbury, James Beasom
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Publication number: 20060063341Abstract: An integrated circuit including a bipolar transistor with improved forward second breakdown is disclosed. In one embodiment, the bipolar transistor includes a base, a collector, a plurality of emitter sections coupled to a common emitter and a ballast emitter for each emitter section. Each ballast resistor is coupled between the common emitter and an associated emitter section. The size of each ballast resistor is selected so that the size of the ballast resistors vary across a two dimensional direction in relation to a lateral surface of the bipolar transistor.Type: ApplicationFiled: September 15, 2005Publication date: March 23, 2006Inventor: James Beasom
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Publication number: 20060024897Abstract: Apparatus and Methods for the self-alignment of separated regions in a lateral MOSFET of an integrate circuit. In one embodiment, a method comprising, forming a relatively thin dielectric layer on a surface of a substrate. Forming a first region of relatively thick material having a predetermined lateral length on the surface of the substrate adjacent the relatively thin dielectric layer. Implanting dopants to form a top gate using a first edge of the first region as a mask to define a first edge of the top gate. Implanting dopants to form a drain contact using a second edge of the first region as a mask to define a first edge of the drain contact, wherein the distance between the top gate and drain contact is defined by the lateral length of the first region.Type: ApplicationFiled: September 29, 2005Publication date: February 2, 2006Inventor: James Beasom
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Publication number: 20060009007Abstract: Integrated circuits, semiconductor devices and methods for making the same are described. Each embodiment shows a diffused, doped backside layer in a device wafer that is oxide bonded to a handle wafer. The diffused layer may originate in the device handle, in the handle wafer, in the bond oxide or in an additional semiconductor layer of polysilicon or epitaxial silicon. The methods use a thermal bond oxide or a combination of a thermal and deposited oxide.Type: ApplicationFiled: September 15, 2005Publication date: January 12, 2006Inventors: Joseph Czagas, Dustin Woodbury, James Beasom
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Publication number: 20050214995Abstract: A high voltage lateral semiconductor device for integrated circuits with improved breakdown voltage. The semiconductor device comprising a semiconductor body, an extended drain region formed in the semiconductor body, source and drain pockets, a top gate forming a pn junction with the extended drain region, an insulating layer on a surface of the semiconductor body and a gate formed on the insulating layer. In addition, a higher-doped pocket of semiconductor material is formed within the top gate region that has a higher integrated doping than the rest of the top gate region. This higher-doped pocket of semiconductor material does not totally deplete during device operation. Moreover, the gate controls, by field-effect, a flow of current through a channel formed laterally between the source pocket and a nearest point of the extended drain region.Type: ApplicationFiled: March 15, 2005Publication date: September 29, 2005Inventor: James Beasom
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Publication number: 20050202629Abstract: A method of forming a non-single-crystalline capacitor in an integrated circuit. It includes the steps of forming a first non-single-crystalline layer on a gate dielectric layer of a substrate of an integrated circuit. Next, a capacitor dielectric layer is formed on the first non-single-crystalline layer, and a second non-single-crystalline layer is formed on the capacitor dielectric layer. Portions of the second non-single-crystalline layer are removed to define a top plate of the capacitor. Portions of the capacitor dielectric layer are removed to define a dielectric of the capacitor. Also, portions of the first non-single-crystalline layer are removed to define the bottom plate of the capacitor.Type: ApplicationFiled: March 12, 2004Publication date: September 15, 2005Inventors: Dustin Woodbury, Robert Kinzig, James Beasom, Timothy Valade, Donald Hemmenway, Kitty Elshot
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Publication number: 20050196930Abstract: A method of forming bipolar transistors by using the same mask to form the collector region in a substrate of an opposite conductivity type as to form the base in the collector region. More specifically, impurities of a first conductivity type are introduced into a region of a substrate of a second conductivity type through a first aperture in a first mask to form a collector region. Impurities of the second conductivity type are introduced in the collector through the first aperture in the first mask to form the base region. Impurities of the first conductivity type are then introduced into the base region through a second aperture in a second mask to form the emitter region. The minimum dimension of the first aperture of the first mask is selected for a desired collector to base breakdown voltage. This allows tuning of the breakdown voltage.Type: ApplicationFiled: March 8, 2004Publication date: September 8, 2005Inventor: James Beasom
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Publication number: 20050048726Abstract: Apparatus and Methods for the self-alignment of separated regions in a lateral MOSFET of an integrate circuit. In one embodiment, a method comprising, forming a relatively thin dielectric layer on a surface of a substrate. Forming a first region of relatively thick material having a predetermined lateral length on the surface of the substrate adjacent the relatively thin dielectric layer. Implanting dopants to form a top gate using a first edge of the first region as a mask to define a first edge of the top gate. Implanting dopants to form a drain contact using a second edge of the first region as a mask to define a first edge of the drain contact, wherein the distance between the top gate and drain contact is defined by the lateral length of the first region.Type: ApplicationFiled: September 24, 2004Publication date: March 3, 2005Inventor: James Beasom
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Publication number: 20050045934Abstract: The present invention relates to an integrated circuit having a MOS capacitor. In one embodiment, a method of forming an integrated circuit comprises forming an oxide layer on a surface of a substrate, the substrate having a plurality of isolation islands. Each isolation island is used in forming a semiconductor device. Patterning the oxide layer to expose predetermined areas of the surface of the substrate. Depositing a nitride layer overlaying the oxide layer and the exposed surface areas of the substrate. Implanting ions through the nitride layer, wherein the nitride layer is an implant screen for the implanted ions. Using the nitride layer as a capacitor dielectric in forming a capacitor. In addition, performing a dry etch to form contact openings that extend through the layer of nitride and through the layer of oxide to access selected device regions formed in the substrate.Type: ApplicationFiled: September 28, 2004Publication date: March 3, 2005Inventor: James Beasom
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Publication number: 20050035424Abstract: Apparatus and Methods for the self-alignment of separated regions in a lateral MOSFET of an integrate circuit. In one embodiment, a method comprising, forming a relatively thin dielectric layer on a surface of a substrate. Forming a first region of relatively thick material having a predetermined lateral length on the surface of the substrate adjacent the relatively thin dielectric layer. Implanting dopants to form a top gate using a first edge of the first region as a mask to define a first edge of the top gate. Implanting dopants to form a drain contact using a second edge of the first region as a mask to define a first edge of the drain contact, wherein the distance between the top gate and drain contact is defined by the lateral length of the first region.Type: ApplicationFiled: September 24, 2004Publication date: February 17, 2005Inventor: James Beasom
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Publication number: 20050029626Abstract: An improved base for a NPN bipolar transistor. The base region is formed with Boron and Indium dopants for improved beta early voltage product and reduced base resistance.Type: ApplicationFiled: September 17, 2004Publication date: February 10, 2005Inventor: James Beasom