Patents by Inventor Jonathan Noquil
Jonathan Noquil 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: 20260040997Abstract: A described example includes: a passive component die mounted to a device side surface of a semiconductor device die, and extending away from the device side surface of the semiconductor device die; the semiconductor device die and the passive component die flip chip mounted to a device mounting surface of a package substrate including a cavity extending into the package substrate from the device mounting surface of the package substrate, the cavity in a position corresponding to the passive component die, the passive component die extending into the cavity of the package substrate, and the package substrate having terminals on a board side surface; and mold compound covering the semiconductor device die, the passive component die, and the device mounting surface of the package substrate, the mold compound forming the body of a microelectronic device package, the terminals of the package substrate forming terminals of the microelectronic device package.Type: ApplicationFiled: July 31, 2024Publication date: February 5, 2026Inventors: Jonathan Andrew Montoya, Makarand Ramkrishna Kulkami, Jie Chen, Jonathan Noquil
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Publication number: 20240429216Abstract: An example method includes forming a cavity in a multi-layer substrate of a leadframe. The cavity extends from a first substrate surface of the leadframe into the multi-layer substrate to define a cavity floor spaced from the first substrate surface by a cavity sidewall, and at least one conductive terminal is on the cavity floor. The method also includes placing an inductor module in the cavity, in which the inductor module includes a conductor embedded within a dielectric substrate between spaced apart first and second inductor terminals of the inductor module. The method also includes coupling at least one of the first and second inductor terminals to the at least one conductive terminal on the cavity floor. The method also includes encapsulating the inductor module and at least a portion of the leadframe with a mold compound.Type: ApplicationFiled: April 30, 2024Publication date: December 26, 2024Inventors: Jie CHEN, Rajen MURUGAN, Sylvester ANKAMAH-KUSI, Harshpreet Singh Phull BAKSHI, Jonathan NOQUIL
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Publication number: 20230411262Abstract: An example microelectronics device package includes: a device mounting layer on an uppermost trace conductor layer on a device side surface of a package substrate, the uppermost trace conductor layer having a first pattern density. The device mounting layer includes a device connection conductor layer; a device mounting land conductor layer on the device connection conductor layer, the device mounting land conductor layer having device mounting land conductors directly contacting the conductors of the device connection conductor layer and having a second pattern density that is less than the first pattern density. A semiconductor die is flip chip mounted to the device mounting layer by solder joints between post connects extending from the semiconductor die and the device mounting land conductors. Mold compound covers the semiconductor die, and the device mounting layer, the mold compound is spaced from the uppermost trace conductor layer by the device mounting layer.Type: ApplicationFiled: June 15, 2023Publication date: December 21, 2023Inventors: Osvaldo Lopez, Jonathan Noquil, Jose Carlos Arroyo, Makarand R. Kulkarni, Guangxu Li
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Publication number: 20230378146Abstract: An example microelectronic device package includes: a multilayer package substrate comprising routing conductors spaced by dielectric material, the multilayer package substrate having a device side surface and an opposing board side surface, and having a recessed portion extending from the device side surface and exposing routing conductors beneath the device side surface of the multilayer package substrate; a semiconductor die mounted to the device side surface of the multilayer package substrate and coupled to the routing conductors; a passive component mounted to the routing conductors exposed in the recessed portion of the multilayer package substrate; and mold compound covering the semiconductor die, the passive component, and a portion of the multilayer package substrate.Type: ApplicationFiled: May 18, 2023Publication date: November 23, 2023Inventors: John Carlo Molina, Julian Carlo Barbadillo, Chun Ping Lo, Sylvester Ankamah-Kusi, Rajen Murugan, Thomas Kronenberg, Jonathan Noquil, Guangxu Li, Blake Travis, Jason Colte
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Patent number: 9653388Abstract: A electronic multi-output device having a substrate including a pad and pins. A composite first chip has a first and a second transistor integrated so that the first terminals of the transistors are merged into a common terminal on one chip surface. Patterned second and third terminals are on the opposite chip surface. The common first terminal is attached to the substrate pad. The second terminals are connected by discrete first and second metal clips to respective substrate pins. A composite second chip has a third and a fourth transistor integrated so that the second terminals of the transistors are merged into a common terminal on one chip surface. Patterned first and third terminals are on the opposite chip surface. The second chip is flipped to be vertically attached with its first terminals to the first and second clips, respectively. The third terminals are connected by discrete clips to respective substrate pins. The common second terminal is connected by a common clip to a substrate pin.Type: GrantFiled: November 11, 2015Date of Patent: May 16, 2017Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Patent number: 9373571Abstract: An electronic multi-output device has a substrate including a first pad, a second pad and a plurality of pins. A first chip with a first transistor has a first terminal on one chip surface and a second and third terminals on the opposite chip surface. The first chip with its first terminal is tied to the first pad. A second chip with a second transistor has a first terminal on one chip surface and a second and third terminals on the opposite chip surface. The second chip with its first terminal is tied to the second pad. The second terminals are connected by a discrete first metal clip and a second metal clip to respective substrate pins. A composite third chip has a third and a fourth transistor integrated so that the first terminals of the transistors are on one chip surface. The second terminals are merged into a common terminal. The patterned third terminals are on the opposite chip surface. The first terminals are vertically attached to the first and second metal clips, respectively.Type: GrantFiled: November 11, 2015Date of Patent: June 21, 2016Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Patent number: 9355991Abstract: A method for fabricating an electronic multi-output device. A substrate having a pad and pins is provided. A first chip is provided having a first and a second transistor integrated so that the first terminals of the transistors are merged into a common terminal on one chip surface and the patterned second and third terminals are on the opposite chip surface. The common first terminal is attached to the substrate pad. A driver and control chip is attached to the substrate pad adjacent to the first chip. The second terminals of the first and second transistors are connected by discrete first and second gang clips to respective substrate pins. A second chip is provided having a third and a fourth transistor integrated so that the second terminals of the transistors are merged into a common terminal on one chip surface. Patterned first and third terminals are on the opposite chip surface. The second chip is flipped to attach the first terminals vertically to the first and second gang clips.Type: GrantFiled: November 11, 2015Date of Patent: May 31, 2016Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Publication number: 20160064313Abstract: A electronic multi-output device having a substrate including a pad and pins. A composite first chip has a first and a second transistor integrated so that the first terminals of the transistors are merged into a common terminal on one chip surface. Patterned second and third terminals are on the opposite chip surface. The common first terminal is attached to the substrate pad. The second terminals are connected by discrete first and second metal clips to respective substrate pins. A composite second chip has a third and a fourth transistor integrated so that the second terminals of the transistors are merged into a common terminal on one chip surface. Patterned first and third terminals are on the opposite chip surface. The second chip is flipped to be vertically attached with its first terminals to the first and second clips, respectively. The third terminals are connected by discrete clips to respective substrate pins. The common second terminal is connected by a common clip to a substrate pin.Type: ApplicationFiled: November 11, 2015Publication date: March 3, 2016Inventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Publication number: 20160064361Abstract: An electronic multi-output device has a substrate including a first pad, a second pad and a plurality of pins. A first chip with a first transistor has a first terminal on one chip surface and a second and third terminals on the opposite chip surface. The first chip with its first terminal is tied to the first pad. A second chip with a second transistor has a first terminal on one chip surface and a second and third terminals on the opposite chip surface. The second chip with its first terminal is tied to the second pad. The second terminals are connected by a discrete first metal clip and a second metal clip to respective substrate pins. A composite third chip has a third and a fourth transistor integrated so that the first terminals of the transistors are on one chip surface. The second terminals are merged into a common terminal. The patterned third terminals are on the opposite chip surface. The first terminals are vertically attached to the first and second metal clips, respectively.Type: ApplicationFiled: November 11, 2015Publication date: March 3, 2016Inventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Publication number: 20160064352Abstract: A method for fabricating an electronic multi-output device. A substrate having a pad and pins is provided. A first chip is provided having a first and a second transistor integrated so that the first terminals of the transistors are merged into a common terminal on one chip surface and the patterned second and third terminals are on the opposite chip surface. The common first terminal is attached to the substrate pad. A driver and control chip is attached to the substrate pad adjacent to the first chip. The second terminals of the first and second transistors are connected by discrete first and second gang clips to respective substrate pins. A second chip is provided having a third and a fourth transistor integrated so that the second terminals of the transistors are merged into a common terminal on one chip surface. Patterned first and third terminals are on the opposite chip surface. The second chip is flipped to attach the first terminals vertically to the first and second gang clips.Type: ApplicationFiled: November 11, 2015Publication date: March 3, 2016Inventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Patent number: 9214415Abstract: A packaged multi-output converter (200) comprising a leadframe with a chip pad (201) as ground terminal and a plurality of leads (202) including the electrical input terminal (203); a first FET chip (sync chip, 220) with its source terminal affixed to the leadframe and on its opposite surface a first drain terminal (221) positioned adjacent to a second drain terminal (222), the drain terminals connected respectively by a first (241) and a second (242) metal clip to a first (204) and second (205) output lead; a second FET chip (control chip, 211), positioned vertically over the first drain terminal, with its source terminal attached onto the first clip; a third FET chip (control chip, 212), positioned vertically over the second drain terminal, with its source terminal attached onto the second clip; and the drain terminals (213, 214) of the second and third chips attached onto a third metal clip (260) connected to the input lead (203).Type: GrantFiled: February 17, 2014Date of Patent: December 15, 2015Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Publication number: 20140306332Abstract: A packaged multi-output converter (200) comprising a leadframe with a chip pad (201) as ground terminal and a plurality of leads (202) including the electrical input terminal (203); a first FET chip (sync chip, 220) with its source terminal affixed to the leadframe and on its opposite surface a first drain terminal (221) positioned adjacent to a second drain terminal (222), the drain terminals connected respectively by a first (241) and a second (242) metal clip to a first (204) and second (205) output lead; a second FET chip (control chip, 211), positioned vertically over the first drain terminal, with its source terminal attached onto the first clip; a third FET chip (control chip, 212), positioned vertically over the second drain terminal, with its source terminal attached onto the second clip; and the drain terminals (213, 214) of the second and third chips attached onto a third metal clip (260) connected to the input lead (203).Type: ApplicationFiled: February 17, 2014Publication date: October 16, 2014Applicant: Texas Instruments IncorporatedInventors: Marie Denison, Brian Ashley Carpenter, Osvaldo Jorge Lopez, Juan Alejandro Herbsommer, Jonathan Noquil
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Publication number: 20080023807Abstract: An integrated power device module having a leadframe structure with first and second spaced pads and one or more common source-drain leads located between said first and second pads, first and second transistors flip chip attached respectively to said first and second pads, wherein the source of said second transistor is electrically connected to said one or more common source-drain leads, and a first clip attached to the drain of said first transistor and electrically connected to said one or more common source-drain leads. In another embodiment a partially encapsulated power quad flat no-lead package having an exposed top thermal drain clip which is substantially perpendicular to said with a folded stud exposed top thermal drain clip, and an exposed thermal source pad.Type: ApplicationFiled: July 27, 2007Publication date: January 31, 2008Inventors: Jonathan Noquil, Ruben Madrid
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Publication number: 20070072347Abstract: A multichip module package uses bond wire with plastic resin on one side of a lead frame to package an integrated circuit and flip chip techniques to attach one or more mosfets to the other side of the lead frame. The assembled multichip module 30 has an integrated circuit controller 14 on a central die pad. Wire bonds 16 extend from contact areas on the integrated circuit to outer leads 2.6 of the lead frame 10. On the opposite, lower side of the central die pad, the sources and gates of the mosfets 24, 26 are bump or stud attached to the half etched regions of the lead frame. The drains 36 of the mosfets and the ball contacts 22.1 on the outer leads are soldered to a printed circuit board.Type: ApplicationFiled: November 17, 2006Publication date: March 29, 2007Inventors: Jonathan Noquil, Seung Choi, Rajeev Joshi, Chung-Lin Wu
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Publication number: 20070045785Abstract: The lead frame 10 has drain leads 7 with first ends proximate one edge of the die pad and second ends distal from the die pad. A gate lead is proximate an opposite edge of the die pad and extends away from it. Source leads 6 are integral with the die pad and extend away from the same edge as the gate lead. After encapsulation the universal drain clip 30 is attached to the drain of the die and selectively attached to the distal ends of the drain leads. For landed grid footprints and ball grid footprints, the universal clip provides a drain contact on the same exterior surface as the source and gate contacts. For an MLP footprint, the universal drain is connected to the distal ends of the drain leads to carry the drain contact to the opposite external surface.Type: ApplicationFiled: August 30, 2005Publication date: March 1, 2007Inventor: Jonathan Noquil
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Publication number: 20060151861Abstract: A semiconductor die package is disclosed. It may include a semiconductor die having a first surface and a second surface, and a leadframe structure. A molding material may be formed around at least a portion of the die and at least a portion of the leadframe structure. A solderable layer may be on the exterior surface of the molding material and the first surface of the semiconductor die.Type: ApplicationFiled: January 13, 2005Publication date: July 13, 2006Inventors: Jonathan Noquil, Connie Tangpuz, Romel Manatad, Stephen Martin, Rajeev Joshi, Venkat Iyer
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Publication number: 20050285238Abstract: An integrated transistor module includes a lead frame that defines at least one low-side land and at least one high-side land. A stepped portion of the lead frame mechanically and electrically interconnects the low-side and high-side lands. A low-side transistor is mounted upon the low-side land with its drain electrically connected to the low-side land. A high-side transistor is mounted upon the high-side land with its source electrically connected to the high-side land.Type: ApplicationFiled: June 24, 2004Publication date: December 29, 2005Inventors: Rajeev Joshi, Jonathan Noquil, Consuelo Tangpuz
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Publication number: 20050206010Abstract: A multichip module package uses bond wire with plastic resin on one side of a lead frame to package an integrated circuit and flip chip techniques to attach one or more mosfets to the other side of the lead frame. The assembled multichip module 30 has an integrated circuit controller 14 on a central die pad. Wire bonds 16 extend from contact areas on the integrated circuit to outer leads 2.6 of the lead frame 10. On the opposite, lower side of the central die pad, the sources and gates of the mosfets 24, 26 are bump or stud attached to the half etched regions of the lead frame. The drains 36 of the mosfets and the ball contacts 22.1 on the outer leads are soldered to a printed circuit board.Type: ApplicationFiled: March 18, 2004Publication date: September 22, 2005Inventors: Jonathan Noquil, Seung Choi, Rajeev Joshi, Chung-Lin Wu
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Publication number: 20050087854Abstract: A power module flip chip package is provided. The power module flip chip package includes a package carrier having a front surface and a back surface facing the front surface, and a power semiconductor device electrically connected to the front surface of the package carrier via conductive bumps. The conductive bumps are electrically connected to a gate terminal, a source terminal, and a drain terminal of the power semiconductor device. The power module flip chip package has reduced resistance and inductance and improved reliability.Type: ApplicationFiled: August 26, 2004Publication date: April 28, 2005Inventors: Seung-yong Choi, Jonathan Noquil