Patents by Inventor Jacek Korec
Jacek Korec 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: 9136060Abstract: A method of fabricating a capacitor in a semiconductor substrate. The semiconductor substrate is doped to have a low resistivity. A second electrode, insulated from a first electrode, is formed over a front side surface and connected by a metal-filled via to the back side surface. The via may be omitted and the second electrode may be in electrical contact with the substrate or may be formed on top of the dielectric layer, yielding a pair of series-connected capacitors. ESD protection for the capacitor is provided by a pair of oppositely-directed diodes formed in the substrate connected in parallel with the capacitor. Capacitance is increased while maintaining a low effective series resistance. Electrodes include a plurality of fingers, which are interdigitated with the fingers of other electrode. The capacitor is fabricated in a wafer-scale process with other capacitors, where capacitors are separated from each other by a dicing technique.Type: GrantFiled: December 28, 2007Date of Patent: September 15, 2015Assignee: VISHAY-SILICONIXInventors: Haim Goldberger, Sik Lui, Jacek Korec, Y. Mohammed Kasem, Harianto Wong, Jack Van Den Heuvel
-
Patent number: 8994115Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: GrantFiled: June 16, 2014Date of Patent: March 31, 2015Assignee: Silanna Semiconductor U.S.A., Inc.Inventors: Jacek Korec, Boyi Yang
-
Patent number: 8994105Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: GrantFiled: May 6, 2013Date of Patent: March 31, 2015Assignee: Azure Silicon LLCInventor: Jacek Korec
-
Patent number: 8928116Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: GrantFiled: July 11, 2013Date of Patent: January 6, 2015Assignee: Silanna Semiconductor U.S.A., Inc.Inventors: Jacek Korec, Boyi Yang
-
Publication number: 20140291762Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: ApplicationFiled: June 16, 2014Publication date: October 2, 2014Inventors: Jacek Korec, Boyi Yang
-
Patent number: 8847310Abstract: A MOSFET includes an active region formed on an SOI substrate. A buried well is formed in the active region. A drain region having the first conductivity type is formed in the active region and spaced laterally from a source region and the buried well. A body region is formed in the active region between the source and drain regions on the buried well, and a drift region is formed in the active region between the drain and body regions on at least a portion of the buried well. A shielding structure is formed proximate the upper surface of the active region, overlapping a gate. During conduction, the buried well forms a PN junction with the drift region which, in conjunction with the shielding structure, depletes the drift region. The MOSFET is configured to sustain a linear mode of operation of an inversion channel formed under the gate.Type: GrantFiled: June 3, 2014Date of Patent: September 30, 2014Assignee: Azure Silicon LLCInventor: Jacek Korec
-
Publication number: 20140284701Abstract: A MOSFET includes an active region formed on an SOI substrate. A buried well is formed in the active region. A drain region having the first conductivity type is formed in the active region and spaced laterally from a source region and the buried well. A body region is formed in the active region between the source and drain regions on the buried well, and a drift region is formed in the active region between the drain and body regions on at least a portion of the buried well. A shielding structure is formed proximate the upper surface of the active region, overlapping a gate. During conduction, the buried well forms a PN junction with the drift region which, in conjunction with the shielding structure, depletes the drift region. The MOSFET is configured to sustain a linear mode of operation of an inversion channel formed under the gate.Type: ApplicationFiled: June 3, 2014Publication date: September 25, 2014Applicant: Azure Silicon LLCInventor: Jacek Korec
-
Publication number: 20140183622Abstract: A semiconductor device containing a vertical power MOSFET with a planar gate and an integrated Schottky diode is formed by forming a source electrode on an extended drain of the vertical power MOSFET to form the Schottky diode and forming the source electrode on a source region of the vertical power MOSFET. The Schottky diode is connected through the source electrode to the source region. A drain electrode is formed at a bottom of a substrate of the semiconductor device. The Schottky diode is connected through the extended drain of the vertical power MOSFET to the drain electrode.Type: ApplicationFiled: December 20, 2013Publication date: July 3, 2014Inventors: Haian LIN, Shuming XU, Jacek KOREC
-
Patent number: 8722503Abstract: Capacitors and methods of forming semiconductor device capacitors are disclosed. Trenches are formed to define a capacitor bottom plate in a doped upper region of a semiconductor substrate, a dielectric layer is formed conformally over the substrate within the trenches, and a polysilicon layer is formed over the dielectric layer to define a capacitor top plate. A guard ring region of opposite conductivity and peripheral recessed areas may be added to avoid electric field crowding. A central substrate of lower doping concentration may be provided to provide a resistor in series below the capacitor bottom plate. A series resistor may also be provided in a resistivity region of the polysilicon layer laterally extending from the trenched area region. Contact for the capacitor bottom plate may be made through a contact layer formed on a bottom of the substrate.Type: GrantFiled: July 18, 2011Date of Patent: May 13, 2014Assignee: Texas Instruments IncorporatedInventors: Jacek Korec, Shuming Xu, Jun Wang, Boyi Yang
-
Patent number: 8692324Abstract: A laterally diffused metal-oxide-semiconductor transistor device includes a substrate having a first conductivity type with a semiconductor layer formed over the substrate. A source region and a drain extension region of the first conductivity type are formed in the semiconductor layer. A body region of a second conductivity type is formed in the semiconductor layer. A conductive gate is formed over a gate dielectric layer that is formed over a channel region. A drain contact electrically connects the drain extension region to the substrate and is laterally spaced from the channel region. The drain contact includes a highly-doped drain contact region formed between the substrate and the drain extension region in the semiconductor layer, wherein a topmost portion of the highly-doped drain contact region is spaced from the upper surface of the semiconductor layer. A source contact electrically connects the source region to the body region.Type: GrantFiled: June 16, 2008Date of Patent: April 8, 2014Assignee: Ciclon Semiconductor Device Corp.Inventors: Jacek Korec, Shuming Xu, Christopher Boguslaw Kocon
-
Patent number: 8674440Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: GrantFiled: July 11, 2013Date of Patent: March 18, 2014Assignee: IO Semiconductor Inc.Inventors: Jacek Korec, Boyi Yang
-
Publication number: 20140070265Abstract: Integrated circuits are presented having high voltage IGBTs with integral emitter shorts and fabrication processes using wafer bonding or gown epitaxial silicon for controlled drift region thickness and fast switching speed.Type: ApplicationFiled: September 12, 2012Publication date: March 13, 2014Applicant: Texas Instruments IncorporatedInventors: Jacek Korec, John Manning Savidge Neilson, Sameer Pendharkar
-
Publication number: 20140035032Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: ApplicationFiled: July 11, 2013Publication date: February 6, 2014Inventors: Jacek Korec, Boyi Yang
-
Publication number: 20140035047Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: ApplicationFiled: July 11, 2013Publication date: February 6, 2014Inventors: Jacek Korec, Boyi Yang
-
Publication number: 20140035102Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: ApplicationFiled: July 11, 2013Publication date: February 6, 2014Inventors: Jacek Korec, Boyi Yang
-
Publication number: 20140034999Abstract: A semiconductor structure for facilitating an integration of power devices on a common substrate includes a first insulating layer formed on the substrate and an active region having a first conductivity type formed on at least a portion of the first insulating layer. A first terminal is formed on an upper surface of the structure and electrically connects with at least one other region having the first conductivity type formed in the active region. A buried well having a second conductivity type is formed in the active region and is coupled with a second terminal formed on the upper surface of the structure. The buried well and the active region form a clamping diode which positions a breakdown avalanche region between the buried well and the first terminal. A breakdown voltage of at least one of the power devices is a function of characteristics of the buried well.Type: ApplicationFiled: May 6, 2013Publication date: February 6, 2014Applicant: Azure Silicon LLCInventor: Jacek Korec
-
Patent number: 8629019Abstract: A method for providing self aligned contacts for a trench power MOSFET is disclosed. The method includes, etching trenches in a substrate through a mask of silicon nitride deposited on an oxide layer, forming a gate oxide layer on the walls of the trenches, applying polysilicon to fill the trenches and to cover the surface of the mask of silicon nitride, removing the polysilicon from the surface of the mask of silicon nitride and applying a photoresist mask to cover a location of a gate bus.Type: GrantFiled: September 24, 2002Date of Patent: January 14, 2014Assignee: Vishay-SiliconixInventors: Robert Q. Xu, Jacek Korec
-
Publication number: 20140001855Abstract: A semiconductor device includes a semiconductor substrate, a first p-channel laterally diffused metal oxide semiconductor (LDMOS) transistor formed over the semiconductor substrate and additional p-channel LDMOS transistors formed over the semiconductor substrate. First drain and gate electrodes are formed over the substrate and are coupled to the first LDMOS transistor. Additional drain and gate electrodes are formed over the substrate and are coupled to the second LDMOS transistor. A common source electrode for the first and second LDMOS transistors is also formed over the substrate.Type: ApplicationFiled: September 6, 2013Publication date: January 2, 2014Applicant: Texas Instruments IncorporatedInventors: Jacek KOREC, Stephen L. Colino
-
Patent number: 8614480Abstract: A power MOSFET is formed in a semiconductor device with a parallel combination of a shunt resistor and a diode-connected MOSFET between a gate input node of the semiconductor device and a gate of the power MOSFET. A gate of the diode-connected MOSFET is connected to the gate of the power MOSFET. Source and drain nodes of the diode-connected MOSFET are connected to a source node of the power MOSFET through diodes. The drain node of the diode-connected MOSFET is connected to the gate input node of the semiconductor device. The source node of the diode-connected MOSFET is connected to the gate of the power MOSFET. The power MOSFET and the diode-connected MOSFET are integrated into the substrate of the semiconductor device so that the diode-connected MOSFET source and drain nodes are electrically isolated from the power MOSFET source node through a pn junction.Type: GrantFiled: July 3, 2012Date of Patent: December 24, 2013Assignee: Texas Instruments IncorporatedInventors: Jun Wang, Shuming Xu, Jacek Korec
-
Patent number: 8552585Abstract: A semiconductor device includes a semiconductor substrate, a first p-channel laterally diffused metal oxide semiconductor (LDMOS) transistor formed over the semiconductor substrate and additional p-channel LDMOS transistors formed over the semiconductor substrate. First drain and gate electrodes are formed over the substrate and are coupled to the first LDMOS transistor. Additional drain and gate electrodes are formed over the substrate and are coupled to the second LDMOS transistor. A common source electrode for the first and second LDMOS transistors is also formed over the substrate.Type: GrantFiled: April 26, 2011Date of Patent: October 8, 2013Assignee: Texas Instruments IncorporatedInventors: Jacek Korec, Stephen L. Colino