Patents by Inventor Joseph GAUL
Joseph GAUL 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: 11875662Abstract: A proximity detection device for a vehicle is shown and described. The proximity detection device for a vehicle includes a housing. The housing is made up of a solid exterior and an interior volume. The housing encloses at least one sensor which is operably coupled to a CPU. The CPU is then operably coupled to an alarm. The proximity detection device may be incorporated into a vehicle. Further, multiple proximity detection devices may be incorporated into a vehicle for any number of reasons.Type: GrantFiled: October 25, 2022Date of Patent: January 16, 2024Inventor: Joseph Gaul
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Publication number: 20230135624Abstract: A proximity detection device for a vehicle is shown and described. The proximity detection device for a vehicle includes a housing. The housing is made up of a solid exterior and an interior volume. The housing encloses at least one sensor which is operably coupled to a CPU. The CPU is then operably coupled to an alarm. The proximity detection device may be incorporated into a vehicle. Further, multiple proximity detection devices may be incorporated into a vehicle for any number of reasons.Type: ApplicationFiled: October 25, 2022Publication date: May 4, 2023Inventor: Joseph GAUL
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Patent number: 10224351Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: GrantFiled: August 14, 2015Date of Patent: March 5, 2019Assignee: INTERSIL AMERICAS LLCInventor: Stephen Joseph Gaul
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Patent number: 10211241Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: GrantFiled: June 16, 2015Date of Patent: February 19, 2019Assignee: INTERSIL AMERICAS LLCInventor: Stephen Joseph Gaul
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Publication number: 20150357971Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: ApplicationFiled: August 14, 2015Publication date: December 10, 2015Inventor: Stephen Joseph Gaul
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Publication number: 20150279876Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: ApplicationFiled: June 16, 2015Publication date: October 1, 2015Inventor: Stephen Joseph Gaul
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Patent number: 9147774Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: GrantFiled: September 10, 2013Date of Patent: September 29, 2015Assignee: Intersil Americas LLCInventor: Stephen Joseph Gaul
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Publication number: 20140007927Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: ApplicationFiled: September 10, 2013Publication date: January 9, 2014Applicant: Intersil Americas Inc.Inventor: Stephen Joseph Gaul
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Patent number: 8558103Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: GrantFiled: May 21, 2009Date of Patent: October 15, 2013Assignee: Intersil Americas Inc.Inventor: Stephen Joseph Gaul
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Patent number: 8288892Abstract: A device which can dynamically configure an array of power supply cells such as photovoltaic (PV) solar cells to provide power to a load device based on the power requirements of the load device. By selectively configuring the array of power supply cells according to one of a number of available series/parallel connection schemes, the supplied power can be more closely tailored by a controller to the requirements of the load device.Type: GrantFiled: February 17, 2010Date of Patent: October 16, 2012Assignee: Intersil Americas Inc.Inventor: Stephen Joseph Gaul
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Publication number: 20120248627Abstract: A semiconductor device assembly and method can include a single semiconductor layer or stacked semiconductor layers, for example semiconductor wafers or wafer sections (semiconductor dice). On each semiconductor layer, a diamond layer formed therethrough can aid in the routing and dissipation of heat. The diamond layer can include a first portion on the back of the semiconductor layer, and one or more second portions which extend vertically into the semiconductor layer, for example completely through the semiconductor layer. Thermal contact can then be made to the diamond layer to conduct heat away from the one or more semiconductor layers. A conductive via can be formed through the diamond layers to provide signal routing and heat dissipation capabilities.Type: ApplicationFiled: June 18, 2012Publication date: October 4, 2012Applicant: INTERSIL AMERICAS INC.Inventors: Stephen Joseph Gaul, Francois Hebert
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Patent number: 8268693Abstract: A “tabbed” MOS device provides radiation hardness while supporting reduced gate width requirements. The “tabbed” MOS device also utilizes a body tie ring, which reduces field threshold leakage. In one implementation the “tabbed” MOS device is designed such that a width of the tab is based on at least a channel length of the MOS device such that a radiation-induced parasitic conduction path between the source and drain region of the device has a resistance that is higher than the device channel resistance.Type: GrantFiled: August 25, 2010Date of Patent: September 18, 2012Assignee: Intersil Americas Inc.Inventors: Stephen Joseph Gaul, Michael D. Church, Brent R. Doyle
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Patent number: 8232137Abstract: A semiconductor device assembly and method can include a single semiconductor layer or stacked semiconductor layers, for example semiconductor wafers or wafer sections (semiconductor dice). On each semiconductor layer, a diamond layer formed therethrough can aid in the routing and dissipation of heat. The diamond layer can include a first portion on the back of the semiconductor layer, and one or more second portions which extend vertically into the semiconductor layer, for example completely through the semiconductor layer. Thermal contact can then be made to the diamond layer to conduct heat away from the one or more semiconductor layers. A conductive via can be formed through the diamond layers to provide signal routing and heat dissipation capabilities.Type: GrantFiled: May 4, 2010Date of Patent: July 31, 2012Assignee: Intersil Americas Inc.Inventors: Stephen Joseph Gaul, Francois Hebert
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Publication number: 20110140126Abstract: A semiconductor device assembly and method can include a single semiconductor layer or stacked semiconductor layers, for example semiconductor wafers or wafer sections (semiconductor dice). On each semiconductor layer, a diamond layer formed therethrough can aid in the routing and dissipation of heat. The diamond layer can include a first portion on the back of the semiconductor layer, and one or more second portions which extend vertically into the semiconductor layer, for example completely through the semiconductor layer. Thermal contact can then be made to the diamond layer to conduct heat away from the one or more semiconductor layers. A conductive via can be formed through the diamond layers to provide signal routing and heat dissipation capabilities.Type: ApplicationFiled: May 4, 2010Publication date: June 16, 2011Inventors: Stephen Joseph Gaul, Francois Hebert
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Publication number: 20110115047Abstract: Methods and structures for a semiconductor device can use mask openings of varying widths to form structures of different depths, different materials, and different functionality. For example, processes and structures for forming shallow trench isolation, deep isolation, trench capacitors, base, emitter, and collector, among other structures for a lateral bipolar transistor are described.Type: ApplicationFiled: June 4, 2010Publication date: May 19, 2011Inventors: Francois Hebert, Aaron Gibby, Stephen Joseph Gaul
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Publication number: 20110101787Abstract: A device which can dynamically configure an array of power supply cells such as photovoltaic (PV) solar cells to provide power to a load device based on the power requirements of the load device. By selectively configuring the array of power supply cells according to one of a number of available series/parallel connection schemes, the supplied power can be more closely tailored by a controller to the requirements of the load device.Type: ApplicationFiled: February 17, 2010Publication date: May 5, 2011Inventor: Stephen Joseph Gaul
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Patent number: 7804143Abstract: A “tabbed” MOS device provides radiation hardness while supporting reduced gate width requirements. The “tabbed” MOS device also utilizes a body tie ring, which reduces field threshold leakage. In one implementation the “tabbed” MOS device is designed such that a width of the tab is based on at least a channel length of the MOS device such that a radiation-induced parasitic conduction path between the source and drain region of the device has a resistance that is higher than the device channel resistance.Type: GrantFiled: February 18, 2009Date of Patent: September 28, 2010Assignee: Intersil Americas, Inc.Inventors: Stephen Joseph Gaul, Michael D. Church, Brent R. Doyle
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Publication number: 20100186795Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel. The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: ApplicationFiled: May 21, 2009Publication date: July 29, 2010Inventor: Stephen Joseph Gaul
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Publication number: 20100191383Abstract: Exemplary embodiments provide an array of solar power generation devices, and method for forming the array. Each solar power generation device can be defined as a cell, a group of cells, a panel subarray, a panel from an array of panels, etc. The solar power generation device can include a controller which can address and control each solar power generation device individually. A test method and fixture is also described, which can be used to program the controller such that incorrect assembly of the array during manufacture is overcome.Type: ApplicationFiled: January 8, 2010Publication date: July 29, 2010Applicant: Intersil Americas, Inc.Inventor: Stephen Joseph Gaul
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Publication number: 20100186799Abstract: Exemplary embodiments provide a solar cell device, and method for forming the solar cell device by integrating a switch component into a solar cell element. The solar cell element can include a solar cell, a solar cell array and/or a solar cell panel The integrated solar cell element can be used for a solar sensor, while the solar sensor can also use discrete switches for each solar cell area of the sensor. Exemplary embodiments also provide a connection system for the solar cell elements and a method for super-connecting the solar cell elements to provide a desired connection path or a desired power output through switch settings. The disclosed connection systems and methods can allow for by-passing underperforming solar cell elements from a plurality of solar cell elements. In embodiments, the solar cell element can be extended to include a battery or a capacitor.Type: ApplicationFiled: May 21, 2009Publication date: July 29, 2010Inventor: Stephen Joseph Gaul