Patents by Inventor Brendan Cawley
Brendan Cawley 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: 11959876Abstract: A cap for use with devices, such as sensors. The cap includes protrusions on its underside, to restrict the movement of a liquid or a gel placed under cap. The protrusions may take the form of walls or pillars, depending on the application. As such, the cap retains the liquid or gel in a specified position on the device. For example, an electrochemical sensor may require a liquid electrolyte to remain in place over one or more electrodes. The protrusions may not extend far enough to touch the device, but rather leave a small gap. However, because of the surface tension of the liquid, the liquid generally stays within the protrusions.Type: GrantFiled: May 7, 2021Date of Patent: April 16, 2024Assignee: Analog Devices International Unlimited CompanyInventors: Alfonso Berduque, Donal McAuliffe, Brendan Cawley, Raymond J. Speer, Youri Ponomarev
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Patent number: 11536680Abstract: Electrochemical sensors include a housing within which an electrolyte is provided over the electrodes. The housing includes an active region, which is the area around the electrodes in which the electrolyte must be positioned to ensure correct operation of the device. The inner walls, base and ceiling of the housing are coated in either hydrophobic or hydrophilic materials, or both, so as to encourage the electrolyte to take a position over the active region, which is defined by the position of the electrodes. In some electrochemical sensors, a combination of hydrophobic and hydrophilic materials is used and the materials can be arranged in a pattern, which encourages the electrolyte to take a position over the active region.Type: GrantFiled: November 14, 2019Date of Patent: December 27, 2022Assignee: Analog Devices International Unlimited CompanyInventors: Alfonso Berduque, Youri Victorovitch Ponomarev, Brendan Cawley, Donal McAuliffe, Raymond J. Speer
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Publication number: 20220163479Abstract: Electrochemical sensors typically include capillaries or openings in a substrate which allow the gas present in the environment to make its way into the sensor. The present disclosure proposes the use of a hydrophobic layer, coating or surface in various arrangements around these openings in order to help prevent or restrict electrolyte leaving the sensor and also prevent moisture or other liquids entering the sensor. In some such electrochemical sensors, the hydrophobic layer acts to prevent or restrict electrolyte from drying out or leaving the sensor. In other such electrochemical sensors, there is a porous electrode and a liquid electrolyte, with the hydrophobic layer repelling the electrolyte from passing through the electrode and out of the electrochemical sensor.Type: ApplicationFiled: February 11, 2022Publication date: May 26, 2022Inventors: Alfonso Berduque, Youri Victorovitch Ponomarev, Brendan Cawley, Donal McAuliffe, Raymond J. Speer
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Publication number: 20220146449Abstract: An electrochemical sensor is provided which may be formed using micromachining techniques commonly used in the manufacture of integrated circuits. This is achieved by forming microcapillaries in a silicon substrate and forming an opening in an insulating layer to allow environmental gases to reach through to the top side of the substrate. A porous electrode is printed on the top side of the insulating layer such that the electrode is formed in the opening in the insulating layer. The sensor also comprises at least one additional electrode. The electrolyte is then formed on top of the electrodes. A cap is formed over the electrodes and electrolyte. This arrangement may easily be produced using micromachining techniques.Type: ApplicationFiled: January 26, 2022Publication date: May 12, 2022Inventors: Alfonso Berduque, Helen Berney, William Allan Lane, Raymond J. Speer, Brendan Cawley, Donal McAuliffe, Patrick Martin McGuinness
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Patent number: 11268927Abstract: An electrochemical sensor is provided which may be formed using micromachining techniques commonly used in the manufacture of integrated circuits. This is achieved by forming microcapillaries in a silicon substrate and forming an opening in an insulating layer to allow environmental gases to reach through to the top side of the substrate. A porous electrode is printed on the top side of the insulating layer such that the electrode is formed in the opening in the insulating layer. The sensor also comprises at least one additional electrode. The electrolyte is then formed on top of the electrodes. A cap is formed over the electrodes and electrolyte. This arrangement may easily be produced using micromachining techniques.Type: GrantFiled: August 29, 2017Date of Patent: March 8, 2022Assignee: Analog Devices International Unlimited CompanyInventors: Alfonso Berduque, Helen Berney, William Allan Lane, Raymond J. Speer, Brendan Cawley, Donal McAuliffe, Patrick Martin McGuinness
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Publication number: 20210262973Abstract: A cap for use with devices, such as sensors. The cap includes protrusions on its underside, to restrict the movement of a liquid or a gel placed under cap. The protrusions may take the form of walls or pillars, depending on the application. As such, the cap retains the liquid or gel in a specified position on the device. For example, an electrochemical sensor may require a liquid electrolyte to remain in place over one or more electrodes. The protrusions may not extend far enough to touch the device, but rather leave a small gap. However, because of the surface tension of the liquid, the liquid generally stays within the protrusions.Type: ApplicationFiled: May 7, 2021Publication date: August 26, 2021Inventors: Alfonso Berduque, Donal McAuliffe, Brendan Cawley, Raymond J. Speer, Youri Ponomarev
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Patent number: 11022579Abstract: A cap for use with devices, such as sensors. The cap includes protrusions on its underside, to restrict the movement of a liquid or a gel placed under cap. The protrusions may take the form of walls or pillars, depending on the application. As such, the cap retains the liquid or gel in a specified position on the device. For example, an electrochemical sensor may require a liquid electrolyte to remain in place over one or more electrodes. The protrusions may not extend far enough to touch the device, but rather leave a small gap. However, because of the surface tension of the liquid, the liquid generally stays within the protrusions.Type: GrantFiled: February 5, 2018Date of Patent: June 1, 2021Assignee: Analog Devices International Unlimited CompanyInventors: Alfonso Berduque, Donal McAuliffe, Brendan Cawley, Raymond J. Speer, Youri Ponomarev
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Publication number: 20210148850Abstract: Electrochemical sensors include a housing within which an electrolyte is provided over the electrodes. The housing includes an active region, which is the area around the electrodes in which the electrolyte must be positioned to ensure correct operation of the device. The inner walls, base and ceiling of the housing are coated in either hydrophobic or hydrophilic materials, or both, so as to encourage the electrolyte to take a position over the active region, which is defined by the position of the electrodes. In some electrochemical sensors, a combination of hydrophobic and hydrophilic materials is used and the materials can be arranged in a pattern, which encourages the electrolyte to take a position over the active region.Type: ApplicationFiled: November 14, 2019Publication date: May 20, 2021Inventors: Alfonso Berduque, Youri Victorovitch Ponomarev, Brendan Cawley, Donal McAuliffe, Raymond J. Speer
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Publication number: 20210068354Abstract: The invention relates to a greenhouse, specifically a closed greenhouse environment suitable for use in dry environments which regulates the conditions of the growing environment whilst minimising heat and water loss. The greenhouse is especially suitable for use with macrophyte growing systems.Type: ApplicationFiled: August 30, 2018Publication date: March 11, 2021Applicant: Co2i LimitedInventor: Brendan Cawley
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Publication number: 20210048406Abstract: Electrochemical sensors typically include capillaries or openings in a substrate which allow the gas present in the environment to make its way into the sensor. The present disclosure proposes the use of a hydrophobic layer, coating or surface in various arrangements around these openings in order to help prevent or restrict electrolyte leaving the sensor and also prevent moisture or other liquids entering the sensor. In some such electrochemical sensors, the hydrophobic layer acts to prevent or restrict electrolyte from drying out or leaving the sensor. In other such electrochemical sensors, there is a porous electrode and a liquid electrolyte, with the hydrophobic layer repelling the electrolyte from passing through the electrode and out of the electrochemical sensor.Type: ApplicationFiled: August 13, 2019Publication date: February 18, 2021Inventors: Alfonso Berduque, Youri Victorovitch Ponomarev, Brendan Cawley, Donal McAuliffe, Raymond J. Speer
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Patent number: 10730743Abstract: A gas sensor package is disclosed. The gas sensor package can include a housing defining a first chamber and a second chamber. An electrolyte can be provided in the first chamber. A gas inlet can provide fluid communication between the second chamber and the outside environs. The gas inlet can be configured to permit gas to enter the second chamber from the outside environs. An integrated device die can be mounted to the housing. The integrated device die can comprise a sensing element configured to detect the gas. The integrated device die can have a first side exposed to the first chamber and a second side exposed to the second chamber, with the first side opposite the second side.Type: GrantFiled: October 12, 2018Date of Patent: August 4, 2020Assignee: Analog Devices Global Unlimited CompanyInventors: Oliver J. Kierse, Rigan McGeehan, Alfonso Berduque, Donal Peter McAuliffe, Raymond J. Speer, Brendan Cawley, Brian J. Coffey, Gerald Blaney
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Patent number: 10620151Abstract: An electrochemical sensor is provided which may be formed using micromachining techniques commonly used in the manufacture of integrated circuits. This is achieved by forming microcapillaries in a silicon substrate and forming an opening in an insulating layer to allow environmental gases to reach through to the top side of the substrate. A porous electrode is printed on the top side of the insulating layer such that the electrode is formed in the opening in the insulating layer. The sensor also comprises at least one additional electrode. The electrolyte is then formed on top of the electrodes. A cap is formed over the electrodes and electrolyte. This arrangement may easily be produced using micromachining techniques.Type: GrantFiled: August 30, 2016Date of Patent: April 14, 2020Assignee: Analog Devices GlobalInventors: Alfonso Berduque, Helen Berney, William Allan Lane, Raymond J. Speer, Brendan Cawley, Donal Mcauliffe, Patrick Martin McGuinness
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Publication number: 20190242847Abstract: A cap for use with devices, such as sensors. The cap includes protrusions on its underside, to restrict the movement of a liquid or a gel placed under cap. The protrusions may take the form of walls or pillars, depending on the application. As such, the cap retains the liquid or gel in a specified position on the device. For example, an electrochemical sensor may require a liquid electrolyte to remain in place over one or more electrodes. The protrusions may not extend far enough to touch the device, but rather leave a small gap. However, because of the surface tension of the liquid, the liquid generally stays within the protrusions.Type: ApplicationFiled: February 5, 2018Publication date: August 8, 2019Inventors: Alfonso Berduque, Donal McAuliffe, Brendan Cawley, Raymond J. Speer, Youri Ponomarev
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Publication number: 20190195825Abstract: An electrochemical sensor is provided which may be formed using micromachining techniques commonly used in the manufacture of integrated circuits. This is achieved by forming microcapillaries in a silicon substrate and forming an opening in an insulating layer to allow environmental gases to reach through to the top side of the substrate. A porous electrode is printed on the top side of the insulating layer such that the electrode is formed in the opening in the insulating layer. The sensor also comprises at least one additional electrode. The electrolyte is then formed on top of the electrodes. A cap is formed over the electrodes and electrolyte. This arrangement may easily be produced using micromachining techniques.Type: ApplicationFiled: August 29, 2017Publication date: June 27, 2019Applicant: ANALOG DEVICES GLOBALInventors: Alfonso Berduque, Helen Berney, William Allan Lane, Raymond J. Speer, Brendan Cawley, Donal McAuliffe, Patrick Martin McGuinness
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Publication number: 20190135614Abstract: A gas sensor package is disclosed. The gas sensor package can include a housing defining a first chamber and a second chamber. An electrolyte can be provided in the first chamber. A gas inlet can provide fluid communication between the second chamber and the outside environs. The gas inlet can be configured to permit gas to enter the second chamber from the outside environs. An integrated device die can be mounted to the housing. The integrated device die can comprise a sensing element configured to detect the gas. The integrated device die can have a first side exposed to the first chamber and a second side exposed to the second chamber, with the first side opposite the second side.Type: ApplicationFiled: October 12, 2018Publication date: May 9, 2019Inventors: Oliver J. Kierse, Rigan McGeehan, Alfonso Berduque, Donal Peter McAuliffe, Raymond J. Speer, Brendan Cawley, Brian J. Coffey, Gerald Blaney
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Publication number: 20180101170Abstract: The present disclosure includes a method of controlling an autonomous vehicle. The method comprises determining one or more operational parameters of the vehicle, and an ability of a driver to control one or more systems of the vehicle manually. The method further comprises adjusting a proportion of autonomous control of the vehicle based on the one or more operational parameters and the ability of the driver.Type: ApplicationFiled: October 12, 2017Publication date: April 12, 2018Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Brendan CAWLEY, Ka Hei SUEN
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Publication number: 20180059044Abstract: An electrochemical sensor is provided which may be formed using micromachining techniques commonly used in the manufacture of integrated circuits. This is achieved by forming microcapillaries in a silicon substrate and forming an opening in an insulating layer to allow environmental gases to reach through to the top side of the substrate. A porous electrode is printed on the top side of the insulating layer such that the electrode is formed in the opening in the insulating layer. The sensor also comprises at least one additional electrode. The electrolyte is then formed on top of the electrodes. A cap is formed over the electrodes and electrolyte. This arrangement may easily be produced using micromachining techniques.Type: ApplicationFiled: August 30, 2016Publication date: March 1, 2018Inventors: Alfonso Berduque, Helen Berney, William Allan Lane, Raymond J. Speer, Brendan Cawley, Donal Mcauliffe, Patrick Martin McGuinness