Patents by Inventor José Antonio García Sánchez
José Antonio García Sánchez 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: 10159972Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: GrantFiled: June 18, 2015Date of Patent: December 25, 2018Assignee: Stat-Diagnostica & Innovation, S.L.Inventors: Rafael Bru Gilbert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Patent number: 10099216Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: GrantFiled: June 18, 2015Date of Patent: October 16, 2018Assignee: Stat-Diagnostica & Innovation, S.L.Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Patent number: 10092900Abstract: A fluidic testing method is presented that includes flowing an initial amount of liquid down a first inlet channel of a single-port fluidic testing system, and splitting the initial amount of liquid from the first inlet channel into a plurality of second inlet channels. Each second inlet channel is coupled to a given test chamber of a plurality of test chambers, wherein each of the plurality of test chambers has a wall that defines a longest side of a given test chamber, and wherein each of the plurality of test chambers has only one opening through the wall of a corresponding test chamber. The method also includes filling each of the plurality of test chambers with a final amount of liquid, the final amount being substantially equal in each of the test chambers and summing from each test chamber to equal the initial amount of liquid.Type: GrantFiled: June 18, 2015Date of Patent: October 9, 2018Assignee: Stat-Diagnostica & Innovation, S.L.Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Patent number: 9968928Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: GrantFiled: June 18, 2015Date of Patent: May 15, 2018Assignee: STAT-Diagnostica & Innovation, S.L.Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Patent number: 9855553Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: GrantFiled: June 18, 2015Date of Patent: January 2, 2018Assignee: Stat-Diagnostica & Innovation, S.L.Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Publication number: 20150284773Abstract: A fluidic testing method is presented that includes flowing an initial amount of liquid down a first inlet channel of a single-port fluidic testing system, and splitting the initial amount of liquid from the first inlet channel into a plurality of second inlet channels. Each second inlet channel is coupled to a given test chamber of a plurality of test chambers, wherein each of the plurality of test chambers has a wall that defines a longest side of a given test chamber, and wherein each of the plurality of test chambers has only one opening through the wall of a corresponding test chamber. The method also includes filling each of the plurality of test chambers with a final amount of liquid, the final amount being substantially equal in each of the test chambers and summing from each test chamber to equal the initial amount of liquid.Type: ApplicationFiled: June 18, 2015Publication date: October 8, 2015Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Publication number: 20150284772Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: ApplicationFiled: June 18, 2015Publication date: October 8, 2015Inventors: Rafael BRU GIBERT, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Publication number: 20150284771Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: ApplicationFiled: June 18, 2015Publication date: October 8, 2015Inventors: Rafael BRU GIBERT, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Publication number: 20150283542Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: ApplicationFiled: June 18, 2015Publication date: October 8, 2015Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Publication number: 20150284774Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: ApplicationFiled: June 18, 2015Publication date: October 8, 2015Inventors: Rafael BRU GIBERT, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio Garcia Sánchez
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Patent number: 9063121Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: GrantFiled: March 15, 2013Date of Patent: June 23, 2015Assignee: STAT-Diagnostica & Innovation, S.L.Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio García Sánchez
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Publication number: 20130302809Abstract: A fluidic testing system is presented that includes a plurality of test chambers, a plurality of inlet channels, and a fluidic network that connects the inlet channels to one or more other chambers. The plurality of test chambers are each characterized by a length and a hydraulic diameter. The length of each test chamber is aligned substantially parallel to a gravity vector. Each of the test chambers has only one opening disposed along the length of the corresponding test chamber. Additionally, each of the test chambers is coupled via its respective opening to only one of the plurality of inlet channels.Type: ApplicationFiled: March 15, 2013Publication date: November 14, 2013Applicant: STAT-DIAGNOSTICA & INNOVATION, S.L.Inventors: Rafael Bru Gibert, Jordi Carrera Fabra, Anna Comengés Casas, José Antonio García Sánchez