Patents by Inventor Klau Witt
Klau Witt 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: 11933769Abstract: A multidimensional sample separation apparatus includes a first separation dimension for separating a fluidic sample, a second separation dimension for further separating the fluidic sample, a switching mechanism, and a control unit. The first separation dimension includes a first fluid drive unit and a first sample separation unit. The second separation dimension includes a second fluid drive unit for driving the separated fluidic sample, and second and third sample separation units each configured for further separating the separated fluidic sample. The switching mechanism is configured for selectively switching an outlet of the first separation dimension in fluid communication with a selected one of the second sample separation unit and/or the third sample separation unit. The control unit is configured for controlling a pressure at inlets of the second sample separation unit and the third sample separation unit to be substantially the same at least at the time of the switching.Type: GrantFiled: April 30, 2019Date of Patent: March 19, 2024Assignee: Agilent Technologies, Inc.Inventors: Dwight Robert Stoll, Klaus Witt, Konstantin Shoykhet
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Patent number: 11692980Abstract: A multi-dimensional liquid analysis system includes a flow splitter for separating mobile phase outflow from a first dimension liquid analysis system into first and second liquid split outlet flows. Volumetric flow rate control of the split outlet flows is provided by a flow control pump which withdraws one of the split outlet flows from the flow splitter at a controlled withdrawal flow rate to define the other split outlet flow rate as the difference between the outflow rate from the first dimension system and the withdrawal flow rate. In this manner, accurate and consistent flow division can be accomplished, which is particularly useful for multi-dimensional liquid analysis.Type: GrantFiled: September 19, 2019Date of Patent: July 4, 2023Assignee: Regents of the University of MinnesotaInventors: Carl W. Sims, Peter W. Carr, Marcelo Filgueira, Klaus Witt
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Patent number: 11635065Abstract: A solvent supply system for supplying a composite includes a first supply path with a first pump unit, the first supply path being adapted for supplying a first solvent to a mixing unit, the first pump unit operating periodically, and a second supply path with a second pump unit, the second supply path being adapted for supplying a second solvent to the mixing unit, the second pump unit operating periodically. The mixing unit is adapted for mixing the first and the second solvent and for supplying a composite solvent. The solvent supply system further includes a control unit adapted for controlling operation of the first and the second pump unit.Type: GrantFiled: May 17, 2021Date of Patent: April 25, 2023Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Konstantin Shoykhet
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Publication number: 20210324840Abstract: A solvent supply system for supplying a composite includes a first supply path with a first pump unit, the first supply path being adapted for supplying a first solvent to a mixing unit, the first pump unit operating periodically, and a second supply path with a second pump unit, the second supply path being adapted for supplying a second solvent to the mixing unit, the second pump unit operating periodically. The mixing unit is adapted for mixing the first and the second solvent and for supplying a composite solvent. The solvent supply system further includes a control unit adapted for controlling operation of the first and the second pump unit.Type: ApplicationFiled: May 17, 2021Publication date: October 21, 2021Inventors: Klaus Witt, Konstantin Shoykhet
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Publication number: 20210223216Abstract: A multidimensional sample separation apparatus includes a first separation dimension for separating a fluidic sample, a second separation dimension for further separating the fluidic sample, a switching mechanism, and a control unit. The first separation dimension includes a first fluid drive unit and a first sample separation unit. The second separation dimension includes a second fluid drive unit for driving the separated fluidic sample, and second and third sample separation units each configured for further separating the separated fluidic sample. The switching mechanism is configured for selectively switching an outlet of the first separation dimension in fluid communication with a selected one of the second sample separation unit and/or the third sample separation unit. The control unit is configured for controlling a pressure at inlets of the second sample separation unit and the third sample separation unit to be substantially the same at least at the time of the switching.Type: ApplicationFiled: April 30, 2019Publication date: July 22, 2021Inventors: Dwight Robert Stoll, Klaus Witt, Konstantin Shoykhet
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Patent number: 11035350Abstract: A solvent supply system for supplying a composite solvent is described. The solvent supply system comprises a first supply flow path with a first pump unit, the first supply flow path being adapted for supplying a flow of a first solvent to a mixing unit, the first pump unit operating periodically, and a second supply flow path with a second pump unit, the second supply flow path being adapted for supplying a flow of a second solvent to the mixing unit, the second pump unit operating periodically. The mixing unit is adapted for mixing the first and the second solvent and for supplying a composite solvent. The solvent supply system further comprises a control unit adapted for controlling operation of the first and the second pump unit, the control unit being adapted to prevent at least one of a predefined phase relation and a predefined frequency relation between the first pump unit and the second pump unit.Type: GrantFiled: August 24, 2018Date of Patent: June 15, 2021Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Konstantin Shoykhet
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Patent number: 10976289Abstract: To determine a corrected flow rate value of a mobile phase flowing in a liquid chromatography (LC) system, a flow rate of the mobile phase at a selected reference position in the LC system is measured to produce one or more flow rate values. A model of the LC system is applied to the flow rate value(s) to determine the corrected flow rate value(s). The model includes a distribution of capacitive elements and resistive elements arranged according to a topology of the LC system. The capacitive and resistive elements are representative of system and solvent properties affecting flow rate while operating the LC system. The system and solvent properties may be properties affecting the flow rate while operating the LC system under dynamic conditions.Type: GrantFiled: August 30, 2017Date of Patent: April 13, 2021Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Konstantin Shoykhet, Philip Herzog, Iwan Bouzid
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Patent number: 10953345Abstract: A sample dispatcher is disclosed and is configured for individually introducing a plurality of portions of one or more sample fluids into a flow of a mobile phase of a liquid separation system. The liquid separation system is configured for separating compounds of the sample fluids and comprises a mobile phase drive configured for driving the mobile phase through a separation unit configured for separating compounds of the sample fluids in the mobile phase. The sample dispatcher comprises one or more sample reservoirs, each configured for receiving and temporarily storing a respective sample fluid portion or at least a part thereof, and a bypass channel.Type: GrantFiled: April 14, 2014Date of Patent: March 23, 2021Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Konstantin Shoykhet, Dwight Stoll
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Patent number: 10830739Abstract: In a method for processing successive fluidic sample portions provided by a sample source, sample reception volumes are filled successively temporarily with at least a respective one of the sample sections, and the sample sections are emptied successively out of the sample reception volumes in such a way, that, while emptying, it is avoided to bring two respective ones of the sample sections, which have not left the sample source directly adjacent to one another, in contact with one another.Type: GrantFiled: May 28, 2015Date of Patent: November 10, 2020Assignee: Agilent Technologies, Inc.Inventors: Herbert Anderer, Konstantin Shoykhet, Klaus Witt, Stephan Buckenmaier
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Patent number: 10761071Abstract: A control device for controlling at least part of a sample separation apparatus for separating a fluidic sample, the sample separation apparatus including at least two fluid accommodation volumes having different flow through properties and each being configured for temporarily accommodating fluidic sample, wherein the control device is configured for controlling operation of at least part of the sample separation apparatus for at least partially compensating sample separation artifacts resulting from the different flow through properties of the fluid accommodation volumes.Type: GrantFiled: March 10, 2016Date of Patent: September 1, 2020Assignee: Agilent Technologies, Inc.Inventors: Dwight Robert Stoll, Konstantin Shoykhet, Klaus Witt, Stephan Buckenmaier
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Publication number: 20200025726Abstract: A multi-dimensional liquid analysis system includes a flow splitter for separating mobile phase outflow from a first dimension liquid analysis system into first and second liquid split outlet flows. Volumetric flow rate control of the split outlet flows is provided by a flow control pump which withdraws one of the split outlet flows from the flow splitter at a controlled withdrawal flow rate to define the other split outlet flow rate as the difference between the outflow rate from the first dimension system and the withdrawal flow rate. In this manner, accurate and consistent flow division can be accomplished, which is particularly useful for multi-dimensional liquid analysis.Type: ApplicationFiled: September 19, 2019Publication date: January 23, 2020Inventors: Carl W. Sims, Peter W. Carr, Marcelo Filgueira, Klaus Witt
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Patent number: 10429361Abstract: A multi-dimensional liquid analysis system includes a flow splitter for separating mobile phase outflow from a first dimension liquid analysis system into first and second liquid split outlet flows. Volumetric flow rate control of the split outlet flows is provided by a flow control pump which withdraws one of the split outlet flows from the flow splitter at a controlled withdrawal flow rate to define the other split outlet flow rate as the difference between the outflow rate from the first dimension system and the withdrawal flow rate. In this manner, accurate and consistent flow division can be accomplished, which is particularly useful for multi-dimensional liquid analysis.Type: GrantFiled: January 15, 2016Date of Patent: October 1, 2019Assignee: Regents of the University of MinnesotaInventors: Carl W. Sims, Peter W. Carr, Marcelo Roberto Filgueira, Klaus Witt
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Patent number: 10281058Abstract: A fluid processing device (10) for processing fluid, wherein the fluid processing device (10) comprises a first fluid drive unit (20) configured for driving a first fluid along a first flow path (85), a second fluid drive unit (20?) configured for driving a second fluid along a second flow path (86), and a fluidic switch (90) fluidically coupled to the first flow path (85) and to the second flow path (86) and configured for being switchable for transferring first fluid from the first flow path (85) into the second flow path (86) without interruption of fluid flow along at least one of the first flow path (85) and the second flow path (86).Type: GrantFiled: December 18, 2015Date of Patent: May 7, 2019Assignee: AGILENT TECHNOLOGIESInventors: Konstantin Shoykhet, Klaus Witt, Stephan Buckenmaier, Dwight Stoll
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Publication number: 20190064124Abstract: To determine a corrected flow rate value of a mobile phase flowing in a liquid chromatography (LC) system, a flow rate of the mobile phase at a selected reference position in the LC system is measured to produce one or more flow rate values. A model of the LC system is applied to the flow rate value(s) to determine the corrected flow rate value(s). The model includes a distribution of capacitive elements and resistive elements arranged according to a topology of the LC system. The capacitive and resistive elements are representative of system and solvent properties affecting flow rate while operating the LC system. The system and solvent properties may be properties affecting the flow rate while operating the LC system under dynamic conditions.Type: ApplicationFiled: August 30, 2017Publication date: February 28, 2019Inventors: Klaus Witt, Konstantin Shoykhet, Philip Herzog, Iwan Bouzid
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Publication number: 20190024647Abstract: A solvent supply system for supplying a composite solvent is described. The solvent supply system comprises a first supply flow path with a first pump unit, the first supply flow path being adapted for supplying a flow of a first solvent to a mixing unit, the first pump unit operating periodically, and a second supply flow path with a second pump unit, the second supply flow path being adapted for supplying a flow of a second solvent to the mixing unit, the second pump unit operating periodically. The mixing unit is adapted for mixing the first and the second solvent and for supplying a composite solvent. The solvent supply system further comprises a control unit adapted for controlling operation of the first and the second pump unit, the control unit being adapted to prevent at least one of a predefined phase relation and a predefined frequency relation between the first pump unit and the second pump unit.Type: ApplicationFiled: August 24, 2018Publication date: January 24, 2019Inventors: Klaus Witt, Konstantin Shoykhet
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Patent number: 10107273Abstract: A solvent supply system for supplying a composite solvent is described. The solvent supply system comprises a first supply flow path with a first pump unit, the first supply flow path being adapted for supplying a flow of a first solvent to a mixing unit, the first pump unit operating periodically, and a second supply flow path with a second pump unit, the second supply flow path being adapted for supplying a flow of a second solvent to the mixing unit, the second pump unit operating periodically. The mixing unit is adapted for mixing the first and the second solvent and for supplying a composite solvent. The solvent supply system further comprises a control unit adapted for controlling operation of the first and the second pump unit, the control unit being adapted to prevent at least one of a predefined phase relation and a predefined frequency relation between the first pump unit and the second pump unit.Type: GrantFiled: August 7, 2008Date of Patent: October 23, 2018Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Konstantin Shoykhet
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Patent number: 10073012Abstract: A filter for filtering debris out of a fluid flowing along a fluid flow direction in a fluidic member of a sample separation device, the filter comprising a plurality of filter structures stacked along the fluid flow direction and each having pores with defined pore size, wherein the defined pore size of the stacked filter structures decreases along the fluid flow direction.Type: GrantFiled: September 4, 2011Date of Patent: September 11, 2018Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Hans-Georg Haertl
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Patent number: 10012624Abstract: An apparatus for deriving an operation mode from a first fluidic device to a second fluidic device, wherein the first fluidic device has a first target operation mode representing a desired behavior of the first fluidic device and has a first real operation mode representing the actual behavior of the first fluidic device, wherein the second fluidic device has a second target operation mode representing a desired behavior of the second fluidic device and has a second real operation mode representing the actual behavior of the second fluidic device, the apparatus comprising a first determining unit configured for determining the first real operation mode based on the first target operation mode and based on a preknown parameterization of the first fluidic device, and a second determining unit configured for determining the second target operation mode based on the determined first real operation mode and based on a preknown parameterization of the second fluidic device.Type: GrantFiled: July 20, 2016Date of Patent: July 3, 2018Assignee: Agilent Technologies, Inc.Inventors: Klaus Witt, Herbert Anderer, Alwin Ritzmann, Dominik Ruf
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Patent number: 9945762Abstract: A method and a system for introducing a sample into a mobile phase of a chromatography system is provided. The method includes initially directing the mobile phase directly into a separation unit of the chromatography system, bypassing a sample loop, the mobile phase including a combined solvent, metered from a pressurized first solvent and a second solvent; loading the sample into the sample loop, while the mobile phase continues to be directed directly into the separation unit; pressurizing the sample in the sample loop with the pressurized first solvent, while the mobile phase continues to be directed directly into the separation unit; and switching the sample loop into the mobile phase, thereby introducing the pressurized sample to the separation unit.Type: GrantFiled: December 30, 2014Date of Patent: April 17, 2018Assignee: Agilent Technologies, Inc.Inventors: Edwin E. Wikfors, Brian A. Bidlingmeyer, Klaus Witt
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Publication number: 20180052141Abstract: A control device for controlling at least part of a sample separation apparatus for separating a fluidic sample, the sample separation apparatus including at least two fluid accommodation volumes having different flow through properties and each being configured for temporarily accommodating fluidic sample, wherein the control device is configured for controlling operation of at least part of the sample separation apparatus for at least partially compensating sample separation artifacts resulting from the different flow through properties of the fluid accommodation volumes.Type: ApplicationFiled: March 10, 2016Publication date: February 22, 2018Inventors: Dwight Robert Stoll, Konstantin Shoykhet, Klaus Witt, Stephan Buckenmaier