Patents Assigned to TMGCore, LLC
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Patent number: 11304342Abstract: The instant application pertains to new fluid level monitoring apparatus and a cooling system for computer components that employs the fluid level monitoring apparatus. In one embodiment, the liquid level measurement device comprises a load cell and a buoyancy element. The buoyancy element is configured to be partially submerged in the liquid phase. The load cell and the buoyancy element are operably connected such that a change in liquid volume may be determined using Archimedes' principle.Type: GrantFiled: June 2, 2021Date of Patent: April 12, 2022Assignee: TMGCore, LLCInventors: Mazyar Amin, Thomas Turner
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Publication number: 20210274677Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. Advantageously an absorption/desorption unit is employed having a carbon element and a controller configured to regulate the absorption unit.Type: ApplicationFiled: May 17, 2021Publication date: September 2, 2021Applicant: TMGCORE, LLCInventors: John David Enright, Jacob Mertel, Taylor Monnig, William Hadala
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Patent number: 11102912Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component. Utilizing robotic arms and slot-in computing components, a self-healing computing system may be created.Type: GrantFiled: October 19, 2018Date of Patent: August 24, 2021Assignee: TMGCore, LLCInventors: John David Enright, Jake Mertel
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Patent number: 11064634Abstract: The present application pertains to testing methods and apparatus useful in two-phase liquid immersion cooling systems. Such systems cool heat generating computer components which cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using the testing methods and apparatuses herein one may design and test more efficient components and systems. More specifically, the one or more heating elements are both passive and intelligent. They may be used to mimic the power load of a server which is used in the load testing of two phase liquid immersion cooling so actual servers are not required to test various aspects of the two phase liquid immersion cooling units.Type: GrantFiled: December 29, 2020Date of Patent: July 13, 2021Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel, Taylor Monnig, William Hadala
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Patent number: 11013144Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. Advantageously an absorption/desorption unit is employed having a carbon element and a controller configured to regulate the absorption unit.Type: GrantFiled: September 14, 2020Date of Patent: May 18, 2021Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel, Taylor Monnig, William Hadala
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Publication number: 20210144885Abstract: An autonomous vehicle is disclosed which can map a facility and navigate its way to a particular liquid cooling system. The vehicle can be in communication with a central server, which can control the vehicle. The vehicle can align itself against the liquid cooling system and receive a computing device on a platform of the vehicle. The platform can be lowered and secured in an enclosure of the vehicle. Then, the vehicle can transport the computing device to a storage facility.Type: ApplicationFiled: November 11, 2020Publication date: May 13, 2021Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel, Taylor Monnig, William Hadala
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Publication number: 20210120705Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Heating elements are used to maintain a minimum temperature of a dielectric immersion fluid within a two phase liquid immersion cooled computing system. The added heat from heating elements may facilitate startup by minimizing the amount of vapor load/pressure when starting up the unit and bringing one or more servers on line.Type: ApplicationFiled: December 29, 2020Publication date: April 22, 2021Applicant: TMGCORE, LLCInventors: John David Enright, Jacob Mertel
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Patent number: 10969842Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. Utilizing robotic arms and slot-in computing components located within chassis, a self-healing computing system may be created.Type: GrantFiled: September 19, 2019Date of Patent: April 6, 2021Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20210022263Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. Advantageously an absorption/desorption unit is employed having a carbon element and a controller configured to regulate the absorption unit.Type: ApplicationFiled: September 14, 2020Publication date: January 21, 2021Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Patent number: 10694643Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. The dielectric fluid may be stored in a bath portion of the cooling system. The cooling system may also include a shelf portion, which can hold at least one ballast block. The ballast block can provide for a deeper bath portion and flow of the dielectric fluid from a condenser.Type: GrantFiled: September 19, 2019Date of Patent: June 23, 2020Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Patent number: 10653043Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The system includes a vapor management system which can condense the vapor back into a liquid phase to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure.Type: GrantFiled: September 19, 2019Date of Patent: May 12, 2020Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Patent number: 10624237Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component. Utilizing robotic arms and slot-in computing components, a self-healing computing system may be created.Type: GrantFiled: September 19, 2019Date of Patent: April 14, 2020Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Patent number: 10617032Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component. Utilizing robotic arms and slot-in computing components, a self-healing computing system may be created.Type: GrantFiled: September 19, 2019Date of Patent: April 7, 2020Assignee: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20200093026Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component. Utilizing robotic arms and slot-in computing components, a self-healing computing system may be created.Type: ApplicationFiled: September 19, 2019Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20200093038Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The system includes a vapor management system which can condense the vapor back into a liquid phase to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure.Type: ApplicationFiled: September 19, 2019Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20200093024Abstract: A two-phase liquid immersion cooling method is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, a cooling system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component.Type: ApplicationFiled: September 19, 2019Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20200093032Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component. Utilizing robotic arms and slot-in computing components, a self-healing computing system may be created.Type: ApplicationFiled: October 19, 2018Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jake Mertel
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Publication number: 20200093037Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. The dielectric fluid may be stored in a bath portion of the cooling system. The cooling system may also include a shelf portion, which can hold at least one ballast block. The ballast block can provide for a deeper bath portion and flow of the dielectric fluid from a condenser.Type: ApplicationFiled: September 19, 2019Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20200089293Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. Utilizing robotic arms and slot-in computing components located within chassis, a self-healing computing system may be created.Type: ApplicationFiled: September 19, 2019Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel
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Publication number: 20200093025Abstract: A two-phase liquid immersion cooling system is described in which heat generating computer components cause a dielectric fluid in its liquid phase to vaporize. The dielectric vapor is then condensed back into a liquid phase and used to cool the computer components. Using a pressure controlled vessel and pressure controller, the disclosed system may be operated at less than ambient pressure. By controlling the pressure at which the system operates, the user may influence the temperature at which the dielectric fluid vaporizes and thereby achieve increased performance from a given computer component. Utilizing robotic arms and slot-in computing components, a self-healing computing system may be created.Type: ApplicationFiled: September 19, 2019Publication date: March 19, 2020Applicant: TMGCore, LLCInventors: John David Enright, Jacob Mertel