Patents by Inventor Niall Caldwell
Niall Caldwell 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: 11959252Abstract: A hydraulic apparatus has a plurality of pump modules each of which is formed by a plurality of working chambers having a common high pressure manifold. A connecting circuit switchably connects pump modules to first and second hydraulic circuit portions to allocate capacity as first and second demands for hydraulic fluid vary. In an apparatus which may have two or more connecting circuit outputs, valves may be controlled or working chamber pumping cycles made inactive to facilitate the reallocation of a pump module from one output to another, and a control strategy addresses pump module allocation when the demands for hydraulic fluid exceed available capacity.Type: GrantFiled: September 3, 2020Date of Patent: April 16, 2024Assignee: ARTEMIS INTELLIGENT POWER LIMITEDInventors: Niall Caldwell, Uwe Stein, Jill Macpherson, Matthew Green, Callan MacKay
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Publication number: 20240068494Abstract: The present invention provides a controller for hydraulic apparatus (100). The controller is configured to determine (310) that an energy return criteria has been met by movement of a first movement component of a first hydraulic actuator. In response thereto, the controller is further configured to select (320) at least one among a plurality of energy control strategies based on at least one operational characteristic of the hydraulic apparatus, and to control (330) the hydraulic apparatus to implement the energy control strategy during movement of the first movable component in such a way as to meet the energy return criteria. The plurality of energy control strategies comprises a first energy control strategy and a second energy control strategy. The at least one operational characteristic of the hydraulic apparatus comprises an indication of an expected energy recovery of one or more of the energy control strategies.Type: ApplicationFiled: December 30, 2021Publication date: February 29, 2024Inventors: Alexis DOLE, Matthew GREEN, John HUTCHESON, Daniel ABRAHAMS, Niall CALDWELL
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Publication number: 20230250616Abstract: A vehicle includes: a prime mover; a hydraulic fluid manifold; a hydraulic machine; a hydraulic accumulator; one or more hydraulic actuators; a valve arrangement; and a controller. The controller is configured to receive an actuator demand signal indicative of a demand to move the one or more hydraulic actuators; and to control the hydraulic machine and the valve arrangement to cause movement of the one or more actuators in accordance with the actuator demand signal by bringing the hydraulic accumulator into fluid communication with a first actuator chamber of the one or more hydraulic actuators, and to synchronise therewith changing a pressure in a second actuator chamber of the one or more hydraulic actuators. The second actuator chamber is in fluid communication with the hydraulic machine.Type: ApplicationFiled: February 6, 2023Publication date: August 10, 2023Applicant: DANFOSS SCOTLAND LIMITEDInventors: Daniil DUMNOV, Niall Caldwell
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Patent number: 11649727Abstract: An electronically commutated hydraulic machine is coupled to a drivetrain. Working chambers of the hydraulic machine are connected to low and high pressure manifold through electronically controlled valves. The phase of opening and closing of the valves has a default. In order to avoid cycle failure due to acceleration events, for example due to backlash in the drivetrain, the phase of opening or closing of the electronically controlled valves is temporarily advanced or retarded from the default timing.Type: GrantFiled: December 27, 2019Date of Patent: May 16, 2023Assignee: ARTEMIS INTELLIGENT POWER LIMITEDInventors: Niall Caldwell, Daniel Abrahams, Andrew Latham
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Publication number: 20220333620Abstract: A hydraulic apparatus has a plurality of pump modules each of which is formed by a plurality of working chambers having a common high pressure manifold. A connecting circuit switchably connects pump modules to first and second hydraulic circuit portions to allocate capacity as first and second demands for hydraulic fluid vary. In an apparatus which may have two or more connecting circuit outputs, valves may be controlled or working chamber pumping cycles made inactive to facilitate the reallocation of a pump module from one output to another, and a control strategy addresses pump module allocation when the demands for hydraulic fluid exceed available capacity.Type: ApplicationFiled: September 3, 2020Publication date: October 20, 2022Inventors: Niall Caldwell, Uwe Stein, Jill Macpherson, Matthew Green, Callan MacKay
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Patent number: 11137330Abstract: An object is displaced alternately in opposite directions, using a hydraulic power unit having a rotatable body which includes the shaft of a hydraulic machine having electronically commutated valves. A motor drives the rotatable body. The hydraulic machine drives an actuator to displace the object in use. Energy is transformed from rotational kinetic energy of the rotatable body to elastic strain energy or elastic strain and gravitational potential energy of the object during a pumping phase and rotation of the rotatable body slows, but does not change direction. The potential energy then drives the hydraulic machine to motor and the rotatable shaft speeds up again, storing rotational kinetic energy. The displacement of the hydraulic machine is controlled throughout to match a time varying demand taking into account the varying speed of rotation of the rotatable shaft. The motor provides energy to compensate for losses and the process can repeat cyclically.Type: GrantFiled: January 22, 2019Date of Patent: October 5, 2021Assignee: ARTEMIS INTELLIGENT POWER LIMITEDInventors: William Hugh Salvin Rampen, Niall Caldwell, Peter Mccurry
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Patent number: 11002267Abstract: A valve unit for a fluid working machine comprise a valve having a valve member (and optionally a valve seat), a valve actuator coupled to the valve member, and an electronic actuator controller which is integral to the valve unit and configured to actively control the valve actuator to thereby control the valve member.Type: GrantFiled: August 14, 2017Date of Patent: May 11, 2021Assignee: ARTEMIS INTELLIGENT POWER LIMITEDInventors: William Rampen, Niall Caldwell, Stephen Laird, Michael Fielding, Peter McCurry, Mark Brett
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Publication number: 20200208521Abstract: An electronically commutated hydraulic machine is coupled to a drivetrain. Working chambers of the hydraulic machine are connected to low and high pressure manifold through electronically controlled valves. The phase of opening and closing of the valves has a default. In order to avoid cycle failure due to acceleration events, for example due to backlash in the drivetrain, the phase of opening or closing of the electronically controlled valves is temporarily advanced or retarded from the default timing.Type: ApplicationFiled: December 27, 2019Publication date: July 2, 2020Inventors: Niall CALDWELL, Daniel ABRAHAMS, Andrew LATHAM
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Publication number: 20190226959Abstract: An object is displaced alternately in opposite directions, using a hydraulic power unit having a rotatable body which includes the shaft of a hydraulic machine having electronically commutated valves. A motor drives the rotatable body. The hydraulic machine drives an actuator to displace the object in use. Energy is transformed from rotational kinetic energy of the rotatable body to elastic strain energy or elastic strain and gravitational potential energy of the object during a pumping phase and rotation of the rotatable body slows, but does not change direction. The potential energy then drives the hydraulic machine to motor and the rotatable shaft speeds up again, storing rotational kinetic energy. The displacement of the hydraulic machine is controlled throughout to match a time varying demand taking into account the varying speed of rotation of the rotatable shaft. The motor provides energy to compensate for losses and the process can repeat cyclically.Type: ApplicationFiled: January 22, 2019Publication date: July 25, 2019Inventors: William Hugh Salvin RAMPEN, Niall CALDWELL, Peter MCCURRY
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Patent number: 9976641Abstract: A hydraulic transmission comprising a variable displacement pump and motor, at least one having cylinders having valves which are controllable on each cycle of cylinder working volume to determine the net displacement of working fluid by the cylinder. The transmission has a valve control module which determines a displacement of the pump and the motor by specifying a displacement demand. The pump and/or motor valve control module determine the frequency of intensity peaks in the frequency spectrum of the pattern of cylinders carrying out active and inactive cycles of cylinder working volume using a first procedure and, if these will fall within disallowed frequency bands including the resonant frequency of components with which the transmission is in mechanical communication, the displacement demand, or another input, is periodically modified to suppress generation of those frequencies. The hydraulic transmission is useful for example in a wind turbine generator, or a vehicle.Type: GrantFiled: February 25, 2014Date of Patent: May 22, 2018Assignee: ARTEMIS INTELLIGENT POWER LIMITEDInventors: Niall Caldwell, Daniel Abrahams, Daniil Dumnov
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Publication number: 20180045196Abstract: A valve unit for a fluid working machine comprise a valve having a valve member (and optionally a valve seat), a valve actuator coupled to the valve member, and an electronic actuator controller which is integral to the valve unit and configured to actively control the valve actuator to thereby control the valve member.Type: ApplicationFiled: August 14, 2017Publication date: February 15, 2018Inventors: William Rampen, Niall Caldwell, Stephen Laird, Michael Fielding, Peter McCurry, Mark Brett
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Publication number: 20160208898Abstract: A hydraulic transmission comprising a variable displacement pump and motor, at least one having cylinders having valves which are controllable on each cycle of cylinder working volume to determine the net displacement of working fluid by the cylinder. The transmission has a valve control module which determines a displacement of the pump and the motor by specifying a displacement demand. The pump and/or motor valve control module determine the frequency of intensity peaks in the frequency spectrum of the pattern of cylinders carrying out active and inactive cycles of cylinder working volume using a first procedure and, if these will fall within disallowed frequency bands including the resonant frequency of components with which the transmission is in mechanical communication, the displacement demand, or another input, is periodically modified to suppress generation of those frequencies. The hydraulic transmission is useful for example in a wind turbine generator, or a vehicle.Type: ApplicationFiled: February 25, 2014Publication date: July 21, 2016Inventors: Niall CALDWELL, Daniel ABRAHAMS, Daniil DUMNOV
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Patent number: 8668465Abstract: If a hydraulic system has several modes of operation, in particular a mode with a high pressure demand (II) and a mode with a high fluid flow demand (II), the hydraulic fluid pump has to be built with an accordingly high fluid flow output. Such a pump is expensive. Therefore it is suggested, to provide two pumps. I.e. a controllable main pump (2) is provided, which supplies the hydraulic consumer (6) during phases (I) of high pressure demand. During phases (II) of high fluid flow demand, normally, relatively low pressures are sufficient. Therefore, it is suggested to provide a parallel boost pump (9), which supplies the hydraulic consumer (6) in addition to the high pressure pump (2), if a high fluid flow is needed. Excess fluid flow output is avoided by controlling the fluid output flow of main pump 2.Type: GrantFiled: October 29, 2008Date of Patent: March 11, 2014Assignee: Sauer-Danfoss ApsInventors: Luke Wadsley, Niall Caldwell
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Patent number: 8646264Abstract: The present invention provides a cooling system such as employed in cooling a heat source and a transmission system having said cooling system integrated therewith. The cooling system further includes a pump for supplying hydraulic fluid under pressure to a motor for driving a fan employed in the cooling process. In operation, a controller initiates operation of the pump such as to supply hydraulic fluid to said motor only when needed, thereby to improve the efficiency and controllability of the cooling system.Type: GrantFiled: July 27, 2007Date of Patent: February 11, 2014Assignee: Artemis Intelligent Power LtdInventors: William Rampen, Niall Caldwell, Uwe Bernhard Pascall Stein
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Publication number: 20130307493Abstract: It is intended to provide a power generating apparatus of renewable energy type which obtains desired torque rapidly in response to changes of the renewable energy as well as a method of operation such an apparatus.Type: ApplicationFiled: May 30, 2011Publication date: November 21, 2013Applicant: MITSUBISHI HEAVY INDUSTRIES, LTD.Inventors: Hidekazu Ichinose, Kazuhisa Tsutsumi, Masayuki Shimizu, Niall Caldwell, Daniil Dumnov, William Rampen, Stephen Laird, Venkata Pappala
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Publication number: 20130257049Abstract: A renewable energy extraction device, such as a wind turbine generator includes a turbine driving a hydraulic pump and a variable displacement hydraulic motor driving an electrical generator connected directly to an electricity grid. The hydraulic motor employs electronically controlled valves operated to select the net displacement of working chambers of the hydraulic motor on each successive cycle of working chamber volume. In the event of an electric grid fault causing the maximum absorbable torque of the electrical generator to collapse, the electronically controlled valves are controlled to substantially reduce the rate of displacement of working fluid by the hydraulic motor, rapidly reducing the torque exerted on the generator rotor. This has the benefit of avoiding pole slip which could otherwise cause serious damage.Type: ApplicationFiled: February 18, 2011Publication date: October 3, 2013Inventors: Jamie Taylor, Michael Fielding, Niall Caldwell
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Publication number: 20130249214Abstract: In view of the problems above, it is an object of the present invention is to provide a power generating apparatus of renewable energy type which can achieve a desired output of the hydraulic motor and a stable power generation regardless of changes of the renewable energy as well as a method of operation such an apparatus.Type: ApplicationFiled: May 30, 2011Publication date: September 26, 2013Applicant: MITSUBISHI HEAVY INDUSTRIES, LTD.Inventors: Hidekazu Ichinose, Kazuhisa Tsutsumi, Masayuki Shimizu, Niall Caldwell, Daniil Dumnov, William Rampen, Stephen Laird, Venkata Pappala
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Publication number: 20130234433Abstract: An object of the present invention is to provide a wind turbine generator system and an operation control method thereof, which has a superior operation efficiency and stability at a low wind speed and during the occurrence of a gust and is equipped with Ride Through function at Grid low voltage condition. The wind turbine generator comprises a hydraulic pump of a variable displacement type which is rotated by the main shaft, a hydraulic motor of a variable displacement type which is connected to the generator, and a high pressure oil line and a low pressure oil line which are arranged between the hydraulic pump and the hydraulic motor. An accumulator is connected to the high pressure oil line via an accumulator valve. ACC valve control unit controls opening and closing of the accumulator valve based on at least one of wind speed and the state of the grid.Type: ApplicationFiled: November 30, 2010Publication date: September 12, 2013Applicant: MITSUBISHI HEAVY INDUSTRIES, LTD.Inventors: Kazuhisa Tsutsumi, Masayuki Shimizu, Niall Caldwell, Daniil Dumnov, William Rampen, Venkata Pappala
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Publication number: 20130221676Abstract: A wind turbine generator (100), or other energy extraction device, has a hydraulic circuit comprising a hydraulic pump (129) driven by a rotating shaft (125) and a hydraulic motor (131) driving an electricity generator (157), or other load. A high pressure manifold (133) extending between the pump and motor is in communication with an accumulator (145, 147, 149). A controller receives a control signal and regulates the displacement of working fluid by the hydraulic pump and the hydraulic motor relative to each other. Thus, power input through the rotating shaft and output to the load can be decoupled for at least a period of time and the energy output of energy extraction device can be varied, for example to smooth the total power output to an electricity grid (101), without compromising power input. A group of energy extraction devices can be controlled in concert to maximise power input while providing smooth power output.Type: ApplicationFiled: July 6, 2011Publication date: August 29, 2013Applicant: MITSUBISHI HEAVY INDUSTRIES, LTD.Inventors: Niall Caldwell, Daniil Dumnov, Michael Fielding, Stephen Laird, Uwe Stein, Jamie Taylor
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Publication number: 20130214537Abstract: It is intended to provide a power generating apparatus of renewable energy type and an operation method of the power generating apparatus, which can achieve both variable speed operation and grid connection without a frequency converting circuit and which uses a hydraulic transmission. In the power generating apparatus of renewable energy type 1, renewable energy received via a blade 4 is transmitted to a synchronous generator 20 via a rotating shaft 8 and a hydraulic transmission 10. The synchronous generator 20 is driven by a hydraulic motor 14 of the hydraulic transmission 10 to generate power. The synchronous generator 20 is connected to a grid without a frequency converting circuit and the power generated by the synchronous generator 20 is supplied to the grid 50. The power generating apparatus 1 is also provided with a transmission controller 40 which controls the hydraulic transmission 10.Type: ApplicationFiled: November 30, 2011Publication date: August 22, 2013Applicant: MITSUBISHI HEAVY INDUSTRIES, LTDInventors: Jun Hashimoto, Tsuyoshi Wakasa, Francesco Baldini, Niall Caldwell, Jamie Taylor, Daniil Dumnov